Your search keyword '"Jho, Sungwoong"' showing total 21 results

1. A method for early diagnosis of lung cancer from tumor originated DNA fragments using plasma cfDNA methylome and fragmentome profiles

Author

Kim, Yeo Jin, Jeon, Hahyeon, Jeon, Sungwon, Lee, Sung-Hun, Kim, Changjae, Ahn, Ji-Hye, Um, Hyojin, Woo, Yeong Ju, Jeong, Seong-ho, Kim, Yeonkyung, Park, Ha-Young, Oh, Hyung-Joo, Cho, Hyun-Ju, Bae, Jin-Han, Kim, Ji-Hoon, An, Seolbin, Kang, Sung-Bong, Jho, Sungwoong, Biro, Orsolya, Kis, David, Kim, Byung Chul, Kim, Yumi, Kim, Jae Hyun, Kim, Byoung-Chul, Bhak, Jong, and Oh, In-Jae

Published

2022

2. Whole Genome Analysis of the Red-Crowned Crane Provides Insight into Avian Longevity

Author

Lee, HyeJin, Kim, Jungeun, Weber, Jessica A., Chung, Oksung, Cho, Yun Sung, Jho, Sungwoong, Jun, JeHoon, Kim, Hak-Min, Lim, Jeongheui, Choi, Jae-Pil, Jeon, Sungwon, Blazyte, Asta, Edwards, Jeremy S., Paek, Woon Kee, and Bhak, Jong

Published

2020

3. Correction: Corrigendum: An ethnically relevant consensus Korean reference genome is a step towards personal reference genomes

Author

Cho, Yun Sung, Kim, Hyunho, Kim, Hak-Min, Jho, Sungwoong, Jun, JeHoon, Lee, Yong Joo, Chae, Kyun Shik, Kim, Chang Geun, Kim, Sangsoo, Eriksson, Anders, Edwards, Jeremy S., Lee, Semin, Kim, Byung Chul, Manica, Andrea, Oh, Tae-Kwang, Church, George M., and Bhak, Jong

Published

2017

4. COMUS: Clinician-Oriented locus-specific MUtation detection and deposition System

Author

Jung Soo-young, Kim Hak-Min, Park Daeui, Kim Ji-Han, Ghang Ho, Kim Byoung-Chul, Jho Sungwoong, Yoo Ki-young, Kim Hee-Jin, Lee Sunghoon, and Bhak Jong

Subjects

Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background A disease-causing mutation refers to a heritable genetic change that is associated with a specific phenotype (disease). The detection of a mutation from a patient's sample is critical for the diagnosis, treatment, and prognosis of the disease. There are numerous databases and applications with which to archive mutation data. However, none of them have been implemented with any automated bioinformatics tools for mutation detection and analysis starting from raw data materials from patients. We present a Locus Specific mutation DB (LSDB) construction system that supports both mutation detection and deposition in one package. Results COMUS (Clinician-Oriented locus specific MUtation detection and deposition System) is a mutation detection and deposition system for developing specific LSDBs. COMUS contains 1) a DNA sequence mutation analysis method for clinicians' mutation data identification and deposition and 2) a curation system for variation detection from clinicians' input data. To embody the COMUS system and to validate its clinical utility, we have chosen the disease hemophilia as a test database. A set of data files from bench experiments and clinical information from hemophilia patients were tested on the LSDB, KoHemGene http://www.kohemgene.org, which has proven to be a clinician-friendly interface for mutation detection and deposition. Conclusion COMUS is a bioinformatics system for detecting and depositing new mutations from patient DNA with a clinician-friendly interface. LSDBs made using COMUS will promote the clinical utility of LSDBs. COMUS is available at http://www.comus.info.

