小麦第5染色体组中基因富集区域的鉴定与高密度图谱绘制。

Identification and high-density mapping of gene-rich regions in chromosome group 5 of wheat.

作者信息

Gill K S, Gill B S, Endo T R, Boyko E V

机构信息

Wheat Genetics Resource Center, Kansas State University, Manhattan 66506, USA.

出版信息

Genetics. 1996 Jun;143(2):1001-12. doi: 10.1093/genetics/143.2.1001.

DOI:10.1093/genetics/143.2.1001

PMID:8725245

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1207318/

Abstract

The distribution of genes and recombination in the wheat genome was studied by comparing physical maps with the genetic linkage maps. The physical maps were generated by mapping 80 DNA and two phenotypic markers on an array of 65 deletion lines for homoeologous group 5 chromosomes. The genetic maps were constructed for chromosome 5B in wheat and 5D in Triticum tauschii. No marker mapped in the proximal 20% chromosome region surrounding the centromere. More than 60% of the long arm markers were present in three major clusters that physically encompassed < 18% of the arm. Because 48% of the markers were cDNA clones and the distributions of the cDNA and genomic clones were similar, the marker distribution may represent the distribution of genes. The gene clusters were identified and allocated to very small chromosome regions because of a higher number of deletions in their surrounding regions. The recombination was suppressed in the centromeric regions and mainly occurred in the gene-rich regions. The bp/cM estimates varied from 118 kb for gene-rich regions to 22 Mb for gene-poor regions. The wheat genes present in these clusters are, therefore, amenable to molecular manipulations parallel to the plants with smaller genomes like rice.

摘要

通过比较物理图谱和遗传连锁图谱，研究了小麦基因组中基因的分布和重组情况。物理图谱是通过将80个DNA和两个表型标记定位在65个5号同源群染色体缺失系阵列上生成的。构建了小麦5B染色体和节节麦5D染色体的遗传图谱。在围绕着丝粒的近端20%染色体区域未定位到任何标记。超过60%的长臂标记存在于三个主要簇中，这些簇在物理上覆盖的臂长小于18%。由于48%的标记是cDNA克隆，且cDNA克隆和基因组克隆的分布相似，因此标记分布可能代表基因分布。由于基因簇周围区域的缺失数量较多，所以对基因簇进行了鉴定并将其定位到非常小的染色体区域。着丝粒区域的重组受到抑制，主要发生在基因丰富的区域。每厘摩碱基对（bp/cM）估计值从基因丰富区域的118 kb到基因贫乏区域的22 Mb不等。因此，这些簇中存在的小麦基因适合于进行与水稻等基因组较小的植物类似的分子操作。

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Genetics. 1984 Feb;106(2):325-33. doi: 10.1093/genetics/106.2.325.

The distribution of genes on chromosomes: a cytological approach.

J Mol Evol. 1993 Aug;37(2):117-22. doi: 10.1007/BF02407346.

Grasses as a single genetic system: genome composition, collinearity and compatibility.作为单一遗传系统的禾本科植物：基因组组成、共线性与兼容性

Trends Genet. 1993 Aug;9(8):259-61. doi: 10.1016/0168-9525(93)90001-x.

Fine physical mapping of Ph1, a chromosome pairing regulator gene in polyploid wheat.多倍体小麦中染色体配对调控基因Ph1的精细物理图谱构建

Genetics. 1993 Aug;134(4):1231-6. doi: 10.1093/genetics/134.4.1231.

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