Primary Literature
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- Cardoso da Silva R and Vader G (2021) Getting there: understanding the chromosomal recruitment of the AAA+ ATPase Pch2/TRIP13 during meiosis. Curr Genet 67(4):553-565 PMID: 33712914
- González-Arranz S, et al. (2021) The N-Terminal Region of the Polo Kinase Cdc5 Is Required for Downregulation of the Meiotic Recombination Checkpoint. Cells 10(10) PMID: 34685541
- Herruzo E, et al. (2021) Pch2 orchestrates the meiotic recombination checkpoint from the cytoplasm. PLoS Genet 17(7):e1009560 PMID: 34260586
- Lee MS, et al. (2021) The synaptonemal complex central region modulates crossover pathways and feedback control of meiotic double-strand break formation. Nucleic Acids Res 49(13):7537-7553 PMID: 34197600
- Cardoso da Silva R, et al. (2020) Active transcription and Orc1 drive chromatin association of the AAA+ ATPase Pch2 during meiotic G2/prophase. PLoS Genet 16(6):e1008905 PMID: 32569318
- Mu X, et al. (2020) Chromosome-autonomous feedback down-regulates meiotic DNA break competence upon synaptonemal complex formation. Genes Dev 34(23-24):1605-1618 PMID: 33184224
- Schilit SLP, et al. (2020) SYCP2 Translocation-Mediated Dysregulation and Frameshift Variants Cause Human Male Infertility. Am J Hum Genet 106(1):41-57 PMID: 31866047
- Sybenga J (2020) Homologous chromosome pairing in meiosis of higher eukaryotes-still an enigma? Genome 63(10):469-482 PMID: 32865428
- Arora K and Corbett KD (2019) The conserved XPF:ERCC1-like Zip2:Spo16 complex controls meiotic crossover formation through structure-specific DNA binding. Nucleic Acids Res 47(5):2365-2376 PMID: 30566683
- Herruzo E, et al. (2019) Characterization of Pch2 localization determinants reveals a nucleolar-independent role in the meiotic recombination checkpoint. Chromosoma 128(3):297-316 PMID: 30859296
- Previato de Almeida L, et al. (2019) Shugoshin protects centromere pairing and promotes segregation of nonexchange partner chromosomes in meiosis. Proc Natl Acad Sci U S A 116(19):9417-9422 PMID: 31019073
- Pyatnitskaya A, et al. (2019) Crossing and zipping: molecular duties of the ZMM proteins in meiosis. Chromosoma 128(3):181-198 PMID: 31236671
- Subramanian VV, et al. (2019) Persistent DNA-break potential near telomeres increases initiation of meiotic recombination on short chromosomes. Nat Commun 10(1):970 PMID: 30814509
- Voelkel-Meiman K, et al. (2019) Crossover recombination and synapsis are linked by adjacent regions within the N terminus of the Zip1 synaptonemal complex protein. PLoS Genet 15(6):e1008201 PMID: 31220082
- Gao J and Colaiácovo MP (2018) Zipping and Unzipping: Protein Modifications Regulating Synaptonemal Complex Dynamics. Trends Genet 34(3):232-245 PMID: 29290403
- González-Arranz S, et al. (2018) Functional Impact of the H2A.Z Histone Variant During Meiosis in <i>Saccharomyces cerevisiae</i>. Genetics 209(4):997-1015 PMID: 29853474
- Kurdzo EL, et al. (2018) A ZIP1 separation-of-function allele reveals that centromere pairing drives meiotic segregation of achiasmate chromosomes in budding yeast. PLoS Genet 14(8):e1007513 PMID: 30091974
- Prajapati HK, et al. (2018) Evidence of <i>Zip1</i> Promoting Sister Kinetochore Mono-orientation During Meiosis in Budding Yeast. G3 (Bethesda) 8(11):3691-3701 PMID: 30254179
- Yisehak L and MacQueen AJ (2018) HO Endonuclease-Initiated Recombination in Yeast Meiosis Fails To Promote Homologous Centromere Pairing and Is Not Constrained To Utilize the Dmc1 Recombinase. G3 (Bethesda) 8(11):3637-3659 PMID: 30254180
- Zhang Q, et al. (2018) Evolutionarily-conserved MZIP2 is essential for crossover formation in mammalian meiosis. Commun Biol 1:147 PMID: 30272023
- Kshirsagar R, et al. (2017) <i>Saccharomyces cerevisiae</i> Red1 protein exhibits nonhomologous DNA end-joining activity and potentiates Hop1-promoted pairing of double-stranded DNA. J Biol Chem 292(33):13853-13866 PMID: 28642366
- Kshirsagar R, et al. (2017) Probing the Potential Role of Non-B DNA Structures at Yeast Meiosis-Specific DNA Double-Strand Breaks. Biophys J 112(10):2056-2074 PMID: 28538144
- Kurdzo EL, et al. (2017) Meiotic Centromere Coupling and Pairing Function by Two Separate Mechanisms in Saccharomyces cerevisiae. Genetics 205(2):657-671 PMID: 27913618
- Markowitz TE, et al. (2017) Reduced dosage of the chromosome axis factor Red1 selectively disrupts the meiotic recombination checkpoint in Saccharomyces cerevisiae. PLoS Genet 13(7):e1006928 PMID: 28746375
- Rog O, et al. (2017) The synaptonemal complex has liquid crystalline properties and spatially regulates meiotic recombination factors. Elife 6:e21455 PMID: 28045371
- Cavero S, et al. (2016) Impact of histone H4K16 acetylation on the meiotic recombination checkpoint in <i>Saccharomyces cerevisiae</i>. Microb Cell 3(12):606-620 PMID: 28357333
- Herruzo E, et al. (2016) The Pch2 AAA+ ATPase promotes phosphorylation of the Hop1 meiotic checkpoint adaptor in response to synaptonemal complex defects. Nucleic Acids Res 44(16):7722-41 PMID: 27257060
