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Mol. Cells 2010; 30(1): 71-76
Published online July 31, 2010
https://doi.org/10.1007/s10059-010-0090-3
© The Korean Society for Molecular and Cellular Biology
Powerful Usage of Phylogenetically Diverse Staphylococcus aureus Control Strains for Detecting Multidrug Resistance Genes in Transcriptomics Studies
Correspondence to : *Correspondence: heebal@snu.ac.kr
Staphylococcus aureus is an important human pathogen responsible for life-threatening septicemia, endocarditis, and toxic shock syndrome. Although positive (MRSA; ATCC 33591) and negative (MSSA; ATCC 25923) control strains have been used for various pathogenesis or assay studies, little is known about the genomic structure of the strains, and there has been little genome-wide expression analysis. Phylogenetic analyses revealed that ATCC 33591 and ATCC 25923 are the most genetically diverse strains of the 15 S. aureus genomes studied. Microarray analysis showed that the most significantly upregulated group of MRSA genes was the transport group, which includes ATP-binding cassette (ABC) transporters, the two-compo-nent system, and the phosphotransferase system. Analysis of the KEGG pathway showed that ABC transporters and the two-component system were the most significantly altered in MRSA. Transcriptional profiling showed a clear difference in gene expression between MRSA and MSSA due to the great genetic distance between the two control strains. Therefore, we suggest that use of the two control strains in comparative genomics or transcriptomics studies would facilitate the identification of major genes for drug resistance in S. aureus.
Keywords ATCC 25923, ATCC 33591, multidrug resistance genes, Staphylococcus aureus
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Research Article
Mol. Cells 2010; 30(1): 71-76
Published online July 31, 2010 https://doi.org/10.1007/s10059-010-0090-3
Copyright © The Korean Society for Molecular and Cellular Biology.
Powerful Usage of Phylogenetically Diverse Staphylococcus aureus Control Strains for Detecting Multidrug Resistance Genes in Transcriptomics Studies
Jun-Sang Ham1, Seung-Gyu Lee1, Seok-Geun Jeong1, Mi-Hwa Oh1, Dong-Hun Kim1, Taeheon Lee,
Bo-Young Lee, Sook Hee Yoon, and Heebal Kim*
Laboratory of Bioinformatics and Population Genetics, Department of Agricultural Biotechnology, Seoul National University, Seoul 151-742, Korea, 1National Institute of Animal Science, Rural Development Administration, Suwon 441-706, Korea
Correspondence to:*Correspondence: heebal@snu.ac.kr
Abstract
Staphylococcus aureus is an important human pathogen responsible for life-threatening septicemia, endocarditis, and toxic shock syndrome. Although positive (MRSA; ATCC 33591) and negative (MSSA; ATCC 25923) control strains have been used for various pathogenesis or assay studies, little is known about the genomic structure of the strains, and there has been little genome-wide expression analysis. Phylogenetic analyses revealed that ATCC 33591 and ATCC 25923 are the most genetically diverse strains of the 15 S. aureus genomes studied. Microarray analysis showed that the most significantly upregulated group of MRSA genes was the transport group, which includes ATP-binding cassette (ABC) transporters, the two-compo-nent system, and the phosphotransferase system. Analysis of the KEGG pathway showed that ABC transporters and the two-component system were the most significantly altered in MRSA. Transcriptional profiling showed a clear difference in gene expression between MRSA and MSSA due to the great genetic distance between the two control strains. Therefore, we suggest that use of the two control strains in comparative genomics or transcriptomics studies would facilitate the identification of major genes for drug resistance in S. aureus.
Keywords: ATCC 25923, ATCC 33591, multidrug resistance genes, Staphylococcus aureus
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