Published

2009

5. Whole transcriptome analyses of six thoroughbred horses before and after exercise using RNA-Seq

Author

Park Kyung-Do, Park Jongsun, Ko Junsu, Kim Byung, Kim Heui-Soo, Ahn Kung, Do Kyoung-Tag, Choi Hansol, Kim Hak-Min, Song Sanghoon, Lee Sunghoon, Jho Sungwoong, Kong Hong-Sik, Yang Young, Jhun Byung-Hak, Kim Chulhong, Kim Tae-Hyung, Hwang Seungwoo, Bhak Jong, Lee Hak-Kyo, and Cho Byung-Wook

Subjects

Transcriptome, Equus caballus, Gene expression, Racing performance, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Thoroughbred horses are the most expensive domestic animals, and their running ability and knowledge about their muscle-related diseases are important in animal genetics. While the horse reference genome is available, there has been no large-scale functional annotation of the genome using expressed genes derived from transcriptomes. Results We present a large-scale analysis of whole transcriptome data. We sequenced the whole mRNA from the blood and muscle tissues of six thoroughbred horses before and after exercise. By comparing current genome annotations, we identified 32,361 unigene clusters spanning 51.83 Mb that contained 11,933 (36.87%) annotated genes. More than 60% (20,428) of the unigene clusters did not match any current equine gene model. We also identified 189,973 single nucleotide variations (SNVs) from the sequences aligned against the horse reference genome. Most SNVs (171,558 SNVs; 90.31%) were novel when compared with over 1.1 million equine SNPs from two SNP databases. Using differential expression analysis, we further identified a number of exercise-regulated genes: 62 up-regulated and 80 down-regulated genes in the blood, and 878 up-regulated and 285 down-regulated genes in the muscle. Six of 28 previously-known exercise-related genes were over-expressed in the muscle after exercise. Among the differentially expressed genes, there were 91 transcription factor-encoding genes, which included 56 functionally unknown transcription factor candidates that are probably associated with an early regulatory exercise mechanism. In addition, we found interesting RNA expression patterns where different alternative splicing forms of the same gene showed reversed expressions before and after exercising. Conclusion The first sequencing-based horse transcriptome data, extensive analyses results, deferentially expressed genes before and after exercise, and candidate genes that are related to the exercise are provided in this study.

Published

2012

6. The first Korean genome sequence and analysis: full genome sequencing for a socio-ethnic group

Author

Sung-Min Ahn, Tae-Hyung Kim, Sunghoon Lee, Deokhoon Kim, Ho Ghang, Dae-Soo Kim, Byoung-Chul Kim, Sang-Yoon Kim, Woo-Yeon Kim, Chulhong Kim, Daeui Park, Yong Seok Lee, Sangsoo Kim, Reja, Rohit, Jho, Sungwoong, Chang Geun Kim, Ji-Young Cha, Kyung-Hee Kim, Bonghee Lee, Bhak, Jong, and Seong-Jin Kim

Subjects

Genetic variation -- Research, Human genome -- Research, Nucleotide sequencing -- Analysis, Single nucleotide polymorphisms -- Research, Health

Published

2009

7. Myotis rufoniger genome sequence and analyses: M. rufoniger’s genomic feature and the decreasing effective population size of Myotis bats.

Author

Bhak, Youngjune, Jeon, Yeonsu, Jeon, Sungwon, Chung, Oksung, Jho, Sungwoong, Jun, JeHoon, Kim, Hak-Min, Cho, Yongsoo, Yoon, Changhan, Lee, Seungwoo, Kang, Jung-Hoon, Lim, Jong-Deock, An, Junghwa, Cho, Yun Sung, Ryu, Doug-Young, and Bhak, Jong

Subjects

MYOTIS, NUCLEOTIDE sequence, POPULATION genetics, NUCLEOTIDE sequencing, BIOLOGICAL divergence

