안설희
The Ahn Lab aims to investigate important biological systems and phenomena on an atomistic scale using molecular dynamics (MD) simulations and develop enhanced sampling methods for MD simulations. Specifically, we look at various systems, from proteins to nanocrystals, using the weighted ensemble (WE) method to sample atomistic pathways and mechanisms efficiently. We also develop methods for WE to make it state-of-the-art, focusing on kinetic sampling.
2024.04.15
이기범 교수
The primary research interest of this Lab is to develop and integrate nanotechnologies and chemical biology to modulate signaling pathways in stem cells and cancer cells towards specific cell lineages or behaviors. In particular, KBLEE group is exploring critical problems in cancer research and stem cell biology pertaining to the cell-microenvironmental interactions, and how to control these interactions at the subcellular and single-cell level using interdisciplinary as well as transformative approaches. From this research effort, he has developed innovative technology platforms that may overcome the critical barriers to harnessing the full therapeutic potential of stem cells and cellular reprogramming.
2024.04.08
김한영 교수
Welcome to Laboratory of Immuno-Renegerative Biomedical Engineering Our researches focus on the development and utilization of multifunctional nano/bio-materials for immunotherapeutic application
2024.03.25
정가영 교수
STRUCTURE DICTATES FUNCTION! Proteins are versatile macromolecules that have critical functions in all biological processes. Protein structure plays a key role in its function. Moreover, proteins are not static; their conformation is dynamically changing. Therefore, we believe that "Protein function is determined by the structure and conformational dynamics of the protein."
2024.03.18
서원효
이화여자대학교 약학대학 간독성 연구실 (Lab of HepatoToxicity, PI: 서원효)은 알코올 섭취, 고열량 식이, 아세트아미노펜 같은 간독성을 갖고 있는 약물 등 다양한 외부자극에 의한 간손상이 있을 때, 간내 실질세포인 간세포와 비실질세포 (non-parenchymal cell)간의 다양한 intercellular communication을 통한 간질환의 pathophysiology를 연구하고 있습니다. 특히, 간질환에서 advanced stage 로 알려진 간섬유화에 이르는 과정을 이해하고, 이를 통한 새로운 치료 전략을 제시함과 동시에 효과적인 항섬유화 약물을 개발하는 연구를 진행하고 있습니다.
2024.03.11
이현정
We are interested in understanding how biophysical cues in the body impact cellular behavior. Altered biomechanical stimuli in pathological condition are regulating cellular microenvironment differently. We aim to comprehend the biological microenvironment affected by aging and elucidate the molecular mechanisms resulting from altered physical cues. Our goal is to develop strategies for overcoming aging
2024.03.04
김종흠 교수
As an independent researcher, I start my next career at POSTECH, one of the best research-oriented universities in South Korea. I aim to broaden our understanding of the effect of environments on plant-microbe interactions. 식물-미생물-환경 상호작용 연구실 (Lab of Plant-Microbe-Environment Interactions; PMEI)은 외부 환경으로 인해 식물-미생물의 상호작용이 어떻게 조절되는지를 개체 및 분자 수준에서 연구합니다.
2024.02.26
김현수
Our laboratory is interested in exploring how protein conformational changes, such as those associated with protein aggregation, misfolding, or turnover, impact cellular physiology and lead to human diseases. In this regard, we focus on the development and application of mass spectrometry-based structural and quantitative proteomic methods aimed at monitoring protein conformational changes in complex cellular conditions. We combine these tools with classical biochemical, cell biological, genetic approaches and machine learning algorithms in several lines of research. Our research encompasses the area of artificial intelligence, bioinformatics, biostatistics, software development, and clinical applications.
2024.02.19
백인환
경성대학교 약학대학 임상약학연구실은 효율적인 신약개발과 합리적인 약물요법 설계를 위한 계량약리학 (pharmacometrics), 약물동태/약물동력학 모델링 (pharmacokinetic/pharmacodynamic modeling), 메타분석 (meta-analysis) 연구를 수행하고 있습니다.
2024.02.05
김교범 교수
동국대학교 화공생물공학과 세포조직공학 및 기능성 재료 연구실 (Cell-Tissue Engineering & Advanced Materials Lab, PI: 김교범)은 한국연구재단 지원 기초연구실 (Basic Research Laboratory, 유무기 생체소재를 활용한 표면개질 기반 항암치료용 면역세포전환 연구실) 주관기관으로 면역세포에 대한 다양한 다기능성 생체재료 기반 세포표면공학 (Biomaterial-mediated cell surface engineering) 기술을 활용한 면역항암 기능성 강화 및 관련 차세대 세포치료제 플랫폼 기술 개발에 관한 연구를 진행하고 있습니다.
2024.01.29