Your search keyword '"Cho, Seoae"' showing total 125 results

101. Identification of Differentially Evolved Genes: An Alternative Approach to Detection of Accelerated Molecular Evolution from Genome-Wide Comparative Data

Author

Kim, Kyu-Won, primary, Burt, David W., additional, Kim, Heebal, additional, and Cho, Seoae, additional

Published

2013

102. Neuronal Genes for Subcutaneous Fat Thickness in Human and Pig Are Identified by Local Genomic Sequencing and Combined SNP Association Study

Author

Lee, Kyung-Tai, primary, Byun, Mi-Jeong, additional, Kang, Kyung-Soo, additional, Park, Eung-Woo, additional, Lee, Seung-Hwan, additional, Cho, Seoae, additional, Kim, HyoYoung, additional, Kim, Kyu-Won, additional, Lee, TaeHeon, additional, Park, Jong-Eun, additional, Park, WonCheoul, additional, Shin, DongHyun, additional, Park, Hong-Seog, additional, Jeon, Jin-Tae, additional, Choi, Bong-Hwan, additional, Jang, Gul-Won, additional, Choi, Sang-Haeng, additional, Kim, Dae-Won, additional, Lim, Dajeong, additional, Park, Hae-Suk, additional, Park, Mi-Rim, additional, Ott, Jurg, additional, Schook, Lawrence B., additional, Kim, Tae-Hun, additional, and Kim, Heebal, additional

Published

2011

103. Genome-wide association study of copy number variations associated with pulmonary function measures in Korea Associated Resource (KARE) cohorts

Author

Lee, Bo-Young, primary, Cho, Seoae, additional, Shin, Dong Hyun, additional, and Kim, Heebal, additional

Published

2011

104. Elastic-net regularization approaches for genome-wide association studies of rheumatoid arthritis

Author

Cho, Seoae, primary, Kim, Haseong, additional, Oh, Sohee, additional, Kim, Kyunga, additional, and Park, Taesung, additional

Published

2009

105. An integrated approach to infer causal associations among gene expression, genotype variation, and disease

Author

Lee, Eunjee, primary, Cho, Seoae, additional, Kim, Kyunga, additional, and Park, Taesung, additional

Published

2009

106. Organization and evolution of mitochondrial gene clusters in human

Author

Moon, Sunjin, primary, Cho, Seoae, additional, and Kim, Heebal, additional

Published

2008

107. A set of stage-specific gene transcripts identified in EK stage X and HH stage 3 chick embryos

Author

Lee, Bo Ram, primary, Kim, Heebal, additional, Park, Tae Sub, additional, Moon, Sunjin, additional, Cho, Seoae, additional, Park, Taesung, additional, Lim, Jeong Mook, additional, and Han, Jae Yong, additional

Published

2007

108. Developmental Dynamic Analysis of the Excreted Microbiome of Chickens Using Next-Generation Sequencing.

Author

Lim, Sooyeon, Cho, SooHyun, Caetano-anolles, Kelsey, Jeong, Seok Geun, Oh, Mi Hwa, Park, Beom Young, Kim, Hyun Jung, Cho, Seoae, Choi, Sang Ho, Ryu, Sangryeol, Lee, Ju-Hoon, Kim, Heebal, and Ham, Jun Sang

Subjects

RIBOSOMAL RNA, CONTAMINATION of poultry, NUCLEIC acid isolation methods, PYROSEQUENCING, MICROBIAL contamination

Abstract

Poultry contamination can be largely attributed to the presence of chicken feces during the production process. Fecal contamination is often found in raw chicken products sold for human consumption. Quantitative analysis of the fecal microbial community of chickens using next-generation sequencing techniques is the focus of this study. Fecal samples were collected from 30 broiler chickens at two time points: days 1 and 35 of development. 454 pyrosequencing was conducted on 16S rRNA extracted from each sample, and microbial population dynamics were investigated using various automated bioinformatics pipelines. Diversity of the microbial community at the genus level increased during the 5-week growth period. Despite this growth, only a few dominant bacteria groups (over 80%) were identified in each fecal sample, with most groups being unique and only a few were shared between samples. Population analysis at the genus level showed that microbial diversity increased with chicken growth and development. Classification and phylogenetic analysis of highly represented microbes (over 1%) clearly showed high levels of sequence similarity between groups such as Firmicutes and Proteobacteria. These results suggest that the chicken fecal excreted microbiome is a dynamic system with a differentiated population structure that harbors a highly restricted number of higher taxa. © 2015 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2015

109. Investigation of De Novo Unique Differentially Expressed Genes Related to Evolution in Exercise Response during Domestication in Thoroughbred Race Horses.

