• Title/Summary/Keyword: 차세대 염기서열 분석

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Next Generation Sequencing and Bioinformatics (차세대 염기서열 분석기법과 생물정보학)

  • Kim, Ki-Bong
    • Journal of Life Science
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    • v.25 no.3
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    • pp.357-367
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    • 2015
  • With the ongoing development of next-generation sequencing (NGS) platforms and advancements in the latest bioinformatics tools at an unprecedented pace, the ultimate goal of sequencing the human genome for less than $1,000 can be feasible in the near future. The rapid technological advances in NGS have brought about increasing demands for statistical methods and bioinformatics tools for the analysis and management of NGS data. Even in the early stages of the commercial availability of NGS platforms, a large number of applications or tools already existed for analyzing, interpreting, and visualizing NGS data. However, the availability of this plethora of NGS data presents a significant challenge for storage, analyses, and data management. Intrinsically, the analysis of NGS data includes the alignment of sequence reads to a reference, base-calling, and/or polymorphism detection, de novo assembly from paired or unpaired reads, structural variant detection, and genome browsing. While the NGS technologies have allowed a massive increase in available raw sequence data, a number of new informatics challenges and difficulties must be addressed to improve the current state and fulfill the promise of genome research. This review aims to provide an overview of major NGS technologies and bioinformatics tools for NGS data analyses.

Challenges of Genome Wide Sequencing Technologies in Prenatal Medicine (산전 진단에서의 염기 서열 분석 방법의 의의)

  • Kang, Ji-Un
    • The Journal of the Korea Contents Association
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    • v.22 no.2
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    • pp.762-769
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    • 2022
  • Genetic testing in prenatal diagnosis is a precious tool providing valuable information in clinical management and parental decision-making. For the last year, cytogenetic testing methods, such as G-banding karyotype analysis, fluorescent in situ hybridization, chromosomal microarray, and gene panels have evolved to become part of routine laboratory testing. However, the limitations of each of these methods demonstrate the need for a revolutionary technology that can alleviate the need for multiple technologies. The recent introduction of new genomic technologies based on next-generation sequencing has changed the current practice of prenatal testing. The promise of these innovations lies in the fast and cost-effective generation of genome-scale sequence data with exquisite resolution and accuracy for prenatal diagnosis. Here, we review the current state of sequencing-based pediatric diagnostics, associated challenges, as well as future prospects.

Genetic Diagnosis of Inherited Metabolic Disorders using Next-Generation Sequencing (차세대 염기서열분석을 이용한 유전성 대사질환의 유전진단)

  • Chang-Seok Ki
    • Journal of The Korean Society of Inherited Metabolic disease
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    • v.23 no.2
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    • pp.1-7
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    • 2023
  • Inherited metabolic disorders (IMD) are a group of disorders involving various metabolic pathways. Genetic diagnosis of IMD has been challenging because of extremely heterogeneous nature and extensive laboratory and/or phenotype overlap. Conventional genetic diagnosis was a gene-by-gene approach that needs a priori information on the causative genes that might underlie the IMD. Recent implementation of next-generation sequencing (NGS) technologies has changed the process of genetic diagnosis from a gene-by-gene approach to simultaneous analysis of targeted genes possibly associated with the IMD using gene panels or using whole exome/genome sequencing (WES/WGS) covering entire human genes. Clinical NGS tests can be a cost-effective approach for the rapid diagnosis of IMD with genetic heterogeneity and are becoming standard diagnostic procedures.

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Applications of Next-Generation Sequencing Technology based on Liquid Biopsy for Solid Tumor (고형암에서 액체 생검 기반의 차세대염기서열분석법 응용 기술)

  • Kim, Jin-Hee
    • Proceedings of the Korea Contents Association Conference
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    • 2019.05a
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    • pp.469-470
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    • 2019
  • 차세대염기서열분석법(NGS, Next Generation Sequencing) 기술은 하나의 유전체를 무수히 많은 조각으로 분해하여 각 조각을 동시에 읽어낸 뒤, 전산기술을 이용하여 조합함으로써 방대한 유전체 정보를 빠르게 해독하는 방법이다. 한편, 액체 생검(LB, liquid biopsy)이란 암세포가 깨지면서 생기는 미량의 DNA 조각을 말초혈액 속에서 찾아내 암을 진단하는 기술로 조직 생검(tissue biopsy)에 비해 비침습적이다. 본 논문은 NGS와 LB 기술을 접목했을 때 확진이 가능하고 예후 및 치료경과의 예측이 가능함을 제언하였다.

