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2012

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

Swati Bhattacharya, Ian M. Derrington, Mikhail Pavlenok, Michael Niederweis, Jens H. Gundlach, and Aleksei Aksimentiev. "Molecular dynamics study of MspA arginine mutants predicts slow DNA translocations and ion current blockades indicative of DNA sequence." ACS Nano 6:6960-8 (2012).

Supporting Information (pdf) (2.36 MB)

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

David B. Wells, Swati Bhattacharya, Rogan Carr, Christopher Maffeo, Anthony H. Ho, Jeffrey Comer, and Aleksei Aksimentiev. "Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores." Methods Mol Biol 870:165-86 (2012).

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