From coiled coils to small globular proteins: design of a native-like three-helix bundle. - Wikidata - wikimedia - TriplyDB

From coiled coils to small globular proteins: design of a native-like three-helix bundle.

From coiled coils to small globular proteins: design of a native-like three-helix bundle.

http://www.wikidata.org/entity/Q42846512

about

Protein design: toward functional metalloenzymes Solution structure and dynamics of a de novo designed three-helix bundle protein Design of three-dimensional domain-swapped dimers and fibrous oligomers Metal templated design of protein interfaces Computational Redesign of Thioredoxin Is Hypersensitive toward Minor Conformational Changes in the Backbone Template Tanford-Kirkwood electrostatics for protein modeling.A polar, solvent-exposed residue can be essential for native protein structure Direct prediction of profiles of sequences compatible with a protein structure by neural networks with fragment-based local and energy-based nonlocal profiles Achievements and Challenges in Computational Protein Design.The accommodation index measures the perturbation associated with insertions and deletions in coiled-coils: Application to understand signaling in histidine kinases.Histidine placement in de novo-designed heme proteins.Fast protein folding kinetics Metal ions as matchmakers for proteins.Surface organization and nanopatterning of collagen by dip-pen nanolithography.Bioinformatic analysis of α/β-hydrolase fold enzymes reveals subfamily-specific positions responsible for discrimination of amidase and lipase activities.Improving computational protein design by using structure-derived sequence profile.Design of a three-helix bundle capable of binding heavy metals in a triscysteine environment.Ultrafast folding of alpha3D: a de novo designed three-helix bundle protein Artificial metalloenzymes derived from three-helix bundles Apoprotein Structure and Metal Binding Characterization of a de Novo Designed Peptide, α3DIV, that Sequesters Toxic Heavy Metals Folding helical proteins in explicit solvent using dihedral-biased tempering.Twin-arginine translocase mutations that suppress folding quality control and permit export of misfolded substrate proteins.A de novo redesign of the WW domain Designing functional metalloproteins: from structural to catalytic metal sites.Energy functions in de novo protein design: current challenges and future prospects.Design of net-charged abc-type collagen heterotrimers.Variable primary coordination environments of Cd(II) binding to three helix bundles provide a pathway for rapid metal exchange.The role of aromatic residues in the hydrophobic core of the villin headpiece subdomain Computational design and experimental characterization of peptides intended for pH-dependent membrane insertion and pore formation Theory for protein folding cooperativity: helix bundles A de novo designed metalloenzyme for the hydration of CO2.Computational design of a collagen A:B:C-type heterotrimer.A one-dimensional free energy surface does not account for two-probe folding kinetics of protein alpha(3)D.An artificially designed pore-forming protein with anti-tumor effects.Design of artificial metalloproteins/metalloenzymes by tuning noncovalent interactions.Sculpting Metal-binding Environments in De Novo Designed Three-helix Bundles.Development of a Rubredoxin-Type Center Embedded in a de Dovo-Designed Three-Helix Bundle.Remodeling a β-peptide bundle FEATHER: Automated Analysis of Force Spectroscopy Unbinding and Unfolding Data via a Bayesian Algorithm 7 Computational protein design and discovery

P2860

Q26866201-75F96E5F-F404-48BB-8B85-15309C3E6BE9 Q27618141-ABACFFC9-713B-4AC1-9520-B4BAB4B230C1 Q27629444-33D405A2-A45F-43FC-ACD5-0361E56BD4A5 Q27658986-467FF072-A3AF-4E87-8186-1E76B7F5A4E4 Q27728105-8AF69E40-4C16-457A-8F31-36C0572D7096 Q30322987-C9C581CC-F38F-4CBE-A32D-B2D65BB7A9DA Q30326780-0882564A-95D3-4E13-A4CE-F2BF44786FDD Q30363288-687ABF5E-19FA-4C98-8F45-D8523820764C Q30395939-76899C4C-70FD-4445-BAEB-5B32A459309A Q30396495-943C06AA-C199-441F-9B41-C879D8B6C8B7 Q30776450-6E26DBD3-FA0A-4940-9882-E0D217AD3299 Q33719314-1F373DB1-59B9-4D0C-855C-401EC796676A Q33719945-A95CD589-EB77-4A04-877F-F927D1D3E3DF Q33949933-F8870121-385D-4B82-A153-1FF581F125C5 Q34435878-5F7ED535-69A9-4300-88F9-1B4FC77955CA Q34683409-5BD7BDF7-DAC5-4C0A-81A9-97F1E89AD2A6 Q34683430-6C78C7D1-06DD-40D4-AE50-8C1838AC75D8 Q34788483-29B954A4-848F-48DF-A245-5D238847E0A9 Q35236453-F2A17509-6298-4A1F-840B-86104A151677 Q35821437-0C76422B-530B-45F3-82E2-DC0E36861C04 Q35991691-F5D09DE3-C3A0-49DD-A229-63E2B357CDD4 Q36170860-9782716A-75F6-4732-88F4-B9CEB19828A7 Q36631360-4FAD1025-4E50-4BA1-927A-B8CFE0197671 Q37131196-82F56325-04A2-45F5-94FD-0E8E10FDF375 Q37364011-582A8ADE-EE21-435C-9F72-AD8253BB3994 Q37417593-0CE2ADFE-1F40-4B32-9B5D-BD2B83A1BAF3 Q37596622-B5AA254E-033B-4AB0-B5EC-7EDD13051D89 Q38269120-512BD89C-AB42-4194-AEB0-B3146CD20869 Q40589508-28316CC3-0569-475D-844C-EA1C0934552F Q41995938-13B65B83-63C0-4367-B82E-C2517CD060F3 Q42160025-20963937-DFB8-4E31-9E83-42679E83D4F0 Q42325657-6888A3F7-8336-496F-BC14-970A58A0AEAC Q43143559-78BF9032-8766-4B11-A828-25C912F7ACA0 Q46126060-68B7E95E-6A68-492A-AF91-1B3E4FBE383C Q47270643-194F2AB1-9714-4A6A-A8BF-3CCEA60FB090 Q48649039-7B5CA11A-D7F3-4907-AA40-6F5BE7F6F5CF Q51732577-7258D70D-C546-4AB4-96D5-0137F9F62003 Q56798146-165AC59A-6E8F-4C8F-9446-18E29703CCC4 Q57161066-5E072375-4F3B-4665-B407-5AD8E1B56734 Q57717630-B0299834-CC3B-4FC6-930C-37891AE29C9E

