TAC-1 and ZYG-9 form a complex that promotes microtubule assembly in C. elegans embryos
about
TOGp, the human homolog of XMAP215/Dis1, is required for centrosome integrity, spindle pole organization, and bipolar spindle assemblySAS-6 defines a protein family required for centrosome duplication in C. elegans and in human cellsCep120 and TACCs control interkinetic nuclear migration and the neural progenitor pool.SAS-1 is a C2 domain protein critical for centriole integrity in C. elegansGamma-tubulin is required for bipolar spindle assembly and for proper kinetochore microtubule attachments during prometaphase I in Drosophila oocytesLong astral microtubules and RACK-1 stabilize polarity domains during maintenance phase in Caenorhabditis elegans embryosIdentification of the substrates and interaction proteins of aurora kinases from a protein-protein interaction modelA monoclonal antibody toolkit for C. elegansThe Effects of Ivermectin on Brugia malayi Females In Vitro: A Transcriptomic ApproachThe fission yeast transforming acidic coiled coil-related protein Mia1p/Alp7p is required for formation and maintenance of persistent microtubule-organizing centers at the nuclear envelope.MLN8054, a small-molecule inhibitor of Aurora A, causes spindle pole and chromosome congression defects leading to aneuploidy.Proper recruitment of gamma-tubulin and D-TACC/Msps to embryonic Drosophila centrosomes requires Centrosomin Motif 1.Microtubules are involved in anterior-posterior axis formation in C. elegans embryosXenopus TACC3/maskin is not required for microtubule stability but is required for anchoring microtubules at the centrosome.Regulation of cortical contractility and spindle positioning by the protein phosphatase 6 PPH-6 in one-cell stage C. elegans embryos.The nucleoporin Nup205/NPP-3 is lost near centrosomes at mitotic onset and can modulate the timing of this process in Caenorhabditis elegans embryosThe doublecortin-related gene zyg-8 is a microtubule organizer in Caenorhabditis elegans neuronsThe UBXN-2/p37/p47 adaptors of CDC-48/p97 regulate mitosis by limiting the centrosomal recruitment of Aurora A.Interdependency of fission yeast Alp14/TOG and coiled coil protein Alp7 in microtubule localization and bipolar spindle formation.Analysis of centriole elimination during C. elegans oogenesis.Automated tracking and analysis of centrosomes in early Caenorhabditis elegans embryosAurora kinases: novel therapy targets in cancersCDK-dependent phosphorylation of Alp7-Alp14 (TACC-TOG) promotes its nuclear accumulation and spindle microtubule assembly.The Xenopus TACC homologue, maskin, functions in mitotic spindle assemblyMini spindles, the XMAP215 homologue, suppresses pausing of interphase microtubules in Drosophila.Quantitative proteomics combined with BAC TransgeneOmics reveals in vivo protein interactionsThe elegans of spindle assembly.Csi1p recruits alp7p/TACC to the spindle pole bodies for bipolar spindle formation.A role for the centrosome and PAR-3 in the hand-off of MTOC function during epithelial polarization.The mbk-2 kinase is required for inactivation of MEI-1/katanin in the one-cell Caenorhabditis elegans embryo.XTACC3-XMAP215 association reveals an asymmetric interaction promoting microtubule elongation.Slk19p of Saccharomyces cerevisiae regulates anaphase spindle dynamics through two independent mechanisms.Mutual antagonism between the anaphase promoting complex and the spindle assembly checkpoint contributes to mitotic timing in Caenorhabditis elegansTACC3 is a microtubule plus end-tracking protein that promotes axon elongation and also regulates microtubule plus end dynamics in multiple embryonic cell types.Mos1-mediated transgenesis to probe consequences of single gene mutations in variation-rich isolates of Caenorhabditis elegans.Mutations of a redundant alpha-tubulin gene affect Caenorhabditis elegans early embryonic cleavage via MEI-1/katanin-dependent and -independent pathways.XMAP215 polymerase activity is built by combining multiple tubulin-binding TOG domains and a basic lattice-binding region.The transforming acidic coiled coil 3 protein is essential for spindle-dependent chromosome alignment and mitotic survival.LET-711, the Caenorhabditis elegans NOT1 ortholog, is required for spindle positioning and regulation of microtubule length in embryos.Polarity-dependent asymmetric distribution and MEX-5/6-mediated translational activation of the Era-1 mRNA in C. elegans embryos
