| scholarly article | Q13442814 |
| P2093 | author name string | Akira Shinohara | |
| Miki Shinohara | |||
| Cheng Chen | |||
| Eric Alani | |||
| K. T. Nishant | |||
| P2860 | cites work | ATM promotes the obligate XY crossover and both crossover control and chromosome axis integrity on autosomes | Q21145047 |
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| Structure of the human MutSalpha DNA lesion recognition complex | Q27644980 | ||
| Mammalian Ras interacts directly with the serine/threonine kinase Raf | Q27860833 | ||
| The meiosis-specific zip4 protein regulates crossover distribution by promoting synaptonemal complex formation together with zip2. | Q27929737 | ||
| Meiosis-specific DNA double-strand breaks are catalyzed by Spo11, a member of a widely conserved protein family | Q27930009 | ||
| Yeast Pch2 promotes domainal axis organization, timely recombination progression, and arrest of defective recombinosomes during meiosis | Q27931107 | ||
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| Csm4, in collaboration with Ndj1, mediates telomere-led chromosome dynamics and recombination during yeast meiosis | Q27931634 | ||
| The budding yeast Msh4 protein functions in chromosome synapsis and the regulation of crossover distribution | Q27931846 | ||
| Genetic and biochemical analysis of Msh2p-Msh6p: role of ATP hydrolysis and Msh2p-Msh6p subunit interactions in mismatch base pair recognition. | Q27932001 | ||
| Rad52 promotes postinvasion steps of meiotic double-strand-break repair | Q27932985 | ||
| Crossover assurance and crossover interference are distinctly regulated by the ZMM proteins during yeast meiosis | Q27934346 | ||
| A mutation in the MSH6 subunit of the Saccharomyces cerevisiae MSH2-MSH6 complex disrupts mismatch recognition | Q27934451 | ||
| Zip2, a meiosis-specific protein required for the initiation of chromosome synapsis | Q27934770 | ||
| Crossover/noncrossover differentiation, synaptonemal complex formation, and regulatory surveillance at the leptotene/zygotene transition of meiosis | Q27936900 | ||
| High-resolution mapping of meiotic crossovers and non-crossovers in yeast | Q27938210 | ||
| Zip3 provides a link between recombination enzymes and synaptonemal complex proteins | Q27939710 | ||
| New heterologous modules for classical or PCR-based gene disruptions in Saccharomyces cerevisiae | Q28131599 | ||
| Three new dominant drug resistance cassettes for gene disruption in Saccharomyces cerevisiae | Q28131610 | ||
| Studies on the transformation of intact yeast cells by the LiAc/SS-DNA/PEG procedure | Q28131658 | ||
| MSH4 acts in conjunction with MLH1 during mammalian meiosis | Q28142773 | ||
| Differential timing and control of noncrossover and crossover recombination during meiosis | Q28207440 | ||
| hMSH4-hMSH5 recognizes Holliday Junctions and forms a meiosis-specific sliding clamp that embraces homologous chromosomes | Q28276445 | ||
| Mammalian MutS homologue 5 is required for chromosome pairing in meiosis | Q28295022 | ||
| Localization of MMR proteins on meiotic chromosomes in mice indicates distinct functions during prophase I | Q28505426 | ||
| Novel and diverse functions of the DNA mismatch repair family in mammalian meiosis and recombination | Q28509276 | ||
| Un ménage à quatre: the molecular biology of chromosome segregation in meiosis | Q29615266 | ||
| ZIP1 is a synaptonemal complex protein required for meiotic chromosome synapsis | Q29618281 | ||
| The single-end invasion: an asymmetric intermediate at the double-strand break to double-holliday junction transition of meiotic recombination | Q29618523 | ||
| The Analysis of Tetrad Data | Q31095632 | ||
| Maximum likelihood estimation of linkage and interference from tetrad data | Q31095693 | ||
| Mapping meiotic single-strand DNA reveals a new landscape of DNA double-strand breaks in Saccharomyces cerevisiae | Q33310052 | ||
| Pch2 links chromosome axis remodeling at future crossover sites and crossover distribution during yeast meiosis | Q33486503 | ||
| The pch2Delta mutation in baker's yeast alters meiotic crossover levels and confers a defect in crossover interference | Q33486516 | ||
| Recombination proteins mediate meiotic spatial chromosome organization and pairing. | Q33777134 | ||
| Enhanced meiotic recombination on the smallest chromosome of Saccharomyces cerevisiae | Q33857583 | ||
| Genetic interference: don't stand so close to me. | Q33867674 | ||
| A polymerization model of chiasma interference and corresponding computer simulation | Q33957285 | ||
| Systematic mutagenesis of the Saccharomyces cerevisiae MLH1 gene reveals distinct roles for Mlh1p in meiotic crossing over and in vegetative and meiotic mismatch repair | Q34463536 | ||
