M-phase kinases induce phospho-dependent ubiquitination of somatic Wee1 by SCFbeta-TrCP
about
Polo-like kinase-1 controls Aurora A destruction by activating APC/C-Cdh1Computational analysis of phosphopeptide binding to the polo-box domain of the mitotic kinase PLK1 using molecular dynamics simulationPhosphorylation- and polo-box-dependent binding of Plk1 to Bub1 is required for the kinetochore localization of Plk1Evidence for the direct involvement of {beta}TrCP in Gli3 protein processingSCFbeta-TRCP controls clock-dependent transcription via casein kinase 1-dependent degradation of the mammalian period-1 (Per1) proteinCheckpoint recovery in cells: how a molecular understanding can help in the fight against cancerPlk1 regulates activation of the anaphase promoting complex by phosphorylating and triggering SCFbetaTrCP-dependent destruction of the APC Inhibitor Emi1New Cdc2 Tyr 4 phosphorylation by dsRNA-activated protein kinase triggers Cdc2 polyubiquitination and G2 arrest under genotoxic stressesThe decision to enter mitosis: feedback and redundancy in the mitotic entry networkStructural and functional coupling of Hsp90- and Sgt1-centred multi-protein complexesThe Cdc14B-Cdh1-Plk1 axis controls the G2 DNA-damage-response checkpointPlk1 regulates mitotic Aurora A function through betaTrCP-dependent degradation of hBoraPlk1-dependent phosphorylation of FoxM1 regulates a transcriptional programme required for mitotic progressionThe ubiquitin-specific protease USP47 is a novel beta-TRCP interactor regulating cell survivalControl of cell growth by the SCF and APC/C ubiquitin ligasesDeregulated proteolysis by the F-box proteins SKP2 and beta-TrCP: tipping the scales of cancerFbxw7 acts as an E3 ubiquitin ligase that targets c-Myb for nemo-like kinase (NLK)-induced degradationTyrosines in the kinesin-5 head domain are necessary for phosphorylation by Wee1 and for mitotic spindle integritySpecialized roles of the two mitotic cyclins in somatic cells: cyclin A as an activator of M phase-promoting factorTargeting the Checkpoint to Kill Cancer CellsPolo-like kinase 1, on the rise from cell cycle regulation to prostate cancer developmentLB100, a small molecule inhibitor of PP2A with potent chemo- and radio-sensitizing potentialTargeting the ubiquitin pathway for cancer treatmentExpression of constitutively active CDK1 stabilizes APC-Cdh1 substrates and potentiates premature spindle assembly and checkpoint function in G1 cellsMultiple requirements of PLK1 during mouse oocyte maturationCasein kinase 1δ is an APC/C(Cdh1) substrate that regulates cerebellar granule cell neurogenesis.A haploid genetic screen identifies the G1/S regulatory machinery as a determinant of Wee1 inhibitor sensitivity.Different Electrostatic Potentials Define ETGE and DLG Motifs as Hinge and Latch in Oxidative Stress ResponseCoordinating cell polarity and cell cycle progression: what can we learn from flies and worms?WEE1 kinase polymorphism as a predictive biomarker for efficacy of platinum-gemcitabine doublet chemotherapy in advanced non-small cell lung cancer patients.Polo-like kinase and its inhibitors: Ready for the match to start?Plk1- and beta-TrCP-dependent degradation of Bora controls mitotic progressionBora and the kinase Aurora a cooperatively activate the kinase Plk1 and control mitotic entryMultiple isoforms of beta-TrCP display differential activities in the regulation of Wnt signalingControl of chromosome stability by the beta-TrCP-REST-Mad2 axisUbiquitination and degradation of the inhibitors of NF-kappaBThe SCF ubiquitin ligase: insights into a molecular machinePhospho-Ser/Thr-binding domains: navigating the cell cycle and DNA damage responseUbiquitin and SUMO systems in the regulation of mitotic checkpointsA series of beta-carboline derivatives inhibit the kinase activity of PLKs
P2860
