Evidence from flagelliform silk cDNA for the structural basis of elasticity and modular nature of spider silks. - Wikidata - awgldk - TriplyDB

Evidence from flagelliform silk cDNA for the structural basis of elasticity and modular nature of spider silks.

Evidence from flagelliform silk cDNA for the structural basis of elasticity and modular nature of spider silks.

http://www.wikidata.org/entity/Q42673149

about

Untangling spider silk evolution with spidroin terminal domains The molecular structure of spider dragline silk: folding and orientation of the protein backbone Spider silks: recombinant synthesis, assembly, spinning, and engineering of synthetic proteins Identification and characterization of multiple Spidroin 1 genes encoding major ampullate silk proteins in Nephila clavipes Silks produced by insect labial glands Retention of Ejaculate by Drosophila melanogaster Females Requires the Male-Derived Mating Plug Protein PEBme Model peptide studies of sequence regions in the elastomeric biomineralization protein, Lustrin A. I. The C-domain consensus-PG-, -NVNCT-motif High-performance spider webs: integrating biomechanics, ecology and behaviour Conservation of silk genes in Trichoptera and Lepidoptera Evidence for diet effects on the composition of silk proteins produced by spiders.Major Ampullate Spider Silk with Indistinguishable Spidroin Dope Conformations Leads to Different Fiber Molecular Structures.Modeling AFM-induced PEVK extension and the reversible unfolding of Ig/FNIII domains in single and multiple titin molecules Solid-state NMR relaxation studies of Australian spider silks.A kinetic molecular model of the reversible unfolding and refolding of titin under force extension.A protocol for the production of recombinant spider silk-like proteins for artificial fiber spinning.Egg case protein-1. A new class of silk proteins with fibroin-like properties from the spider Latrodectus hesperus.Modular evolution of egg case silk genes across orb-weaving spider superfamilies.Blueprint for a high-performance biomaterial: full-length spider dragline silk genes Aciniform spidroin, a constituent of egg case sacs and wrapping silk fibers from the black widow spider Latrodectus hesperus.Pyriform spidroin 1, a novel member of the silk gene family that anchors dragline silk fibers in attachment discs of the black widow spider, Latrodectus hesperus.Piriform spider silk sequences reveal unique repetitive elements.Effects of different post-spin stretching conditions on the mechanical properties of synthetic spider silk fibers Antheraea pernyi silk fiber: a potential resource for artificially biospinning spider dragline silk.Inducing β-sheets formation in synthetic spider silk fibers by aqueous post-spin stretching.Combining flagelliform and dragline spider silk motifs to produce tunable synthetic biopolymer fibers.Early events in the evolution of spider silk genes Spider flagelliform silk: lessons in protein design, gene structure, and molecular evolution.Nanostructure and molecular mechanics of spider dragline silk protein assemblies Full-length minor ampullate spidroin gene sequence.Elastomeric gradients: a hedge against stress concentration in marine holdfasts?Comparative structures and properties of elastic proteins.Heat Capacity of Spider Silk-like Block Copolymers.Elastomeric polypeptide-based biomaterials.Complex gene expression in the dragline silk producing glands of the Western black widow (Latrodectus hesperus).Intragenic homogenization and multiple copies of prey-wrapping silk genes in Argiope garden spiders.Ubiquitous distribution of salts and proteins in spider glue enhances spider silk adhesion.Changes in composition of spider orb web sticky droplets with starvation and web removal, and synthesis of sticky droplet compounds.Protein secondary structure and orientation in silk as revealed by Raman spectromicroscopy Spider minor ampullate silk proteins contain new repetitive sequences and highly conserved non-silk-like "spacer regions".Spider glue proteins have distinct architectures compared with traditional spidroin family members.

