Analysis of Straw Degradation and Whole Genome of Acrophialophora multiforma.

IF 2.3 3区生物学 Q3 MICROBIOLOGY

Current Microbiology Pub Date : 2024-10-28 DOI:10.1007/s00284-024-03937-w

Shui Zhao, Yufeng Zhao, Keyun Song, Yanling Wang, Yingxia Lu, Chunbo Dong, Yanwei Zhang, Yanfeng Han

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Abstract

Lignin is one of the main components in plants, which can transform value-added bioenergy and chemicals. At the same time, due to the close combination of lignin and hemicellulose in the structure, it becomes a barrier for cellulose utilization. Therefore, the effective degradation of lignin is of great significance for the utilization of these resources. In this study, the lignin degrading ability of Acrophialophora multiforma strain GZUIFR 22.397 was preliminarily investigated through straw degradation experiments and enzyme activity determination. Then, the whole genome of strain A. multiforma GZUIFR 22.397 was sequentially analyzed and annotated through multiple gene function annotation databases to comprehensively evaluate its lignin degrading potential. The results showed that the weight loss of straw reached 5.98 ± 3.95%. Laccase activity was 77.49 ± 2.65 U/L, lignin peroxidase activity was 160.57 ± 29.07 U/L, and manganese peroxidase activity was 294.83 ± 3.77 U/L. The genome of A. multiforma strain GZUIFR 22.397 spans 33.81 megabases and encompasses 9,370 genes. Among these, 6,122 genes have been annotated in the Gene Ontology (GO), 2,286 in the Cluster of Orthologous Groups of proteins (KOG), 2,283 in the Kyoto Encyclopedia of Genes and Genomes (KEGG), and 603 in the Carbohydrate Active enZYmes Database (CAZy). Concurrently, the genome analysis predicted the presence of 9 genes for laccase, 2 genes for lignin peroxidase, and 2 genes for manganese peroxidase. In summary, these results indicated that A. multiforma GZUIFR 22.397 has lignin degrading ability, and laid the foundation for deciphering the molecular mechanism of A. multiforma GZUIFR 22.397 to degrade lignin.

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秸秆降解和多形角藻全基因组分析

木质素是植物中的主要成分之一，可转化为高附加值的生物能源和化学品。同时，由于木质素与半纤维素在结构上结合紧密，成为纤维素利用的障碍。因此，有效降解木质素对这些资源的利用具有重要意义。本研究通过秸秆降解实验和酶活性测定，初步研究了多形角藻（Acrophialophora multiforma）菌株 GZUIFR 22.397 的木质素降解能力。然后，通过多个基因功能注释数据库对多形角菌菌株 GZUIFR 22.397 的全基因组进行序列分析和注释，以全面评估其木质素降解潜力。结果表明，秸秆的失重率为 5.98 ± 3.95%。漆酶活性为 77.49 ± 2.65 U/L，木质素过氧化物酶活性为 160.57 ± 29.07 U/L，锰过氧化物酶活性为 294.83 ± 3.77 U/L。A. multiforma 菌株 GZUIFR 22.397 的基因组跨度为 33.81 兆字节，包含 9370 个基因。其中，6122 个基因已在基因本体（GO）中注释，2286 个基因在蛋白质同源群（KOG）中注释，2283 个基因在京都基因和基因组百科全书（KEGG）中注释，603 个基因在碳水化合物活性酶数据库（CAZy）中注释。同时，基因组分析还预测存在 9 个漆酶基因、2 个木质素过氧化物酶基因和 2 个锰过氧化物酶基因。综上所述，这些结果表明多形菌 GZUIFR 22.397 具有降解木质素的能力，为破译多形菌 GZUIFR 22.397 降解木质素的分子机制奠定了基础。

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来源期刊

Current Microbiology 生物-微生物学

CiteScore

4.80

自引率

3.80%

发文量

380

审稿时长

2.5 months

期刊介绍： Current Microbiology is a well-established journal that publishes articles in all aspects of microbial cells and the interactions between the microorganisms, their hosts and the environment. Current Microbiology publishes original research articles, short communications, reviews and letters to the editor, spanning the following areas: physiology, biochemistry, genetics, genomics, biotechnology, ecology, evolution, morphology, taxonomy, diagnostic methods, medical and clinical microbiology and immunology as applied to microorganisms.