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  • Armstrong, S.J., Caryl, A.P., Jones, G.H. & Franklin, F.C. (2002) Asy1, a protein required for meiotic chromosome synapsis, localizes to axis-associated chromatin in Arabidopsis and Brassica. J. Cell Sci. 115, 36453655.
  • Barchi, M., Mahadevaiah, S., Di Giacomo, M., Baudat, F., de Rooij, D.G., Burgoyne, P.S., Jasin, M. & Keeney, S. (2005) Surveillance of different recombination defects in mouse spermatocytes yields distinct responses despite elimination at an identical developmental stage. Mol. Cell. Biol. 25, 72037215.
  • Baudat, F., Manova, K., Yuen, J.P., Jasin, M. & Keeney, S. (2000) Chromosome synapsis defects and sexually dimorphic meiotic progression in mice lacking Spo11. Mol. Cell 6, 989998.
  • Bellani, M.A., Romanienko, P.J., Cairatti, D.A. & Camerini-Otero, R.D. (2005) SPO11 is required for sex-body formation, and Spo11 heterozygosity rescues the prophase arrest of Atm-/- spermatocytes. J. Cell Sci. 118, 32333245.
  • Burgoyne, P.S., Mahadevaiah, S.K. & Turner, J.M. (2009) The consequences of asynapsis for mammalian meiosis. Nat. Rev. Genet. 10, 207216.
  • Carballo, J.A., Johnson, A.L., Sedgwick, S.G. & Cha, R.S. (2008) Phosphorylation of the axial element protein Hop1 by Mec1/Tel1 ensures meiotic interhomolog recombination. Cell 132, 758770.
  • Daniel, K., Lange, J., Hached, K., Fu, J., Anastassiadis, K., Roig, I., Cooke, H.J., Stewart, A.F., Wassmann, K., Jasin, M., Keeney, S. & Tóth, A. (2011) Meiotic homologue alignment and its quality surveillance are controlled by mouse HORMAD1. Nat. Cell Biol. 13, 599610.
  • Di Giacomo, M., Barchi, M., Baudat, F., Edelmann, W., Keeney, S. & Jasin, M. (2005) Distinct DNA-damage-dependent and -independent responses drive the loss of oocytes in recombination-defective mouse mutants. Proc. Natl Acad. Sci. USA 102, 737742.
  • Fernandez-Capetillo, O., Chen, H.T., Celeste, A., Ward, I., Romanienko, P.J., Morales, J.C., Naka, K., Xia, Z., Camerini-Otero, R.D., Motoyama, N., Carpenter, P.B., Bonner, W.M., Chen, J. & Nussenzweig, A. (2002) DNA damage-induced G2-M checkpoint activation by histone H2AX and 53BP1. Nat. Cell Biol. 4, 993997.
  • Fernandez-Capetillo, O., Mahadevaiah, S.K., Celeste, A., Romanienko, P.J., Camerini-Otero, R.D., Bonner, W.M., Manova, K., Burgoyne, P. & Nussenzweig, A. (2003) H2AX is required for chromatin remodeling and inactivation of sex chromosomes in male mouse meiosis. Dev. Cell 4, 497508.
  • Freire, R., Murguía, J.R., Tarsounas, M., Lowndes, N.F., Moens, P.B. & Jackson, S.P. (1998) Human and mouse homologs of Schizosaccharomyces pombe rad1(+) and Saccharomyces cerevisiae RAD17: linkage to checkpoint control and mammalian meiosis. Genes Dev. 12, 25602573.
  • Fukuda, T., Daniel, K., Wojtasz, L., Toth, A. & Höög, C. (2010) A novel mammalian HORMA domain-containing protein, HORMAD1, preferentially associates with unsynapsed meiotic chromosomes. Exp. Cell Res. 316, 158171.
  • Fukuda, T., Pratto, F., Schimenti, J.C., Turner, J.M., Camerini-Otero, R.D. & Höög, C. (2012) Phosphorylation of chromosome core components may serve as axis marks for the status of chromosomal events during mammalian meiosis. PLoS Genet. 8, e1002485.
  • Handel, M.A. (2004) The XY body: a specialized meiotic chromatin domain. Exp. Cell Res. 296, 5763.
  • Handel, M.A. & Schimenti, J.C. (2010) Genetics of mammalian meiosis: regulation, dynamics and impact on fertility. Nat. Rev. Genet. 11, 124136.
  • Hochwagen, A. & Amon, A. (2006) Checking your breaks: surveillance mechanisms of meiotic recombination. Curr. Biol. 16, R217R228.
  • Hollingsworth, N.M., Goetsch, L. & Byers, B. (1990) The HOP1 gene encodes a meiosis-specific component of yeast chromosomes. Cell 61, 7384.
  • Huynh, K.D. & Lee, J.T. (2005) X-chromosome inactivation: a hypothesis linking ontogeny and phylogeny. Nat. Rev. Genet. 6, 410418.
  • Ichijima, Y., Ichijima, M., Lou, Z., Nussenzweig, A., Camerini-Otero, R.D., Chen, J., Andreassen, P.R. & Namekawa, S.H. (2011) MDC1 directs chromosome-wide silencing of the sex chromosomes in male germ cells. Genes Dev. 25, 959971.
  • Kogo, H., Tsutsumi, M., Ohye, T., Inagaki, H., Abe, T. & Kurahashi, H. (2012) HORMAD1-dependent checkpoint/surveillance mechanism eliminates asynaptic oocytes. Genes Cells 17, 439454.
  • Lorenz, A., Wells, J.L., Pryce, D.W., Novatchkova, M., Eisenhaber, F., McFarlane, R.J. & Loidl, J. (2004) S. pombe meiotic linear elements contain proteins related to synaptonemal complex components. J. Cell Sci. 117, 33433351.
