| scholarly article | Q13442814 |
| P50 | author | Jun-yi Leu | Q42625801 |
| P2093 | author name string | G S Roeder | |
| P R Chua | |||
| P2860 | cites work | Single-step purification of polypeptides expressed in Escherichia coli as fusions with glutathione S-transferase | Q27860571 |
| Meiotic chromosomes: it takes two to tango | Q27930023 | ||
| A pathway for generation and processing of double-strand breaks during meiotic recombination in S. cerevisiae | Q27930541 | ||
| RecA homologs Dmc1 and Rad51 interact to form multiple nuclear complexes prior to meiotic chromosome synapsis. | Q27932144 | ||
| DMC1: a meiosis-specific yeast homolog of E. coli recA required for recombination, synaptonemal complex formation, and cell cycle progression | Q27933115 | ||
| Rad51 protein involved in repair and recombination in S. cerevisiae is a RecA-like protein | Q27933995 | ||
| Zip2, a meiosis-specific protein required for the initiation of chromosome synapsis | Q27934770 | ||
| Homologous pairing is reduced but not abolished in asynaptic mutants of yeast | Q27936156 | ||
| Targeting, disruption, replacement, and allele rescue: integrative DNA transformation in yeast | Q28131609 | ||
| Analysis of wild-type and rad50 mutants of yeast suggests an intimate relationship between meiotic chromosome synapsis and recombination | Q29615272 | ||
| ZIP1 is a synaptonemal complex protein required for meiotic chromosome synapsis | Q29618281 | ||
| A family of versatile centromeric vectors designed for use in the sectoring-shuffle mutagenesis assay in Saccharomyces cerevisiae | Q29618576 | ||
| RED1: a yeast gene required for the segregation of chromosomes during the reductional division of meiosis | Q33640760 | ||
| Sex and the single cell: meiosis in yeast | Q33775500 | ||
| Enzymes and molecular mechanisms of genetic recombination | Q35671065 | ||
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| Zip1-induced changes in synaptonemal complex structure and polycomplex assembly | Q36382459 | ||
| Timing of molecular events in meiosis in Saccharomyces cerevisiae: stable heteroduplex DNA is formed late in meiotic prophase | Q36659309 | ||
| MEI4, a meiosis-specific yeast gene required for chromosome synapsis | Q36963941 | ||
| mre11S--a yeast mutation that blocks double-strand-break processing and permits nonhomologous synapsis in meiosis | Q37367245 | ||
| Meiosis: how could it work? | Q37394575 | ||
| Meiotic chromosome synapsis in a haploid yeast | Q43712974 | ||
| The synaptonemal complex in genetic segregation | Q52517942 | ||
| Roles for two RecA homologs in promoting meiotic chromosome synapsis | Q54601107 | ||
| A meiotic recombination checkpoint controlled by mitotic checkpoint genes | Q59098626 | ||
| Genetic control of chromosome pairing in wheat | Q67501095 | ||
| 22 Shuttle mutagenesis: Bacterial transposons for genetic manipulations in yeast | Q67914339 | ||
| Gene conversion, recombination nodules, and the initiation of meiotic synapsis | Q69114349 | ||
| Expression and DNA sequence of RED1, a gene required for meiosis I chromosome segregation in yeast | Q69356231 | ||
| Synaptonemal complex analysis of mouse chromosomal rearrangements. IV. Synapsis and synaptic adjustment in two paracentric inversions | Q70335526 | ||
| Chromosome pairing via multiple interstitial interactions before and during meiosis in yeast | Q72034931 | ||
| Heterologous interchange at meiosis in Drosophila. II. Some disjunctional consequences of interchange | Q72460467 | ||
| Crossover interference is abolished in the absence of a synaptonemal complex protein | Q72790781 | ||
| P433 | issue | 3 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | Hop2p YGL033W | Q27549246 |
| P304 | page(s) | 375-86 | |
| P577 | publication date | 1998-08-07 | |
| P1433 | published in | Cell | Q655814 |
| P1476 | title | The meiosis-specific Hop2 protein of S. cerevisiae ensures synapsis between homologous chromosomes | |
| P478 | volume | 94 |
| Q35625730 | A molecular portrait of Arabidopsis meiosis |
