Integrated prediction of one-dimensional structural features and their relationships with conformational flexibility in helical membrane proteins |
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| Authors: | Shandar Ahmad Yumlembam Hemajit Singh Yogesh Paudel Takaharu Mori Yuji Sugita Kenji Mizuguchi |
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| Affiliation: | 1.National Institute of Biomedical Innovation,Osaka,Japan;2.OrgDivision>Institute of Bioinformatics Research and Development,Japan Science and Technology Agency (JST-BIRD),Japan;3.Advanced Science Institute,Saitama,Japan |
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| Abstract: | Background Many structural properties such as solvent accessibility, dihedral angles and helix-helix contacts can be assigned to each residue in a membrane protein. Independent studies exist on the analysis and sequence-based prediction of some of these so-called one-dimensional features. However, there is little explanation of why certain residues are predicted in a wrong structural class or with large errors in the absolute values of these features. On the other hand, membrane proteins undergo conformational changes to allow transport as well as ligand binding. These conformational changes often occur via residues that are inherently flexible and hence, predicting fluctuations in residue positions is of great significance. |
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