Phosphorylation of the transcription factor PHO4 by a cyclin-CDK complex, PHO80-PHO85.
about
Identification of human cyclin-dependent kinase 8, a putative protein kinase partner for cyclin CAffinity for the nuclear compartment and expression during cell differentiation implicate phosphorylated Groucho/TLE1 forms of higher molecular mass in nuclear functionsCrystal structure of PHO4 bHLH domain-DNA complex: flanking base recognitionA cysteine residue in helixII of the bHLH domain is essential for homodimerization of the yeast transcription factor Pho4pRegulation of chromatin remodeling by inositol polyphosphatesPhosphorylation of sic1, a cyclin-dependent kinase (Cdk) inhibitor, by Cdk including Pho85 kinase is required for its prompt degradationPartially phosphorylated Pho4 activates transcription of a subset of phosphate-responsive genesBiosynthesis and possible functions of inositol pyrophosphates in plantsStructure of the Pho85-Pho80 CDK-Cyclin Complex of the Phosphate-Responsive Signal Transduction PathwayNew Structural Insights into Phosphorylation-free Mechanism for Full Cyclin-dependent Kinase (CDK)-Cyclin Activity and Substrate RecognitionA family of cyclin-like proteins that interact with the Pho85 cyclin-dependent kinaseRegulation of the Pcl7-Pho85 cyclin-cdk complex by Pho81.Cyclin partners determine Pho85 protein kinase substrate specificity in vitro and in vivo: control of glycogen biosynthesis by Pcl8 and Pcl10.Mitochondria-to-nuclear signaling is regulated by the subcellular localization of the transcription factors Rtg1p and Rtg3pRegulation of the transcription factor Gcn4 by Pho85 cyclin PCL5.A role for the Pcl9-Pho85 cyclin-cdk complex at the M/G1 boundary in Saccharomyces cerevisiae.Antagonistic controls of autophagy and glycogen accumulation by Snf1p, the yeast homolog of AMP-activated protein kinase, and the cyclin-dependent kinase Pho85p.SURVEY AND SUMMARY: Saccharomyces cerevisiae basic helix-loop-helix proteins regulate diverse biological processesAn essential function of a phosphoinositide-specific phospholipase C is relieved by inhibition of a cyclin-dependent protein kinase in the yeast Saccharomyces cerevisiaeGenomic analysis of PIS1 gene expression.The yeast carboxyl-terminal repeat domain kinase CTDK-I is a divergent cyclin-cyclin-dependent kinase complex.BUR1 and BUR2 encode a divergent cyclin-dependent kinase-cyclin complex important for transcription in vivo.Members of the NAP/SET family of proteins interact specifically with B-type cyclins.Swi5 controls a novel wave of cyclin synthesis in late mitosis.The Saccharomyces cerevisiae RanGTP-binding protein msn5p is involved in different signal transduction pathways.Phosphate transport and sensing in Saccharomyces cerevisiaeVtc5, a Novel Subunit of the Vacuolar Transporter Chaperone Complex, Regulates Polyphosphate Synthesis and Phosphate Homeostasis in YeastCooperative Pho2-Pho4 interactions at the PHO5 promoter are critical for binding of Pho4 to UASp1 and for efficient transactivation by Pho4 at UASp2.The effect of phosphate accumulation on metal ion homeostasis in Saccharomyces cerevisiaeThe receptor Msn5 exports the phosphorylated transcription factor Pho4 out of the nucleus.The yeast cyclins Pc16p and Pc17p are involved in the control of glycogen storage by the cyclin-dependent protein kinase Pho85p.Cyclin-dependent protein kinase and cyclin homologs SSN3 and SSN8 contribute to transcriptional control in yeast.Opi1 mediates repression of phospholipid biosynthesis by phosphate limitation in the yeast Saccharomyces cerevisiaeIncreasing the rate of chromatin remodeling and gene activation--a novel role for the histone acetyltransferase Gcn5Cyclins and cyclin-dependent kinases: a biochemical viewAn Arabidopsis cell cycle -dependent kinase-related gene, CDC2b, plays a role in regulating seedling growth in darkness.Reprogramming of nonfermentative metabolism by stress-responsive transcription factors in the yeast Saccharomyces cerevisiae.Evolution of reduced co-activator dependence led to target expansion of a starvation response pathway.Phosphate starvation in fungi induces the replacement of phosphatidylcholine with the phosphorus-free betaine lipid diacylglyceryl-N,N,N-trimethylhomoserine.Requirements for chromatin modulation and transcription activation by the Pho4 acidic activation domain.
