about
A conserved motif within RAP1 has diversified roles in telomere protection and regulation in different organismsRif1 and Rif2 shape telomere function and architecture through multivalent Rap1 interactionsArsenic toxicity to Saccharomyces cerevisiae is a consequence of inhibition of the TORC1 kinase combined with a chronic stress responseMultimerization of Hsp42p, a novel heat shock protein of Saccharomyces cerevisiae, is dependent on a conserved carboxyl-terminal sequence.A protein-counting mechanism for telomere length regulation in yeast.The telomere-binding protein Tbf1 demarcates snoRNA gene promoters in Saccharomyces cerevisiae.In vivo topography of Rap1p-DNA complex at Saccharomyces cerevisiae TEF2 UAS(RPG) during transcriptional regulation.Massively parallel measurements of molecular interaction kinetics on a microfluidic platform.Growth-regulated recruitment of the essential yeast ribosomal protein gene activator Ifh1.A chemostat array enables the spatio-temporal analysis of the yeast proteome.Molecular biology. Refined view of the ends.Distinct roles for yeast Stn1 in telomere capping and telomerase inhibition.Spontaneous rDNA copy number variation modulates Sir2 levels and epigenetic gene silencing.Two distinct promoter architectures centered on dynamic nucleosomes control ribosomal protein gene transcriptionAnticheckpoint pathways at telomeres in yeast.Telomeric chromatin: replicating and wrapping up chromosome ends.DNA breaks are masked by multiple Rap1 binding in yeast: implications for telomere capping and telomerase regulation.DNA-end capping by the budding yeast transcription factor and subtelomeric binding protein Tbf1Increased association of telomerase with short telomeres in yeast.Budding Yeast Rif1 Controls Genome Integrity by Inhibiting rDNA ReplicationThe KEOPS complex: a rosetta stone for telomere regulation?Rif1: A Conserved Regulator of DNA Replication and Repair Hijacked by Telomeres in Yeasts.How telomerase reaches its end: mechanism of telomerase regulation by the telomeric complex.Telomere length regulation: coupling DNA end processing to feedback regulation of telomerase.Growth control and ribosome biogenesis.Chromosomal landscape of nucleosome-dependent gene expression and silencing in yeast.A Reply to "MNase-Sensitive Complexes in Yeast: Nucleosomes and Non-histone Barriers," by Chereji et al.Establishing nucleosome architecture and stability at promoters: Roles of pioneer transcription factors and the RSC chromatin remodeler.Exploring Quantitative Yeast Phenomics with Single-Cell Analysis of DNA Damage Foci.Sfp1 interaction with TORC1 and Mrs6 reveals feedback regulation on TOR signaling.RAP1: a protean regulator in yeast.Telomerase and telomere-binding proteins: controlling the endgame.Rif1 controls DNA replication timing in yeast through the PP1 phosphatase Glc7.Distinct DNA elements contribute to Rap1p affinity for its binding sites.Rif1 maintains telomeres and mediates DNA repair by encasing DNA ends.TFIID or not TFIID, a continuing transcriptional SAGA.Yeast Ku protein plays a direct role in telomeric silencing and counteracts inhibition by rif proteins.A Molecular Titration System Coordinates Ribosomal Protein Gene Transcription with Ribosomal RNA Synthesis.Energetics of DNA twisting. II. Topoisomer analysis.Energetics of DNA twisting. I. Relation between twist and cyclization probability.
P50
Q27666528-9638B969-84FF-4AC3-B48C-6F9BC493CAD5Q27684777-C096F2D8-EE42-4A31-A625-25F4281B7B5EQ27930076-6AE04FF6-1665-428B-9537-71FA49B1CFD5Q27931308-93B2E1E1-7250-4A16-AC20-6F0AAD574CE5Q27932745-310C62AA-4B98-4ADB-BCD4-D6AC68FAA4DAQ27936738-3C49B33B-5F27-46E3-9C4B-1CC49D4472C7Q27938273-39356487-6DD6-4374-8466-1E0819FB1A9FQ27938491-A6677117-C177-439B-97F3-96839541EAC7Q27938728-FAAABD14-6CFA-4B1B-A3C3-127C32EFFE58Q30547352-F73D9DD0-5CA8-459C-AF72-A08DE3B9ACFDQ33340932-81768EEB-52BA-4C28-A058-1C1336959A52Q33403245-BE4FAEDC-BBCF-4702-800C-457026AFE4C4Q33826931-82900164-0354-44C0-AE54-28EF757FADA2Q33984507-70F3736C-E807-414B-AA32-A8A6E84737B3Q34161536-8941AA20-4F07-42AC-9918-35FC6B09E0A4Q34183869-207CAAA8-E7B7-4FD6-BDCB-3C40B84E81BCQ35615969-69D3AC07-1C67-4828-9632-79F4D99E7D95Q35656505-370378D2-F8F9-47AC-966C-E2119BB28755Q35893631-1E999DDC-ADB2-4EC1-9C45-AED82BDC8EC4Q36184338-45ACA23A-7785-4D0E-A2CE-589BAC3E0EECQ36431273-41FA79C5-93CA-4C58-AAB8-8B0D97F8177EQ36740169-065977DC-EE01-42A2-A371-8E3D50E9429DQ37227693-842D7190-66C6-424D-9EB5-F60E49632704Q37293044-2B11A033-091A-4EDF-BD18-88A055194157Q37606782-34262C73-F752-4153-91CE-21B015911227Q38317749-C3F3BB99-A99B-4C40-842E-A7C31A242E22Q38981130-C571D46A-D3F0-4721-9452-E6AEE2DC8AFBQ39202056-F29ED97A-1D22-4FF3-8329-AFFBE91E4052Q39401558-514148E0-8A10-4D28-BC4D-5516410ECF50Q39879339-43437E56-D52B-40A9-A3FD-E247CE1C9BE2Q40562327-4825B893-5728-4725-AD52-73D22D204AA3Q41560700-280C1488-2234-4637-9ACD-D652C85B3074Q45766948-1D9DE25B-B217-4A22-9BC6-59EDCE4B1376Q47692382-A63796E4-60FF-4FAC-85B2-96379FF228DFQ48293384-5E61A611-268C-40FE-B44B-FAF9CE537EC8Q48370580-A30EDC22-9C98-4548-B641-DC18A20F0B1BQ50142372-C1BEF5FE-3288-47AD-8C3F-EAE7ADB6F170Q51341775-14CFFB3D-234C-4ED2-B827-0DF760473892Q52700183-DE50E05B-71DF-4DDE-812E-4C572CD104D3Q52700197-9FAF2220-5394-4062-A74F-2E1245F6C54C
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
David Shore
@ast
David Shore
@en
David Shore
@es
David Shore
@nl
type
label
David Shore
@ast
David Shore
@en
David Shore
@es
David Shore
@nl
prefLabel
David Shore
@ast
David Shore
@en
David Shore
@es
David Shore
@nl
P106
P1153
7101690505
P21
P31
P496
0000-0002-9859-143X