OALib Journal期刊
ISSN: 2333-9721
费用：99美元

投递稿件

查看量	下载量

相关文章
更多...

核农学报 -1

水稻光叶性状及表皮毛发育研究进展

DOI: 10.11869/j.issn.100-8551.2015.11.2110, PP. 2110-2116

柳蕾,孙健,吴殿星,舒小丽

Keywords: 水稻,光叶,表皮毛,育种

Full-Text Cite this paper Add to My Lib

Abstract:

光叶水稻是一种重要的种质资源,其株型相对较矮,具有抗倒伏、耐高温、叶片和颖壳缺少表皮毛等特点,可减少表皮毛在水稻收割晾晒及加工过程中对农事人员皮肤的刺激。此外,与有毛稻谷相比光叶稻谷可提高单位容积的仓储量,提高运输效率。本文在对光叶水稻表皮毛发育过程进行简单阐述的基础上,对控制水稻表皮毛性状的相关基因及光身稻育种进展进行了综述,旨在为进一步克隆光叶性状相关基因及研究其对表皮毛发育的调控创造条件。

References

[1]	Oppenheimer D G, Herman P L, Sivakumaran S, Esch J, Marks M D. A myb gene required for leaf trichome differentiation in Arabidopsis is expressed in stipules[J]. Cell, 1991, 67(3): 483-493
[2]	Walker A R, Davison P A, Bolognesi-Winfield A C, James C M, Srinivasan N, Blundell T L, Esch J J, David Marks M, Gray J C. The TRANSPARENT TESTA GLABRA1 locus, which regulates trichome differentiation and anthocyanin biosynthesis in Arabidopsis, encodes a WD40 repeat protein[J]. Plant Cell, 1999, 11(7): 1337-1349
[3]	Rerie W G, Feldmann K A, Marks M D. The glabra 2 gene encodes a homeo domain protein required for normal trichome development in Arabidopsis[J]. Genes and Development, 1994, 8(12): 1388-1399
[4]	Ohashi Y, Oka A, Rodrigues-Pousada R, Possenti M, Ruberti I, Morelli G, Aoyama T. Modulation of phospholipid signaling by GLABRA2 in root-hair pattern formation[J]. Science, 2003,300(5624): 1427-1430
[5]	Schnittger A, Jürgens G, Hülskamp M. Tissue layer and organ specificity of trichome formation are regulated by GLABRA1 and TRIPTYCHON in Arabidopsis[J]. Development,1998, 125(12): 2283-2289
[6]	Folkers U, Berger J, Hülskamp M. Cell morphogenesis of trichomes in Arabidopsis:differential control of primary and secondary branching by branch initiation regulators and cell growth [J]. Development, 1997, 124(19):3779-3786
[7]	Schnittger A, Weinl C, Bouyer D, Sch？binger U, Hülskamp M. Misexpression of the cyclin-dependent kinase inhibitor ICK1/KRP1IN single-celled Arabidopsistrichomes reduces endore-duplication and cell size and induces cell death[J]. The Plant Cell, 2003, 15(2): 303-315
[8]	Esch J J, Chen M, Sanders M, Hillestad M, Ndkium S, Idelkope B, Neizer J, Marks M D. A contradictory GLABRA3 allele helps define gene interactions controlling trichome development in Arabidopsis[J]. Development, 2003, 130(24): 5885-5894
[9]	Walker J D, Oppenheimer D G, Concienne J, Larkin J C. SIAMESE, a gene controlling the endoreduplication cell cycle in Arabidopsis thaliana trichomes[J]. Development, 2000, 127(18):3931-3940
[10]	Grebe M. The patterning of epidermal hairs in Arabidopsis-updated[J]. Current Opinion in Plant Biology, 2011, 15(1): 1-7
[11]	Downes B P, Stupar R M, Gingerich D J, Vierstra R D. The HECT ubiquitin-protein ligase (UPL) family in Arabidopsis: UPL3 has a specific role in trichomedevelopment[J]. Plant Journal, 2003, 35(6): 729-742
[12]	Refy A E, Perazza D, Zekraoui L, Valay J G, Bechtold N, Brown S, Hülskamp M, Herzog M, Bonneville J M. The Arabidopsis KAKTUS gene encodes a HECT protein and controls the number of endoreduplicationcycles[J]. Molecular Genetics and Genomics, 2004, 270(5): 403-414
[13]	Sugimoto-Shirasu K, Stacey N J, Corsar J, Roberts K, McCann M C. DNA topoisomerase VI is essential for endoreduplication in Arabidopsis[J]. Current Biology, 2002, 12(20): 1782-1786
