水稻广亲和性的遗传机制及其利用

朱义旺; 刘华清; 周淑芬; 林雅容; 孙庆山; 王锋

doi:10.19303/j.issn.1008-0384.2015.04.019

水稻广亲和性的遗传机制及其利用

doi: 10.19303/j.issn.1008-0384.2015.04.019

1. 福建师范大学生命科学学院，福建福州 350108;
2. 福建省农业科学院生物技术研究所/福建省农业遗传工程重点实验室，福建福州 350003;
3. 福建农林大学作物科学学院，福建福州 350002

基金项目:

福建省发改委项目(闽发改投资[2013]609号)

详细信息

中图分类号: S511
计量
- 文章访问数: 197
- HTML全文浏览量: 38
- PDF下载量: 2
- 被引次数: 0
出版历程
- 收稿日期: 2015-02-11
- 刊出日期: 2015-04-18

Genetic Mechanism and Utilization of Wide Compatibility in Rice(Oryza sativa L.)

1. College of Life Sciences,Fujian Normal University;
2. Fujian Key Laboratory of Genetic Engineering for Agriculture,Biotechnology Research Institute,Fujian Academy of Agricultural Sciences;
3. College of Crop Sciences,Fujian Agriculture and Forestry University

摘要

摘要: 水稻籼粳亚种间杂交具有强大的杂种优势,但杂种F1的育性问题严重阻碍其杂种优势的利用,水稻广亲和性被广泛认为是籼粳亚种间杂种优势利用的关键。本文重点概述了近年来水稻籼粳亚种间广亲和性的遗传学研究以及杂种不育基因的定位、克隆及其分子机制研究进展,并探讨了水稻亚种间杂种优势育种利用中存在的问题及解决思路。
- 水稻 /
- 广亲和性 /
- 遗传机制 /
- 杂种不育基因
Abstract: There is strong heterosis between indica and japonica subspecies of rice(Oryza sativa L.),but the utilization of the inter-subspecies heterosis is seriously restricted by sterility problem of hybrid F1 of indica and japonicarice.Application of rice wide-compatibility resources and genes is considered to be a key to overcome the hybrid sterility.In this paper,we summarized recent advances in genetics research of rice wide-compatibility,and the mapping,cloning and molecular mechanisms of the related genes in recent years,meanwhile the problems and solutions for the utilization of the inter-subspecies heterosis in rice breeding were also discussed.
- rice(Oryza sativa L.) /
- wide compatibility /
- genetics mechanisms /
- hybrid sterility genes

HTML全文

参考文献(61)

