about
The MER3 DNA helicase catalyzes the unwinding of holliday junctions.Ordered assembly of Sld3, GINS and Cdc45 is distinctly regulated by DDK and CDK for activation of replication origins.The MER3 helicase involved in meiotic crossing over is stimulated by single-stranded DNA-binding proteins and unwinds DNA in the 3' to 5' direction.A novel allele of fission yeast rad11 that causes defects in DNA repair and telomere length regulation.Mcm4 C-terminal domain of MCM helicase prevents excessive formation of single-stranded DNA at stalled replication forksAuxin-inducible protein depletion system in fission yeast.Mcm10 plays an essential role in origin DNA unwinding after loading of the CMG componentsDNA polymerization-independent functions of DNA polymerase epsilon in assembly and progression of the replisome in fission yeastAbundance of prereplicative complexes (Pre-RCs) facilitates recombinational repair under replication stress in fission yeastRad51 and Rad54 promote noncrossover recombination between centromere repeats on the same chromatid to prevent isochromosome formation.A novel intermediate in initiation complex assembly for fission yeast DNA replication.MutSα maintains the mismatch repair capability by inhibiting PCNA unloading.The DNA damage checkpoint pathway promotes extensive resection and nucleotide synthesis to facilitate homologous recombination repair and genome stability in fission yeast.Rad51 suppresses gross chromosomal rearrangement at centromere in Schizosaccharomyces pombeGenome-wide localization of pre-RC sites and identification of replication origins in fission yeast.CDK promotes interactions of Sld3 and Drc1 with Cut5 for initiation of DNA replication in fission yeast.Saccharomyces cerevisiae Mer3 helicase stimulates 3'-5' heteroduplex extension by Rad51; implications for crossover control in meiotic recombination.Genome-wide localization of pre-RC sites and identification of replication origins in fission yeast.Regulation of mitotic recombination between DNA repeats in centromeres.The prereplication complex recruits XEco2 to chromatin to promote cohesin acetylation in Xenopus egg extracts.Nucleosomes around a mismatched base pair are excluded via an Msh2-dependent reaction with the aid of SNF2 family ATPase Smarcad1Heterochromatin suppresses gross chromosomal rearrangements at centromeres by repressing Tfs1/TFIIS-dependent transcriptionThe heterochromatin protein Swi6/HP1 activates replication origins at the pericentromeric region and silent mating-type locus.Shelterin promotes tethering of late replication origins to telomeres for replication-timing controlTranscriptional silencing of centromere repeats by heterochromatin safeguards chromosome integrityDNA replication machinery prevents Rad52-dependent single-strand annealing that leads to gross chromosomal rearrangements at centromeres
P50
Q27932618-E11BFF30-E372-4A0D-BD56-230D1CEF62A5Q27935990-3170430B-D2C6-4D58-94CD-F05A3709555BQ30990610-B2AA2725-505B-4E01-92D6-62E025530C5CQ31030721-D41873DE-A5D8-4FB6-B285-75066FD73BF1Q33364389-613741F1-A6B2-4C64-AC30-E4EE26014029Q33818720-278A0753-D73D-4675-924D-005DA7443441Q34203987-AD735804-DD0E-420A-8A29-5563AAE52F9EQ34311412-B90FA7FE-5C5C-4EB7-93EE-CAD33C588BE2Q35842226-09BD413E-1597-4667-85DF-0D85FA848235Q37507641-49B92D61-7311-47CF-A2A3-EE695C88675EQ39284579-1C2D51D4-524C-45ED-ACD8-82F756D3D4B5Q39612088-752A6946-A4CE-49A4-A26B-B6AECAA5128CQ39769852-19E05ECE-57D8-4860-9AEB-BBCA2D3DBB4AQ41848290-66E961A2-E7B8-4CB6-A106-7EB1CD458334Q41893574-BE44B3B8-BE63-4666-9118-0DBF579FF978Q42114149-A40B9C5A-C2BA-4818-8F3F-C57127DD82D7Q46127945-799ACD29-0918-42EF-ABE2-1230D5F92139Q46192795-DED18B78-26FA-4E4D-B22C-FA2D425F3CFAQ47107044-322C9B8C-5BC3-4AA4-A8A0-7D4EF950D262Q53170929-A69A77EF-DD5C-4351-B294-431953EC31D7Q57009219-96624FF6-1EA0-4891-AD49-BEF9D406DA9DQ60911595-42B81697-0E74-4894-B060-2169101AD0D5Q64883396-43C11E08-EF97-4D02-AC01-837B4124FD7AQ89574390-8D4A405A-3067-4001-8921-9F4E967B0FE8Q93170958-0BF9FCD5-BA80-4FA3-A536-5CA4FA004713Q94474201-CCDB8358-1C87-48E8-A029-3AFC4B85DBC0
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Takuro Nakagawa
@ast
Takuro Nakagawa
@en
Takuro Nakagawa
@es
Takuro Nakagawa
@nl
Takuro Nakagawa
@sl
type
label
Takuro Nakagawa
@ast
Takuro Nakagawa
@en
Takuro Nakagawa
@es
Takuro Nakagawa
@nl
Takuro Nakagawa
@sl
prefLabel
Takuro Nakagawa
@ast
Takuro Nakagawa
@en
Takuro Nakagawa
@es
Takuro Nakagawa
@nl
Takuro Nakagawa
@sl
P1053
A-1367-2017
P106
P108
P1153
18336187500
P31
P3829
P3835
takuro-nakagawa
P496
0000-0003-3455-8224