Abstract

Myotis rufoniger is a vesper bat in the genus Myotis. Here we report the whole genome sequence and analyses of the M. rufoniger. We generated 124 Gb of short-read DNA sequences with an estimated genome size of 1.88 Gb at a sequencing depth of 66× fold. The sequences were aligned to M. brandtii bat reference genome at a mapping rate of 96.50% covering 95.71% coding sequence region at 10× coverage. The divergence time of Myotis bat family is estimated to be 11.5 million years, and the divergence time between M. rufoniger and its closest species M. davidii is estimated to be 10.4 million years. We found 1,239 function-altering M. rufoniger specific amino acid sequences from 929 genes compared to other Myotis bat and mammalian genomes. The functional enrichment test of the 929 genes detected amino acid changes in melanin associated DCT, SLC45A2, TYRP1, and OCA2 genes possibly responsible for the M. rufoniger’s red fur color and a general coloration in Myotis. N6AMT1 gene, associated with arsenic resistance, showed a high degree of function alteration in M. rufoniger. We further confirmed that the M. rufoniger also has bat-specific sequences within FSHB, GHR, IGF1R, TP53, MDM2, SLC45A2, RGS7BP, RHO, OPN1SW, and CNGB3 genes that have already been published to be related to bat’s reproduction, lifespan, flight, low vision, and echolocation. Additionally, our demographic history analysis found that the effective population size of Myotis clade has been consistently decreasing since ~30k years ago. M. rufoniger’s effective population size was the lowest in Myotis bats, confirming its relatively low genetic diversity. [ABSTRACT FROM AUTHOR]

Published

2017

8. Minke whale genome and aquatic adaptation in cetaceans.

Author

Yim, Hyung-Soon, Cho, Yun Sung, Guang, Xuanmin, Kang, Sung Gyun, Jeong, Jae-Yeon, Cha, Sun-Shin, Oh, Hyun-Myung, Lee, Jae-Hak, Yang, Eun Chan, Kwon, Kae Kyoung, Kim, Yun Jae, Kim, Tae Wan, Kim, Wonduck, Jeon, Jeong Ho, Kim, Sang-Jin, Choi, Dong Han, Jho, Sungwoong, Kim, Hak-Min, Ko, Junsu, and Kim, Hyunmin

Subjects

MINKE whale, MAMMAL genetics, BIOLOGICAL adaptation, AQUATIC biology, NUCLEOTIDE sequence, ANTIOXIDANTS

Abstract

The shift from terrestrial to aquatic life by whales was a substantial evolutionary event. Here we report the whole-genome sequencing and de novo assembly of the minke whale genome, as well as the whole-genome sequences of three minke whales, a fin whale, a bottlenose dolphin and a finless porpoise. Our comparative genomic analysis identified an expansion in the whale lineage of gene families associated with stress-responsive proteins and anaerobic metabolism, whereas gene families related to body hair and sensory receptors were contracted. Our analysis also identified whale-specific mutations in genes encoding antioxidants and enzymes controlling blood pressure and salt concentration. Overall the whale-genome sequences exhibited distinct features that are associated with the physiological and morphological changes needed for life in an aquatic environment, marked by resistance to physiological stresses caused by a lack of oxygen, increased amounts of reactive oxygen species and high salt levels. [ABSTRACT FROM AUTHOR]

Published

2014

9. Comparison of carnivore, omnivore, and herbivore mammalian genomes with a new leopard assembly

Author

Kim, Soonok, Cho, Yun Sung, Kim, Hak-Min, Chung, Oksung, Kim, Hyunho, Jho, Sungwoong, Seomun, Hong, Kim, Jeongho, Bang, Woo Young, Kim, Changmu, An, Junghwa, Bae, Chang Hwan, Bhak, Youngjune, Jeon, Sungwon, Yoon, Hyejun, Kim, Yumi, Jun, JeHoon, Lee, HyeJin, Cho, Suan, Uphyrkina, Olga, Kostyria, Aleksey, Goodrich, John, Miquelle, Dale, Roelke, Melody, Lewis, John, Yurchenko, Andrey, Bankevich, Anton, Cho, Juok, Lee, Semin, Edwards, Jeremy S., Weber, Jessica A., Cook, Jo, Kim, Sangsoo, Lee, Hang, Manica, Andrea, Lee, Ilbeum, O’Brien, Stephen J., Bhak, Jong, and Yeo, Joo-Hong

Subjects

Carnivorous diet, Evolutionary adaptation, Leopard, Felidae, Comparative genomics

