Influence of the centrosome on the structure of nucleated microtubules. - Wikidata - awgldk - TriplyDB

Influence of the centrosome on the structure of nucleated microtubules.

Influence of the centrosome on the structure of nucleated microtubules.

http://www.wikidata.org/entity/Q36212863

about

Modulation of the dynamic instability of tubulin assembly by the microtubule-associated protein tau The mammalian gamma-tubulin complex contains homologues of the yeast spindle pole body components spc97p and spc98p The microtubule plus-end proteins EB1 and dynactin have differential effects on microtubule polymerization Microtubule nucleating gamma-TuSC assembles structures with 13-fold microtubule-like symmetry Axonal Transport and Neurodegeneration: How Marine Drugs Can Be Used for the Development of Therapeutics Doublecortin recognizes the 13-protofilament microtubule cooperatively and tracks microtubule ends Cytoplasmic dynein and dynactin are required for the transport of microtubules into the axon Dynamic instability of microtubules: Monte Carlo simulation and application to different types of microtubule lattice.The role of dynamic instability in microtubule organization Centrosomes in the zebrafish (Danio rerio): a review including the related basal body.Microtubule polarities indicate that nucleation and capture of microtubules occurs at cell surfaces in Drosophila Microtubules: dynamics, drug interaction and drug resistance in Leishmania.CENP-E kinesin interacts with SKAP protein to orchestrate accurate chromosome segregation in mitosis Building the Microtubule Cytoskeleton Piece by Piece Properties of the kinetochore in vitro. II. Microtubule capture and ATP-dependent translocation.Properties of the kinetochore in vitro. I. Microtubule nucleation and tubulin binding.Microtubule assembly in cytoplasmic extracts of Xenopus oocytes and eggs.The polarity and stability of microtubule capture by the kinetochore.Genetic and molecular analysis of a Caenorhabditis elegans beta-tubulin that conveys benzimidazole sensitivity.Parthenogenesis in Xenopus eggs requires centrosomal integrity.Microtubule nucleation and release from the neuronal centrosome.A new perspective on microtubules and axon growth.Centrosome assembly in vitro: role of gamma-tubulin recruitment in Xenopus sperm aster formation Effect on microtubule dynamics of XMAP230, a microtubule-associated protein present in Xenopus laevis eggs and dividing cells.Structure of growing microtubule ends: two-dimensional sheets close into tubes at variable rates.Three-dimensional structural characterization of centrosomes from early Drosophila embryos.Xgrip109: a gamma tubulin-associated protein with an essential role in gamma tubulin ring complex (gammaTuRC) assembly and centrosome function.Mitotic spindle assembly by two different pathways in vitro Taxol-induced microtubule asters in mitotic extracts of Xenopus eggs: requirement for phosphorylated factors and cytoplasmic dynein The intercentriolar linkage is critical for the ability of heterologous centrosomes to induce parthenogenesis in Xenopus.Sister chromatid separation in frog egg extracts requires DNA topoisomerase II activity during anaphase.Control of microtubule dynamics and length by cyclin A- and cyclin B-dependent kinases in Xenopus egg extracts.Gamma-tubulin distribution in the neuron: implications for the origins of neuritic microtubules.A human centrosomal protein is immunologically related to basal body-associated proteins from lower eucaryotes and is involved in the nucleation of microtubules.Human gamma-tubulin functions in fission yeast The anatomy of flagellar microtubules: polarity, seam, junctions, and lattice.Identification of fission yeast nuclear markers using random polypeptide fusions with green fluorescent protein Yeast proteins associated with microtubules in vitro and in vivo.The spindle pole body of Schizosaccharomyces pombe enters and leaves the nuclear envelope as the cell cycle proceeds.The ciliary cytoskeleton.

P2860

Q24294296-321F6BAF-6C54-4902-B501-308AE2299F0C Q24311458-9CBCD577-A4AD-4C79-A624-F185AF705041 Q24683085-0A6C47A5-EF28-4F9D-A9E9-581BD2D9D4F6 Q27936657-689ABD14-A797-4C14-B4B2-618C0C9870CE Q28079729-E9C12457-33F2-4EFF-A363-76FF97553E55 Q29394565-84152DFE-030A-486A-91A6-839A450C55AC Q30442127-B11AAB1F-1C23-41FF-8532-E5D3E4F3A163 Q34019498-B515953B-7223-48CC-ADBF-8464A9206F93 Q34299738-33D50A6C-0657-465D-B5CC-D1D1768EDA4F Q34564022-BA5ECA77-AC08-4FE7-80D9-E236F172A170 Q34683658-AC19DBF5-F282-4058-BB92-92389C234BF6 Q34969777-6C487B62-2082-42D9-9788-91CC9A78C23C Q35668739-7B70423F-E8CD-4BC8-B9E3-D0EB800BE03F Q35837102-08DE1804-A3DD-4467-91CA-0EA33A4DB008 Q36212827-65FABBF9-E2FB-4297-9F1E-8D89EFFFD405 Q36212845-53AD7076-D332-4AB2-B066-396B890FAE75 Q36217862-4923A23D-2764-4A02-A75E-174DEFEFF798 Q36218136-9ADCD760-D3E2-41CC-AED4-F8E652135E09 Q36222360-02285555-576F-4318-BB23-777AA6D968C3 Q36222527-94638603-3EB6-4BBE-A7CD-AAD65BC9383F Q36232712-BD853B1B-F62C-4FA5-A55F-35C1F34EEFA6 Q36232975-B0162903-1995-4FA3-ABE7-C15103CB5D38 Q36233614-F750083C-233F-423F-A744-CE02DC704783 Q36234875-0FFB7858-9E1E-4868-96E8-5CB69D730270 Q36235632-1EF6D59B-D414-4EB6-99FC-71DC14F68ED0 Q36235899-2A180C88-47AC-4B6A-9D55-F18569E30FA3 Q36255328-71A1B149-9F54-4A41-9983-D25FDAAEDE26 Q36529300-62734EBD-CECC-47DF-8F28-01CF157AD9A3 Q36529381-3274AEA3-5832-48E9-BFB5-789C37C5B96E Q36529873-340EFAE3-F1B3-4193-AC77-ABEB7A404ED8 Q36531445-63136E13-42B2-446F-8862-2E0E03B89B64 Q36531791-CF4AF228-71ED-4986-BC74-8A9F1372E593 Q36531950-F87935BE-6396-44B6-B7FA-0A4002DD72A9 Q36532837-9F86B4F5-0668-402D-B82D-1E0ABF703C2E Q36534937-819BFBF0-EF85-402D-A4FA-ABA6891C3391 Q36712451-85A605D6-D085-4C8C-B9D8-8CF8F88C777F Q36840992-B59A2D6B-29A4-44AD-966B-AA859719A9E0 Q37370042-7991EE17-4BCB-47B5-ABF0-3DC808193BD3 Q37386890-2AF2D9CA-E57A-4510-A327-7563C0354551 Q38111287-EED71611-5DDF-479F-9F0F-DEAE0C9FE08C

