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Application of ALS mutant type genes in aspect of herbicide resistance

A mutant and gene technology, applied in the field of plant protein and plant herbicide resistance, can solve the problems that it is difficult to predict the herbicide resistance of ALS protein in advance, and the mechanism of herbicide action is not determined.

Inactive Publication Date: 2016-06-22
JIANGSU ACADEMY OF AGRICULTURAL SCIENCES
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0006] At present, the mechanism of action of ALS inhibitor herbicides has not been determined, and it is difficult to predict in advance whether mutations at other amino acid sites of the ALS protein will cause herbicide resistance. New herbicide-resistance locus in ALS protein just might be discovered by luck

Method used

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  • Application of ALS mutant type genes in aspect of herbicide resistance
  • Application of ALS mutant type genes in aspect of herbicide resistance
  • Application of ALS mutant type genes in aspect of herbicide resistance

Examples

Experimental program
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Effect test

Embodiment 1

[0040] Example 1: The process of obtaining rice mutants resistant to imidazolinone herbicides (Bailongtong)

[0041] 150 kg of indica conventional rice 9311 seeds (purchased from Jiangsu Provincial Agricultural Germplasm Resources Protection and Utilization Platform) (this is M0, soaked in water for 2 hours) were divided into 6 times with 0.5-1.0% (w / w) ethyl methanesulfonate Ester (EMS) was soaked at room temperature for 6-9 hours, and the seeds were shaken every 1 hour during this period; the EMS solution was discarded, tap water was stirred and soaked 5 times, each time for 5 minutes, and then the seeds were rinsed with tap water overnight, and the field was sown the next day. And carry out routine fertilizer and water management (this is M1). After the plants are mature, the seeds are mixed, dried, and stored for the winter. Sow in the field the following year. When the rice (this is M2) seedlings grow to the 3-4 leaf stage, spray 3mL Bailongtong / L water ("Bailongtong" i...

Embodiment 2

[0042] Example 2: Analysis of mutation sites in rice mutants resistant to imidazolinone herbicides

[0043] From the herbicide-resistant mutant rice plants obtained in Example 1 above, the leaves of mutant plant 1 and mutant plant 2 were selected, and genomic DNA was extracted respectively, and sent to Shanghai Hanyu Biotechnology Co., Ltd. for genome sequencing. Comparing the sequencing results with the 9311 reference genome sequence (http: / / rise2.genomics.org.cn / page / rice / download.jsp), it was found that the above-mentioned herbicide-resistant rice mutants had multiple sites on the ALS gene. Mutations, wherein the herbicide-resistant mutant plant 1 undergoes mutations at the 75th and 339th positions of the ALS gene, changing from G to C and A into C, respectively, resulting in the 25th and 113th positions of the corresponding encoded amino acid sequence From glutamine to histidine, glutamine to histidine, the nucleotide sequence of the ALS gene of the herbicide-resistant mut...

Embodiment 3

[0044] Example 3 Cloning of ALS gene of rice mutant resistant to imidazolinone herbicides

[0045] Genomic DNA was extracted from the leaves of the above herbicide-resistant rice mutants 9311M1 and 9311M2, respectively. According to the chromosomal sequence of the 9311 rice wild-type ALS gene (BAC clone Genbank accession number AAAA02006431.1), the specific primers for amplifying the 3' end sequence of the ALS gene are: forward primer 3F5'-GGTCTTGCGTCTGGTTGGCGAGT-3', reverse primer 3R5 '-CTCTTTATGGGTCATTCAGGTCAA-3', the specific primers designed to amplify the 5' end sequence of ALS gene are: forward primer 5F5'-ATCCGAGCCACACATCGCCTCAC-3', reverse primer 5R5'-AGCAACAGGTCAGCCTTATCCAC-3'. The sequences amplified by the two pairs of specific primers have an overlapping portion of 230 bp, and can be spliced ​​into a complete ALS gene sequence.

[0046] Adopt TakaraPrimerSTARMaxDNAPolymerase polymerase (purchased from Takara Company) to amplify ALS gene 5' end sequence, 3' end seq...

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Abstract

The invention discloses ALS mutant type genes. The 75th nucleotide of the ALS mutant type genes in an ALS gene sequence of rice mutates from G to nucleotide C, the 339th nucleotide of the ALS mutant type genes in the ALS gene sequence of the rice mutates from A to nucleotide C, and the 710th nucleotide of the ALS mutant type genes in the ALS gene sequence mutates from C to nucleotide T. The invention further discloses application of ALS protein coded by the ALS mutant type genes in the aspect of herbicide resistance. The protein comes from a rice mutant plant resisting ALS inhibitor herbicide. Compared with the rice wild type ALS sequence, the protein sequence of the ALS mutant type genes mutates at Gln25, Gln113 and Ala237 sites. Green plants express the protein sequence, and acetolactate synthetase resistant inhibitor herbicide, particularly imidazolone and sulfonylurea herbicide, can be resisted.

Description

technical field [0001] The invention belongs to the field of plant protein and plant herbicide resistance. Specifically, the present invention relates to rice acetolactate synthase (ALS) mutant protein, which can endow plants, especially rice, with the characteristic of resistance to acetolactate synthase inhibitor herbicides. The invention discloses the sequence of the protein and their application in the field of plant herbicide resistance. Background technique [0002] Weeds are unfavorable factors restricting the stable and high yield of agricultural production. Compared with traditional cultivation methods, artificial weeding and mechanical weeding, the use of chemical herbicides is an efficient, simple and economical method of controlling weeds. [0003] Acetolactate synthase (ALS) (also known as acetohydroxyacid synthase, AHAS; EC4.1.3.18) inhibitor herbicides target ALS to cause weed death, mainly including sulfonylureas (Sulfonylureas, SU) , imidazolinones (Imida...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C12N15/60C12N9/88C12Q1/68A01H5/00A01N47/44A01P13/00
CPCA01N47/44C12N9/88C12N15/8274C12Q1/6895C12Q1/68
Inventor 张保龙陈天子凌溪铁王金彦
Owner JIANGSU ACADEMY OF AGRICULTURAL SCIENCES
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