| Q27677299 | A new protein complex promoting the assembly of Rad51 filaments |
| Q39645555 | A novel meiosis-specific protein of fission yeast, Meu13p, promotes homologous pairing independently of homologous recombination |
| Q35846335 | A novel nonnull ZIP1 allele triggers meiotic arrest with synapsed chromosomes in Saccharomyces cerevisiae |
| Q27936045 | A role for Ddc1 in signaling meiotic double-strand breaks at the pachytene checkpoint |
| Q53332345 | Ahp2 (Hop2) function in Arabidopsis thaliana (Ler) is required for stabilization of close alignment and synaptonemal complex formation except for the two short arms that contain nucleolus organizer regions. |
| Q33252028 | AtMND1 is required for homologous pairing during meiosis in Arabidopsis |
| Q33604620 | Biochemistry of Meiotic Recombination: Formation, Processing, and Resolution of Recombination Intermediates |
| Q35893640 | Bipartite stimulatory action of the Hop2-Mnd1 complex on the Rad51 recombinase. |
| Q27937353 | Budding yeast Hed1 down-regulates the mitotic recombination machinery when meiotic recombination is impaired |
| Q27932278 | Bypass of a meiotic checkpoint by overproduction of meiotic chromosomal proteins |
| Q34173678 | Checkpoint and DNA-repair proteins are associated with the cores of mammalian meiotic chromosomes |
| Q22122460 | Clarifying the mechanics of DNA strand exchange in meiotic recombination |
| Q39859965 | Close, stable homolog juxtaposition during meiosis in budding yeast is dependent on meiotic recombination, occurs independently of synapsis, and is distinct from DSB-independent pairing contacts |
| Q36936805 | Cohesin and recombination proteins influence the G1-to-S transition in azygotic meiosis in Schizosaccharomyces pombe |
| Q40357615 | Comprehensive Cross-Linking Mass Spectrometry Reveals Parallel Orientation and Flexible Conformations of Plant HOP2-MND1. |
| Q30670926 | Comprehensive isolation of meiosis-specific genes identifies novel proteins and unusual non-coding transcripts in Schizosaccharomyces pombe |
| Q28261702 | Connecting by breaking and repairing: mechanisms of DNA strand exchange in meiotic recombination |
| Q35476267 | Crystal structure of Hop2-Mnd1 and mechanistic insights into its role in meiotic recombination |
| Q26768639 | DNA double-strand break formation and repair in Tetrahymena meiosis |
| Q38604234 | DNA double-strand breaks, but not crossovers, are required for the reorganization of meiotic nuclei in Tetrahymena |
| Q34569317 | DNA methylation affects meiotic trans-sensing, not meiotic silencing, in Neurospora |
| Q37643441 | DNA repair pathways in trypanosomatids: from DNA repair to drug resistance. |
| Q34931255 | DNA strand exchange and RecA homologs in meiosis |
| Q93015440 | Dynamic interactions of the homologous pairing 2 (Hop2)-meiotic nuclear divisions 1 (Mnd1) protein complex with meiotic presynaptic filaments in budding yeast |
| Q39455987 | Factors affecting splicing strength of yeast genes |
| Q42109496 | Fpr3 and Zip3 ensure that initiation of meiotic recombination precedes chromosome synapsis in budding yeast |
| Q37656485 | From meiosis to postmeiotic events: uncovering the molecular roles of the meiosis-specific recombinase Dmc1. |
| Q34361753 | Genome-wide bioinformatic and molecular analysis of introns in Saccharomyces cerevisiae |
| Q34717258 | Genomic evidence for a complete sexual cycle in Candida albicans |
| Q34786693 | HOP2-MND1 modulates RAD51 binding to nucleotides and DNA. |
| Q39705533 | HTP-1 coordinates synaptonemal complex assembly with homolog alignment during meiosis in C. elegans |
| Q27929751 | Heterodimeric complexes of Hop2 and Mnd1 function with Dmc1 to promote meiotic homolog juxtaposition and strand assimilation |
| Q33987524 | Homologous chromosome interactions in meiosis: diversity amidst conservation. |
| Q36106937 | Homologous recombination and its regulation |
| Q37121869 | Hop2 and Sae3 Are Required for Dmc1-Mediated Double-Strand Break Repair via Homolog Bias during Meiosis |
