G. G., Sánchez-Yáñez Jm, Hernandez Fd, Castro del Ángel E, Castillo-Reyes F, Jiménez-Pérez O
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引用次数: 1
摘要
墨西哥被认为是主要的蔬菜生产国之一,然而,其生产受到几种植物病原体的影响,其对这些病原体的控制是基于使用农用化学品,从而造成环境和健康损害。2018年,墨西哥农业杀菌剂和杀菌剂消费量排名世界第五。因此,控制植物病原体的新替代品是很重要的,如具有抗真菌特性的天然化合物,如壳聚糖,n -乙酰- d -氨基葡萄糖和d -氨基葡萄糖单元由β-(1-4)键连接的生物聚合物,这些键是由碱法(NaOH)或酶水解甲壳素的去乙酰化产生的。壳聚糖是从节肢动物的外骨骼中提取的。研究表明,它抑制植物病原体的生长,由于其多阳离子性质取决于分子量和去乙酰化百分比。由于具有其他抗真菌特性,它们是植物抗毒素的诱导剂,促进植物生长和有益微生物的生物刺激素,由于其在农业技术创新中的有用和经济潜力。
Chitosan in the protection of agricultural crops against phytopathogens agents
Mexico is considered one of the main vegetable producing countries, however, its production is affected by several phytopathogens, whose control of these pathogens is based on the use of agrochemicals, which cause consequent environmental and health damages. In 2018, Mexico ranked 5th in the world in the consumption of fungicides and bactericides in agriculture. For this reason, new alternatives to control phytopathogens are important, with natural compounds with antifungal properties such as chitosan, a biopolymer of N-acetyl-D-glucosamine and D-glucosamine units linked by β-(1-4) bonds derived from the deacetylation of chitin with alkalysis (NaOH) or enzymatic hydrolysis. Chitosan is extracted from exoskeletons of arthropods. Research shows that it inhibits the growth of phytopathogens, due to its polycationic nature depending on molecular weight and deacetylation percentage. With other antifungal properties, they are inducer of phytoalexins, promotion of plant growth and biostimulant of beneficial microorganisms, due to its useful and economic potential agricultural application in technological innovation.
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