Mitotic spindle positioning in Saccharomyces cerevisiae is accomplished by antagonistically acting microtubule motor proteins.
about
Cytoplasmic dynein-mediated assembly of pericentrin and gamma tubulin onto centrosomesFunctional analysis of human microtubule-based motor proteins, the kinesins and dyneins, in mitosis/cytokinesis using RNA interferenceAll kinesin superfamily protein, KIF, genes in mouse and humanDynactin is required to maintain nuclear position within postmitotic Drosophila photoreceptor neuronsKinesins in the Arabidopsis genome: a comparative analysis among eukaryotesS. pombe kinesins-8 promote both nucleation and catastrophe of microtubulesCandida albicans Kinesin Kar3 Depends on a Cik1-Like Regulatory Partner Protein for Its Roles in Mating, Cell Morphogenesis, and Bipolar Spindle FormationFunctional characterization of Dma1 and Dma2, the budding yeast homologues of Schizosaccharomyces pombe Dma1 and human ChfrStable preanaphase spindle positioning requires Bud6p and an apparent interaction between the spindle pole bodies and the neckTime-lapse microscopy reveals unique roles for kinesins during anaphase in budding yeast.Kinesin Kip2 enhances microtubule growth in vitro through length-dependent feedback on polymerization and catastrophe.The cortical localization of the microtubule orientation protein, Kar9p, is dependent upon actin and proteins required for polarizationSaccharomyces cerevisiae cells with defective spindle pole body outer plaques accomplish nuclear migration via half-bridge-organized microtubules.Cortical Num1p interacts with the dynein intermediate chain Pac11p and cytoplasmic microtubules in budding yeastThe kinesin-8 Kip3 scales anaphase spindle length by suppression of midzone microtubule polymerization.The 14-3-3 protein Bmh1 functions in the spindle position checkpoint by breaking Bfa1 asymmetry at yeast centrosomesPlus end-specific depolymerase activity of Kip3, a kinesin-8 protein, explains its role in positioning the yeast mitotic spindle.The kinesin-related proteins, Kip2p and Kip3p, function differently in nuclear migration in yeast.The yeast dynactin complex is involved in partitioning the mitotic spindle between mother and daughter cells during anaphase B.The cortical protein Num1p is essential for dynein-dependent interactions of microtubules with the cortex.Control of mitotic spindle position by the Saccharomyces cerevisiae formin Bni1pNovel roles for saccharomyces cerevisiae mitotic spindle motors.Slk19p is a centromere protein that functions to stabilize mitotic spindles.Reconstitution of dynein transport to the microtubule plus end by kinesin.Myosin V orientates the mitotic spindle in yeast.The role of the lissencephaly protein Pac1 during nuclear migration in budding yeast.Arp10p is a pointed-end-associated component of yeast dynactin.Receptors determine the cellular localization of a gamma-tubulin complex and thereby the site of microtubule formation.Analysis of the Saccharomyces spindle pole by matrix-assisted laser desorption/ionization (MALDI) mass spectrometry.Cnm67p is a spacer protein of the Saccharomyces cerevisiae spindle pole body outer plaque.Time-lapse video microscopy analysis reveals astral microtubule detachment in the yeast spindle pole mutant cnm67Chromosome congression by Kinesin-5 motor-mediated disassembly of longer kinetochore microtubules.Kar9p is a novel cortical protein required for cytoplasmic microtubule orientation in yeastYeast kinesin-8 depolymerizes microtubules in a length-dependent manner.Differential regulation of the Kar3p kinesin-related protein by two associated proteins, Cik1p and Vik1p.Smy1p, a kinesin-related protein that does not require microtubules.Cytoplasmic dynein is required for distinct aspects of MTOC positioning, including centrosome separation, in the one cell stage Caenorhabditis elegans embryoReorientation of mispositioned spindles in short astral microtubule mutant spc72Delta is dependent on spindle pole body outer plaque and Kar3 motor protein.Dynamic positioning of mitotic spindles in yeast: role of microtubule motors and cortical determinants.A novel pathway that coordinates mitotic exit with spindle position.
