• 한국미생물·생명공학회지
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• 제47권3호
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• pp.401-411
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• 2019

All Idiomarina species are isolated from saline environments; microorganisms in such extreme habitats develop metabolic adaptations and can produce compounds such as proteases with an industrial potential. ARDRA and 16S rRNA gene sequencing are established methods for performing phylogenetic analysis and taxonomic identification. However, 16S-23S ITS is more variable than the 16S rRNA gene within a genus, and is therefore, used as a marker to achieve a more precise identification. In this study, ten protease producing Idiomarina strains isolated from the Peruvian salterns were characterized using biochemical and molecular methods to determine their bacterial diversity and industrial potential. In addition, comparison between the length and nucleotide sequences of a 16S-23S ITS region allowed us to assess the inter and intraspecies variability. Based on the 16S rRNA gene, two species of Idiomarina were identified (I. zobellii and I. fontislapidosi). However, biochemical tests revealed that there were differences between the strains of the same species. Moreover, it was found that the ITS contains two tRNA genes, $tRNA^{Ile(GAT)}$ and $tRNA^{Ala(TGC)}$, which are separated by an ISR of a variable size between strains of I. zobellii. In one strain of I. zobellii (PM21), we found nonconserved nucleotides that were previously not reported in the $tRNA^{Ala}$ gene sequences of Idiomarina spp. Thus, based on the biochemical and molecular characteristics, we can conclude that protease producing Idiomarina strains have industrial potential; only two I. zobellii strains (PM48 and PM72) exhibited the same properties. The differences between the other strains could be explained by the presence of subspecies.

• Parasites, Hosts and Diseases
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• 제51권4호
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• pp.401-412
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• 2013

Because of an increased number of Acanthamoeba keratitis (AK) along with associated disease burdens, medical professionals have become more aware of this pathogen in recent years. In this study, by analyzing both the nuclear 18S small subunit ribosomal RNA (18S rRNA) and mitochondrial 16S rRNA gene loci, 27 clinical Acanthamoeba strains that caused AK in Japan were classified into 3 genotypes, T3 (3 strains), T4 (23 strains), and T5 (one strain). Most haplotypes were identical to the reference haplotypes reported from all over the world, and thus no specificity of the haplotype distribution in Japan was found. The T4 sub-genotype analysis using the 16S rRNA gene locus also revealed a clear subconformation within the T4 cluster, and lead to the recognition of a new sub-genotype T4i, in addition to the previously reported sub-genotypes T4a-T4h. Furthermore, 9 out of 23 strains in the T4 genotype were identified to a specific haplotype (AF479533), which seems to be a causal haplotype of AK. While heterozygous nuclear haplotypes were observed from 2 strains, the mitochondrial haplotypes were homozygous as T4 genotype in the both strains, and suggested a possibility of nuclear hybridization (mating reproduction) between different strains in Acanthamoeba. The nuclear 18S rRNA gene and mitochondrial 16S rRNA gene loci of Acanthamoeba spp. possess different unique characteristics usable for the genotyping analyses, and those specific features could contribute to the establishment of molecular taxonomy for the species complex of Acanthamoeba.

• 대한의생명과학회지
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• 제18권3호
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• pp.299-306
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• 2012

Recently, the prevalence of 16S rRNA methylase conferring high-level resistance to aminoglycosides has been increasing in Gram-negative bacilli globally. We determined the prevalence and genotype of these methylase-producing bacteria, and characterized the co-resistance to ${\beta}$-lactam antibiotics and quinolone in Gram-negative clinical isolates collected in 2010 at a hospital in Korea. Among 65 amikacin-resistant isolates screened from 864 Gram-negative bacilli (GNB), 16S rRNA methylase genes were detected from 49 isolates, including Acinetobacter baumannii (43), Klebsiella pneumoniae (2), Proteus mirabilis (2) and Serratia marcescens (1), Empedobacter brevis (1). All of the 16S rRNA methylase genotype was armA and no variant sequences of amplified PCR products for armA were noted. The 16S rRNA methylase producing bacteria showed much higher resistance to aminoglycoside for Enterobacteriaceae and glucose non-fermenting (NF)-GNB and to imipenem for glucose NF-GNB, than the non-producing isolates. All of the 16S rRNA methylase producing Enterobacteriaceae had the extended-spectrum-${\beta}$-lactamase. In addition, two K. pneumoniae concurrently produced both plasmid-mediated AmpC ${\beta}$-lactamase and qnrB gene. All of the amikacin-resistant A. baumannii (43) co-harbored armA 16S rRNA methylase and $bla_{OXA-23}$ carbapenemase. In conclusion, 16S rRNA methylase producing bacteria were very prevalent among GNB in South Korea, and were commonly associated with co-resistance, including carbapenem and quinolone.