- Illner D, et al. (2016) Meiotic chromosome mobility in fission yeast is resistant to environmental stress. Sci Rep 6:24222 PMID: 27074839
- Lefrançois P, et al. (2016) Multiple Pairwise Analysis of Non-homologous Centromere Coupling Reveals Preferential Chromosome Size-Dependent Interactions and a Role for Bouquet Formation in Establishing the Interaction Pattern. PLoS Genet 12(10):e1006347 PMID: 27768699
- Subramanian VV, et al. (2016) Chromosome Synapsis Alleviates Mek1-Dependent Suppression of Meiotic DNA Repair. PLoS Biol 14(2):e1002369 PMID: 26870961
- Tsubouchi H, et al. (2016) Shaping meiotic chromosomes with SUMO: a feedback loop controls the assembly of the synaptonemal complex in budding yeast. Microb Cell 3(3):126-128 PMID: 28357343
- Voelkel-Meiman K, et al. (2016) Synaptonemal Complex Proteins of Budding Yeast Define Reciprocal Roles in MutSÎł-Mediated Crossover Formation. Genetics 203(3):1091-103 PMID: 27184389
- Chen X, et al. (2015) Phosphorylation of the Synaptonemal Complex Protein Zip1 Regulates the Crossover/Noncrossover Decision during Yeast Meiosis. PLoS Biol 13(12):e1002329 PMID: 26682552
- Grubb J, et al. (2015) Surface Spreading and Immunostaining of Yeast Chromosomes. J Vis Exp e53081 PMID: 26325523
- Hong S, et al. (2015) Ycs4 is Required for Efficient Double-Strand Break Formation and Homologous Recombination During Meiosis. J Microbiol Biotechnol 25(7):1026-35 PMID: 25975613
- Kurdzo EL and Dawson DS (2015) Centromere pairing--tethering partner chromosomes in meiosis I. FEBS J 282(13):2458-70 PMID: 25817724
- Leung WK, et al. (2015) The synaptonemal complex is assembled by a polySUMOylation-driven feedback mechanism in yeast. J Cell Biol 211(4):785-93 PMID: 26598615
- Voelkel-Meiman K, et al. (2015) Separable Crossover-Promoting and Crossover-Constraining Aspects of Zip1 Activity during Budding Yeast Meiosis. PLoS Genet 11(6):e1005335 PMID: 26114667
- Chen C, et al. (2014) Pch2 is a hexameric ring ATPase that remodels the chromosome axis protein Hop1. Proc Natl Acad Sci U S A 111(1):E44-53 PMID: 24367111
- Lo YH, et al. (2014) Pch2 prevents Mec1/Tel1-mediated Hop1 phosphorylation occurring independently of Red1 in budding yeast meiosis. PLoS One 9(1):e85687 PMID: 24465650
- Oke A, et al. (2014) Controlling meiotic recombinational repair - specifying the roles of ZMMs, Sgs1 and Mus81/Mms4 in crossover formation. PLoS Genet 10(10):e1004690 PMID: 25329811
- Severson AF and Meyer BJ (2014) Divergent kleisin subunits of cohesin specify mechanisms to tether and release meiotic chromosomes. Elife 3:e03467 PMID: 25171895
- Cheng YH, et al. (2013) Three distinct modes of Mec1/ATR and Tel1/ATM activation illustrate differential checkpoint targeting during budding yeast early meiosis. Mol Cell Biol 33(16):3365-76 PMID: 23775120
- Fowler KR, et al. (2013) Protein determinants of meiotic DNA break hot spots. Mol Cell 49(5):983-96 PMID: 23395004
- Grishaeva TM, et al. (2013) [The peculiarities of the chromosome organization in meiosis]. Tsitologiia 55(4):275-8 PMID: 23875465
- Humphryes N, et al. (2013) The Ecm11-Gmc2 complex promotes synaptonemal complex formation through assembly of transverse filaments in budding yeast. PLoS Genet 9(1):e1003194 PMID: 23326245
- Khan K, et al. (2013) N-terminal disordered domain of Saccharomyces cerevisiae Hop1 protein is dispensable for DNA binding, bridging, and synapsis of double-stranded DNA molecules but is necessary for spore formation. Biochemistry 52(31):5265-79 PMID: 23841450
- Klug H, et al. (2013) Ubc9 sumoylation controls SUMO chain formation and meiotic synapsis in Saccharomyces cerevisiae. Mol Cell 50(5):625-36 PMID: 23644018
- Lao JP, et al. (2013) Meiotic crossover control by concerted action of Rad51-Dmc1 in homolog template bias and robust homeostatic regulation. PLoS Genet 9(12):e1003978 PMID: 24367271
- Luo Q, et al. (2013) The role of OsMSH5 in crossover formation during rice meiosis. Mol Plant 6(3):729-42 PMID: 23220939
- Obeso D, et al. (2013) Couples, pairs, and clusters: mechanisms and implications of centromere associations in meiosis. Chromosoma 123(1-2) PMID: 24126501
- Rockmill B, et al. (2013) High throughput sequencing reveals alterations in the recombination signatures with diminishing Spo11 activity. PLoS Genet 9(10):e1003932 PMID: 24204324
- Voelkel-Meiman K, et al. (2013) SUMO localizes to the central element of synaptonemal complex and is required for the full synapsis of meiotic chromosomes in budding yeast. PLoS Genet 9(10):e1003837 PMID: 24098146
- Zhang J, et al. (2013) Centromere pairing in early meiotic prophase requires active centromeres and precedes installation of the synaptonemal complex in maize. Plant Cell 25(10):3900-9 PMID: 24143803
- Chelysheva L, et al. (2012) The Arabidopsis HEI10 is a new ZMM protein related to Zip3. PLoS Genet 8(7):e1002799 PMID: 22844245
- Ferdous M, et al. (2012) Inter-homolog crossing-over and synapsis in Arabidopsis meiosis are dependent on the chromosome axis protein AtASY3. PLoS Genet 8(2):e1002507 PMID: 22319460
- Ji J, et al. (2012) The role of OsCOM1 in homologous chromosome synapsis and recombination in rice meiosis. Plant J 72(1):18-30 PMID: 22507309
