用于毛霉遗传改良的生物技术工具

IF 1 Q3 AGRICULTURE, DAIRY & ANIMAL SCIENCE Scientia Agropecuaria Pub Date : 2024-04-08 DOI:10.17268/sci.agropecu.2024.016
Liliana Villao-Uzho, Fernando Espinoza-Lozano, Luis Galarza-Romero, Efrén Santos-Ordóñez
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引用次数: 0

摘要

毛霉菌是一种世界性真菌,广泛分布于世界各地。这种有益真菌在农业、纺织业、造纸业和制药业等多个行业都有不同用途。毛霉菌属还有其他作用机制,包括产生不同的酶和分泌次级代谢物,用于不同行业。已对不同毛霉物种的基因组进行了测序,以确定其生产多种化合物的机制。随着多种技术的进步,开发出了用于毛霉遗传改良的转化工具,从而增加了生物量、初级和次级代谢物以及酶。因此,基因改造的目的是提高多种毛霉菌株的化合物产量。通过基因表达分析确定毛霉的特性对生物技术应用至关重要。它有助于应对当今农业面临的最具挑战性的问题之一,包括气候变化和病原体的出现,这些病原体攻击商业和粮食需求量大的作物。总之,本综述分析了从基因上改良毛霉菌株的各种策略及其在农业、纺织业、造纸业和制药业中的多种应用。作为对具有潜在影响的未来研究的一项建议,建议优化毛霉菌株的特定基因修饰,以提高其在应对农业领域新出现的挑战(尤其是与气候变化相关的挑战)方面的适应性和有效性。研究转基因毛霉菌株与环境可持续农业实践之间可能存在的协同作用,有助于开发作物保护和提高产量的解决方案。
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Biotechnological tools for genetic improvement of Trichoderma
Trichoderma is a cosmopolitan fungus widely distributed around the world. The different uses of this beneficial fungus are varied in several industries, like agriculture, textile, and paper, including the pharmaceutical industry. The genus Trichoderma has other mechanisms of action, including the production of different enzymes and secreted secondary metabolites used in various industries. The genomes of different Trichoderma species have been sequenced to identify the mechanisms for producing several compounds. The advancement of multiple technologies has allowed the development of transformation tools for the genetic improvement of Trichoderma, thus increasing biomass, primary and secondary metabolites, and enzymes. Therefore, genetic modification aims to increase compound production in several Trichoderma strains. Characterization of Trichoderma through gene expression analysis is essential for biotechnology applications. It helps counteract one of the most challenging problems for agriculture today, including climate change and the appearance of pathogens that attack crops with high commercial and food demand. In conclusion, this review analyzes various strategies to improve Trichoderma strains genetically and their multiple applications in the agricultural, textile, paper, and pharmaceutical industries. As a recommendation for future studies with potential impact, the optimization of specific genetic modifications in Trichoderma strains is recommended to improve their adaptability and effectiveness in combating emerging challenges in agriculture, especially those linked to climate change. Investigating possible synergies between genetically modified Trichoderma strains and environmentally sustainable agricultural practices could contribute to developing solutions for crop protection and yield improvement.
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来源期刊
Scientia Agropecuaria
Scientia Agropecuaria AGRICULTURE, DAIRY & ANIMAL SCIENCE-
CiteScore
3.50
自引率
0.00%
发文量
27
审稿时长
12 weeks
期刊最新文献
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