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The chloroplast genome sequence of Viola kusanoana (큰졸방제비꽃(Viola kusanoana)의 엽록체 염기서열 분석)

  • Ah-reum Go;Ki-Oug Yoo
    • Proceedings of the Plant Resources Society of Korea Conference
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    • 2021.04a
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    • pp.22-22
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    • 2021
  • 큰졸방제비꽃(Viola kusanoana)의 엽록체 DNA 염기서열을 밝히고자 차세대염기서열분석법(NGS)을 이용하여 분석하였다. 재료는 경상북도 울릉군 나리분지에 자생하는 개체의 잎을 사용하였다. 염기서열 분석결과, 총 길이는 158,644 bp 였고, GC함량은 36.3%로 분석되었다. 구간별로는 LSC (Large single copy)지역이 86,999 bp (GC content: 33.9%)였고 SSC (Small single copy)지역은 17,439 bp (GC content: 29.9%)으로 분석되었으며 IR (Invertied repeats)지역은 27,103 bp (GC content: 42.2%)로 확인되었다. 유전자는 protein coding gene 77개, tRNA gene 30개, rRNA 4개 등 총 111개로 이는 선행 연구된 제비꽃속 8개 분류군과 유전자의 순서와 방향이 모두 일치하였다. 이를 통해 제비꽃속의 엽록체 게놈의 유전자는 상당히 보존되어 있음을 확인하였다.

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The Complete Chloroplast DNA Sequences of Viola selkirkii (뫼제비꽃(Viola selkirkii)의 엽록체 DNA 염기서열 분석)

  • Ah-Reum Go;Yun-Sun Lee;Kyung-Ah Kim;Kyeong-Sik Cheon;Ki-Oug Yoo
    • Proceedings of the Plant Resources Society of Korea Conference
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    • 2020.12a
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    • pp.55-55
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    • 2020
  • 뫼제비꽃(Viola selkirkii)의 엽록체 DNA 염기서열을 차세대염기서열분석법(NGS)을 이용하여 분석하였다. 재료는 강원도 화천군 일산과 제주도 한라산의 2개체를 사용하였다. 분석결과, 염기서열의 길이는 일산의 뫼제비꽃이 156,774 bp (GC content: 36.30%), 한라산의 뫼제비꽃이 157,451 bp(GC content: 36.30%)로 한라산 개체가 길게 분석되었다. 구간별로 LSC(Large single copy)지역은 한라산 개체(85,950 bp)가 일산 개체(85,930 bp)보다 20 bp 길었으며, SSC(Small single copy)지역은 한라산 개체(17,261 bp)보다 일산 개체가 17,982 bp로 길게 분석되었다. IR(Inverted repeat)지역은 한라산 개체가 27,120 bp로 일산 개체(26,431 bp)보다 길게 분석되었다. 이러한 염기서열 길이의 차이는 종내 개체 간 빈번하게 발생하는 현상으로 IGS와 intron 구간에서 확인 된 단순반복서열의 일부 누락과 IR지역 내의 수축과 확장에 의한 것으로 판단된다. 뫼제비꽃 2개체의 엽록체 게놈을 구성하는 유전자 수는 총 111개로 동일하였으며, protein coding gene 77개, tRNA(transfer RNA) gene 30개, 그리고 rRNA (ribosomal RNA) gene 4개로 구성되어 있었다. 이는 기 발표된 엽록체 DNA 전체 염기서열이 밝혀진 제비꽃속 (Viola) 종류들과 동일한 결과이다.

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Development and Genetic Diversity Analysis of Microsatellite Markers Using Next-generation Sequencing in Seriola quinqueradiata (차세대 염기서열 분석법을 이용한 방어(Seriola quinqueradiata)의 microsatellite 마커의 개발 및 유전적 특성 분석)

  • Dong, Chun Mae;Lee, Mi-Nan;Kim, Eun-Mi;Park, Jung Youn;Kim, Gun-Do;Noh, Jae Koo
    • Journal of Life Science
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    • v.30 no.3
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    • pp.291-297
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    • 2020
  • This study was conducted to develop microsatellite markers in Seriola quinqueradiata using next-generation sequencing. A total of 28,873,374 reads were generated on an Illumina Hiseq2500 system, yielding 7,247,216,874 bp sequences. The de novo assembly resulted in 466,359 contigs. A total of 132 contigs (0.43%), including 60 microsatellite loci, were derived from 30,729 contigs longer than 518 bp. A total of 60 primer sets were designed from the 132 microsatellite loci. A total of 15 polymorphic nuclear microsatellite loci were chosen to evaluate population genetic parameters in the parents and offspring. The mean number of effective alleles was 18.5, ranging from 11 to 30. The observed heterozygosity (HO) and expected heterozygosity (HE) ranged between 0.431 and 0.972 with an average of 0.812 and from 0.782 to 0.949 with an average of 0.896, respectively. No significant linkage disequilibrium was observed after Bonferroni revision in any loci. The results show that the 15 polymorphic nuclear microsatellite markers can be used to study the population and conservation genetics of S. quinqueradiata in Korea. To ensure the success of artificial seedling production technology, genetic variations between the parent and offspring populations should be monitored, and inbreeding should be controlled.