P2860

Influence of the centrosome on the structure of nucleated microtubules.

http://www.wikidata.org/entity/Q36212863

description

1985 nî lūn-bûn

@nan

1985年の論文

@ja

1985年学术文章

@wuu

1985年学术文章

@zh-cn

1985年学术文章

@zh-hans

1985年学术文章

@zh-my

1985年学术文章

@zh-sg

1985年學術文章

@yue

1985年學術文章

@zh

1985年學術文章

@zh-hant

name

Influence of the centrosome on the structure of nucleated microtubules.

@ast

Influence of the centrosome on the structure of nucleated microtubules.

@en

type

label

Influence of the centrosome on the structure of nucleated microtubules.

@ast

Influence of the centrosome on the structure of nucleated microtubules.

@en

prefLabel

Influence of the centrosome on the structure of nucleated microtubules.

@ast

Influence of the centrosome on the structure of nucleated microtubules.

@en

P1433

Q36212863-DB74C8C9-E3A6-4240-9011-08A5D2705637

P1476

Q36212863-1DBB2524-D6DB-4E24-B656-E29DBB91AB9F

P2093

Q36212863-47C63AE7-30A6-46A0-A978-7B016BA0E30C

Q36212863-780197C1-4E20-433B-8EE7-70237BDFAC3B

Q36212863-C6E37A3A-9C61-497D-9752-E36AA753A109

P2860

Q36212863-0DB9C58E-3864-4C56-9B9A-B233554BF91B

Q36212863-134C5523-7C76-4DD9-86D3-756F9C977859

Q36212863-14AD8392-AAE9-46EA-8D9B-9DEC5B9496EF

Q36212863-1EFBC98F-FE18-4331-8C51-C977B448D5E3

Q36212863-513573D2-185D-4C84-B7BD-B3DCC54843A5

Q36212863-5806742F-C450-4A7F-B97D-3B8C76823BA2

Q36212863-7BAFBED8-8C25-4120-B47B-22EFB17B19BC

Q36212863-8DFE6534-8D54-424C-9863-AEF73FF86914

Q36212863-9C52590A-3289-4BE3-B986-CEF4E76C58E9

Q36212863-9D4AEDCF-C70C-403D-9129-83832BE7F911

P304

Q36212863-0AEA76CC-A320-43B7-94A7-7B7E2F66F584

P31

Q36212863-570B70E9-F605-453F-956F-06B132AFE317

P356

Q36212863-27AA6B45-317C-4E51-BB47-778BE5268CE4

P407

Q36212863-6620E14B-4AEF-4B48-A8DF-6B9563F9C6D1

P433

Q36212863-3700DCB3-19E2-4B9C-A468-A1AEDEF43DC3

P478

Q36212863-94FCE593-D8DE-43BA-94CC-FA63F25EF90D

P577

Q36212863-46ABB3D3-B622-4E77-A3FA-6E404F97D017

P698

Q36212863-C6B3C109-D90A-45EB-9323-50230FF94B48

P932

Q36212863-98412A20-D8AF-401C-B0AC-3BF818CFBF42

P356

P1433

Journal of Cell Biology

P1476

Influence of the centrosome on the structure of nucleated microtubules.

@en

P2093

Evans L

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

Kirschner M

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

Mitchison T

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

P2860

Centrioles in the cell cycle. I. Epithelial cells

Dynamic instability of microtubule growth

Microtubules: evidence for 13 protofilaments.

Brain tubulin polymerization in the absence of "microtubule-associated proteins".

Assembly of chick brain tubulin onto flagellar microtubules from Chlamydomonas and sea urchin sperm.

Microtubule assembly in the absence of added nucleotides.

Cytoplasmic microtubules in tissue culture cells appear to grow from an organizing structure towards the plasma membrane.

THE ULTRASTRUCTURE OF A MAMMALIAN CELL DURING THE MITOTIC CYCLE.

The periodic association of MAP2 with brain microtubules in vitro

Polarity of microtubules nucleated by centrosomes and chromosomes of Chinese hamster ovary cells in vitro

P304

1185-1191

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

P31

scholarly article

P356

10.1083/JCB.100.4.1185

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

P407

P433

4

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

P478

100

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

P577

1985-04-01T00:00:00Z

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

P698

4038981

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

P932

2113747

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