Your search keyword '"Youngbeen Moon"' showing total 10 results

1. Evolutionary dependency of cancer mutations in gene pairs inferred by nonsynonymous-synonymous mutation ratios

Author

Dong-Jin Han, Sunmin Kim, Seo-Young Lee, Youngbeen Moon, Su Jung Kang, Jinseon Yoo, Hye Young Jeong, Hae Jin Cho, Jeong Yang Jeon, Byeong Chang Sim, Jaehoon Kim, Seungho Lee, Ruibin Xi, and Tae-Min Kim

Subjects

Gene pairs, Cancer mutations, dNdS ratios, Evolutionary dependency, Mutation contexts, Genetic dependency, Medicine, Genetics, QH426-470

Abstract

Abstract Background Determining the impact of somatic mutations requires understanding the functional relationship of genes acquiring mutations; however, it is largely unknown how mutations in functionally related genes influence each other. Methods We employed non-synonymous-to-synonymous or dNdS ratios to evaluate the evolutionary dependency (ED) of gene pairs, assuming a mutation in one gene of a gene pair can affect the evolutionary fitness of mutations in its partner genes as mutation context. We employed PanCancer- and tumor type-specific mutational profiles to infer the ED of gene pairs and evaluated their biological relevance with respect to gene dependency and drug sensitivity. Results We propose that dNdS ratios of gene pairs and their derived cdNS (context-dependent dNdS) scores as measure of ED distinguishing gene pairs either as synergistic (SYN) or antagonistic (ANT). Mutation contexts can induce substantial changes in the evolutionary fitness of mutations in the paired genes, e.g., IDH1 and IDH2 mutation contexts lead to substantial increase and decrease of dNdS ratios of ATRX indels and IDH1 missense mutations corresponding to SYN and ANT relationship with positive and negative cdNS scores, respectively. The impact of gene silencing or knock-outs on cell viability (genetic dependencies) often depends on ED, suggesting that ED can guide the selection of candidates for synthetic lethality such as TCF7L2-KRAS mutations. Using cell line-based drug sensitivity data, the effects of targeted agents on cell lines are often associated with mutations of genes exhibiting ED with the target genes, informing drug sensitizing or resistant mutations for targeted inhibitors, e.g., PRSS1 and CTCF mutations as resistant mutations to EGFR and BRAF inhibitors for lung adenocarcinomas and melanomas, respectively. Conclusions We propose that the ED of gene pairs evaluated by dNdS ratios can advance our understanding of the functional relationship of genes with potential biological and clinical implications.

Published

2024

2. Identification and characterization of structural variants related to meat quality in pigs using chromosome-level genome assemblies

Author

Daehong Kwon, Nayoung Park, Suyeon Wy, Daehwan Lee, Woncheoul Park, Han-Ha Chai, In-Cheol Cho, Jongin Lee, Kisang Kwon, Heesun Kim, Youngbeen Moon, Juyeon Kim, and Jaebum Kim

Subjects

Meat quality, Structural variation, Nanchukmacdon, Chromosome-level genome assembly, Multi-omics analysis, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Many studies have been performed to identify various genomic loci and genes associated with the meat quality in pigs. However, the full genetic architecture of the trait still remains unclear in part because of the lack of accurate identification of related structural variations (SVs) which resulted from the shortage of target breeds, the limitations of sequencing data, and the incompleteness of genome assemblies. The recent generation of a new pig breed with superior meat quality, called Nanchukmacdon, and its chromosome-level genome assembly (the NCMD assembly) has provided new opportunities. Results By applying assembly-based SV calling approaches to various genome assemblies of pigs including Nanchukmacdon, the impact of SVs on meat quality was investigated. Especially, by checking the commonality of SVs with other pig breeds, a total of 13,819 Nanchukmacdon-specific SVs (NSVs) were identified, which have a potential effect on the unique meat quality of Nanchukmacdon. The regulatory potentials of NSVs for the expression of nearby genes were further examined using transcriptome- and epigenome-based analyses in different tissues. Conclusions Whole-genome comparisons based on chromosome-level genome assemblies have led to the discovery of SVs affecting meat quality in pigs, and their regulatory potentials were analyzed. The identified NSVs will provide new insights regarding genetic architectures underlying the meat quality in pigs. Finally, this study confirms the utility of chromosome-level genome assemblies and multi-omics analysis to enhance the understanding of unique phenotypes.

