番茄中高度多态性 DNA 区域的鉴定。

Identification of highly polymorphic DNA regions in tomato.

机构信息

Centre for Plant Breeding and Reproduction Research (CPRO-DLO), P.O. Box 16, 6700 AA, Wageningen, The Netherlands.

出版信息

Theor Appl Genet. 1992 Nov;85(2-3):239-44. doi: 10.1007/BF00222865.

PMID:24197310

Abstract

This paper describes the use of oligonucleotide probes to reveal highly polymorphic DNA regions in pomato. With a (GATA)4 probe the level of polymorphism detected is high enough to identify all 15 tomato cultivars used in this study. Individual plants of one cultivar all showed the same cultivar-specific DNA-finger-print. In an F2-population of self-fertilized cv. Sonatine, GATA-containing loci segregated in a Mendelian (3∶1) fashion. Experiments with in-vitro propagated plant material showed that the DNA-fingerprints are not affected by tissue-culture procedures. This indicates that changes in the genetic integrity, which often accompany in-vitro propagation (somaclonal variation), are not extended to the DNA detected with the (GATA)4 probe. The relative high stability and the Mendelian segregation of (GATA)4-derived DNA-fingerprints make them ideally suited for identification of tomato cultivars.

摘要

本文描述了寡核苷酸探针在番茄中揭示高度多态性 DNA 区域的应用。使用（GATA）4 探针，可以检测到足够高的多态性水平，以识别本研究中使用的 15 个番茄品种。一个品种的个体植物都显示出相同的品种特异性 DNA 指纹。在自交 cv. Sonatine 的 F2 群体中，含 GATA 的基因座以孟德尔（3∶1）方式分离。用体外繁殖植物材料进行的实验表明，DNA 指纹不受组织培养过程的影响。这表明，与体外繁殖（体细胞变异）伴随的遗传完整性的变化不会扩展到与（GATA）4 探针检测到的 DNA。（GATA）4 衍生的 DNA 指纹的相对高稳定性和孟德尔分离使其非常适合番茄品种的鉴定。

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番茄中高度多态性 DNA 区域的鉴定。

Identification of highly polymorphic DNA regions in tomato.

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