Scientia Agricultura Sinica ›› 2014, Vol. 47 ›› Issue (14): 2881-2888.doi: 10.3864/j.issn.0578-1752.2014.14.018
• RESEARCH NOTES • Previous Articles Next Articles
ZHANG Li-Xia, LIU He-Qin, YU Xin, WANG Lin-You, FAN Hong-Huan, JIN Qing-Sheng, WANG Jian-Jun
[1]Xiang J J, Zhang G H, Qian Q, Xue H W. SEMI-ROLLED LEAF1 encodes a putative glycosylphosphatidylinositol-anchored protein and modulates rice leaf rolling by regulating the formation of bulliform cells. Plant Physiology, 2012, 159(4): 1488-1500. [2]Yan S, Yan C J, Zeng X H, Yang Y C, Fang Y W, Tian C Y, Sun Y W, Cheng Z K, Gu M H. Rolled leaf 9, encoding a GARP protein, regulates the leaf abaxial cell fate in rice. Plant Molecular Biology, 2008, 68: 239-250.[3]Zhang G H, Xu Q, Zhu X D, Qian Q, Xue H W. SHALLOT-LIKE1 is a KANADI transcription factor that modulates rice leaf rolling by regulating leaf abaxial cell development. The Plant Cell, 2009, 21(3): 719-735.[4]Li L, Shi Z Y, Li L, Shen G Z, Wang X Q, An L S, Zhang J L. Overexpression of ACL1 (abaxially curled leaf 1) increased bulliform cells and induced abaxial curling of leaf blades in rice. Molecular Plant, 2010, 3: 807-817.[5]Hibara K I, Obara M, Hayashida E, Abe M, Ishimaru T, Satoh H, Itoh J I, Nagato Y. The ADAXIALIZED LEAF1 gene functions in leaf and embryonic pattern formation in rice. Developmental Biology, 2009, 334: 345-354.[6]Shi Z Y, Wang J, Wan X S, Shen G Z, Wang X Q, Zhang J L. Over-expression of rice OsAGO7 gene induces upward curling of the leaf blade that enhanced erect-leaf habit. Planta, 2007, 226(1): 99-108.[7]Hu J, Zhu L, Zeng D L, Gao Z Y, Guo L B, Fang Y X, Zhang G H, Dong G J, Yan M X, Liu J, Qian Q. Identification and characterization of NARROW AND ROLLED LEAF 1, a novel gene regulating leaf morphology and plant architecture in rice. Plant Molecular Biology, 2010, 73(3): 283-292. [8]Fang L K, Zhao F M, Cong Y F, Sang X C, Du Q, Wang D Z, Li Y F, Ling Y H, Yang Z L, He G H. Rolling-leaf 14 is a 2OG-Fe (II) oxygenase family protein that modulates rice leaf rolling by affecting secondary cell wall formation in leaves. Plant Biotechnology Journal, 2012, 10(5): 524-532.[9]Zou L P, Sun X H, Zhang Z G, Liu P, Wu J X, Tian C J, Qiu J L, Lu T G. Leaf rolling controlled by the homeodomain leucine zipper class IV gene Roc5 in rice. Plant Physiology, 2011, 156: 1589-1602.[10]Fujino K, Matsuda Y, Ozawa K, Nishimura T, Koshiba T, Fraaije M W, Sekiguchi H. NARROW LEAF 7 controls leaf shape mediated by auxin in rice. Molecular Genetics and Genomics, 2008, 279: 499-507.[11]Woo Y M, Park H J, Su’udi M J, Yang J, Park J J, Back K, Park Y M, An G. Constitutively wilted 1, a member of the rice YUCCA gene family, is required for maintaining water homeostasis and an appropriate root to shoot ratio. Plant Molecular Biology, 2007, 65(1/2): 125-136.[12]Wu R H, Li B S, He S, Wabmann F, Yu C, Qin G J, Schreiber L, Qu L J, Gu H Y. CFL1, a WW domain protein, regulates cuticle development by modulating the function of HDG1, a class IV homeodomain transcription factor, in rice and Arabidopsis. The Plant Cell, 2011, 23: 3392-3411.[13]潘存红, 李磊, 陈宗祥, 薛芗, 张亚芳, 左示敏, 戴正元, 潘学彪, 马玉银. 一个水稻卷叶基因rl (t)的精细定位. 中国水稻科学, 2011, 25(5): 455-460.Pan C H, Li L, Chen Z X, Xue X, Zhang Y F, Zuo S M, Dai Z Y, Pan X B, Ma Y Y. Fine mapping of a rolled leaf gene rl(t) in rice. Chinese Journal of Rice Science, 2011, 25(5): 455-460. (in Chinese)[14]Murray M G, Thompson W F. Rapid isolation of high-molecular weight plant DNA. Nucleic Acids Research, 1980, 8: 4321-4325.[15]Michelmore R W, Paran I, Kesseli R V. Identification of markers linked to disease-resistance genes by bulked segregation analysis: A rapid method to detect markers in specific genomic regions by using segregation population. Proceedings of the National Academy of Sciences of the USA, 1991, 88(21): 9828-9832.[16]McCouch S R, Teytelman L, Xu Y B, Lobos K B, Clare K, Walton M, Fu B Y, Maghirang R, Li Z K, Xing Y Z, Zhang Q F, Kono I, Yano M, Fjellstrom R, DeClerck G, Schneider D, Cartinhour S, Ware D , Stein L. Development and mapping of 2240 new SSR markers for rice (Oryza sativa L. ). DNA Research, 2002, 9(6): 199-207.[17]Panaud O, Chen X, McCouch S R. Development of microsatellite markers and characterization of simple sequence length polymorphism(SSLP) in rice. Molecular and General Genetics, 1996, 252(5): 597-607.[18]Lander E S, Green P, Abrahamson J, Barlow A, Daly M J, Lincoln S E, Newberg L A. Mapmaker: An interactive computer package for constructing primary genetic linkage maps of experimental and natural populations. Genomics, 1987, 1(2): 174-181.[19]严长杰, 严松, 张正球, 梁国华, 陆驹飞, 顾铭洪. 一个新的水稻卷叶突变体rl9(t)的遗传分析和基因定位. 科学通报, 2005, 50(24) : 2757-2762.Yan C J, Yan S, Zhang Z Q, Liang G H, Lu J F, Gu M H. Genetic analysis and gene fine mapping for a rice novel mutant (rl9(t)) with rolling leaf character. Chinese Science Bulletin, 2006, 51(1): 63-69.[20]Koizumi K, Ookawa T, Satoh H, Hirasawa T. A wilty mutant of rice has impaired hydraulic conductance. 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