• Pediatric Gastroenterology, Hepatology & Nutrition
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• 제7권2호
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• pp.137-142
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• 2004

목적: 우리 나라 소아에 감염된 H. pylori에서 PCR RFLP를 이용하여 clarithromycin 내성의 원인으로 알려진 23S rRNA의 돌연변이를 찾아내고, cagA, vacA 유전형과 clarithromycin 내성 돌연변이 사이에 연관이 있는지 알아보고자 하였다. 방법: 서울대학교병원 소아과에서 위내시경검사를 통해 H. pylori 위염으로 진단 받은 환아 27명의 내시경 생검 조직에서 H. pylori cagA, vacA 유전자를 증폭하여 유전형을 조사하였다. H. pylori의 23 rRNA V domain을 조사하기 위해 증폭한 후, PCR 산물은 BsaI과 MboII 제한효소로 처리하여 PCR RFLP를 이용하여 돌연변이 여부를 판정하였다. 결과: A2143G 돌연변이가 1명에서, A2144G 돌연변이가 4명에서 발견되어 18.5%가 clarithromycin 내성으로 관찰되었다. cagA 양성이 25명(93%)이었고, vacA s1a/m1이 6명(22%), s1a/m2가 3명(11%), s1c/m1이 16명(59%), s1c/m2가 1명(4%)이었다. clarithromycin 내성 돌연변이를 보이는 경우는 모두 cagA 양성이었고 s1a/m1이 2명, s1c/m1이 2명으로 특정 유전형이 clarithromycin 내성 돌연변이와 연관성을 보이지 않았다. 결론: 위점막 조직에서 PCR-RFLP를 이용한 H. pylori의 clarithromycin 내성 검사는 항생제를 선택하는데 유용하다고 생각된다. Clarithromycin 내성 돌연변이는 cagA, vacA 유전형과 연관성이 없었다.

• 환경생물
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• 제21권1호
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• pp.77-85
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• 2003

본 연구는 위장관염을 일으키는 Vibrio fluvialis의 16S-23S rRNA intergenic spacer region을 분석하였다. ISR을 PCR 증폭 후 plasmid vector에 클로닝하여 염기서열을 분석하였다. 그 결과, ISR의 염기서열은 tRNA gene 조성과 크기에 따라 총 6개의 type으로 분류되었다. 각 type은 tRNA gene 조성과 수에 따라 ISR-A, ISR-E, ISR-El, ISR-lA, ISR-EKV, ISR-EKAV로 명명하였으며, ISR-A는 tRN $A^{Ala}$; ISR-lA, tRN $A^{Ile}$-tRN $A^{Ala}$; ISR-EKV, tRN $A^{Glu}$-tRN $A^{Lys}$-tRN $A^{Val}$; ISR-EKAV, tRN $A^{Glu}$-tRN $A^{Lys}$-tRN $A^{Ala}$-tRN $A^{Val}$; ISR-E와 El은 tRN $A^{Glu}$를 갖고 있었다. 이 중 ISR-EKV type은 minor type으로 존재하고 있으며, 여러 Vibrio종의 ISR-EKV type과 비교시 변이성이 높은 부위를 확인하였다. 따라서, 이 ISR-EKV의 염기서열을 여러 Vibrio종에서 V. fluuialis를 검출하기 위한 species-specific primer 제작에 이용하였다. 제작된 primer의 특이성은 여러 Vibrio 의 genomic DNA를 분리하여 PCR 반응으로 확인하였다. 그 결과, 제작된 primer는 V. fluvialis에 종 특이성이 있으며 여러 Vibrio종으로부터 빠른 검출이 가능함을 확인하였다.로부터 빠른 검출이 가능함을 확인하였다.

• 한국미생물·생명공학회지
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• 제48권2호
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• pp.193-204
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• 2020

Sixteen acetic acid bacteria (AAB) were isolated from blueberries and citric fruits of the Salto Grande region (Concordia, Entre Rios, Argentina) using enrichment techniques and plate isolation. Enrichment broths containing ethanol and acetic acid enabled maximum AAB recovery, since these components promote their growth. Biochemical tests allowed classification of the bacteria at genus level. PCR-RFLP of the 16S rRNA and PCR-RFLP of the 16S-23S rRNA intergenic spacer allowed further classification at the species level; this required treatment of the amplified products of 16S and 16S-23S ITS ribosomal genes with the following restriction enzymes: AluI, RsaI, HaeIII, MspI, TaqI, CfoI, and Tru9I. C7, C8, A80, A160, and A180 isolates were identified as Gluconobacter frateurii; C1, C2, C3, C4, C5, C6, A70, and A210 isolates as Acetobacter pasteurianus; A50 and A140 isolates as Acetobacter tropicalis; and C9 isolate as Acetobacter syzygii. The bacteria identified by 16S rRNA PCR-RFLP were validated by 16S-23S PCR-RFLP; however, the C1 isolate showed different restriction patterns during identification and validation. Partial sequencing of the 16S gene resolved the discrepancy.