| Q34388692 | Hop2-Mnd1 condenses DNA to stimulate the synapsis phase of DNA strand exchange |
| Q24671981 | Hop2/Mnd1 acts on two critical steps in Dmc1-promoted homologous pairing |
| 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. |
| Q38953062 | Interchromosomal homology searches drive directional ALT telomere movement and synapsis. |
| Q27336045 | Ipl1/Aurora kinase suppresses S-CDK-driven spindle formation during prophase I to ensure chromosome integrity during meiosis |
| Q35684970 | Lessons from the genome sequence of Neurospora crassa: tracing the path from genomic blueprint to multicellular organism |
| Q48256770 | Main steps in DNA double-strand break repair: an introduction to homologous recombination and related processes. |
| Q37810497 | Many functions of the meiotic cohesin |
| Q41023071 | Mcp7, a meiosis-specific coiled-coil protein of fission yeast, associates with Meu13 and is required for meiotic recombination |
| Q37518627 | Mechanistic insights into the role of Hop2-Mnd1 in meiotic homologous DNA pairing |
| Q79258724 | Meiosis researchers exchange information in the Alps |
| Q40899830 | Meiosis-specific yeast Hop1 protein promotes synapsis of double-stranded DNA helices via the formation of guanine quartets |
| Q64389017 | Meiosis: Avoiding inappropriate relationships |
| Q33984282 | Meiotic chromosome behavior in Saccharomyces cerevisiae and (mostly) mammals |
| Q27930146 | Mnd1/Hop2 facilitates Dmc1-dependent interhomolog crossover formation in meiosis of budding yeast |
| Q53624436 | Molecular activities of meiosis-specific proteins Hop2, Mnd1, and the Hop2-Mnd1 complex. |
| Q36226840 | Molecular aspects of meiotic chromosome synapsis and recombination |
| Q35175900 | Molecular assembly of meiotic proteins Asy1 and Zyp1 and pairing promiscuity in rye (Secale cereale L.) and its synaptic mutant sy10 |
| Q24548535 | Multiple pathways of recombination induced by double-strand breaks in Saccharomyces cerevisiae |
| Q35011217 | Nuclear localization of the meiosis-specific transcription factor Ndt80 is regulated by the pachytene checkpoint |
| Q27933919 | Pachytene exit controlled by reversal of Mek1-dependent phosphorylation |
| Q52177305 | Pch2 links chromatin silencing to meiotic checkpoint control. |
| Q36064533 | Plant chromosome homology: hypotheses relating rendezvous, recognition and reciprocal exchange |
| Q47358994 | Positive role of the mammalian TBPIP/HOP2 protein in DMC1-mediated homologous pairing. |
| Q35619405 | Prelude to a division |
| Q47293928 | Primary Ovarian Insufficiency and Azospermia in Carriers of a Homozygous PSMC3IP Stop Gain Mutation |
| Q24337502 | RAD51-associated protein 1 (RAD51AP1) interacts with the meiotic recombinase DMC1 through a conserved motif |
| Q34610120 | Recombination can partially substitute for SPO13 in regulating meiosis I in budding yeast. |
| Q53644657 | Recruitment of RecA homologs Dmc1p and Rad51p to the double-strand break repair site initiated by meiosis-specific endonuclease VDE (PI-SceI). |
| Q35208303 | Restriction of ectopic recombination by interhomolog interactions during Saccharomyces cerevisiae meiosis. |
| Q39681465 | Role of Ndt80, Sum1, and Swe1 as targets of the meiotic recombination checkpoint that control exit from pachytene and spore formation in Saccharomyces cerevisiae |
| Q22253268 | STAG3, a novel gene encoding a protein involved in meiotic chromosome pairing and location of STAG3-related genes flanking the Williams-Beuren syndrome deletion |
| Q38341748 | Saccharomyces cerevisiae Hop1 zinc finger motif is the minimal region required for its function in vitro |
| Q50928315 | Saccharomyces cerevisiae Red1 protein exhibits nonhomologous DNA end-joining activity and potentiates Hop1-promoted pairing of double-stranded DNA. |
| Q28776681 | Schizosaccharomyces pombeRdh54 (TID1) Acts with Rhp54 (RAD54) to Repair Meiotic Double-Strand Breaks |
| Q27683102 | Solution Structure and DNA-binding Properties of the Winged Helix Domain of the Meiotic Recombination HOP2 Protein |
