about
Protein folding: then and nowModeling backbone flexibility improves protein stability estimation.Fast screening of protein surfaces using geometric invariant fingerprints.Rapid flexible docking using a stochastic rotamer library of ligandsCombined application of cheminformatics- and physical force field-based scoring functions improves binding affinity prediction for CSAR data sets.Computational design of a PAK1 binding protein.Structural basis for μ-opioid receptor binding and activation.Discrete molecular dynamics distinguishes nativelike binding poses from decoys in difficult targets.Assemblathon 1: a competitive assessment of de novo short read assembly methods.Finished bacterial genomes from shotgun sequence data.Comprehensive variation discovery in single human genomes.MedusaScore: an accurate force field-based scoring function for virtual drug screening.Cheminformatics meets molecular mechanics: a combined application of knowledge-based pose scoring and physical force field-based hit scoring functions improves the accuracy of structure-based virtual screeningFingerprint-based structure retrieval using electron density.Computational evaluation of protein stability change upon mutations.Eris: an automated estimator of protein stability.Novel structures and properties of gold nanowires.Ferroelectricity in Free Niobium ClustersSize dependent magnetic moments and electric polarizabilities of free Tb, Ho, and Tm clustersMetastability of free cobalt and iron clusters: a possible precursor to bulk ferromagnetism
P50
Q24671711-8CEB2A72-376A-4FB7-B954-5D31E2256B8CQ30366423-F66112B3-522A-4E64-9565-17D1F5CA2109Q30381362-96E7E76E-A469-4FFD-A4BA-E3891CF905DEQ33659311-33FF9C0F-83FE-494D-A79E-7CAB047E3FC0Q33968735-C16E1AE1-EE8D-4C2A-BA78-48260865E9B9Q33991383-33D3EB18-E8AA-4CEB-A6E4-01C547812DBEQ34073218-D984D4B1-1429-4152-9A3B-D3DDE172C18CQ34120783-2A317E15-8C47-47C3-8D32-BEFFDD68B604Q34217144-F030FE09-8BAE-4E30-9F23-8E5D0E892438Q34350757-9BEDE20B-D274-4E6A-AFAA-F8BA886BEC69Q34572388-3E6665C7-E562-4ED6-B67D-AC185647A302Q37149411-561F838D-3442-4483-AB1D-CCE048EF873DQ40616404-22D09D5C-8E99-43FE-B21A-1F1EF8D04ADBQ41616464-CB6120F0-ADBD-44F8-B0D8-50EE128DD4E4Q51674519-5BD793B6-B698-4D95-BFCE-CCBFE064CFDCQ51913485-CA3079E0-6B5B-41C9-A398-BAE3701DB4E6Q52066206-92E0584C-058C-4429-B13E-F760730DF24CQ57075839-ADEFCD28-2D11-4B71-A63F-D0D66C9FF504Q59658071-CDADD73A-5068-4136-9671-C1A50BBE2403Q84827564-2A9E47B7-DCA5-4614-8849-4DF5B1370969
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Shuangye Yin
@ast
Shuangye Yin
@en
Shuangye Yin
@es
Shuangye Yin
@nl
Shuangye Yin
@sl
type
label
Shuangye Yin
@ast
Shuangye Yin
@en
Shuangye Yin
@es
Shuangye Yin
@nl
Shuangye Yin
@sl
prefLabel
Shuangye Yin
@ast
Shuangye Yin
@en
Shuangye Yin
@es
Shuangye Yin
@nl
Shuangye Yin
@sl
P1053
C-3707-2009
P106
P2456
P31
P3829
P496
0000-0002-2779-2584
P569
2000-01-01T00:00:00Z