Molecular marker method for rice anti-rice stripe major gene loci qSTV11

A molecular marker and rice stripe technology, applied in the field of molecular genetics, can solve problems such as poor effect, environmental pollution, economic loss, etc., and achieve the effects of convenient identification, no environmental impact, and clear location.

Inactive Publication Date: 2009-07-22
NANJING AGRICULTURAL UNIVERSITY
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Problems solved by technology

The disease area in the severely diseased area accounts for more than 90% of the rice planting area. In the severely affected area, the rate of diseased holes and diseased plants in leaked fields is as high as 90%, and the rate of diseased plants is over 70%. Some fields basically lose harvest, causing huge economic losses
At present, the production is mainly combined with the adjustment of farming system and the improvement of cultivation technology, and the control of insects and diseases at the right time, but the effect is not good, and it pollutes the environment

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  • Molecular marker method for rice anti-rice stripe major gene loci qSTV11
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  • Molecular marker method for rice anti-rice stripe major gene loci qSTV11

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Embodiment Construction

[0031] The detailed description of the present invention is as follows:

[0032] Studies have shown that there is a major gene locus that controls the stable expression of stripe leaf blight resistance at the same position on rice chromosome 11. Maeda H et al. (Maeda H, Nemoto H, Yagi T, Fukuta Y. QTL analysis for rice stripe disease resistance using recombinant inbred lines (RILs) derived from crossing between Milyang and Akihikari. In: China Association of Agricultural Science Societies, China National Rice Research Institute China National Hybrid Rice Research and Development Center, China Foundation Society for Agricultural Science and Education (eds). Prospects of rice genetics and breeding for the 21st century—Paper collection of international rice genetics and breeding symposium. Beijing: China Agricultural Science, 3199 Press Technology 57.) Using the recombinant inbred line population of Miyang 23 / Qiuguang, a QTL for resistance to stripe leaf blight was detected near ...

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Abstract

The invention relates to a molecular marking method of a major gene locus qSTV11 with rice stripe and leaf blight resistance and belongs to the field of molecular genetics. Hybridization with female plant of rice Nipponbare and male plant of Kasalath, backcross with Nipponbare and derivation are orderly realized, thus obtaining a backcross recombinant inbred system, genetic linkage analysis between genotypes and corresponding disease indexes and ratios in each family is realized, the resistant effects of the major gene locus qSTV11 with rice stripe and leaf blight resistance and allelic genes from Kasalath are detected, and molecular markers R21, R22, R13 and R48 that can be utilized in breeding are obtained through filtering. The four molecular markers are utilized for detecting whether Kasalath and derived varieties thereof contain the major gene locus, and consequently the rice stripe and leaf blight resistant level of the varieties can be predicted, and the selection efficiency of rice varieties with rice stripe and leaf blight resistance can be remarkably raised.

Description

1. Technical field [0001] The invention provides a molecular marker method for the main gene site qSTV11 resistant to rice stripe blight, belongs to the field of molecular genetics, and is specially used for the selection of rice stripe blight-resistant varieties and the screening and utilization of germplasm resources. 2. Background technology [0002] Rice stripe leaf blight is a viral disease caused by rice stripe virus, and its vector is mainly the small planthopper. In recent years, with the popularization and application of light cultivation techniques such as no-tillage, rice-wheat interleaving, and wheat-introducing rice, as well as susceptible high-yielding varieties, the expansion and harm of the SBPH carrier population of rice stripe leaf blight has been accelerated. The characteristics of short sucking time and long-lasting virus transmission of SBPH make pest control and disease prevention very difficult, and the occurrence of rice stripe leaf blight in my count...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C12Q1/68
Inventor 万建民江玲张迎信刘世家王宝祥王琦陈亮明刘喜
Owner NANJING AGRICULTURAL UNIVERSITY
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