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Method for testing trace Bt (bacillus thuringiensis) toxic protein in bodies of insects in transgenic Bt crop habitat

A detection method and technology for bt toxin, which can be applied in the biological field and can solve the problems of less Bt toxin, it is difficult to measure the content of Bt toxin of non-target pests or natural enemy insects, and the low detection limit is above 1.2 nanograms per gram of body weight. , to achieve good reproducibility

Inactive Publication Date: 2012-07-18
宋敦伦
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Problems solved by technology

[0003] However, its disadvantage is that it is difficult to measure the Bt poisonous protein content in non-target pests or natural enemy insects
Because some non-target natural enemy insects feed on Bt crops indirectly, or some pests consume very little Bt poisonous protein due to different feeding methods, such as eating different parts of Bt crops, the Bt in these pests or natural enemy insects The content of toxic protein is generally below 1 nanogram per gram of body weight, while the minimum detection limit of the existing enzyme-linked immunosorbent assay is above 1.2 nanograms per gram of body weight

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  • Method for testing trace Bt (bacillus thuringiensis) toxic protein in bodies of insects in transgenic Bt crop habitat
  • Method for testing trace Bt (bacillus thuringiensis) toxic protein in bodies of insects in transgenic Bt crop habitat
  • Method for testing trace Bt (bacillus thuringiensis) toxic protein in bodies of insects in transgenic Bt crop habitat

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[0020] The preferred technical solutions of the present invention will be described in detail below.

[0021] At present, Bt genetically modified cotton is planted in large quantities to prevent the harm of cotton bollworm to cotton. However, some pests such as cotton aphids also feed on the juice of cotton, but transgenic Bt cotton cannot kill cotton aphids. When the cotton aphid feeds on cotton sap, it also feeds on some Bt poisonous proteins. Some natural enemy insects feed on cotton aphids, and they will indirectly eat Bt poisonous protein. The present invention is used for measuring the content of Bt poisonous protein in cotton aphids and the natural enemies of cotton aphids, and adopts the following measuring steps:

[0022] (1) First collect the cotton aphids to be tested growing in the Bt cotton field, grind the worm body with 1 times of PBST washing buffer in a ratio of 1:10, worm body (g):washing buffer (ml)=1:10 , centrifuge the grinding solution (10000rpm, 5min)...

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Abstract

A method for testing trace Bt toxic protein in the bodies of insects in a transgenic Bt crop habitat includes the following steps: in the first step, collecting insects to be tested growing in a transgenic Bt crop field, and preparing insect liquid to be tested; in the second step, collecting insects growing on non-transgenic Bt plants in a lab, which belong to the same species or variety as the insects to be tested, and preparing contrast insect liquid; in the third step, using the contrast insect liquid to prepare standard Bt toxic proteins with a series of concentrations; in the fourth step, utilizing an enzyme immunoassay method to determine the optical density values of the standard Bt toxic proteins and the insect liquid to be tested at the wavelength of 650 nanometers; in the fifth step, obtaining a standard equation according to the concentrations of the standard Bt toxic proteins and the corresponding optical density values, and calculating the Bt toxic protein concentration in the insect liquid to be tested according to the standard equation. The test method has extremely high sensitivity and good repeatability.

Description

technical field [0001] The invention relates to the field of biotechnology, in particular to a method for detecting trace amounts of Bt toxin protein in insects in the habitat of transgenic Bt crops. Background technique [0002] In the prior art, enzyme-linked immunosorbent assay (ELISA for short) is usually used to detect the Bt protein content in crops. Among them, the double-antibody sandwich method ELISA kit is more commonly used, and its assay principle is the solid phase of the antigen. and enzymatic labeling of antigens. In this method, the antigen combined on the surface of the solid phase carrier still maintains its immunological activity, and the enzyme-labeled antigen or antibody retains both its immunological activity and enzyme activity; or antigen) reacts with the antigen or antibody on the surface of the solid phase carrier, and the antigen-antibody complex formed on the solid phase carrier is separated from other substances in the liquid by washing; then th...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01N33/68G01N33/543
Inventor 宋敦伦高希武肖达薛丽卢延
Owner 宋敦伦
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