- Khan K, et al. (2012) Single-molecule DNA analysis reveals that yeast Hop1 protein promotes DNA folding and synapsis: implications for condensation of meiotic chromosomes. ACS Nano 6(12):10658-66 PMID: 23121004
- Lee CY, et al. (2012) Meiotic chromosome pairing is promoted by telomere-led chromosome movements independent of bouquet formation. PLoS Genet 8(5):e1002730 PMID: 22654677
- Shen Y, et al. (2012) ZIP4 in homologous chromosome synapsis and crossover formation in rice meiosis. J Cell Sci 125(Pt 11):2581-91 PMID: 22393242
- Voelkel-Meiman K, et al. (2012) Full-length synaptonemal complex grows continuously during meiotic prophase in budding yeast. PLoS Genet 8(10):e1002993 PMID: 23071451
- Wang K, et al. (2012) The role of rice HEI10 in the formation of meiotic crossovers. PLoS Genet 8(7):e1002809 PMID: 22792078
- Acosta I, et al. (2011) The budding yeast polo-like kinase Cdc5 regulates the Ndt80 branch of the meiotic recombination checkpoint pathway. Mol Biol Cell 22(18):3478-90 PMID: 21795394
- Bonfils S, et al. (2011) Functional interactions of Rec24, the fission yeast ortholog of mouse Mei4, with the meiotic recombination-initiation complex. J Cell Sci 124(Pt 8):1328-38 PMID: 21429938
- Lai YJ, et al. (2011) Genetic requirements and meiotic function of phosphorylation of the yeast axial element protein Red1. Mol Cell Biol 31(5):912-23 PMID: 21173162
- Rao HB, et al. (2011) Mps3 SUN domain is important for chromosome motion and juxtaposition of homologous chromosomes during meiosis. Genes Cells 16(11):1081-96 PMID: 22017544
- Watts FZ and Hoffmann E (2011) SUMO meets meiosis: an encounter at the synaptonemal complex: SUMO chains and sumoylated proteins suggest that heterogeneous and complex interactions lie at the centre of the synaptonemal complex. Bioessays 33(7):529-37 PMID: 21590786
- Chuong H and Dawson DS (2010) Meiotic cohesin promotes pairing of nonhomologous centromeres in early meiotic prophase. Mol Biol Cell 21(11):1799-809 PMID: 20375150
- Eichinger CS and Jentsch S (2010) Synaptonemal complex formation and meiotic checkpoint signaling are linked to the lateral element protein Red1. Proc Natl Acad Sci U S A 107(25):11370-5 PMID: 20534433
- Khan K, et al. (2010) Cloning, overexpression and purification of functionally active Saccharomyces cerevisiae Hop1 protein from Escherichia coli. Protein Expr Purif 72(1):42-7 PMID: 20347988
- Lin FM, et al. (2010) Yeast axial-element protein, Red1, binds SUMO chains to promote meiotic interhomologue recombination and chromosome synapsis. EMBO J 29(3):586-96 PMID: 19959993
- Newnham L, et al. (2010) The synaptonemal complex protein, Zip1, promotes the segregation of nonexchange chromosomes at meiosis I. Proc Natl Acad Sci U S A 107(2):781-5 PMID: 20080752
- Nishant KT, et al. (2010) Genetic analysis of baker's yeast Msh4-Msh5 reveals a threshold crossover level for meiotic viability. PLoS Genet 6(8) PMID: 20865162
- Obeso D and Dawson DS (2010) Temporal characterization of homology-independent centromere coupling in meiotic prophase. PLoS One 5(4):e10336 PMID: 20428251
- Zhu Z, et al. (2010) Cyclin-dependent kinase promotes formation of the synaptonemal complex in yeast meiosis. Genes Cells 15(10):1036-50 PMID: 20825495
- Brar GA, et al. (2009) The multiple roles of cohesin in meiotic chromosome morphogenesis and pairing. Mol Biol Cell 20(3):1030-47 PMID: 19073884
- Cooper KF, et al. (2009) Pds1p is required for meiotic recombination and prophase I progression in Saccharomyces cerevisiae. Genetics 181(1):65-79 PMID: 19001291
- Hartsuiker E, et al. (2009) Ctp1CtIP and Rad32Mre11 nuclease activity are required for Rec12Spo11 removal, but Rec12Spo11 removal is dispensable for other MRN-dependent meiotic functions. Mol Cell Biol 29(7):1671-81 PMID: 19139281
- Jin H, et al. (2009) Pds5 is required for homologue pairing and inhibits synapsis of sister chromatids during yeast meiosis. J Cell Biol 186(5):713-25 PMID: 19736318
- Jordan P, et al. (2009) Ipl1/Aurora B kinase coordinates synaptonemal complex disassembly with cell cycle progression and crossover formation in budding yeast meiosis. Genes Dev 23(18):2237-51 PMID: 19759266
- Klutstein M, et al. (2009) Separation of roles of Zip1 in meiosis revealed in heterozygous mutants of Saccharomyces cerevisiae. Mol Genet Genomics 282(5):453-62 PMID: 19714362
- Macqueen AJ and Roeder GS (2009) Fpr3 and Zip3 ensure that initiation of meiotic recombination precedes chromosome synapsis in budding yeast. Curr Biol 19(18):1519-26 PMID: 19765989
- Bhalla N, et al. (2008) ZHP-3 acts at crossovers to couple meiotic recombination with synaptonemal complex disassembly and bivalent formation in C. elegans. PLoS Genet 4(10):e1000235 PMID: 18949042
- Börner GV, et al. (2008) Yeast Pch2 promotes domainal axis organization, timely recombination progression, and arrest of defective recombinosomes during meiosis. Proc Natl Acad Sci U S A 105(9):3327-32 PMID: 18305165
- Chen SY, et al. (2008) Global analysis of the meiotic crossover landscape. Dev Cell 15(3):401-415 PMID: 18691940
