Abe K, Osakabe K, Nakayama S, Endo M, Tagiri A, TodorikiS, Ichikawa H, Toki S. 2005. Arabidopsis RAD51C geneis important for homologous recombination in meiosis andmitosis. Plant Physiology, 139, 896-908Armstrong S J, Caryl A P, Jones G H, Franklin F C. 2002.Asy1, a protein required for melotic chromosome synapsis,localizes to axis-associated chromatin in Arabidopsis andBrassica. Journal of Cell Science, 115, 3645-3655Birchler J A, Yao H, Chudalayandi S, Vaiman D, Veitia R A.2010. Heterosis. The Plant Cell, 22, 2105-2112Brar D S, Khush G S. 1997. Alien introgression in rice. PlantMolecular Biology, 35, 35-47Caryl A P, Armstrong S J, Jones G H, Franklin F C. 2000. Ahomologue of the yeast HOP1 gene is inactivated in theArabidopsis meiotic mutant asy1. Chromosoma, 109,62-71Deng Z Y, Wang T. 2007. OsDMC1 is required for homologouspairing in Oryza sativa. Plant Molecular Biology, 65, 31-42Dias J C. 2010. Impact of improved vegetable cultivars inovercoming food insecurity. Euphytica, 176, 125-136Ding Z J, Wang T, Chong K, Bai S N. 2001. Isolation andcharacterization of OsDMC1, the rice homologue of theyeast DMC1 gene essential for meiosis. Sex Plant Reprod,13, 285-288Dong X Y, Hong Z L, Sivaramakrishnan M, Mahfouz M, VermaD P. 2005. Callose synthase (CalS5) is required for exineformation during microgametogenesis and for pollen viabilityin Arabidopsis. The Plant Journal, 42, 315-328Enns L C, Kanaoka M M, Torii K U, Comai L, Okada K, ClelandR E. 2005. Two callose synthases, GSL1 and GSL5,play an essential and redundant role in plant and pollendevelopment and in fertility. Plant Molecular Biology, 58,333-349Heslop-Harrison J, Mackenzie A. 1967. Autoradiography ofsoluble [2-14-C] thymidine derivatives during meiosisand microsporogenesis in Lilium anthers. Journal of CellScience, 2, 387-400Hong Z, Delauney A J, Verma D P. 2001. A cell plate-specificcallose synthase and its interaction with phragmoplastin.The Plant Cell, 13, 755-768.Huang F, Fu X, Efisue A, Zhang S S, Xie G S, He W C, NevameA Y, Jin D M. 2013. Genetically characterizing a new Indicacytoplasmic male sterility with Oryza glaberrima Cytoplasmfor its potential use in hybrid rice production. Crop Science,53, 132-140Huang L, Chen X Y, Rim Y, Han X, Cho W K, Kim S W, Kim J Y.2009. Arabidopsis glucan synthase-like 10 functions in malegametogenesis. Journal of Plant Physiology, 166, 344-352Itoh J, Nonomura K, Ikeda K, Yamaki S, Inukai Y, Yamagishi H,Kitano H, Nagato Y. 2005. Rice plant development: Fromzygote to spikelet. Plant & Cell Physiology, 46, 23-47Izhar S, Frankel R. 1971. Mechanism of male sterility in Petunia:The relationship between pH, callase activity in the anthers,and the breakdown of the microsporogenesis. Theoreticaland Applied Genetics, 41, 104-108Jenkins G, Phillips D, Mikhailova E I, Timofejeva L, Jones R N.2008. Meiotic genes and proteins in cereals. Cytogeneticand Genome Research, 120, 291-301Kathiresan A, Khush G S, Bennett J. 2002. Two rice DMC1genes are differentially expressed during meiosis and duringhaploid and diploid mitosis. Sex Plant Reprod, 14, 257-267Kou Y, Chang Y, Li X, Xiao J, Wang S. 2012. The rice RAD51Cgene is required for the meiosis of both female and malegametocytes and the DNA repair of somatic cells. Journalof Experimental Botany, 63, 5323-5335Lam B C, Sage T L, Bianchi F, Blumwald E. 2001. Role of SH3domain-containing proteins in clathrin-mediated vesicletrafficking in Arabidopsis. The Plant Cell, 13, 2499-2512Li H, Zhang D. 2010. Biosynthesis of anther cuticle and pollenexine in rice. Plant Signaling & Behavior, 5, 1121-1123Maeda N, Toku S, Kenmochi N, Tanaka T. 2006. A novelnucleolar protein interacts with ribosomal protein S19.Biochemical