[14]	An L J, Zhou Z J, Su S, Yan A, Gan Y B.GLABROUS INFLORESCENCE STEMS (GIS)is required for trichome branching through gibberellic acid signaling in Arabidopsis[J]. Plant Cell Physiology, 2012, 53(2): 457-469
[15]	Jacobsen S E, Binkowski K A, Olszewski N E. SPINDLY, a tetratricopeptide repeat protein involved in gibberellin signal transduction Arabidopsis[J]. Plant Biology, 1996, 93(17): 9292-9296
[16]	Telfer A, Bollman K M, Roethig R S. Phase change and the regulation of trichome distribution in Arabidopsis thaliana[J]. Development, 1997, 124(3): 645-654
[17]	Chien J C, Sussex I M. Differential regulation of trichome formation on the adaxial and abaxial leaf surfaces by gibberellins and photoperiod in Arabidopsis thaliana(L.) Heynh[J]. Plant Physiology, 1996, 111(4): 1321-1328
[18]	Kirik V, Bouyer D, Sch？binger U, Bechtold N, Herzog M, Bonneville J M, Hülskamp M. CPR5 is involved in cell proliferation and cell death control and encodes a novel transmembrane protein[J]. Current Biology, 2001, 11(23):1891-1895
[19]	Veylder L D, Beeckman T, Beemster G T S, Krols L, Terras F, Landrieu I,Schueren E V D, Maes S, Naudts M, Inzéa D. Functional analysis of cyclin-dependent kinase inhibitors of Arabidopsis[J]. The Plant Cell, 2001, 13(7):1653-1667
[20]	Jasinski S, Riou-Khamlichi C, Roche O, Perennes C, Bergounioux C, Glab N. The CDK inhibitor NtKIS1a is involved in plant development, endoreduplication and restores normal development of cyclin D3;1-overexpressing plants[J]. Journal of Cell Science, 2002, 115(5): 973-982
[21]	Zeng Y H, Zhu Y S, Lian L, Xie H G, Zhang J F, Xie H A. Genetic analysis and fine mapping of the pubescence gene GL6 in rice (Oryza sativa L.)[J]. Chinese Science Bulletin, 2013, 58(24): 2992-2999
[22]	洪隽, 王启钊, 富昊伟, 吴殿星, 舒庆尧. 水稻光叶形状基因gl1的精细定位与候选基因分析[J]. 核农学报, 2011, 25(6): 1088-1093
[23]	王启钊, 赵海军, 李文旭, 刘国振, 舒庆尧. 水稻LOC_Os05g02754基因的分子表征[J]. 核农学报, 2013, 27(3): 301-306
[24]	Zhang H L, Wu K, Wang Y F, Peng Y, Hu F Y, Wen L,Han B, Qian Q, Teng S. A WUSCHEL-like homeobox gene, OsWOX3B responses to NUDA/GL-1 locus in rice[J]. Rice, 2012, 5(28): 30-42
[25]	Li J J, Yuan Y D, Lu Z F, Yang L S, Gao R C, Lu J G, Li J Y, Xiong G S. Glabrous Rice 1, encoding a homeodomain protein, regulates trichome development in rice[J]. Rice, 2012, 5(32): 32-42
[26]	Gan Y B, Liu C, Yu H, Broun P. Integration of cytokinin and gibberellin signalling by Arabidopsis transcription factors GIS, ZFP8 and GIS2 in the regulation of epidermal cell fate[J]. Development, 2007, 134(11): 2073-2081
[27]	Zhou Z J, An L J, Sun L L, Gan Y B. ZFP5 encodes a functionally equivalent GIS protein to control trichomeinitiation[J]. Plant Signaling & Behavior, 2012, 7(1): 28-30
[28]	Nagao S, Takahashi M. Trial construction of twelve linkage groups in Japanese rice: Genetical studies on rice plant, XXVII[J]. Journal of the Faculty of Agriculture, 1963, 53: 72-130
[29]	宋幼良, 钱国壬, 周幸愿, 郦永堂. 水稻育种的现状与方向[J]. 中国种业, 2013, (1): 10-11
[30]	刘文炳, 张建新, 罗维禄, 林琼, 池晓雯, 蔡为铭. 光身稻杂交稻选育研究进展[J]. 杂交水稻, 2005, 20(1): 6-10
[31]	刘文炳, 郑旋, 张建新, 蔡为铭. 野败型"三系"光身杂交稻选育初报[J]. 中国稻米, 2003, 9(4): 16-18
[32]	欧阳爱辉, 易俊章, 傅建忠. 光叶型优质水稻不育系光叶A的选育[J]. 杂交水稻, 2006, 21(3): 13-14
[33]	黄显波, 邓则勤, 郑家团, 林成豹, 林美娟. 光身糯稻两系不育系明糯S1选育研究[J]. 福建稻麦科技, 2006, 24(1): 1-2
[34]	高荣村, 陆金根, 李鹏, 李金军. 光身软香米新品种嘉58特征特性及栽培技术[J]. 中国稻米, 2014, 20(2): 74-75
[35]	赵成章, 杨长登, 吴连斌, 戚秀芳, 黄发松, 胡培松, 罗矩. 光身稻的培养特性研究[J]. 作物学报, 1999, 25(1): 82-85