Abstract

Background: There are three main dietary groups in mammals: carnivores, omnivores, and herbivores. Currently, there is limited comparative genomics insight into the evolution of dietary specializations in mammals. Due to recent advances in sequencing technologies, we were able to perform in-depth whole genome analyses of representatives of these three dietary groups. Results: We investigated the evolution of carnivory by comparing 18 representative genomes from across Mammalia with carnivorous, omnivorous, and herbivorous dietary specializations, focusing on Felidae (domestic cat, tiger, lion, cheetah, and leopard), Hominidae, and Bovidae genomes. We generated a new high-quality leopard genome assembly, as well as two wild Amur leopard whole genomes. In addition to a clear contraction in gene families for starch and sucrose metabolism, the carnivore genomes showed evidence of shared evolutionary adaptations in genes associated with diet, muscle strength, agility, and other traits responsible for successful hunting and meat consumption. Additionally, an analysis of highly conserved regions at the family level revealed molecular signatures of dietary adaptation in each of Felidae, Hominidae, and Bovidae. However, unlike carnivores, omnivores and herbivores showed fewer shared adaptive signatures, indicating that carnivores are under strong selective pressure related to diet. Finally, felids showed recent reductions in genetic diversity associated with decreased population sizes, which may be due to the inflexible nature of their strict diet, highlighting their vulnerability and critical conservation status. Conclusions: Our study provides a large-scale family level comparative genomic analysis to address genomic changes associated with dietary specialization. Our genomic analyses also provide useful resources for diet-related genetic and health research. Electronic supplementary material The online version of this article (doi:10.1186/s13059-016-1071-4) contains supplementary material, which is available to authorized users.

Published

2016

10. Corrigendum: An ethnically relevant consensus Korean reference genome is a step towards personal reference genomes.

Author

Cho, Yun Sung, Kim, Hyunho, Kim, Hak-Min, Jho, Sungwoong, Jun, JeHoon, Lee, Yong Joo, Chae, Kyun Shik, Kim, Chang Geun, Kim, Sangsoo, Eriksson, Anders, Edwards, Jeremy S., Lee, Semin, Kim, Byung Chul, Manica, Andrea, Oh, Tae-Kwang, Church, George M., and Bhak, Jong

Abstract

This corrects the article DOI: 10.1038/ncomms13637 [ABSTRACT FROM AUTHOR]

Published

2017

11. An ethnically relevant consensus Korean reference genome is a step towards personal reference genomes.

Author

Cho, Yun Sung, Kim, Hyunho, Kim, Hak-Min, Jho, Sungwoong, Jun, JeHoon, Lee, Yong Joo, Chae, Kyun Shik, Kim, Chang Geun, Kim, Sangsoo, Eriksson, Anders, Edwards, Jeremy S., Lee, Semin, Kim, Byung Chul, Manica, Andrea, Oh, Tae-Kwang, Church, George M., and Bhak, Jong

Published

2016

12. The tiger genome and comparative analysis with lion and snow leopard genomes.

Author

Cho, Yun Sung, Hu, Li, Hou, Haolong, Lee, Hang, Xu, Jiaohui, Kwon, Soowhan, Oh, Sukhun, Kim, Hak-Min, Jho, Sungwoong, Kim, Sangsoo, Shin, Young-Ah, Kim, Byung Chul, Kim, Hyunmin, Kim, Chang-uk, Luo, Shu-Jin, Johnson, Warren E., Koepfli, Klaus-Peter, Schmidt-Küntzel, Anne, Turner, Jason A., and Marker, Laurie

Published

2013

13. KoVariome: Korean National Standard Reference Variome database of whole genomes with comprehensive SNV, indel, CNV, and SV analyses.

Author

Kim J, Weber JA, Jho S, Jang J, Jun J, Cho YS, Kim HM, Kim H, Kim Y, Chung O, Kim CG, Lee H, Kim BC, Han K, Koh I, Chae KS, Lee S, Edwards JS, and Bhak J

Subjects

Databases, Genetic, Female, High-Throughput Nucleotide Sequencing, Humans, Male, Mutation, Reference Standards, Republic of Korea, Sequence Analysis, DNA, DNA Copy Number Variations, Disease genetics, Genetics, Population, Genome, Human, INDEL Mutation, Polymorphism, Single Nucleotide, Whole Genome Sequencing methods

