Control of meiotic crossing over in plant breeding.

IF 0.9 Q3 AGRICULTURE, MULTIDISCIPLINARY
S R Strelnikova, R A Komakhin
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引用次数: 0

Abstract

Meiotic crossing over is the main mechanism for constructing a new allelic composition of individual chromosomes and is necessary for the proper distribution of homologous chromosomes between gametes. The parameters of meiotic crossing over that have developed in the course of evolution are determined by natural selection and do not fully suit the tasks of selective breeding research. This review summarizes the results of experimental studies aimed at increasing the frequency of crossovers and redistributing their positions along chromosomes using genetic manipulations at different stages of meiotic recombination. The consequences of inactivation and/or overexpression of the SPO11 genes, the products of which generate meiotic double-strand breaks in DNA, for the redistribution of crossover positions in the genome of various organisms are discussed. The results of studies concerning the effect of inactivation or overexpression of genes encoding RecA-like recombinases on meiotic crossing over, including those in cultivated tomato (Solanum lycopersicum L.) and its interspecific hybrids, are summarized. The consequences of inactivation of key genes of the mismatch repair system are discussed. Their suppression made it possible to significantly increase the frequency of meiotic recombination between homeologues in the interspecific hybrid yeast Saccharomyces cerevisiae × S. paradoxus and between homologues in arabidopsis plants (Arabidopsis thaliana L.). Also discussed are attempts to extrapolate these results to other plant species, in which a decrease in reproductive properties and microsatellite instability in the genome have been noted. The most significant results on the meiotic recombination frequency increase upon inactivation of the FANCM, TOP3α, RECQ4, FIGL1 crossover repressor genes and upon overexpression of the HEI10 crossover enhancer gene are separately described. In some experiments, the increase of meiotic recombination frequency by almost an order of magnitude and partial redistribution of the crossover positions along chromosomes were achieved in arabidopsis while fully preserving fecundity. Similar results have been obtained for some crops.

植物育种中减数分裂杂交的控制。
减数分裂杂交是构建单个染色体新等位基因组成的主要机制,是配子间同源染色体合理分布的必要条件。在进化过程中形成的减数分裂杂交参数是由自然选择决定的,并不完全适合选择育种研究的任务。本文综述了在减数分裂重组的不同阶段利用遗传操作提高交叉频率并重新分配其沿染色体位置的实验研究结果。SPO11基因失活和/或过表达的后果,其产物在DNA中产生减数分裂双链断裂,在各种生物体的基因组交叉位置的重新分配进行了讨论。综述了reca样重组酶基因失活或过表达对栽培番茄及其种间杂种减数分裂杂交影响的研究结果。讨论了错配修复系统关键基因失活的后果。它们的抑制使得种间杂交酵母酿酒酵母(Saccharomyces cerevisiae × S. paradoxus)和拟南芥(arabidopsis thaliana L.)同源物之间减数分裂重组的频率显著增加。还讨论了将这些结果外推到其他植物物种的尝试,其中已经注意到生殖特性的降低和基因组中的微卫星不稳定性。分别描述了FANCM、TOP3α、RECQ4、FIGL1交叉抑制基因失活和he10交叉增强基因过表达时减数分裂重组频率增加的最显著结果。在一些实验中,拟南芥减数分裂重组频率增加了近一个数量级,染色体交叉位置部分重新分布,同时完全保持了繁殖力。在一些作物上也得到了类似的结果。
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来源期刊
Vavilovskii Zhurnal Genetiki i Selektsii
Vavilovskii Zhurnal Genetiki i Selektsii AGRICULTURE, MULTIDISCIPLINARY-
CiteScore
1.90
自引率
0.00%
发文量
119
审稿时长
8 weeks
期刊介绍: The "Vavilov Journal of genetics and breeding" publishes original research and review articles in all key areas of modern plant, animal and human genetics, genomics, bioinformatics and biotechnology. One of the main objectives of the journal is integration of theoretical and applied research in the field of genetics. Special attention is paid to the most topical areas in modern genetics dealing with global concerns such as food security and human health.
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