  • Lydall, D., Nikolsky, Y., Bishop, D.K. & Weinert, T. (1996) A meiotic recombination checkpoint controlled by mitotic checkpoint genes. Nature 383, 840843.
  • Mahadevaiah, S.K., Bourc'his, D., de Rooij, D.G., Bestor, T.H., Turner, J.M. & Burgoyne, P.S. (2008) Extensive meiotic asynapsis in mice antagonises meiotic silencing of unsynapsed chromatin and consequently disrupts meiotic sex chromosome inactivation. J. Cell Biol. 182, 263276.
  • Mahadevaiah, S.K., Turner, J.M., Baudat, F., Rogakou, E.P., de Boer, P., Blanco-Rodríguez, J., Jasin, M., Keeney, S., Bonner, W.M. & Burgoyne, P.S. (2001) Recombinational DNA double-strand breaks in mice precede synapsis. Nat. Genet. 27, 271276.
  • Malone, R.E., Haring, S.J., Foreman, K.E., Pansegrau, M.L., Smith, S.M., Houdek, D.R., Carpp, L., Shah, B. & Lee, K.E. (2004) The signal from the initiation of meiotic recombination to the first division of meiosis. Eukaryot. Cell 3, 598609.
  • Nonomura, K., Nakano, M., Eiguchi, M., Suzuki, T. & Kurata, N. (2006) PAIR2 is essential for homologous chromosome synapsis in rice meiosis I. J. Cell Sci. 119, 217225.
  • Page, J., de la Fuente, R., Manterola, M., Parra, M.T., Viera, A., Berríos, S., Fernández-Donoso, R. & Rufas, J.S. (2012) Inactivation or non-reactivation: what accounts better for the silence of sex chromosomes during mammalian male meiosis? Chromosoma 121, 307326.
  • Perera, D., Perez-Hidalgo, L., Moens, P.B., Reini, K., Lakin, N., Syväoja, J.E., San-Segundo, P.A. & Freire, R. (2004) TopBP1 and ATR colocalization at meiotic chromosomes: role of TopBP1/Cut5 in the meiotic recombination checkpoint. Mol. Biol. Cell 15, 15681579.
  • Peters, A.H., Plug, A.W., van Vugt, M.J. & de Boer, P. (1997) A drying-down technique for the spreading of mammalian meiocytes from the male and female germline. Chromosome Res. 5, 6668.
  • Roeder, G.S. & Bailis, J.M. (2000) The pachytene checkpoint. Trends Genet. 16, 395403.
  • de Rooij, D.G. & de Boer, P. (2003) Specific arrests of spermatogenesis in genetically modified and mutant mice. Cytogenet. Genome Res. 103, 267276.
  • Royo, H., Polikiewicz, G., Mahadevaiah, S.K., Prosser, H., Mitchell, M., Bradley, A., de Rooij, D.G., Burgoyne, P.S. & Turner, J.M. (2010) Evidence that meiotic sex chromosome inactivation is essential for male fertility. Curr. Biol. 20, 21172123.
  • Russell, L.D. (1990) Histological and Histopathological Evaluation of the Testis. Clearwater, FL: Cache River Press.
  • Schimenti, J. (2005) Synapsis or silence. Nat. Genet. 37, 1113.
  • Shin, Y.H., Choi, Y., Erdin, S.U., Yatsenko, S.A., Kloc, M., Yang, F., Wang, P.J., Meistrich, M.L. & Rajkovic, A. (2010) Hormad1 mutation disrupts synaptonemal complex formation, recombination, and chromosome segregation in mammalian meiosis. PLoS Genet. 6, e1001190.
  • Turner, J.M., Aprelikova, O., Xu, X., Wang, R., Kim, S., Chandramouli, G.V., Barrett, J.C., Burgoyne, P.S. & Deng, C.X. (2004) BRCA1, histone H2AX phosphorylation, and male meiotic sex chromosome inactivation. Curr. Biol. 14, 21352142.
  • Turner, J.M., Mahadevaiah, S.K., Fernandez-Capetillo, O., Nussenzweig, A., Xu, X., Deng, C.X. & Burgoyne, P.S. (2005) Silencing of unsynapsed meiotic chromosomes in the mouse. Nat. Genet. 37, 4147.
  • Usui, T., Ogawa, H. & Petrini, J.H. (2001) A DNA damage response pathway controlled by Tel1 and the Mre11 complex. Mol. Cell 7, 12551266.
  • Wojtasz, L., Cloutier, J.M., Baumann, M., Daniel, K., Varga, J., Fu, J., Anastassiadis, K., Stewart, A.F., Reményi, A., Turner, J.M. & Tóth, A. (2012) Meiotic DNA double-strand breaks and chromosome asynapsis in mice are monitored by distinct HORMAD2-independent and -dependent mechanisms. Genes Dev. 26, 958973.
  • Wojtasz, L., Daniel, K., Roig, I., Bolcun-Filas, E., Xu, H., Boonsanay, V., Eckmann, C.R., Cooke, H.J., Jasin, M., Keeney, S., McKay, M.J. & Toth, A. (2009) Mouse HORMAD1 and HORMAD2, two conserved meiotic chromosomal proteins, are depleted from synapsed chromosome axes with the help of TRIP13 AAA-ATPase. PLoS Genet. 5, e1000702.
  • Zetka, M.C., Kawasaki, I., Strome, S. & Müller, F. (1999) Synapsis and chiasma formation in Caenorhabditis elegans require HIM-3, a meiotic chromosome core component that functions in chromosome segregation. Genes Dev. 13, 22582270.