about
MMB-GUI: a fast morphing method demonstrates a possible ribosomal tRNA translocation trajectory.Coarse-Grained Conformational Sampling of Protein Structure Improves the Fit to Experimental Hydrogen-Exchange Data.SimGen: A General Simulation Method for Large SystemsCharacterizing RNA ensembles from NMR data with kinematic models.Predicting helical topologies in RNA junctions as tree graphs.Computational and experimental characterization of RNA cubic nanoscaffolds.Birth and future of multiscale modeling for macromolecular systems (Nobel Lecture).SimRNA: a coarse-grained method for RNA folding simulations and 3D structure prediction.SIMS: a hybrid method for rapid conformational analysis.GARN: Sampling RNA 3D Structure Space with Game Theory and Knowledge-Based Scoring StrategiesRNA modeling, naturallyGARN2: coarse-grained prediction of 3D structure of large RNA molecules by regret minimization.Graph-based sampling for approximating global helical topologies of RNA.Current status and future challenges in T-cell receptor/peptide/MHC molecular dynamics simulations.Fast, clash-free RNA conformational morphing using molecular junctions.Exploring peptide/MHC detachment processes using hierarchical natural move Monte Carlo.Modeling Functional Motions of Biological Systems by Customized Natural Moves.Steric exclusion and constraint satisfaction in multi-scale coarse-grained simulations.Frustration-guided motion planning reveals conformational transitions in proteins.Structural insights into species-specific features of the ribosome from the human pathogen Mycobacterium tuberculosis.Topological Structure Determination of RNA Using Small-Angle X-Ray Scattering.In silico structural modeling of multiple epigenetic marks on DNA.A coarse-grained model with implicit salt for RNAs: predicting 3D structure, stability and salt effect.A multiscale approach to predicting affinity changes in protein-protein interfaces.
P2860
Q27324802-1B450C1B-0AB3-4C5C-899F-36AE86F71910Q30400360-B4BD2519-FA7E-4EC5-AB2D-79371C89C2B5Q30836907-597EE474-E521-4B86-9041-86356E87F658Q30842127-D9D7A869-2AFA-4124-A85A-5E3C5FC72DD1Q31131985-071E7237-6F91-430B-9464-F6E1FEFB53D1Q33555910-C11DEB0B-B66B-4BE1-8873-2420943D7D57Q34432654-E59F8179-0633-41FC-B0C5-E7225CEF93AFQ34505971-5E6677B0-887B-49F5-B896-74EAA8FC7044Q34918623-BBE34C80-7DAC-44EA-8D23-E458D8946BB3Q35757341-00DC3CE2-6672-405B-9655-642FBBD45443Q35778935-C239EBA6-3B2F-49D1-85E1-C70E0F68F865Q36343097-91B750BD-6AA4-4965-9467-9CA2182A7E4DQ37660036-110E3511-38F4-45B3-9E0C-66E4C24928CDQ38366025-70B4DBA6-373B-483D-9373-1BD0BEC45FE8Q38882829-200C1B6C-1724-4951-BF80-0E87C27AAA21Q40512928-DD49F906-C857-4BDD-B95A-BE2547C527E9Q40960143-7184CA9A-F1FC-44CC-92C5-3D32D0BE9CA0Q42327345-9FB9E3B8-C36E-4FF5-8E56-852059ECE7F1Q42699012-CC7E6E31-5323-45FC-9FBC-038910F72ADDQ46295002-E9E210F9-A74F-4373-9338-A76C66884D69Q47791358-503A48E3-FBDB-4B13-BBA8-8FE576E1442BQ47801260-8745F350-4D7C-4054-8F19-0673C3BD59F9Q51038351-D1DD81F1-0DC9-46D1-8451-95EDD39C50C6Q51072404-69F7CFB0-43E1-4D2F-9C0A-FB42ABAE754A
P2860
description
2012 nî lūn-bûn
@nan
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
2012年论文
@zh
2012年论文
@zh-cn
name
Modeling and design by hierarchical natural moves.
@ast
Modeling and design by hierarchical natural moves.
@en
type
label
Modeling and design by hierarchical natural moves.
@ast
Modeling and design by hierarchical natural moves.
@en
prefLabel
Modeling and design by hierarchical natural moves.
@ast
Modeling and design by hierarchical natural moves.
@en
P2860
P356
P1476
Modeling and design by hierarchical natural moves.
@en
P2093
Adelene Y L Sim
Peter Minary
P2860
P304
P356
10.1073/PNAS.1119918109
P407
P577
2012-01-23T00:00:00Z