作物学报
作物學報
작물학보
ACTA AGRONOMICA SINICA
2013年
2期
216-221
,共6页
阳小凤%杨永庆%郑桂杰%智海剑*%李小红
暘小鳳%楊永慶%鄭桂傑%智海劍*%李小紅
양소봉%양영경%정계걸%지해검*%리소홍
大豆%大豆花叶病毒%抗性遗传%等位性%SSR标记
大豆%大豆花葉病毒%抗性遺傳%等位性%SSR標記
대두%대두화협병독%항성유전%등위성%SSR표기
Soybean%Soybean mosaic virus%Inheritance% Allelism, SSR marker
针对我国北方和长江流域大豆产区广泛分布的SMV株系SC6和SC17,利用2个抗病大豆品种Q0926和中豆35分别与感病品种南农1138-2和南农菜豆5号配制2个抗感杂交组合Q0926×南农1138-2和中豆35×南农菜豆5号以及一个抗抗组合Q0926×中豆35,研究3个组合的F1、F2、F2:3抗性遗传规律,探讨Q0926对SC6和中豆35对SC17及2个抗病品种对同一SMV株系抗性基因的等位关系,并对大豆对2个株系的抗病基因进行了标记定位.结果显示, Q0926×南农1138-2和中豆35×南农菜豆5号2个抗感杂交组合在分别接种SC6和SC17后, F1表现抗病, F2呈3抗∶1感分离比例, F2:3家系呈1抗∶2分离∶1感病的分离比率,表明Q0926对SC6和中豆35对SC17的抗病性分别由1对显性基因控制;抗抗组合Q0926×中豆35的F1和F2在接种2个株系后均未发现感病单株,表明Q0926与中豆35对 SC6和 SC17株系的抗病基因分别是等位或紧密连锁的.分别利用2个抗感组合的 F2和 F2:3群体对2个抗病基因的定位结果显示,第2染色体上的25个SSR标记与抗 SC6的基因RSC6连锁,最近的2个标记与抗性基因RSC6的排列次序和遗传距离为BARCSOYSSR_02_0617(0.775 cM)-RSC6-BARCSOYSSR_02_0621(0.519 cM);第2染色体上的38个SSR标记与抗SC17的基因RSC17连锁.最近的2个标记与抗性基因RSC17的排列次序和遗传距离为BARCSOYSSR_02_0622(0.264 cM)-RSC17-BARCSOYSSR_02_0627(0.262 cM),其对应的物理区间分别为52 kb和60 kb.抗性遗传研究为抗大豆花叶病毒育种的亲本选配、后代选择提供了理论指导,抗性基因的标记定位研究为抗性基因的分子标记辅助选择和抗病基因的图位克隆奠定了基础.
針對我國北方和長江流域大豆產區廣汎分佈的SMV株繫SC6和SC17,利用2箇抗病大豆品種Q0926和中豆35分彆與感病品種南農1138-2和南農菜豆5號配製2箇抗感雜交組閤Q0926×南農1138-2和中豆35×南農菜豆5號以及一箇抗抗組閤Q0926×中豆35,研究3箇組閤的F1、F2、F2:3抗性遺傳規律,探討Q0926對SC6和中豆35對SC17及2箇抗病品種對同一SMV株繫抗性基因的等位關繫,併對大豆對2箇株繫的抗病基因進行瞭標記定位.結果顯示, Q0926×南農1138-2和中豆35×南農菜豆5號2箇抗感雜交組閤在分彆接種SC6和SC17後, F1錶現抗病, F2呈3抗∶1感分離比例, F2:3傢繫呈1抗∶2分離∶1感病的分離比率,錶明Q0926對SC6和中豆35對SC17的抗病性分彆由1對顯性基因控製;抗抗組閤Q0926×中豆35的F1和F2在接種2箇株繫後均未髮現感病單株,錶明Q0926與中豆35對 SC6和 SC17株繫的抗病基因分彆是等位或緊密連鎖的.分彆利用2箇抗感組閤的 F2和 F2:3群體對2箇抗病基因的定位結果顯示,第2染色體上的25箇SSR標記與抗 SC6的基因RSC6連鎖,最近的2箇標記與抗性基因RSC6的排列次序和遺傳距離為BARCSOYSSR_02_0617(0.775 cM)-RSC6-BARCSOYSSR_02_0621(0.519 cM);第2染色體上的38箇SSR標記與抗SC17的基因RSC17連鎖.最近的2箇標記與抗性基因RSC17的排列次序和遺傳距離為BARCSOYSSR_02_0622(0.264 cM)-RSC17-BARCSOYSSR_02_0627(0.262 cM),其對應的物理區間分彆為52 kb和60 kb.抗性遺傳研究為抗大豆花葉病毒育種的親本選配、後代選擇提供瞭理論指導,抗性基因的標記定位研究為抗性基因的分子標記輔助選擇和抗病基因的圖位剋隆奠定瞭基礎.
