羅健榮

中研院研究員

羅健榮

中研院研究員

辦公室
S4-711 
實驗室
S4-508 
研究室電話
(03)4227151 ext 65362 
實驗室電話
(03)4227151 ext 65397 
Email
cjlo@phy.ncu.edu.tw 
所有部落格

實驗室 Laboratory

分子馬達生物物理實驗室Molecular-Motor Biophysics Laboratory

現職 Position

  • Distinguished Professor, NCU Dept. of Physics (2018/08~Present)
  • Deputy Editor-in-chief of Physics Bimonthly (2020-Present)

學歷 Education

  • BSc in Physics, National Central University, Taiwan (1994/09 – 1998/06)
  • MSc in Physics, National Central University, Taiwan (1998/09 – 2000/06)
  • DPhil in Physics, University of Oxford, UK (2003/10 – 2007/03)

經歷 Experience

  • Research Assistant, Physics Institute, Academia Sinica (2002/07 -2003/07)
  • Postdoctoral Research Assistant, Departent of Physics, Univeristy of Oxford (2007/03 – 2009/01)
  • Associate Chairman, NCU Dept. of Physics (2018/08-2019/07)

學術榮譽 Academic honor

  • MOST Outstanding Research Award (2021)
  • NCU Distinguished Professor (2022-24)
  • NCU Outstanding Teaching Award (2021)
  • NCU Outstanding Research Award (2018-21)
  • HFSP Research Award (2015)
  • NCU Young PI Award (2009)

研究領域 Research area

  • Bacterial flagellar motor, 細菌鞭毛馬達
  • Molecular Motor, 分子馬達
  • Bacterial Swarm, 細菌群游
  • Self-Propelled Particle, 自我推進粒子
  • Cell Motility, 細胞運動學
  • Biophysics, 生物物理

研究計畫 Research project

計畫年度計畫名稱執行起訖
113探究細菌細胞壁生合成的時空動力學2024/08/01~2027/07/31
109從能量學觀點探索細菌的逆境反應2020/08/01~2024/07/31
107單細胞生物物理實驗I2018/08/01~2021/07/31
106細菌鞭毛的自我組裝過程2017/08/01~2018/07/31
104細菌生存的能量動力學研究(HFSPO)
2015/06/01~2018/05/31
103探究分子馬達運轉的基本運作原理2014/08/01~2017/07/31
102從單一細菌鞭毛組裝到細菌自我推進的集體運動研究2013/08/01~2014/07/31
101細菌鞭毛馬達動力學的研究2012/08/01~2013/11/15
98細菌鞭毛馬達轉動機制的研究2009/08/01~2012/10/15

研究著作

論文標題 出版期刊 出版年度
Viscosity-dependent swimming patterns assist Aliivibrio fischeri for symbiont partner findingPhysical Review Research2024
Escaping speed of bacteria from confinementBiophysical Journal2022
Probing bacterial cell wall growth by tracing wall-anchored protein complexesNature Communications2021
A General Workflow for Characterization of Nernstian Dyes and Their Effects on Bacterial PhysiologyBIOPHYSICAL JOURNAL2020
Live cell fluorescence imaging reveals dynamic production and loss of bacterial flagellaMOLECULAR MICROBIOLOGY2020
ATP-dependent dynamic protein aggregation regulates bacterial dormancy depth critical for antibiotic toleranceMOLECULAR CELL2019
ATP-dependent dynamic protein aggregation regulates bacterial dormancy depth critical for antibiotic toleranceMOLECULAR CELL2019
Single-Cell Bacterial Electrophysiology Reveals Mechanisms of Stress-Induced DamageBiophysical Journal2019
Frequent pauses in Escherichia coli flagella elongation revealed by single cell real-time fluorescence imagingNature Communications2018
Formation of spiral coils among self-propelled chainsPhysical Review E2018
FliL association with flagellar stator in the sodium-driven Vibrio motor characterized by the fluorescent microscopyScientific Reports2018
Ferric uptake regulator (Fur) modulates Helicobacter pylori J99 motility through controlling bacterial flagellar motor switch: a phenotypic characterization.HELICOBACTER2017
Lrp, a global regulator, regulates the virulence of Vibrio vulnificusJOURNAL OF BIOMEDICAL SCIENCE2017
Speed of the bacterial flagellar motor near zero load depends on the number of stator unitsPROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AME2017
Length-dependent flagellar growth of Vibrio alginolyticus revealed by realtime fluorescent imagingeLife2017
The Biophysicist’s Guide to the Bacterial Flagellar Motor.advances in physics-x2017
Using Biophysics to Monitor the Essential Protonmotive Force in BacteriaAdvances in Experimental Medicine and Biology2016
Dynamics of self-organized rotating spiral-coils in bacterial swarmssoft matter2014
Mechanism and kinetics of a sodium-driven bacterial flagellar motorPROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AME2013
Na+ conductivity of the Na-driven flagellar motor complex composed of unplugged wild-type or mutant PomB with PomAJOURNAL OF BIOCHEMISTRY2013
Collective sub-diffusive dynamics in bacterial carpet microfluidic channelAPPLIED PHYSICS LETTERS2012
Rapid polymer microchannel fabrication by hot roller embossing processMicrosystem technologies2012
Model Studies of the Dynamics of Bacterial Flagellar MotorsBiophysical Journal2009