西蒙氏毛霉的 hex1 基因参与了胁迫反应、生物控制潜力和小麦植物生长。

IF 6.1 1区 生物学 Q1 MICROBIOLOGY Microbiological research Pub Date : 2024-11-07 DOI:10.1016/j.micres.2024.127958
Alberto Pedrero-Méndez, María Illescas, Enrique Monte, Rosa Hermosa
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引用次数: 0

摘要

Woronin 体是 Pezizomycotina 真菌中独特的细胞器,可使菌丝分隔并防止机械损伤后的细胞质出血。多项研究表明,过氧异构体蛋白 HEX1(Woronin 体的主要成分)与其他生物过程(如菌丝生长、渗透胁迫耐受性和致病性)有关。毛霉属是对植物有益的多用途生物控制剂,蛋白质组和转录组研究表明,在真菌细胞壁和植物聚合物存在的情况下生长时,HEX1 及其相应基因的比例过高。为了进一步研究 hex1 参与毛霉生物学的情况,我们以小麦内生菌株 T. simmonsii T137 为宿主,产生了 hex1 缺失转化子。结果证实,hex1 基因参与防止细胞质出血,还在真菌生长和对植物病原真菌和卵菌的生物控制潜力方面发挥作用。hex1 参与真菌对渗透胁迫和氧化胁迫的反应受胁迫类型和培养基营养丰富程度的影响。hex1 基因缺失也影响了与小麦的相互作用,但并不影响 T137 对水分胁迫的植物保护作用。总之,这项研究表明了 HEX1 在西蒙氏菌作为一种对农业有益的真菌所需的各种生物过程中的作用。
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The hex1 gene of Trichoderma simmonsii is involved in stress responses, biocontrol potential and wheat plant growth
Woronin bodies are unique organelles in Pezizomycotina fungi that allow hyphae compartmentalization and prevent cytoplasmatic bleeding after mechanical injury. Several studies have related the peroxisomal protein HEX1, the major component of Woronin bodies with other biological processes such as hyphal growth, osmotic stress tolerance and pathogenicity. Trichoderma spp. are plant-beneficial multipurpose biological control agents, and proteomic and transcriptomic studies have shown that HEX1 and its corresponding gene are overrepresented when grown in the presence of fungal cell walls and plant polymers. To further investigate the involvement of hex1 in Trichoderma biology, we generated hex1 deletion transformants using the wheat endophytic strain T. simmonsii T137 as host. Results confirmed that hex1 gene is involved in the prevention of cytoplasmatic bleeding, and also has a role in fungal growth and biocontrol potential against phytopathogenic fungi and oomycetes. The involvement of hex1 in the fungal response to osmotic and oxidative stresses is conditioned by the type of stress and by the nutrient richness of the culture medium. The hex1 deletion also affected the interaction with wheat, but did not affect the plant protective effect of T137 against water stress. Overall, this study shows the implication of HEX1 in a wide range of biological processes necessary for T. simmonsii to deploy its abilities to be used as an agriculturally beneficial fungus.
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来源期刊
Microbiological research
Microbiological research 生物-微生物学
CiteScore
10.90
自引率
6.00%
发文量
249
审稿时长
29 days
期刊介绍: Microbiological Research is devoted to publishing reports on prokaryotic and eukaryotic microorganisms such as yeasts, fungi, bacteria, archaea, and protozoa. Research on interactions between pathogenic microorganisms and their environment or hosts are also covered.
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