Prominent transcriptomic changes in Mycobacterium intracellulare under acidic and oxidative stress

Prominent transcriptomic changes in Mycobacterium intracellulare under acidic and oxidative stress

Mycobacterium avium complex (MAC), including Mycobacterium intracellulare is a member of slow-growing mycobacteria and contributes to a substantial proportion of nontuberculous mycobacterial lung disease in humans affecting immunocompromised and elderly populations. Adaptation of pathogens in hostil...

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Veröffentlicht in:BMC genomics 2024-04, Vol.25 (1), p.376-376, Article 376
Hauptverfasser: Park, Hyun-Eui, Kim, Kyu-Min, Shin, Jeong-Ih, Choi, Jeong-Gyu, An, Won-Jun, Trinh, Minh Phuong, Kang, Kyeong-Min, Yoo, Jung-Wan, Byun, Jung-Hyun, Jung, Myung Hwan, Lee, Kon-Ho, Kang, Hyung-Lyun, Baik, Seung Cheol, Lee, Woo-Kon, Shin, Min-Kyoung
Format: Artikel
Sprache:eng
Schlagworte:
Acidic oxides
Adaptation
Cellular stress response
Control
Deoxyribonucleic acid
DNA
DNA biosynthesis
DNA repair
DNA replication
Down-regulation
Drug resistance in microorganisms
Ferredoxin
Formate dehydrogenase
Functional analysis
Genes
Genomes
Health aspects
Homologous recombination
Hydrogen peroxide
Identification and classification
Immunocompromised host
Infections
Leprosy
Lung diseases
Metabolism
Microenvironments
Mismatch repair
Molecular modelling
Mycobacteria
Mycobacterium
Mycobacterium avium complex
Mycobacterium intracellulare
Nitrogen
Nontuberculous mycobacteria
Nucleotide excision repair
Nucleotides
Oxidation resistance
Oxidative stress
Pathogens
Patients
Prevention
RecA protein
Recombination
Replication
RNA-seq
Soils
Stress resistance
Sulfur
Sulphur
Therapeutic targets
Transcriptomes
Transcriptomics
Tuberculosis
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Zusammenfassung:Mycobacterium avium complex (MAC), including Mycobacterium intracellulare is a member of slow-growing mycobacteria and contributes to a substantial proportion of nontuberculous mycobacterial lung disease in humans affecting immunocompromised and elderly populations. Adaptation of pathogens in hostile environments is crucial in establishing infection and persistence within the host. However, the sophisticated cellular and molecular mechanisms of stress response in M. intracellulare still need to be fully explored. We aimed to elucidate the transcriptional response of M. intracellulare under acidic and oxidative stress conditions. At the transcriptome level, 80 genes were shown [FC] ≥ 2.0 and p 
ISSN:1471-2164
1471-2164
DOI:10.1186/s12864-024-10292-4