- Conrad MN, et al. (2008) Rapid telomere movement in meiotic prophase is promoted by NDJ1, MPS3, and CSM4 and is modulated by recombination. Cell 133(7):1175-87 PMID: 18585352
- Shinohara M, et al. (2008) Crossover assurance and crossover interference are distinctly regulated by the ZMM proteins during yeast meiosis. Nat Genet 40(3):299-309 PMID: 18297071
- Sourirajan A and Lichten M (2008) Polo-like kinase Cdc5 drives exit from pachytene during budding yeast meiosis. Genes Dev 22(19):2627-32 PMID: 18832066
- Tsubouchi T, et al. (2008) Initiation of meiotic chromosome synapsis at centromeres in budding yeast. Genes Dev 22(22):3217-26 PMID: 19056898
- Boden SA, et al. (2007) Expression and functional analysis of TaASY1 during meiosis of bread wheat (Triticum aestivum). BMC Mol Biol 8:65 PMID: 17683575
- Bogdanov YF, et al. (2007) Similarity of the domain structure of proteins as a basis for the conservation of meiosis. Int Rev Cytol 257:83-142 PMID: 17280896
- Chelysheva L, et al. (2007) Zip4/Spo22 is required for class I CO formation but not for synapsis completion in Arabidopsis thaliana. PLoS Genet 3(5):e83 PMID: 17530928
- Cheng CH, et al. (2007) Tying SUMO modifications to dynamic behaviors of chromosomes during meiotic prophase of Saccharomyces cerevisiae. J Biomed Sci 14(4):481-90 PMID: 17530453
- Lynn A, et al. (2007) ZMM proteins during meiosis: crossover artists at work. Chromosome Res 15(5):591-605 PMID: 17674148
- Malmanche N, et al. (2007) Drosophila BubR1 is essential for meiotic sister-chromatid cohesion and maintenance of synaptonemal complex. Curr Biol 17(17):1489-97 PMID: 17702574
- Mitra N and Roeder GS (2007) A novel nonnull ZIP1 allele triggers meiotic arrest with synapsed chromosomes in Saccharomyces cerevisiae. Genetics 176(2):773-87 PMID: 17435220
- Scherthan H, et al. (2007) Chromosome mobility during meiotic prophase in Saccharomyces cerevisiae. Proc Natl Acad Sci U S A 104(43):16934-9 PMID: 17939997
- Terasawa M, et al. (2007) Meiotic recombination-related DNA synthesis and its implications for cross-over and non-cross-over recombinant formation. Proc Natl Acad Sci U S A 104(14):5965-70 PMID: 17384152
- Tripathi P, et al. (2007) Saccharomyces cerevisiae Hop1 protein zinc finger motif binds to the Holliday junction and distorts the DNA structure: implications for holliday junction migration. Biochemistry 46(44):12530-42 PMID: 17935355
- Cheng CH, et al. (2006) SUMO modifications control assembly of synaptonemal complex and polycomplex in meiosis of Saccharomyces cerevisiae. Genes Dev 20(15):2067-81 PMID: 16847351
- de Boer E and Heyting C (2006) The diverse roles of transverse filaments of synaptonemal complexes in meiosis. Chromosoma 115(3):220-34 PMID: 16523321
- Hooker GW and Roeder GS (2006) A Role for SUMO in meiotic chromosome synapsis. Curr Biol 16(12):1238-43 PMID: 16782016
- Li J, et al. (2006) Saccharomyces cerevisiae Mer2, Mei4 and Rec114 form a complex required for meiotic double-strand break formation. Genetics 173(4):1969-81 PMID: 16783010
- Tripathi P, et al. (2006) Selective binding of meiosis-specific yeast Hop1 protein to the holliday junctions distorts the DNA structure and its implications for junction migration and resolution. J Mol Biol 364(4):599-611 PMID: 17027027
- Tsubouchi T, et al. (2006) The meiosis-specific zip4 protein regulates crossover distribution by promoting synaptonemal complex formation together with zip2. Dev Cell 10(6):809-19 PMID: 16740482
- Wu HY and Burgess SM (2006) Two distinct surveillance mechanisms monitor meiotic chromosome metabolism in budding yeast. Curr Biol 16(24):2473-9 PMID: 17174924
- Wu HY and Burgess SM (2006) Ndj1, a telomere-associated protein, promotes meiotic recombination in budding yeast. Mol Cell Biol 26(10):3683-94 PMID: 16648465
- Anuradha S, et al. (2005) Meiosis-specific yeast Hop1 protein promotes pairing of double-stranded DNA helices via G/C isochores. Biochem Biophys Res Commun 336(3):934-41 PMID: 16154534
- Henderson KA and Keeney S (2005) Synaptonemal complex formation: where does it start? Bioessays 27(10):995-8 PMID: 16163735
- Tsubouchi T and Roeder GS (2005) A synaptonemal complex protein promotes homology-independent centromere coupling. Science 308(5723):870-3 PMID: 15879219
- Anuradha S and Muniyappa K (2004) Saccharomyces cerevisiae Hop1 zinc finger motif is the minimal region required for its function in vitro. J Biol Chem 279(28):28961-9 PMID: 15123624
- Anuradha S and Muniyappa K (2004) Meiosis-specific yeast Hop1 protein promotes synapsis of double-stranded DNA helices via the formation of guanine quartets. Nucleic Acids Res 32(8):2378-85 PMID: 15115800
- Bhuiyan H and Schmekel K (2004) Meiotic chromosome synapsis in yeast can occur without spo11-induced DNA double-strand breaks. Genetics 168(2):775-83 PMID: 15514052
- Börner GV, et al. (2004) Crossover/noncrossover differentiation, synaptonemal complex formation, and regulatory surveillance at the leptotene/zygotene transition of meiosis. Cell 117(1):29-45 PMID: 15066280
- Fung JC, et al. (2004) Imposition of crossover interference through the nonrandom distribution of synapsis initiation complexes. Cell 116(6):795-802 PMID: 15035982