Author

Park, Woncheoul, Kim, Jaemin, Kim, Hyeon Jeong, Choi, JaeYoung, Park, Jeong-Woong, Cho, Hyun-Woo, Kim, Byeong-Woo, Park, Myung Hum, Shin, Teak-Soon, Cho, Seong-Keun, Park, Jun-Kyu, Kim, Heebal, Hwang, Jae Yeon, Lee, Chang-Kyu, Lee, Hak-Kyo, Cho, Seoae, and Cho, Byung-Wook

Subjects

RACE horses, GENE expression, EXERCISE, DOMESTICATION of horses, NUCLEOTIDE sequence, GENETIC transcription, IMMUNE system

Abstract

Previous studies of horse RNA-seq were performed by mapping sequence reads to the reference genome during transcriptome analysis. However in this study, we focused on two main ideas. First, differentially expressed genes (DEGs) were identified by de novo–based analysis (DBA) in RNA-seq data from six Thoroughbreds before and after exercise, here-after referred to as “de novo unique differentially expressed genes” (DUDEG). Second, by integrating both conventional DEGs and genes identified as being selected for during domestication of Thoroughbred and Jeju pony from whole genome re-sequencing (WGS) data, we give a new concept to the definition of DEG. We identified 1,034 and 567 DUDEGs in skeletal muscle and blood, respectively. DUDEGs in skeletal muscle were significantly related to exercise-induced stress biological process gene ontology (BP-GO) terms: ‘immune system process’; ‘response to stimulus’; and, ‘death’ and a KEGG pathways: ‘JAK-STAT signaling pathway’; ‘MAPK signaling pathway’; ‘regulation of actin cytoskeleton’; and, ‘p53 signaling pathway’. In addition, we found TIMELESS, EIF4A3 and ZNF592 in blood and CHMP4C and FOXO3 in skeletal muscle, to be in common between DUDEGs and selected genes identified by evolutionary statistics such as FST and Cross Population Extended Haplotype Homozygosity (XP-EHH). Moreover, in Thoroughbreds, three out of five genes (CHMP4C, EIF4A3 and FOXO3) related to exercise response showed relatively low nucleotide diversity compared to the Jeju pony. DUDEGs are not only conceptually new DEGs that cannot be attained from reference-based analysis (RBA) but also supports previous RBA results related to exercise in Thoroughbred. In summary, three exercise related genes which were selected for during domestication in the evolutionary history of Thoroughbred were identified as conceptually new DEGs in this study. [ABSTRACT FROM AUTHOR]

Published

2014

110. Darkness and gulliver2/ phy B mutation decrease the abundance of phosphorylated BZR1 to activate brassinosteroid signaling in Arabidopsis.

Author

Kim, Bokyung, Jeong, Yu Jeong, Corvalán, Claudia, Fujioka, Shozo, Cho, Seoae, Park, Taesung, and Choe, Sunghwa

Subjects

GENETIC mutation, PHOSPHORYLATION, BRASSINOSTEROIDS, CELLULAR signal transduction, ARABIDOPSIS, PHYSIOLOGICAL effects of steroid hormones, PLANT growth promoting substances

Abstract

Light is essential for plant survival; as such, plants flexibly adjust their growth and development to best harvest light energy. Brassinosteroids ( BRs), plant growth-promoting steroid hormones, are essential for this plasticity of development. However, the precise mechanisms underlying BR-mediated growth under different light conditions remain largely unknown. Here, we show that darkness increases the activity of the BR-specific transcription factor, BZR1, by decreasing the phosphorylated (inactive) form of BZR1 in a proteasome-dependent manner. We observed that COP1, a dark-activated ubiquitin ligase, captures and degrades the inactive form of BZR1. In support of this, BZR1 is abundant in the cop1-4 mutant. The removal of phosphorylated BZR1 in darkness increases the ratio of dephosphorylated to phosphorylated forms of BZR1, thus increasing the chance of active homodimers forming between dephosphorylated BZR1 proteins. Furthermore, a transcriptome analysis revealed the identity of genes that are likely to contribute to the differential growth of hypocotyls in light conditions. Transgenic misexpression of three genes under the 35 S promoter in light conditions resulted in elongated petioles and hypocotyls. Our results suggest that light conditions directly control BR signaling by modulating BZR1 stability, and consequently by establishing light-dependent patterns of hypocotyl growth in Arabidopsis. [ABSTRACT FROM AUTHOR]

Published

2014

111. Peeling Back the Evolutionary Layers of Molecular Mechanisms Responsive to Exercise-Stress in the Skeletal Muscle of the Racing Horse.

