about
BSDB: the biomolecule stretching databaseKnotted proteins: A tangled tale of Structural BiologyPolymer uncrossing and knotting in protein folding, and their role in minimal folding pathwaysStructure of a putative NTP pyrophosphohydrolase: YP_001813558.1 from Exiguobacterium sibiricum 255-15Structure and folding of a designed knotted proteinStructural basis of cooperative DNA recognition by the plasmid conjugation factor, TraMFolding analysis of the most complex Stevedore's protein knotA knot in the protein structure - probing the near-infrared fluorescent protein iRFP designed from a bacterial phytochrome.KnotProt: a database of proteins with knots and slipknotsSlipknotting upon native-like loop formation in a trefoil knot protein.Energy landscape and multiroute folding of topologically complex proteins adenylate kinase and 2ouf-knotHow molecular knots can pass through each other.How difficult is it to fold a knotted protein? In silico insights from surface-tethered folding experimentsKnotted vs. unknotted proteins: evidence of knot-promoting loopsMethyl transfer by substrate signaling from a knotted protein foldThe fractal globule as a model of chromatin architecture in the cellConservation of complex knotting and slipknotting patterns in proteinspKNOT v.2: the protein KNOT web server.The unique cysteine knot regulates the pleotropic hormone leptin.Topological knots and links in proteins.Folding pathways of a knotted protein with a realistic atomistic force field.Effects of knots on protein folding properties.Absence of knots in known RNA structures.Conserved prosegment residues stabilize a late-stage folding transition state of pepsin independently of ground states.Two Adhesive Sites Can Enhance the Knotting Probability of DNA.In Search of Functional Advantages of Knots in Proteins.Energy landscape of knotted protein folding.Design principles for rapid folding of knotted DNA nanostructuresUntangling the Influence of a Protein Knot on Folding.Fold conservation and proteolysis in zebrafish IRBP structure: Clues to possible enzymatic function?Knotting and unknotting of a protein in single molecule experiments.Complex lasso: new entangled motifs in proteins.Knot theory in understanding proteins.Knotting pathways in proteins.Influence of chain stiffness on knottedness in single polymers.Identifying knots in proteins.The role of non-native interactions in the folding of knotted proteins: insights from molecular dynamics simulationsNatural supramolecular protein assemblies.Molecular Knots.Studies of global and local entanglements of individual protein chains using the concept of knotoids
P2860
Q24609710-91ABD53A-A106-4E1A-8077-F2D6622B5316Q26783791-F02C1407-46AC-4910-858D-76C2E38ACFE5Q27321094-54C6FA4E-53FE-4D5B-BC3B-6F6CD4766A8CQ27644214-0B79FC3D-254D-492B-B7D7-0DB12069AC37Q27665746-41145F38-2C91-47BB-9411-B135A6435C7EQ27667824-B4BF9F9A-F2E1-41C2-9C1C-4EF3A1478FCCQ28830218-AEF8B867-E2F0-4192-A72E-5976BABAAFDBQ30360192-8896B5CF-E3DA-49AD-A9DD-497A25EB0F10Q30368324-D9EAECA3-34A7-41A9-A5C3-EF040CB3F82DQ30496393-FFA59413-F81D-4199-B7EA-F8401A0CB5F8Q30528367-E5301126-D2C8-4135-B2FC-47EFCB36B296Q30580298-305D6995-38C7-4E87-AEF0-1AD97595A4E7Q31110194-E2C0A8F8-1DC5-4A68-AA79-B8CE5A57A8B7Q33649772-1EB49706-7843-4B6A-86E3-6A29668DE68EQ33675873-DB96A9F9-7171-456A-9E7A-23697FB44EC5Q34161178-F90996EB-BE38-4947-87BA-A9B402CCE253Q34280376-67E218F7-5E6D-4C60-8622-A2850E296FC9Q34302069-1C4A5317-97AF-4DBB-923C-9D5ADB157AA0Q34429716-8C274E41-BA56-4FE7-8351-AD323AB2EC81Q34553021-08F0DC8C-573D-48FD-AB57-78E371131E7CQ34649543-EDD2E395-D917-4270-9BFC-9BDE3038F027Q34984755-D3E60C76-E9EE-4A38-9F30-5A7006AF3B28Q35129105-68F3A1D8-E64F-41AE-9159-5DEC1051FD9AQ35199297-CAAB32FD-D7EC-4C6C-9551-88FF196909D2Q35681302-6C608EBD-A8C1-4CA0-B9E9-0000830BDC5FQ36180372-830C9363-145D-40ED-9481-54D73C34DFCEQ36398105-BAE4EE99-DF91-4E4A-8A74-AA25A470E0BDQ36595694-7FFA5B3A-A7E0-4AC2-9086-E4FE26329A28Q36678712-49B303D9-0CD8-4841-9DD0-F0DE4ADA4EB1Q37025682-2ECDEA62-4FA9-41B8-A5F0-AB8C17C70DEEQ37086732-00E42E63-C45C-44D8-ADEC-644BFBEE0EE5Q37428193-65F74565-2343-4314-ADEF-D7B93E61A7F2Q37959357-4833A251-71CE-46F5-92F9-3ECEB714794EQ38091472-D245CC04-C692-437D-965A-900FE5AA5618Q38091473-37948A18-1F64-4EE4-AE8F-8DC21DAE66F0Q38091474-97EA7631-7C04-40B9-8F73-99CE0826330CQ38223685-7B10A631-7C50-4568-B939-1B3CA52ED50FQ38615267-93FAFD42-87F3-42C8-B0FA-086BE943B16DQ39287363-CF3853DF-25AD-498E-B24B-A24A13DCB64FQ41108641-B130D3DF-0D26-4B69-AC1B-AC95A7A68242
P2860
description
2010 nî lūn-bûn
@nan
2010 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
A Stevedore's protein knot
@ast
A Stevedore's protein knot
@en
A Stevedore's protein knot
@en-gb
A Stevedore's protein knot
@nl
type
label
A Stevedore's protein knot
@ast
A Stevedore's protein knot
@en
A Stevedore's protein knot
@en-gb
A Stevedore's protein knot
@nl
prefLabel
A Stevedore's protein knot
@ast
A Stevedore's protein knot
@en
A Stevedore's protein knot
@en-gb
A Stevedore's protein knot
@nl
P2093
P2860
P3181
P1476
A Stevedore's protein knot
@en
P2093
Daniel Bölinger
Hsiao-Ping Hsu
Joanna I Sułkowska
Leonid A Mirny
Peter Virnau
P2860
P304
P3181
P356
10.1371/JOURNAL.PCBI.1000731
P407
P577
2010-04-01T00:00:00Z