Jin Woo Oh

Ph.D. in Biomedical Engineering, Johns Hopkins University · Senior Scientist, Lunit Inc.

I develop algorithms and computational models to decode how genomes encode, regulate, and evolve biological function, from regulatory sequence grammar to the spatial organization of cells in disease.

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Experience

Lunit Inc.

May 2024 – Present

Alternative military service as specialized research personnel in Korea

Senior Scientist Jan 2026 – Present

Leading multimodal frameworks for precision oncology, integrating histology with molecular and spatial data across patient cohorts. Manuscript under review, 2026.
Architecting an agentic histopathology platform that orchestrates AI histomorphology models for interactive case review and hypothesis generation, contributing to Lunit's medical foundation model initiative.
Partnering with pharma to translate multimodal frameworks (e.g., spatial transcriptomics) into target discovery and biomarker identification.
Lead and co-inventor on 2 pending patent applications in digital pathology AI.

Scientist May 2024 – Jan 2026

Led clinical translation of AI-powered multimodal characterization of patient tumor samples (JITC 2025).
Developed a morphology-guided spatial transcriptomics framework (H&E + ST) to decode the tumor microenvironment and mechanisms of therapeutic resistance. Presented at AACR 2025 (abstract, poster).

Johns Hopkins University

Oct 2014 – May 2024

Doctoral Researcher (Poster) Sep 2018 – May 2024

Recipient of the Mette Strand Young Investigator Award for outstanding research at Johns Hopkins School of Medicine.
Developed gkm-align, a regulatory genome aligner, deriving its mathematical formulation and implementing the core SIMD-accelerated C++ computational kernel (Math, GitHub).
Characterized the evolutionary dynamics of the regulatory genome using sequence modeling across >1,000 ENCODE DNase-seq experiments (Nature Commun. 2024).
Collaborated through the ENCODE/IGVF consortia to model gene regulatory networks using large-scale CRISPRi perturbation screens (Nature Genetics 2023; Nature Methods 2024).

Teaching Assistant Sep 2016 – Dec 2022

Statistical Physics · Statistical Mechanics and Thermodynamics · Discrete Mathematics · Methods in Nucleic Acid Sequencing Lab · Biomedical Data Science

Undergraduate Researcher Oct 2014 – Sep 2016

Interfacial physics of micro/nanosphere interactions at 2D oil-water interfaces, focusing on depletion interactions. Microscopy and numerical simulation.

Education

Ph.D. in Biomedical Engineering, Johns Hopkins University (Thesis)

2018 – 2024

Advisor: Michael A. Beer · Thesis: "Enhanced Algorithms to detect and characterize conserved regulatory sequences"

M.S. in Biomedical Engineering, Johns Hopkins University

2017 – 2018

B.S. in Biomedical Engineering & Applied Mathematics and Statistics, Johns Hopkins University

2013 – 2017

Research Consortia

Contributing member, IGVF, 2022–2024.
Contributing member, ENCODE, 2018–2024.

Awards & Honors

Mette Strand Young Investigator Award

Johns Hopkins School of Medicine · 2024

Reviewer's Choice Top Abstract Award

American Society of Human Genetics · 2023

IGVF Consortium Poster Award

IGVF Consortium · 2022

ENCODE Consortium Team Science Award

ENCODE Consortium · 2022

David T. Yue Memorial Award for Teaching Excellence

Johns Hopkins University · 2017

Skills

Algorithm Development & Machine Learning

Bioinformatic algorithm and machine learning (GitHub)
Computer vision and AI for characterizing the tumor microenvironment (JITC 2025)

Programming

Python, C++ (Low-level Optimization, AVX2 SIMD Intrinsics, Multi-threading), R, Bash / Shell Scripting

Leadership & Service

Review Editor, Frontiers in Epigenetics and Epigenomics Nov 2024 – Present

Loop Profile →

Teaching Assistant, Johns Hopkins University 2016 – 2022

Statistical Mechanics & Thermodynamics, Statistical Physics, Discrete Mathematics, Methods in Nucleic Acid Sequencing Lab, Biomedical Data Science.

President, Korean Graduate Student Association (KGSA), Johns Hopkins University Sep 2019 – Jun 2020

Article →

Interviews

Publications

(* denotes co-first authors who contributed equally)

(•• papers highlighted as "of outstanding interest" in Curr. Opin. Genet. Dev.)

