• 생태와환경
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• 제55권4호
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• pp.352-359
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• 2022

국내 서식하는 수서 생물(식물플랑크톤, 동물플랑크톤, 저서대형무척추동물, 어류)에 대한 eDNA 연구에 주요 이용되는 유전자인 12S rRNA와 16S rRNA, 18S rRNA, COI, CYTB를 대상으로 속(Genus) 수준의 등록 현황을 조사하였다. 그 결과 식물플랑크톤과 동물플랑크톤은 18S rRNA에서 가장 높은 등록 속 비율을 보였으며, 저서무척추동물은 COI에서 가장 높은 등록 속 비율을 확인하였다. 어류에서는 18S rRNA를 제외한 모든 유전자에서 90%에 가까운 높은 비율을 보였다. 분류군에 따른 우점 생물의 상위 20속에 대한 유전자 등록 현황은 식물플랑크톤은 18S rRNA에서 19속이, 저서무척추동물은 COI에서 18개 속이 등록되어 있었다. 어류에서는 12S rRNA, 16S rRNA, CYTB에서 상위 20의 모든 유전자 염기서열이 존재함을 확인하였다. 본 자료 분석을 통하여 각 분류군별 eDNA 연구에 적합한 유전자 데이터베이스의 양적인 정보를 파악하였다.

• 미생물학회지
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• 제29권5호
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• pp.284-289
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• 1991

the nucleotide sequence of the 3' terminal 568 bases of the 18S rRNA gene from Mucor racemosus was determined. The 3' end of the structural gene was identified by comparison with the published sequence for the Saccharomyces cerevisiae gene. The M. racemosus gene was found to share 83.8% homology with that of S. cerevisiae and 71-81% homology with those of human, mouse, maize, Xenopus laevis and Tetrahymena thermophila. The known methylation sites in X. laevis and human were also highly conserved in M. racemosus and located within most conserved regions of 18S RNA gene throughout evolution.

• Fisheries and Aquatic Sciences
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• 제13권4호
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• pp.272-277
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• 2010

Seagrasses are marine angiosperms of ecological importance in providing shelter and food to aquatic species as well as maintaining the carbon cycle on earth. Phyllospadix iwatensis is a seagrass of the family Zosteraceae and is distributed along the eastern coast of Korea. The nucleotide sequences of P. iwatensis nuclear genes encoding 18S ribosomal RNA (rRNA) and internal transcribed spacer-1 (ITS-1) were determined for molecular phylogenetic analysis. Genomic DNA was isolated from P. iwatensis and used for PCR amplification of 18S rRNA and ITS-1. Examination of the 18S rRNA sequence of P. iwatensis showed a close (99% similarity) relationship to Zostera noltii, another genus of Zosteraceae, but a distant (84% similarity) evolutionary relationship to other macroalgal Laminariales species. Further discrepancies found in ITS-1 nucleotide sequences between closely related species indicate that the sequence information could be used for species identification.

• 식물병연구
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• 제29권1호
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• pp.94-99
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• 2023

Blueberry red ringspot virus (BRRSV) and blueberry scorch virus (BlScV) are included in the quarantine virus list managed by the Korean Animal and Plant Quarantine Agency. A multiplex polymerase chain reaction (PCR) assay with an internal control was developed for the simultaneous detection of both viruses. The specific primers used here were designed based on the highly conserved regions of the genomic sequences of each virus, obtained from the National Center for Biotechnology Information nucleotide databases. The primers were designed to amplify a partial sequence within coat protein (CP) for detecting BRRSV and a partial sequence within the CP-16 kDa for detecting BlScV. 18S ribosomal RNA (rRNA) was used as internal control, and the primer set used in a previous study was modified in this study for detecting 18S rRNA. Each conventional PCR using the BRRSV, BlScV, and 18S rRNA primers exhibited a sensitivity of approximately 1 fg plasmid DNA. The multiplex PCR assay using the BRRSV, BlScV, and 18S rRNA primers was effective in simultaneously detecting the two viruses and 18S rRNA with a sensitivity of 1 fg plasmid DNA, similar to that of conventional PCR assays. The multiplex PCR assay developed in this study was performed using 14 blueberry cultivars grown in South Korea. BRRSV and BlScV were not detected, but 18S rRNA was all detected in all the plants tested. Therefore, our optimized multiplex PCR assay could simultaneously detect the two viruses and 18S rRNA in field samples collected from South Korea in a time-efficient manner. This approach could be valuable in crop protection and plant quarantine management.

• Animal Systematics, Evolution and Diversity
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• nspc3호
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• pp.139-146
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• 1992

중합효소연쇄반응(PCR)을 이용한 클로닝 기법과 Taq 염기서열분석법을 사용하여 갑각류에 속하는 뿔물맞이게(Pugettia quadridens)(십각 목, 범배 아목, 게 하목)에 대한 18S 리보솜 RNA 유전자의 1차염기서열을 밝혔다. 본 종의 18S 리보솜 RNA 유전자는 십각류에 속하는 또 다른 종인 두드러기어리게(Oedignathus inermis)보다 46개가 짧은 1837개의 염기로 이루어져 있었다. 염기가 삽입되거나 결실된 부분을 고려하지 않았을때에 두 종간에 염기서열 유사도는 90.8%이었다. 염기서열이 가장 보존적인 부위는 1137-1206(70개) 분위로 이 부위에서는 두 종이 완전히 동일한 염기서열을 보이고 있었고, 변이가 연속적으로 가장 큰 부위는 46-55 부위였고 399-407 부위가 그 다음으로 많은 연속적 변이를 가지고 있었다. 18S 리보솜 RNA 유전자의 1차구조에 있어서 염기서열의 변이는 이 유전자 전체를 통해 고르게 분포하지 않았다.

