Association of spindle assembly checkpoint component XMAD2 with unattached kinetochores
about
Characterization of the kinetochore binding domain of CENP-E reveals interactions with the kinetochore proteins CENP-F and hBUBR1INCENP centromere and spindle targeting: identification of essential conserved motifs and involvement of heterochromatin protein HP1A MHC-encoded ubiquitin-like protein (FAT10) binds noncovalently to the spindle assembly checkpoint protein MAD2Human BUBR1 is a mitotic checkpoint kinase that monitors CENP-E functions at kinetochores and binds the cyclosome/APCEvidence for an interaction of the metalloprotease-disintegrin tumour necrosis factor alpha convertase (TACE) with mitotic arrest deficient 2 (MAD2), and of the metalloprotease-disintegrin MDC9 with a novel MAD2-related protein, MAD2betaThe Ndc80p complex from Saccharomyces cerevisiae contains conserved centromere components and has a function in chromosome segregationMAD2B is an inhibitor of the anaphase-promoting complexUnstable microtubule capture at kinetochores depleted of the centromere-associated protein CENP-F.Crystal structure of the tetrameric Mad1-Mad2 core complex: implications of a 'safety belt' binding mechanism for the spindle checkpointFAT10 plays a role in the regulation of chromosomal stabilityNEK2A interacts with MAD1 and possibly functions as a novel integrator of the spindle checkpoint signalingConservation of the centromere/kinetochore protein ZW10Dynein light intermediate chain 1 is required for progress through the spindle assembly checkpoint.The human homologue of Bub3 is required for kinetochore localization of Bub1 and a Mad3/Bub1-related protein kinaseThe augmin complex plays a critical role in spindle microtubule generation for mitotic progression and cytokinesis in human cellsIdentification of a MAD2-binding protein, CMT2, and its role in mitosis.ZW10 helps recruit dynactin and dynein to the kinetochoreHuman centromere chromatin protein hMis12, essential for equal segregation, is independent of CENP-A loading pathwayC1qRp defines a new human stem cell population with hematopoietic and hepatic potentialDifferential regulation of the human and murine CD34 genes in hematopoietic stem cells.Mad2 binding to Mad1 and Cdc20, rather than oligomerization, is required for the spindle checkpoint.Bub3 interaction with Mad2, Mad3 and Cdc20 is mediated by WD40 repeats and does not require intact kinetochoresCENP-H, a constitutive centromere component, is required for centromere targeting of CENP-C in vertebrate cells.Lesions in many different spindle components activate the spindle checkpoint in the budding yeast Saccharomyces cerevisiaeCheckpoint protein BubR1 acts synergistically with Mad2 to inhibit anaphase-promoting complexIdentification of an overlapping binding domain on Cdc20 for Mad2 and anaphase-promoting complex: model for spindle checkpoint regulationFlk-2 is a marker in hematopoietic stem cell differentiation: a simple method to isolate long-term stem cellsMicrotubule-dependent changes in assembly of microtubule motor proteins and mitotic spindle checkpoint proteins at PtK1 kinetochoresBub3 gene disruption in mice reveals essential mitotic spindle checkpoint function during early embryogenesisThe checkpoint protein MAD2 and the mitotic regulator CDC20 form a ternary complex with the anaphase-promoting complex to control anaphase initiationA new look at kinetochore structure in vertebrate somatic cells using high-pressure freezing and freeze substitutionA mitotic septin scaffold required for Mammalian chromosome congression and segregationMammalian mad2 and bub1/bubR1 recognize distinct spindle-attachment and kinetochore-tension checkpointsMAD2 associates with the cyclosome/anaphase-promoting complex and inhibits its activityCytoplasmic dynein/dynactin drives kinetochore protein