Genomic and exoproteomic diversity in plant biomass degradation approaches among Aspergilli

IF 14.1 1区生物学 Q1 MYCOLOGY

Studies in Mycology Pub Date : 2018-09-01 DOI:10.1016/j.simyco.2018.09.001

M.R. Mäkelä , M. DiFalco , E. McDonnell , T.T.M. Nguyen , A. Wiebenga , K. Hildén , M. Peng , I.V. Grigoriev , A. Tsang , R.P. de Vries

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引用次数: 19

Abstract

We classified the genes encoding carbohydrate-active enzymes (CAZymes) in 17 sequenced genomes representing 16 evolutionarily diverse Aspergillus species. We performed a phylogenetic analysis of the encoding enzymes, along with experimentally characterized CAZymes, to assign molecular function to the Aspergilli CAZyme families and subfamilies. Genome content analysis revealed that the numbers of CAZy genes per CAZy family related to plant biomass degradation follow closely the taxonomic distance between the species. On the other hand, growth analysis showed almost no correlation between the number of CAZyme genes and the efficiency in polysaccharide utilization. The exception is A. clavatus where a reduced number of pectinolytic enzymes can be correlated with poor growth on pectin. To gain detailed information on the enzymes used by Aspergilli to breakdown complex biomass, we conducted exoproteome analysis by mass spectrometry. These results showed that Aspergilli produce many different enzymes mixtures in the presence of sugar beet pulp and wheat bran. Despite the diverse enzyme mixtures produced, species of section Nigri, A. aculeatus, A. nidulans and A. terreus, produce mixtures of enzymes with activities that are capable of digesting all the major polysaccharides in the available substrates, suggesting that they are capable of degrading all the polysaccharides present simultaneously. For the other Aspergilli, typically the enzymes produced are targeted to a subset of polysaccharides present, suggesting that they can digest only a subset of polysaccharides at a given time.

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Aspergilli植物生物量降解途径中的基因组和系外基因组多样性。

我们将编码碳水化合物活性酶（CAZymes）的基因分类在17个已测序的基因组中，这些基因组代表了16个进化上不同的曲霉属物种。我们对编码酶以及实验表征的CAZymes进行了系统发育分析，以将分子功能分配给Aspergilli CAZyme家族和亚家族。基因组含量分析表明，每个CAZy家族中与植物生物量降解相关的CAZy基因数量与物种之间的分类距离密切相关。另一方面，生长分析显示CAZyme基因的数量与多糖利用效率之间几乎没有相关性。棒曲霉是一个例外，那里果胶水解酶数量的减少可能与果胶生长不良有关。为了获得关于Aspergilli用来分解复杂生物量的酶的详细信息，我们通过质谱法进行了胞外蛋白酶组分析。这些结果表明，在甜菜浆和麦麸的存在下，Aspergilli产生许多不同的酶混合物。尽管产生了不同的酶混合物，但Nigri节、A.acureatus、A.nidulans和A.terreus的物种产生的酶混合物具有能够消化可用底物中所有主要多糖的活性，这表明它们能够同时降解所有存在的多糖。对于另一种Aspergilli，产生的酶通常针对存在的多糖子集，这表明它们在给定时间只能消化多糖的子集。

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来源期刊

Studies in Mycology 生物-真菌学

CiteScore

35.60

自引率

3.00%

发文量

期刊介绍： The international journal Studies in Mycology focuses on advancing the understanding of filamentous fungi, yeasts, and various aspects of mycology. It publishes comprehensive systematic monographs as well as topical issues covering a wide range of subjects including biotechnology, ecology, molecular biology, pathology, and systematics. This Open-Access journal offers unrestricted access to its content. Each issue of Studies in Mycology consists of around 5 to 6 papers, either in the form of monographs or special focused topics. Unlike traditional length restrictions, the journal encourages submissions of manuscripts with a minimum of 50 A4 pages in print. This ensures a thorough exploration and presentation of the research findings, maximizing the depth of the published work.