DhFIG_2基因是一种捕获线虫的真菌,编码低亲和力钙吸收系统的一个组成部分,是条件作用和旋钮陷阱形成所必需的

IF 2.4 3区 生物学 Q3 GENETICS & HEREDITY
Xiaozhou Zhao , Yani Fan , Weiwei Zhang , Meichun Xiang , Seogchan Kang , Shunxian Wang , Xingzhong Liu
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引用次数: 2

摘要

钙离子(Ca2+)是一种普遍的第二信使,参与调节动物、植物和真菌的多种过程。低亲和钙摄取系统(LACS)在高细胞外Ca2+浓度下参与从细胞外环境获取Ca2+。与大多数真菌只编码一种LACS蛋白(FIG1)不同,线虫捕获真菌(NTF)编码两种相关蛋白。AoFIG_2是寡孢节虫形成粘附网络陷阱所编码的ntf特异性LACS组分,被证明是孢子萌发和陷阱形成所必需的。本研究表征了由旋钮陷阱形成的触型dactyellina haptotyla编码的AoFIG_2同源物DhFIG_2在生长发育中的作用,以扩大我们对LACS在NTF中的作用的认识。由于多次破坏DhFIG_2的尝试失败,我们利用RNA干扰(RNA interference, RNAi)敲低DhFIG_2的表达来研究其功能。DhFIG_2的RNAi显著降低了其表达,严重减少了陷阱的形成,影响了营养生长和胁迫反应,表明该成分对NTF陷阱的形成和形成至关重要。我们的研究证明了ATMT辅助下的RNAi技术在研究芽孢杆菌基因功能方面的实用性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
DhFIG_2, a gene of nematode-trapping fungus Dactylellina haptotyla that encodes a component of the low-affinity calcium uptake system, is required for conidiation and knob-trap formation

Calcium ion (Ca2+) is a universal second messenger involved in regulating diverse processes in animals, plants, and fungi. The low-affinity calcium uptake system (LACS) participates in acquiring Ca2+ from extracellular environments under high extracellular Ca2+ concentration. Unlike most fungi, which encode only one protein (FIG1) for LACS, nematode-trapping fungi (NTF) encode two related proteins. AoFIG_2, the NTF-specific LACS component encoded by adhesive network-trap forming Arthrobotrys oligospora, was shown to be required for conidiation and trap formation. We characterized the role of DhFIG_2, an AoFIG_2 ortholog encoded by knob-trap forming Dactylellina haptotyla, in growth and development to expand our understanding of the role of LACS in NTF. Because repeated attempts to disrupt DhFIG_2 failed, knocking down the expression of DhFIG_2 via RNA interference (RNAi) was used to study its function. RNAi of DhFIG_2 significantly decreased its expression, severely reduced conidiation and trap formation, and affected vegetative growth and stress responses, suggesting that this component of LACS is crucial for trap formation and conidiation in NTF. Our study demonstrated the utility of RNAi assisted by ATMT for studying gene function in D. haptotyla.

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来源期刊
Fungal Genetics and Biology
Fungal Genetics and Biology 生物-遗传学
CiteScore
6.20
自引率
3.30%
发文量
66
审稿时长
85 days
期刊介绍: Fungal Genetics and Biology, formerly known as Experimental Mycology, publishes experimental investigations of fungi and their traditional allies that relate structure and function to growth, reproduction, morphogenesis, and differentiation. This journal especially welcomes studies of gene organization and expression and of developmental processes at the cellular, subcellular, and molecular levels. The journal also includes suitable experimental inquiries into fungal cytology, biochemistry, physiology, genetics, and phylogeny. Fungal Genetics and Biology publishes basic research conducted by mycologists, cell biologists, biochemists, geneticists, and molecular biologists. Research Areas include: • Biochemistry • Cytology • Developmental biology • Evolutionary biology • Genetics • Molecular biology • Phylogeny • Physiology.
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