Author

Kim, Hyeongmin, Lee, Taeheon, Park, WonCheoul, Lee, Jin Woo, Kim, Jaemin, Lee, Bo-Young, Ahn, Hyeonju, Moon, Sunjin, Cho, Seoae, Do, Kyoung-Tag, Kim, Heui-Soo, Lee, Hak-Kyo, Lee, Chang-Kyu, Kong, Hong-Sik, Yang, Young-Mok, Park, Jongsun, Kim, Hak-Min, Kim, Byung Chul, Hwang, Seungwoo, and Bhak, Jong

Abstract

The modern horse (Equus caballus) is the product of over 50 million yrs of evolution. The athletic abilities of the horse have been enhanced during the past 6000 yrs under domestication. Therefore, the horse serves as a valuable model to understand the physiology and molecular mechanisms of adaptive responses to exercise. The structure and function of skeletal muscle show remarkable plasticity to the physical and metabolic challenges following exercise. Here, we reveal an evolutionary layer of responsiveness to exercise-stress in the skeletal muscle of the racing horse. We analysed differentially expressed genes and their co-expression networks in a large-scale RNA-sequence dataset comparing expression before and after exercise. By estimating genome-wide dN/dS ratios using six mammalian genomes, and FST and iHS using re-sequencing data derived from 20 horses, we were able to peel back the evolutionary layers of adaptations to exercise-stress in the horse. We found that the oldest and thickest layer (dN/dS) consists of system-wide tissue and organ adaptations. We further find that, during the period of horse domestication, the older layer (FST) is mainly responsible for adaptations to inflammation and energy metabolism, and the most recent layer (iHS) for neurological system process, cell adhesion, and proteolysis. [ABSTRACT FROM PUBLISHER]

Published

2013

112. The genome landscape of indigenous African cattle

Author

Kim, Jaemin, Hanotte, Olivier, Okeyo, Ally Mwai, Dessie, Tadelle, Bashir, Salim, Diallo, Boubacar, Agaba, Morris, Kim, Kwondo, Kwak, Woori, Sung, Samsun, Seo, Minseok, Jeong, Hyeonsoo, Taehyung, Kwon, Taye, Mengistie, Song, Ki-Duk, Lim, Dajeong, Cho, Seoae, Lee, Hyun-Jeong, Yoon, Duhak, Oh, Sung Jong, Kemp, Stephen, Lee, Hak-Kyo, Kim, Heebal, Kim, Jaemin, Hanotte, Olivier, Okeyo, Ally Mwai, Dessie, Tadelle, Bashir, Salim, Diallo, Boubacar, Agaba, Morris, Kim, Kwondo, Kwak, Woori, Sung, Samsun, Seo, Minseok, Jeong, Hyeonsoo, Taehyung, Kwon, Taye, Mengistie, Song, Ki-Duk, Lim, Dajeong, Cho, Seoae, Lee, Hyun-Jeong, Yoon, Duhak, Oh, Sung Jong, Kemp, Stephen, Lee, Hak-Kyo, and Kim, Heebal

Abstract

Background: The history of African indigenous cattle and their adaptation to environmental and human selection pressure is at the root of their remarkable diversity. Characterization of this diversity is an essential step towards understanding the genomic basis of productivity and adaptation to survival under African farming systems. Results: We analyze patterns of African cattle genetic variation by sequencing 48 genomes from five indigenous populations and comparing them to the genomes of 53 commercial taurine breeds. We find the highest genetic diversity among African zebu and sanga cattle. Our search for genomic regions under selection reveals signatures of selection for environmental adaptive traits. In particular, we identify signatures of selection including genes and/ or pathways controlling anemia and feeding behavior in the trypanotolerant N’Dama, coat color and horn development in Ankole, and heat tolerance and tick resistance across African cattle especially in zebu breeds. Conclusions: Our findings unravel at the genome-wide level, the unique adaptive diversity of African cattle while emphasizing the opportunities for sustainable improvement of livestock productivity on the continent.