Doctoral Thesis

Jin Woo Oh. "Enhanced Algorithms to detect and characterize conserved regulatory sequences." Johns Hopkins University (2024).

Selected Publications

•• Nature Communications · 2024
Jin Woo Oh & Michael A Beer. "Gapped-kmer sequence modeling robustly identifies regulatory vocabularies and distal enhancers conserved between evolutionarily distant mammals." Nature Communications (2024)
— Mathematical formulation and original algorithm development; modeling the dynamics of regulatory evolution
Nature Methods · 2024
Jin Woo Oh*, David Yao*, Josh Tycko*, Lexi R Bounds*, Sager J Gosai*, Lazaros Lataniotis*, Ava Mackay-Smith, Benjamin R Doughty, Idan Gabdank, Henri Schmidt, Tania Guerrero-Altamirano, Keith Siklenka, Katherine Guo, Alexander D. White, Ingrid Youngworth, Kalina Andreeva, Xingjie Ren, Alejandro Barrera, Yunhai Luo, Galip Gürkan Yardımcı, Ryan Tewhey, Anshul Kundaje, William J Greenleaf, Pardis C Sabeti, Christina Leslie, Yuri Pritykin, Jill E Moore, Michael A Beer, Charles Gersbach, Timothy E Reddy, Yin Shen, Jesse M Engreitz, Michael C Bassik, Steven K Reilly. "Multicenter integrated analysis of noncoding CRISPRi screens." Nature Methods (2024)
— Lead computational author (co-first, equal contribution); collaboration with the ENCODE functional characterization centers
•• Nature Genetics · 2023
Renhe Luo, Jielin Yan, Jin Woo Oh, Wang Xi, Dustin Shigaki, Wilfred Wong, Hyein S Cho, Dylan Murphy, Ronald Cutler, Bess P Rosen, Julian Pulecio, Dapeng Yang, Rachel A Glenn, Tingxu Chen, Qing V Li, Thomas Vierbuchen, Simone Sidoli, Effie Apostolou, Danwei Huangfu, Michael A Beer. "Dynamic network-guided CRISPRi screen identifies CTCF-loop-constrained nonlinear enhancer gene regulatory activity during cell state transitions." Nature Genetics (2023)
— Computational modeling and simulation; experimental collaboration with MSK (Luo and Yan, Huangfu Lab)
Journal for ImmunoTherapy of Cancer · 2025
Yeong Hak Bang*, Geun-Ho Park*, Jin Woo Oh*, Soohyun Hwang, Jun-Gi Jeong, Boram Lee, Cheol Yong Joe, Hyemin Kim, Jinyong Kim, Sehhoon Park, Hyun Ae Jung, Jong-Mu Sun, Jin Seok Ahn, Myung-Ju Ahn, Yoon-La Choi, Chang Ho Ahn, Siraj M. Ali, Chan-Young Ock, Se-Hoon Lee. "Artificial intelligence-powered spatial analysis of tumor microenvironment in patients with non-small cell lung cancer with acquired resistance to EGFR tyrosine kinase inhibitor." Journal for ImmunoTherapy of Cancer (2025)
— Co-first author (equal contribution); computational biomarker modeling; clinical collaboration with Samsung Medical Center (Bang and Park)

Full Publications

Johns Hopkins (2018–2024)

