Rigidity of microtubules is increased by stabilizing agents. - Wikidata - wikimedia - TriplyDB

Rigidity of microtubules is increased by stabilizing agents.

Rigidity of microtubules is increased by stabilizing agents.

http://www.wikidata.org/entity/Q36382638

about

An oxygen scavenging system for improvement of dye stability in single-molecule fluorescence experiments MAP2 and tau bind longitudinally along the outer ridges of microtubule protofilaments Islands containing slowly hydrolyzable GTP analogs promote microtubule rescues Mechanochemical modeling of dynamic microtubule growth involving sheet-to-tube transition Deletion of the Tail Domain of the Kinesin-5 Cin8 Affects Its Directionality Tubulin bond energies and microtubule biomechanics determined from nanoindentation in silico.Conformational changes in tubulin in GMPCPP and GDP-taxol microtubules observed by cryoelectron microscopy.Structural basis of interprotofilament interaction and lateral deformation of microtubules.Radial compression of microtubules and the mechanism of action of taxol and associated proteins.Catalysis of the microtubule on-rate is the major parameter regulating the depolymerase activity of MCAK.FtsZ in bacterial cytokinesis: cytoskeleton and force generator all in one.MAP65/Ase1 promote microtubule flexibility.Pericentromere tension is self-regulated by spindle structure in metaphase.Control of microtubule trajectory within an electric field by altering surface charge density.Intracellular and extracellular forces drive primary cilia movement.Equilibria of idealized confined astral microtubules and coupled spindle poles.Polymerization and mechanical properties of single RecA-DNA filaments Fluorescent taxoids as probes of the microtubule cytoskeleton.Flexural rigidity of individual microtubules measured by a buckling force with optical traps Nanoindentation studies of full and empty viral capsids and the effects of capsid protein mutations on elasticity and strength Elastic response, buckling, and instability of microtubules under radial indentation.Bending dynamics of fluctuating biopolymers probed by automated high-resolution filament tracking.Hydrophobic interactions in donor-disulphide-acceptor (DSSA) probes looking beyond fluorescence resonance energy transfer theory.An experimental and computational study of effects of microtubule stabilization on T-cell polarity Mechanical breaking of microtubules in axons during dynamic stretch injury underlies delayed elasticity, microtubule disassembly, and axon degeneration.Conformational mechanism for the stability of microtubule-kinetochore attachments.Structural intermediates in the assembly of taxoid-induced microtubules and GDP-tubulin double rings: time-resolved X-ray scattering.Mechanics of microtubules: effects of protofilament orientation Mechanical aspects of microtubule bundling in taxane-treated circulating tumor cells Structural microtubule cap: stability, catastrophe, rescue, and third state Nucleotide-dependent bending flexibility of tubulin regulates microtubule assembly Insights into the mechanism of microtubule stabilization by Taxol.Thermal fluctuations of grafted microtubules provide evidence of a length-dependent persistence length Spindle pole mechanics studied in mitotic asters: dynamic distribution of spindle forces through compliant linkages.Mechanical systems biology of C. elegans touch sensation.Spectral analysis methods for the robust measurement of the flexural rigidity of biopolymers.Force-response considerations in ciliary mechanosensation.Structural changes at microtubule ends accompanying GTP hydrolysis: information from a slowly hydrolyzable analogue of GTP, guanylyl (alpha,beta)methylenediphosphonate Comparative studies of microtubule mechanics with two competing models suggest functional roles of alternative tubulin lateral interactions.Assembly and positioning of microtubule asters in microfabricated chambers

P2860

Q24647395-5040E1C0-D87D-4F4A-8301-4BA73235429F Q24672581-3636D88E-4328-483A-978B-CBC610B1550E Q27310112-00A29251-1CFD-4AD4-BFE8-3EEDE5807DC5 Q27311079-D49D341C-E490-4CDE-9A53-1593659AA1DF Q27313847-8B6217C4-C102-4C09-B500-4AA45F8AFD27 Q27338399-04A1B321-67AA-4C29-8B1E-BAA034804C55 Q27671021-4464E0D2-5006-4BF2-A85B-D4D86674500A Q30431088-8FD32218-4F91-4FB6-AAF6-67085A51C345 Q30476790-240BA161-0275-4F5C-A530-FDB83273AC4F Q30495674-BA85B885-3295-410F-8CE0-E39BE56B21C0 Q30497729-1FDC8951-6A69-4B54-A789-0F6885A37204 Q30540623-1FFE2E05-E051-4B3F-A06B-0C2BF047ED38 Q30577907-3FB17FBC-9727-4AED-BF75-E7A407A4FEAF Q30613434-9AED8CDA-3EC9-4416-A141-921FB258DAE2 Q30619928-CF0F6B34-56B9-43B1-9F27-DEDB8D52E9B1 Q31068482-43F9AA89-5392-4AD0-8A8D-2754CC3FAE8C Q31395922-671EDDCA-1585-44BC-BD03-75D221AD6F4B Q32132296-C76A7C04-1A25-4BD9-91DF-F68C894B00E5 Q33229033-8EF627C3-43D5-44D2-870E-E599F598EBF4 Q33239539-E0DB4CC9-76DD-467C-BF21-93F509E6C185 Q33244984-6BCEB1CD-0BDB-4579-A848-B23CF9AC8794 Q33281443-BF0FD4E5-0017-4401-B1DB-2B14CF5847E1 Q33358585-170BB2FB-1FAE-4522-B766-AA2F90170DB1 Q33390368-4801ACB2-3D0A-455D-B4D9-957A2805B121 Q33890998-282C4D9A-3EA6-46F7-B123-2E17565FA235 Q33922318-85832F31-1B4D-49EC-AC20-ED1623E2D342 Q34017799-E161E652-4AF0-4B0B-9830-BB2373A0B3A9 Q34099055-9C78F39E-2EB7-42A4-8C9F-39B47A31E39D Q34144105-6156C2A6-0F24-465B-8FE4-3F4846D3999C Q34178619-FD0CCC10-A0E4-46B3-97B3-6DA3191E04D3 Q34416107-CC657753-4C9B-41C9-A727-3DA9C2629421 Q34771867-4A09FA09-1FF2-457C-AE4A-365B853BCB8F Q34771999-0E511BCA-F35F-4B77-ABD2-35E2916F283D Q34772202-9465DF64-2535-4D32-B8FA-00219074B02F Q35565873-E7F24B4D-1565-46B4-92D8-C92CBEBD9FF9 Q35810075-29C02E0D-E87C-425B-B295-B6C0BF7C78F7 Q35906117-560B8ADB-C667-4384-B3C2-801CD0686813 Q36008162-65A54F18-D12B-4764-9558-151D40A70245 Q36045430-DC57D394-A352-470E-8A61-7CB92F665CE1 Q36181804-2698BC8A-CC26-4DC4-97F9-ADBF90CFB6A1

