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Comparative Genomic Study of Polar Lichen-Associated Hymenobacter sp. PAMC 26554 and Hymenobacter sp. PAMC 26628 Reveals the Presence of Polysaccharide-Degrading Ability Based on Habitat

Authors
Ghimire, NishaHan, So-RaKim, ByeolleePark, HyunLee, Jun HyuckOh, Tae-Jin
Issue Date
10월-2020
Publisher
SPRINGER
Citation
CURRENT MICROBIOLOGY, v.77, no.10, pp.2940 - 2952
Indexed
SCIE
SCOPUS
Journal Title
CURRENT MICROBIOLOGY
Volume
77
Number
10
Start Page
2940
End Page
2952
URI
https://scholar.korea.ac.kr/handle/2021.sw.korea/53038
DOI
10.1007/s00284-020-02120-1
ISSN
0343-8651
Abstract
The genusHymenobacteris classified in the family Hymenobacteraceae under the phylum Bacteroidetes. They have been isolated from diverse environments, such as air, soil, and lichen, along with extreme polar environments, including the Arctic and Antarctic regions. The polar regions have attracted intense research interest for the discovery of novel microorganisms and their functions. Analysis of the polysaccharide utilization-related carbohydrate-active enzyme among the two lichen-associated polar organismsHymenobactersp. PAMC 26554 andHymenobactersp. PAMC 26628 was performed, along with its comparison with the complete genome of the same genus available in the NCBI database. The study was conducted relying on the AZCL screening data for the two polar lichen-associated species. While comparing with eight other complete genomes, differences in polysaccharide preferences based on the isolation environment and biosample source were discovered. All the species showed almost similar percentage of cellulose synthesis and degradation genes. However, the polar lichen-associated microorganism was found to have a high percentage of hemicellulose degradation genes, and less starch and laminarin degradation. TheHymenobacterspecies with higher number of hemicellulose degradation genes was found to have a lower number of starch and laminarin degradation genes and vice versa, highlighting the differences in polysaccharide utilization among the species.
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