- Henderson KA and Keeney S (2004) Tying synaptonemal complex initiation to the formation and programmed repair of DNA double-strand breaks. Proc Natl Acad Sci U S A 101(13):4519-24 PMID: 15070750
- Jantsch V, et al. (2004) Targeted gene knockout reveals a role in meiotic recombination for ZHP-3, a Zip3-related protein in Caenorhabditis elegans. Mol Cell Biol 24(18):7998-8006 PMID: 15340062
- Lorenz A, et al. (2004) S. pombe meiotic linear elements contain proteins related to synaptonemal complex components. J Cell Sci 117(Pt 15):3343-51 PMID: 15226405
- Malone RE, et al. (2004) The signal from the initiation of meiotic recombination to the first division of meiosis. Eukaryot Cell 3(3):598-609 PMID: 15189982
- Prieto I, et al. (2004) Cohesin component dynamics during meiotic prophase I in mammalian oocytes. Chromosome Res 12(3):197-213 PMID: 15125634
- Strich R, et al. (2004) Cyclin B-cdk activity stimulates meiotic rereplication in budding yeast. Genetics 167(4):1621-8 PMID: 15342503
- White EJ, et al. (2004) In vivo analysis of synaptonemal complex formation during yeast meiosis. Genetics 167(1):51-63 PMID: 15166136
- Zierhut C, et al. (2004) Mnd1 is required for meiotic interhomolog repair. Curr Biol 14(9):752-62 PMID: 15120066
- Baarends WM, et al. (2003) Loss of HR6B ubiquitin-conjugating activity results in damaged synaptonemal complex structure and increased crossing-over frequency during the male meiotic prophase. Mol Cell Biol 23(4):1151-62 PMID: 12556476
- Bhuiyan H, et al. (2003) Lateral elements inside synaptonemal complex-like polycomplexes in ndt80 mutants of yeast bind DNA. Genetics 163(2):539-44 PMID: 12618393
- Bogdanov YF, et al. (2003) In silico search for functionally similar proteins involved in meiosis and recombination in evolutionarily distant organisms. In Silico Biol 3(1-2):173-85 PMID: 12762853
- Eijpe M, et al. (2003) Meiotic cohesin REC8 marks the axial elements of rat synaptonemal complexes before cohesins SMC1beta and SMC3. J Cell Biol 160(5):657-70 PMID: 12615909
- Jang JK, et al. (2003) Relationship of DNA double-strand breaks to synapsis in Drosophila. J Cell Sci 116(Pt 15):3069-77 PMID: 12799415
- Lee J, et al. (2003) Temporally and spatially selective loss of Rec8 protein from meiotic chromosomes during mammalian meiosis. J Cell Sci 116(Pt 13):2781-90 PMID: 12759374
- Loidl J (2003) Chromosomes of the budding yeast Saccharomyces cerevisiae. Int Rev Cytol 222:141-96 PMID: 12503849
- Molnar M, et al. (2003) Linear element formation and their role in meiotic sister chromatid cohesion and chromosome pairing. J Cell Sci 116(Pt 9):1719-31 PMID: 12665553
- Rockmill B, et al. (2003) The Sgs1 helicase regulates chromosome synapsis and meiotic crossing over. Curr Biol 13(22):1954-62 PMID: 14614820
- Schwarzacher T (2003) Meiosis, recombination and chromosomes: a review of gene isolation and fluorescent in situ hybridization data in plants. J Exp Bot 54(380):11-23 PMID: 12456751
- Tsubouchi H and Roeder GS (2003) The importance of genetic recombination for fidelity of chromosome pairing in meiosis. Dev Cell 5(6) PMID: 14667413
- Yu HG and Koshland DE (2003) Meiotic condensin is required for proper chromosome compaction, SC assembly, and resolution of recombination-dependent chromosome linkages. J Cell Biol 163(5):937-47 PMID: 14662740
- Bogdanov IuF, et al. (2002) [Comparative genomics and proteomics of Drosophila, Brenner's nematode, and Arabidopsis: identification of functionally similar genes and proteins of meiotic chromosome synapsis]. Genetika 38(8):1078-89 PMID: 12244692
- Bogdanov IuF, et al. (2002) [CG17604 gene from Drosophila melanogaster--possible functional homolog of the yeast ZIP1 and SCP1 (SYCP1) mammalian genes, coding for synaptonemal complex proteins]. Genetika 38(1):108-12 PMID: 11852789
- James RD, et al. (2002) Differential association of SMC1alpha and SMC3 proteins with meiotic chromosomes in wild-type and SPO11-deficient male mice. Chromosome Res 10(7):549-60 PMID: 12498344
- Penkina MV, et al. (2002) [Synaptonemal complex proteins: specific proteins of meiotic chromosomes]. Mol Biol (Mosk) 36(3):397-407 PMID: 12068623
- Peoples TL, et al. (2002) 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. Genes Dev 16(13):1682-95 PMID: 12101126
- Tsubouchi H and Roeder GS (2002) The Mnd1 protein forms a complex with hop2 to promote homologous chromosome pairing and meiotic double-strand break repair. Mol Cell Biol 22(9):3078-88 PMID: 11940665
- Davis L, et al. (2001) The Saccharomyces cerevisiae MUM2 gene interacts with the DNA replication machinery and is required for meiotic levels of double strand breaks. Genetics 157(3):1179-89 PMID: 11238403
- Hunter N and Kleckner N (2001) The single-end invasion: an asymmetric intermediate at the double-strand break to double-holliday junction transition of meiotic recombination. Cell 106(1):59-70 PMID: 11461702
- Novak JE, et al. (2001) The budding yeast Msh4 protein functions in chromosome synapsis and the regulation of crossover distribution. Genetics 158(3):1013-25 PMID: 11454751