P2860

Q21284118-D3A346FD-6B69-4091-A4E2-5459971394B5 Q24533467-58F0AD12-9CF1-4A9F-84AF-79C736008B67 Q24559049-AC1D4F0B-C005-404B-B9B1-63AA45D930F2 Q24634152-0538AD83-F258-4BD8-A965-26B8464BE3F6 Q24654918-3E472450-BB85-4330-A19E-31637A6CC568 Q27346409-CB0162FB-FB1A-4170-A6DA-FCE91022FD2B Q27638630-97FDD334-E46E-4DE3-A6AD-41CB3421AEB5 Q28741777-E2EF3615-A5E8-4A7C-B94B-841B9C7C738C Q28752606-7655752B-7860-41CB-A0E2-305480D298E3 Q30327601-8878508C-C724-453F-8018-34487FB559E5 Q30392059-EDBF5FFC-B42B-45A4-BD12-6C568C66120D Q30650079-A8568FC5-95FD-4D72-9EEF-7B318A236CF5 Q30703500-1B525744-6C57-4EE8-A097-F15477B280FB Q30761093-13581291-C788-460B-881C-BB86C3E07B20 Q30858585-8CA57950-769B-4E7E-8C78-B62C5BE389EF Q31157260-C8B462DB-0084-4587-B06D-C40A9927DF56 Q33220848-04BEC214-EC93-488A-94D4-AC02A1CFC360 Q33287465-E70F26D9-091E-4238-ABEB-6871A783B689 Q33301865-107E4A89-409B-49FD-83D0-79DDDAEC2141 Q33492040-99E87BC9-56EA-4A76-BBDE-0F85157098BF Q33721184-25CFE317-67CD-4C1E-9315-80B63E90701F Q33798644-145636EF-C508-4179-A1A1-7BB75480DF11 Q33830971-B0EB5AA0-1AF0-4CA4-B77A-A95E80892040 Q33901219-3FD40631-7979-4324-BE3D-DF2DF73BBE5B Q34051978-8365B7F8-DBFA-4452-B84E-AC8C2429E146 Q34325648-D9C7BCC1-C394-4AD8-9D35-F659267617EF Q34330593-8244C484-9DBB-430D-ABE6-94CE24FAF540 Q34333291-D9B8525F-D2BA-4D5A-8BF3-633114451675 Q34517721-9DED307F-850C-4F97-A957-430E498EDB8E Q34575809-D9885B9A-E3BB-4F60-A716-0E7B42BC52DB Q34575825-9F435E82-F8C7-48ED-A66C-2D4E95628835 Q34837325-0A9DF11F-644C-48DD-B727-6923146B861D Q35014277-63497CB1-25E6-47C0-BA5B-31CD2F2584BB Q35057486-0B424E77-C290-44DF-9DE8-8118E0F6F8CB Q35098153-907D86B9-3E14-46E7-86D7-F06B0DD18370 Q35169637-82DEB361-6A89-4A89-8BDB-CB7E86268F8A Q35629535-8D36E07A-314F-4C5D-B9AC-60D8AFC1DD68 Q35696604-DBA33471-8A5A-4E29-BB01-92300683D6A3 Q36280878-5D29A539-6F9E-48DE-9EB3-EA841F67D92F Q36332790-8B5CD33B-C2D5-4515-A715-A820D213032C

P2860

Evidence from flagelliform silk cDNA for the structural basis of elasticity and modular nature of spider silks.

http://www.wikidata.org/entity/Q42673149

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

Evidence from flagelliform sil ...... odular nature of spider silks.

@en

Evidence from flagelliform sil ...... odular nature of spider silks.

@nl

type

label

Evidence from flagelliform sil ...... odular nature of spider silks.

@en

Evidence from flagelliform sil ...... odular nature of spider silks.

@nl

prefLabel

Evidence from flagelliform sil ...... odular nature of spider silks.

@en

Evidence from flagelliform sil ...... odular nature of spider silks.

@nl

P1433

Q42673149-DDFA985A-E019-4582-B13B-F73C567F81C0

P1476

Q42673149-BF8C0955-AFCF-45B4-9895-046C591D519D

P2093

Q42673149-816952C1-4E00-4011-A0FF-ADE7C520F5A6

Q42673149-9979089A-69FC-4752-8340-1EFB6685470C

P304

Q42673149-A883B888-94F0-4DB6-BD69-91EC944A9C62

P31

Q42673149-D9DE3287-5B5A-4E80-99CB-742043972149

P356

Q42673149-7A76C7DE-8D8F-4A12-9BE2-3E2C43116632

P407

Q42673149-D221571A-D06F-4AD2-A467-215705759F04

P433

Q42673149-3593B1A8-4413-412B-B763-A176535B0FF6

P478

Q42673149-13E9CB39-BA9A-414F-AC1D-11C31C02B0BB

P577

Q42673149-8C6C54B2-ECFB-48CF-B0AF-1767B2F285F5

P698

Q42673149-C7523661-9B90-4693-9DBC-155340073620

P356

P1433

Journal of Molecular Biology

P1476

Evidence from flagelliform sil ...... odular nature of spider silks.

@en

P2093

Hayashi CY

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

Lewis RV

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

P304

773-784

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

P31

scholarly article

P356

10.1006/JMBI.1997.1478

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

P407

P433

5

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

P478

275

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

P577

1998-02-01T00:00:00Z

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

P698

9480768

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