| Q33960520 | Splicing of the meiosis-specific HOP2 transcript utilizes a unique 5' splice site |
| Q53641161 | Stimulation of DNA strand exchange by the human TBPIP/Hop2-Mnd1 complex. |
| Q35829344 | Stimulation of fission yeast and mouse Hop2-Mnd1 of the Dmc1 and Rad51 recombinases |
| Q52646335 | Sufficient amounts of functional HOP2/MND1 complex promote interhomolog DNA repair but are dispensable for intersister DNA repair during meiosis in Arabidopsis. |
| Q35804006 | Synapsis-dependent and -independent mechanisms stabilize homolog pairing during meiotic prophase in C. elegans |
| Q37680376 | Synthetic biology tools for programming gene expression without nutritional perturbations in Saccharomyces cerevisiae |
| Q41902487 | Tat-binding protein-1 (TBP-1), an ATPase of 19S regulatory particles of the 26S proteasome, enhances androgen receptor function in cooperation with TBP-1-interacting protein/Hop2. |
| Q52563802 | The Hop2 and Mnd1 proteins act in concert with Rad51 and Dmc1 in meiotic recombination. |
| Q34282575 | The Hop2 protein has a direct role in promoting interhomolog interactions during mouse meiosis |
| Q27937197 | The Mnd1 protein forms a complex with hop2 to promote homologous chromosome pairing and meiotic double-strand break repair |
| Q33752607 | The Rim101p/PacC pathway and alkaline pH regulate pattern formation in yeast colonies |
| Q64388723 | The biochemistry of early meiotic recombination intermediates |
| Q27940329 | The budding yeast mei5 and sae3 proteins act together with dmc1 during meiotic recombination |
| Q37173686 | The cytogenetics of homologous chromosome pairing in meiosis in plants |
| Q37606970 | The dual role of HOP2 in mammalian meiotic homologous recombination |
| Q90728910 | The ectopic expression of meiCT genes promotes meiomitosis and may facilitate carcinogenesis |
| Q52096457 | The importance of genetic recombination for fidelity of chromosome pairing in meiosis. |
| Q33302679 | The interplay of RecA-related proteins and the MND1-HOP2 complex during meiosis in Arabidopsis thaliana |
| Q41822890 | The mitotic DNA damage checkpoint proteins Rad17 and Rad24 are required for repair of double-strand breaks during meiosis in yeast |
| Q47924731 | The novel gene HOMOLOGOUS PAIRING ABERRATION IN RICE MEIOSIS1 of rice encodes a putative coiled-coil protein required for homologous chromosome pairing in meiosis |
| Q33912846 | The nucleolus: the magician's hat for cell cycle tricks |
| Q27939521 | The pachytene checkpoint in S. cerevisiae depends on Swe1-mediated phosphorylation of the cyclin-dependent kinase Cdc28. |
| Q27933010 | The pachytene checkpoint prevents accumulation and phosphorylation of the meiosis-specific transcription factor Ndt80 |
| Q34073844 | The third exon of the budding yeast meiotic recombination gene HOP2 is required for calcium-dependent and recombinase Dmc1-specific stimulation of homologous strand assimilation. |
| Q39687383 | Thermoconditional modulation of the pleiotropic sensitivity phenotype by the Saccharomyces cerevisiae PRP19 mutant allele pso4-1. |
| Q33359386 | Transcriptomic evidence for the evolution of shoot meristem function in sporophyte-dominant land plants through concerted selection of ancestral gametophytic and sporophytic genetic programs |
| Q51007283 | Transmission electron microscopy and serial reconstructions reveal novel meiotic phenotypes for the ahp2 mutant of Arabidopsis thaliana. |
| Q28143796 | Transvection and other homology effects |
| Q62609015 | White-cap mutants and meiotic apoptosis in the basidiomycete Coprinus cinereus |
| Q48061105 | Wing 1 of protein HOP2 is as important as helix 3 in DNA binding by MD simulation |
| Q24339012 | XX ovarian dysgenesis is caused by a PSMC3IP/HOP2 mutation that abolishes coactivation of estrogen-driven transcription |
| Q33177525 | Yeast and human genes that affect the Escherichia coli SOS response |
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