- Oishi I, et al. (2001) Critical role of Caenorhabditis elegans homologs of Cds1 (Chk2)-related kinases in meiotic recombination. Mol Cell Biol 21(4):1329-35 PMID: 11158318
- Pasierbek P, et al. (2001) A Caenorhabditis elegans cohesion protein with functions in meiotic chromosome pairing and disjunction. Genes Dev 15(11):1349-60 PMID: 11390355
- Revenkova E, et al. (2001) Novel meiosis-specific isoform of mammalian smc1. Mol Cell Biol 21(20) PMID: 11564881
- Shanks RM, et al. (2001) The Kar3-interacting protein Cik1p plays a critical role in passage through meiosis I in Saccharomyces cerevisiae. Genetics 159(3):939-51 PMID: 11729143
- Tzung KW, et al. (2001) Genomic evidence for a complete sexual cycle in Candida albicans. Proc Natl Acad Sci U S A 98(6):3249-53 PMID: 11248064
- Agarwal S and Roeder GS (2000) Zip3 provides a link between recombination enzymes and synaptonemal complex proteins. Cell 102(2):245-55 PMID: 10943844
- Bailis JM, et al. (2000) Bypass of a meiotic checkpoint by overproduction of meiotic chromosomal proteins. Mol Cell Biol 20(13):4838-48 PMID: 10848609
- Caryl AP, et al. (2000) A homologue of the yeast HOP1 gene is inactivated in the Arabidopsis meiotic mutant asy1. Chromosoma 109(1-2):62-71 PMID: 10855496
- Celerin M, et al. (2000) Multiple roles of Spo11 in meiotic chromosome behavior. EMBO J 19(11):2739-50 PMID: 10835371
- Cha RS, et al. (2000) Progression of meiotic DNA replication is modulated by interchromosomal interaction proteins, negatively by Spo11p and positively by Rec8p. Genes Dev 14(4):493-503 PMID: 10691741
- Dong H and Roeder GS (2000) Organization of the yeast Zip1 protein within the central region of the synaptonemal complex. J Cell Biol 148(3):417-26 PMID: 10662769
- Eijpe M, et al. (2000) Association of mammalian SMC1 and SMC3 proteins with meiotic chromosomes and synaptonemal complexes. J Cell Sci 113 ( Pt 4):673-82 PMID: 10652260
- Gerecke EE and Zolan ME (2000) An mre11 mutant of Coprinus cinereus has defects in meiotic chromosome pairing, condensation and synapsis. Genetics 154(3):1125-39 PMID: 10757758
- Malkova A, et al. (2000) HO endonuclease-induced recombination in yeast meiosis resembles Spo11-induced events. Proc Natl Acad Sci U S A 97(26):14500-5 PMID: 11121053
- Merino ST, et al. (2000) Replication-dependent early meiotic requirement for Spo11 and Rad50. Proc Natl Acad Sci U S A 97(19) PMID: 10973500
- Muniyappa K, et al. (2000) Yeast meiosis-specific protein Hop1 binds to G4 DNA and promotes its formation. Mol Cell Biol 20(4):1361-9 PMID: 10648621
- Pezzi N, et al. (2000) STAG3, a novel gene encoding a protein involved in meiotic chromosome pairing and location of STAG3-related genes flanking the Williams-Beuren syndrome deletion. FASEB J 14(3):581-92 PMID: 10698974
- Schmekel K (2000) Methods for immunoelectron microscopic and fine structural analysis of synaptonemal complexes and nodules in yeast. Chromosoma 109(1-2):110-6 PMID: 10855501
- Smith AV and Roeder GS (2000) Cloning and characterization of the Kluyveromyces lactis homologs of the Saccharomyces cerevisiae RED1 and HOP1 genes. Chromosoma 109(1-2):50-61 PMID: 10855495
- Walker MY and Hawley RS (2000) Hanging on to your homolog: the roles of pairing, synapsis and recombination in the maintenance of homolog adhesion. Chromosoma 109(1-2):3-9 PMID: 10855490
- Alché JD, et al. (1999) Heterologously expressed polypeptide from the yeast meiotic gene HOP1 binds preferentially to yeast DNA. Protein Expr Purif 16(2):251-60 PMID: 10419822
- de los Santos T and Hollingsworth NM (1999) Red1p, a MEK1-dependent phosphoprotein that physically interacts with Hop1p during meiosis in yeast. J Biol Chem 274(3):1783-90 PMID: 9880561
- Leu JY and Roeder GS (1999) The pachytene checkpoint in S. cerevisiae depends on Swe1-mediated phosphorylation of the cyclin-dependent kinase Cdc28. Mol Cell 4(5):805-14 PMID: 10619027
- Leu JY and Roeder GS (1999) Splicing of the meiosis-specific HOP2 transcript utilizes a unique 5' splice site. Mol Cell Biol 19(12):7933-43 PMID: 10567519
- Trelles-Sticken E, et al. (1999) Bouquet formation in budding yeast: initiation of recombination is not required for meiotic telomere clustering. J Cell Sci 112 ( Pt 5):651-8 PMID: 9973600
- Ashley T and Plug A (1998) Caught in the act: deducing meiotic function from protein immunolocalization. Curr Top Dev Biol 37:201-39 PMID: 9352187
- Bailis JM and Roeder GS (1998) Synaptonemal complex morphogenesis and sister-chromatid cohesion require Mek1-dependent phosphorylation of a meiotic chromosomal protein. Genes Dev 12(22):3551-63 PMID: 9832507
- Chua PR and Roeder GS (1998) Zip2, a meiosis-specific protein required for the initiation of chromosome synapsis. Cell 93(3):349-59 PMID: 9590170
- de Dios Alché J and Dickinson H (1998) Affinity chromatographic purification of antibodies to a biotinylated fusion protein expressed in Escherichia coli. Protein Expr Purif 12(1):138-43 PMID: 9473468
- Haber JE (1998) Meiosis: Avoiding inappropriate relationships. Curr Biol 8(23):R832-5 PMID: 9822568