Abstract

High-coverage whole-genome sequencing data of a single ethnicity can provide a useful catalogue of population-specific genetic variations, and provides a critical resource that can be used to more accurately identify pathogenic genetic variants. We report a comprehensive analysis of the Korean population, and present the Korean National Standard Reference Variome (KoVariome). As a part of the Korean Personal Genome Project (KPGP), we constructed the KoVariome database using 5.5 terabases of whole genome sequence data from 50 healthy Korean individuals in order to characterize the benign ethnicity-relevant genetic variation present in the Korean population. In total, KoVariome includes 12.7M single-nucleotide variants (SNVs), 1.7M short insertions and deletions (indels), 4K structural variations (SVs), and 3.6K copy number variations (CNVs). Among them, 2.4M (19%) SNVs and 0.4M (24%) indels were identified as novel. We also discovered selective enrichment of 3.8M SNVs and 0.5M indels in Korean individuals, which were used to filter out 1,271 coding-SNVs not originally removed from the 1,000 Genomes Project when prioritizing disease-causing variants. KoVariome health records were used to identify novel disease-causing variants in the Korean population, demonstrating the value of high-quality ethnic variation databases for the accurate interpretation of individual genomes and the precise characterization of genetic variations.

Published

2018

14. The first whole genome and transcriptome of the cinereous vulture reveals adaptation in the gastric and immune defense systems and possible convergent evolution between the Old and New World vultures.

Author

Chung O, Jin S, Cho YS, Lim J, Kim H, Jho S, Kim HM, Jun J, Lee H, Chon A, Ko J, Edwards J, Weber JA, Han K, O'Brien SJ, Manica A, Bhak J, and Paek WK

Subjects

Adaptation, Biological genetics, Animals, Digestive System Physiological Phenomena genetics, Genetic Variation, Genome, Immunity genetics, Sequence Analysis, DNA, Transcriptome, Evolution, Molecular, Falconiformes genetics

Abstract

Background: The cinereous vulture, Aegypius monachus, is the largest bird of prey and plays a key role in the ecosystem by removing carcasses, thus preventing the spread of diseases. Its feeding habits force it to cope with constant exposure to pathogens, making this species an interesting target for discovering functionally selected genetic variants. Furthermore, the presence of two independently evolved vulture groups, Old World and New World vultures, provides a natural experiment in which to investigate convergent evolution due to obligate scavenging., Results: We sequenced the genome of a cinereous vulture, and mapped it to the bald eagle reference genome, a close relative with a divergence time of 18 million years. By comparing the cinereous vulture to other avian genomes, we find positively selected genetic variations in this species associated with respiration, likely linked to their ability of immune defense responses and gastric acid secretion, consistent with their ability to digest carcasses. Comparisons between the Old World and New World vulture groups suggest convergent gene evolution. We assemble the cinereous vulture blood transcriptome from a second individual, and annotate genes. Finally, we infer the demographic history of the cinereous vulture which shows marked fluctuations in effective population size during the late Pleistocene., Conclusions: We present the first genome and transcriptome analyses of the cinereous vulture compared to other avian genomes and transcriptomes, revealing genetic signatures of dietary and environmental adaptations accompanied by possible convergent evolution between the Old World and New World vultures.

Published

2015

15. Variation block-based genomics method for crop plants.

Author

Kim YH, Park HM, Hwang TY, Lee SK, Choi MS, Jho S, Hwang S, Kim HM, Lee D, Kim BC, Hong CP, Cho YS, Kim H, Jeong KH, Seo MJ, Yun HT, Kim SL, Kwon YU, Kim WH, Chun HK, Lim SJ, Shin YA, Choi IY, Kim YS, Yoon HS, Lee SH, and Lee S

Subjects

Base Sequence, Chromosome Mapping, Plant Proteins genetics, Polymorphism, Single Nucleotide, Promoter Regions, Genetic, Sequence Analysis, DNA, Crops, Agricultural genetics, Genome, Plant, Glycine max genetics