P2860
Q20901671-744D4FBC-8F60-4ED9-B81A-AC6E29A0CB1FQ24300469-A526BDFB-C0BB-4BC4-932B-1A8105F4F7E7Q24632779-6FE9A306-1FDA-45DD-AF8D-B82639338F3FQ24646059-A9DF095C-2B70-4402-802E-A8AAF554DB45Q24801323-86694C1C-F8AA-44EE-9BD7-A570CDCA8832Q27309284-836C189A-7DD5-4AA6-983D-2A8DBC0DB232Q27322884-662FDCEA-9308-4219-9EB9-4FCD9850AF71Q27929804-2110E2C9-9008-4014-A965-AEEE3B1D8D79Q27929827-42FB0F00-B8CB-4012-B2EA-758A54BE17BBQ27930346-3C0BA483-1C33-4151-91F7-EB509F4E276EQ27931170-8847F87B-D93E-4C67-AF2B-00721B5F57E6Q27931185-76C07F92-34E5-41D5-8097-79510C79B1B9Q27931214-BE03B154-4F3F-4DDB-8A3A-3BBE82AB6B8EQ27931373-D40F4C1D-7AD0-42F0-B888-8B2AEA9FFD28Q27931417-4CA223C9-95D9-4FD9-8264-AD1FC295976FQ27931517-977BD30C-21A7-4B42-8EE1-D4206E99F5CBQ27931585-C20E6647-BE8C-457C-8256-9B960BCF3374Q27932116-DBF0BD8C-3980-415C-B7DD-97DE00905E8BQ27932713-20F8B2C5-A004-4C50-B493-009F9F52F205Q27933404-A6F6CC15-022B-4F03-8AFD-ACC32FD16206Q27933923-9D5C5256-67EB-4485-B107-6C4DCD6C3293Q27934047-D26DF9E2-A8B8-4EA6-B4C1-A0F43A4B5523Q27934057-63E18405-9378-4EA6-8C40-071EE344619BQ27934548-4E2D6C94-91D5-423A-A8DB-C42A8CD413C8Q27936159-A815F3B9-7A8D-4D8D-A3EE-49A9ACB9ED6BQ27936193-46FB198D-7291-4D18-B4B7-27D93FAE2203Q27936200-A1716FC4-5D69-48AE-8B79-8F3CF7F9F6C3Q27936495-C21A4D8C-7292-43BB-B495-958AB7F18881Q27936980-8D869FCE-282D-42CD-90D6-6CFA50BCA2B2Q27937604-920916A9-CF96-4996-81CB-6B01F69F8D48Q27938406-7E004898-7C1F-4297-8552-C27AA96E58B9Q27938562-A2164658-8BFF-44E8-BA14-F7D8AF1AD573Q27938633-2B7BC4FE-00D3-4E01-BB8E-3F872701C0D4Q27939784-E4639CBA-8411-43C1-AB20-49B15FC8BDD3Q27940279-4CCD484D-3ACD-4F48-9CE5-77E94EEE7602Q27940337-0A62E21C-A026-483D-8886-C57F9D6E1712Q30442050-E973ED51-1B16-413B-92F1-B2FA0988E006Q30475778-913132E3-0BC3-4BF4-B4E2-9A86083A1001Q30477608-67C7EF77-1107-4A3C-BB4B-500C6FF136DBQ30479952-5E07B7B9-33C4-49E5-956B-22C3AF415852
P2860
Mitotic spindle positioning in Saccharomyces cerevisiae is accomplished by antagonistically acting microtubule motor proteins.
description
1997 nî lūn-bûn
@nan
1997 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
1997 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
1997年の論文
@ja
1997年論文
@yue
1997年論文
@zh-hant
1997年論文
@zh-hk
1997年論文
@zh-mo
1997年論文
@zh-tw
1997年论文
@wuu
name
Mitotic spindle positioning in ...... ng microtubule motor proteins.
@ast
Mitotic spindle positioning in ...... ng microtubule motor proteins.
@en
Mitotic spindle positioning in ...... ng microtubule motor proteins.
@nl
type
label
Mitotic spindle positioning in ...... ng microtubule motor proteins.
@ast
Mitotic spindle positioning in ...... ng microtubule motor proteins.
@en
Mitotic spindle positioning in ...... ng microtubule motor proteins.
@nl
prefLabel
Mitotic spindle positioning in ...... ng microtubule motor proteins.
@ast
Mitotic spindle positioning in ...... ng microtubule motor proteins.
@en
Mitotic spindle positioning in ...... ng microtubule motor proteins.
@nl
P2860
P3181
P356
P1476
Mitotic spindle positioning in ...... ng microtubule motor proteins.
@en
P2093
F R Cottingham
P2860
P304
P3181
P356
10.1083/JCB.138.5.1041
P407
P577
1997-09-01T00:00:00Z