- Jin Q, et al. (1998) Yeast nuclei display prominent centromere clustering that is reduced in nondividing cells and in meiotic prophase. J Cell Biol 141(1):21-9 PMID: 9531545
- Kironmai KM, et al. (1998) DNA-binding activities of Hop1 protein, a synaptonemal complex component from Saccharomyces cerevisiae. Mol Cell Biol 18(3):1424-35 PMID: 9488458
- Leu JY, et al. (1998) The meiosis-specific Hop2 protein of S. cerevisiae ensures synapsis between homologous chromosomes. Cell 94(3):375-86 PMID: 9708739
- McKim KS and Hayashi-Hagihara A (1998) mei-W68 in Drosophila melanogaster encodes a Spo11 homolog: evidence that the mechanism for initiating meiotic recombination is conserved. Genes Dev 12(18):2932-42 PMID: 9744869
- Pittman DL, et al. (1998) Meiotic prophase arrest with failure of chromosome synapsis in mice deficient for Dmc1, a germline-specific RecA homolog. Mol Cell 1(5):697-705 PMID: 9660953
- Rockmill B and Roeder GS (1998) Telomere-mediated chromosome pairing during meiosis in budding yeast. Genes Dev 12(16):2574-86 PMID: 9716409
- Tung KS and Roeder GS (1998) Meiotic chromosome morphology and behavior in zip1 mutants of Saccharomyces cerevisiae. Genetics 149(2):817-32 PMID: 9611194
- Bascom-Slack CA and Dawson DS (1997) The yeast motor protein, Kar3p, is essential for meiosis I. J Cell Biol 139(2):459-67 PMID: 9334348
- Chua PR and Roeder GS (1997) Tam1, a telomere-associated meiotic protein, functions in chromosome synapsis and crossover interference. Genes Dev 11(14):1786-800 PMID: 9242487
- Hollingsworth NM and Ponte L (1997) Genetic interactions between HOP1, RED1 and MEK1 suggest that MEK1 regulates assembly of axial element components during meiosis in the yeast Saccharomyces cerevisiae. Genetics 147(1):33-42 PMID: 9286666
- Prinz S, et al. (1997) Isolation of COM1, a new gene required to complete meiotic double-strand break-induced recombination in Saccharomyces cerevisiae. Genetics 146(3):781-95 PMID: 9215887
- Scully R, et al. (1997) Association of BRCA1 with Rad51 in mitotic and meiotic cells. Cell 88(2):265-75 PMID: 9008167
- Shinohara A, et al. (1997) Saccharomyces cerevisiae recA homologues RAD51 and DMC1 have both distinct and overlapping roles in meiotic recombination. Genes Cells 2(10):615-29 PMID: 9427283
- Smith AV and Roeder GS (1997) The yeast Red1 protein localizes to the cores of meiotic chromosomes. J Cell Biol 136(5):957-67 PMID: 9060462
- Xu L, et al. (1997) Meiotic cells monitor the status of the interhomolog recombination complex. Genes Dev 11(1):106-18 PMID: 9000054
- Zenvirth D, et al. (1997) Switching yeast from meiosis to mitosis: double-strand break repair, recombination and synaptonemal complex. Genes Cells 2(8):487-98 PMID: 9348039
- Gailus-Durner V, et al. (1996) Participation of the yeast activator Abf1 in meiosis-specific expression of the HOP1 gene. Mol Cell Biol 16(6):2777-86 PMID: 8649386
- Kovalenko OV, et al. (1996) Mammalian ubiquitin-conjugating enzyme Ubc9 interacts with Rad51 recombination protein and localizes in synaptonemal complexes. Proc Natl Acad Sci U S A 93(7):2958-63 PMID: 8610150
- Lee RH and Honigberg SM (1996) Nutritional regulation of late meiotic events in Saccharomyces cerevisiae through a pathway distinct from initiation. Mol Cell Biol 16(6):3222-32 PMID: 8649433
- Storlazzi A, et al. (1996) Synaptonemal complex (SC) component Zip1 plays a role in meiotic recombination independent of SC polymerization along the chromosomes. Proc Natl Acad Sci U S A 93(17):9043-8 PMID: 8799151
- Haaf T, et al. (1995) Nuclear foci of mammalian Rad51 recombination protein in somatic cells after DNA damage and its localization in synaptonemal complexes. Proc Natl Acad Sci U S A 92(6):2298-302 PMID: 7892263
- Loidl J (1995) Meiotic chromosome pairing in triploid and tetraploid Saccharomyces cerevisiae. Genetics 139(4):1511-20 PMID: 7789756
- Nag DK, et al. (1995) Heteroduplex DNA formation and homolog pairing in yeast meiotic mutants. Genetics 141(1):75-86 PMID: 8536992
- Ogawa H, et al. (1995) Functions of the yeast meiotic recombination genes, MRE11 and MRE2. Adv Biophys 31:67-76 PMID: 7625279
- Rockmill B, et al. (1995) The yeast MER2 gene is required for chromosome synapsis and the initiation of meiotic recombination. Genetics 141(1):49-59 PMID: 8536989
- Rockmill B, et al. (1995) Roles for two RecA homologs in promoting meiotic chromosome synapsis. Genes Dev 9(21):2684-95 PMID: 7590245
- Roeder GS (1995) Sex and the single cell: meiosis in yeast. Proc Natl Acad Sci U S A 92(23):10450-6 PMID: 7479818
- Storlazzi A, et al. (1995) Crossover and noncrossover recombination during meiosis: timing and pathway relationships. Proc Natl Acad Sci U S A 92(18):8512-6 PMID: 7667321
- Sym M and Roeder GS (1995) Zip1-induced changes in synaptonemal complex structure and polycomplex assembly. J Cell Biol 128(4):455-66 PMID: 7860625
- Tishkoff DX, et al. (1995) The sep1 mutant of Saccharomyces cerevisiae arrests in pachytene and is deficient in meiotic recombination. Genetics 139(2):495-509 PMID: 7713413
- Xu L, et al. (1995) NDT80, a meiosis-specific gene required for exit from pachytene in Saccharomyces cerevisiae. Mol Cell Biol 15(12):6572-81 PMID: 8524222
