作物学报
作物學報
작물학보
ACTA AGRONOMICA SINICA
2007年
11期
1755-1762
,共8页
汪保华%武耀廷%黄乃泰%郭旺珍%朱协飞%张天真
汪保華%武耀廷%黃迺泰%郭旺珍%硃協飛%張天真
왕보화%무요정%황내태%곽왕진%주협비%장천진
陆地棉%上位性%数量性状基因位点%优良家系
陸地棉%上位性%數量性狀基因位點%優良傢繫
륙지면%상위성%수량성상기인위점%우량가계
Gossypium hirsutum L.%Epistasis%QTL%Superior lines
棉花的产量及产量构成因子性状是以复杂的方式遗传,遗传力较低并易受环境条件影响.经典数量遗传学指出,上位性是复杂性状的遗传基础.本研究以湘杂棉2号F8和F9世代重组自交系为材料,调查了3个环境下的产量及产量构成因子性状,并构建了遗传连锁图.旨在定位产量及产量构成因子性状的上位性QTL并分析QTL与环境的互作效应.所有产量及产量构成因子性状均检测到上位性QTL,共检测到16对加性互作QTL(AA),涉及的位点中仅4个有单位点效应,这反映了上位性的复杂性及其对产量和产量构成因子性状的重要贡献.共检测到17对QTL加性和环境互作(AE),以及14对上位性QTL与环境的互作,表明环境因素对产量和产量构成因子性状起重要影响作用.研究结果还表明上位性效应作为湘杂棉2号的遗传基础起着重要作用.对各性状在不同环境的优良基因型进行了预测.综合优良家系(GSL)和特定环境下的优良家系(SL)的性状表现高于两亲本,表明湘杂棉2号重组自交系各性状都有提高的潜力.由于QTL加性和环境互作以及上位性QTL与环境互作的影响,预测的优良家系基因型会随着环境的改变而不同,表明应针对特定环境开展棉花育种.
棉花的產量及產量構成因子性狀是以複雜的方式遺傳,遺傳力較低併易受環境條件影響.經典數量遺傳學指齣,上位性是複雜性狀的遺傳基礎.本研究以湘雜棉2號F8和F9世代重組自交繫為材料,調查瞭3箇環境下的產量及產量構成因子性狀,併構建瞭遺傳連鎖圖.旨在定位產量及產量構成因子性狀的上位性QTL併分析QTL與環境的互作效應.所有產量及產量構成因子性狀均檢測到上位性QTL,共檢測到16對加性互作QTL(AA),涉及的位點中僅4箇有單位點效應,這反映瞭上位性的複雜性及其對產量和產量構成因子性狀的重要貢獻.共檢測到17對QTL加性和環境互作(AE),以及14對上位性QTL與環境的互作,錶明環境因素對產量和產量構成因子性狀起重要影響作用.研究結果還錶明上位性效應作為湘雜棉2號的遺傳基礎起著重要作用.對各性狀在不同環境的優良基因型進行瞭預測.綜閤優良傢繫(GSL)和特定環境下的優良傢繫(SL)的性狀錶現高于兩親本,錶明湘雜棉2號重組自交繫各性狀都有提高的潛力.由于QTL加性和環境互作以及上位性QTL與環境互作的影響,預測的優良傢繫基因型會隨著環境的改變而不同,錶明應針對特定環境開展棉花育種.
면화적산량급산량구성인자성상시이복잡적방식유전,유전력교저병역수배경조건영향.경전수량유전학지출,상위성시복잡성상적유전기출.본연구이상잡면2호F8화F9세대중조자교계위재료,조사료3개배경하적산량급산량구성인자성상,병구건료유전련쇄도.지재정위산량급산량구성인자성상적상위성QTL병분석QTL여배경적호작효응.소유산량급산량구성인자성상균검측도상위성QTL,공검측도16대가성호작QTL(AA),섭급적위점중부4개유단위점효응,저반영료상위성적복잡성급기대산량화산량구성인자성상적중요공헌.공검측도17대QTL가성화배경호작(AE),이급14대상위성QTL여배경적호작,표명배경인소대산량화산량구성인자성상기중요영향작용.연구결과환표명상위성효응작위상잡면2호적유전기출기착중요작용.대각성상재불동배경적우량기인형진행료예측.종합우량가계(GSL)화특정배경하적우량가계(SL)적성상표현고우량친본,표명상잡면2호중조자교계각성상도유제고적잠력.유우QTL가성화배경호작이급상위성QTL여배경호작적영향,예측적우량가계기인형회수착배경적개변이불동,표명응침대특정배경개전면화육충.
Yield and yield component traits of cotton are inherited quantitatively with low heretibility and tend to vary with environmental variation. Classical quantitative genetics has indicated that epistasis is the foundation of such complex traits. In this study, a genetic linkage map was constructed using the recombinant inbred line (RIL) populations developed from an elite upland cotton hybrid Xiangzamian 2 (XZM2). Yield and yield component traits were investigated in F8 and F9 generations of RILs in three environments in China. The purpose of the study was to map epistatic QTL and analyze QTL by environment interactions in yield and yield components of cotton. Epistatic QTL were detected for all yield and yield component traits. Altogether 16 pairs of QTL interactions (AA) were identified. However, only 4 of the loci involved had single-locus effects, indicating the complexity of epistasis and their important contributions to yield and yield component traits. Altogether 17 pairs of QTL by environments interactions (AE) and 14 pairs of epistasis by environment (AAE) interactions were detected, indicating that environment influenced yield and yield componment traits greatly. The results suggest that epistatic effects might be importantly involved in the genetic basis of heterosis in the cotton hybrid of XZM2. Superior genotypes under different environments were predicted for all traits, indicating that there existed potential of increasing yield and yield components from XZM2-derived RILs. Due to influence of AE and AAE, the predicted SLs in different environments might be different. In cotton breeding, it is a practical strategy to perform breeding program according to special environment.
