Method for determining the sequence, insertion position and marginal sequence of exogenous dna fragments in transgenic organisms

A technology of insertion position and transgene, applied in biochemical equipment and methods, biochemical cleaning devices, microbial measurement/inspection, etc., can solve the problems of low efficiency and achieve the effect of rapid and accurate detection

Active Publication Date: 2020-07-28
INST OF CROP SCI CHINESE ACAD OF AGRI SCI
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  • Abstract
  • Description
  • Claims
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Problems solved by technology

However, these methods are often limited by factors such as transgene copy number, homologous gene similarity, transgene sequence, genome sequence, T-DNA region uncertainty, etc., and the overall efficiency is not high

Method used

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  • Method for determining the sequence, insertion position and marginal sequence of exogenous dna fragments in transgenic organisms
  • Method for determining the sequence, insertion position and marginal sequence of exogenous dna fragments in transgenic organisms
  • Method for determining the sequence, insertion position and marginal sequence of exogenous dna fragments in transgenic organisms

Examples

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Embodiment 1

[0071] Example 1, Determination of the sequence, insertion position and marginal sequence of the exogenous DNA fragment in AtDCGS high methionine soybean

[0072] 1. Preparation of AtDCGS high methionine soybean CGS-ZG11

[0073] Using the carrier pGPTV-Bar-DCGS, the AtD-CGS (also known as AtDCGS) gene was transformed into the soybean variety Zigong Dongdou through the Agrobacterium-mediated transgenic method, and the AtD-CGS high methionine soybean CGS-ZG11 (transformed AtD -CGS high methionine transgenic soybean lines (Han Qingmei et al., Identification and Genetic Stability Analysis of High Methionine Transgenic Soybean, Chinese Journal of Oil Crops, 2015, 37(6):789-796)).

[0074] 2. Determination of the sequence, insertion position and marginal sequence of the exogenous DNA fragment in AtD-CGS high methionine soybean CGS-ZG11

[0075] 1. Preparation of genomic DNA samples of AtD-CGS high methionine soybean CGS-ZG11

[0076] Genomic DNA of CGS-ZG11 transgenic AtD-CGS hig...

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Abstract

The present invention discloses a method for determining the sequence, the insertion position and the boundary sequence of an exogenous DNA fragment in a transgenic organism. The method comprises: sequencing the whole genome of a transgenic organism, comparing a sequence A to the whole genome sequence of the transgenic organism, and determining the sequence, the insertion position and the boundarysequence of the exogenous DNA fragment in the transgenic organism, wherein an acceptor organism is treated by a vector containing the exogenous DNA fragment to obtain the transgenic organism, and thesequence A is the following a1), a2) or a3): a1) the full-length sequence of the vector, a2) the sequence of any one DNA fragment derived from the vector and containing the exogenous DNA fragment, and a3) the sequence of the exogenous DNA fragment or any one fragment thereof. According to the present invention, the method can break through the limitation in species, is not limited by the target gene for constructing the transgenic organism, and can rapidly and precisely detect the insertion position, the boundary sequence and even the copy number of the transgenic gene.

Description

technical field [0001] The invention relates to a method for determining the sequence, insertion position and marginal sequence of a foreign DNA fragment in a transgenic organism in the field of biotechnology. Background technique [0002] In recent years, the safety assessment of genetically modified organisms, especially genetically modified foods, has increasingly become the focus of social attention. Defining the insertion sequence, insertion position and marginal sequence of the transgene in the recipient genome is a key link in evaluating and analyzing the safety of the transgene. Around this problem, people can use the Southern hybridization method to determine the copy number of the transgene, and use methods such as chromosome walking to gradually obtain the insertion position of the transgene in the recipient genome and its marginal sequence. However, these methods are often limited by factors such as transgene copy number, homologous gene similarity, transgene se...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C12Q1/6869C12Q1/6851C12M1/34
Inventor 蒋炳军孙石韩天富吴存祥侯文胜陈莉武婷婷
Owner INST OF CROP SCI CHINESE ACAD OF AGRI SCI
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