Analysis of model replication origins in Drosophila reveals new aspects of the chromatin landscape and its relationship to origin activity and the prereplicative complex
about
Histone deacetylase 2 (HDAC2) regulates chromosome segregation and kinetochore function via H4K16 deacetylation during oocyte maturation in mouseA Link between ORC-origin binding mechanisms and origin activation time revealed in budding yeast.Knockdown of SCF(Skp2) function causes double-parked accumulation in the nucleus and DNA re-replication in Drosophila plasmatocytes.The hunt for origins of DNA replication in multicellular eukaryotesThe Commercial Antibodies Widely Used to Measure H3 K56 Acetylation Are Non-Specific in Human and Drosophila Cells.DNA sequence templates adjacent nucleosome and ORC sites at gene amplification origins in Drosophila.The histone acetyltransferases CBP and Chameau integrate developmental and DNA replication programs in Drosophila ovarian follicle cells.Orc5 induces large-scale chromatin decondensation in a GCN5-dependent mannerThe Histone Variant H3.3 Is Enriched at Drosophila Amplicon Origins but Does Not Mark Them for Activation.Replicating Large Genomes: Divide and Conquer.The origin recognition complex: a biochemical and structural view.DNA replication origins.Epigenetic landscape for initiation of DNA replication.Links between genome replication and chromatin landscapes.Mechanisms and regulation of DNA replication initiation in eukaryotes.DNA Replication Control During Drosophila Development: Insights into the Onset of S Phase, Replication Initiation, and Fork Progression.Chromatin organization changes during the establishment and maintenance of the postmitotic state.Recent advances in understanding DNA replication: cell type-specific adaptation of the DNA replication program
P2860
Q28506706-0710157F-1BD5-4DA9-9C52-72DB6FFEEDD0Q34998333-5A5FE870-737E-4FF6-B3C2-5C402FA5EDEBQ35036898-EC0A9F7B-027E-4937-AA18-BFE721191DC7Q35210893-89859EE5-0161-4D62-B5EB-5614C3447C14Q36019938-9177BDBD-6A87-48F0-92CD-30C1C71CB757Q36160604-8425C235-5BDE-4ACB-9E38-69CECB2C6C87Q36242767-1D285FF4-36B8-4060-B1E2-2C2E714969A8Q36518574-CC3EA968-8A1C-4C4E-BE49-CAFCB57287F2Q36958166-95C18FA6-2879-4C91-ADC2-F2E49F8C33F9Q36969038-9B32BBEF-07D7-4A90-8616-FD881B18C972Q37189689-00AD8ADD-B08A-415B-9282-5588C2315567Q37197487-D5E84584-57EE-44A1-B797-5E81AE41E508Q38171275-CC539C8B-1C78-4FEB-9656-D2621713A013Q38408158-2C53A61A-3DD3-41D5-A793-4ABEBC3728C4Q39017132-8922AAAB-CEEF-4D56-9E4D-C61B8D83C0B5Q41627894-CE6FC6C1-D946-4AAA-B121-487C12C93F0AQ47101756-C680306F-FAEA-42ED-B15C-EB962C80A44DQ58694617-1EFC572D-21D4-4783-AC54-51731B014484
P2860
Analysis of model replication origins in Drosophila reveals new aspects of the chromatin landscape and its relationship to origin activity and the prereplicative complex
description
2011 nî lūn-bûn
@nan
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
2011年论文
@zh
2011年论文
@zh-cn
name
Analysis of model replication ...... and the prereplicative complex
@ast
Analysis of model replication ...... and the prereplicative complex
@en
type
label
Analysis of model replication ...... and the prereplicative complex
@ast
Analysis of model replication ...... and the prereplicative complex
@en
prefLabel
Analysis of model replication ...... and the prereplicative complex
@ast
Analysis of model replication ...... and the prereplicative complex
@en
P2093
P2860
P356
P1476
Analysis of model replication ...... and the prereplicative complex
@en
P2093
Brian R Calvi
Kristopher McConnell
Michael Dixon
P2860
P304
P356
10.1091/MBC.E11-05-0409
P577
2011-11-02T00:00:00Z