Shape complementarity and hydrogen bond preferences in protein–protein interfaces: implications for antibody modeling and protein–protein docking
Motivations: Characterizing protein–protein interfaces and the hydrogen bonds is a first step
to better understand proteins' structures and functions toward high-resolution protein design …
to better understand proteins' structures and functions toward high-resolution protein design …
Shape complementarity and hydrogen bond preferences in protein-protein interfaces: implications for antibody modeling and protein-protein docking.
D Kuroda, JJ Gray - Bioinformatics, 2016 - search.ebscohost.com
Motivations: Characterizing protein-protein interfaces and the hydrogen bonds is a first step
to better understand proteins' structures and functions toward high-resolution protein design …
to better understand proteins' structures and functions toward high-resolution protein design …
Shape complementarity and hydrogen bond preferences in protein-protein interfaces: implications for antibody modeling and protein-protein docking
D Kuroda, JJ Gray - Bioinformatics (Oxford, England), 2016 - pubmed.ncbi.nlm.nih.gov
Motivations Characterizing protein-protein interfaces and the hydrogen bonds is a first step
to better understand proteins' structures and functions toward high-resolution protein design …
to better understand proteins' structures and functions toward high-resolution protein design …
[HTML][HTML] Shape complementarity and hydrogen bond preferences in protein–protein interfaces: implications for antibody modeling and protein–protein docking
D Kuroda, JJ Gray - Bioinformatics, 2016 - ncbi.nlm.nih.gov
Motivations: Characterizing protein–protein interfaces and the hydrogen bonds is a first step
to better understand proteins' structures and functions toward high-resolution protein design …
to better understand proteins' structures and functions toward high-resolution protein design …
[引用][C] Shape complementarity and hydrogen bond preferences in protein–protein interfaces: implications for antibody modeling and protein–protein docking
D Kuroda, JJ Gray - Bioinformatics, 2016 - cir.nii.ac.jp
Shape complementarity and hydrogen bond preferences in protein–protein interfaces:
implications for antibody modeling and protein–protein docking | CiNii Research CiNii 国立 …
implications for antibody modeling and protein–protein docking | CiNii Research CiNii 国立 …
Shape complementarity and hydrogen bond preferences in protein-protein interfaces: Implications for antibody modeling and protein-protein docking
D Kuroda, JJ Gray - Bioinformatics, 2016 - pure.johnshopkins.edu
Motivations: Characterizing protein-protein interfaces and the hydrogen bonds is a first step
to better understand proteins' structures and functions toward high-resolution protein design …
to better understand proteins' structures and functions toward high-resolution protein design …
Shape complementarity and hydrogen bond preferences in protein-protein interfaces: implications for antibody modeling and protein-protein docking.
D Kuroda, JJ Gray - Bioinformatics (Oxford, England), 2016 - europepmc.org
Results Using 6637 non-redundant protein-protein interfaces, we revealed peculiar features
of various protein complex types. In contrast to previous findings, the shape complementarity …
of various protein complex types. In contrast to previous findings, the shape complementarity …
Shape complementarity and hydrogen bond preferences in protein-protein interfaces: implications for antibody modeling and protein-protein docking.
D Kuroda, JJ Gray - Bioinformatics (Oxford, England), 2016 - europepmc.org
Results Using 6637 non-redundant protein-protein interfaces, we revealed peculiar features
of various protein complex types. In contrast to previous findings, the shape complementarity …
of various protein complex types. In contrast to previous findings, the shape complementarity …
Shape complementarity and hydrogen bond preferences in protein-protein interfaces: implications for antibody modeling and protein-protein docking.
D Kuroda, JJ Gray - Bioinformatics, 2016 - search.ebscohost.com
Motivations: Characterizing protein-protein interfaces and the hydrogen bonds is a first step
to better understand proteins' structures and functions toward high-resolution protein design …
to better understand proteins' structures and functions toward high-resolution protein design …