[1]	李和标,邹江石.水稻籼粳亚种间F1抽穗期超亲表现与遗传分析[J].江苏农业学报,1992,8(1):7-12.
[2]	顾兴友,顾铭洪.轮回422与籼稻杂交F1抽穗期超亲遗传分析[J].中国水稻科学,1995,9(1):21-26.
[3]	张慧廉,邓应德.亚种间杂种籽粒充实度研究[J].杂交水稻,1990,(2):29-31.
[4]	王建军,徐云碧,申宗坦.利用籼粳杂种一代若干问题的探讨[J].中国农业科学,1991,24(1):27-33.
[5]	杨守仁,赵纪书.籼粳稻杂交问题之研究[J].农业学报,1959,10(4):256-268.
[6]	IKEHASHI H,ARKI H.Varietal screening of competibility types revealed in fertility of distant crosses in rice[J].Japan J Breed,1984,34(3):301-313.
[7]	何光华,郑家奎,阴国大,等.水稻亚种间杂种配子育性的研究[J].中国水稻科学,1994,8(3):177-180.
[8]	易小平.水稻亚种间杂种F1亲和性研究进展[J].广西农业科学,2000,(1):1-5.
[9]	KITAMURA E.Genetic studies on sterility observed in hybrids between related varieties of cultivated rice[J].Bull Chgoku Agr Exp Stat,Series A,1962,(8):141-205.
[10]	IKEHASHI H,ARAK H.Genetics of Fi sterility in remote crosses of rice[M].In:Rice Genetics,IRRI(ed),1986,119-130.
[11]	CHEN J J,DING J H,OUYANG Y D,et al.A triallelic system of S5is a major regulator of the reproductive barrier and compatibility R of indica-japonica hybrids in rice[J].Proc Natl Acad Sci USA,2008,105(32):11436-11441.
[12]	LONG Y M,ZHAO L F,NIU B X,et al.Hybrid male sterility in rice controlled by interaction between divergent alleles of two adjacent genes[J].Proc Natl Acad Sci USA,2008,105(48):18871-18876.
[13]	RICK C M.Abortion of male and female gametes in the tomato determined by allelic interaction[J].Genetics,1966,53:85-96.
[14]	OKA H I.Genetic analysis for the sterility of hybrids between distantly related varieties of cultivated rice[J].J Genet,1957,55:397-409.
[15]	OKA H I.Analysis of genes controlling F,sterility in rice by the use of isogenic lines[J].Genetics,1974,77:521-534.
[16]	刘永胜,朱立煌,孙敬山,等.水稻籼粳杂交胚囊败育的遗传分析和基因定位[J].中国科学.1997,27(5):421-425.
[17]	张桂权,卢永根.栽培稻杂种不育性的遗传研究I.Fl不育系杂种不育性的双列分析[J],中国水稻科学,1989,3(3):97-101.
[18]	刘永胜,周开达,阴国大,等.水稻籼粳杂种不育性的多基因遗传不平衡[J].四川农业大学学报,1993,11(1):1-5.
[19]	SANO Y,SANO R.Variation of the intergenic spacer region of ribosomal DNA in cultivated and wild rice species[J].Genome,1990,33:209-219.
[20]	YOHEI K,MITSUNOBU I,NORIKO S,et al.The evolution of sex-independent transmission ratio distortion involving multiple allelic interactions at a single locus in rice[J].Genetics,2008,180:409-420.
[21]	WAN J M,YANAGIHARA S,KATO H,et al.Multiple alleles at a new locus causing hybrid sterility between a Korean indica variety and a japonica variety in rice[J].Japan J Breed,1993,43:507-516.
[22]	WAN J M,YAMAGUCHI Y,KATO H,et al.Two new loci for hybrid sterility in cultivated rice(Oryza sativa L.)[J].Theor Appl Genet,1996,92:183-190.
[23]	WAN J,IKEHASHI H,SAKAI M,et al.MBE T.Mapping of hybrid sterility gene S17of rice(Oryza sativa L.)by isoryme and RFLP markers[J].Rice Genet News,1998,(15):151-154.
[24]	DEVANAND P S,RANGASWAMY M,Ikehashi H.Identification of hybrid sterility gene loci in two cytoplasmic male sterile lines in rice[J].Crop Science,2000,40:640-646.
[25]	ZHU S S,JIANG L,WANG C M,et al.The origin of a weedy rice ludao in china deduced by agenome wide analysis of its hybrid sterility genes[J].Breeding Science,2005,55:409-414.
[26]	ZHAO Z G,JIANG L,ZHANG W W,et al.Fine mapping of S31,agene responsible for hybrid embryo-sacabortion in rice(Oryza sativa L.)[J].Planta,2007,226:1087-1096.
[27]	LI D T,CHEN L M,JIANG L,et al.Fine mapping of S32(t),a new gene causing hybrid embryo-sac sterility in a Chinese landrace rice(Oryza sativa L.)[J].TTieor Appl Genet,2007,114:515-524.
[28]	WANG J,LIU K D,XU C Q,et al.The high level of widecompatibility of variety“Dular”has a complex genetic basis[J].Theor Appl Genet,1998,97:407-412.
[29]	朱旭东,王建林,钱前,等.籼粳不育新座位的发现及其遗传分析[J].遗传学报,1998,25(3):245-251.
[30]	张桂权,卢永根.栽培稻杂种不育的遗传研究II.F1花粉不育性的基因模型[J].遗传学报,1993,20(3):222-228.
[31]	LIN SY,IKEHASHI H.A gamete abortion locus detected by segregation distortion of isozyme locus Est-9in wide crosses of rice(Oryza sativa L.)[J].Euphytica,1993,67:35-40.
[32]	TAGUCHI K,DOI K,YOSHIMURA.RFLP mapping of S19,agene for F1pollen semi-sterility found in backcross progeny of Oryza sativa and O.glaberrima[J].Rice Genetics News letter,1999,16:70-71.
