Korean Genome Project

KGP was originated from the national initiative of sequencing the reference Korean and whole population genomes in 2006 by KOBIC, KRIBB and NCSRD, KRISS, Daejeon in Korea. From 2009, KGP was supported by the Genome Research Foundation and TheragenEtex to build the Variome of Koreans as well as the Korean Reference Genome (KOREF). Starting from KOREF, a consensus variome reference, providing information on millions of variants from 40 additional ethnically homogeneous genomes from the Korean Personal Genome Project was completed in 2017.{{Cite journal|last1=Cho|first1=Yun Sung|last2=Kim|first2=Hyunho|last3=Kim|first3=Hak-Min|last4=Jho|first4=Sungwoong|last5=Jun|first5=JeHoon|last6=Lee|first6=Yong Joo|last7=Chae|first7=Kyun Shik|last8=Kim|first8=Chang Geun|last9=Kim|first9=Sangsoo|last10=Eriksson|first10=Anders|last11=Edwards|first11=Jeremy S.|date=2016-11-24|title=An ethnically relevant consensus Korean reference genome is a step towards personal reference genomes|journal=Nature Communications|language=en|volume=7|issue=1|page=13637|doi=10.1038/ncomms13637|pmid=27882922|pmc=5123046|bibcode=2016NatCo...713637C|issn=2041-1723|doi-access=free}} Updating the technology an improved version of KOREF was then constructed using long-read sequencing data produced by Oxford Nanopore PromethION and PacBio technologies has been released showcasing newer assembly technologies and techniques.{{Cite journal|last1=Kim|first1=Hui-Su|last2=Jeon|first2=Sungwon|last3=Kim|first3=Changjae|last4=Kim|first4=Yeon Kyung|last5=Cho|first5=Yun Sung|last6=Kim|first6=Jungeun|last7=Blazyte|first7=Asta|last8=Manica|first8=Andrea|last9=Lee|first9=Semin|last10=Bhak|first10=Jong|date=2019-12-01|title=Chromosome-scale assembly comparison of the Korean Reference Genome KOREF from PromethION and PacBio with Hi-C mapping information|url= |journal=GigaScience|language=en|volume=8|issue=12|doi=10.1093/gigascience/giz125|pmc=6889754|pmid=31794015}} In 2022 a new chromosome-level haploid assembly of KOREF was published, assembled using Oxford Nanopore Technologies PromethION, Pacific Biosciences HiFi-CCS, and Hi-C technology.{{Cite journal |last1=Kim |first1=Hui-su |last2=Jeon |first2=Sungwon |last3=Kim |first3=Yeonkyung |last4=Kim |first4=Changjae |last5=Bhak |first5=Jihun |last6=Bhak |first6=Jong |date=2022-01-01 |title=KOREF_S1: phased, parental trio-binned Korean reference genome using long reads and Hi-C sequencing methods |url=https://doi.org/10.1093/gigascience/giac022 |journal=GigaScience |volume=11 |pages=giac022 |doi=10.1093/gigascience/giac022 |issn=2047-217X |pmc=8952264 |pmid=35333300}}

Since 2014, KGP has been supported by Ulsan National Institute of Science and Technology, Clinomics, and Ulsan City, Ulsan, Korea.{{citation needed|date=October 2024}}

Korea1K) has been used in sequencing technologies such as MGI DNBSEQ-T7 and Illumina HiSeq2000, HiSeq2500, HiSeq4000, HiSeqX10, and NovaSeq6000 sequencing technologies.{{Cite journal|last1=Kim|first1=Hak-Min|last2=Jeon|first2=Sungwon|last3=Chung|first3=Oksung|last4=Jun|first4=Je Hoon|last5=Kim|first5=Hui-Su|last6=Blazyte|first6=Asta|last7=Lee|first7=Hwang-Yeol|last8=Yu|first8=Youngseok|last9=Cho|first9=Yun Sung|last10=Bolser|first10=Dan M|last11=Bhak|first11=Jong|date=2021-03-01|title=Comparative analysis of 7 short-read sequencing platforms using the Korean Reference Genome: MGI and Illumina sequencing benchmark for whole-genome sequencing|url= |journal=GigaScience|volume=10|issue=giab014|doi=10.1093/gigascience/giab014|issn=2047-217X|pmc=7953489|pmid=33710328}} The variome data has been a reference to study the origin and composition of Korean ethnicity when compared to ancient DNA sequences.{{Cite journal|last1=Kim|first1=Jungeun|last2=Jeon|first2=Sungwon|last3=Choi|first3=Jae-Pil|last4=Blazyte|first4=Asta|last5=Jeon|first5=Yeonsu|last6=Kim|first6=Jong-Il|last7=Ohashi|first7=Jun|last8=Tokunaga|first8=Katsushi|last9=Sugano|first9=Sumio|last10=Fucharoen|first10=Suthat|last11=Al-Mulla|first11=Fahd|date=2020-05-01|title=The Origin and Composition of Korean Ethnicity Analyzed by Ancient and Present-Day Genome Sequences|url= |journal=Genome Biology and Evolution|volume=12|issue=5|pages=553–565|doi=10.1093/gbe/evaa062|issn=1759-6653|pmc=7250502|pmid=32219389}}

Korea1K released 1,094 Korean whole genome sequences on 27 May 2020, published in Science Advances.{{Cite journal|last1=Jeon|first1=Sungwon|last2=Bhak|first2=Youngjune|last3=Choi|first3=Yeonsong|last4=Jeon|first4=Yeonsu|last5=Kim|first5=Seunghoon|last6=Jang|first6=Jaeyoung|last7=Jang|first7=Jinho|last8=Blazyte|first8=Asta|last9=Kim|first9=Changjae|last10=Kim|first10=Yeonkyung|last11=Shim|first11=Jungae|date=2020-05-01|title=Korean Genome Project: 1094 Korean personal genomes with clinical information|journal=Science Advances|language=en|volume=6|issue=22|pages=eaaz7835|doi=10.1126/sciadv.aaz7835|pmid=32766443|pmc=7385432|bibcode=2020SciA....6.7835J|issn=2375-2548|doi-access=free}}

In April 2024, Korea4K was published, making whole genome sequences of 4,157 Koreans publicly accessible alongside an imputation reference panel and 107 phenotypes derived from extensive health check-ups.{{Cite journal |last1=Jeon |first1=Sungwon |last2=Choi |first2=Hansol |last3=Jeon |first3=Yeonsu |last4=Choi |first4=Whan-Hyuk |last5=Choi |first5=Hyunjoo |last6=An |first6=Kyungwhan |last7=Ryu |first7=Hyojung |last8=Bhak |first8=Jihun |last9=Lee |first9=Hyeonjae |last10=Kwon |first10=Yoonsung |last11=Ha |first11=Sukyeon |last12=Kim |first12=Yeo Jin |last13=Blazyte |first13=Asta |last14=Kim |first14=Changjae |last15=Kim |first15=Yeonkyung |date=2024 |title=Korea4K: whole genome sequences of 4,157 Koreans with 107 phenotypes derived from extensive health check-ups |url=https://doi.org/10.1093/gigascience/giae014 |journal=GigaScience |volume=13 |doi=10.1093/gigascience/giae014 |issn=2047-217X |pmc=11020240 |pmid=38626723}}

{{Reflist}}

• [http://koreangenome.org KoreanGenome.org]
• [http://opengenome.net Opengenome.net]
• [https://www.srd.re.kr/ www.srd.re.kr]
• [http://1000genomes.kr 1000genomes.kr]

Category:Genome projects

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