Illinois Crop Improvement Association, Champaign, Illinois.
Global Change and Photosynthesis Research Unit, USDA-ARS, Urbana, Illinois.
Pest Manag Sci. 2020 Sep;76(9):3012-3019. doi: 10.1002/ps.5848. Epub 2020 May 2.
Nicosulfuron, a sulfonylurea herbicide widely used for grass weed control in corn production, injures some sweet corn hybrids and inbreds. A specific cytochrome P450 (P450), CYP81A9, is suggested to be responsible for sensitivity to nicosulfuron and other P450-metabolized herbicides. Corn CYP81A9 enzymes were expressed in E. coli and investigated to find the factor(s) associated with their function and variation in metabolizing nicosulfuron.
Recombinant expressed CYP81A9s from tolerant sweet corn inbreds produced an active form of P450, while CYP81A9 from a sensitive inbred produced an inactive form. Nicosulfuron bound to tolerant CYP81A9s, and produced reverse-type I ligand, while sensitive CYP81A9 showed no interaction with nicosulfuron. Investigation of 106 sweet corn inbreds showed variation in nicosulfuron injury. A survey of sweet corn CYP81A9 sequences showed mutations in codons for amino acids at 269, 284, 375, and 477 occurred in sweet corn inbreds with complete loss of P450 function (with mean injury >91%) and amino acid changes at 208 and 472 occurred in inbreds with moderate and complete loss of P450 function (with mean injury >14%).
Our results support that CYP81A9 enzyme is responsible for metabolizing nicosulfuron in sweet corn, and different types of amino acid changes in CYP81A9 sequence are associated with variation in nicosulfuron injury. Therefore, a careful selection of the tolerant allele will be critical for improving tolerance to nicosulfuron and several other P450-metabolized herbicides. © 2020 Society of Chemical Industry.
烟嘧磺隆是一种磺酰脲类除草剂,广泛用于玉米生产中的杂草防治,会伤害一些甜玉米杂交种和自交系。一种特定的细胞色素 P450(P450),CYP81A9,被认为是对烟嘧磺隆和其他 P450 代谢的除草剂敏感的原因。玉米 CYP81A9 酶在大肠杆菌中表达,并进行了研究,以找到与它们代谢烟嘧磺隆的功能和变异性相关的因素。
来自耐烟嘧磺隆甜玉米自交系的重组表达 CYP81A9 产生了一种有活性的 P450 形式,而来自敏感自交系的 CYP81A9 则产生了一种无活性的形式。烟嘧磺隆与耐烟嘧磺隆 CYP81A9 结合,并产生了反向 I 型配体,而敏感 CYP81A9 则与烟嘧磺隆没有相互作用。对 106 个甜玉米自交系的调查显示,烟嘧磺隆损伤存在差异。对甜玉米 CYP81A9 序列的调查显示,在完全丧失 P450 功能的甜玉米自交系中(平均损伤>91%),269、284、375 和 477 位氨基酸的密码子发生突变,以及在中度和完全丧失 P450 功能的自交系中(平均损伤>14%),208 和 472 位氨基酸发生变化。
我们的结果支持 CYP81A9 酶负责代谢甜玉米中的烟嘧磺隆,CYP81A9 序列中不同类型的氨基酸变化与烟嘧磺隆损伤的变异性有关。因此,对耐受等位基因的仔细选择对于提高对烟嘧磺隆和其他几种 P450 代谢的除草剂的耐受性至关重要。© 2020 化学工业协会。