113. The genome landscape of indigenous African cattle

Author

Kim, Jaemin, Hanotte, Olivier, Okeyo, Ally Mwai, Dessie, Tadelle, Bashir, Salim, Diallo, Boubacar, Agaba, Morris, Kim, Kwondo, Kwak, Woori, Sung, Samsun, Seo, Minseok, Jeong, Hyeonsoo, Taehyung, Kwon, Taye, Mengistie, Song, Ki-Duk, Lim, Dajeong, Cho, Seoae, Lee, Hyun-Jeong, Yoon, Duhak, Oh, Sung Jong, Kemp, Stephen, Lee, Hak-Kyo, Kim, Heebal, Kim, Jaemin, Hanotte, Olivier, Okeyo, Ally Mwai, Dessie, Tadelle, Bashir, Salim, Diallo, Boubacar, Agaba, Morris, Kim, Kwondo, Kwak, Woori, Sung, Samsun, Seo, Minseok, Jeong, Hyeonsoo, Taehyung, Kwon, Taye, Mengistie, Song, Ki-Duk, Lim, Dajeong, Cho, Seoae, Lee, Hyun-Jeong, Yoon, Duhak, Oh, Sung Jong, Kemp, Stephen, Lee, Hak-Kyo, and Kim, Heebal

Abstract

Background: The history of African indigenous cattle and their adaptation to environmental and human selection pressure is at the root of their remarkable diversity. Characterization of this diversity is an essential step towards understanding the genomic basis of productivity and adaptation to survival under African farming systems. Results: We analyze patterns of African cattle genetic variation by sequencing 48 genomes from five indigenous populations and comparing them to the genomes of 53 commercial taurine breeds. We find the highest genetic diversity among African zebu and sanga cattle. Our search for genomic regions under selection reveals signatures of selection for environmental adaptive traits. In particular, we identify signatures of selection including genes and/ or pathways controlling anemia and feeding behavior in the trypanotolerant N’Dama, coat color and horn development in Ankole, and heat tolerance and tick resistance across African cattle especially in zebu breeds. Conclusions: Our findings unravel at the genome-wide level, the unique adaptive diversity of African cattle while emphasizing the opportunities for sustainable improvement of livestock productivity on the continent.

114. The genome landscape of indigenous African cattle

Author

Kim, Jaemin, Hanotte, Olivier, Okeyo, Ally Mwai, Dessie, Tadelle, Bashir, Salim, Diallo, Boubacar, Agaba, Morris, Kim, Kwondo, Kwak, Woori, Sung, Samsun, Seo, Minseok, Jeong, Hyeonsoo, Taehyung, Kwon, Taye, Mengistie, Song, Ki-Duk, Lim, Dajeong, Cho, Seoae, Lee, Hyun-Jeong, Yoon, Duhak, Oh, Sung Jong, Kemp, Stephen, Lee, Hak-Kyo, Kim, Heebal, Kim, Jaemin, Hanotte, Olivier, Okeyo, Ally Mwai, Dessie, Tadelle, Bashir, Salim, Diallo, Boubacar, Agaba, Morris, Kim, Kwondo, Kwak, Woori, Sung, Samsun, Seo, Minseok, Jeong, Hyeonsoo, Taehyung, Kwon, Taye, Mengistie, Song, Ki-Duk, Lim, Dajeong, Cho, Seoae, Lee, Hyun-Jeong, Yoon, Duhak, Oh, Sung Jong, Kemp, Stephen, Lee, Hak-Kyo, and Kim, Heebal

Abstract

Background: The history of African indigenous cattle and their adaptation to environmental and human selection pressure is at the root of their remarkable diversity. Characterization of this diversity is an essential step towards understanding the genomic basis of productivity and adaptation to survival under African farming systems. Results: We analyze patterns of African cattle genetic variation by sequencing 48 genomes from five indigenous populations and comparing them to the genomes of 53 commercial taurine breeds. We find the highest genetic diversity among African zebu and sanga cattle. Our search for genomic regions under selection reveals signatures of selection for environmental adaptive traits. In particular, we identify signatures of selection including genes and/ or pathways controlling anemia and feeding behavior in the trypanotolerant N’Dama, coat color and horn development in Ankole, and heat tolerance and tick resistance across African cattle especially in zebu breeds. Conclusions: Our findings unravel at the genome-wide level, the unique adaptive diversity of African cattle while emphasizing the opportunities for sustainable improvement of livestock productivity on the continent.

115. The genome landscape of indigenous African cattle

Author

Kim, Jaemin, Hanotte, Olivier, Okeyo, Ally Mwai, Dessie, Tadelle, Bashir, Salim, Diallo, Boubacar, Agaba, Morris, Kim, Kwondo, Kwak, Woori, Sung, Samsun, Seo, Minseok, Jeong, Hyeonsoo, Taehyung, Kwon, Taye, Mengistie, Song, Ki-Duk, Lim, Dajeong, Cho, Seoae, Lee, Hyun-Jeong, Yoon, Duhak, Oh, Sung Jong, Kemp, Stephen, Lee, Hak-Kyo, Kim, Heebal, Kim, Jaemin, Hanotte, Olivier, Okeyo, Ally Mwai, Dessie, Tadelle, Bashir, Salim, Diallo, Boubacar, Agaba, Morris, Kim, Kwondo, Kwak, Woori, Sung, Samsun, Seo, Minseok, Jeong, Hyeonsoo, Taehyung, Kwon, Taye, Mengistie, Song, Ki-Duk, Lim, Dajeong, Cho, Seoae, Lee, Hyun-Jeong, Yoon, Duhak, Oh, Sung Jong, Kemp, Stephen, Lee, Hak-Kyo, and Kim, Heebal