P2860

From coiled coils to small globular proteins: design of a native-like three-helix bundle.

http://www.wikidata.org/entity/Q42846512

description

1998 nî lūn-bûn

@nan

1998年の論文

@ja

1998年論文

@yue

1998年論文

@zh-hant

1998年論文

@zh-hk

1998年論文

@zh-mo

1998年論文

@zh-tw

1998年论文

@wuu

1998年论文

@zh

1998年论文

@zh-cn

name

From coiled coils to small globular proteins: design of a native-like three-helix bundle.

@en

From coiled coils to small globular proteins: design of a native-like three-helix bundle.

@nl

type

label

From coiled coils to small globular proteins: design of a native-like three-helix bundle.

@en

From coiled coils to small globular proteins: design of a native-like three-helix bundle.

@nl

prefLabel

From coiled coils to small globular proteins: design of a native-like three-helix bundle.

@en

From coiled coils to small globular proteins: design of a native-like three-helix bundle.

@nl

P1433

Q42846512-BA078B09-617E-4481-97A9-35E6C8109FA2

P1476

Q42846512-7EF4DD82-3DED-4858-A86A-857288A7D5FC

P2093

Q42846512-5AE5900B-AF34-47FB-8D1D-44A37C22CEA8

Q42846512-7A9CB59B-0155-419F-91A6-9DF57630073F

Q42846512-9876C4C4-2D6B-45D1-887D-EB7ABCE464EB

Q42846512-F4374634-FF0A-4235-823F-6ED04AA14050

P2860

Q42846512-0265E2B6-F52B-4B83-855A-06A3D0CFAEAA

Q42846512-072BE405-4851-474E-97A2-760ADDE71D66

Q42846512-1138C748-AC22-4625-91E1-D42816175CEB

Q42846512-14B6169D-D312-4DC9-91E4-ABBDCC20CBB9

Q42846512-1947B179-996E-4B36-8E8B-CF2C714040AD

Q42846512-2148F7D8-28CF-45FF-877B-13201BE71754

Q42846512-256DE7A6-0DC6-46AB-9344-6B0707172C51

Q42846512-26E4A17F-920D-48F3-AFE3-2B409ADBBED7

Q42846512-28946C34-9170-466C-98F1-A558F0679364

Q42846512-2D9129C5-AE39-4649-8004-D7D2AE5B12BA

P304

Q42846512-C26F860A-1938-46E4-9F6D-FBA36C6B53B5

P31

Q42846512-3B91BD52-A89B-492C-8652-4DD7A7640A55

P356

Q42846512-798860A8-074C-4259-B984-EC580BBB8FA6

P433

Q42846512-356DA24D-93A1-4CA2-A0A7-6E95E38C454E

P478

Q42846512-248420CD-AF9D-4D8E-94D0-1F62A415920A

P577

Q42846512-293C8510-AEBC-4913-BC00-5FA856F7B905

P5875

Q42846512-923487C2-99CB-4207-92BE-0447AF3F0B84

P698

Q42846512-7EF10A81-5EAC-4A63-9806-3891BDD68FF4

P921

Q42846512-E7E0DFE7-1480-4FAC-9A7E-262965B8E3BC

P932

Q42846512-750E8E6B-66FE-4AA2-BD36-DC26D236DF71

P356

P1433

Protein Science

P1476

From coiled coils to small globular proteins: design of a native-like three-helix bundle.

@en

P2093

J R Desjarlais

http://www.w3.org/2001/XMLSchema#string

J W Bryson

http://www.w3.org/2001/XMLSchema#string

T M Handel

http://www.w3.org/2001/XMLSchema#string

W F DeGrado

http://www.w3.org/2001/XMLSchema#string

P2860

Three-dimensional solution structure of the B domain of staphylococcal protein A: comparisons of the solution and crystal structures

Crystal structure of alpha 1: implications for protein design

Crystallographic refinement and atomic models of a human Fc fragment and its complex with fragment B of protein A from Staphylococcus aureus at 2.9- and 2.8-A resolution

Crystal structure of an isoleucine-zipper trimer

The crystal structure of lysin, a fertilization protein

Crystal structure of a synthetic triple-stranded alpha-helical bundle

Design of a monomeric 23-residue polypeptide with defined tertiary structure

Instability, unfolding and aggregation of human lysozyme variants underlying amyloid fibrillogenesis

The structure of enzyme IIAlactose from Lactococcus lactis reveals a new fold and points to possible interactions of a multicomponent system

De novo protein design: fully automated sequence selection

P304

1404-1414

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1002/PRO.5560070617

http://www.w3.org/2001/XMLSchema#string

P433

6

http://www.w3.org/2001/XMLSchema#string

P478

7

http://www.w3.org/2001/XMLSchema#string

P577

1998-06-01T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

13630138

http://www.w3.org/2001/XMLSchema#string

P698

9655345

http://www.w3.org/2001/XMLSchema#string

P921

P932

2144029

http://www.w3.org/2001/XMLSchema#string