Welcome To The Cho Lab Cho Lab We translate our mechanistic insights toward clinical therapies with the goal of developing biological agents to treat cardiac arrhythmias. 680 north wolfe street. “ a single gene can convert cardiac muscle to pacemaker tissue. pacing the heart with genes and cells. Welcome to the cho lab in the department of microbiology, school of medicine at sungkyunkwan university. we specialize in the cutting edge fields of immunoengineering and microbiome.
Carrying On At The Institute Spotlight Cho Lab Burke Neurological The cho lab focuses on the development of cognitive, emotional and motivational brain circuits in adolescents with depression and adolescents with schizophrenia using fmri. We will be based on the third floor of croft hall (institute for nanobiotechnology, inbt) on the johns hopkins homewood campus, with a satellite lab at the school of medicine. In his research laboratory here in durham, he focuses on investigating 'jumping gene', which was discovered almost a century ago by barbara mcclintock, the nobel laureate in 1983. We discovered that multiple focal adhesion proteins (e.g., zyxin, fak, hic 5, and paxillin) become transiently nuclear during myoblast to myotube transition. we want to understand how their nuclear translocation facilitates myogenesis.
Cho 001custom Cake 06 Cho Lab Bakery In his research laboratory here in durham, he focuses on investigating 'jumping gene', which was discovered almost a century ago by barbara mcclintock, the nobel laureate in 1983. We discovered that multiple focal adhesion proteins (e.g., zyxin, fak, hic 5, and paxillin) become transiently nuclear during myoblast to myotube transition. we want to understand how their nuclear translocation facilitates myogenesis. Therefore, the aim of this project is to dissect how the ribosome arrest associated rna control pathways interplay with the epigenetic silencing of transposons. this research will help unveil the long lasting question of self and non self recognition in biology and provide insights into the safeguarding of the host genome from foreign dnas. Pacing the heart with genes and cells. By harnessing the unique optoelectronic properties of the nanocarbon materials, we establish highly intelligent analytical platforms. our core expertise lies in the carbon molecular interface,. He is currently working as a visiting scholar in rae cho’s laboratory at unc chapel hill, applying chemical proteomics to muscle cells. outside of research, he enjoys hiking, traveling with his family, and working on puzzles.
Comments are closed.