Abstract

Background: The history of African indigenous cattle and their adaptation to environmental and human selection pressure is at the root of their remarkable diversity. Characterization of this diversity is an essential step towards understanding the genomic basis of productivity and adaptation to survival under African farming systems. Results: We analyze patterns of African cattle genetic variation by sequencing 48 genomes from five indigenous populations and comparing them to the genomes of 53 commercial taurine breeds. We find the highest genetic diversity among African zebu and sanga cattle. Our search for genomic regions under selection reveals signatures of selection for environmental adaptive traits. In particular, we identify signatures of selection including genes and/ or pathways controlling anemia and feeding behavior in the trypanotolerant N’Dama, coat color and horn development in Ankole, and heat tolerance and tick resistance across African cattle especially in zebu breeds. Conclusions: Our findings unravel at the genome-wide level, the unique adaptive diversity of African cattle while emphasizing the opportunities for sustainable improvement of livestock productivity on the continent.

116. Exploring the genomes of East African Indicine cattle breeds reveals signature of selection for tropical environmental adaptation traits.

Author

Taye, Mengistie, Lee, Wonseok, Caetano-Anolles, Kelsey, Dessie, Tadelle, Cho, Seoae, Jong Oh, Sung, Lee, Hak-Kyo, and Kim, Heebal

Subjects

CATTLE breeds, DOMESTICATION of animals, IMMUNE response, KERATIN genetics, COLLAGEN genetics

Abstract

African indigenous cattle breeds have been reared within the continent for millennia. Due to the harsh tropical environmental conditions (e.g. sever disease and parasite prevalence, high temperature, feed and water scarcity) where they evolved, they have developed various levels of tropical environment adaptation attributes. In order to explore the genomic signatures of tropical environment adaptation in African cattle, we compared the whole genomes of East African Indicus cattle breeds with European and Asian Taurine cattle breeds using XP-EHH and XP-CLR population statistical methods. Several genes involved in various biological processes and pathways related to domestication and behavior (dopaminergic and glutamatergic synapse), feeding and metabolism (gastric acid secretion, metabolic pathways), thermotolerance (sphingolipid and Wnt signaling), immune system response (T cell receptor signaling), and growth and reproduction (osteoblast differentiation, fibroblast migration) were identified from our genome analysis. Genes associated with tick and parasite resistance traits such as keratin genes, collagen genes, calcium signaling, and tumor necrosis factor proteins were also identified. The genes and pathways identified in this study improve our understanding of the biological mechanisms of tropical environment adaptation of African Indicus cattle breeds, which may allow us to use them for genomic selection programs. This result presents a basis for further study and may help to develop vaccines for tick and gastrointestinal parasite challenge. [ABSTRACT FROM AUTHOR]

Published

2018

117. rRNA operon improves species-level classification of bacteria and microbial community analysis compared to 16S rRNA.

Author

Won S, Cho S, and Kim H

Subjects

Phylogeny, DNA, Bacterial genetics, Sequence Analysis, DNA methods, RNA, Ribosomal, 16S genetics, Bacteria genetics, Bacteria classification, Bacteria isolation & purification, Microbiota genetics, rRNA Operon genetics

Abstract

Precise identification of species is fundamental in microbial genomics and is crucial for understanding the microbial communities. While the 16S rRNA gene, particularly its V3-V4 regions, has been extensively employed for microbial identification, however has limitations in achieving species-level resolution. Advancements in long-read sequencing technologies have highlighted the rRNA operon as a more accurate marker for microbial classification and analysis than the 16S rRNA gene. This study aims to compare the accuracy of species classification and microbial community analysis using the rRNA operon versus the 16S rRNA gene. We evaluated the species classification accuracy of the rRNA operon,16S rRNA gene, and 16S rRNA V3-V4 regions using a BLAST-based method and a k-mer matching-based method with public data available from NCBI. We further performed simulations to model microbial community analysis. We accessed the performance using each marker in community composition estimation and differential abundance analysis. Our findings demonstrate that the rRNA operon offers an advantage over the 16S rRNA gene and its V3-V4 regions for species-level classification within the genus. When applied to microbial community analysis, the rRNA operon enables a more accurate determination of composition. Using the rRNA operon yielded more reliable results in differential abundance analysis as well., Importance: We quantitatively demonstrated that the rRNA operon outperformed the 16S rRNA and its V3-V4 regions in accuracy for both individual species identification and species-level microbial community analysis. Our findings can provide guidelines for selecting appropriate markers in the field of microbial research., Competing Interests: The authors declare no conflict of interest.

