Laboratoire d'Amélioration des Plantes, Université Paris-Sud, F-91405, Orsay, France.
Theor Appl Genet. 1984 Jul;68(4):317-21. doi: 10.1007/BF00267884.
Modification to the cross-over (C. O.) rate of tomato (Lycopersicon esculentum) was attempted by using in vitro plant regeneration. F1 hybrids with the same genetical homozygous background were compared at two loci: "bs-ms32" on chromosome I, and "aa-d" on chromosome II. For each, the genetic distance separating the two markers was about 20 to 30 map units. One cotyledon of each F2 hybrid seedling was used as in vitro tissue culture material, while the rest of the plantlet was grown as a control. Recombination rates of the selfed progenies from each regenerated and matched control couple were compared. For the first set of markers 59,000 seeds were analysed (5 controls' and 7 regenerated progenies), and for the second, 11,000 (5 controls' and 8 regenerated progenies). There were significant increases in the genetic distance between markers in about half the regenerated individuals. For the first set the increases ranged from 6.07 to 6.91 units out of a control distance of the 19.84 to 25.65, corresponding to lengthenings of 30.59 to 35.29%. For the second set they ranged from 4.92 to 6.04 out of a control distance of 25.05 to 26.57, representing increases of 19.64 to 22.75%. Such a phenomenon can be important either from a fundamental or practical viewpoint, regarding selection efficiency in plants, and potential for gene reassortment.
试图通过体外植物再生来改变番茄(Lycopersicon esculentum)的交叉(C.O.)率。在两个基因座上比较了具有相同遗传纯合背景的 F1 杂种:I 号染色体上的“bs-ms32”和 II 号染色体上的“aa-d”。每个标记之间的遗传距离约为 20 到 30 个图谱单位。每个 F2 杂种幼苗的一片子叶被用作体外组织培养材料,而其余的幼苗作为对照生长。比较了每个再生和匹配对照个体的自交后代的重组率。对于第一组标记,分析了 59000 颗种子(5 个对照和 7 个再生后代),对于第二组标记,分析了 11000 颗种子(5 个对照和 8 个再生后代)。在大约一半的再生个体中,标记之间的遗传距离显著增加。对于第一组,增加的范围从 6.07 到 6.91 个单位,对照距离为 19.84 到 25.65,相应的增加长度为 30.59 到 35.29%。对于第二组,增加的范围从 4.92 到 6.04 个单位,对照距离为 25.05 到 26.57,代表增加了 19.64 到 22.75%。这种现象无论是从基础还是实际的角度来看,对于植物的选择效率和基因重排的潜力都很重要。
