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黑曲霉对缺乏半乳呋喃糖合成的细胞壁挽救反应的转录组学和分子遗传学分析

Transcriptomic and molecular genetic analysis of the cell wall salvage response of Aspergillus niger to the absence of galactofuranose synthesis.

作者信息

Park Joohae, Hulsman Mark, Arentshorst Mark, Breeman Matthijs, Alazi Ebru, Lagendijk Ellen L, Rocha Marina C, Malavazi Iran, Nitsche Benjamin M, van den Hondel Cees A M J J, Meyer Vera, Ram Arthur F J

机构信息

Leiden University, Institute of Biology Leiden, Molecular Microbiology and Biotechnology, Sylviusweg 72, 2333 BE, Leiden, The Netherlands.

Delft Bioinformatics Lab, Department of Intelligent Systems, Faculty Electrical Engineering, Mathematics and Computer Science, Delft University of Technology, Mekelweg 4, 2628 CD, Delft, The Netherlands.

出版信息

Cell Microbiol. 2016 Sep;18(9):1268-84. doi: 10.1111/cmi.12624. Epub 2016 Jul 29.

DOI:10.1111/cmi.12624
PMID:27264789
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5129474/
Abstract

The biosynthesis of cell surface-located galactofuranose (Galf)-containing glycostructures such as galactomannan, N-glycans and O-glycans in filamentous fungi is important to secure the integrity of the cell wall. UgmA encodes an UDP-galactopyranose mutase, which is essential for the formation of Galf. Consequently, the ΔugmA mutant lacks Galf-containing molecules. Our previous work in Aspergillus niger work suggested that loss of function of ugmA results in activation of the cell wall integrity (CWI) pathway which is characterized by increased expression of the agsA gene, encoding an α-glucan synthase. In this study, the transcriptional response of the ΔugmA mutant was further linked to the CWI pathway by showing the induced and constitutive phosphorylation of the CWI-MAP kinase in the ΔugmA mutant. To identify genes involved in cell wall remodelling in response to the absence of galactofuranose biosynthesis, a genome-wide expression analysis was performed using RNAseq. Over 400 genes were higher expressed in the ΔugmA mutant compared to the wild-type. These include genes that encode enzymes involved in chitin (gfaB, gnsA, chsA) and α-glucan synthesis (agsA), and in β-glucan remodelling (bgxA, gelF and dfgC), and also include several glycosylphosphatidylinositol (GPI)-anchored cell wall protein-encoding genes. In silico analysis of the 1-kb promoter regions of the up-regulated genes in the ΔugmA mutant indicated overrepresentation of genes with RlmA, MsnA, PacC and SteA-binding sites. The importance of these transcription factors for survival of the ΔugmA mutant was analysed by constructing the respective double mutants. The ΔugmA/ΔrlmA and ΔugmA/ΔmsnA double mutants showed strong synthetic growth defects, indicating the importance of these transcription factors to maintain cell wall integrity in the absence of Galf biosynthesis.

摘要

在丝状真菌中,细胞表面定位的含呋喃半乳糖(Galf)的糖结构(如半乳甘露聚糖、N-聚糖和O-聚糖)的生物合成对于确保细胞壁的完整性很重要。UgmA编码一种UDP-吡喃半乳糖变位酶,这是Galf形成所必需的。因此,ΔugmA突变体缺乏含Galf的分子。我们之前在黑曲霉中的工作表明,ugmA功能丧失会导致细胞壁完整性(CWI)途径的激活,其特征是编码α-葡聚糖合酶的agsA基因表达增加。在本研究中,通过显示ΔugmA突变体中CWI-MAP激酶的诱导型和组成型磷酸化,进一步将ΔugmA突变体的转录反应与CWI途径联系起来。为了鉴定响应呋喃半乳糖生物合成缺失而参与细胞壁重塑的基因,使用RNAseq进行了全基因组表达分析。与野生型相比,ΔugmA突变体中有400多个基因表达上调。这些基因包括编码参与几丁质(gfaB、gnsA、chsA)和α-葡聚糖合成(agsA)以及β-葡聚糖重塑(bgxA、gelF和dfgC)的酶的基因,还包括几个编码糖基磷脂酰肌醇(GPI)锚定细胞壁蛋白的基因。对ΔugmA突变体中上调基因的1-kb启动子区域进行的计算机分析表明,具有RlmA、MsnA、PacC和SteA结合位点的基因出现频率过高。通过构建各自的双突变体,分析了这些转录因子对ΔugmA突变体存活的重要性。ΔugmA/ΔrlmA和ΔugmA/ΔmsnA双突变体表现出强烈的合成生长缺陷,表明这些转录因子在缺乏Galf生物合成的情况下对于维持细胞壁完整性很重要。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f7ca/5129474/5aa755fa5e34/CMI-18-1268-g006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f7ca/5129474/5277482c0bf8/CMI-18-1268-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f7ca/5129474/c52c3ae81e28/CMI-18-1268-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f7ca/5129474/ea4c691d98b3/CMI-18-1268-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f7ca/5129474/7322762119c1/CMI-18-1268-g004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f7ca/5129474/b66437b42c5a/CMI-18-1268-g005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f7ca/5129474/5aa755fa5e34/CMI-18-1268-g006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f7ca/5129474/5277482c0bf8/CMI-18-1268-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f7ca/5129474/c52c3ae81e28/CMI-18-1268-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f7ca/5129474/ea4c691d98b3/CMI-18-1268-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f7ca/5129474/7322762119c1/CMI-18-1268-g004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f7ca/5129474/b66437b42c5a/CMI-18-1268-g005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f7ca/5129474/5aa755fa5e34/CMI-18-1268-g006.jpg

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