Published

2024

3. Cellular abundance-based prognostic model associated with deregulated gene expression of leukemic stem cells in acute myeloid leukemia

Author

Dong-Jin Han, Sunmin Kim, Seo-Young Lee, Su Jung Kang, Youngbeen Moon, Hoon Seok Kim, Myungshin Kim, and Tae-Min Kim

Subjects

leukemic stem cell, cellular deconvolution, acute myeloid leukemia, prognostic model, transcriptomic profiles, Biology (General), QH301-705.5

Abstract

Background: Previous studies have reported that genes highly expressed in leukemic stem cells (LSC) may dictate the survival probability of patients and expression-based cellular deconvolution may be informative in forecasting prognosis. However, whether the prognosis of acute myeloid leukemia (AML) can be predicted using gene expression and deconvoluted cellular abundances is debatable.Methods: Nine different cell-type abundances of a training set composed of the AML samples of 422 patients, were used to build a model for predicting prognosis by least absolute shrinkage and selection operator Cox regression. This model was validated in two different validation sets, TCGA-LAML and Beat AML (n = 179 and 451, respectively).Results: We introduce a new prognosis predicting model for AML called the LSC activity (LSCA) score, which incorporates the abundance of 5 cell types, granulocyte-monocyte progenitors, common myeloid progenitors, CD45RA + cells, megakaryocyte-erythrocyte progenitors, and multipotent progenitors. Overall survival probabilities between the high and low LSCA score groups were significantly different in TCGA-LAML and Beat AML cohorts (log-rank p-value = 3.3×10−4 and 4.3×10−3, respectively). Also, multivariate Cox regression analysis on these two validation sets shows that LSCA score is independent prognostic factor when considering age, sex, and cytogenetic risk (hazard ratio, HR = 2.17; 95% CI 1.40–3.34; p < 0.001 and HR = 1.20; 95% CI 1.02–1.43; p < 0.03, respectively). The performance of the LSCA score was comparable to other prognostic models, LSC17, APS, and CTC scores, as indicated by the area under the curve. Gene set variation analysis with six LSC-related functional gene sets indicated that high and low LSCA scores are associated with upregulated and downregulated genes in LSCs.Conclusion: We have developed a new prognosis prediction scoring system for AML patients, the LSCA score, which uses deconvoluted cell-type abundance only.

Published

2024

4. A chromosome-level genome assembly of the Korean crossbred pig Nanchukmacdon (Sus scrofa)

Author

Daehong Kwon, Nayoung Park, Suyeon Wy, Daehwan Lee, Han-Ha Chai, In-Cheol Cho, Jongin Lee, Kisang Kwon, Heesun Kim, Youngbeen Moon, Juyeon Kim, Woncheoul Park, and Jaebum Kim

Subjects

Science

Abstract

Abstract As plentiful high-quality genome assemblies have been accumulated, reference-guided genome assembly can be a good approach to reconstruct a high-quality assembly. Here, we present a chromosome-level genome assembly of the Korean crossbred pig called Nanchukmacdon (the NCMD assembly) using the reference-guided assembly approach with short and long reads. The NCMD assembly contains 20 chromosome-level scaffolds with a total size of 2.38 Gbp (N50: 138.77 Mbp). Its BUSCO score is 93.1%, which is comparable to the pig reference assembly, and a total of 20,588 protein-coding genes, 8,651 non-coding genes, and 996.14 Mbp of repetitive elements are annotated. The NCMD assembly was also used to close many gaps in the pig reference assembly. This NCMD assembly and annotation provide foundational resources for the genomic analyses of pig and related species.

Published

2023

5. Population analysis of the Korean native duck using whole-genome sequencing data

Author

Daehwan Lee, Jongin Lee, Kang-Neung Heo, Kisang Kwon, Youngbeen Moon, Dajeong Lim, Kyung-Tai Lee, and Jaebum Kim

Subjects

Korean duck, Population analysis, Single nucleotide polymorphism, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Advances in next-generation sequencing technologies have provided an opportunity to perform population-level comparative genomic analysis to discover unique genomic characteristics of domesticated animals. Duck is one of the most popular domesticated waterfowls, which is economically important as a source of meat, eggs, and feathers. The objective of this study is to perform population and functional analyses of Korean native duck, which has a distinct meat flavor and texture phenotype, using whole-genome sequencing data. To study the distinct genomic features of Korean native duck, we conducted population-level genomic analysis of 20 Korean native ducks together with 15 other duck breeds. Results A total of 15.56 million single nucleotide polymorphisms were detected in Korean native duck. Based on the unique existence of non-synonymous single nucleotide polymorphisms in Korean native duck, a total of 103 genes related to the unique genomic characteristics of Korean native duck were identified in comparison with 15 other duck breeds, and their functions were investigated. The nucleotide diversity and population structures among the used duck breeds were then compared, and their phylogenetic relationship was analyzed. Finally, highly differentiated genomic regions among Korean native duck and other duck breeds were identified, and functions of genes in those regions were examined. Conclusions This is the first study to compare the population of Korean native duck with those of other duck breeds by using whole-genome sequencing data. Our findings can be used to expand our knowledge of genomic characteristics of Korean native duck, and broaden our understanding of duck breeds.

