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2010    
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Utkur Mirsaidov, Jeffrey Comer, Valentin Dimitrov, Aleksei Aksimentiev, and Gregory Timp. "Slowing the translocation of double-stranded DNA using a nanopore smaller than the double helix." Nanotechnology 21:395501 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).
Christopher Maffeo, Robert Schöpflin, Hergen Brutzer, René Stehr, Aleksei Aksimentiev, Gero Wedemann, and Ralf Seidel. "DNA-DNA interactions in tight supercoils are described by a small effective charge density." Phys Rev Lett 105:158101 (2010).

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