Published

2024

118. Genomic insights and functional evaluation of Lacticaseibacillus paracasei EG005: a promising probiotic with enhanced antioxidant activity.

Author

Kim J, Jo J, Cho S, and Kim H

Abstract

Introduction: Probiotics, such as Lacticaseibacillus paracasei EG005, are gaining attention for their health benefits, particularly in reducing oxidative stress. The goal of this study was to reinforce the antioxidant capacity of EG005, along with comprehensive genomic analysis, with a focus on assessing superoxide dismutase (SOD) activity, acid resistance and bile tolerance, and safety., Methods: EG005 was screened for SOD activity and change of SOD activity was tested under various pH conditions. Its survival rates were assessed in acidic (pH 2.5) and bile salt (0.3%) conditions and the antibiotic MIC test and hemolysis test were performed to evaluate safety. Genetic analyses including functional identification and phylogenetic tree construction were performed. The SOD overexpression system was constructed using P tuf , P ldh1 , P lhd2 , and P ldh3 strong promoters., Results: EG005 demonstrated higher SOD activity compared to Lacticaseibacillus rhamnosus GG, with optimal activity at pH 7.0. It showed significant acid and bile tolerance, with survival rates recovering to 100% after 3 h in acidic conditions. Phylogenetic analysis confirmed that EG005 is closely related to other L. paracasei strains with ANI values above 98%. Overexpression of SOD using the P tuf promoter resulted in a two-fold increase in activity compared to the controls. Additionally, EG005 exhibited no hemolytic activity and showed antibiotic susceptibility within safe limits., Discussion: Our findings highlight EG005's potential as a probiotic with robust antioxidant activity and high tolerance to gastrointestinal conditions. Its unique genetic profile and enhanced SOD activity through strong promoter support its application in probiotic therapies and functional foods. Further research should be investigated to find the in vivo effects of EG005 on gut health and oxidative stress reduction. In addition, attB and attP-based recombination, combined with CRISPR-Cas9 technologies, could offer a more stable alternative for long-term sodA gene expression in commercial and medical applications., Competing Interests: JJ and SC were employed by the eGnome Inc. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Kim, Jo, Cho and Kim.)

Published

2024

119. Complete genome sequence and potential pathogenic assessment of Flavobacterium plurextorum RSG-18 isolated from the gut of Schlegel's black rockfish, Sebastes schlegelii.

Author

Lee J, Cha IT, Lee KE, Son YK, Cho S, and Seol D

Subjects

Animals, Flavobacterium genetics, Virulence genetics, Virulence Factors genetics, Fishes microbiology, Perciformes, Bacteriophages, Fish Diseases microbiology, Oncorhynchus mykiss microbiology

Abstract

Flavobacterium plurextorum is a potential fish pathogen of interest, previously isolated from diseased rainbow trout (Oncorhynchus mykiss) and oomycete-infected chum salmon (Oncorhynchus keta) eggs. We report here the first complete genome sequence of F. plurextorum RSG-18 isolated from the gut of Schlegel's black rockfish (Sebastes schlegelii). The genome of RSG-18 consists of a circular chromosome of 5,610,911 bp with a 33.57% GC content, containing 4858 protein-coding genes, 18 rRNAs, 63 tRNAs and 1 tmRNA. A comparative analysis was conducted on 11 Flavobacterium species previously reported as pathogens or isolated from diseased fish to confirm the potential pathogenicity of RSG-18. In the SEED classification, RSG-18 was found to have 36 genes categorized in 'Virulence, Disease and Defense'. Across all Flavobacterium species, a total of 16 antibiotic resistance genes and 61 putative virulence factors were identified. All species had at least one phage region and type I, III and IX secretion systems. In pan-genomic analysis, core genes consist of genes linked to phages, integrases and matrix-tolerated elements associated with pathology. The complete genome sequence of F. plurextorum RSG-18 will serve as a foundation for future research, enhancing our understanding of Flavobacterium pathogenicity in fish and contributing to the development of effective prevention strategies., (© 2024 The Authors. Environmental Microbiology Reports published by Applied Microbiology International and John Wiley & Sons Ltd.)

Published

2024

120. Comparative genomic analysis of Lactobacillus plantarum GB-LP4 and identification of evolutionarily divergent genes in high-osmolarity environment.

