The budding yeast Msh4 protein functions in chromosome synapsis and the regulation of crossover distribution.
about
Synthesis-dependent strand annealing in meiosisMutS homologue hMSH4: interaction with eIF3f and a role in NHEJ-mediated DSB repairExtreme heterogeneity in the molecular events leading to the establishment of chiasmata during meiosis i in human oocytes.hMSH4-hMSH5 adenosine nucleotide processing and interactions with homologous recombination machineryEvidence from comparative genomics for a complete sexual cycle in the 'asexual' pathogenic yeast Candida glabrataA link between meiotic prophase progression and crossover controlCsm4, in collaboration with Ndj1, mediates telomere-led chromosome dynamics and recombination during yeast meiosis.Synaptonemal Complex Proteins of Budding Yeast Define Reciprocal Roles in MutSĪ³-Mediated Crossover FormationMultiple branches of the meiotic recombination pathway contribute independently to homolog pairing and stable juxtaposition during meiosis in budding yeastYeast axial-element protein, Red1, binds SUMO chains to promote meiotic interhomologue recombination and chromosome synapsis.The Mnd1 protein forms a complex with hop2 to promote homologous chromosome pairing and meiotic double-strand break repair.Variation in crossover frequencies perturb crossover assurance without affecting meiotic chromosome segregation in Saccharomyces cerevisiaeLocalization of MMR proteins on meiotic chromosomes in mice indicates distinct functions during prophase IZIP4H (TEX11) deficiency in the mouse impairs meiotic double strand break repair and the regulation of crossing overMouse Sycp1 functions in synaptonemal complex assembly, meiotic recombination, and XY body formationMeiotic chromosome synapsis-promoting proteins antagonize the anti-crossover activity of sgs1.Sex, Scavengers, and Chaperones: Transcriptome Secrets of Divergent Symbiodinium Thermal Tolerances.Evidence of meiotic crossover control in Saccharomyces cerevisiae through Mec1-mediated phosphorylation of replication protein A.Two levels of interference in mouse meiotic recombinationZip4/Spo22 is required for class I CO formation but not for synapsis completion in Arabidopsis thaliana.TaMSH7: a cereal mismatch repair gene that affects fertility in transgenic barley (Hordeum vulgare L.).CRA-1 uncovers a double-strand break-dependent pathway promoting the assembly of central region proteins on chromosome axes during C. elegans meiosis.MUS81 generates a subset of MLH1-MLH3-independent crossovers in mammalian meiosis.The pch2Delta mutation in baker's yeast alters meiotic crossover levels and confers a defect in crossover interference.Temperature-dependent modulation of chromosome segregation in msh4 mutants of budding yeast.The synaptonemal complex protein Zip1 promotes bi-orientation of centromeres at meiosis I.The synaptonemal complex protein, Zip1, promotes the segregation of nonexchange chromosomes at meiosis I.Modulating Crossover Frequency and Interference for Obligate Crossovers in Saccharomyces cerevisiae Meiosis.Genetic analysis of baker's yeast Msh4-Msh5 reveals a threshold crossover level for meiotic viability.Genetic interference: don't stand so close to me.Meiotic cohesin promotes pairing of nonhomologous centromeres in early meiotic prophaseCrossover formation during rice meiosis relies on interaction of OsMSH4 and OsMSH5.Full-length synaptonemal complex grows continuously during meiotic prophase in budding yeastSystematic mutagenesis of the Saccharomyces cerevisiae MLH1 gene reveals distinct roles for Mlh1p in meiotic crossing over and in vegetative and meiotic mismatch repairDoes crossover interference count in Saccharomyces cerevisiae?Competing crossover pathways act during meiosis in Saccharomyces cerevisiaeCrossover interference on nucleolus organizing region-bearing chromosomes in Arabidopsis.The Mus81/Mms4 endonuclease acts independently of double-Holliday junction resolution to promote a distinct subset of crossovers during meiosis in budding yeast.Genetic circuits that govern bisexual and unisexual reproduction in Cryptococcus neoformansMultiple transcripts from a 3'-UTR reporter vary in sensitivity to nonsense-mediated mRNA decay in Saccharomyces cerevisiae