• 미생물학회지
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• 제36권3호
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• pp.173-180
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• 2000

부산의 가물치 양식장으로부터 분리된 A. veronii bv. sobria 와 A. caviae를 대상으 로 16S-23S rRNA Intergenic Spacer Region을 cloning 하여 염기서dufd을 분석하였다. A. veronii bv. sobria 는 4그룹의 band pattern이 형성되었고 A. caviae는 1그룹만이 존재하였 다. A. veronii bv. sobria 의 4그룹에 대한 band 수는 2~4개까지 다양하게 나타났으며. 479~481 bp (ISR-1), 513~524 bp (ISR-2), 537~539 bp (ISR-3) 의 염기서열을 밝혀냈다. A. caviae는 3개의 band가 형성되었고,470~480bp (ISR-1), 521~525bp (ISR-2),568~602 bp (ISR-4)의 염기서열을 가지고 있었다. 그리고 이들에 대한 tRNA를 분석한 결과 ISR-1은 tRNAIle(GAT), tRNAAla(TGC)를 가지고 있고 ISR-2,3,4는 tRNAGlu(TTC)를 가지고 있었 다. A. caviae는 ISR-4의 151~281 bp에서 A. veronii bv. sobria 가 가지고 있지 않은 보존 적인 염기서열을 가지고 있었다. 그 중 A. vaviae의 178~197 bp 염기서열을 primer로 design하여 PCR을 실시한 결과 A. caviae 균주에서만 종특이적으로 생성되는 450 bp 정도 의 밴들르 얻을수 있었다.

• 산업기술연구
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• 제28권A호
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• pp.141-147
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• 2008

Several contaminated bacteria such as Lactobacillus brevis and Pediococcus damnosus in beer production cause beer spoilage by producing off flavours and turbidity. Detection of these organisms is complicated by the strict anaerobic conditions and lengthy incubation times required for their cultivation, consequently there is a need for more rapid detection methods. Recently, two contaminated strains were isolated from vessel of beer production and identified as Lactobacillus species by API kit identificaton as well as 16S-23S ITS sequencing analyses. Two isolated strains were named as Lactobacillus sp. HLA1 and Lactobacillus HLB2, respectively. A polymerase chain reaction (PCR) method was developed for the rapid and specific detection of Lactobacillus sp.. Two sets of primer pairs (HLA1-F/HLA1-R and HLB2-F/HLB2-R) were designed for the amplification of a 1576 base pair (bp) fragment of the HLA1 16S-23S rRNA gene and 1888 bp fragement of the HLB2 16S-23S rRNA. Amplified PCR products were highly specific to detect corresponding bacteria when other contaminated strains were used as PCR templates. However, detection of both strains were limited when $100{\mu}{\ell}$ of cultured samples were mixed with $100m{\ell}$ of beer sample in arbitrary manner. The sensitivity of the assay still needs to be improved for direct detection of the small amounts of bacteria present in beer.

• Journal of Microbiology and Biotechnology
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• 제17권7호
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• pp.1204-1207
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• 2007

Structural analyses have shown that nucleotides at the positions 770 and 771 of Escherichia coli 16S rRNA are implicated in forming one of highly conserved intersubunit bridges of the ribosome, B2c. To examine a functional role of these residues, base substitutions were introduced at these positions and mutant ribosomes were analyzed for their protein synthesis ability using a specialized ribosome system. The results showed requirement of a pyrimidine at the position 770 for ribosome function regardless of the nucleotide identity at the position 771. Sucrose gradient profiles of ribosomes revealed that the loss of protein-synthesis ability of mutant ribosome bearing a base substitution from C to G at the position 770 stems from its inability to form 70S ribosomes. These findings indicate involvement of nucleotide at the position 770, not 771, in ribosomal subunit association and provide a useful rRNA mutation that can be used as a target to investigate the physical interaction between 16S and 23S rRNA.

• 미생물학회지
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• 제55권1호
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• pp.1-8
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• 2019

Due to the major role played by several species of Streptococcus in the etiology of periodontitis, it is important to assess the pattern of Streptococcus pathogenic pathways within the infected subgingival pockets using a bacterial specific 16S rRNA fragment. From the total of 50 patients with periodontitis included in the study, only 23 Streptococcal isolates were considered for further analyses, in which their 16S rRNA fragments were amplified and sequenced. Then, a comprehensive phylogenetic tree was constructed and in silico prediction was performed for the observed Streptococcal species. The phylogenetic analysis of the subgingival Streptococcal species revealed a high discrimination power of the 16S rRNA fragment to accurately identify three groups of Streptococcus on the species level, including S. salivarius (14 isolates), S. anginosus (5 isolates), and S. gordonii (4 isolates). The employment of state-of-art in silico tools indicated that each Streptococcal species group was characterized with particular transcription factors that bound exclusively with a different 16S rRNA-based secondary structure. In conclusion, the observed data of the present study provided in-depth insights into the mechanism of each Streptococcal species in its pathogenesis, which differ in each observed group, according to the differences in the 16S rRNA secondary structure it takes, and the consequent binding with its corresponding transcription factors. This study paves the way for further interventions of the in silico prediction, with the main conventional in vitro microbiota identification to present an interesting insight in terms of the gene expression pattern and the signaling pathway that each pathogenic species follows in the infected subgingival site.