School of Food Science and Biotechnology, Institute of Agricultural Science and Technology, Kyungpook National University, Daegu, 41566, Republic of Korea.
Departments of Bacteriology and Genetics, University of Wisconsin, Madison, WI, USA.
J Microbiol. 2019 Oct;57(10):893-899. doi: 10.1007/s12275-019-9214-4. Epub 2019 Aug 28.
Fungal development is regulated by a variety of transcription factors in Aspergillus nidulans. Previous studies demonstrated that the NF-κB type velvet transcription factors regulate certain target genes that govern fungal differentiation and cellular metabolism. In this study, we characterize one of the VosA/VelB-inhibited developmental genes called vidA, which is predicted to encode a 581-amino acid protein with a CH zinc finger domain at the C-terminus. Levels of vidA mRNA are high during the early and middle phases of asexual development and decrease during the late phase of asexual development and asexual spore (conidium) formation. Deletion of either vosA or velB results in increased vidA mRNA accumulation in conidia, suggesting that vidA transcript accumulation in conidia is repressed by VosA and VelB. Phenotypic analysis demonstrated that deletion of vidA causes decreased colony growth, reduced production of asexual spores, and abnormal formation of sexual fruiting bodies. In addition, the vidA deletion mutant conidia contain more trehalose and β-glucan than wild type. Overall, these results suggest that VidA is a putative transcription factor that plays a key role in governing proper fungal growth, asexual and sexual development, and conidia formation in A. nidulans.
在构巢曲霉中,真菌的发育受到多种转录因子的调控。先前的研究表明,NF-κB 型 velvet 转录因子调控某些靶基因,这些靶基因控制真菌的分化和细胞代谢。在这项研究中,我们对一个被 VosA/VelB 抑制的发育基因 vidA 进行了特征描述,该基因预测编码一个 581 个氨基酸的蛋白质,在 C 末端具有 CH 锌指结构域。vidA mRNA 的水平在无性发育的早期和中期较高,而在无性发育的晚期和无性孢子(分生孢子)形成时降低。vosA 或 velB 的缺失导致分生孢子中 vidA mRNA 的积累增加,这表明 VidA 转录物在分生孢子中的积累受到 VosA 和 VelB 的抑制。表型分析表明,vidA 的缺失导致菌落生长减少、无性孢子产生减少和有性生殖体形成异常。此外,vidA 缺失突变体的分生孢子中含有更多的海藻糖和β-葡聚糖,比野生型多。总的来说,这些结果表明 VidA 是一个假定的转录因子,在调节构巢曲霉的正常生长、无性和有性发育以及分生孢子形成中发挥关键作用。
