Doebley J, Stec A
Department of Plant Biology, University of Minnesota, St. Paul 55108.
Genetics. 1991 Sep;129(1):285-95. doi: 10.1093/genetics/129.1.285.
Molecular marker loci were used to investigate the inheritance of morphological traits that distinguish maize (Zea mays ssp. mays) from a closely related wild relative, teosinte (Z. mays ssp. mexicana). Regression and interval mapping analyses gave largely congruent results concerning the numbers of loci controlling the morphological traits and the magnitudes of their effects; however, interval mapping tended to give larger estimates for the magnitudes of the effects of the morphological trait loci. This tendency was exaggerated for traits that were non-normally distributed. Variation for most inflorescence traits is controlled by one or two regions of the genome with large effects plus several other regions with relatively small effects. As such, the data are congruent with a mode of inheritance for most traits involving one or two major loci plus several minor loci. Regions of the genome with large effects on one trait consistently had smaller effects on several other traits, possibly as a result of pleiotropy. Most of the variation for the dramatic differences in inflorescence morphology between maize and teosinte is explained by five restricted regions of the genome. One of these regions encompasses a previously described gene, tb1 (teosinte branched), and the effects of this region on inflorescence architecture are similar to the known effects of tb1. Implications of this work for the genetic basis of morphological evolution in plants are discussed.
利用分子标记位点研究区分玉米(Zea mays ssp. mays)与其近缘野生种大刍草(Z. mays ssp. mexicana)的形态性状的遗传。回归分析和区间作图分析在控制形态性状的位点数量及其效应大小方面得出了基本一致的结果;然而,区间作图往往会对形态性状位点的效应大小给出更大的估计值。对于非正态分布的性状,这种趋势更为明显。大多数花序性状的变异受基因组中一两个具有较大效应的区域以及其他几个具有相对较小效应的区域控制。因此,这些数据与大多数性状由一两个主基因座加几个次基因座控制的遗传模式一致。对某一性状有较大影响的基因组区域对其他几个性状的影响始终较小,这可能是基因多效性的结果。玉米和大刍草在花序形态上的显著差异的大部分变异可由基因组的五个受限区域来解释。其中一个区域包含一个先前描述的基因tb1(大刍草分枝),该区域对花序结构的影响与已知的tb1效应相似。本文讨论了这项工作对植物形态进化遗传基础的意义。