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Feed for gene editing laboratory mice

A technology of gene editing and experimental mice, which is applied to animal feed, animal feed, molding or processing of animal feed, etc., can solve problems such as low reproductive ability, fertility degradation, and death of experimental mice, so as to promote growth and reproduction significantly, enhance Disease resistance and the effect of reducing the incidence of gastrointestinal diseases

Inactive Publication Date: 2017-08-18
武汉市万千佳兴生物科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0004] Since the function of the immune system of the experimental mice after gene editing is significantly weaker than that of conventional experimental mice, they have the characteristics of slow growth and low reproductive ability. Feeding the gene-edited experimental mice with conventional experimental mouse feed will cause malnutrition and fertility Ability degradation and lead to the death of experimental mice, so it is necessary to develop special feed for gene-edited experimental mice

Method used

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  • Feed for gene editing laboratory mice

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preparation example Construction

[0020] It is found through research that the feed of the present invention has better efficacy than the feed made by the conventional method according to the following preparation method, which specifically includes the following steps: S1. Raw material preparation: After crushing corn, wheat, soybean meal and broken rice, carry out the preparation with the remaining raw materials Fully mixed; S2. Preparation and granulation: Put the mixed raw materials into the granulator, and make pellet feed under steam at 80-120°C; S3. Feed screening: Screen the prepared pellet feed to keep the particle size 11-13mm pellet feed with a length of 30-40mm; S4. Nutrition monitoring and packaging: sterilize the screened feed, and conduct nutritional, hygienic, and microbiological index tests, and package and store feed that meets the standards.

[0021] Unless otherwise specified, the raw materials are all commercially available materials.

[0022] The method of the present invention will be fu...

Embodiment 1

[0024] A feed for gene-edited experimental mice, which consists of the following components in parts by weight: 30 parts of corn, 15 parts of wheat, 20 parts of soybean meal, 12 parts of broken rice, 8 parts of fish meal, 3 parts of oil, 8.4 parts of yeast hydrolyzate, 1.2 parts of stone powder, 1 part of calcium hydrogen phosphate, 0.6 parts of complex minerals, 0.4 parts of multivitamins, 0.2 parts of methionine, and 0.2 parts of lysine.

[0025] The preparation method of the above-mentioned feed includes the following steps: S1. Raw material preparation: After pulverizing corn, wheat, soybean meal and broken rice, fully mixing with the remaining raw materials; S2. Modulating granulation: putting the mixed raw materials into a granulator, Make pellet feed under steam at 100-120°C; S3. Feed screening: screen the prepared pellet feed, and keep pellet feed with a particle size of 12mm and a length of 30-40mm; S4. Nutritional monitoring and packaging: screening Good feeds are te...

Embodiment 2

[0027] A feed for gene-edited experimental mice, which consists of the following components in parts by weight: 32.4 parts of corn, 13 parts of wheat, 19.6 parts of soybean meal, 12 parts of broken rice, 8.5 parts of fish meal, 2.5 parts of oil, 8.5 parts of yeast hydrolyzate, 1.1 parts of stone powder, 1 part of calcium hydrogen phosphate, 0.6 parts of complex minerals, 0.4 parts of multivitamins, 0.2 parts of methionine, and 0.2 parts of lysine.

[0028] The preparation method of above-mentioned feed is identical with embodiment 1.

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Abstract

The invention discloses feed for gene editing laboratory mice. The feed is prepared from components in parts by weight as follows: 30-35 parts of corn, 10-15 parts of wheat, 15-20 parts of soybean meal, 5-12 parts of broken rice, 3-10 parts of fish meal, 1-5 parts of oil, 2-9 parts of a yeast hydrolysate, 0.8-1.2parts of stone powder, 1-2 parts of calcium hydrogen phosphate, 0.5-1 part of compound minerals, 0.1-0.5 parts of decavitamin, 0.1-0.2 parts of methionine and 0.1-0.2 parts of lysine. The feed has balanced nutrition and good palatability and can increase the feed intake of the gene editing laboratory mice, promote growth and breeding and significantly increase the survival rate of the gene editing laboratory mice, the nutrition index of the feed meets the nutrition index of national standard GB14924.3-2010 of Complete Nutritional Feed for Laboratory Animals, the hygienic index meets the hygienic index requirements of national standard GB14924.1-2010 of Complete Nutritional Feed for Laboratory Animals, and the feed for the gene editing laboratory mice has bright application prospects.

Description

technical field [0001] The invention belongs to the field of experimental animal nutrition, and more specifically relates to a feed for gene-edited experimental mice. Background technique [0002] Gene editing technology refers to the ability of humans to edit target genes to achieve knockout and addition of specific DNA fragments. There are three main implementation methods: (1) Gene knockout: If you want to lose the function of a certain gene, you can generate a double-strand DNA break (DSB) on this gene, which often occurs during the repair of non-homologous end joining. Insertion or deletion of DNA results in frameshift mutation, thereby realizing gene knockout; (2) Introduction of specific mutation: If you want to introduce a specific mutation into the genome, it needs to be achieved through homologous recombination. At this time, a Contains homologous templates for specific mutations. Under normal circumstances, the efficiency of homologous recombination is very low,...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A23K50/50A23K10/30A23K10/37A23K10/22A23K20/158A23K10/16A23K20/20A23K20/174A23K20/142A23K20/28A23K40/10
CPCY02P60/87
Inventor 王文杰王全耀张念王文娟
Owner 武汉市万千佳兴生物科技有限公司
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