Abstract

Background: In contrast with wild species, cultivated crop genomes consist of reshuffled recombination blocks, which occurred by crossing and selection processes. Accordingly, recombination block-based genomics analysis can be an effective approach for the screening of target loci for agricultural traits., Results: We propose the variation block method, which is a three-step process for recombination block detection and comparison. The first step is to detect variations by comparing the short-read DNA sequences of the cultivar to the reference genome of the target crop. Next, sequence blocks with variation patterns are examined and defined. The boundaries between the variation-containing sequence blocks are regarded as recombination sites. All the assumed recombination sites in the cultivar set are used to split the genomes, and the resulting sequence regions are termed variation blocks. Finally, the genomes are compared using the variation blocks. The variation block method identified recurring recombination blocks accurately and successfully represented block-level diversities in the publicly available genomes of 31 soybean and 23 rice accessions. The practicality of this approach was demonstrated by the identification of a putative locus determining soybean hilum color., Conclusions: We suggest that the variation block method is an efficient genomics method for the recombination block-level comparison of crop genomes. We expect that this method will facilitate the development of crop genomics by bringing genomics technologies to the field of crop breeding.

Published

2014

16. Genomic profile analysis of diffuse-type gastric cancers.

Author

Lee YS, Cho YS, Lee GK, Lee S, Kim YW, Jho S, Kim HM, Hong SH, Hwang JA, Kim SY, Hong D, Choi IJ, Kim BC, Kim BC, Kim CH, Choi H, Kim Y, Kim KW, Kong G, Kim HL, Bhak J, Lee SH, and Lee JS

Subjects

Adult, Amino Acid Sequence, Antigens, CD, Cadherins chemistry, Cadherins genetics, Cadherins metabolism, Case-Control Studies, Female, Gene Amplification, Gene Fusion, Humans, Male, Molecular Sequence Data, Mutation, Proto-Oncogene Proteins c-mdm2 genetics, Stomach Neoplasms diagnosis, Tuberous Sclerosis Complex 2 Protein, Tumor Suppressor Proteins chemistry, Tumor Suppressor Proteins genetics, Ubiquitin-Protein Ligases chemistry, Ubiquitin-Protein Ligases genetics, Genome, Human, Stomach Neoplasms genetics

Abstract

Background: Stomach cancer is the third deadliest among all cancers worldwide. Although incidence of the intestinal-type gastric cancer has decreased, the incidence of diffuse-type is still increasing and its progression is notoriously aggressive. There is insufficient information on genome variations of diffuse-type gastric cancer because its cells are usually mixed with normal cells, and this low cellularity has made it difficult to analyze the genome., Results: We analyze whole genomes and corresponding exomes of diffuse-type gastric cancer, using matched tumor and normal samples from 14 diffuse-type and five intestinal-type gastric cancer patients. Somatic variations found in the diffuse-type gastric cancer are compared to those of the intestinal-type and to previously reported variants. We determine the average exonic somatic mutation rate of the two types. We find associated candidate driver genes, and identify seven novel somatic mutations in CDH1, which is a well-known gastric cancer-associated gene. Three-dimensional structure analysis of the mutated E-cadherin protein suggests that these new somatic mutations could cause significant functional perturbations of critical calcium-binding sites in the EC1-2 junction. Chromosomal instability analysis shows that the MDM2 gene is amplified. After thorough structural analysis, a novel fusion gene TSC2-RNF216 is identified, which may simultaneously disrupt tumor-suppressive pathways and activate tumorigenesis., Conclusions: We report the genomic profile of diffuse-type gastric cancers including new somatic variations, a novel fusion gene, and amplification and deletion of certain chromosomal regions that contain oncogenes and tumor suppressors.

