黑麦草和高羊茅的物理图谱和遗传图谱构建

Physical and genetic mapping in the grasses Lolium perenne and Festuca pratensis.

作者信息

King J, Armstead I P, Donnison I S, Thomas H M, Jones R N, Kearsey M J, Roberts L A, Thomas A, Morgan W G, King I P

机构信息

Institute of Biological Sciences, University of Wales, Aberystwyth, SY23 3DA, Wales, United Kingdom.

出版信息

Genetics. 2002 May;161(1):315-24. doi: 10.1093/genetics/161.1.315.

DOI:10.1093/genetics/161.1.315

PMID:12019245

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1462087/

Abstract

A single chromosome of the grass species Festuca pratensis has been introgressed into Lolium perenne to produce a diploid monosomic substitution line 2n = 2x = 14. In this line recombination occurs throughout the length of the F. pratensis/L. perenne bivalent. The F. pratensis chromosome and recombinants between it and its L. perenne homeologue can be visualized using genomic in situ hybridization (GISH). GISH junctions represent the physical locations of sites of recombination, enabling a range of recombinant chromosomes to be used for physical mapping of the introgressed F. pratensis chromosome. The physical map, in conjunction with a genetic map composed of 104 F. pratensis-specific amplified fragment length polymorphisms (AFLPs), demonstrated: (1) the first large-scale analysis of the physical distribution of AFLPs; (2) variation in the relationship between genetic and physical distance from one part of the F. pratensis chromosome to another (e.g., variation was observed between and within chromosome arms); (3) that nucleolar organizer regions (NORs) and centromeres greatly reduce recombination; (4) that coding sequences are present close to the centromere and NORs in areas of low recombination in plant species with large genomes; and (5) apparent complete synteny between the F. pratensis chromosome and rice chromosome 1.

摘要

草地羊茅的一条染色体已渗入多年生黑麦草中，产生了一个二倍体单体代换系，2n = 2x = 14。在这个代换系中，重组发生在草地羊茅/多年生黑麦草二价体的整个长度上。利用基因组原位杂交（GISH）可以观察到草地羊茅染色体及其与多年生黑麦草同源染色体之间的重组体。GISH连接点代表了重组位点的物理位置，使得一系列重组染色体可用于对渗入的草地羊茅染色体进行物理图谱绘制。该物理图谱与由104个草地羊茅特异性扩增片段长度多态性（AFLP）组成的遗传图谱相结合，证明了：（1）首次对AFLP的物理分布进行大规模分析；（2）从草地羊茅染色体的一部分到另一部分，遗传距离与物理距离之间的关系存在变化（例如，在染色体臂之间和臂内均观察到变化）；（3）核仁组织区（NOR）和着丝粒极大地减少了重组；（4）在基因组较大的植物物种中，编码序列存在于着丝粒和NOR附近重组率较低的区域；（5）草地羊茅染色体与水稻第1号染色体之间明显完全同源。

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