scholarly article | Q13442814 |
P2093 | author name string | Franklin W. Stahl | |
Henriette M. Foss | |||
P2860 | cites work | Nucleic Acids Research | Q135122 |
Journal of Biological Chemistry | Q867727 | ||
Proceedings of the National Academy of Sciences of the United States of America | Q1146531 | ||
Genes & Development | Q1524533 | ||
Molecular Cell | Q3319468 | ||
Annual Review of Genetics | Q567358 | ||
Genetics Research | Q15758859 | ||
Multiple pathways of recombination induced by double-strand breaks in Saccharomyces cerevisiae | Q24548535 | ||
Recombinational repair of gaps in DNA is asymmetric in Ustilago maydis and can be explained by a migrating D-loop model | Q24605056 | ||
Advances in Genetics | Q26842228 | ||
A role for the MutL homologue MLH2 in controlling heteroduplex formation and in regulating between two different crossover pathways in budding yeast. | Q27931208 | ||
Conserved properties between functionally distinct MutS homologs in yeast | Q27931606 | ||
The budding yeast Msh4 protein functions in chromosome synapsis and the regulation of crossover distribution | Q27931846 | ||
Analysis of the proteins involved in the in vivo repair of base-base mismatches and four-base loops formed during meiotic recombination in the yeast Saccharomyces cerevisiae | Q27934521 | ||
MLH1 and MSH2 promote the symmetry of double-strand break repair events at the HIS4 hotspot in Saccharomyces cerevisiae. | Q27936830 | ||
Crossover/noncrossover differentiation, synaptonemal complex formation, and regulatory surveillance at the leptotene/zygotene transition of meiosis | Q27936900 | ||
Large-scale analysis of gene expression, protein localization, and gene disruption in Saccharomyces cerevisiae | Q27937244 | ||
High-resolution mapping of meiotic crossovers and non-crossovers in yeast | Q27938210 | ||
RecQ helicase, Sgs1, and XPF family endonuclease, Mus81-Mms4, resolve aberrant joint molecules during meiotic recombination | Q27939265 | ||
Functional specificity of MutL homologs in yeast: evidence for three Mlh1-based heterocomplexes with distinct roles during meiosis in recombination and mismatch correction | Q27939611 | ||
Mus81/Mms4 endonuclease and Sgs1 helicase collaborate to ensure proper recombination intermediate metabolism during meiosis. | Q27940287 | ||
Differential timing and control of noncrossover and crossover recombination during meiosis | Q28207440 | ||
The double-strand-break repair model for recombination | Q28267259 | ||
hMSH4-hMSH5 recognizes Holliday Junctions and forms a meiosis-specific sliding clamp that embraces homologous chromosomes | Q28276445 | ||
Multiple functions of MutS- and MutL-related heterocomplexes | Q28776215 | ||
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 | ||
Meiotic Recombination in Schizosaccharomyces pombe: A Paradigm for Genetic and Molecular Analysis | Q33646364 | ||
Genetic interference: don't stand so close to me. | Q33867674 | ||
Crossing over during Caenorhabditis elegans meiosis requires a conserved MutS-based pathway that is partially dispensable in budding yeast | Q33878802 | ||
Meiotic recombination frequencies are affected by nutritional states in Saccharomycescerevisiae | Q33952006 | ||
Analysis of a gene conversion gradient at the HIS4 locus in Saccharomyces cerevisiae | Q33959781 | ||
Chiasma interference as a function of genetic distance | Q33960583 | ||
Estimating interference and linkage map distance from two-factor tetrad data. | Q33964818 | ||
A test of the double-strand break repair model for meiotic recombination in Saccharomyces cerevisiae | Q33968364 | ||
Biochemical Mutants in the Smut Fungus Ustilago Maydis. | Q33975198 | ||
Genetics of Sordaria fimicola. VI. Gene conversion at the g locus in mutant X wild type crosses | Q33984753 | ||
Absence of interference in association with gene conversion in Sordaria fimicola, and presence of interference in association with ordinary recombination. | Q33992943 | ||
A DNA double chain break stimulates triparental recombination in Saccharomyces cerevisiae | Q34297039 | ||
DNA bending and unbending by MutS govern mismatch recognition and specificity | Q34385782 | ||
Does crossover interference count in Saccharomyces cerevisiae? | Q34567177 | ||
Competing crossover pathways act during meiosis in Saccharomyces cerevisiae | Q34569381 | ||
Distinct roles for the Saccharomyces cerevisiae mismatch repair proteins in heteroduplex rejection, mismatch repair and nonhomologous tail removal | Q34570828 | ||
The conversion gradient at HIS4 of Saccharomyces cerevisiae. II. A role for mismatch repair directed by biased resolution of the recombinational intermediate. | Q34607889 | ||
The conversion gradient at HIS4 of Saccharomyces cerevisiae. I. Heteroduplex rejection and restoration of Mendelian segregation | Q34607928 | ||
Analysis of conditional mutations in the Saccharomyces cerevisiae MLH1 gene in mismatch repair and in meiotic crossing over. | Q34614513 | ||
Patterns of Heteroduplex Formation Associated With the Initiation of Meiotic Recombination in the Yeast Saccharomyces cerevisiae | Q34618616 | ||
