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Stamen specification and anther development in rice 被引量:46

Stamen specification and anther development in rice
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摘要 Male reproductive development is a complex biological process which includes the formation of the stamen with differentiated anther tissues, in which microspores/pollens are generated, then anther dehiscence and subsequently pollination. Stamen specification and anther development involve a number of extraordinary events such as meristem transition, cell division and differentiation, cell to cell communication, etc., which need the cooperative interaction of sporophytic and gametophytic genes. The advent of various tools for rice functional gene identification, such as complete genome sequence, genome-wide microarrays, collections of mutants, has greatly facilitated our understanding of mechanisms of rice stamen specification and anther development. Male sterile lines are critical for hybrid rice breeding, therefore understanding these processes will not only contribute greatly to the basic knowledge of crop developmental biology, but also to the development of new varieties for hybrid rice breeding in the future. Male reproductive development is a complex biological process which includes the formation of the stamen with differentiated anther tissues, in which microspores/pollens are generated, then anther dehiscence and subsequently pollination. Stamen specification and anther development involve a number of extraordinary events such as meristem transition, cell division and differentiation, cell to cell communication, etc., which need the cooperative interaction of sporophytic and gametophytic genes. The advent of various tools for rice functional gene identification, such as complete genome sequence, genome-wide microarrays, collections of mutants, has greatly facilitated our understanding of mechanisms of rice stamen specification and anther development. Male sterile lines are critical for hybrid rice breeding, therefore understanding these processes will not only contribute greatly to the basic knowledge of crop developmental biology, but also to the development of new varieties for hybrid rice breeding in the future.
作者 ZHANG DaBing WILSON Zoe A
机构地区 Key Laboratory for the Genetics of Developmental and Neuropsychiatric Disorders of Ministry of Education Plant Sciences Division
出处 《Chinese Science Bulletin》 SCIE EI CAS 2009年第14期2342-2353,共12页
基金 Supported by the National Key Basic Research Development Program of China (Grant Nos. 2007CB108700, 2009CB941500) National Natural Science Foundation of China (Grant No. 30725022) Shanghai Leading Academic Discipline Project (Grant No. B205)
关键词 水稻育种 花药 雄蕊 组织分化 细胞分裂 基因鉴定 细胞间通讯 基因组序列 rice, stamen specification, anther development, mechanism
分类号 S511 [农业科学—作物学] S682.12 [农业科学—观赏园艺]
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参考文献20

  • 1Zhi-Xiong Chen,Jian-Guo Wu,Wo-Na Ding,Han-Ming Chen,Ping Wu,Chun-Hai Shi.Morphogenesis and molecular basis on naked seed rice, a novel homeotic mutation of OsMADS1 regulating transcript level of AP3 homologue in rice[J].Planta.2006(5)
  • 2Liangran Zhang,Jiayi Tao,Shunxin Wang,Kang Chong,Tai Wang.The Rice OsRad21-4, an Orthologue of Yeast Rec8 Protein, is Required for Efficient Meiosis[J].Plant Molecular Biology.2006(4)
  • 3Ganesh Kumar Agrawal,Kiyomi Abe,Muneo Yamazaki,Akio Miyao,Hirohiko Hirochika.Conservation of the E-function for Floral Organ Identity in Rice Revealed by the Analysis of Tissue Culture-induced Loss-of-Function Mutants of the OsMADS1 Gene[J].Plant Molecular Biology.2005(1)
  • 4Zhen Wang,Yu Liang,Chijun Li,Yunyuan Xu,Lefu Lan,Dazhong Zhao,Changbin Chen,Zhihong Xu,Yongbiao Xue,Kang Chong.Microarray Analysis of Gene Expression Involved in Anther Development in rice (Oryza sativa L.)[J].Plant Molecular Biology.2005(5)
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  • 8Nilla Pelucchi,Fabio Fornara,Cristina Favalli,Simona Masiero,Clara Lago,Enrico M. Pè,Lucia Colombo,Martin M. Kater.Comparative analysis of rice MADS-box genes expressed during flower development[J].Sexual Plant Reproduction.2002(3)
  • 9Kalika Prasad,P. Sriram,Santhosh C. Kumar,Kumuda Kushalappa,Usha Vijayraghavan.Ectopic expression of rice OsMADS1 reveals a role in specifying the lemma and palea, grass floral organs analogous to sepals[J].Development Genes and Evolution.2001(6)
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同被引文献265

引证文献46

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Chinese Science Bulletin
2009年 第14期

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