P2860

Rigidity of microtubules is increased by stabilizing agents.

http://www.wikidata.org/entity/Q36382638

description

1995 nî lūn-bûn

@nan

1995年の論文

@ja

1995年学术文章

@wuu

1995年学术文章

@zh-cn

1995年学术文章

@zh-hans

1995年学术文章

@zh-my

1995年学术文章

@zh-sg

1995年學術文章

@yue

1995年學術文章

@zh

1995年學術文章

@zh-hant

name

Rigidity of microtubules is increased by stabilizing agents.

@ast

Rigidity of microtubules is increased by stabilizing agents.

@en

type

label

Rigidity of microtubules is increased by stabilizing agents.

@ast

Rigidity of microtubules is increased by stabilizing agents.

@en

prefLabel

Rigidity of microtubules is increased by stabilizing agents.

@ast

Rigidity of microtubules is increased by stabilizing agents.

@en

P1433

Q36382638-9D46DE7B-F3DD-47D2-98D2-58B95694F5FD

P1476

Q36382638-6DD53CDC-FA02-404F-A072-9ADEFBF972EB

P2093

Q36382638-7D19B396-C5C8-4DA7-9438-483A49398EB6

Q36382638-BC9CF430-8626-4DF4-A8C7-3B9707A47DC3

P2860

Q36382638-051DDBF1-C5BE-40CA-B76A-3797F8F68CC2

Q36382638-18D56AE9-6F11-4806-950F-734B5492A029

Q36382638-194ED406-1C1B-49F7-BFFF-F76B317171DC

Q36382638-1C3DB42E-5B1A-471E-941F-40CEBE6C3CAD

Q36382638-24A25CEE-3F13-49F9-B291-2EB08383CE25

Q36382638-30B0273F-86E9-43CE-853B-386185E414F1

Q36382638-4A8CF129-CF02-48E4-B804-4AE424B965BE

Q36382638-4F86971C-3684-4C96-85F8-162E198E0950

Q36382638-6406054B-23A4-4717-B3C7-EE0CF3F1CF56

Q36382638-6C2F4FC5-66AC-48FD-94C0-8EDBA3A6ECDE

P304

Q36382638-490ED002-CD55-4D0C-AFE2-C77D1642B97F

P31

Q36382638-3666095A-9A33-4E44-9746-33F5AC0BF5A4

P356

Q36382638-BEB30BA2-E1FD-4284-AE26-83ADFF89F7A0

P407

Q36382638-9108E37A-04CB-4A6C-BEAC-A5C67F8A4D62

P433

Q36382638-48DDAD85-69A5-4A25-9C81-61A334B03E13

P478

Q36382638-096BC70E-3292-445B-98CD-5C646014E57A

P577

Q36382638-CCDEE11E-F908-4781-B094-69ECA990E34F

P5875

Q36382638-0199B5B1-0CE6-40D1-8187-60D5CF16677C

P698

Q36382638-7D2F3876-D209-46C1-BDB2-37BF99EFF658

P932

Q36382638-F7A18F09-C81D-4003-83EF-2CE744D14793

P356

P1433

Journal of Cell Biology

P1476

Rigidity of microtubules is increased by stabilizing agents.

@en

P2093

Howard J

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

Mickey B

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

P2860

Modulation of the dynamic instability of tubulin assembly by the microtubule-associated protein tau

Tau protein binds to microtubules through a flexible array of distributed weak sites

Dynamic instability of microtubule growth

Microtubule depolymerization promotes particle and chromosome movement in vitro.

The force exerted by a single kinesin molecule against a viscous load.

Preparation of modified tubulins.

Force measurements by micromanipulation of a single actin filament by glass needles.

Purification of tau, a microtubule-associated protein that induces assembly of microtubules from purified tubulin.

Role of GTP hydrolysis in microtubule dynamics: information from a slowly hydrolyzable analogue, GMPCPP.

Molecular and cellular aspects of thiol-disulfide exchange.

P304

909-917

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

P31

scholarly article

P356

10.1083/JCB.130.4.909

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

P407

P433

4

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

P478

130

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

P577

1995-08-01T00:00:00Z

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

P5875

15555862

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

P698

7642706

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

P932

2199951

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