and Biophysical Research Communications,339, 41-46Mercier R, Grelon M. 2008. Meiosis in plants: Ten years ofgene discovery. Cytogenetic and Genome Research, 120,281-290Murphy S P, Gumber H K, Mao Y, Bass H W. 2014. A dynamicmeiotic SUN belt includes the zygotene-stage telomerebouquet and is disrupted in chromosome segregationmutants of maize (Zea mays L.). Frontiers in Plant Science,5, 314-319Nonomura K, Morohoshi A, Nakano M, Eiguchi M, Miyao A,Hirochika H, Kurata N. 2007. A germ cell specific gene ofthe ARGONAUTE family is essential for the progression ofpremeiotic mitosis and meiosis during sporogenesis in rice.The Plant Cell, 19, 2583-2594Nonomura K I, Nakano M, Eiguchi M, Suzuki T, Kurata N. 2006.PAIR2 is essential for homologous chromosome synapsisin rice meiosis I. Journal of Cell Science, 119, 217-225Nonomura K I, Nakano M, Fukuda T, Eiguchi M, Miyao A,Hirochika H, Kurata N. 2004a. The novel gene HomologousPairing Aberration in Rice Meiosis1 of rice encodes aputative coiled-coil protein required for homologouschromosome pairing in meiosis. The Plant Cell, 16,1008-1020Nonomura K I, Nakano M, Murata K, Miyoshi K, Eiguchi M,Miyao A, Hirochika H, Kurata N. 2004b. An insertionalmutation in the rice PAIR2 gene, the ortholog of ArabidopsisASY1, results in a defect in homologous chromosome pairing during meiosis. Molecular Genet Genomics, 271,121-129Shi X, Sun X, Zhang Z, Feng D, Zhang Q, Han L, Wu J, LuT. 2015. GLUCAN SYNTHASE-LIKE 5 (GSL5) playsan essential role in male fertility by regulating callosemetabolism during microsporogenesis in rice. Plant andCell Physiology, 56, 497-509Shull G H. 1908. The composition of a field of maize. Journalof Heredity, 4, 296-301Silva Dias J C. 2010. Impact of improved vegetable cultivarsin overcoming food insecurity. Euphytica, 176, 125-136Sparks D L. 2009. Advances in agronomy preface. Advancesin Agronomy, 103, 47-61Wang K J, Tang D, Wang M, Lu J F, Yu H X, Liu J F, Qian B X,Gong Z Y, Wang X, Chen J M, Gu M H, Cheng Z K. 2009.MER3 is required for normal meiotic crossover formation,but not for presynaptic alignment in rice. Journal of CellScience, 122, 2055-2063Wang K, Wu Y F, Zhang W L, Dawe R K, Jiang J M. 2014. Maizecentromeres expand and adopt a uniform size in the geneticbackground of oat. Genome Research, 24, 107-116Warmke H E, Overman M A. 1972. Cytoplasmic male sterilityinsorghum. I. Callose behavior in fertile and sterile anthers.Journal of Heredity, 63, 103-108Weider C, Stamp P, Christov N, Husken A, Foueillassar X,Camp K H, Munsch M. 2009. Stability of cytoplasmic malesterility in maize under different environmental conditions.Crop Science, 49, 77-84Whitford R, Fleury D, Reif J C, Garcia M, Okada T, Korzun V,Langridge P. 2013. Hybrid breeding in wheat: Technologiesto improve hybrid wheat seed production. Journal ofExperimental Botany, 64, 5411-5428Worrall D, Hird D L, Hodge R, Paul W, Draper J, Scott R.1992. Premature dissolution of the microsporocyte callosewall causes male sterility in transgenic tobacco. The PlantCell, 4, 759-771Zhang C H, Guinel F C, Moffatt B A. 2002. A comparativeultrastructural study of pollen development in Arabidopsisthaliana ecotype Columbia and male-sterile mutant apt1-3.Protoplasma, 219, 59-71Zhang L, Tang D, Luo Q, Chen X J, Wang H J, Li Y F, ChengZ K. 2014. Crossover formation during rice meiosis eelieson interaction of OsMSH4 and OsMSH5. Genetics, 198,1447-1459Zhang L R, Tao J Y, Wang S X, Chong K, Wang T. 2006. Therice OsRad21-4, an orthologue of yeast Rec8 protein, isrequired for efficient meiosis. Plant Molecular Biology, 60,533-554Zhou A, Pawlowski W P. 2014. Regulation of meiotic geneexpression in plants. Frontiers in Plant Science, 5, 413. |