침대아국북방화장강류역대두산구엄범분포적SMV주계SC6화SC17,이용2개항병대두품충Q0926화중두35분별여감병품충남농1138-2화남농채두5호배제2개항감잡교조합Q0926×남농1138-2화중두35×남농채두5호이급일개항항조합Q0926×중두35,연구3개조합적F1、F2、F2:3항성유전규률,탐토Q0926대SC6화중두35대SC17급2개항병품충대동일SMV주계항성기인적등위관계,병대대두대2개주계적항병기인진행료표기정위.결과현시, Q0926×남농1138-2화중두35×남농채두5호2개항감잡교조합재분별접충SC6화SC17후, F1표현항병, F2정3항∶1감분리비례, F2:3가계정1항∶2분리∶1감병적분리비솔,표명Q0926대SC6화중두35대SC17적항병성분별유1대현성기인공제;항항조합Q0926×중두35적F1화F2재접충2개주계후균미발현감병단주,표명Q0926여중두35대 SC6화 SC17주계적항병기인분별시등위혹긴밀련쇄적.분별이용2개항감조합적 F2화 F2:3군체대2개항병기인적정위결과현시,제2염색체상적25개SSR표기여항 SC6적기인RSC6련쇄,최근적2개표기여항성기인RSC6적배렬차서화유전거리위BARCSOYSSR_02_0617(0.775 cM)-RSC6-BARCSOYSSR_02_0621(0.519 cM);제2염색체상적38개SSR표기여항SC17적기인RSC17련쇄.최근적2개표기여항성기인RSC17적배렬차서화유전거리위BARCSOYSSR_02_0622(0.264 cM)-RSC17-BARCSOYSSR_02_0627(0.262 cM),기대응적물리구간분별위52 kb화60 kb.항성유전연구위항대두화협병독육충적친본선배、후대선택제공료이론지도,항성기인적표기정위연구위항성기인적분자표기보조선택화항병기인적도위극륭전정료기출.
SMV strains SC6 and SC17 were prevalent in the North China and the Yangtze Valleys soybean production regions. Two soybean cultivars Q0926 and Zhongdou 35, which were resistant to SC6 and SC17, were respectively crossed with Nannong 1138-2 and Nannongcaidou 5, which were susceptible to SC6 and SC17, to determine inheritance of resistance to SC6 or SC17. Q0926 was also crossed with Zhongdou 35 to study allelic relationships of the resistance genes from the two soybean cultivars. On the basis of the results, the resistance genes to SC6 and SC17 were fine mapped. The results showed that the F1 plants pre-sented complete resistance, F2 population were segregated with a ratio of 3R:1S, F2:3 population were segregated with a ratio of 1R:2Seg:1S in resistant (R)×susceptible (S) crosses. These results indicated that the resistances of Q0926 and Zhongdou 35 to SC6 and SC17 were controlled by a single dominant gene respectively. The F1 plants displayed complete resistance, and F2 popu-lations of the crosses Q0926×Zhongdou 35 were not segregated, indicating that the resistance genes to SC6 and SC17 were alleles