•• Jin Woo Oh & Michael A Beer. "Gapped-kmer sequence modeling robustly identifies regulatory vocabularies and distal enhancers conserved between evolutionarily distant mammals." Nature Communications (2024)
Mathematical formulation and original algorithm development; modeling the dynamics of regulatory evolution
Jin Woo Oh*, David Yao*, Josh Tycko*, Lexi R Bounds*, Sager J Gosai*, Lazaros Lataniotis*, Ava Mackay-Smith, Benjamin R Doughty, Idan Gabdank, Henri Schmidt, Tania Guerrero-Altamirano, Keith Siklenka, Katherine Guo, Alexander D. White, Ingrid Youngworth, Kalina Andreeva, Xingjie Ren, Alejandro Barrera, Yunhai Luo, Galip Gürkan Yardımcı, Ryan Tewhey, Anshul Kundaje, William J Greenleaf, Pardis C Sabeti, Christina Leslie, Yuri Pritykin, Jill E Moore, Michael A Beer, Charles Gersbach, Timothy E Reddy, Yin Shen, Jesse M Engreitz, Michael C Bassik, Steven K Reilly. "Multicenter integrated analysis of noncoding CRISPRi screens." Nature Methods (2024)
Lead computational author (co-first, equal contribution); collaboration with the ENCODE functional characterization centers
•• Renhe Luo, Jielin Yan, Jin Woo Oh, Wang Xi, Dustin Shigaki, Wilfred Wong, Hyein S Cho, Dylan Murphy, Ronald Cutler, Bess P Rosen, Julian Pulecio, Dapeng Yang, Rachel A Glenn, Tingxu Chen, Qing V Li, Thomas Vierbuchen, Simone Sidoli, Effie Apostolou, Danwei Huangfu, Michael A Beer. "Dynamic network-guided CRISPRi screen identifies CTCF-loop-constrained nonlinear enhancer gene regulatory activity during cell state transitions." Nature Genetics (2023)
Computational modeling and simulation; experimental collaboration with MSK (Luo and Yan, Huangfu Lab)
IGVF Consortium. "Deciphering the impact of genomic variation on function." Nature (2024)
Contributing member, IGVF Network Projects group; gene regulatory networks in early human lineage decisions
Jin Woo Oh. "Enhanced Algorithms to detect and characterize conserved regulatory sequences." Johns Hopkins University (2024)

Lunit (2024–Present)

Yeong Hak Bang*, Geun-Ho Park*, Jin Woo Oh*, Soohyun Hwang, Jun-Gi Jeong, Boram Lee, Cheol Yong Joe, Hyemin Kim, Jinyong Kim, Sehhoon Park, Hyun Ae Jung, Jong-Mu Sun, Jin Seok Ahn, Myung-Ju Ahn, Yoon-La Choi, Chang Ho Ahn, Siraj M. Ali, Chan-Young Ock, Se-Hoon Lee. "Artificial intelligence-powered spatial analysis of tumor microenvironment in patients with non-small cell lung cancer with acquired resistance to EGFR tyrosine kinase inhibitor." Journal for ImmunoTherapy of Cancer (2025)
Co-first author (equal contribution); computational biomarker modeling; clinical collaboration with Samsung Medical Center (Bang and Park)
Jozef P. Bossowski, Ray Pillai, John Kilian, Angela Wong Lau, Mari Nakamura, Ali Rashidfarrokhi, Yuan Hao, Ruxuan Li, Katherine Wu, Takamitsu Hattori, Eliezra Glasser, Akiko Koide, Lidong Wang, Andre L. Moreira, Cristina Hajdu, Sahith Rajalingam, Sarah E. LeBoeuf, Hortense Le, Seungeun Lee, Jin Woo Oh, Cheolyong Joe, Hyemin Kim, Chan-Young Ock, Se-Hoon Lee, Hao Wang, Angana A. H. Patel, Volkan I. Sayin, Aristotelis Tsirigos, Kwok-Kin Wong, Sergei B. Koralov, Mario Pende, Francisco J. Sánchez-Rivera, Diane M. Simeone, Ioannis K. Zervantonakis, Shohei Koide & Thales Papagiannakopoulos. "The integrated stress response promotes immune evasion through lipocalin 2." Nature (2026)
Computational biomarker analysis for validation in human samples
Hyunchul Kim, Jinhyung Heo, Soo Ick Cho, Beodeul Kang, Jung Sun Kim, Chan Kim, Chang Il Kwon, Min Je Sung, Seok-Pyo Shin, Seok Jeong Yang, Incheon Kang, Sung Hwan Lee, Chansik An, Seungeun Lee, Jin Woo Oh, Hee Yeon Kay, Jiwon Shin, Taebum Lee, Sanghoon Song, Sukjun Kim, Heon Song, Sergio Pereira, Gwangil Kim, Hong Jae Chon. "Pathologist-Artificial Intelligence Concordance in HER2 Interpretation for Advanced Biliary Tract Cancer: Intraobserver, Interobserver, and Human-Artificial Intelligence Variability." Laboratory Investigation (2025)
As part of the study, invented computational biomarker algorithm for pathology AI (patent pending)
Gwangil Kim, Beodeul Kang, Jung Yong Hong, Haeyoun Kang, Jung Sun Kim, Sohyun Hwang, Sung Hwan Lee, Sang Hoon Jung, Chansik An, Won Suk Lee, Chiyoon Oum, Gahee Park, Mingu Kang, Yoojoo Lim, Jin Woo Oh, Siraj M. Ali, Chan-Young Ock, Chan Kim, Ho Yeong Lim, Hong Jae Chon. "Differential implications of tumor endothelial cell and lymphocyte densities in advanced hepatocellular carcinoma patients treated with immunotherapy." npj Precision Oncology (2025)
Cross-validated pathology AI and spatial transcriptomics findings in HCC