| Screening for protein-protein interactions in the yeast two-hybrid system. | Q34479343 | ||
| Does crossover interference count in Saccharomyces cerevisiae? | Q34567177 | ||
| Competing crossover pathways act during meiosis in Saccharomyces cerevisiae | Q34569381 | ||
| Does chromosome size affect map distance and genetic interference in budding yeast? | Q34569404 | ||
| Chromosome-wide regulation of meiotic crossover formation in Caenorhabditis elegans requires properly assembled chromosome axes | Q34569555 | ||
| Chromosome size-dependent control of meiotic reciprocal recombination in Saccharomyces cerevisiae: the role of crossover interference | Q34607409 | ||
| The Mus81/Mms4 Endonuclease Acts Independently of Double-Holliday Junction Resolution to Promote a Distinct Subset of Crossovers During Meiosis in Budding Yeast | Q34617616 | ||
| Mouse MutS-like protein Msh5 is required for proper chromosome synapsis in male and female meiosis | Q35190411 | ||
| Chromosome choreography: the meiotic ballet | Q35195590 | ||
| Global mapping of meiotic recombination hotspots and coldspots in the yeast Saccharomyces cerevisiae | Q35287931 | ||
| Mismatch repair proteins, meiosis, and mice: understanding the complexities of mammalian meiosis | Q35761810 | ||
| Meiotic recombination intermediates and mismatch repair proteins | Q35910256 | ||
| Crossover interference | Q35994291 | ||
| Making crossovers during meiosis | Q36295514 | ||
| Contribution of Msh2 and Msh6 subunits to the asymmetric ATPase and DNA mismatch binding activities of Saccharomyces cerevisiae Msh2-Msh6 mismatch repair protein | Q36359452 | ||
| A mutation in the putative MLH3 endonuclease domain confers a defect in both mismatch repair and meiosis in Saccharomyces cerevisiae | Q36724317 | ||
| ZMM proteins during meiosis: crossover artists at work | Q36900922 | ||
| A mechanical basis for chromosome function | Q37494079 | ||
| Genetic and physical maps of Saccharomyces cerevisiae | Q37670722 | ||
| Asymmetric recognition of DNA local distortion. Structure-based functional studies of eukaryotic Msh2-Msh6. | Q38295596 | ||
| The Saccharomyces cerevisiae MER3 gene, encoding a novel helicase-like protein, is required for crossover control in meiosis | Q38319411 | ||
| Analysis of the interaction between the Saccharomyces cerevisiae MSH2-MSH6 and MLH1-PMS1 complexes with DNA using a reversible DNA end-blocking system. | Q38328409 | ||
| On the "NPD ratio" as a test for crossover interference | Q38567423 | ||
| Mismatch recognition-coupled stabilization of Msh2-Msh6 in an ATP-bound state at the initiation of DNA repair | Q39656168 | ||
| Crossover homeostasis in yeast meiosis | Q41991996 | ||
| Two distinct surveillance mechanisms monitor meiotic chromosome metabolism in budding yeast | Q42775595 | ||
| Global analysis of the meiotic crossover landscape. | Q43196392 | ||
| Distinct MutS DNA-binding modes that are differentially modulated by ATP binding and hydrolysis | Q43675423 | ||
| Differential and simultaneous adenosine di- and triphosphate binding by MutS. | Q44353892 | ||
| Msh2 separation of function mutations confer defects in the initiation steps of mismatch repair | Q44522189 | ||
| The coordinated functions of the E. coli MutS and MutL proteins in mismatch repair | Q44530427 | ||
| Inhibition of Msh6 ATPase activity by mispaired DNA induces a Msh2(ATP)-Msh6(ATP) state capable of hydrolysis-independent movement along DNA. | Q46462569 | ||
| Chromosome size-dependent control of meiotic recombination | Q47413564 | ||
| Imposition of crossover interference through the nonrandom distribution of synapsis initiation complexes | Q47910491 | ||
| Mutation of a meiosis-specific MutS homolog decreases crossing over but not mismatch correction | Q48076989 | ||
| Chromosome-wide control of meiotic crossing over in C. elegans. | Q52100230 | ||
| Pch2 links chromatin silencing to meiotic checkpoint control. | Q52177305 | ||
| Chromosome morphogenesis: condensin-dependent cohesin removal during meiosis. | Q53650491 | ||
| Identification of double Holliday junctions as intermediates in meiotic recombination. | Q54599520 | ||
| Intermediates of Yeast Meiotic Recombination Contain Heteroduplex DNA | Q58486283 | ||
| Mapping of Meiotic Single-Stranded DNA Reveals Double-Strand-Break Hotspots near Centromeres and Telomeres | Q61942266 | ||
| Mapping of meiotic single-stranded DNA reveals double-stranded-break hotspots near centromeres and telomeres | Q64387719 | ||
| MSH5, a novel MutS homolog, facilitates meiotic reciprocal recombination between homologs in Saccharomyces cerevisiae but not mismatch repair | Q71919357 | ||
