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2016

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Lili Sun, Marcin Tabaka, Sen Hou, Lin Li, Krzysztof Burdzy, Aleksei Aksimentiev, Christopher Maffeo, Xuzhu Zhang, and Robert Holyst. "The Hinge Region Strengthens the Nonspecific Interaction between Lac-Repressor and DNA: A Computer Simulation Study." PLoS ONE 11:e0152002 (2016).

s1file.pdf (4.91 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Jejoong Yoo, Hajin Kim, Aleksei Aksimentiev, and Taekjip Ha. "Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation." Nature Communications 7:11045 (2016).

ncomms11045-s1.pdf (1.81 MB)

Spencer Carson, James Wilson, Aleksei Aksimentiev, Peter R. Weigele, and Meni Wanunu. "Hydroxymethyluracil modifications enhance the flexibility and hydrophilicity of double-stranded DNA." Nucleic Acids Research 44:2085-2092 (2016).

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