Formation of a dynamic kinetochore- microtubule interface through assembly of the Dam1 ring complex.
about
The protein farnesyltransferase regulates HDAC6 activity in a microtubule-dependent mannerTimely anaphase onset requires a novel spindle and kinetochore complex comprising Ska1 and Ska2The human kinetochore Ska1 complex facilitates microtubule depolymerization-coupled motilityMolecular analysis of kinetochore architecture in fission yeastKinetochore-microtubule interactions: steps towards bi-orientationThe kinetochore interaction network (KIN) of ascomycetesReconstituting the kinetochore–microtubule interface: what, why, and howFrom equator to pole: splitting chromosomes in mitosis and meiosisVisualizing kinetochore architectureA second tubulin binding site on the kinesin-13 motor head domain is important during mitosisEB1 regulates attachment of Ska1 with microtubules by forming extended structures on the microtubule latticeThe molecular architecture of the Dam1 kinetochore complex is defined by cross-linking based structural modelling.Spastin's microtubule-binding properties and comparison to kataninLoss of function of the Cik1/Kar3 motor complex results in chromosomes with syntelic attachment that are sensed by the tension checkpointEB1 recognizes the nucleotide state of tubulin in the microtubule latticeThe Ndc80/HEC1 complex is a contact point for kinetochore-microtubule attachmentStructure of the Kinesin13-Microtubule Ring ComplexMps1 phosphorylation of Dam1 couples kinetochores to microtubule plus ends at metaphase.The Set1 methyltransferase opposes Ipl1 aurora kinase functions in chromosome segregationRoles for the conserved spc105p/kre28p complex in kinetochore-microtubule binding and the spindle assembly checkpoint.Glc7/protein phosphatase 1 regulatory subunits can oppose the Ipl1/aurora protein kinase by redistributing Glc7.The Dam1 complex confers microtubule plus end-tracking activity to the Ndc80 kinetochore complex.The Dam1 kinetochore complex harnesses microtubule dynamics to produce force and movement.Nbl1p: a Borealin/Dasra/CSC-1-like protein essential for Aurora/Ipl1 complex function and integrity in Saccharomyces cerevisiaeMolecular mechanisms of microtubule-dependent kinetochore transport toward spindle poles.A protein interaction map of the mitotic spindle.Molecular organization of the Ndc80 complex, an essential kinetochore component.Production and initial characterization of Dad1p, a component of the Dam1-DASH kinetochore complexForce production by depolymerizing microtubules: a theoretical studyMechanism of Ska Recruitment by Ndc80 Complexes to Kinetochores.Size and shape of protein molecules at the nanometer level determined by sedimentation, gel filtration, and electron microscopy.Molecular architecture of the Dam1 complex-microtubule interaction.The Ndc80 complex: integrating the kinetochore's many movements.Direct physical study of kinetochore-microtubule interactions by reconstitution and interrogation with an optical force clamp.The DASH complex and Klp5/Klp6 kinesin coordinate bipolar chromosome attachment in fission yeast.Model of chromosome motility in Drosophila embryos: adaptation of a general mechanism for rapid mitosis.Kinesin-13s form rings around microtubulesIn search of an optimal ring to couple microtubule depolymerization to processive chromosome motions.Different assemblies of the DAM1 complex follow shortening microtubules by distinct mechanisms.The Dam1 ring binds microtubules strongly enough to be a processive as well as energy-efficient coupler for chromosome motion.
