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Method for preventing transgenic cotton from gene flow by using nectariferous plant

A nectar source plant and transgenic technology, applied in the field of biological isolation, can solve the problems of harmful new biological types, transgenic plant damage, insect poisoning, etc., and achieve the effect of synchronizing flowering period, preventing gene pollution, and long flowering period

Active Publication Date: 2014-07-02
SHIHEZI UNIVERSITY
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AI Technical Summary

Problems solved by technology

[0003] The possible harm caused by transgenic plants to the ecological environment: First, it breaks the ecological balance, and the recombined genes may lead to unexpected results and produce harmful new biological types
The second is genetic pollution. The genes carried by transgenic plants are transmitted to wild species or other related species through pollen, which may cause the proliferation of certain weeds or produce a new poisonous weed, which is the so-called weedization. For example, insect-resistant transgenic plants pass The pollen transmits foreign genes to its relatives, making the plant insect-resistant, which may be toxic to some insects that depend on it for survival
However, the above method is only suitable for small-scale field release tests of transgenic crops. For large-scale commercial production, it is impractical to use high-stalk crops to set up isolation zones and other physical isolation to prevent the spread of transgenes through pollen, and other countermeasures must be considered

Method used

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  • Method for preventing transgenic cotton from gene flow by using nectariferous plant

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Experimental program
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Effect test

Embodiment

[0014] When cotton is planted in spring, a place for mechanical farming shall be reserved around the transgenic cotton planting area, according to 667m 2 Apply 500kg to 800kg of organic fertilizer, and make a furrow with a width and depth of 60cm. In Dajo field, it can be divided according to 150m ~ 200m.

[0015] Lay mulch and capillary according to the drip irrigation mode under cotton mulch, and plant the rhizomes or seedlings of the selected nectar source plants on the flat furrow surface with a plant spacing of 15cm-20cm, a row spacing of 30cm, and a depth of 7cm-10cm. Press 667m 2 Drip 20-30m 2 . Then, carry out water and fertilizer management according to the normal management mode of cotton. Drip water 10 to 12 times during the whole growth period, 30m each time 2 , fertilize with water. Different ecological zones can be planted and managed according to conventional planting methods.

[0016] During the vigorous growth period of nectar plants, topping and prunin...

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Abstract

The method relates to an effective method for measuring a pollen gene drift distance of a transgenic cotton, and the method is simple and practical, and has strong maneuverability. A sterile line of cotton used in production is planted at different positions surrounding the transgenic cotton, to form a drift region of transgenic cotton pollens. If the sterile line of cotton sends up boll and goes to seed normally, it can be confirmed as outcrossing; and then the rate of transgenic cotton is further analyzed. The method is easy for assessment of pollination rate and pollination source of cotton, avoids high frequencies of field monitoring and reduces the workload of cotton leaf DNA extraction and exogenous gene detection in laboratory. The method has the main characteristics of fastness, accuracy and strong operability.

Description

Technical field: [0001] The invention relates to an effective biological isolation method for preventing genetic drift of transgenic cotton through pollen biological transmission. Background technique: [0002] With the rapid development of biotechnology, transgenic crops have made great achievements. Statistics show that since the large-scale cultivation of genetically modified crops began in 1996, it has maintained a relatively rapid growth momentum. By 2009, the acreage of GM crops in 25 countries around the world had exceeded 134 million hectares. Currently, the United States is the country with the largest planting area of ​​GM crops in the world, followed by Brazil and Argentina. 77% of the world's soybean production comes from genetically modified crops, 48% of the world's cotton production is genetically modified, and the proportions of genetically modified corn and canola exceed 25% and 20%, respectively. Transgenic plants have attracted increasing attention beca...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A01H1/02A01M99/00
Inventor 王爱英祝建波宋丽娟冯玉杰沈海涛刘红玲
Owner SHIHEZI UNIVERSITY
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