Genome-wide analysis reveals a cell cycle-dependent mechanism controlling centromere propagation.
about
The structure of (CENP-A-H4)(2) reveals physical features that mark centromeresGenomic screening with RNAi: results and challengesThe cell cycle timing of centromeric chromatin assembly in Drosophila meiosis is distinct from mitosis yet requires CAL1 and CENP-CA role for the CAL1-partner Modulo in centromere integrity and accurate chromosome segregation in DrosophilaChromosomes. CENP-C reshapes and stabilizes CENP-A nucleosomes at the centromere.DNA binding of centromere protein C (CENPC) is stabilized by single-stranded RNACenH3/CID incorporation is not dependent on the chromatin assembly factor CHD1 in DrosophilaAssembly of Drosophila centromeric chromatin proteins during mitosisTransgenerational propagation and quantitative maintenance of paternal centromeres depends on Cid/Cenp-A presence in Drosophila spermDifferential Binding Partners of the Mis18α/β YIPPEE Domains Regulate Mis18 Complex Recruitment to Centromeres.Licensing of Centromeric Chromatin Assembly through the Mis18α-Mis18β Heterotetramer.A cell-free CENP-A assembly system defines the chromatin requirements for centromere maintenance.Putting CENP-A in its placeCentromere identity, function, and epigenetic propagation across cell divisions.CAL1 is the Drosophila CENP-A assembly factorRepetitive centromeric satellite RNA is essential for kinetochore formation and cell division.The C-terminal domain of CENP-C displays multiple and critical functions for mammalian centromere formation.Down the rabbit hole of centromere assembly and dynamics.HJURP binds CENP-A via a highly conserved N-terminal domain and mediates its deposition at centromeresSystematic screening of Drosophila deficiency mutations for embryonic phenotypes and orphan receptor ligands.The long non-coding RNA LINC00152 is essential for cell cycle progression through mitosis in HeLa cellsCentromeres are maintained by fastening CENP-A to DNA and directing an arginine anchor-dependent nucleosome transition.Meiosis-specific loading of the centromere-specific histone CENH3 in Arabidopsis thaliana.The life and miracles of kinetochores.The MIS12 complex is a protein interaction hub for outer kinetochore assembly.The centromere: chromatin foundation for the kinetochore machinery.Centromeres: unique chromatin structures that drive chromosome segregation.Analysis of protein turnover by quantitative SNAP-based pulse-chase imaging.The CENP-A nucleosome: a dynamic structure and role at the centromere.Drosophila Mis12 complex acts as a single functional unit essential for anaphase chromosome movement and a robust spindle assembly checkpoint.Centromere and kinetochore gene misexpression predicts cancer patient survival and response to radiotherapy and chemotherapy.Xenopus HJURP and condensin II are required for CENP-A assembly.Epigenetic centromere propagation and the nature of CENP-a nucleosomes.The centromere: epigenetic control of chromosome segregation during mitosisNew clues to understand how CENP-A maintains centromere identity.Centromeric binding and activity of Protein Phosphatase 4In a battle between parental chromosomes, a failure to reloadFrodos found: Behold the CENP-a "Ring" bearersCENP-C recruits M18BP1 to centromeres to promote CENP-A chromatin assemblyATP-dependent chromatin remodeling factors and their roles in affecting nucleosome fiber composition.
P2860
Q24599635-24984108-3E26-4950-9B67-F2F045764D89Q24626537-23ED3FCB-CA11-4642-B338-7420A3FF5AFAQ27318367-D5314197-AA86-4343-A151-DBEAFD5A1ED4Q27318581-93963ED6-0DD3-46D6-B97A-2EE5B4041008Q27331790-34042E0C-DEB9-433C-8CA7-D93067EC2A00Q28472760-DA86A187-5616-4F52-A7E8-9F467B7A8B05Q28473622-765B82A8-6391-4A7D-A432-D13B91F28CB6Q28478120-6BC5B119-6B1D-4887-B7F8-BCE60DFE9C24Q28484613-F030FCAA-BDF1-4FAC-92A0-CB1FE2022A3AQ30276714-D86862E9-0745-4847-9739-CF1F5B6C6223Q30277213-6F248B7A-765E-45D3-884F-72DDDADDB7F3Q30361974-FE088A59-FAB3-4D49-A94D-B1980EE8E9DEQ30412014-9A811F5B-C484-407F-8B4B-E48BD93917D9Q30427482-4C717853-B579-4189-9F4D-4353DF56BB21Q30570646-A20491CA-5D21-4B3A-B503-3F60BCBA3143Q30597247-12E226CD-5F77-4AE1-B827-AF31E51D6720Q33463367-B8D36715-426D-43EF-90EC-0CE1F4E9844FQ33543520-180EA21C-DD6A-4A82-82A9-83575658FB86Q33667469-7E560D90-BCDB-4DDB-9A7F-74B59F185108Q33680332-BC92CDCC-1339-4F03-B534-6724A0804FE4Q33720269-1BCF74F5-C5A0-4E89-9B7A-B29A9071D91CQ33804733-016AAC0E-8BDD-472A-8997-5E1589981137Q33939678-5D6170AC-DBEA-4C8C-90BF-3073D6BE772CQ34018608-1226B93A-C7F9-42EA-8385-FEC974135F4BQ34111005-B9EFF2E4-BA9B-4D10-8AE9-1F6384566C13Q34160736-4854DF43-12E0-404F-BEF2-3F487B78A074Q34179745-89C7C3AA-4B98-411E-91AD-E3A2A24D2DC5Q34310140-2CD4510D-992C-4574-94DA-163F796C3346Q34348971-D5DF8377-2A08-4BE0-9B00-9D882AE70F8AQ34477536-93C49117-AD09-4284-A3E2-F324E16BC787Q34538974-EDA7728E-08E9-4798-94FD-09A1638B9050Q34600806-A065577A-1E12-4BB1-9748-18466A72F2FFQ34700376-048885D0-612E-4113-AAE9-DFD746C6DFD7Q34931192-875F660B-970C-4234-B9CA-D60BC3AECA2BQ35014911-17F565D7-3D7E-4ED1-AF22-78CA7E9306BEQ35160380-11516D96-1555-458C-BCB2-B83EFE21A34EQ35170899-F5B5DD5B-F746-4103-BA33-A3B70A91701DQ35335741-2105EF53-9CF9-4531-BD4A-8E81E19D0194Q35514331-480A6C89-AA42-4328-BFD1-B2321D692D23Q35536023-32FD9265-59D5-440A-852A-3217F3E371E8
P2860
Genome-wide analysis reveals a cell cycle-dependent mechanism controlling centromere propagation.
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
2008年论文
@zh
2008年论文
@zh-cn
name
Genome-wide analysis reveals a ...... olling centromere propagation.
@en
type
label
Genome-wide analysis reveals a ...... olling centromere propagation.
@en
prefLabel
Genome-wide analysis reveals a ...... olling centromere propagation.
@en
P2860
P50
P356
P1476
Genome-wide analysis reveals a ...... olling centromere propagation.
@en
P2093
Craig M Betts
Gary H Karpen
P2860
P304
P356
10.1083/JCB.200806038
P407
P577
2008-12-01T00:00:00Z