about
Interdependence of Pes1, Bop1, and WDR12 controls nucleolar localization and assembly of the PeBoW complex required for maturation of the 60S ribosomal subunitSCFFbxo9 and CK2 direct the cellular response to growth factor withdrawal via Tel2/Tti1 degradation and promote survival in multiple myelomaRab1A is an mTORC1 activator and a colorectal oncogeneAnalysis of a generic model of eukaryotic cell-cycle regulationRegulation of late G1/S phase transition and APC Cdh1 by reactive oxygen speciesPositive feedback of G1 cyclins ensures coherent cell cycle entryScaling of number, size, and metabolic rate of cells with body size in mammalsThe size of the nucleus increases as yeast cells growMYC and metabolism on the path to cancerCell-Size ControlRegulation of fission yeast morphogenesis by PP2A activator pta2Whi5 phosphorylation embedded in the G1/S network dynamically controls critical cell size and cell fate.PKA antagonizes CLASP-dependent microtubule stabilization to re-localize Pom1 and buffer cell size upon glucose limitationA polarised population of dynamic microtubules mediates homeostatic length control in animal cellsVariability in the control of cell division underlies sepal epidermal patterning in Arabidopsis thalianaThe p21-activated kinase (PAK) family member PakD is required for chemorepulsion and proliferation inhibition by autocrine signals in Dictyostelium discoideumGrowth control of the eukaryote cell: a systems biology study in yeastYeast Rrp14p is a nucleolar protein involved in both ribosome biogenesis and cell polarity.The SBF- and MBF-associated protein Msa1 is required for proper timing of G1-specific transcription in Saccharomyces cerevisiae.Las1 interacts with Grc3 polynucleotide kinase and is required for ribosome synthesis in Saccharomyces cerevisiae.A systematic analysis of cell cycle regulators in yeast reveals that most factors act independently of cell size to control initiation of divisionStructural modeling identified the tRNA-binding domain of Utp8p, an essential nucleolar component of the nuclear tRNA export machinery of Saccharomyces cerevisiae.Daughter-specific transcription factors regulate cell size control in budding yeast.Dual regulation by pairs of cyclin-dependent protein kinases and histone deacetylases controls G1 transcription in budding yeastCdk1 coordinates cell-surface growth with the cell cycle.Translation initiation requires cell division cycle 123 (Cdc123) to facilitate biogenesis of the eukaryotic initiation factor 2 (eIF2).Ribosome biogenesis factors bind a nuclear envelope SUN domain protein to cluster yeast telomeres.The origin recognition complex interacts with a subset of metabolic genes tightly linked to origins of replicationMathematical model of a cell size checkpointAutophagy induction is a Tor- and Tp53-independent cell survival response in a zebrafish model of disrupted ribosome biogenesisA metabolic sensor governing cell size in bacteriaIQGAP3 regulates cell proliferation through the Ras/ERK signalling cascadeRibosomal protein S6 gene haploinsufficiency is associated with activation of a p53-dependent checkpoint during gastrulationInactivation of S6 ribosomal protein gene in T lymphocytes activates a p53-dependent checkpoint response.Compact modeling of allosteric multisite proteins: application to a cell size checkpointIdentification of Gastric Cancer Biomarkers Using 1H Nuclear Magnetic Resonance SpectrometryUBF levels determine the number of active ribosomal RNA genes in mammalsThe functional basis of adaptive evolution in chemostatsWhat determines cell size?Mechanisms limiting body growth in mammals
P2860
Q24299871-9F5CFF97-CAD7-4F65-98FB-DDFE1C11CD3EQ24306820-9038391F-967A-479D-B67D-6A9AC8D0EE34Q24307749-A2F7932A-EC06-477F-9AF3-26698ECE6012Q24545779-D8064942-0FFB-4885-AE00-D1CA0F8B497DQ24548975-03283F14-1429-410D-ADBB-E5D47F4BDBE9Q24642340-4C5EA58C-C6B1-475D-97B2-6A356C0DEA7CQ24673689-3188774D-6B63-44DD-9BE5-A899B808E74CQ24675812-EF97F5C3-79D3-4F18-8AF8-612FC78BCB49Q26798086-C07F096B-AE64-4934-89A2-CE7C38FE950CQ26800930-571DDF17-2099-4F12-BEC0-B4C7AA6D419AQ27307800-5B24D87A-D4FD-45B8-927B-B605D5DAA099Q27319518-ABC0BCB3-66FE-4AEF-BBE1-702C7813D730Q27322471-37EFC636-7D6F-4D36-BEAF-4DF0801B06D2Q27322844-EBD36575-0059-4793-90A8-2662D9DB2E74Q27324567-C94E0C14-DA39-4816-9C33-732446605B16Q27334331-F7E8CB4F-95A8-42BB-91C8-CEDA42383CD5Q27499776-7577EBEE-486A-4528-BD46-04D6E5C4DEE1Q27930220-2CBAD7F8-078E-4EBE-B102-CEA05CEE80EDQ27930483-0D8F214F-9528-44EF-940A-669436D32672Q27932560-A98FB620-3511-4DFE-840E-D92AE7D8BC7DQ27933021-F1D95A29-8EAC-4749-AB7A-F84333256E80Q27934851-DCE0217A-C057-4B1F-A5C7-397AB4A93C3BQ27934907-B4AFBFF1-E2FB-4070-AE0B-DDDD785CE9D4Q27935015-13EAAE2F-64D5-425D-84F7-7AC21249DD6DQ27937136-BA3A320D-04A3-4A9C-AA17-D905F845743DQ27937302-9A6CBD0C-4B2F-442D-8BEF-5578465684F6Q27937820-7C1D5117-2E39-4DFD-9E6E-2FA38CF3C594Q28472092-7DCECC72-945E-4CD9-884A-D2B5B2299931Q28476561-29B2297A-3EAF-468B-8141-FCF9CD0DFD49Q28486076-85B314D9-21A2-40CC-9222-6B265E2F5E2EQ28488934-DA8270EA-2443-4E4F-A4A0-E19EC9795BA1Q28510385-5E370D3F-0D1B-4B06-9E54-5421D5CA936AQ28513144-AE7DB982-E4DA-46ED-910C-430AAE57BDE2Q28513487-BDC4048F-8F75-4AF4-99E5-B0F7AB39FF42Q28539600-2C8DF07F-EF1F-48F8-8CB6-1B70E1850F42Q28553966-F6A3DF30-1E17-4DAF-9D1F-08BDBCA2EBCBQ28585859-C57CC354-A89B-43BF-9088-4622635A8B78Q28649903-9032A419-3B2D-465B-A8C7-CA7932D8FA8BQ28710331-BAFF21AC-5C94-4BF2-AF13-66E0E0D6CEA9Q28728958-3C7B7523-3F38-47E0-B3D8-9F7EDEAB7014
P2860
description
2004 nî lūn-bûn
@nan
2004 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2004 թվականի դեկտեմբերին 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
How cells coordinate growth and division.
@ast
How cells coordinate growth and division.
@en
How cells coordinate growth and division.
@nl
type
label
How cells coordinate growth and division.
@ast
How cells coordinate growth and division.
@en
How cells coordinate growth and division.
@nl
prefLabel
How cells coordinate growth and division.
@ast
How cells coordinate growth and division.
@en
How cells coordinate growth and division.
@nl
P1433
P1476
How cells coordinate growth and division.
@en
P2093
Mike Tyers
Paul Jorgensen
P304
P356
10.1016/J.CUB.2004.11.027
P407
P577
2004-12-01T00:00:00Z