Published Abstracts

Jin Woo Oh, Sanghoon Song, Soohyun Hwang, Mingu Kang, Jinhee Lee, Sergio Pereira, Hyunsu Kim, Sehhoon Park, Junhun Cho, Se-Hoon Lee, Han-Sin Jeong, Chang Ho Ahn, Siraj M Ali, Chan-Young Ock, Myung-Ju Ahn. "A novel single-cell level approach integrating artificial intelligence (AI)–powered histomorphology labeling and spatial transcriptomics enables biomarker identification of treatment resistance in salivary gland cancer (SGC)." Proceedings of the AACR (2025)
Hyunsu Kim, Sehhoon Park, Jin Woo Oh, Soohyun Hwang, Jinyoung Kim, Eun-hye Kim, Nayeon Choi, Junhun Cho, Hyun-Ae Jung, Dongryul Oh, Se-Hoon Lee, Yong Chan Ahn, Han-Sin Jeong, Chang Ho Ahn, Chan-Young Ock, Myung-Ju Ahn. "Exploratory analysis of tumor microenvironment using scRNA, scTCR, and spatial transcriptomics in salivary gland cancer with surgical sample after neoadjuvant immuno-chemotherapy." Proceedings of the AACR (2025)
Seungeun Lee, Jin Woo Oh, Soohyun Hwang, Jeanne Shen, Sehhoon Park, Hyojin Kim, Young Kwang Chae, Se-Hoon Lee, Yoon-La Choi, Jin-haeng Chung, Jaewoong Shin, Heon Song, Aaron Valero Puche, Donggeun Yoo, Taebum Lee, Chiyoon Oum, Jeongmi Kim, Siraj M Ali, Chan-Young Ock. "Deep learning–powered H&E whole-slide image analysis of endothelial cells to characterize tumor vascular environment and correlate treatment outcome to immunotherapy." Journal of Clinical Oncology (2025)

Poster Presentations

Johns Hopkins (2018–2024)

"CRISPR-screens and Algorithms for Functional Characterization of Enhancers." Young Investigator's Day, Johns Hopkins University, 2024. (PDF)
"Functional characterization of the mammalian genome." ASHG, 2023.
"Gapped-kmer based machine learning and sequence alignment identify conserved regulatory vocabularies and enhancers in evolutionarily distant mammals." IGVF Consortium Meeting, 2022.
"Identifying subsets of cell-specific regulatory sequence features from heterogeneous tissue-specific chromatin state data using predictive gapped k-mer features." Cold Spring Harbor Lab – Biology of Genomes, 2019.
"Identifying subsets of cell-specific regulatory sequence features from heterogeneous tissue-specific chromatin state data using predictive gapped k-mer features." ENCODE Consortium Meeting, 2019.

Lunit (2024–Present)

"A novel single-cell level approach integrating AI–powered histomorphology labeling and spatial transcriptomics enables biomarker identification of treatment resistance in salivary gland cancer (SGC)." AACR, 2025. (PDF)

Invited Talks

"Decoding regulatory evolution with gapped-kmer sequence modeling and alignment." KAIST seminar, 2026.
"Decoding Gene Regulatory Network Dynamics." KAIST seminar, 2026.
"Multi-center integrative analysis of non-coding CRISPR screens." ENCODE Consortium Meeting, 2022.
"Sequence alignment using gapped-kmer features identifies conserved orthologous mammalian enhancers with high precision." ENCODE Consortium Meeting, 2021.