Author

Jung J, Kim K, Yoo D, Lee C, Kang J, Cho K, Kang DK, Kwak W, Yoon SH, Sohn H, Kim H, and Cho S

Subjects

Fermentation, Genomics, Hydrogen-Ion Concentration, Lactobacillus plantarum metabolism, Lactobacillus plantarum physiology, Phylogeny, Whole Genome Sequencing, Adaptation, Physiological, Biological Evolution, Lactobacillus plantarum genetics, Osmolar Concentration

Abstract

Lactobacillus plantarum is one of the widely-used probiotics and there have been a large number of advanced researches on the effectiveness of this species. However, the difference between previously reported plantarum strains, and the source of genomic variation among the strains were not clearly specified. In order to understand further on the molecular basis of L. plantarum on Korean traditional fermentation, we isolated the L. plantarum GB-LP4 from Korean fermented vegetable and conducted whole genome assembly. With comparative genomics approach, we identified the candidate genes that are expected to have undergone evolutionary acceleration. These genes have been reported to associate with the maintaining homeostasis, which are generally known to overcome instability in external environment including low pH or high osmotic pressure. Here, our results provide an evolutionary relationship between L. plantarum species and elucidate the candidate genes that play a pivotal role in evolutionary acceleration of GB-LP4 in high osmolarity environment. This study may provide guidance for further studies on L. plantarum ., Competing Interests: Compliance with ethical standardsJaehoon Jung, Kwondo Kim, DongAhn Yoo, Chanho Lee, Jungsun Kang, Kyungjin Cho, Dae-Kyung Kang, Woori Kwak, Sook Hee Yoon, Hawsun Sohn, Heebal Kim, and Seoae Cho declare no conflict of interest on the contents of the manuscript.This article does not contain any studies with human subjects or animals performed by any of the authors.

Published

2018

121. HGTree: database of horizontally transferred genes determined by tree reconciliation.

Author

Jeong H, Sung S, Kwon T, Seo M, Caetano-Anollés K, Choi SH, Cho S, Nasir A, and Kim H

Subjects

Evolution, Molecular, Genome, Microbial, Phylogeny, RNA, Ribosomal, 16S genetics, Databases, Genetic, Gene Transfer, Horizontal, Genes, Archaeal, Genes, Bacterial

Abstract

The HGTree database provides putative genome-wide horizontal gene transfer (HGT) information for 2472 completely sequenced prokaryotic genomes. This task is accomplished by reconstructing approximate maximum likelihood phylogenetic trees for each orthologous gene and corresponding 16S rRNA reference species sets and then reconciling the two trees under parsimony framework. The tree reconciliation method is generally considered to be a reliable way to detect HGT events but its practical use has remained limited because the method is computationally intensive and conceptually challenging. In this regard, HGTree (http://hgtree.snu.ac.kr) represents a useful addition to the biological community and enables quick and easy retrieval of information for HGT-acquired genes to better understand microbial taxonomy and evolution. The database is freely available and can be easily scaled and updated to keep pace with the rapid rise in genomic information., (© The Author(s) 2015. Published by Oxford University Press on behalf of Nucleic Acids Research.)

Published

2016

122. African Indigenous Cattle: Unique Genetic Resources in a Rapidly Changing World.

Author

Mwai O, Hanotte O, Kwon YJ, and Cho S

Abstract

At least 150 indigenous African cattle breeds have been named, but the majority of African cattle populations remain largely uncharacterized. As cattle breeds and populations in Africa adapted to various local environmental conditions, they acquired unique features. We know now that the history of African cattle was particularly complex and while several of its episodes remain debated, there is no doubt that African cattle population evolved dramatically over time. Today, we find a mosaic of genetically diverse population from the purest Bos taurus to the nearly pure Bos indicus. African cattle are now found all across the continent, with the exception of the Sahara and the river Congo basin. They are found on the rift valley highlands as well as below sea level in the Afar depression. These unique livestock genetic resources are in danger to disappear rapidly following uncontrolled crossbreeding and breed replacements with exotic breeds. Breeding improvement programs of African indigenous livestock remain too few while paradoxically the demand of livestock products is continually increasing. Many African indigenous breeds are endangered now, and their unique adaptive traits may be lost forever. This paper reviews the unique known characteristics of indigenous African cattle populations while describing the opportunities, the necessity and urgency to understand and utilize these resources to respond to the needs of the people of the continent and to the benefit of African farmers.