Published

2020

6. Population analysis of the Korean native duck using whole-genome sequencing data

Author

Dajeong Lim, Kang-Neung Heo, Daehwan Lee, Kyung-Tai Lee, Youngbeen Moon, Jongin Lee, Jaebum Kim, and Kisang Kwon

Subjects

0106 biological sciences, animal structures, lcsh:QH426-470, viruses, animal diseases, lcsh:Biotechnology, Population, Single-nucleotide polymorphism, Biology, Polymorphism, Single Nucleotide, 01 natural sciences, Korean duck, Nucleotide diversity, 03 medical and health sciences, Korean Native, lcsh:TP248.13-248.65, Republic of Korea, Genetics, Animals, Domestication, education, Gene, Phylogeny, 030304 developmental biology, Whole genome sequencing, 0303 health sciences, education.field_of_study, Population analysis, Genome, Whole Genome Sequencing, virus diseases, Single nucleotide polymorphism, lcsh:Genetics, Ducks, Evolutionary biology, DNA microarray, Research Article, 010606 plant biology & botany, Biotechnology

Abstract

BackgroundAdvances in next-generation sequencing technologies have provided an opportunity to perform population-level comparative genomic analysis to discover unique genomic characteristics of domesticated animals. Duck is one of the most popular domesticated waterfowls, which is economically important as a source of meat, eggs, and feathers. The objective of this study is to perform population and functional analyses of Korean native duck, which has a distinct meat flavor and texture phenotype, using whole-genome sequencing data. To study the distinct genomic features of Korean native duck, we conducted population-level genomic analysis of 20 Korean native ducks together with 15 other duck breeds.ResultsA total of 15.56 million single nucleotide polymorphisms were detected in Korean native duck. Based on the unique existence of non-synonymous single nucleotide polymorphisms in Korean native duck, a total of 103 genes related to the unique genomic characteristics of Korean native duck were identified in comparison with 15 other duck breeds, and their functions were investigated. The nucleotide diversity and population structures among the used duck breeds were then compared, and their phylogenetic relationship was analyzed. Finally, highly differentiated genomic regions among Korean native duck and other duck breeds were identified, and functions of genes in those regions were examined.ConclusionsThis is the first study to compare the population of Korean native duck with those of other duck breeds by using whole-genome sequencing data. Our findings can be used to expand our knowledge of genomic characteristics of Korean native duck, and broaden our understanding of duck breeds.

Published

2020

7. Additional file 9 of Population analysis of the Korean native duck using whole-genome sequencing data

Author

Daehwan Lee, Jongin Lee, Kang-Neung Heo, Kisang Kwon, Youngbeen Moon, Dajeong Lim, Kyung-Tai Lee, and Kim, Jaebum

Abstract

Additional file 9: Figure S3. Manhattan plot of Z-transformed Fst (ZFst) between Korean native duck and other 14 duck breeds in sliding window 40 Kb with 10 Kb steps across the autosomal chromosomes. Red line denotes a threshold of ZFst at 5. Genes located in differentiated genomic regions are indicated by their gene symbols.

Published

2020

8. Additional file 8 of Population analysis of the Korean native duck using whole-genome sequencing data

Author

Daehwan Lee, Jongin Lee, Kang-Neung Heo, Kisang Kwon, Youngbeen Moon, Dajeong Lim, Kyung-Tai Lee, and Kim, Jaebum

Abstract

Additional file 8: Figure S2. Maximum likelihood phylogenetic tree of 15 duck breeds with Muscovy duck as an outgroup. Color of each branch corresponds to the color in the PCA plot (Fig. 3a) for each duck population.

Published

2020

9. Additional file 7 of Population analysis of the Korean native duck using whole-genome sequencing data

Author

Daehwan Lee, Jongin Lee, Kang-Neung Heo, Kisang Kwon, Youngbeen Moon, Dajeong Lim, Kyung-Tai Lee, and Kim, Jaebum

Abstract

Additional file 7: Figure S1. The principal component analysis plot of 15 duck populations for all pairs of four components.

Published

2020

10. RWNetSig

Author

Jaebum Kim, Daehwan Lee, and Youngbeen Moon

Subjects

0301 basic medicine, COSMIC cancer database, Cancer, Computational biology, Biology, medicine.disease_cause, medicine.disease, 03 medical and health sciences, Permutation, 030104 developmental biology, medicine, Copy-number variation, Carcinogenesis, Gene, Statistic, Statistical hypothesis testing

Abstract

Genetic disorders play an important role in cancer development. Especially, somatic variants, such as single nucleotide variations, insertions, deletions, and copy number variations, in specific genes, can promote tumorigenesis. Recently, NetSig has been developed that integrates existing protein interaction networks to predict cancer driver genes. However, NetSig is limited to use only directly interacting proteins. To address this issue, we developed a new statistic, called RWNetSig, that can be used to predict cancer driver genes by considering indirect as well as direct interactions in a network using the random walk with restart algorithm. In RWNetSig, indirectly interacting proteins are identified, the distance among them is calculated, the significance of their contribution to cancers is combined, and finally the RWNetSig score is calculated using the permutation statistical test. RWNetSig was evaluated and compared with Netsig using the Cosmic classic and the Cancer Gene Census datasets. We found that RWNetSig is superior to NetSig in identifying cancer driver genes. Our study reinforces the usefulness of network-based approaches in the field of the prediction of cancer driver genes. It will also contribute to gain new insight for deeper understanding of cancers.

Published

2018