Crystal structure of a monomeric retroviral protease solved by protein folding game players.
about
Crowdsourcing in biomedicine: challenges and opportunitiesPhylo: a citizen science approach for improving multiple sequence alignment.Games with a scientific purposeCardiovascular epidemiology in a changing world--challenges to investigators and the National Heart, Lung, and Blood InstituteIncreased Diels-Alderase activity through backbone remodeling guided by Foldit players.Patient centric approach for clinical trials: Current trend and new opportunitiesComputational methods in drug discoveryCrowdsourcing for bioinformaticsDetermining crystal structures through crowdsourcing and coursework.Game on, science - how video game technology may help biologists tackle visualization challenges.Macro-to-Micro Structural Proteomics: Native Source Proteins for High-Throughput CrystallizationOnline citizen science games: Opportunities for the biological sciencesCrowd science user contribution patterns and their implicationsComputational opportunities for remote collaboration and capacity building afforded by Web 2.0 and cloud computingComparing the quality of crowdsourced data contributed by expert and non-expertsThe young person's guide to the PDB.Protein modeling: what happened to the "protein structure gap"?WeFold: a coopetition for protein structure predictionComputational approaches for rational design of proteins with novel functionalitiesThe microfluidic jukebox.Perspective on computational and structural aspects of kinase discovery from IPK2014Citizen science: A new perspective to advance spatial pattern evaluation in hydrology.Musical patterns for comparative epigenomics.What Is Citizen Science?--A Scientometric Meta-AnalysisQuantification of phytoplankton bloom dynamics by citizen scientists in urban and peri-urban environments.Rosetta Structure Prediction as a Tool for Solving Difficult Molecular Replacement Problems.Algorithm discovery by protein folding game playersProtein crystallography for aspiring crystallographers or how to avoid pitfalls and traps in macromolecular structure determination.A soft and transparent handleable protein model.Using the computer game "FoldIt" to entice students to explore external representations of protein structure in a biochemistry course for nonmajors.Microbial bebop: creating music from complex dynamics in microbial ecology.Revealing structural views of biology.The quality and validation of structures from structural genomics.WebAL Comes of Age: A Review of the First 21 Years of Artificial Life on the Web.Coarse-grained, foldable, physical model of the polypeptide chain.Marine phytoplankton temperature versus growth responses from polar to tropical waters--outcome of a scientific community-wide studyBringing it all together: big data and HIV researchDistributed computing and data storage in proteomics: many hands make light work, and a stronger memory.Viewing the proteome: how to visualize proteomics data?Advanced Multidimensional Separations in Mass Spectrometry: Navigating the Big Data Deluge.
P2860
Q19857267-A3AC9A15-123A-442E-A63C-9F3EAF70299DQ21134784-1133E256-4393-470E-BC7A-C5426BA9A1D1Q21558534-31260692-D478-467D-BAB0-DD176CFE901BQ24289209-D5409378-9A5E-4AB4-8715-697058875ED6Q24625443-902FC894-A6A8-4096-A1D5-329881FCC7F5Q26801034-CB82F7E7-B707-4409-A353-B71B962F9B3AQ26997089-B33C94F4-73BF-4DD8-84A4-DBA54DFD9FF0Q27025464-7D8D66E4-F394-4E52-920B-547CCF235D87Q27033627-C5C1F3AC-08EB-428B-91AA-3DCCE2D82A86Q27336073-6A820440-2FCE-400A-9D0F-5E6B3D641AD3Q27677863-C264322C-DB09-434D-B96B-9F81AAB3FA21Q28601922-6EBC43A8-EDF2-4F6D-BFC2-928FFF35002BQ28650989-C7C66781-A6F8-4561-8D56-34E2DF4912F8Q28727240-7A48C2DA-848D-4E5B-9E9A-F9F6454635AAQ30000785-0A389121-E275-4C52-B866-549581FCA931Q30274897-63C699C2-67C7-4981-964E-B1E524A336ECQ30353390-A18C193F-2E17-4AEC-A4D5-843B717DB118Q30360721-B8952914-BC2C-40E5-8F18-3B6471A22012Q30360853-0AFAA6A7-1A46-438B-A3D8-D9731EF61CEEQ30361912-3F9030E7-1D6F-4DA4-811F-18A8B8C92921Q30373565-8157BC8E-E31C-4023-B25A-04B6A0BEAE77Q30376230-2479B6A5-60C7-4ED7-B977-B8D7AA740F60Q30379034-CCE6D70E-EF62-4C3D-80A0-C00D0FF085CDQ30386191-AA401521-5500-4851-B530-107ECF82CC53Q30387279-3C4C3B0F-BA1F-454F-90BB-EA2216F3A357Q30402670-7B28FD4A-270B-4F76-9497-C877BE880D32Q30409119-E9011C1A-22D6-4F72-94E6-A38599A43287Q30409760-20103D40-FA0C-4C33-9FED-DC1F70920CD4Q30420825-30CC6C16-4FA1-4D57-843E-5785ACCA33ECQ30426776-2C2D5C3F-46DC-448D-AE62-74B542AA50F3Q30428129-992F5078-1528-4818-9DA7-B2D1AA17E5A5Q30432666-888DEECE-1332-4020-AC43-FDD8E7AA7C6EQ30457119-96EC4EDF-729F-4487-98B9-0E53B4E91CBCQ30489632-3D008E16-29E7-4A01-8B8E-1A4E28EBF804Q30543170-F0517555-6B94-471E-98D2-513A0F13991BQ30632475-552BE8A8-AF38-4E2F-93CB-9C144208A692Q30635891-1425A975-7D23-43CE-8B0D-1C8F8192AA36Q30703115-0809875A-881A-48A5-8744-4B7E345CC19DQ30878062-C0E0AC2B-7421-4672-89F0-6A7D4AA55946Q31108309-07A0F9F7-7D64-444E-815C-CC1E8C50801F
P2860
Crystal structure of a monomeric retroviral protease solved by protein folding game players.
description
2011 nî lūn-bûn
@nan
2011 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2011 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
name
Crystal structure of a monomer ...... y protein folding game players
@nl
Crystal structure of a monomer ...... protein folding game players.
@ast
Crystal structure of a monomer ...... protein folding game players.
@en
type
label
Crystal structure of a monomer ...... y protein folding game players
@nl
Crystal structure of a monomer ...... protein folding game players.
@ast
Crystal structure of a monomer ...... protein folding game players.
@en
prefLabel
Crystal structure of a monomer ...... y protein folding game players
@nl
Crystal structure of a monomer ...... protein folding game players.
@ast
Crystal structure of a monomer ...... protein folding game players.
@en
P2093
P2860
P50
P921
P3181
P356
P1476
Crystal structure of a monomer ...... protein folding game players.
@en
P2093
Foldit Contenders Group
Foldit Void Crushers Group
Frank DiMaio
Helena Zabranska
Iva Pichova
James Thompson
Maciej Kazmierczyk
Zoran Popović
P2507
P2860
P2888
P304
P3181
P356
10.1038/NSMB.2119
P577
2011-09-18T00:00:00Z
P5875
P6179
1053686293