[36]	程侃声, 周季维, 卢义宣, 罗军, 黄迺威, 刘光荣, 王象坤. 云南稻种资源的综合研究与利用Ⅱ. 亚洲栽培稻分类的再认识[J]. 作物学报, 1984, 10(4): 271-280
[37]	Hülskamp M. Plant trichomes: A model for cell differentiation[J]. Nature Reviews Molecular Cell Biology, 2004, 5(6): 471-480
[38]	Szymanski D B, Lloyd A M, Marks M D. Progress in the molecular genetic analysis of trichome initiation and morphogenesis in Arabidopsis[J]. Trends in Plant Science, 2000, 5(5): 214-219
[39]	Serna L, Martin C. Trichomes: different regulatory networks lead to convergent structures[J]. Trends in Plant Science, 2006, 11(6): 274-280
[40]	Angeles-Shim R B, Asano K, Takashi T, Shim J, Kuroha T, Ayano M, Ashikari M. A WUSCHEL-related homeobox 3B gene, depilous(dep), confers glabrousness of rice leaves and glumes[J]. Rice, 2012, 5(28): 28-30
[41]	Hu B L, Wan Y, Li X, Zhang F T, Yan W G, Xie J K. Phenotypic characterization and genetic analysis of rice with pubescent leaves and glabrous hulls (PLgh)[J]. Crop Science, 2013, 53(5):1878-1886
[42]	Wang Y P, Chen W L, Qin P, Huang Y Y, Ma B T, Ouyang X H, Chen X W, Li A G. Characterization and fine mapping of GLABROUS RICE 2 in rice[J]. Journal of Genetics and Genomics, 2013, 40(11): 579-582
[43]	Li W, Wu J, Weng S, Zhang D, Zhang Y, Shi C. Characterization and fine mapping of the glabrous leaf and hull mutants (gl1) in rice (Oryza sativa L.)[J]. Plant Cell Reports, 2010, 29(6): 617-627
[44]	Rutger J N, Mackill D J. Application of mendelian genetics in rice breeding[M]. In: Khush G S, Brar D S, Hardy B. New Hampshire: Science Publishers, 2001:27-38
[45]	Lim H H, Domala Z, Joginder S, Lee S H, Lim C S, Abubakar C M. Rice millers' syndrome: a preliminary report[J]. British Journal of Industrial Medicine, 1984, 41(4): 445-449
[46]	郭龙彪, 罗利军, 钟代彬, 余新桥, 梅捍卫, 王一平, 应存山. 美国光壳稻品种农艺性状评价及其改良和利用[J]. 浙江农业科学, 1999, 1(5): 201-206
[47]	胡培松, 唐绍清, 罗炬, 黄发松. 美国光身稻品种的利用与超高产品种的选育[J]. 作物学报, 1999,25(1):32-38
[48]	Moose S P, Lauter N, Carlson S R. The maize macrohairless1 locus specifically promotes leaf blade macrohair initiation and responds to factors regulating leaf identity[J]. Genetics, 2004,166(3):1451-1461
[49]	Dobrovolskaya O, Pshenichnikova T A, Arbuzova V S, Lohwasser U, R？der M S, B？rner A. Molecular mapping of genes determining hairy leaf character in common wheat with respect to other species of the Triticeae[J]. Euphytica, 2007, 155(3): 285-293
[50]	Sato K, Takeda K. Genetic analysis of large trichomes on the barley leaf blade[J]. Barley Genetics Newsletter, 1992, 22(1): 50-52
[51]	杨双娟, 苗晗, 张圣平, 程周超, 周健, 董邵云, Wehner T C, 顾兴芳. 黄瓜无毛基因gl-2的遗传分析和定位[J]. 园艺学报, 2011, 38(9): 1685-1692
[52]	Hunt M, Kaur N, Stromvik M, Vodkin L. Transcript profiling reveals expression differences in wild-type and glabrous soybean lines[J]. BMC Plant Biology, 2011, 11(1): 145-159
[53]	Nawab N N, Khan I A, Khan A A, AmjadM.Characterization and inheritance of cotton leaf pubescence[J]. Paksatian Journal of Botany, 2011, 43(1): 649-658
[54]	Payne C T, Zhang F, Lloyd A M. GL3 encodes a bHLH protein that regulates trichome development in Arabidopsis through interaction with GL1 and TTG1[J]. Genetics, 2000, 156(3):1349-1362
[55]	Larkin J C, Oppenheimer D G, Pollock S, Marks M D. Arabidopsis glabrous1 gene requires downstream sequences for function[J]. Plant Cell, 1993,5(12):1739-1748
[56]	张建新, 黄建鸿, 陈建明, 胡昌泉, 程天杰. 光身稻光温敏核不育系光153S的选育[J]. 杂交水稻, 2006, 21(6): 11-13

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133