about
Structural Insights into Ring Formation of Cohesin and Related Smc ComplexesThe biology of pediatric acute megakaryoblastic leukemiaTopology and structure of an engineered human cohesin complex bound to Pds5B.Complete loss of STAG2 expression is an indicator of good prognosis in patients with bladder cancer.How MCM loading and spreading specify eukaryotic DNA replication initiation sitesA Long Noncoding RNA Regulates Sister Chromatid CohesionA Gene Gravity Model for the Evolution of Cancer Genomes: A Study of 3,000 Cancer Genomes across 9 Cancer TypesDefective sister chromatid cohesion is synthetically lethal with impaired APC/C function.Benchmarking database performance for genomic data.The genetics of myelodysplastic syndrome: from clonal haematopoiesis to secondary leukaemiaTargeting TPX2 Suppresses the Tumorigenesis of Hepatocellular Carcinoma Cells Resulting in Arrested Mitotic Phase Progression and Increased Genomic Instability.The LSH/HELLS homolog Irc5 contributes to cohesin association with chromatin in yeastSplicing together sister chromatids.The contribution of cohesin-SA1 to gene expression and chromatin architecture in two murine tissues.Chromatinization of the KSHV Genome During the KSHV Life Cycle.Pds5 regulators segregate cohesion and condensation pathways in Saccharomyces cerevisiaeComplex elaboration: making sense of meiotic cohesin dynamicsIntact Cohesion, Anaphase, and Chromosome Segregation in Human Cells Harboring Tumor-Derived Mutations in STAG2.Cohesin recruits the Esco1 acetyltransferase genome wide to repress transcription and promote cohesion in somatic cells.The Use of Laser Microirradiation to Investigate the Roles of Cohesins in DNA Repair.Roles for APRIN (PDS5B) in homologous recombination and in ovarian cancer prediction.An LSC epigenetic signature is largely mutation independent and implicates the HOXA cluster in AML pathogenesis.Reduced cohesin destabilizes high-level gene amplification by disrupting pre-replication complex bindings in human cancers with chromosomal instability.HDAC8 Inhibition Blocks SMC3 Deacetylation and Delays Cell Cycle Progression without Affecting Cohesin-dependent Transcription in MCF7 Cancer Cells.SGO1 is involved in the DNA damage response in MYCN-amplified neuroblastoma cells.Loss of cohesin complex components STAG2 or STAG3 confers resistance to BRAF inhibition in melanoma.Stag3 regulates microtubule stability to maintain euploidy during mouse oocyte meiotic maturation.Chromatin determinants of the inner-centromere rely on replication factors with functions that impart cohesionBub1 targeting to centromeres is sufficient for Sgo1 recruitment in the absence of kinetochores.Demystifying the secret mission of enhancers: linking distal regulatory elements to target genes.A new twist in the coil: functions of the coiled-coil domain of structural maintenance of chromosome (SMC) proteins.Sex matters in massive parallel sequencing: Evidence for biases in genetic parameter estimation and investigation of sex determination systems.Rtt101-Mms1-Mms22 coordinates replication-coupled sister chromatid cohesion and nucleosome assembly.Dynamic cohesin-mediated chromatin architecture controls epithelial-mesenchymal plasticity in cancer.Genome stability: What we have learned from cohesinopathies.Cohesin mutations in human cancerNew insights into cohesin loading.Profiling DNA damage response following mitotic perturbations.Systems Analyses Reveal Shared and Diverse Attributes of Oct4 Regulation in Pluripotent Cells.Deregulation of KSHV latency conformation by ER-stress and caspase-dependent RAD21-cleavage.
P2860
Q26748729-59C339D3-9E75-4A7D-AABD-1949AE61D0F3Q26799478-5FEB6737-16FB-4265-AE53-3C4118BB6593Q27332369-FDED140F-D558-4172-9D8F-6D9B4074F514Q27853334-AAFE69F3-B5ED-4F5B-ACAF-359523989FF6Q28066336-27D5F9E1-D71A-4453-850F-2E530517540CQ28115728-B570926A-1A05-4682-9A55-C82AEA2AC33FQ28547803-71EDA311-1268-4925-95F4-009A46177E72Q30667509-5D084835-690E-41C3-A662-7FE2003ABA1BQ30882823-0679F968-DE19-4762-B59D-CDBD86AC3E39Q33796552-30C060B4-38E7-4ABE-956B-55D80901DFE1Q33820856-1E399EE6-426D-47B7-BF90-363D742A9CAAQ33878765-39977262-9834-488B-B5C4-0C2481465444Q34806950-55EE0E0C-6BBF-47A7-9AF8-4E6F4A5490E3Q35237045-3FA3FCA0-9A7C-440E-8620-EE2D14E73BE4Q35237492-4426FBFC-39D8-4201-8BE4-D438353F40E3Q35699651-C324DCC9-BB2B-4EB6-A03F-296D86BBF8CCQ35812288-DFF97F0B-3C50-4AF2-807C-7492E0BCF8F3Q35922216-F2D136C7-8E02-4643-A3A8-5442C6BBDBEEQ36056894-B25F5755-E190-4E9D-82FB-31F2D5F3D63AQ36178244-02921721-3A72-43DE-9141-3BD7D3DD5D2BQ36214613-E4906AF4-0FFF-48FE-A6CB-BC6E35713DCAQ36250104-25B43201-FC69-4475-88F8-8BCF07232DF8Q36532727-E0D5891F-B20E-4035-90D8-30A8A5E6541FQ37066442-D96B201E-0171-43F7-84CB-2F3A3635E60EQ37188977-0DC5608C-F290-4F49-9530-B5364292125FQ37239090-22551D54-49C6-427D-B8CB-A73010EF597CQ37702137-71A4545D-48ED-4F9D-A787-AB01AB946F48Q37708730-92C39584-EF64-4170-96C5-B916653C4B40Q37727504-D8524394-8DFD-4B7C-B07D-6896B996BDFDQ38253721-3E48DCC9-9873-4612-9986-5A4A53FC8B28Q38637918-DF717CF4-5445-4B6C-9135-B02AC3E01921Q38704386-E6844E78-F286-4353-89F5-405E586A008DQ38725407-A61A4C41-F5F6-4D8E-AA5E-4CA4BD0A7024Q38755283-8F2A5FF6-1115-4889-A3DC-4EE308B8B83EQ38811354-755789EC-4970-4FAC-839D-C143A3544CA8Q38840393-4EEAC03E-1C29-4D28-9234-0C35C49F7C04Q39384891-44CB2B47-E321-4CBF-BC94-AC7C1C6A24B7Q39510912-F77390F6-7344-457D-939B-4447C5824D0FQ39803761-7764A106-DCA0-48DF-968C-FB7D81D0867AQ40064939-BEB607F9-3A19-4B1E-8A23-E78D1F622F6A
P2860
description
article científic
@ca
article scientifique
@fr
articol științific
@ro
articolo scientifico
@it
artigo científico
@gl
artigo científico
@pt
artigo científico
@pt-br
artikel ilmiah
@id
artikull shkencor
@sq
artículo científico
@es
name
Cohesin in cancer: chromosome segregation and beyond.
@en
type
label
Cohesin in cancer: chromosome segregation and beyond.
@en
prefLabel
Cohesin in cancer: chromosome segregation and beyond.
@en
P2860
P356
P1476
Cohesin in cancer: chromosome segregation and beyond.
@en
P2860
P2888
P304
P356
10.1038/NRC3743
P407
P50
P577
2014-06-01T00:00:00Z
P6179
1007227647