Publications | The Aksimentiev Group

Search

Show only items where

Author

Type

Term

Year

Keyword

Export 115857 results:

Filters: First Letter Of Last Name is A [Clear All Filters]

2016

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Swati Bhattacharya, Jejoong Yoo, and Aleksei Aksimentiev. "Water Mediates Recognition of DNA Sequence via Ionic Current Blockade in a Biological Nanopore." ACS Nano 10:4644-4651 (2016).

supporting_mspa.pdf (3.61 MB)

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Christopher Maffeo, Jejoong Yoo, and Aleksei Aksimentiev. "De Novo Reconstruction of DNA Origami Structures through Atomistic Molecular Dynamics Simulation." Nucleic Acids Research 44:3013-3019 (2016).

Jeffrey Comer, and Aleksei Aksimentiev. "DNA sequence-dependent ionic currents in ultra-small solid-state nanopores." Nanoscale 18:9600-9613 (2016).

supp_triplet.pdf (98.62 KB)

Pages