Published

2015

123. De Novo assembly and comparative analysis of the Enterococcus faecalis genome (KACC 91532) from a Korean Neonate.

Author

Ham JS, Kwak W, Chang OK, Han GS, Jeong SG, Seol KH, Kim HW, Kang GH, Park BY, Lee HJ, Kim JG, Kim KW, Sung S, Lee T, Cho S, and Kim H

Subjects

Asian People, Enterococcus faecalis isolation & purification, Feces microbiology, Gram-Positive Bacterial Infections microbiology, Humans, Infant, Newborn, DNA, Bacterial chemistry, DNA, Bacterial genetics, Enterococcus faecalis genetics, Genome, Bacterial, Sequence Analysis, DNA

Abstract

Using a newly constructed de novo assembly pipeline, finished genome level assembly had been conducted for the probiotic candidate strain E. faecalis KACC 91532 isolated from a stool samples of Korean neonates. Our gene prediction identified 3,061 genes in the assembled genome of the strain. Among these, nine genes were specific only for the E. faecalis KACC 91532, compared with all of the four known reference genomes (EF62, D32, V583, OG1RF). We identified genes related to phenotypic characters and detected E. faecalis KACC 91532-specific evolutionarily accelerated genes using dN/dS analysis. From these results, we found the potential risk of KACC 91532 as a useful probiotic strain and identified some candidate genetic variations that could affect the function of enzymes.

Published

2013

124. Analysis of copy number variation in 8,842 Korean individuals reveals 39 genes associated with hepatic biomarkers AST and ALT.

Author

Kim HY, Cho S, Yu J, Sung S, and Kim H

Subjects

Adult, Biomarkers blood, Cohort Studies, Databases, Genetic, Female, Gene Frequency, Genome, Human, Genome-Wide Association Study, Glycoproteins metabolism, Heparitin Sulfate biosynthesis, Humans, Liver Diseases enzymology, Male, Middle Aged, Receptors, Neuropeptide Y metabolism, Republic of Korea, Signal Transduction, Software, Wnt Proteins metabolism, Alanine Transaminase blood, Asian People genetics, Aspartate Aminotransferases blood, DNA Copy Number Variations, Liver Diseases genetics

Abstract

Biochemical tests such as aspartate aminotransferase (AST) and alanine aminotransferase (ALT) are useful for diagnosing patients with liver disease. In this study, we tested the association between copy number variation and the hepatic biomarkers AST and ALT based on 8,842 samples from population-based cohorts in Korea. We used Affymetrix Genome-Wide Human 5.0 arrays and identified 10,534 CNVs using HelixTree software. Of the CNVs tested using univariate linear regression, 100 CNVs were significant for AST and 16 were significant for ALT (P < 0.05). We identified 39 genes located within the CNV regions. DKK1 and HS3ST3B1 were shown to play roles in heparan sulfate biosynthesis and the Wnt signaling pathway, respectively. NAF1 and NPY1R were associated with glycoprotein processes and neuropeptide Y receptor activity based on GO categories. PTER, SOX14 and TM7SF4 were expressed in liver. DPYS and CTSC were found to be associated with dihydropyrimidinuria and Papillon-Lefevre syndrome phenotypes using OMIM. NPY5R was found to be associated with dyslipidemia using the Genetic Association Database.

Published

2010

125. Identification of genetic polymorphisms in FABP3 and FABP4 and putative association with back fat thickness in Korean native cattle.

Author

Cho S, Park TS, Yoon DH, Cheong HS, Namgoong S, Park BL, Lee HW, Han CS, Kim EM, Cheong IC, Kim H, and Shin HD

Subjects

Animals, Body Weight genetics, Cattle, Korea, Polymerase Chain Reaction, Adipose Tissue physiology, Body Composition genetics, Fatty Acid-Binding Proteins genetics, Polymorphism, Genetic

Abstract

The aim of this study was to determine whether single nucleotide polymorphisms (SNP) in the beef cattle adipocyte fatty-acid binding protein 3 and 4 (FABP3 and FABP4) genes are associated with carcass weight (CW) and back fat thickness (BF) of beef cattle. By direct DNA sequencing in 24 unrelated Korean native cattle, we identified 20 SNPs in FABP3 and FABP4. Among them, 10 polymorphic sites were selected for genotyping in our beef cattle. We performed SNP, haplotype and linkage disequilibrium studies on 419 Korean native cattle with the 10 SNPs in the FABP genes. Statistical analysis revealed that 220AG (I74V) and 348+303TC polymorphisms in FABP4 showed putative associations with BF traits (P=0.02 and 0.01, respectively). Our findings suggest that the polymorphisms in FABP4 may play a role in determining one of the important genetic factors that influence BF in beef cattle.

Published

2008