Institute of Plant Science, Agricultural Research Organization, The Volcani Center, 50250 Bet Dagan, Israel.
Theor Appl Genet. 2011 Aug;123(4):657-65. doi: 10.1007/s00122-011-1615-7. Epub 2011 May 21.
We previously identified fs10.1 as a major QTL controlling fruit shape (index of length to width) in an interspecific F(2) cross of Capsicum annuum (round fruit) × C. chinense (elongated fruit) in pepper. To more precisely map and characterize the QTL, we constructed near-isogenic lines for fs10.1 and mapped it in a BC(4)F(2) population. In this population, fs10.1 segregated as a Mendelian locus and mapped 0.3 cM away from the closest molecular marker. We further verified the effect of fs10.1 in an F(2) population from an independent cross between elongated- and conical-fruited parents. To identify additional allelic variation at fruit shape loci, we screened an EMS-mutagenized population of the blocky-fruited cv. Maor and identified the mutant E-1654 with elongated fruit. This fruit shape mutation was mapped to the fs10.1 region and was determined to be allelic to the QTL. By measuring fruit shape of near-isogenic lines for fs10.1 during fruit development, we found that the shape of the fruit is determined primarily in the first 2 weeks after anthesis. Histological measurements of cell size and cell shape in pericarp sections of fruits of the isogenic lines throughout fruit development indicated that the shape of the fruit is determined primarily by cell shape and that the development of fruit shape is correlated with cell shape.
我们之前在辣椒(圆形果实)与辣椒(长形果实)的种间 F2 杂交群体中鉴定到 fs10.1 是控制果实形状(长度与宽度之比)的一个主要 QTL。为了更精确地定位和描述这个 QTL,我们构建了 fs10.1 的近等基因系,并在 BC(4)F(2) 群体中进行了定位。在这个群体中,fs10.1 作为一个孟德尔基因座分离,并被定位在离最近的分子标记 0.3 cM 处。我们还在另一个长形和圆锥形果实亲本杂交的 F2 群体中验证了 fs10.1 的效应。为了在果实形状基因座中鉴定更多的等位基因变异,我们筛选了一个块状果实的 cv. Maor 的 EMS 诱变群体,并鉴定出了具有长形果实的突变体 E-1654。这个果实形状突变被定位到 fs10.1 区域,并且被确定为与这个 QTL 等位。通过在果实发育过程中测量 fs10.1 的近等基因系的果实形状,我们发现果实的形状主要在授粉后 2 周内决定。通过对整个果实发育过程中近等基因系果皮切片的细胞大小和形状的组织学测量表明,果实的形状主要由细胞形状决定,并且果实形状的发育与细胞形状相关。
