谷物基因组合成图谱的构建研究。1 .利用水稻基因组克隆研究谷物基因组的分子特征

Y. Ogihara, K. Isono, A. Saito
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引用次数: 3

摘要

将75个水稻基因组克隆与水稻、玉米、大麦、黑麦、玉米小麦、二粒小麦和两种普通小麦8个谷物基因组进行杂交,以表征谷物基因组特征。这些克隆中有75%(56个克隆)的序列在8个谷类dna中普遍检测到,表明谷类基因组中含有与探测dna同源的序列。16%(12个克隆)仅在水稻DNA中显示出阳性信号,包含水稻特异性序列。只有9个克隆(12%)在小麦dna中给出离散带,表明它们可能是构建小麦RFLP图谱的候选探针。大约三分之一的克隆(26/75)在谷物的绿叶中转录。虽然这些基因组克隆最初被选为低拷贝克隆,但其中四分之一(18个克隆)在水稻基因组中繁殖,但不重复,因此被定义为多拷贝克隆。其余76%的克隆被归类为单拷贝。在谷物基因组中,多拷贝克隆周围的基因组区域比单拷贝区域具有更保守的保留倾向,并且表现出更频繁的转录活性。在水稻RFLP图谱上追踪了这些特征克隆的分布。虽然水稻特有的序列分散在整个染色体中,但在谷物基因组中通常检测到的序列倾向于集群发生。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Toward construction of synteny maps among cereal genomes. I. Molecular characterization of cereal genomes as probed by rice genomic clones
Seventy five rice genomic clones were hybridized to eight cereal genomes, i.e., rice, maize, barley, rye, Einkorn wheat, Emmer Wheat, and two common wheats to characterize the genome features of cereals. The sequence of 75% (56 clones) of these clones were commonly detected in the eight cereal DNAs, indicating that the cereal genomes contain those sequences homologous to probe DNAs. Sixteen percent (12 clones) revealed positive signals only in the rice DNA, harboring rice-specific sequences. Only 9 clones (12%) gave discrete bands in wheat DNAs, showing them to be possible candidates for probes for construction of a wheat RFLP map. Approximately, one-third of the clones (26/75) were transcribed in the green leaves of cereals. Although these genomic clones were originally selected as low-copy clones, a quarter of them (18 clones) were multiplied in the rice geome, but not repetitively, and were thus defined as multiplecopy clones. The remaining 76% of clones were classified as single-copy ones. The genome regions around multiple-copy clones had tendency to be more conservatively retained among the cereal genomes, and showed more frequent transcription activity than single-copy regions. The distributions of these characterized clones were traced in the rice RFLP map. While rice-specific sequences were dispersed throughout the chromosomes, those commonly detected among the cereal genomes had a tendency to occur in clusters.
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