Nuclear genome differentiation in Asian cultivated rice as revealed by RFLP analysis

Takashige Ishi, D. Brar, G. Sécond, K. Tsunewaki, G. Khush
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引用次数: 12

Abstract

RFLP analysis was carried out to clarify the nuclear genome differentiation in Asian rice varieties of Oryza sativa. Based on the restriction fragment patterns with two endonucleases, EcoRI and HindIII, using 12 single-copy rice DNA probes, 93 types of nuclear genome were found among 112 local varieties from 17 Asian countries. In a dendrogram showing genetic relationships among nuclear genome types, they were mainly divided into eight groups, A, B1, B2, C1, C2, D1, D2 and E. These results were compared with previous isozyme analysis and RFLP analysis on chloroplast genome using the same varieties. Classification on isozyme analysis matches well with that on nuclear genome, indicating synchronous differentiation of isozyme constitutions and nuclear genomes in Asian varieties. Considering the correspondence between them, nuclear genomes were grouped into Indica (A, B1 and B2), intermediate (C1, C2 and D1) and Japonica (D2 and E) types. From the comparison of chloroplast with nucleus for genome differentiation, two major chloroplast genomes (types 1 and 3) were found in the varieties with several nuclear genome types. However, Japonica group with D2 and E nuclear genomes has only type 1 chloroplast genome, whereas Indica and intermediate groups contain both two major chloroplast genomes. Especially, type 3 chloroplast genome which was not found in Japonica group is dominant type in Indica varieties. The results indicate the differentiation of nuclear genome has partially synchronized with that of chloroplast genome.
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亚洲栽培水稻核基因组分化的RFLP分析
对亚洲水稻品种Oryza sativa的核基因组分化进行了RFLP分析。基于EcoRI和HindIII两种内切酶的限制性内切片段模式,利用12个单拷贝水稻DNA探针,在17个亚洲国家的112个地方品种中发现了93种核基因组。在核基因组型间亲缘关系的树状图中,主要分为a、B1、B2、C1、C2、D1、D2和e 8个类群,并与已有的同工酶分析和RFLP分析结果进行了比较。同工酶分析分类与核基因组分类吻合较好,表明亚洲品种同工酶组成和核基因组同步分化。考虑到它们之间的对应关系,将核基因组分为籼型(A、B1和B2)、中间型(C1、C2和D1)和粳稻型(D2和E)。从叶绿体与细胞核基因组分化的比较来看,具有多种核基因组类型的品种主要有两种叶绿体基因组(1型和3型)。然而,具有D2和E核基因组的粳稻类群只有1型叶绿体基因组,而籼稻和中间类群同时包含两种主要的叶绿体基因组。特别是在粳稻类群中未发现的3型叶绿体基因组是籼稻品种的优势类型。结果表明,核基因组的分化与叶绿体基因组的分化部分同步。
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