P2860
Q24304453-2C9B9B11-8031-4D93-8FEA-49D591A528B6Q24338767-1065DD1F-983C-465C-A58C-647C812ABB1AQ24653494-BE5CF76E-4E61-44E3-A83B-C25B2A983914Q27312016-5E41C0BA-8CDB-4E1C-AAA7-3B07F720F1A9Q27339353-0E3E30DE-EDFD-4A82-A55B-6062E40DAB81Q27346541-D7413658-2C38-4376-88F2-3CB5C49F2501Q28182244-11A73EDF-1A97-46F8-9408-E3CE03AC3697Q28473655-32B620BB-BD17-4697-A01D-A8CE7DBD229BQ28553525-3E4C3B8F-5EDD-4995-9052-4AD92A14D6C5Q30477171-7CD5C206-00F9-440C-9427-558179F499AEQ30479689-DDA627E2-F405-4110-ABCD-8ED1E671AF08Q30480145-835E11A0-EC23-43E2-B4E5-C631A2D4DA93Q30480579-93F755C4-B14F-4CE3-B286-806F6DA48594Q30482873-BB16E888-33FB-4462-BDFA-C4F3D3A8F4B4Q30492571-F93C6778-BF95-4D19-9FCD-E3888AF7B153Q30524152-3452362A-C83A-4282-82D7-C680A9D92EA9Q30533916-0AE468FB-1B5F-4C74-9F73-7A364EEB2F8BQ30539764-8167F5CF-FF7B-4849-BF14-1731E82C6AD4Q30549682-07D0C315-2BF0-4F50-93BA-023D5A7C46BAQ30581890-EAA0E608-59CB-4E0C-A848-5AE1EB97225EQ33597283-2E4104DC-D221-45BB-BB04-7F278C4432E5Q33618929-3D5F48D8-189B-4099-A682-F9BED7B89ABEQ33811927-B83F23F9-40BF-4A05-AF0D-9C73E1127FC0Q33841415-53A76EA3-45BC-4970-B555-CC71AEB2F8BBQ33841752-8A78BE3E-6195-450F-B5F5-36D2A6C128B6Q33861783-D9D60F65-9D1D-4F84-A118-3AE05CE8A89BQ33903444-2DE535DB-FDD3-440D-A226-B329E5C2CCA8Q34166844-AC4E6E24-79AE-4D74-BBAD-E4A281702005Q34198556-581A6630-981D-4A05-9526-8A5B7C4CBA45Q34250574-9F2D0AF9-85AF-40F8-9812-76C94102DF1BQ34357171-1B396DB6-605B-461C-99A2-B243C5A13850Q34386911-EF096184-3F5E-4E83-8F51-ABFA6130E9CDQ34386933-566C04FA-3ADD-45FC-81CB-AD987A6A9413Q34428668-D360F6C7-7BF1-4701-9694-996420F2FF54Q34479071-2DA3EF51-DB7C-47DB-B3C9-75DEEC3E3360Q34573160-455A7759-7BCA-43CA-8F91-2DB9F742E4C6Q34582737-1834914C-FDF2-4681-AA61-81B0FFE1303BQ34659420-2501F2B0-62C7-4457-96D4-6CDE10BE4962Q35128372-49A9FA17-423F-4B56-B784-A4E446393620Q35230735-E22A6055-C618-49CF-864B-777A5E69C9BA
P2860
TAC-1 and ZYG-9 form a complex that promotes microtubule assembly in C. elegans embryos
description
2003 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2003 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
artículu científicu espublizáu en 2003
@ast
im September 2003 veröffentlichter wissenschaftlicher Artikel
@de
scientific journal article
@en
vedecký článok (publikovaný 2003/09/02)
@sk
vědecký článek publikovaný v roce 2003
@cs
wetenschappelijk artikel (gepubliceerd op 2003/09/02)
@nl
наукова стаття, опублікована у вересні 2003
@uk
مقالة علمية (نشرت في 2-9-2003)
@ar
name
TAC-1 and ZYG-9 form a complex that promotes microtubule assembly in C. elegans embryos
@ast
TAC-1 and ZYG-9 form a complex that promotes microtubule assembly in C. elegans embryos
@en
TAC-1 and ZYG-9 form a complex that promotes microtubule assembly in C. elegans embryos
@nl
type
label
TAC-1 and ZYG-9 form a complex that promotes microtubule assembly in C. elegans embryos
@ast
TAC-1 and ZYG-9 form a complex that promotes microtubule assembly in C. elegans embryos
@en
TAC-1 and ZYG-9 form a complex that promotes microtubule assembly in C. elegans embryos
@nl
prefLabel
TAC-1 and ZYG-9 form a complex that promotes microtubule assembly in C. elegans embryos
@ast
TAC-1 and ZYG-9 form a complex that promotes microtubule assembly in C. elegans embryos
@en
TAC-1 and ZYG-9 form a complex that promotes microtubule assembly in C. elegans embryos
@nl
P3181
P1433
P1476
TAC-1 and ZYG-9 form a complex that promotes microtubule assembly in C. elegans embryos
@en
P2093
Jean Michel Bellanger
P304
P3181
P356
10.1016/S0960-9822(03)00582-7
P407
P577
2003-09-02T00:00:00Z