P2860
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
P248
Q24312194-6E175986-14FC-4344-A068-05904B76FAFDQ24313155-9B2029EF-24D9-42D3-9080-131F05040EE5Q24321815-C791E527-840E-4E71-B6B4-E1BCAE07036DQ24535584-1120D1DB-4EAC-4E4D-9701-D229D21A6D36Q24602097-3C3156E8-160D-4E77-AF85-2788EA01D83FQ26767018-49A00350-1AD3-4C13-BBCA-B0DF76EBF415Q27007105-1D8DC525-9BC1-41CE-B17B-AAB125FD811CQ27011631-DC03B9C1-9BF6-46EE-A0B0-C924FC0FE28AQ27022835-3C02800D-59BF-4C59-BD5E-476F5EBA709CQ27308095-1D822290-8ECF-4C73-93B6-5B845BEA0362Q27316013-871DF9BF-B7B3-4267-A632-F5A86480A152Q27320362-04E0927B-3DCE-4BA6-9936-671A5C0F3236Q27334620-178488C7-DF0C-4C10-BB76-B90F64625551Q27334868-AE217473-77A4-4575-B709-8303AFF9B76CQ27338127-D94983D3-A7CB-4230-96AC-4CE1C6D715ECQ27643451-A310EA02-A5C6-46F0-923D-70AE0B6A1A55Q27652865-4E85157F-1612-4FCB-8C0D-FEB779EACCB4Q27929767-F7CB379D-26A4-436D-BD17-171200FE5E68Q27930816-AD7C14A7-2E1F-4A82-B8B2-FA38D9F369A3Q27930839-C990D700-E26D-4F69-BD90-F90B5C028339Q27931042-65EDF9BF-5580-4A31-B0A5-6460FD9DFB8DQ27932291-C48017FB-C591-4BD9-9977-E8F77EF3F3F9Q27933739-401CB0AF-2B4B-4CBE-AE17-4D1CEF6B6B7BQ27934475-C671E716-B4BF-4DA0-8BBD-73AA873EF6B6Q27936713-654E130B-473A-4E2D-8A22-67DE18690667Q27938054-386DF3BC-7EBF-484D-8566-452D48631D6DQ27940063-696EB943-91E9-4B6D-BD4F-A7CFE64FC00BQ28474205-766849EA-ADAA-459C-B65C-D23D515062C3Q28769994-910D00B9-51AE-45A2-9594-85D66BE687B0Q30252355-A31952EA-074F-420F-A97B-533F962702F5Q30377799-281EC681-5B2D-415E-A839-13B8F7F259DEQ30385514-4AEA43D8-C5B3-4827-B7A1-A3E2AFBAD323Q30427561-040AA3AC-64A8-4BEC-9406-01107751E2CDQ30475339-3B985E7E-7AC9-41C4-9420-526A54C44392Q30476087-178AACF3-87C9-46E2-A9BE-B59B1794048CQ30477305-BA39B113-34AA-45CA-B05F-E12ABADFFBDCQ30480526-0F7FB6C1-0D2F-49B0-847C-09E1718A53B9Q30480865-A75C5FB4-2297-4084-AD6D-38914D032902Q30481907-253C2530-D585-4FA9-A722-F98E02540F90Q30483984-B048C11E-15DA-4959-BE93-6D7C8CC15D04
P2860
Formation of a dynamic kinetochore- microtubule interface through assembly of the Dam1 ring complex.
description
2005 nî lūn-bûn
@nan
2005 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2005 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
name
Formation of a dynamic kinetoc ...... mbly of the Dam1 ring complex.
@ast
Formation of a dynamic kinetoc ...... mbly of the Dam1 ring complex.
@en
Formation of a dynamic kinetoc ...... mbly of the Dam1 ring complex.
@nl
type
label
Formation of a dynamic kinetoc ...... mbly of the Dam1 ring complex.
@ast
Formation of a dynamic kinetoc ...... mbly of the Dam1 ring complex.
@en
Formation of a dynamic kinetoc ...... mbly of the Dam1 ring complex.
@nl
prefLabel
Formation of a dynamic kinetoc ...... mbly of the Dam1 ring complex.
@ast
Formation of a dynamic kinetoc ...... mbly of the Dam1 ring complex.
@en
Formation of a dynamic kinetoc ...... mbly of the Dam1 ring complex.
@nl
P2093
P3181
P1433
P1476
Formation of a dynamic kinetoc ...... mbly of the Dam1 ring complex.
@en
P2093
Agustin Avila-Sakar
Georjana Barnes
Hanspeter Niederstrasser
Hong-Wei Wang
Jonathan Wong
Stefan Westermann
P304
P3181
P356
10.1016/J.MOLCEL.2004.12.019
P407
P577
2005-01-21T00:00:00Z