Published

2014

17. Whole genome sequence and analysis of the Marwari horse breed and its genetic origin.

Author

Jun J, Cho YS, Hu H, Kim HM, Jho S, Gadhvi P, Park KM, Lim J, Paek WK, Han K, Manica A, Edwards JS, and Bhak J

Subjects

Amino Acid Sequence, Animals, Evolution, Molecular, Genetic Variation, Genotype, Humans, Hybridization, Genetic, Male, Molecular Sequence Data, Phenotype, Selection, Genetic, Species Specificity, Genome genetics, Genomics, Horses genetics, Sequence Analysis, DNA

Abstract

Background: The horse (Equus ferus caballus) is one of the earliest domesticated species and has played an important role in the development of human societies over the past 5,000 years. In this study, we characterized the genome of the Marwari horse, a rare breed with unique phenotypic characteristics, including inwardly turned ear tips. It is thought to have originated from the crossbreeding of local Indian ponies with Arabian horses beginning in the 12th century., Results: We generated 101 Gb (~30 × coverage) of whole genome sequences from a Marwari horse using the Illumina HiSeq2000 sequencer. The sequences were mapped to the horse reference genome at a mapping rate of ~98% and with ~95% of the genome having at least 10 × coverage. A total of 5.9 million single nucleotide variations, 0.6 million small insertions or deletions, and 2,569 copy number variation blocks were identified. We confirmed a strong Arabian and Mongolian component in the Marwari genome. Novel variants from the Marwari sequences were annotated, and were found to be enriched in olfactory functions. Additionally, we suggest a potential functional genetic variant in the TSHZ1 gene (p.Ala344>Val) associated with the inward-turning ear tip shape of the Marwari horses., Conclusions: Here, we present an analysis of the Marwari horse genome. This is the first genomic data for an Asian breed, and is an invaluable resource for future studies of genetic variation associated with phenotypes and diseases in horses.

Published

2014

18. Whole genome comparison of donor and cloned dogs.

Author

Kim HM, Cho YS, Kim H, Jho S, Son B, Choi JY, Kim S, Lee BC, Bhak J, and Jang G

Subjects

Animals, Dogs, Genomic Instability, Male, Mutation, Sequence Analysis, DNA, Telomere Homeostasis, Twins, Monozygotic, Cloning, Organism veterinary, Genome

Abstract

Cloning is a process that produces genetically identical organisms. However, the genomic degree of genetic resemblance in clones needs to be determined. In this report, the genomes of a cloned dog and its donor were compared. Compared with a human monozygotic twin, the genome of the cloned dog showed little difference from the genome of the nuclear donor dog in terms of single nucleotide variations, chromosomal instability, and telomere lengths. These findings suggest that cloning by somatic cell nuclear transfer produced an almost identical genome. The whole genome sequence data of donor and cloned dogs can provide a resource for further investigations on epigenetic contributions in phenotypic differences.

Published

2013

19. Comprehensive genome- and transcriptome-wide analyses of mutations associated with microsatellite instability in Korean gastric cancers.

Author

Yoon K, Lee S, Han TS, Moon SY, Yun SM, Kong SH, Jho S, Choe J, Yu J, Lee HJ, Park JH, Kim HM, Lee SY, Park J, Kim WH, Bhak J, Yang HK, and Kim SJ

Subjects

Cell Line, Tumor, Frameshift Mutation, Gene Expression Regulation, Neoplastic, Gene Frequency, High-Throughput Nucleotide Sequencing, Humans, Microsatellite Repeats, RNA Processing, Post-Transcriptional, RNA Stability, Republic of Korea, Sequence Deletion, Untranslated Regions, Asian People genetics, Genome-Wide Association Study, Microsatellite Instability, Mutation, Stomach Neoplasms genetics, Transcriptome

Abstract

Microsatellite instability (MSI) is a critical mechanism that drives genetic aberrations in cancer. To identify the entire MS mutation, we performed the first comprehensive genome- and transcriptome-wide analyses of mutations associated with MSI in Korean gastric cancer cell lines and primary tissues. We identified 18,377 MS mutations of five or more repeat nucleotides in coding sequences and untranslated regions of genes, and discovered 139 individual genes whose expression was down-regulated in association with UTR MS mutation. In addition, we found that 90.5% of MS mutations with deletions in gene regions occurred in UTRs. This analysis emphasizes the genetic diversity of MSI-H gastric tumors and provides clues to the mechanistic basis of instability in microsatellite unstable gastric cancers.

