武汉植物学研究
武漢植物學研究
무한식물학연구
JOURNAL OF WUHAN BOTANICAL RESEARCH
2009年
5期
467-472
,共6页
李绍波%杨国华%章志宏%李绍清%李阳生%朱英国
李紹波%楊國華%章誌宏%李紹清%李暘生%硃英國
리소파%양국화%장지굉%리소청%리양생%주영국
水稻%穗部性状%数量性状基因座%直播%重组自交系
水稻%穗部性狀%數量性狀基因座%直播%重組自交繫
수도%수부성상%수량성상기인좌%직파%중조자교계
Rice (Oryza sativa L.)%Panicle traits%Quantitative trait locus%Direct-sowing%Recombinant inbred line (RIL)
在大田直播条件下,利用来源于"Lemont/特青"的重组自交系群体,对水稻6个穗部性状及其相互间遗传相关的分子基础进行了QTL分析,共检测到19个QTL,各性状QTL数为2~4个,单个QTL贡献率为4%~22%.共检测到3个染色体区段能同时影响多个穗部性状,其中第1染色体RM212-RM104和第2染色体RM263-RM221区段的QTL能同时影响单株产量、每穗颖花数、着粒密度和二次枝梗数中的3个或4个性状,且这2个区段的QTL对各性状的效应方向相同,增效等位基因均来自‘特青',为各性状间表型正相关提供了重要的遗传解释.第11染色体RG1022附近的QTL对着粒密度的效应值为负,来自‘特青'的等位基因增加性状值,而对穗长的效应值为正,来自‘特青'的等位基因降低性状值,为这2个性状间表型负相关也提供了一定的遗传解释.此外,对水稻穗部性状QTL在多种环境和遗传背景下的稳定表达及其在分子标记辅助育种中的应用进行了讨论.
在大田直播條件下,利用來源于"Lemont/特青"的重組自交繫群體,對水稻6箇穗部性狀及其相互間遺傳相關的分子基礎進行瞭QTL分析,共檢測到19箇QTL,各性狀QTL數為2~4箇,單箇QTL貢獻率為4%~22%.共檢測到3箇染色體區段能同時影響多箇穗部性狀,其中第1染色體RM212-RM104和第2染色體RM263-RM221區段的QTL能同時影響單株產量、每穗穎花數、著粒密度和二次枝梗數中的3箇或4箇性狀,且這2箇區段的QTL對各性狀的效應方嚮相同,增效等位基因均來自‘特青',為各性狀間錶型正相關提供瞭重要的遺傳解釋.第11染色體RG1022附近的QTL對著粒密度的效應值為負,來自‘特青'的等位基因增加性狀值,而對穗長的效應值為正,來自‘特青'的等位基因降低性狀值,為這2箇性狀間錶型負相關也提供瞭一定的遺傳解釋.此外,對水稻穗部性狀QTL在多種環境和遺傳揹景下的穩定錶達及其在分子標記輔助育種中的應用進行瞭討論.
재대전직파조건하,이용래원우"Lemont/특청"적중조자교계군체,대수도6개수부성상급기상호간유전상관적분자기출진행료QTL분석,공검측도19개QTL,각성상QTL수위2~4개,단개QTL공헌솔위4%~22%.공검측도3개염색체구단능동시영향다개수부성상,기중제1염색체RM212-RM104화제2염색체RM263-RM221구단적QTL능동시영향단주산량、매수영화수、착립밀도화이차지경수중적3개혹4개성상,차저2개구단적QTL대각성상적효응방향상동,증효등위기인균래자‘특청',위각성상간표형정상관제공료중요적유전해석.제11염색체RG1022부근적QTL대착립밀도적효응치위부,래자‘특청'적등위기인증가성상치,이대수장적효응치위정,래자‘특청'적등위기인강저성상치,위저2개성상간표형부상관야제공료일정적유전해석.차외,대수도수부성상QTL재다충배경화유전배경하적은정표체급기재분자표기보조육충중적응용진행료토론.
To characterize the genetic basis of 6 rice panicle traits as well as their relationships with each other,mapping of quantitative trait locus (QTL) was conducted with a RIL (recombinant inbred line) population derived from a cross between 'Lemont'(japonica var.) and 'Teqing' (indica var.) under a direct-sowing field experiment.A total of 19 QTL were identified,numbers of QTL for each trait varied from 2 to 4,and variations explained by each QTL ranged from 4% to 22%.Three chromosome regions were found to have pleiotropic or linked effects on multiple traits.The two regions RM212-RM104 on chromosome 1 and RM263-RM221 on chromosome 2 showed multiple effects on 3 or 4 traits of grain yield per plant,number of spikelets per panicle,panicle setting density and number of secondary rachis branches in the same direction,and the Teqing genotype increased all the trait values at the two regions,providing a genetic explanation for the positive correlations among the four traits.The other region near RG1022 on chromosome 11 showed multiple effects on panicle setting density and panicle length in the opposite directions,and at this region the 'Teqing' genotype increased the trait value of panicle setting density but decreased the trait value of panicle length,also providing a genetic explanation for the negative correlation between these two traits.In addition,the QTL identified in the present study and previous studies with different mapping populations under vary environments were compared and the application of some stably expressing QTL for high yield breeding programs in rice were discussed.