P2860
Q21145860-C5BC72E5-8DE0-440F-9845-D645DA0C4338Q24294253-FD8B686C-5234-4618-9D90-B2C281B46692Q24530701-17A05117-A51F-495D-A4C6-90E559248D15Q24622206-4173F436-76B3-42A8-948E-8847F40A9DD4Q24804600-0C72F269-9187-4D3D-BB67-6D19175449ADQ25257844-88F67B0E-D3DA-457A-B03C-946D45D0E3C2Q27931634-4CB6DAB0-B8DC-4105-9732-EF295B2D3F02Q27932072-7421B859-9442-48DD-88E1-1121CEB49E6BQ27933164-DA1E024B-E384-4D33-AE9B-8FB5BC875316Q27936223-886B8840-8856-4B4E-B5A7-0867089A8775Q27937197-030892A0-5264-44DD-9D1C-26285B7DB3FDQ28253087-39E7A2A7-4AE1-449B-A213-C1885994DF93Q28505426-C5897A6F-D8E8-41E5-AC57-7CF48DF2AEF2Q28506423-0634ADDF-F55D-43E5-A595-EB6CF35CA479Q28588451-82730DA7-3ACF-4CE0-93F5-7B5C24483620Q30827295-7908DC70-CD33-4F26-ADC9-15B3C3991AD2Q31108050-64A475A0-775F-4C52-9DB9-7EABE0D206D6Q33222159-CEBE86B1-8343-4469-80A0-826D0F82AB9DQ33246417-9B7E42DE-8B79-4436-84C2-8D00A6BAFD32Q33285872-64B995C8-2B82-461E-9552-24A67FE7DA8DQ33311630-F527B3A7-143C-413F-8C43-EC7F14FFE0D6Q33340985-E55B9E84-48AA-46A5-A2E9-2C648AB860ADQ33369076-956C4032-F74D-405E-B721-61D4A61D79D6Q33486516-758D3EA4-43D2-474F-B8E3-364E4865260CQ33509521-1D5AB5E1-DF34-44EE-BC1D-B24B1C93F6E5Q33518469-F4543700-1C5A-4D24-8D56-A396D40F80F6Q33640114-96068E99-0024-47B0-A521-B54C7989955FQ33667402-DDCC8AE9-A1D0-4564-A84D-83442C16741DQ33701780-6F6B5FCB-58CD-4019-A7DB-E8862306E2A1Q33867674-4B9C7FC7-42B4-41BE-9EC5-F548B195811EQ33881645-2744EE2B-6955-4889-9C64-2E6BEE777834Q34441535-728230DC-C125-4600-B99C-DDDD7C61384DQ34446659-C0FF92CB-3EFE-4790-AF80-988221DEE2DFQ34463536-59F6AA83-B2F3-4EE4-9C58-074AAF759C9AQ34567177-3853D25D-144D-4562-97D7-136F85C4CE62Q34569381-3830F377-1FC2-44E8-BCBA-4C1E87626B9FQ34575449-333BC0CB-AE16-4841-A6D9-F4C6FF25B7B4Q34617616-834F4B7E-A7E8-4560-A8C3-47DEF21BF691Q34961894-94463EB0-2CEF-47B1-8A82-44118D8D5161Q35049399-D46D6615-E70C-4289-9103-F74694EB9FEA
P2860
The budding yeast Msh4 protein functions in chromosome synapsis and the regulation of crossover distribution.
description
2001 nĆ® lÅ«n-bĆ»n
@nan
2001 Õ©ÕøÖÕ”ÕÆÕ”Õ¶Õ« Õ
ÕøÖÕ¬Õ«Õ½Õ«Õ¶ Õ°ÖÕ”ÕæÕ”ÖÕ”ÕÆÕøÖÕ”Õ® Õ£Õ«ÕæÕ”ÕÆÕ”Õ¶ ÕµÖ
Õ¤ÕøÖÕ”Õ®
@hyw
2001 Õ©Õ¾Õ”ÕÆÕ”Õ¶Õ« Õ°ÕøÖÕ¬Õ«Õ½Õ«Õ¶ Õ°ÖÕ”ÕæÕ”ÖÕ”ÕÆÕ¾Õ”Õ® Õ£Õ«ÕæÕ”ÕÆÕ”Õ¶ Õ°ÕøÕ¤Õ¾Õ”Õ®
@hy
2001幓ć®č«ę
@ja
2001幓č«ę
@yue
2001幓č«ę
@zh-hant
2001幓č«ę
@zh-hk
2001幓č«ę
@zh-mo
2001幓č«ę
@zh-tw
2001幓č®ŗę
@wuu
name
The budding yeast Msh4 protein ...... ion of crossover distribution.
@ast
The budding yeast Msh4 protein ...... ion of crossover distribution.
@en
The budding yeast Msh4 protein ...... ion of crossover distribution.
@nl
type
label
The budding yeast Msh4 protein ...... ion of crossover distribution.
@ast
The budding yeast Msh4 protein ...... ion of crossover distribution.
@en
The budding yeast Msh4 protein ...... ion of crossover distribution.
@nl
prefLabel
The budding yeast Msh4 protein ...... ion of crossover distribution.
@ast
The budding yeast Msh4 protein ...... ion of crossover distribution.
@en
The budding yeast Msh4 protein ...... ion of crossover distribution.
@nl
P2093
P2860
P3181
P1433
P1476
The budding yeast Msh4 protein ...... ion of crossover distribution.
@en
P2093
G S Roeder
P B Ross-Macdonald
P2860
P304
P3181
P407
P577
2001-07-01T00:00:00Z