Sungmin Yang scite author profile

Sungmin Yang

5Publications

22Citation Statements Received

158Citation Statements Given

How they've been cited

How they cite others

102

143

Affiliations

Seoul National University, Gachon University

Publications

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Somatic mutation landscape reveals differential variability of cell-of-origin for primary liver cancer

Fujita

Yang

et al. 2020

Heliyon

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Primary liver tissue cancer types are renowned to display a consistent increase in global disease burden and mortality, thus needing more effective diagnostics and treatments. Yet, integrative research efforts to identify cellof-origin for these cancers by utilizing human specimen data were poorly established. To this end, we analyzed previously published whole-genome sequencing data for 384 tumor and progenitor tissues along with 423 publicly available normal tissue epigenomic features and single cell RNA-seq data from human livers to assess correlation patterns and extended this information to conduct in-silico prediction of the cell-of-origin for primary liver cancer subtypes. Despite mixed histological features, the cell-of-origin for mixed hepatocellular carcinoma/ intrahepatic cholangiocarcinoma subtype was predominantly predicted to be hepatocytic origin. Individual sample-level predictions also revealed hepatocytes as one of the major predicted cell-of-origin for intrahepatic cholangiocarcinoma, thus implying trans-differentiation process during cancer progression. Additional analyses on the whole genome sequencing data of hepatic progenitor cells suggest these cells may not be a direct cell-oforigin for liver cancers. These results provide novel insights on the nature and potential contributors of cell-oforigins for primary liver cancers.

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COOBoostR: An Extreme Gradient Boosting-Based Tool for Robust Tissue or Cell-of-Origin Prediction of Tumors

Yang

Song

et al. 2022

Life

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We present here COOBoostR, a computational method designed for the putative prediction of the tissue- or cell-of-origin of various cancer types. COOBoostR leverages regional somatic mutation density information and chromatin mark features to be applied to an extreme gradient boosting-based machine-learning algorithm. COOBoostR ranks chromatin marks from various tissue and cell types, which best explain the somatic mutation density landscape of any sample of interest. A specific tissue or cell type matching the chromatin mark feature with highest explanatory power is designated as a potential tissue- or cell-of-origin. Through integrating either ChIP-seq based chromatin data, along with regional somatic mutation density data derived from normal cells/tissue, precancerous lesions, and cancer types, we show that COOBoostR outperforms existing random forest-based methods in prediction speed, with comparable or better tissue or cell-of-origin prediction performance (prediction accuracy—normal cells/tissue: 76.99%, precancerous lesions: 95.65%, cancer cells: 89.39%). In addition, our results suggest a dynamic somatic mutation accumulation at the normal tissue or cell stage which could be intertwined with the changes in open chromatin marks and enhancer sites. These results further represent chromatin marks shaping the somatic mutation landscape at the early stage of mutation accumulation, possibly even before the initiation of precancerous lesions or neoplasia.

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Real-time disease detection and analysis system using social media contents

Yoo

Kim

Yang

et al. 2020

IJWGS

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Real-time disease detection and analysis system using social media contents

Yoo

Kim

Yang

et al. 2020

IJWGS

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CICO: Chemically Induced Carcinogenesis Ontology

Yang

Joe

Yang

et al. 2020

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Sungmin Yang

Somatic mutation landscape reveals differential variability of cell-of-origin for primary liver cancer

COOBoostR: An Extreme Gradient Boosting-Based Tool for Robust Tissue or Cell-of-Origin Prediction of Tumors

Real-time disease detection and analysis system using social media contents

Real-time disease detection and analysis system using social media contents

CICO: Chemically Induced Carcinogenesis Ontology

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