Molecular marking method of heat-proof major QTL lotus qHTF-1 in rice heading and flowering period and application

A technology of heading and flowering, molecular markers, applied in biochemical equipment and methods, microbial measurement/inspection, etc., can solve the problems of rice yield reduction, seed setting rate decline, and yield reduction, and achieve the effect of speeding up the selection process

Active Publication Date: 2018-04-20
HUNAN AGRICULTURAL UNIV
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Problems solved by technology

The period when rice is most sensitive to temperature is the heading and flowering period. During this period, if the daily average temperature is higher than 35°C, it is easy to induce infertility of florets and cause fertilization obstacles, resulting in failure to set seeds and reduce yield.
During the heading and flowering stage, the high temperature and heat damage caused a significant drop in the seed setting rate and reduced production. For example, in the summer of 2003, the high temperature above 38°C lasted for more than 20 days in some southern rice regions. In 2006, a severe high temperature disaster occurred in the Sichuan-Chongqing region, resulting in a reduction of more than 25% of rice production in that year; Suffering from a wide range of continuous high temperature hazards above 38°C, resulting in a large-scale reduction in rice and other food crops, and a serious drop in seed setting rate of 50%

Method used

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  • Molecular marking method of heat-proof major QTL lotus qHTF-1 in rice heading and flowering period and application
  • Molecular marking method of heat-proof major QTL lotus qHTF-1 in rice heading and flowering period and application
  • Molecular marking method of heat-proof major QTL lotus qHTF-1 in rice heading and flowering period and application

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Experimental program
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Embodiment 1

[0017] Test materials: A heat-tolerant indica variety Teqing was used as the female parent, and a heat-sensitive indica variety Yuejingsimiao No. 2 was used as the male parent to construct Teqing × Yuejingsi with 182 lines Miao 2 RILs F 8 and F 10 group.

[0018] 1. Phenotyping

[0019] In 2015 and 2016, Teqing, Yuejingsimiao No. 2 and Teqing / Yuejingsimiao No. 2 RILs F were planted in the experimental base of Hunan Agricultural University, respectively. 8 (2015), F 10 (2016) Population of 182 strains, planted in 3 phases, respectively on April 18, May 1, and May 14 in 2015 and 2016, each period was 13 days apart, in 2015 and 2016 Transplanted on May 13th, May 26th, and June 8th, 2010, single planting, 50 plants were planted for each material in each period, and 3 plants with the same growth period were selected for each material in each period about 20 days before the rice heading. Plants moved into pots.

[0020] When there are at least 3 tiller ears in each pot and abo...

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Abstract

The invention discloses a molecular marking method of a heat-proof major QTL lotus qHTF-1 in a rice heading and flowering period. According to the method, a primer pair of a molecular marker RM23 or one pair or two pairs of primers in the primer pairs of a molecular marker RM562 is applied to perform PCR amplification on the DNA of a to-be-identified rice material; if a DNA fragment of corresponding size is amplified, heat-proof major QTL qHTF-1 exists. According to the method, by adopting 2 SSR markers in close linkage with a heat-proof major QTL qHTF-1 in the heading and flowering period located on the Teqing 1-st chromosome of a heat-proof rice variety, the high-temperature tolerance of the rice material is predicted, the breeding of a new variety of heat-proof and stress-resistant riceis facilitated, and the selection progress of a heat-proof rice variety is accelerated.

Description

technical field [0001] The invention belongs to the field of biotechnology, and specifically relates to a molecular marker method for heat-resistant major QTL site qHTF-1, an important stress-resistant trait of rice, and also relates to the application of the molecular marker method in breeding heat-resistant and stress-resistant rice varieties. Background technique [0002] The continuous warming of the global climate has brought a very serious impact on China's rice production. The period when rice is most sensitive to temperature is the heading and flowering period. During this period, if the daily average temperature is higher than 35°C, it is easy to induce sterility of florets, resulting in obstacles to fertilization, resulting in failure to set seeds and reducing yield. During the heading and flowering stage, the high temperature and heat damage caused a significant drop in the seed setting rate and reduced production. For example, in the summer of 2003, the high temp...

Claims

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Application Information

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IPC IPC(8): C12Q1/6895
CPCC12Q1/6895C12Q2600/13C12Q2600/156
Inventor 雷东阳旷浩源
Owner HUNAN AGRICULTURAL UNIV
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