transport to the spindle poles and has a role in mitotic spindle checkpoint inactivationCheckpoint inhibition of the APC/C in HeLa cells is mediated by a complex of BUBR1, BUB3, CDC20, and MAD2Rapid microtubule-independent dynamics of Cdc20 at kinetochores and centrosomes in mammalian cellsAnuria, omphalocele, and perinatal lethality in mice lacking the CD34-related protein podocalyxinSpecific association of estrogen receptor beta with the cell cycle spindle assembly checkpoint protein, MAD2Inhibition of aldehyde dehydrogenase and retinoid signaling induces the expansion of human hematopoietic stem cells
P2860
Q22003896-A505A6C0-48D4-4157-891B-CB671007623AQ22008580-8846CC9D-1754-4C7E-8785-27768DF7FF35Q22009372-E1049E25-A117-4736-BE94-1DA99687E198Q22010522-764302CC-0C5B-4B94-86AE-418930468A88Q22010696-8669B7F5-8E77-4233-9CA7-A5FB754D7A1AQ24290969-C60C1534-8DA7-4B95-8A3E-B0FF935584E8Q24291452-1FA263C4-F419-438E-9F18-1409C40BA571Q24292895-6D2FB3E9-A074-4A88-BE81-5B53B5E25AFFQ24297170-FE25E2D9-72A0-4D7D-842F-F99C95FA03E9Q24305422-71C64B2F-23CF-44DC-AEDC-C36B3547A01BQ24310671-9A61EE21-EC9C-49AB-8338-25C7C3820217Q24312091-45BF9C59-026F-40B6-A26A-673829A924F1Q24312788-9B28AAEC-0FBA-47FB-9142-34E0FDB19FB7Q24314385-AA7DF47E-8EC9-45F3-8397-927A560B16BEQ24316058-50195101-6F87-4F44-A831-822DA62CFE29Q24321983-4BA90C2D-366B-4D13-AD05-BDD6DFEABADFQ24322833-D0A82902-8FE5-4165-94B6-BF9B71A953D5Q24338369-883D022B-57C4-4933-B041-72A8CF58F20BQ24533499-B64847A4-E862-4EE4-AD03-206117960F7AQ24534240-DC6750F4-F2F5-4A34-8BE8-5F47BAD1B65DQ24534571-F7E55FE3-AF8B-4160-AF47-ED51EF07B9E8Q24534626-924A34BF-F5B1-499C-80D9-CA4E89033844Q24535630-01CF5E81-926B-44C4-B301-99129ABFC9F7Q24548054-6B605FAA-F53C-4197-A717-18027D2C55B8Q24548359-31696FB6-BC25-4A01-9304-60E6456F5429Q24550894-64E2919E-B779-4A58-B1F4-9096BF750981Q24555063-5FBC8991-EAA1-4B0C-B3F9-8C73471DF854Q24555706-596BCB41-B8B1-4E85-90B7-B5D22E8446D7Q24600680-9491A5B3-A2F6-4BD4-A402-AD6568404169Q24601346-AD7FE5D2-EC9F-4CD9-8D41-CF6EC4BA3C17Q24607318-EFF5A9AF-3F62-41EF-B906-FE61287BF7DCQ24609823-9FB76564-7161-4008-9F62-9904A7AB19EEQ24635263-46129C75-06A8-47B0-9CBE-17F08B7D02F6Q24648493-E1AB77CA-7E80-4264-902E-D08D95BC0FCBQ24652311-4C1AADE4-2861-43C3-8C85-01767A009B3EQ24670095-3D1FF0BC-2986-47E1-9CB7-8FABDEFD7B1AQ24673713-D0C03C05-2C00-4E21-95EB-AE11A44F57E4Q24675668-334E7707-5D49-4D6A-A841-150DD42345F8Q24676152-FC358083-E73B-489A-968F-9D20C65B6EB1Q24676524-6D33FD7E-6F08-49B0-B02F-E1A197E5C393
P2860
Association of spindle assembly checkpoint component XMAD2 with unattached kinetochores
description
1996 nî lūn-bûn
@nan
1996 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
1996 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
1996年の論文
@ja
1996年論文
@yue
1996年論文
@zh-hant
1996年論文
@zh-hk
1996年論文
@zh-mo
1996年論文
@zh-tw
1996年论文
@wuu
name
Association of spindle assembly checkpoint component XMAD2 with unattached kinetochores
@ast
Association of spindle assembly checkpoint component XMAD2 with unattached kinetochores
@en
Association of spindle assembly checkpoint component XMAD2 with unattached kinetochores
@nl
type
label
Association of spindle assembly checkpoint component XMAD2 with unattached kinetochores
@ast
Association of spindle assembly checkpoint component XMAD2 with unattached kinetochores
@en
Association of spindle assembly checkpoint component XMAD2 with unattached kinetochores
@nl
prefLabel
Association of spindle assembly checkpoint component XMAD2 with unattached kinetochores
@ast
Association of spindle assembly checkpoint component XMAD2 with unattached kinetochores
@en
Association of spindle assembly checkpoint component XMAD2 with unattached kinetochores
@nl
P2093
P3181
P1433
P1476
Association of spindle assembly checkpoint component XMAD2 with unattached kinetochores
@en
P2093
P3181
P356
10.1126/SCIENCE.274.5285.242
P407
P577
1996-10-11T00:00:00Z