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George Chikenji

Showing results (1-10 of 24) with videos related to

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Protein Science : a Publication of the Protein Society|July 10, 2026
RINAMI: Residue-attributed interpretable neural network for predicting absolute folding free energy by merging structure and sequence informationNaoki Tomita, George Chikenji
Methods in Molecular Biology (Clifton, N.J.)|November 14, 2024
Statistical Analysis of Walker-A Motif-Containing β-α-β Supersecondary Structures in the Protein Data BankKoya Sakuma, George Chikenji, Motonori Ota
Biophysical Journal|December 31, 2010
Roles of DNA looping in enhancer-blocking activityNaoko Tokuda, Masaki Sasai, George Chikenji
Physical Review. E|August 20, 2021
Lattice protein design using Bayesian learningTomoei Takahashi, George Chikenji, Kei Tokita
BMC Bioinformatics|January 22, 2013
MICAN: a protein structure alignment algorithm that can handle Multiple-chains, Inverse alignments, C(α) only models, Alternative alignments, and Non-sequential alignmentsShintaro Minami, Kengo Sawada, George Chikenji
Plos One|September 23, 2014
How a spatial arrangement of secondary structure elements is dispersed in the universe of protein foldsShintaro Minami, Kengo Sawada, George Chikenji
Protein Science : a Publication of the Protein Society|September 1, 2017
Rules for connectivity of secondary structure elements in protein: Two-layer αβ sandwichesShintaro Minami, George Chikenji, Motonori Ota
Proteins|November 19, 2005
SimFold energy function for de novo protein structure prediction: consensus with RosettaYoshimi Fujitsuka, George Chikenji, Shoji Takada
Proceedings of the National Academy of Sciences of the United States of America|February 21, 2006
Shaping up the protein folding funnel by local interaction: lesson from a structure prediction studyGeorge Chikenji, Yoshimi Fujitsuka, Shoji Takada
Plos Computational Biology|August 7, 2024
Protein superfolds are characterised as frustration-free topologies: A case study of pure parallel β-sheet topologiesHiroto Murata, Kazuma Toko, George Chikenji
Pageof 3

Showing results (1-10 of 24) with videos related to

Sort By:
Pageof 3
Protein Science : a Publication of the Protein Society|July 10, 2026
RINAMI: Residue-attributed interpretable neural network for predicting absolute folding free energy by merging structure and sequence informationNaoki Tomita, George Chikenji
Methods in Molecular Biology (Clifton, N.J.)|November 14, 2024
Statistical Analysis of Walker-A Motif-Containing β-α-β Supersecondary Structures in the Protein Data BankKoya Sakuma, George Chikenji, Motonori Ota
Biophysical Journal|December 31, 2010
Roles of DNA looping in enhancer-blocking activityNaoko Tokuda, Masaki Sasai, George Chikenji
Physical Review. E|August 20, 2021
Lattice protein design using Bayesian learningTomoei Takahashi, George Chikenji, Kei Tokita
BMC Bioinformatics|January 22, 2013
MICAN: a protein structure alignment algorithm that can handle Multiple-chains, Inverse alignments, C(α) only models, Alternative alignments, and Non-sequential alignmentsShintaro Minami, Kengo Sawada, George Chikenji
Plos One|September 23, 2014
How a spatial arrangement of secondary structure elements is dispersed in the universe of protein foldsShintaro Minami, Kengo Sawada, George Chikenji
Protein Science : a Publication of the Protein Society|September 1, 2017
Rules for connectivity of secondary structure elements in protein: Two-layer αβ sandwichesShintaro Minami, George Chikenji, Motonori Ota
Proteins|November 19, 2005
SimFold energy function for de novo protein structure prediction: consensus with RosettaYoshimi Fujitsuka, George Chikenji, Shoji Takada
Proceedings of the National Academy of Sciences of the United States of America|February 21, 2006
Shaping up the protein folding funnel by local interaction: lesson from a structure prediction studyGeorge Chikenji, Yoshimi Fujitsuka, Shoji Takada
Plos Computational Biology|August 7, 2024
Protein superfolds are characterised as frustration-free topologies: A case study of pure parallel β-sheet topologiesHiroto Murata, Kazuma Toko, George Chikenji
Pageof 3