교원프로필

김종민 사진
교원에 대한 정보를 나타내는 표입니다.
성명 김종민
소속 생명과학과
전화번호 054-279-2322
E-mail minijong@postech.ac.kr
Homepage https://jkimlab.postech.ac.kr

학력

  • 2000.09 ~ 2007.06 CALIFORNIA INSTITUTE OF TECHNOLOGY (통합-Biology)
  • 1997.03 ~ 2000.08 포항공과대학교 (학사-Biology)

주요경력

  • 2014.03 ~ 2018.04 : HARVARD UNIV. WYSS INS. FOR BIOLOGICALLY INSPIRED ENGINEERING
  • 2010.03 ~ 2014.03 : CALIFORNIA INS. OF TECHNOLOGY DEPT. OF BIOENGINEERING
  • 2007.01 ~ 2010.03 : CBSBIOSCIENCE INC.

전문분야

학술지

국제전문학술지

  • RNA nanotechnology in synthetic biology, CURRENT OPINION IN BIOTECHNOLOGY, , 63, 135-141 (2020)
  • On the stability of nucleic acid feedback control systems, Automatica, , 119, 109103- (2020)
  • Autonomous dynamic control of DNA nanostructure self-assembly, NATURE CHEMISTRY, , 11, 510-520 (2019)
  • Robustness analysis of a nucleic acid controller for a dynamic biomolecular process using the structured singular value, JOURNAL OF PROCESS CONTROL, , 78, 34-44 (2019)
  • PID and State Feedback Controllers Using DNA Strand Displacement Reactions, IEEE Control Systems Letters, , 3, 805-810 (2019)
  • Programmable CRISPR-Cas Repression, Activation, and Computation with Sequence-Independent Targets and Triggers, ACS SYNTHETIC BIOLOGY, , 8, 1583-1589 (2019)
  • De novo-designed translation-repressing riboregulators for multi-input cellular logic, NATURE CHEMICAL BIOLOGY, , 15, 1173-+ (2019)
  • Ribocomputing: Cellular Logic Computation Using RNA Devices, BIOCHEMISTRY, , 57, 883-885 (2018)
  • A coarse-grained model captures the temporal evolution of DNA nanotube length distributions, Natural Computing, , 17, 183-199 (2018)
  • Complex cellular logic computation using ribocomputing devices, NATURE, , 548, 117-121 (2017)
  • Proportional–Integral Degradation Control Allows Accurate Tracking of Biomolecular Concentrations With Fewer Chemical Reactions, IEEE Life Sciences Letters, , 2, 55-58 (2016)
  • Molecular Titration Promotes Oscillations and Bistability in Minimal Network Models with Monomeric Regulators, ACS Synthetic Biology, , 5, 321-333 (2016)
  • Rapidly characterizing the fast dynamics of RNA genetic circuitry with cell-free transcription–translation (TX-TL) systems, ACS Synthetic Biology, , 4, 503-515 (2015)
  • Computational design of nucleic acid feedback control circuits, ACS Synthetic Biology, , 3, 600-616 (2014)
  • Load Capacity Improvements in Nucleic Acid Based Systems Using Partially Open Feedback Control, ACS Synthetic Biology, , 3, 617-626 (2014)
  • Synthetic circuit for exact adaptation and fold-change detection, NUCLEIC ACIDS RESEARCH, , 42, 6078-6089 (2014)
  • Gene circuit performance characterization and resource usage in a cell-free “breadboard”, ACS Synthetic Biology, , 3, 416-425 (2014)
  • Diversity in the dynamical behaviour of a compartmentalized programmable biochemical oscillator, Nature Chemistry, , 6, 295-302 (2014)
  • Ensemble Bayesian Analysis of Bistability in a Synthetic Transcriptional Switch, ACS Synthetic Biology, , 1, 299-316 (2012)
  • The expression of phospho-AKT1 and phospho-MTOR is associated with a favorable prognosis independent of PTEN expression in intrahepatic cholangiocarcinomas, MODERN PATHOLOGY, , 25, 131-139 (2012)
  • Overexpression of renal tumor antigen is associated with tumor invasion and poor prognosis of hepatocellular carcinoma, ANNALS OF SURGICAL ONCOLOGY, , 19, 404-411 (2012)
  • Timing molecular motion and production with a synthetic transcriptional clock, PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA-PHYSICAL SCIENCES, , 108, E784-E793 (2011)
  • Synthetic in vitro transcriptional oscillators, Molecular Systems Biology, , 7, 465- (2011)
  • Overexpression of High-Mobility Group Box 2 Is Associated with Tumor Aggressiveness and Prognosis of Hepatocellular Carcinoma, CLINICAL CANCER RESEARCH, , 16, 5511-5521 (2010)
  • Epithelial-mesenchymal transition gene signature to predict clinical outcome of hepatocellular carcinoma, CANCER SCIENCE, , 101, 1521-1528 (2010)
  • Real-time reverse transcription PCR analysis for validation of transketolase gene in hepatocellular carcinoma tissues, BioChip Journal, , 3, 130-138 (2009)
  • Expression of cystathionine β-synthase is downregulated in hepatocellular carcinoma and associated with poor prognosis, ONCOLOGY REPORTS, , 21, 1449-1454 (2009)
  • Increased Expression of Autophagy Protein Beclin1 and LC3 in High-grade Hepatocellular Carcinoma and Metastatic Carcinoma, BioChip Journal, , 3, 316-325 (2009)
  • Proteomic Profiling of Human Hepatocellular Carcinoma Tissues by Two-Dimensional Electrophoresis and Mass Spectrometry, BIOCHIP JOURNAL, , 3, 237-248 (2009)
  • Expression of nicotinamide N-methyltransferase in hepatocellular carcinoma is associated with poor prognosis, journal of experimental and clinical cancer research, , 28, 20- (2009)
  • Construction of an in vitro bistable circuit from synthetic transcriptional switches, Molecular Systems Biology, , 2, 68- (2006)

