遗传学报
遺傳學報
유전학보
ACTA GENETICA SINICA
2006年
8期
746-756
,共11页
李文霞%宁海龙%李文滨%吕文河
李文霞%寧海龍%李文濱%呂文河
리문하%저해룡%리문빈%려문하
发育%遗传效应%鲜籽粒大小%干籽粒大小%大豆
髮育%遺傳效應%鮮籽粒大小%榦籽粒大小%大豆
발육%유전효응%선자립대소%간자립대소%대두
developmental behavior%genetic effect%fresh seed size%dry seed size%soybean
籽粒大小是大豆产量的一个重要因素.有关大豆籽粒的遗传学和生理生态学研究已有一些研究,而对于籽粒发育过程中的遗传效应却报道很少.文章采用种子广义遗传模型,分析了大豆双列杂交组合3个世代遗传材料8个时期的鲜籽粒大小和干籽粒大小的数据,应用非条件和条件遗传方差及相关方法分析了发育遗传规律.8个时期的亲本、F1、F2的鲜籽粒大小和干籽粒大小的平均数分别在9/6和9/13达到最高值,鲜籽粒大小在9/6后迅速下降,干籽粒大小在9/13后区于稳定.非条件方差分析表明在整个生育期中,胚遗传效应、细胞质遗传效应和母体植株遗传效应对大豆鲜籽粒大小和干籽粒大小有影响.在多数生育阶段中,细胞质和母体植株的遗传效应对鲜籽粒大小和干籽粒大小影响较大.条件方差分析表明,在大豆生育期中,各遗传体系的基因间断性表达.在多数生育阶段中,细胞质和母体植株的净遗传效应高于胚净遗传效应.不同时期的各遗传体系的基因效应可以单独或同时影响鲜籽粒大小和干籽粒大小的最终表现.8/16的胚加性效应、8/9和8/16的胚显性效应、8/2和8/16的母体植株显性效应影响到鲜籽粒大小的最终表现.8/2和9/13的胚加性效应、8/9的细胞质效应、8/2的母体植株显性效应对干籽粒大小的最终表现有影响.
籽粒大小是大豆產量的一箇重要因素.有關大豆籽粒的遺傳學和生理生態學研究已有一些研究,而對于籽粒髮育過程中的遺傳效應卻報道很少.文章採用種子廣義遺傳模型,分析瞭大豆雙列雜交組閤3箇世代遺傳材料8箇時期的鮮籽粒大小和榦籽粒大小的數據,應用非條件和條件遺傳方差及相關方法分析瞭髮育遺傳規律.8箇時期的親本、F1、F2的鮮籽粒大小和榦籽粒大小的平均數分彆在9/6和9/13達到最高值,鮮籽粒大小在9/6後迅速下降,榦籽粒大小在9/13後區于穩定.非條件方差分析錶明在整箇生育期中,胚遺傳效應、細胞質遺傳效應和母體植株遺傳效應對大豆鮮籽粒大小和榦籽粒大小有影響.在多數生育階段中,細胞質和母體植株的遺傳效應對鮮籽粒大小和榦籽粒大小影響較大.條件方差分析錶明,在大豆生育期中,各遺傳體繫的基因間斷性錶達.在多數生育階段中,細胞質和母體植株的淨遺傳效應高于胚淨遺傳效應.不同時期的各遺傳體繫的基因效應可以單獨或同時影響鮮籽粒大小和榦籽粒大小的最終錶現.8/16的胚加性效應、8/9和8/16的胚顯性效應、8/2和8/16的母體植株顯性效應影響到鮮籽粒大小的最終錶現.8/2和9/13的胚加性效應、8/9的細胞質效應、8/2的母體植株顯性效應對榦籽粒大小的最終錶現有影響.
자립대소시대두산량적일개중요인소.유관대두자립적유전학화생리생태학연구이유일사연구,이대우자립발육과정중적유전효응각보도흔소.문장채용충자엄의유전모형,분석료대두쌍렬잡교조합3개세대유전재료8개시기적선자립대소화간자립대소적수거,응용비조건화조건유전방차급상관방법분석료발육유전규률.8개시기적친본、F1、F2적선자립대소화간자립대소적평균수분별재9/6화9/13체도최고치,선자립대소재9/6후신속하강,간자립대소재9/13후구우은정.비조건방차분석표명재정개생육기중,배유전효응、세포질유전효응화모체식주유전효응대대두선자립대소화간자립대소유영향.재다수생육계단중,세포질화모체식주적유전효응대선자립대소화간자립대소영향교대.조건방차분석표명,재대두생육기중,각유전체계적기인간단성표체.재다수생육계단중,세포질화모체식주적정유전효응고우배정유전효응.불동시기적각유전체계적기인효응가이단독혹동시영향선자립대소화간자립대소적최종표현.8/16적배가성효응、8/9화8/16적배현성효응、8/2화8/16적모체식주현성효응영향도선자립대소적최종표현.8/2화9/13적배가성효응、8/9적세포질효응、8/2적모체식주현성효응대간자립대소적최종표현유영향.
Seed size is one of the important factors of soybean [Glycine max (L.) Merrill] yield. There have been lots of reports about genetic effects and physiology-ecological researches on seed size, but the genetic behaviors of genes during seeds development were rarely discussed. Analysis of main genetic effects for fresh seed size (FSS) and dry seed size (DSS) of soybean was conducted with diallel cross data by using a seed genetic model. Analyses of unconditional and conditional variances and correlations were used to evaluate the developmental behavior of soybean. The phenotypic means of FSS and DSS in soybean at eight stages among three generations reached the highest value at 9/6 and 9/13, respectively. The means of FSS decreased dramatically after 9/6, but the means of DSS maintained relatively stable tendency at corresponding periods. The unconditional variance analysis showed that FSS and DSS were controlled by embryo, cytoplasmic and maternal effects in the whole growth period. Genetic effects due to cytoplasmic and maternal effects were relatively important for FSS and DSS at most of the growth periods. Conditional variance analysis showed that genes from different genetic system expressed discontinuously in the whole growth period. The net genetic effects due to cytoplasmic and maternal plant on FSS and DSS were larger than those of embryo effects at most of the growth periods. Different genetic system can affect the relationship of various stages to mature solely or simultaneously. Embryo additive effects at 8/16, embryo dominance effects at 8/9 and 8/16, maternal plant dominance effects at 8/2 and 8/16 could ultimately affect the performance of FSS at maturing stage. Embryo additive effects at 8/2 and 9/13, cytoplasm effects at 8/9, maternal plant dominance effects at 8/2 could ultimately affect the performance of DSS.