- Bähler J, et al. (1994) Saccharomyces cerevisiae cells lacking the homologous pairing protein p175SEP1 arrest at pachytene during meiotic prophase. Chromosoma 103(2):129-41 PMID: 8055710
- Loidl J, et al. (1994) Homologous pairing is reduced but not abolished in asynaptic mutants of yeast. J Cell Biol 125(6):1191-200 PMID: 8207053
- Rockmill B and Roeder GS (1994) The yeast med1 mutant undergoes both meiotic homolog nondisjunction and precocious separation of sister chromatids. Genetics 136(1):65-74 PMID: 8138177
- Sym M and Roeder GS (1994) Crossover interference is abolished in the absence of a synaptonemal complex protein. Cell 79(2):283-92 PMID: 7954796
- Weiner BM and Kleckner N (1994) Chromosome pairing via multiple interstitial interactions before and during meiosis in yeast. Cell 77(7):977-91 PMID: 8020104
- Hollingsworth NM and Johnson AD (1993) A conditional allele of the Saccharomyces cerevisiae HOP1 gene is suppressed by overexpression of two other meiosis-specific genes: RED1 and REC104. Genetics 133(4):785-97 PMID: 8462842
- Raymond WE and Kleckner N (1993) Expression of the Saccharomyces cerevisiae RAD50 gene during meiosis: steady-state transcript levels rise and fall while steady-state protein levels remain constant. Mol Gen Genet 238(3):390-400 PMID: 8492807
- Raymond WE and Kleckner N (1993) RAD50 protein of S.cerevisiae exhibits ATP-dependent DNA binding. Nucleic Acids Res 21(16):3851-6 PMID: 8367302
- Rose D and Holm C (1993) Meiosis-specific arrest revealed in DNA topoisomerase II mutants. Mol Cell Biol 13(6):3445-55 PMID: 8388537
- Sym M, et al. (1993) ZIP1 is a synaptonemal complex protein required for meiotic chromosome synapsis. Cell 72(3):365-78 PMID: 7916652
- Bhargava J, et al. (1992) The rec102 mutant of yeast is defective in meiotic recombination and chromosome synapsis. Genetics 130(1):59-69 PMID: 1732169
- Bishop DK, et al. (1992) DMC1: a meiosis-specific yeast homolog of E. coli recA required for recombination, synaptonemal complex formation, and cell cycle progression. Cell 69(3) PMID: 1581960
- Klein F, et al. (1992) Localization of RAP1 and topoisomerase II in nuclei and meiotic chromosomes of yeast. J Cell Biol 117(5):935-48 PMID: 1315786
- Buck V, et al. (1991) CDC7 protein kinase activity is required for mitosis and meiosis in Saccharomyces cerevisiae. Mol Gen Genet 227(3):452-7 PMID: 1865880
- Haber JE, et al. (1991) The frequency of meiotic recombination in yeast is independent of the number and position of homologous donor sequences: implications for chromosome pairing. Proc Natl Acad Sci U S A 88(4):1120-4 PMID: 1996313
- Loidl J, et al. (1991) Meiotic chromosome synapsis in a haploid yeast. Chromosoma 100(4):221-8 PMID: 2055133
- Padmore R, et al. (1991) Temporal comparison of recombination and synaptonemal complex formation during meiosis in S. cerevisiae. Cell 66(6):1239-56 PMID: 1913808
- Rockmill B and Roeder GS (1991) A meiosis-specific protein kinase homolog required for chromosome synapsis and recombination. Genes Dev 5(12B):2392-404 PMID: 1752435
- Alani E, et al. (1990) Analysis of wild-type and rad50 mutants of yeast suggests an intimate relationship between meiotic chromosome synapsis and recombination. Cell 61(3):419-36 PMID: 2185891
- Engebrecht J and Roeder GS (1990) MER1, a yeast gene required for chromosome pairing and genetic recombination, is induced in meiosis. Mol Cell Biol 10(5):2379-89 PMID: 2183032
- Engebrecht J, et al. (1990) Meiotic gene conversion and crossing over: their relationship to each other and to chromosome synapsis and segregation. Cell 62(5):927-37 PMID: 2203538
- Hollingsworth NM, et al. (1990) The HOP1 gene encodes a meiosis-specific component of yeast chromosomes. Cell 61(1):73-84 PMID: 2107981
- Rockmill B and Roeder GS (1990) Meiosis in asynaptic yeast. Genetics 126(3):563-74 PMID: 2249756
- Giroux CN, et al. (1989) Genetic control of chromosome synapsis in yeast meiosis. Genome 31(1):88-94 PMID: 2687110
- Hollingsworth NM and Byers B (1989) HOP1: a yeast meiotic pairing gene. Genetics 121(3):445-62 PMID: 2653960
- Dresser ME and Giroux CN (1988) Meiotic chromosome behavior in spread preparations of yeast. J Cell Biol 106(3):567-73 PMID: 2450094
- Sclafani RA, et al. (1988) Differential regulation of the yeast CDC7 gene during mitosis and meiosis. Mol Cell Biol 8(1):293-300 PMID: 3275871
- Klapholz S, et al. (1985) The role of the SPO11 gene in meiotic recombination in yeast. Genetics 110(2):187-216 PMID: 3891509
- Moens PB and Ashton ML (1985) Synaptonemal complexes of normal and mutant yeast chromosomes (Saccharomyces cerevisiae). Chromosoma 91(2):113-20 PMID: 3886327
- Simchen G, et al. (1981) Elevated recombination and pairing structures during meiotic arrest in yeast of the nuclear division mutant cdc5. Mol Gen Genet 184(1):46-51 PMID: 7038388
- Horesh O, et al. (1979) Morphogenesis of the synapton during yeast meiosis. Chromosoma 75(1):101-15 PMID: 391514
- Schild D and Byers B (1978) Meiotic effects of DNA-defective cell division cycle mutations of Saccharomyces cerevisiae. Chromosoma 70(1):109-30 PMID: 367734