[33]	MIYAZAKI Y,DOI K,YOSHIMURA A.Identification of a new allele of F1pollen sterility gene,S21,detected from the hybrid between Oryza sativa and O.rufipogon[J].Rice Genet Newsl,2007,23:36-38.
[34]	SOBDZAL,MATSUZAKI Y,SANCHEZP L,et al.Identification of a gene for male gamete abortion in back cross progeny of Oryza sativa and Oryza glumaepatula[J].Rice Genet Newsl,2000,17:59-6l.
[35]	KUBO T,YOSHIMURA A,KURATA N.Hybrid male sterility in rice is due to epistatic interactions with a pollen killer locus[J].Genetics,2011,189(3):1083-1092.
[36]	ZHAO Z G,ZHU S S,ZHANG Y H,et al.Molecular analysis of an additional case of hybrid sterility in rice(Oryza sativa L.)[J].Planta,2011,233:485-494.
[37]	JING W,LIU L L,JIANG L,et al.Mapping of S33(t)and S34(t)for Pollen Sterility in Hybrids between a Weedy Strain and a Japonica Variety in Rice[J].Rice Genetics Newsletters,2007,23:16-19.
[38]	WIN K T,KUBO T,MIYAZAKI Y,et al.Identification of two loci causing F1pollen sterility in inter and intraspecific crosses of rice[J].Breed Sci,2009,59(1):1-5.
[39]	SONG X,QIU S Q,XU C G,et al.Genetic dissection of embryo sac fertility,pollen fertility,and their contributions to spikelet fertility of intersubspecific hybrids in rice[J].Theor Appl Genet,2005,110:205-211.
[40]	LI W C,JIANG L,ZHOU S R,et al.Fine mapping of pssl,apollen semi-sterile gene in rice(Oryza sativa L.)[J].Theor Appl Genet,2007,114:939-946.
[41]	LIU K D,WANG J,LI H B,et al.A genome-wide analysis of wide compatibility in rice and the precise location of the SS locus in the molecular map[J].Theor Appl Genet,1997,95:809-814.
[42]	JI Q,LU J F,CHAO Q,et al.Delimiting a rice widecompatibility gene S5-n to a 50kb region[J].Theor Appl Genet,2005,111(8):1495-1503.
[43]	QIU S Q,LIU K D,JIANG J X,et al.Delimitation of the rice wide compatibility gene S5nto a 40-kb DNA fragment[J].Theor Appl Genet,2005:1080-1086.
[44]	YANG J Y,ZHAO X B,CHEN G K,et al.A KillerProtector System Regulates Both Hybrid Sterility and Segregation Distortion in Rice[J].Science,2012,337:1336-1340.
[45]	苏菁.栽培稻(Oryza sativa L.)亚种间F1花粉不育基因Sa的精细定位及克隆[J].分子植物育种,2003,1(5/6):757 -758.
[46]	KHIN THANDA WIN,OSHIYUKI YAMAGATA,YUTA MIYAZAKI,et al.Independent evolution of a new allele of F1pollen sterility gene S27encoding mitochondrial ribosomal protein L27in Oryza nivara[J].Theor Appl Genet,2011,122:385-394.
[47]	MIZUTAY,HARUSHIMA Y,KURATA N.Rice pollen hybrid incompatibility caused by recipr-ocal gene loss of duplicated genes[J].Proc Natl Acad Sci USA,2010,107(47):20417-20422.
[48]	顾铭洪.水稻广亲和基因的遗传及其利用[J].扬州大学学报,1988,9(2):19-26.
[49]	章善庆,谢小波.水稻广亲和恢复系的选育及其利用[J].杂交水稻,1995,(4):3-5.
[50]	颜应成,袁隆平.水稻广谱广亲和系零轮的选育与研究[J].杂交水稻,1997,12(1):7-10.
[51]	王宝和,白和盛,周长海.水稻广亲和广谱恢复系T136的选育及其利用[J].杂交水稻,1997,12(5):4-6.
[52]	任光俊,陆贤军,李青茂,等.水稻新广亲和恢复系成恢448的选育及利用[J].中国水稻科学,1999,13(2):120-122.
[53]	颜应成.广亲和光(温)敏核不育系Y867S选育初报[J].杂交水稻,1996,(2):37-37.
[54]	黄显波,张受刚,许旭明,等.利用广亲和基因选育低温钝感型两用核不育系[J].福建农业科技,1993,(1):8-9.
[55]	张集文,卢碧林.水稻两系法广亲和性不育系2018S的选育及对不育系选择的思考[J].湖北农业科学,1993,(1):3-7.
[56]	MADOKA AYANO,TAKAHIRO KANI,MIKIKO KOJIMA,et al.Gibberellin biosynthesis and signal transduction is essential for internode elongation in deepwater rice[J].CelL&Environment,2014,37(10):2313-2324.
[57]	SASAKI A,ASHIKARI M,UEGUCHI-TANAKA M,et al.A mutant gibberellin-synthesis gene in rice[J].Nature,2002,41:701-702.
[58]	ZHAO J F,TAO W,WANG M X,et al.DWARF3Participates in an SCF Complex and Associates with DWARF14to Suppress Rice Shoot Branching[J].Plant and Cell Physiology,2014,55(6):1096-1109.
[59]	TONG H N,XIAO Y H,LIU D P,et al.Brassinosteroid Regulates Cell Elongation by Modulating Gibberellin Metabolism in Rice[J].The Plant Cell,2014,26(11):4376-4393.
[60]	ASAMI OSUGI,HIRONORI ITOH,KYOKO IKEDAKAWAKATSU,et al.Molecular dissection of the roles of phytochrome in photoperiodic flowering in rice[J].Plant Physiology,2011,157(3):1128-1137.
[61]	XUE W Y,XING Y Z,WENG X Y,et al.Natural variation in Ghd7is an important regulator of heading date and yield potential in rice[J].Nature Genetics,2008,40(6):761-767.