Published

2013

20. PDbase: a database of Parkinson's disease-related genes and genetic variation using substantia nigra ESTs.

Author

Yang JO, Kim WY, Jeong SY, Oh JH, Jho S, Bhak J, and Kim NS

Subjects

DNA, Complementary chemistry, DNA, Complementary genetics, Down-Regulation, Gene Library, Humans, Internet, Up-Regulation, Databases, Nucleic Acid, Expressed Sequence Tags, Genetic Variation, Parkinson Disease genetics, Substantia Nigra chemistry

Abstract

Background: Parkinson's disease (PD) is one of the most common neurodegenerative disorders, clinically characterized by impaired motor function. Since the etiology of PD is diverse and complex, many researchers have created PD-related research resources. However, resources for brain and PD studies are still lacking. Therefore, we have constructed a database of PD-related gene and genetic variations using the substantia nigra (SN) in PD and normal tissues. In addition, we integrated PD-related information from several resources., Results: We collected the 6,130 SN expressed sequenced tags (ESTs) from brain SN normal tissues and PD patients SN tissues using full-cDNA library and normalized cDNA library construction methods from our previous study. The SN ESTs were clustered in 2,951 unigene clusters and assigned in 2,678 genes. We then found up-regulated 57 genes and down-regulated 48 genes by comparing normal and PD SN ESTs frequencies with over 0.9 cut-off probability of differential expression based on the Audic and Claverie method. In addition, we integrated disease-related information from public resources. To examine the characteristics of these PD-related genes, we analyzed alternative splicing events, single nucleotide polymorphism (SNP) markers located in the gene regions, repeat elements, gene regulation elements, and pathways and protein-protein interaction networks., Conclusion: We constructed the PDbase database to capture the PD-related gene, genetic variation, and functional elements. This database contains 2,698 PD-related genes through ESTs discovered from human normal and PD patients SN tissues, and through integrating several public resources. PDbase provides the mitochondrion proteins, microRNA gene regulation elements, single nucleotide polymorphisms (SNPs) markers within PD-related gene structures, repeat elements, and pathways and networks with protein-protein interaction information. The PDbase information can aid in understanding the causation of PD. It is available at http://bioportal.kobic.re.kr/PDbase/. Supplementary data is available at http://bioportal.kobic.re.kr/PDbase/suppl.jsp.

Published

2009

21. The first Korean genome sequence and analysis: full genome sequencing for a socio-ethnic group.

Author

Ahn SM, Kim TH, Lee S, Kim D, Ghang H, Kim DS, Kim BC, Kim SY, Kim WY, Kim C, Park D, Lee YS, Kim S, Reja R, Jho S, Kim CG, Cha JY, Kim KH, Lee B, Bhak J, and Kim SJ

Subjects

Computational Biology methods, Databases, Genetic, Female, Genomics methods, Humans, INDEL Mutation, Korea, Male, Oligonucleotide Array Sequence Analysis, Polymorphism, Single Nucleotide genetics, Reference Standards, Asian People genetics, Genome, Human genetics, Sequence Analysis, DNA methods

Abstract

We present the first Korean individual genome sequence (SJK) and analysis results. The diploid genome of a Korean male was sequenced to 28.95-fold redundancy using the Illumina paired-end sequencing method. SJK covered 99.9% of the NCBI human reference genome. We identified 420,083 novel single nucleotide polymorphisms (SNPs) that are not in the dbSNP database. Despite a close similarity, significant differences were observed between the Chinese genome (YH), the only other Asian genome available, and SJK: (1) 39.87% (1,371,239 out of 3,439,107) SNPs were SJK-specific (49.51% against Venter's, 46.94% against Watson's, and 44.17% against the Yoruba genomes); (2) 99.5% (22,495 out of 22,605) of short indels (< 4 bp) discovered on the same loci had the same size and type as YH; and (3) 11.3% (331 out of 2920) deletion structural variants were SJK-specific. Even after attempting to map unmapped reads of SJK to unanchored NCBI scaffolds, HGSV, and available personal genomes, there were still 5.77% SJK reads that could not be mapped. All these findings indicate that the overall genetic differences among individuals from closely related ethnic groups may be significant. Hence, constructing reference genomes for minor socio-ethnic groups will be useful for massive individual genome sequencing.

Published

2009