| P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
| P6216 | copyright status | copyrighted | Q50423863 |
| P433 | issue | 8 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | meiosis | Q16424695 |
| crossing over | Q244145 | ||
| microbial viability | Q60175824 | ||
| P577 | publication date | 2010-08-26 | |
| P1433 | published in | PLOS Genetics | Q1893441 |
| P1476 | title | Genetic analysis of baker's yeast Msh4-Msh5 reveals a threshold crossover level for meiotic viability | |
| Genetic Analysis of Baker's Yeast Msh4-Msh5 Reveals a Threshold Crossover Level for Meiotic Viability | |||
| P478 | volume | 6 |
| Q37699030 | A Zip3-like protein plays a role in crossover formation in the SC-less meiosis of the protist Tetrahymena |
| Q64928626 | A mutation in the endonuclease domain of mouse MLH3 reveals novel roles for MutLγ during crossover formation in meiotic prophase I. |
| Q47762797 | Archaeal MutS5 tightly binds to Holliday junction similarly to eukaryotic MutSγ. |
| Q27932605 | Budding Yeast SLX4 Contributes to the Appropriate Distribution of Crossovers and Meiotic Double-Strand Break Formation on Bivalents During Meiosis |
| Q27930826 | Budding yeast Pch2, a widely conserved meiotic protein, is involved in the initiation of meiotic recombination. |
| Q37313690 | Coding and noncoding variants in HFM1, MLH3, MSH4, MSH5, RNF212, and RNF212B affect recombination rate in cattle |
| Q92901769 | Crossover recombination and synapsis are linked by adjacent regions within the N terminus of the Zip1 synaptonemal complex protein |
| Q36371989 | Distinct DNA-binding surfaces in the ATPase and linker domains of MutLγ determine its substrate specificities and exert separable functions in meiotic recombination and mismatch repair |
| Q28652518 | Elevated mutation rate during meiosis in Saccharomyces cerevisiae |
| Q35297892 | Exploiting spore-autonomous fluorescent protein expression to quantify meiotic chromosome behaviors in Saccharomyces cerevisiae. |
| Q52599668 | FANCM Limits Meiotic Crossovers in Brassica Crops. |
| Q34335541 | Gene conversion occurs within the mating-type locus of Cryptococcus neoformans during sexual reproduction |
| Q46284332 | Genetic Evidence for Sexuality in Cochliopodium (Amoebozoa). |
| Q27932384 | Genetic analysis of mlh3 mutations reveals interactions between crossover promoting factors during meiosis in baker's yeast |
| Q57172482 | Genome wide analysis of meiotic recombination in yeast: For a few SNPs more |
| Q35034403 | High throughput sequencing reveals alterations in the recombination signatures with diminishing Spo11 activity |
| Q35842477 | Identification of the meiotic toolkit in diatoms and exploration of meiosis-specific SPO11 and RAD51 homologs in the sexual species Pseudo-nitzschia multistriata and Seminavis robusta. |
| Q28305501 | Mlh1-Mlh3, a meiotic crossover and DNA mismatch repair factor, is a Msh2-Msh3-stimulated endonuclease |
| Q35049399 | Multiple transcripts from a 3'-UTR reporter vary in sensitivity to nonsense-mediated mRNA decay in Saccharomyces cerevisiae |
| Q93357415 | MutSγ-Induced DNA Conformational Changes Provide Insights into Its Role in Meiotic Recombination |
| Q64387363 | Mutation of the ATPase Domain of MutS Homolog-5 (MSH5) Reveals a Requirement for a Functional MutSγ Complex for All Crossovers in Mammalian Meiosis |
| Q33569127 | Mutations in MSH5 in primary ovarian insufficiency |
| Q38798040 | Population genomics reveals speciation and introgression between Brown Norway rats and their sibling species. |
| Q39155608 | Prophase I: Preparing Chromosomes for Segregation in the Developing Oocyte |
| Q60907832 | Putatively asexual chrysophytes have meiotic genes: evidence from transcriptomic data |
| Q90044520 | Regulated Proteolysis of MutSγ Controls Meiotic Crossing Over |
| Q98568696 | Regulation of the MLH1-MLH3 endonuclease in meiosis |
| Q36540776 | Roles for mismatch repair family proteins in promoting meiotic crossing over |
| Q35675416 | Separable Crossover-Promoting and Crossover-Constraining Aspects of Zip1 Activity during Budding Yeast Meiosis |
| Q37309109 | Structural insights into Saccharomyces cerevisiae Msh4-Msh5 complex function using homology modeling |
| Q27932072 | Synaptonemal Complex Proteins of Budding Yeast Define Reciprocal Roles in MutSγ-Mediated Crossover Formation |
| Q28253087 | Variation in crossover frequencies perturb crossover assurance without affecting meiotic chromosome segregation in Saccharomyces cerevisiae |
| Q42352313 | mlh3 mutations in baker's yeast alter meiotic recombination outcomes by increasing noncrossover events genome-wide. |
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