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Multi-gene pyramiding breeding method for thoroughbred milk goats

A dairy goat, polygenic technology, applied in the breeding field of multi-gene aggregation of fine-bred dairy goats, can solve the problems of non-existence, high detection cost, cumbersome operation, etc., achieve accurate estimation, speed up breeding progress, and improve selection efficiency.

Inactive Publication Date: 2012-07-25
NORTHWEST A & F UNIV
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Problems solved by technology

Among these SNP detection techniques, DNA sequence determination is the most accurate SNP detection method, but its detection cost is extremely expensive, and large-scale instruments such as DNA sequencers are required. At the same time, very skilled technicians and Experience, so DNA sequence determination is not an ideal SNP detection method for actual production; of course, the combination of PCR-SSCP and DNA sequencing can be used to detect SNPs can appropriately reduce the detection cost, but the experimental process of PCR-SSCP is relatively long , the operation is cumbersome, and there are false negative problems in the experimental process, so it is not an ideal SNP detection method; as a new SNP detection method, the AS-PCR method has very broad prospects in the future application field, but , this method needs to design special primers, and it can only target specific gene loci. At the same time, there is a probability of false detection in the detection process. Therefore, it is not generally applicable at present; Ligation reaction technology to detect SNP sites requires detection platforms such as plate reader, gene chip, microsphere array technology and mass spectrometer, which is not very practical for general molecular laboratories

Method used

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  • Multi-gene pyramiding breeding method for thoroughbred milk goats
  • Multi-gene pyramiding breeding method for thoroughbred milk goats
  • Multi-gene pyramiding breeding method for thoroughbred milk goats

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Embodiment Construction

[0054] A. PCR amplification of PRLR intron 2 and exon 10 using primers P1 and P2, and PCR amplification and polymorphism detection of LHβ gene 5'UTR and exon 1 using primers P3 and P4

[0055] 1. Collection and processing of goat blood samples

[0056] Take 5 mL of goat blood sample, add 0.2 μL of ACD (citric acid 2.4 g; trisodium citrate 6.6 g; glucose 7.35 g; dilute to 50 mL, autoclave) to anticoagulate, slowly invert 3 times and put it in the ice box, - Store at 80°C for later use.

[0057] In this example, 265 blood samples of Xinong Sanen dairy goats that had continuously produced 2 or more lambs were collected from Qianyang Sanen Sheep Breeding Farm in Shaanxi Province and Shaanxi Green New Century Biological Co., Ltd.

[0058] 2. Extraction and purification of genomic DNA from blood samples

[0059] (1) Thaw the frozen blood sample at room temperature, transfer 500μL to a 1.5mL Eppendorf tube, add an equal volume of PBS buffer, mix well, centrifuge at 12000r / min for 1...

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Abstract

The invention discloses a multi-gene pyramiding breeding method for thoroughbred milk goats. Genome DNA (deoxyribonucleic acid) of a milk goat continuously giving birth to two or more lambs is used as a template, four pairs of primers respectively expand intron 2 and exon 10 of a prolactin receptor gene and an untranslation region (5'UTR) and exon 1 of luteotropin beta calcmeurin 5', the sizes of expanded products are judged by agarose gel electrophoresis, site mutation of the expanded products of the four pairs of primers are screened by DNA sequencing technology, then polyacrylamide gel electrophoresis is used for performing genetic typing and gene frequency analysis for SNPs (single nucleotide polymorphisms) of four sites of the prolactin receptor gene and the luteotropin beta calcmeurin, the relation of polymorphism of a multiple-birth milk goat individual (F1 generation) and the number of born lamps and the relation of different genetype combinations and the number of the born lamps are analyzed, parental generation (F0 generation) is reviewed, filial generation (F2 generation) is tracked, the relation of the genetype combination of an ewe individual and the number of the born lamps is detected, and contribution of different genetypes in terms of prolific trait formation is analyzed.

Description

technical field [0001] The invention belongs to the field of molecular genetics, and in particular relates to a breeding method for multi-gene polymerization of fine-bred dairy goats. The method uses PCR-SSCP and DNA sequencing techniques to detect prolactin receptor (PRLR) genes and luteinizing hormone beta Single-strand DNA base mutation polymorphism of subunit (LHβ) gene, determine the appropriate molecular marker by analyzing the relationship between polymorphism and litter size of high-yield dairy goat individuals (F1 generation), and analyze high-yield dairy goat individuals (F1) The relationship between the different genotype combinations of ewes and the number of litters, trace the parents (F0 generation), track the offspring (F2 generation), detect the relationship between the genotype combinations of individual ewes and the number of litters, and study the relationship between different genotypes in Then select the genotype combinations of high-yielding individuals, ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C12Q1/68
Inventor 曹斌云安小鹏李广侯金星王建刚宋宇轩杨明明朱广琴王韵斐崔易虹陈秋菊
Owner NORTHWEST A & F UNIV
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