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乙酰乳酸合酶(ALS)中的一种新的氨基酸取代(丙氨酸-205-苯丙氨酸)赋予了对抑制ALS的除草剂的广谱抗性。

A new amino acid substitution (Ala-205-Phe) in acetolactate synthase (ALS) confers broad spectrum resistance to ALS-inhibiting herbicides.

作者信息

Brosnan James T, Vargas Jose J, Breeden Gregory K, Grier Logan, Aponte Raphael A, Tresch Stefan, Laforest Martin

机构信息

Plant Sciences Department, The University of Tennessee, 2431 Joe Johnson Drive, Knoxville, TN, 37996, USA.

BASF Corporation, 26 Davis Dr., Research Triangle Park, NC, 27709, USA.

出版信息

Planta. 2016 Jan;243(1):149-59. doi: 10.1007/s00425-015-2399-9. Epub 2015 Sep 9.

DOI:10.1007/s00425-015-2399-9
PMID:26353912
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4698308/
Abstract

This is a first report of an Ala-205-Phe substitution in acetolactate synthase conferring resistance to imidazolinone, sulfonylurea, triazolopyrimidines, sulfonylamino-carbonyl-triazolinones, and pyrimidinyl (thio) benzoate herbicides. Resistance to acetolactate synthase (ALS) and photosystem II inhibiting herbicides was confirmed in a population of allotetraploid annual bluegrass (Poa annua L.; POAAN-R3) selected from golf course turf in Tennessee. Genetic sequencing revealed that seven of eight POAAN-R3 plants had a point mutation in the psbA gene resulting in a known Ser-264-Gly substitution on the D1 protein. Whole plant testing confirmed that this substitution conferred resistance to simazine in POAAN-R3. Two homeologous forms of the ALS gene (ALSa and ALSb) were detected and expressed in all POAAN-R3 plants sequenced. The seven plants possessing the Ser-264-Gly mutation conferring resistance to simazine also had a homozygous Ala-205-Phe substitution on ALSb, caused by two nucleic acid substitutions in one codon. In vitro ALS activity assays with recombinant protein and whole plant testing confirmed that this Ala-205-Phe substitution conferred resistance to imidazolinone, sulfonylurea, triazolopyrimidines, sulfonylamino-carbonyl- triazolinones, and pyrimidinyl (thio) benzoate herbicides. This is the first report of Ala-205-Phe mutation conferring wide spectrum resistance to ALS inhibiting herbicides.

摘要

这是关于乙酰乳酸合酶中Ala - 205 - Phe替换赋予对咪唑啉酮、磺酰脲、三唑并嘧啶、磺酰氨基羰基三唑啉酮和嘧啶基(硫代)苯甲酸酯类除草剂抗性的首次报道。在从田纳西州高尔夫球场草皮中选出的异源四倍体一年生早熟禾(Poa annua L.;POAAN - R3)群体中,证实了对乙酰乳酸合酶(ALS)和抑制光系统II的除草剂具有抗性。基因测序显示,8株POAAN - R3植株中有7株在psbA基因上存在一个点突变,导致D1蛋白上出现已知的Ser - 264 - Gly替换。整株植物测试证实,这种替换使POAAN - R3对西玛津具有抗性。在所有测序的POAAN - R3植株中检测到并表达了两种同源形式的ALS基因(ALSa和ALSb)。具有赋予对西玛津抗性的Ser - 264 - Gly突变的7株植物在ALSb上也存在纯合的Ala - 205 - Phe替换,这是由一个密码子中的两个核酸替换引起的。用重组蛋白进行的体外ALS活性测定和整株植物测试证实,这种Ala - 205 - Phe替换赋予了对咪唑啉酮、磺酰脲、三唑并嘧啶、磺酰氨基羰基三唑啉酮和嘧啶基(硫代)苯甲酸酯类除草剂的抗性。这是Ala - 205 - Phe突变赋予对ALS抑制性除草剂广谱抗性的首次报道。

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