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Comparative Genome Analysis of Bacteria isolated from Cold Environments into Cold Adaptation through the Whole CAZyme Pattern Provides New Insight

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  • 발행기관
    선문효정학술연구회 바로가기
  • 간행물
    The Journal of Sciences and Innovation for Sustainable Peace(구 The journal of Hyojeong Academia) 바로가기
  • 통권
    Vol. 1 No. 1 (2023.05)바로가기
  • 페이지
    pp.35-40
  • 저자
    So-Ra Han, Hyun Lee, Tae-Jin Oh
  • 언어
    영어(ENG)
  • URL
    https://www.earticle.net/Article/A481801

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원문정보

초록

영어
Recently, microorganism studies increases have provided potential applications and challenges for all organisms. Understanding how the microorganisms' diverse metabolisms have an essential effect on other organisms is crucial. Isolated bacteria from cold environments and have the potential to play various roles at low temperatures. The genetic pattern analysis of carbohydrateactive enzymes (CAZymes) in isolated bacteria from cold environments can help to determine how they adapt and survive in extreme environments. In a genome sequence-based, this study provides insights into the diversity of redundant patterns of CAZyme for finding new compounds and active enzymes that can endure the cold environment of microbial. Genome-wide comparisons confirmed that AA3, AA4, CE1, CE4, CE9, CE14, GH3, GH13, GH23, GT2, GT4, GT51, and CBM48 families of CAZyme were highlighted from isolated bacteria genomes from the cold environment. The CAZyme pattern of cold environment microbial can infer that energy is obtained from polysaccharides found in crustaceans, algae, and grasses in cold environments, such as glycogen, cellulose, hemicellulose, and chitin. These overall results explained the genome sequence based CAZyme pattern analysis of cold environment microbial. The most visible patterns were groups of enzymes that could degrade the main components of a fungal cell wall or the shell components of crustaceans. Thus, In this study provides a way for isolated bacteria from a cold environment to utilize polysaccharide or carbohydrate degradation as an energy source to generate energy in cold environments and provides a foundation for understanding survival adaptation mechanisms under cold adaption.

목차

Abstract
1. Introduction
2. Materials and Methods
2.1 Isolation of Bacteria from Cold Environment
2.2 Genomic DNA Extraction and Genome Sequencing
2.3 Profile Annotation and CAZyme Annotation of the Cold-adapted Bacteria Genome Sequence
3. Results
3.1 Genome Information for Cold-adapted Bacteria
3.2 CAZyme Encoding in Cold-adapted Bacteria
3.3 GH Family of CAZyme Pattern in a Cold Environment Bacteria Genome
4. Discussion
References

키워드

Complete genome sequence CAZyme Cold environment Cold adaptation

저자

  • So-Ra Han [ Bio Bigdata-based Chungnam Smart Clean Research Leader Training Program, Sun Moon University/Genome-based BioIT Convergence Institute, Sun Moon University, Asan, 31460, Korea ]
  • Hyun Lee [ Bio Bigdata-based Chungnam Smart Clean Research Leader Training Program, Sun Moon University/Genome-based BioIT Convergence Institute, Sun Moon University/Division of Computer Science and Engineering, Sun Moon University, Asan, 31460, Korea ]
  • Tae-Jin Oh [ Bio Bigdata-based Chungnam Smart Clean Research Leader Training Program, Sun Moon University/Genome-based BioIT Convergence Institute, Sun Moon University/ Department of Life Science and Biochemical Engineering, Sun Moon University, Asan, 31460, Korea; ] Corresponding Author

참고문헌

자료제공 : 네이버학술정보

간행물 정보

발행기관

  • 발행기관명
    선문효정학술연구회 [Sun Moon Hyojeong Academy Society]
  • 설립연도
    2023
  • 분야
    복합학>학제간연구
  • 소개
    Journal of Hyojeong Academia aims to serve as a global platform where researchers and scholars of various disciplines can contribute ideas for our sustainable global community of Co‐existence, Co‐prosperity, and Co‐righteousness. The journal is a multidisciplinary, open‐access, internationally peer‐reviewed academic journal, and it invites all areas of research conducted in the spirit of post materialism including studies centering on God, studies unifying religions and sciences, and studies on all aspects of Co‐existence, Co‐prosperity, and Co‐righteousness.

간행물

  • 간행물명
    The Journal of Sciences and Innovation for Sustainable Peace(구 The journal of Hyojeong Academia)
  • 간기
    반년간
  • pISSN
    2982-9305
  • 수록기간
    2023~2025
  • 십진분류
    KDC 238 DDC 289

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