국내전문학술지

일반학술지

  • Cell-Free Synthetic Biology Platform for Engineering Synthetic Biological Circuits and Systems, Methods and Protocols, , 2, 39- (2019)

학술회의논문

학회발표

단행본

연구실적

  • 김종민_신규부임교수 연구비지원(1차_대학), 포항공과대학교 (2018-2019)
  • 김종민_신규부임교수 기자재지원(1차_대학), 포항공과대학교 (2018-2019)
  • 김종민_신규부임교수 연구비지원(1차_학과), 포항공과대학교 (2018-2019)
  • [삭제]김종민_신규부임교수 기자재지원(2차_대학), 포항공과대학교 (2019-2019)
  • 김종민_신규부임교수 연구비지원(2차_대학), 포항공과대학교 (2019-2020)
  • 김종민_신규부임교수 기자재지원(2차_학과), 포항공과대학교 (2019-2020)
  • 김종민_신규부임교수 기자재지원(2차_학과), 포항공과대학교 (2019-2020)
  • [BSRI]합성 유전자회로 기반 스마트 프로바이오틱스 개발, 포항공과대학교 (2019-2020)
  • 합성 유전자회로 기반 프로바이오틱스의 위장관질환에의 활용, 한국보건산업진흥원 (2019-2021)
  • 합성 유전자회로 기반 스마트 프로바이오틱스 개발, 재단법인한국연구재단 (2019-2020)
  • 전립선암환자의 유전자다형과 체액 내 종양유래 핵산의 분자적 특성 연구를 통한 진단마커 발굴 연구, (주)디알텍 (2019-2020)
  • 합성 유전자회로 기반 스마트 프로바이오틱스 개발, 재단법인한국연구재단 (2020-2021)
  • 김종민_신규부임교수 기자재지원(3차_대학), 포항공과대학교 (2020-2021)
  • 김종민_신규부임교수 연구비지원(3차_대학), 포항공과대학교 (2020-2021)

IP

  • 정규열,장성호,장성연,황윤희,김성경,김종민, 전사 억제인자 및 토홀드 스위치를 포함하는 리보스위치 센서, 한국, 10-2020-0010533 (2019)
  • 정규열,김성경,황윤희,장성호,장성연,김종민, 전사 억제인자와 토홀드 스위치를 이용한 리보스위치 센서 및 이를 이용한 리보스위치 센서의 조절 방법, 한국, 10-2019-0011028 (2019)