0042711d7ccf7eda6f74602ab52c55b8bc2d71a6472e60029719f0b8b7ff3f81d5a11be45b9824796f98baba247e575d73e4c40722ba11a999f6b197729e5c93a61b52e8c03d7abc1f2fd9ce40db1c0d8d6189a73f2cef768f894671f2cd263e18973fceba3e97783bbf33bf33dc4a564fd8f4fa2dc46385ce0bb56eaa19d1bd2047ca2195b3fa13ed131516e36bf87fb55f63a563abe5576ca4c87256444dd0ec322d338e0c999d991bdaab9d56a8601835b9dd
P248
Q21090068-DF852DF1-22CF-4968-A7FB-BE3B6F9CEA47Q21092524-1377966A-386D-458E-B832-AFCDD2BB7372Q24292817-33916890-0AFE-4BE6-A989-AD3CFA2C0634Q24299566-C412275F-206D-469D-A2A2-FF96F13EE30DQ24303638-03C0049E-4AC0-4815-9D7C-49A599726FF1Q24306163-C75BEDCC-FC9C-422C-82CF-3DAAE3A1C1FFQ24306531-B152A0A7-349C-4DFB-A4E4-2CFD2CA14105Q24306792-6CCFE64D-530D-4177-BE5D-45EA5E9C0D22Q24315132-5CF0FA78-42BE-4C5E-8E39-AE019AD9D849Q24316241-E2D1A649-46B1-430D-B25B-53D98BF1DFD8Q24317772-22C1A9A7-6D99-45C8-9CD2-02C9116E3BA2Q24318919-E9849B16-06B7-40EA-977A-81B82BCFBE84Q24319945-8488EB59-1466-4E3B-85B2-8B94AC0DA75AQ24336640-40382608-4199-446E-9E40-980AF767A6E9Q24647543-A81EE55D-9138-4642-BFC1-78D843B5A6AEQ24648025-70799A39-30E9-4C0E-8BB6-2CA94DB1C371Q24651352-71D6B8F4-A1B4-4ADD-8A89-E985EBA316B8Q24653230-47AA8E46-AD43-4304-A0D8-962D23B85CE2Q24681581-7CC1CD38-1369-495E-8F6C-3D8AEA01E317Q26795781-0D4D5AA1-3945-4E3A-AF67-85CAD7A75D38Q26825016-B898C4A0-5B75-4212-80FC-8A40675CF1F0Q26865711-A51711AB-EF5B-42C8-AA0E-E53A1467556AQ26866185-20AE59B8-43A5-43DB-BCF7-3D6510704DD8Q27306141-6BF9BD1C-852B-4D74-9A52-EE4F749C2B90Q27316964-3F7C50DE-82C6-4A57-B7BA-ACB48B218D40Q27320896-0A53A40A-A09A-49A2-935D-EC1311C7140DQ27323300-2CAF760F-5729-4139-B4D3-C80DF471A1DFQ27647812-823E56B5-B456-427C-9A60-A6F8E6C2D05EQ27687672-9279F8AA-2002-41D7-98CF-0120F9F689A1Q27853174-B79D26BD-A7AA-4EE2-896D-FB3E09EF9D3FQ28087433-2EA460ED-5446-4274-9B76-6ACE2808084EQ28115063-B6C02CF5-79CF-4D8F-90AC-FC64033A7089Q28115829-E0C2E530-9CBB-448B-BC60-130F5DF8C57AQ28119010-B997DE26-59CF-40E9-9DBC-7904F92B3A4FQ28273354-2C2BFB38-7445-4C6D-88DE-5A1C805D0583Q28274205-344B3CC0-225A-4950-B959-47CF4958A554Q28279993-C8018734-EBAA-4C0F-9C63-244C56EF7C09Q28297156-D149FD27-45C6-4B1F-8CF5-E6B29B0270BFQ28387076-03FC84C7-9F40-482A-B83E-C9EC99FC537BQ28484219-9686B139-F41A-422A-8C70-2626C22780F7
P2860
M-phase kinases induce phospho-dependent ubiquitination of somatic Wee1 by SCFbeta-TrCP
description
2004 nî lūn-bûn
@nan
2004 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2004 թվականի մարտին հրատարակված գիտական հոդված
@hy
2004年の論文
@ja
2004年論文
@yue
2004年論文
@zh-hant
2004年論文
@zh-hk
2004年論文
@zh-mo
2004年論文
@zh-tw
2004年论文
@wuu
name
M-phase kinases induce phospho-dependent ubiquitination of somatic Wee1 by SCFbeta-TrCP
@ast
M-phase kinases induce phospho-dependent ubiquitination of somatic Wee1 by SCFbeta-TrCP
@en
M-phase kinases induce phospho-dependent ubiquitination of somatic Wee1 by SCFbeta-TrCP
@en-gb
M-phase kinases induce phospho-dependent ubiquitination of somatic Wee1 by SCFbeta-TrCP
@nl
type
label
M-phase kinases induce phospho-dependent ubiquitination of somatic Wee1 by SCFbeta-TrCP
@ast
M-phase kinases induce phospho-dependent ubiquitination of somatic Wee1 by SCFbeta-TrCP
@en
M-phase kinases induce phospho-dependent ubiquitination of somatic Wee1 by SCFbeta-TrCP
@en-gb
M-phase kinases induce phospho-dependent ubiquitination of somatic Wee1 by SCFbeta-TrCP
@nl
prefLabel
M-phase kinases induce phospho-dependent ubiquitination of somatic Wee1 by SCFbeta-TrCP
@ast
M-phase kinases induce phospho-dependent ubiquitination of somatic Wee1 by SCFbeta-TrCP
@en
M-phase kinases induce phospho-dependent ubiquitination of somatic Wee1 by SCFbeta-TrCP
@en-gb
M-phase kinases induce phospho-dependent ubiquitination of somatic Wee1 by SCFbeta-TrCP
@nl
P2093
P2860
P356
P1476
M-phase kinases induce phospho-dependent ubiquitination of somatic Wee1 by SCFbeta-TrCP
@en
P2093
Harumi Arai
Hiroyuki Osada
Makoto Taniguchi
Naoko Watanabe
Nobumoto Watanabe
Tony Hunter
Yoshifumi Nishihara
P2860
P304
P356
10.1073/PNAS.0307700101
P407
P577
2004-03-30T00:00:00Z