• 한국약용작물학회지
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• 제17권1호
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• pp.26-32
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• 2009

The region containing 18S rRNA gene, ITS 1 and part of the 5.8S rRNA gene of the Atractylodes japonica Koidz was amplified by PCR and the product cloned in a pBluescript SK II plasmid. DNA sequence of the cloned DNA was determined and submitted to the GenBank (accession number EU678363). Phylogenetic analysis of the ITS 1 DNA showed close similarity with the other plant species of the family Compositae. The extract of the plant materials of five different members of the family Compositae was analyzed by HPLC to detect atractylon. Extract of the A. japonica Koidz showed presence of significant amount of atractylon. However, noticeable amount of atractylon was not detected by the same analyses from the extracts of the other plants belonging to the family Compositae including Artemisia capillaris, Chrysantemum zawadskii, Eclipta prostrata or Taraxacum platycarpum.

• 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.

• 대한화학회지
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• 제36권3호
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• pp.460-465
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• 1992

Xanthomonas citri의 5S rRNA를 분리, 정제하여 효소적 방법과 화학적 방법으로 그 구조를 결정하였다. 이 5S rRNA는 119개의 누클레오티드로 구성되어 있으며 변형된 누클레오시드를 함유하지 않는다. 그리고 이 5S rRNA는 X. maltophilia의 것처럼 5'-말단에 가외의 우리딘 잔기를 하나 더 가지고 있다. 결정한 X. citri의 5S rRNA의 이차구조는 다른 원핵세포의 것들에 대해서 제안된 일반 모형들과 매우 유사하며 [De Wachter et al., Biochimie, 64, 311 (1982); Specht et al., Nucleic Acids Res., 18, 2215 (1990); Cho et al., Proceedings of the First Symposium on Biomolecules, p. 9 (1991)], 5개의 이중나선 줄기와 5개의 단일가닥 고리 그리고 2개의 내밀린 구조를 가진다.

• 대한본초학회지
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• 제21권2호
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• pp.9-13
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• 2006

Objectives : To determine the DNA sequence of the 18S rRNA gene of the Rehmannia glutinosa and analyze it phylogenetically Methods : Dried root of the Rehmannia glutinosa was ground with a mortar and pestle. Glass beads(0.5 mm in diameter), TE buffer and SDS solution were added to that. The mixture was vortexed vigorously and extracted with the mixture of phenol, chloroform and isoamyl alcohol and with the mixture of the chloroform and isoamyl alcohol. The nucleic acids were precipitated with ethanol and resuspended in TE buffer. Contaminating RNA was digested with RNAse A and the DNA was purified further with the Geneclean Turbo Kit. This DNA was used as a template for amplification of the 18S rRNA gene by PCR. The PCR product was cloned in the pBluescript SK II plasmid by blunt-end ligation and the DNA sequence of the insert was determined. This DNA sequence was analyzed phylogenetically by the BLAST program. Results and Conclusion : Vortexing the ground powder of the dried plant root with glass beads during cell lysis improved recovery of DNA. The DNA sequence of the Rehmannia glutinosa 18S rRNA gene was determined and deposited at the GenBank as the accession number DQ469606. Phylogenetic analysis of that sequence showed the relationship between the members of the family of Scrophulariaceae and also the close relationship of the Buddleja davidii to the members of the Scrophulariaceae family.

• The Plant Pathology Journal
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• 제18권2호
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• pp.98-101
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• 2002

Using phytoplasma universal primer pair Pl and P7, a fragment of about 1.8 kb nucleotide sequences of 16S rRNA gene and 16S-23S rRNA intergenic spacer region, and a portion of 23S rRNA gene of jujube witches'broom (JWB) and mulberry dwarf(MD) phytoplasmas were determined. The nucleotide sequences of JWB and MD were 1,850 bp and 1,831 bp long, respectively. The JWB phytoplasma sequence was aligned with the homologous sequence of MD phytoplasma. Twenty-eight base insertions and nine base deletions were found in the JWB phytoplasma sequence compared with that of MD phytoplasma. The similarity of the aligned sequences of JWB and MD was 84.8%. The near-complete 16S rRNA gene DNA sequences of JWB and MD were 1,529 bp and 1,530 bp in length, respectively, and revealed 89.0% homology. The 16S-23S rRNA intergenic spacer region DNA sequences were 263 bp and 243 bp in lengths respectively, while homology was only 70% and the conserved tRNA-lle gene of JWB and MD was located into the intergenic space region between 16S-23S rRNA gene. The nucleotide sequences were 77 bp long in both JWB and MD, and showed 97.4% sequence homology. Based on the phylogenetic analysis of the two phytoplasmas, the JWB phytoplasma belongs to the Elm yellow phytoplasma group (16S rV), whereas, the MD phytoplasma belongs to the Aster yellow group (16S rI).