P2860
Q24311956-30EABA4D-38F7-4C25-B307-3C5446199966Q24529859-84FB98D4-DF6C-4975-9772-E7E7D328E6FEQ24532538-A5AB5D38-0F87-449F-82DA-B07215CF08B8Q24546241-C52D1B39-9116-401A-8D83-56E042028F19Q24546253-0842E210-D082-4E7D-AFA5-8A1282C9A4C7Q24645433-9A3A6C63-0356-4902-8169-D6B990206F99Q24806645-DD06728C-3E41-498E-A9D6-F256D81875EEQ27007488-80B732BA-D546-477D-BB53-6E4050F071DDQ27649148-E93D1FA2-A0A4-4C4A-A244-026E0A9CCB34Q27679911-C760B7CF-4C82-4663-8630-F970E596072CQ27930072-F23CEF77-7E48-48DB-B7E6-63EFE30DFBD6Q27930145-3DBFE64E-6159-4236-A908-24680C180814Q27930237-266E795C-9CAE-4661-A288-F8DB126DC59EQ27930525-0212C0C0-8E48-4CB4-A2B2-7896A8438058Q27931145-BF330F3E-E83A-4929-8F0A-1F288EDEB45FQ27931653-5BF25D0D-DE56-49C7-93D5-5B65B01004D0Q27931717-76948E78-FB7A-4134-9FDF-DB49E30F3D73Q27932339-765C6307-12E8-4BDF-A4E7-D1D6E01CDD5BQ27932572-716DB7E2-E043-484E-A276-FAED4C966E3CQ27932620-8EC92791-0A66-4F33-BEB3-F9558CF2F1C0Q27932742-CD7ABD8E-0527-4D62-93F7-387E87ADCBBDQ27933584-1339824D-09C4-47D2-B235-DD48154D1229Q27934089-3DA1A988-4E8E-4970-B56E-C70104D405A9Q27934172-29D99DF8-C156-459A-8A8D-E1E9D74BF5C5Q27934331-79F26F8A-CEF8-4BDB-9B6A-AE8DC503A173Q27934480-98BFA6B7-70CE-4090-84D5-2251B21D9350Q27934788-448A19CF-3735-4BF3-B93F-A685F96DB79FQ27936067-1CA48832-323C-4E84-8D79-029D0EF4FCBDQ27936784-BBCE6144-66EC-45B5-A5F8-550FA24F2D4CQ27936804-F276C3A7-705D-4D9B-9C98-E5A6044A473DQ27937912-7B5F84F9-DD28-42DD-BD87-884447EFD9A6Q27939285-D1197197-50ED-40CD-8B06-39A9F069A05CQ28114316-1ABC3E6B-2321-48AF-AA24-D68508D47B22Q28348534-6D2A2ADB-22FD-49FA-A697-34C3913AA931Q28611449-5D1D819E-A4D0-4618-A2C5-CB5A12DCDCEBQ33334041-FE80A966-CB4C-467D-B24D-3FCA3E294CD0Q33363124-94A6BC0E-4FBB-4834-8C9D-435468CABB46Q33732357-459EECFF-3DD6-424F-93BE-EE652CDA7C50Q33743546-2A4CFC42-A8BE-4384-8390-CBE64B3397B1Q33780471-0FBF0EFC-9BB3-4B81-988C-CBFFC368D3AA
P2860
Phosphorylation of the transcription factor PHO4 by a cyclin-CDK complex, PHO80-PHO85.
description
1994 nî lūn-bûn
@nan
1994 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
1994 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
1994年の論文
@ja
1994年論文
@yue
1994年論文
@zh-hant
1994年論文
@zh-hk
1994年論文
@zh-mo
1994年論文
@zh-tw
1994年论文
@wuu
name
Phosphorylation of the transcription factor PHO4 by a cyclin-CDK complex, PHO80-PHO85.
@ast
Phosphorylation of the transcription factor PHO4 by a cyclin-CDK complex, PHO80-PHO85.
@en
Phosphorylation of the transcription factor PHO4 by a cyclin-CDK complex, PHO80-PHO85.
@nl
type
label
Phosphorylation of the transcription factor PHO4 by a cyclin-CDK complex, PHO80-PHO85.
@ast
Phosphorylation of the transcription factor PHO4 by a cyclin-CDK complex, PHO80-PHO85.
@en
Phosphorylation of the transcription factor PHO4 by a cyclin-CDK complex, PHO80-PHO85.
@nl
prefLabel
Phosphorylation of the transcription factor PHO4 by a cyclin-CDK complex, PHO80-PHO85.
@ast
Phosphorylation of the transcription factor PHO4 by a cyclin-CDK complex, PHO80-PHO85.
@en
Phosphorylation of the transcription factor PHO4 by a cyclin-CDK complex, PHO80-PHO85.
@nl
P2093
P356
P1433
P1476
Phosphorylation of the transcription factor PHO4 by a cyclin-CDK complex, PHO80-PHO85.
@en
P2093
P304
P356
10.1126/SCIENCE.8108735
P407
P577
1994-02-25T00:00:00Z