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Sensitive multiplex RNA quantification using capillary electrophoresis-based single-strand conformation polymorphism

Biotechnology and bioengineering, v.106 no.1, 2010년, pp.167 - 172  

Shin, Gi Won (School of Interdisciplinary Bioscience and Bioengineering, Pohang University of Science and Technology, Pohang, Korea) ,  Hwang, Hee Sung (School of Interdisciplinary Bioscience and Bioengineering, Pohang University of Science and Technology, Pohang, Korea) ,  Nam, Hong Gil (School of Interdisciplinary Bioscience and Bioengineering, Pohang University of Science and Technology, Pohang, Korea) ,  Oh, Mi-Hwa (National Institute of Animal Science, Rural Development Administration, Suwon, Korea) ,  Jung, Gyoo Yeol (School of Interdisciplinary Bioscience and Bioengineering, Pohang University of Science and Technology, Pohang, Korea)

Abstract AI-Helper 아이콘AI-Helper

Quantification of RNA provides information crucial for various biological studies, including analysis of mRNA expression and that of microRNAs. Reverse transcription (RT) coupled with real-time polymerase chain reaction (PCR) is known to be the most accurate method for quantifying nucleic acids, and...

주제어

#RNA quantification   #multiplex analysis   #template tagging   #CE-SSCP  

참고문헌 (20)

  1. Bustin, SA. Quantification of mRNA using real-time reverse transcription PCR (RT-PCR): trends and problems. Journal of molecular endocrinology, vol.29, no.1, 23-39.

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  2. Chen, Caifu, Ridzon, Dana A., Broomer, Adam J., Zhou, Zhaohui, Lee, Danny H., Nguyen, Julie T., Barbisin, Maura, Xu, Nan Lan, Mahuvakar, Vikram R., Andersen, Mark R., Lao, Kai Qin, Livak, Kenneth J., Guegler, Karl J.. Real-time quantification of microRNAs by stem–loop RT–PCR. Nucleic acids research, vol.33, no.20, e179-e179.

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  3. Chung, Joo Hee, Park, Young Seoub, Kim, Jin, Shin, Gi Won, Nam, Myung Hee, Oh, Min-Kyu, Kim, Chan Wha, Jung, Gyoo Yeol, Park, Jin Hyun. Parallel analysis of antimicrobial activities in microbial community by SSCP based on CE. Electrophoresis, vol.28, no.14, 2416-2423.

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  4. Dean, J. D., Goodwin, P. H., Hsiang, T.. Comparison of relative RT-PCR and northern blot analyses to measure expression of β-1,3-glucanase inNicotiana benthamiana infected withColltotrichum destructivum. Plant molecular biology reporter, vol.20, no.4, 347-356.

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  5. Real-Time PCR: Revolutionizing Detection and Expression Analysis of Genes. Current genomics, vol.8, no.4, 234-251.

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  6. Elnifro, Elfath M., Ashshi, Ahmed M., Cooper, Robert J., Klapper, Paul E.. Multiplex PCR: Optimization and Application in Diagnostic Virology. Clinical microbiology reviews, vol.13, no.4, 559-570.

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  7. Gilliland, G, Perrin, S, Blanchard, K, Bunn, H F. Analysis of cytokine mRNA and DNA: detection and quantitation by competitive polymerase chain reaction.. Proceedings of the National Academy of Sciences of the United States of America, vol.87, no.7, 2725-2729.

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  8. Henegariu, O., Heerema, N.A., Dlouhy, S.R., Vance, G.H., Vogt, P.H.. Multiplex PCR: Critical Parameters and Step-by-Step Protocol. Biotechniques, vol.23, no.3, 504-511.

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  9. Kalvatchev, Z., Draganov, P., Kalvatchev, N.. Efficiency of Multiplex Polymerase Chain Reaction (M-PCR) for Detection and Molecular Analysis of Human Viruses. Biotechnology, biotechnological equipment, vol.18, no.3, 3-13.

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  10. Kim, S.R., Ki, C.S., Lee, N.Y.. Rapid detection and identification of 12 respiratory viruses using a dual priming oligonucleotide system-based multiplex PCR assay. Journal of virological methods, vol.156, no.1, 111-116.

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  11. Lee, Hyun-Ho, Yager, Paul. Microfluidic Lab-on-a-chip for Microbial Identification on a DNA Microarray. Biotechnology and bioprocess engineering : Bbe, vol.12, no.6, 634-639.

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  12. Park, Young Seoub, Chu, Hun Su, Hwang, Seung Ha, Seo, Jong Hyuk, Choi, Cha Yong, Jung, Gyoo Yeol. A precise mRNA quantification method using CE-based SSCP. Electrophoresis, vol.27, no.19, 3836-3845.

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  13. Persson, Kent, Hamby, Keith, Ugozzoli, Luis A.. Four-color multiplex reverse transcription polymerase chain reaction—Overcoming its limitations. Analytical biochemistry, vol.344, no.1, 33-42.

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  14. Pierce, Kenneth E., Sanchez, J. Aquiles, Rice, John E., Wangh, Lawrence J.. Linear-After-The-Exponential (LATE)-PCR: Primer design criteria for high yields of specific single-stranded DNA and improved real-time detection. Proceedings of the National Academy of Sciences of the United States of America, vol.102, no.24, 8609-8614.

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  15. Shin, Gi Won, Cho, Yang Sook, Hwang, Hee Sung, Park, Jin Hyun, Jung, Gyoo Yeol. A two-step quantitative pathogen detection system based on capillary electrophoresis. Analytical biochemistry, vol.383, no.1, 31-37.

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  16. Shin, Gi Won, Cho, Yang Sook, Hwang, Hee Sung, Oh, Mi-Hwa, Nam, Hong Gil, Park, Jin Hyun, Jung, Gyoo Yeol. A new single-step quantitative pathogen detection system: Template-tagging followed by multiplex asymmetric PCR using common primers and CE-SSCP. Electrophoresis, vol.30, no.15, 2728-2736.

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  17. Sodowich, Bruce I., Fadl, Irini, Burns, Craig. Method validation of in vitro RNA transcript analysis on the Agilent 2100 Bioanalyzer. Electrophoresis, vol.28, no.14, 2368-2378.

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  18. Wang, Tao, Brown, Morris J.. mRNA Quantification by Real Time TaqMan Polymerase Chain Reaction: Validation and Comparison with RNase Protection. Analytical biochemistry, vol.269, no.1, 198-201.

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  19. Wang, Ena, Miller, Lance D., Ohnmacht, Galen A., Liu, Edison T., Marincola, Francesco M.. High-fidelity mRNA amplification for gene profiling. Nature biotechnology, vol.18, no.4, 457-459.

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  20. Yang, Joon-Ryeol, Song, Eun-Jung, Kim, Byung-Gee, Kim, Eung-Soo, Sohng, Jae-Kyung, Oh, Min-Kyu. Expression Profiling of Streptomyces peucetius Metabolic Genes Using DNA Microarray Analysis. Biotechnology and bioprocess engineering : Bbe, vol.13, no.6, 738-744.

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