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Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation

Theoretical studies suggest that homologous DNA duplexes can preferentially associate with one another in the absence of proteins. Here, the authors show that GC-rich DNA with methylated cytosine and AT-rich DNA duplexes associate more strongly than GC-rich duplexes regardless of the sequence homology.

Jejoong Yoo
Hajin Kim
Taekjip Ha
ResearchOpen Access22 Mar 2016
Nature Communications

Volume: 7, P: 1-7
Single-molecule fingerprinting of protein-drug interaction using a funneled biological nanopore

Efficient screening of protein-drug interactions (PDIs) has been impeded by the limitations of current biophysical approaches. Here, the authors present a funneled YaxAB nanopore sensor which allows label-free, single-molecule detection of proteins and PDIs.

Ki-Baek Jeong
Minju Ryu
Seung-Wook Chi
ResearchOpen Access04 Apr 2023
Nature Communications

Volume: 14, P: 1-14
Structural basis for malate-driven, pore lipid-regulated activation of the Arabidopsis vacuolar anion channel ALMT9

ALMT9 regulates anion accumulation in plant vacuoles. Here, the authors report the cryo-EM structures of Arabidopsis ALMT9 in various lipid-bound states. The results reveal a mechanism by interplay among pore lipids, malate, and membrane potential.

Yeongmok Lee
Elsa Demes-Causse
Sangho Lee
ResearchOpen Access20 Feb 2025
Nature Communications

Volume: 16, P: 1-18
Cryo-EM structures of human Cx36/GJD2 neuronal gap junction channel

Connexin 36 (Cx36) gap junction channel is responsible for signal transmission in electrical synapses. Here, the authors determine cryo-EM structures of Cx36, providing insights into a potential role of lipids in the channel gating.

Seu-Na Lee
Hwa-Jin Cho
Hyung Ho Lee
ResearchOpen Access11 Mar 2023
Nature Communications

Volume: 14, P: 1-15
Conformational changes in the human Cx43/GJA1 gap junction channel visualized using cryo-EM

Gap junction intercellular channels (GJIChs) facilitate direct communication between adjacent cells. Here, authors provide high-resolution information on dynamic structural changes in Cx43 GJICh that are necessary to understand the gating mechanism.

Hyuk-Joon Lee
Hyung Jin Cha
Jae-Sung Woo
ResearchOpen Access18 Feb 2023
Nature Communications

Volume: 14, P: 1-18
Effects of cytosine modifications on DNA flexibility and nucleosome mechanical stability

Cytosine modifications are important epigenetic markers yet their physical influence on DNA is not well understood. Here, Ngo et al. show that different alterations affect DNA flexibility, suggesting a mechanism where modifications change accessibility of nucleosome bound DNA.

Thuy T. M. Ngo
Jejoong Yoo
Taekjip Ha
ResearchOpen Access24 Feb 2016
Nature Communications

Volume: 7, P: 1-9
A synthetic enzyme built from DNA flips 10⁷ lipids per second in biological membranes

Mimicking enzyme function and improving upon it is a challenge facing nanotechnology. Here the authors design a DNA nanostructure that catalyzes the transport of lipids between bilayers at a rate three orders of magnitude higher than biological enzymes.

Alexander Ohmann
Chen-Yu Li
Aleksei Aksimentiev
ResearchOpen Access21 Jun 2018
Nature Communications

Volume: 9, P: 1-9

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Direct evidence for sequence-dependent attraction between double-stranded DNA controlled by methylation

Single-molecule fingerprinting of protein-drug interaction using a funneled biological nanopore

Structural basis for malate-driven, pore lipid-regulated activation of the Arabidopsis vacuolar anion channel ALMT9

Cryo-EM structures of human Cx36/GJD2 neuronal gap junction channel

Conformational changes in the human Cx43/GJA1 gap junction channel visualized using cryo-EM

Effects of cytosine modifications on DNA flexibility and nucleosome mechanical stability

A synthetic enzyme built from DNA flips 107 lipids per second in biological membranes

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A synthetic enzyme built from DNA flips 10⁷ lipids per second in biological membranes