Evidence for short-patch mismatch repair in Saccharomyces cerevisiae | Q35115265 | ||
The Mus81 solution to resolution: generating meiotic crossovers without Holliday junctions | Q35643073 | ||
Early decision; meiotic crossover interference prior to stable strand exchange and synapsis | Q35739105 | ||
Meiotic recombination-related DNA synthesis and its implications for cross-over and non-cross-over recombinant formation | Q35749598 | ||
Heteroduplex DNA in meiotic recombination in Drosophila mei-9 mutants | Q35844854 | ||
Mismatch repair proteins: key regulators of genetic recombination | Q35910241 | ||
Meiotic recombination intermediates and mismatch repair proteins | Q35910256 | ||
Reduced mismatch repair of heteroduplexes reveals "non"-interfering crossing over in wild-type Saccharomyces cerevisiae | Q36515880 | ||
Mechanisms and biological effects of mismatch repair | Q37041860 | ||
But see KITANI (1978) | Q37127016 | ||
Interaction of genetic and environmental factors in Saccharomyces cerevisiae meiosis: the devil is in the details. | Q37607234 | ||
Methods for analysis of crossover interference in Saccharomyces cerevisiae. | Q37607239 | ||
Mlh1 is unique among mismatch repair proteins in its ability to promote crossing-over during meiosis | Q38344945 | ||
On the "NPD ratio" as a test for crossover interference | Q38567423 | ||
Evolutionary origin, diversification and specialization of eukaryotic MutS homolog mismatch repair proteins | Q39542069 | ||
Toward a general theory of genetic recombination in DNA | Q40006103 | ||
The mismatch repair system reduces meiotic homeologous recombination and stimulates recombination-dependent chromosome loss | Q40020196 | ||
The role of heteroduplex correction in gene conversion in Saccharomyces cerevisiae | Q41430030 | ||
Trans events associated with crossovers are revealed in the absence of mismatch repair genes in Saccharomyces cerevisiae | Q42107861 | ||
Crossover Interference in Saccharomyces cerevisiae Requires a TID1/RDH54- and DMC1-Dependent Pathway | Q42123510 | ||
A role for DNA polymerase delta in gene conversion and crossing over during meiosis in Saccharomyces cerevisiae | Q42426581 | ||
Heteroduplex rejection in yeast? | Q42555627 | ||
The coordinated functions of the E. coli MutS and MutL proteins in mismatch repair | Q44530427 | ||
Mutation of a meiosis-specific MutS homolog decreases crossing over but not mismatch correction | Q48076989 | ||
Identification of double Holliday junctions as intermediates in meiotic recombination. | Q54599520 | ||
Intermediates of Yeast Meiotic Recombination Contain Heteroduplex DNA | Q58486283 | ||
Palindromic sequences in heteroduplex DNA inhibit mismatch repair in yeast | Q58998172 | ||
Extensive 3'-overhanging, single-stranded DNA associated with the meiosis-specific double-strand breaks at the ARG4 recombination initiation site | Q64389995 | ||
Corresponding-site interference, synaptinemal complex structure, and 8+:0m and 7+:1m octads from wild-type x mutant crosses of Ascobolus immersus | Q69818544 | ||
Homologous association of chromosomal DNA during yeast meiosis | Q70262249 | ||
MSH5, a novel MutS homolog, facilitates meiotic reciprocal recombination between homologs in Saccharomyces cerevisiae but not mismatch repair | Q71919357 | ||
P433 | issue | 2 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | crossing over | Q244145 |
gene conversion | Q471134 | ||
Saccharomyces cerevisiae | Q719725 | ||
meiosis | Q16424695 | ||
P304 | page(s) | 515-536 | |
P577 | publication date | 2010-08-02 | |
P1433 | published in | Genetics | Q3100575 |
P1476 | title | A two-pathway analysis of meiotic crossing over and gene conversion in Saccharomyces cerevisiae | |
A Two-Pathway Analysis of Meiotic Crossing Over and Gene Conversion in Saccharomyces cerevisiae | |||
P478 | volume | 186 |
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Q39645270 | Apparent Epigenetic Meiotic Double-Strand-Break Disparity in Saccharomyces cerevisiae: A Meta-Analysis |
Q37533767 | Crossover patterning by the beam-film model: analysis and implications |
Q21134538 | Defining and detecting crossover-interference mutants in yeast |
Q36324990 | Fluorescent Protein as a Tool for Investigating Meiotic Recombination in Neurospora. |
Q35870791 | Homeostatic control of recombination is implemented progressively in mouse meiosis. |
Q35905065 | Meiotic Recombination in Neurospora crassa Proceeds by Two Pathways with Extensive Holliday Junction Migration |
Q34025948 | Processing of joint molecule intermediates by structure-selective endonucleases during homologous recombination in eukaryotes |
Q41611789 | Serendipity and the times |
Q37398314 | The genomic landscape of meiotic crossovers and gene conversions in Arabidopsis thaliana |
Q21092401 | Transmission distortion affecting human noncrossover but not crossover recombination: a hidden source of meiotic drive |
Q36110079 | Use of fluorescent protein to analyse recombination at three loci in Neurospora crassa. |
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