Developmental Genetic Analysis of Seed Size in Soybean (Glycine max)

LI Wen-Xia , NING Hai-Long , LI Wen-Bin , LÜ Wen-He
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引用次数: 7

Abstract

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.

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大豆(Glycine max)种子大小发育遗传分析
种子大小是影响大豆产量的重要因素之一[甘氨酸max (L.)]美林)收益。关于种子大小的遗传效应和生理生态学研究已有大量报道,但对种子发育过程中基因的遗传行为却鲜有讨论。采用种子遗传模型,利用双列杂交资料对大豆鲜粒和干粒的主要遗传效应进行了分析。利用无条件方差和条件方差及相关分析对大豆的发育行为进行了评价。大豆3代8期FSS和DSS表型均值分别在9/6和9/13达到最高值。FSS均值在9/6之后急剧下降,而DSS均值在相应时期保持相对稳定的趋势。无条件方差分析表明,在整个生育期,FSS和DSS均受胚效应、细胞质效应和母体效应控制。在大多数生育期,由细胞质效应和母体效应引起的遗传效应对FSS和DSS相对重要。条件方差分析表明,来自不同遗传系统的基因在整个生育期表现为不连续表达。在大部分生育期,细胞质和母株对FSS和DSS的净遗传效应大于胚效应。不同的遗传系统可以影响各阶段的关系单独或同时成熟。8/16期的胚胎加性效应、8/9和8/16期的胚胎显性效应、8/2和8/16期的母株显性效应最终影响成熟期FSS的生产性能。8/2和9/13阶段的胚胎加性效应、8/9阶段的细胞质效应、8/2阶段的母系显性效应最终影响DSS的性能。
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