南极微杆菌 PAMC28756 与 31 种其他微杆菌的基于基因组的 CAZyme 盒的比较分析。

Comparative analysis of genome-based CAZyme cassette in Antarctic Microbacterium sp. PAMC28756 with 31 other Microbacterium species.

机构信息

Department of Life Science and Biochemical Engineering, Graduate School, SunMoon University, Asan, 31460, South Korea.

Agricultural Microbiology Division, National Institute of Agricultural Sciences, Rural Development Administration, Jeonju, 55365, South Korea.

出版信息

Genes Genomics. 2022 Jun;44(6):733-746. doi: 10.1007/s13258-022-01254-9. Epub 2022 Apr 29.

DOI:10.1007/s13258-022-01254-9

PMID:35486322

Abstract

BACKGROUND

The genus Microbacterium belongs to the family Microbacteriaceae and phylum Actinobacteria. A detailed study on the complete genome and systematic comparative analysis of carbohydrate-active enzyme (CAZyme) among the Microbacterium species would add knowledge on metabolic and environmental adaptation. Here we present the comparative genomic analysis of CAZyme using the complete genome of Antarctic Microbacterium sp. PAMC28756 with other complete genomes of 31 Microbacterium species available.

OBJECTIVE

The genomic and CAZyme comparison of Microbacterium species and to rule out the specific features of CAZyme for the environmental and metabolic adaptation.

METHODS

Bacterial source were collected from NCBI database, CAZyme annotation of Microbacterium species was analyzed using dbCAN2 Meta server. Cluster of orthologous groups (COGs) analysis was performed using the eggNOG4.5 database. Whereas, KEGG database was used to compare and obtained the functional genome annotation information in carbohydrate metabolism and glyoxylate cycle.

RESULTS

Out of 32 complete genomes of Microbacterium species, strain No. 7 isolated from Activated Sludge showed the largest genomic size at 4.83 Mb. The genomic size of PAMC28756 isolated from Antarctic lichen species Stereocaulons was 3.54 Mb, the G + C content was 70.4% with 3,407 predicted genes, of which 3.36% were predicted CAZyme. In addition, while comparing the Glyoxylate cycle among 32 bacteria, except 10 strains, all other, including our strain have Glyoxylate pathway. PAMC28756 contained the genes that degrade cellulose, hemicellulose, amylase, pectinase, chitins and other exo-and endo glycosidases. Utilizing these polysaccharides can provides source of energy in an extreme environment. In addition, PAMC28756 assigned the (10.15%) genes in the carbohydrate transport and metabolism functional group closely related to the CAZyme for polysaccharides degradation.

CONCLUSIONS

The genomic content and CAZymes distribution was varied in Microbacterium species. There was the presence of more than 10% genes in the carbohydrate transport and metabolism functional group closely related to the CAZyme for polysaccharides degradation. In addition, occurrence of glyoxylate cycle for alternative utilization of carbon sources suggest the adaptation of PAMC28756 in the harsh microenvironment.

摘要

背景

微杆菌属属于微杆菌科和放线菌门。对微杆菌属物种的完整基因组和碳水化合物活性酶（CAZyme）系统比较分析的详细研究将增加对代谢和环境适应的了解。在这里，我们使用南极微杆菌 PAMC28756 的完整基因组和其他 31 种微杆菌物种的完整基因组，对 CAZyme 的比较基因组分析进行了介绍。

目的

对微杆菌属物种的基因组和 CAZyme 进行比较，并排除 CAZyme 对环境和代谢适应的特定特征。

方法

细菌来源从 NCBI 数据库中收集，使用 dbCAN2 Meta 服务器分析微杆菌属物种的 CAZyme 注释。使用 eggNOG4.5 数据库进行聚类的直系同源群（COGs）分析。而使用 KEGG 数据库比较并获得碳水化合物代谢和乙醛酸循环中的功能基因组注释信息。

结果

在 32 种微杆菌属的完整基因组中，从活性污泥中分离出的 7 号菌株显示出最大的基因组大小，为 4.83 Mb。从南极地衣 Stereocaulons 中分离出的 PAMC28756 的基因组大小为 3.54 Mb，G+C 含量为 70.4%，预测基因 3407 个，其中 3.36%预测为 CAZyme。此外，在比较 32 种细菌中的乙醛酸循环时，除了 10 株菌外，其他所有细菌，包括我们的菌株都有乙醛酸途径。PAMC28756 含有降解纤维素、半纤维素、淀粉酶、果胶酶、几丁质和其他外切和内切糖苷酶的基因。在极端环境中，利用这些多糖可以提供能量来源。此外，PAMC28756 将碳水化合物运输和代谢功能组中与多糖降解密切相关的（10.15%）基因分配给 CAZyme。

结论

微杆菌属物种的基因组内容和 CAZymes 分布不同。在碳水化合物运输和代谢功能组中，与多糖降解密切相关的 CAZyme 有 10%以上的基因。此外，乙醛酸循环的存在表明 PAMC28756 能够适应恶劣的微环境。

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南极微杆菌 PAMC28756 与 31 种其他微杆菌的基于基因组的 CAZyme 盒的比较分析。

Comparative analysis of genome-based CAZyme cassette in Antarctic Microbacterium sp. PAMC28756 with 31 other Microbacterium species.

机构信息

出版信息

BACKGROUND

OBJECTIVE

METHODS

RESULTS

CONCLUSIONS

背景

目的

方法

结果

结论

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