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Special Issues
- Pioneering strategies for overcoming bacterial drug resistance (2026)
- Advancing microbial engineering through synthetic biology (2025)
- Host-associated microbiome (2024)
- Bacterial regulatory mechanisms for the control of complex cellular mechanisms (2023)
- Two years into COVID-19 pandemic: Where are we? (2022)
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- Potential of marine dinoflagellates Amphidinium carterae and Prorocentrum minimum as fatty acids producers: A comparative transcriptome and fatty acid profiling study
- Han-Sol Kim, Su-Hwa Lee, Zhun Li, Hah Young Yoo, Jang-Seu Ki
- J. Microbiol. 2026;64(6):e2604005. Published online June 30, 2026
- DOI: https://doi.org/10.71150/jm.2604005
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Abstract
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Marine dinoflagellates are gaining attention as sustainable bioresource for polyunsaturated fatty acids (PUFAs), particularly omega-3 such as eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA). In the present study, we analyzed the FAs and transcriptomic profiles of marine dinoflagellates Amphidinium carterae (D-044) and Prorocentrum minimum (D-127) to evaluate their potential as FAs producers. Gas chromatography-FA methyl ester (GC-FAME) analysis showed that A. carterae is a superior omega-3 producer, yielding a total FA content of 67.6 mg/g DW. DHA accounted for 26.7% of the total FAME profile, which is significantly higher than that of P. minimum (18.1 mg/g DW; DHA 13.1%). Gene Ontology (GO) annotation revealed genes related to FAs and lipid metabolism in A. carterae (1,217 genes) and in P. minimum (2,317 genes), which provide a molecular basis for dinoflagellates with high lipid productivity. Notably, three lipid droplet-associated hydrolase (LDAH) genes with diverse evolutionary origins were identified from A. carterae. These findings suggest a potential expansion of the genetic repertoire related to lipid storage and metabolism, highlighting A. carterae and LDAH as candidates for future biotechnological applications and microalgal metabolic engineering.
- Genetic Diversity of Multi-resistant Salmonella enterica Serotype Typhimurium Isolates from Animals and Humans
- Yong-Ku Woo , Su-Hwa Lee
- J. Microbiol. 2006;44(1):106-112.
- DOI: https://doi.org/2329 [pii]
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Abstract
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In this study, the genetic diversities of multi-resistant Salmonella typhimurium (ST) isolates were
analyzed via the application of both pulsed field gel electrophoresis (PFGE) and Polymerase chain
reaction (PCR) analysis methods, using 6 kinds of primers (REP, ERIC, SERE, BOX, P-1254 and
OPB-17). And their discriminative abilities (DA) were also compared in order to determine the
most effective and reliable analysis method. 118 S. typhimurium isolates, cultured from diverse animals
and human patients in Korea beginning in 1993, were analyzed and subjected to a comparison
of Simpson’s index of diversity (SID), using both PFGE and PCR methods. PFGE by XbaI
enzyme digestion allowed for discrimination into 9 pulsotypes, with high SID values (0.991) on the
genomic DNA level. This shows that PFGE is a very discriminative genotypic tool, and also that
multiple clones of S. typhimurium isolates had existed in domestic animals and humans in Korea
since 1993. However, we could ultimately not to trace the definitive sources or animal reservoirs
of specific S. typhimurium isolates examined in this study. Depending on the SID values, the combined
method
(7 kinds of method) was found to be the most discriminative method, followed by (in order) SERE-PCR, REP-PCR, ERIC-PCR, PFGE & OPB-17 (RAPD), P-1254 (RAPD), and BOX-PCR at the 80% clone cut-off value. This finding suggests that the REP-PCR method (which utilizes 4 primer types) may be an alternative tool to PFGE for the genotyping of S. typhimurium isolates, with comparable cost, time, and labor requirement. The establishment of a highly reliable and discriminatory method for epidemiologic analysis is considered necessary in order for researchers to trace the sources of specific pathogens and, consequently, to control and prevent the spread of epidemic S. typhimurium isolates to humans.
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