أعضاء هيئة التدريس
الدكتور كيونغ تشول شين
- البريد الإلكترونيkshin@hbku.edu.qa
- موقع المكتبB2 - QBRI
السيرة الذاتية
Dr. Kyung Chul Shin received his Bachelor's in Biotechnology from Konkuk University, South Korea, which was followed by his PhD in Cellular and Molecular Medicine. His research at Konkuk University mainly focused on researching new ion channels (especially Piezo ion channel) related to tactile sensations, and explored a deeper understanding of patch-clamp technology, calcium imaging technology, and new ion channels that have yet to be discovered.
Dr. Shin joined QBRI in 2020 as a post-doc at the Neurological Disorders Research Center. His current research aims to identify biomarkers in autism spectrum disorder with multifactor neurodevelopmental impairment.
Dr. Shin’s work has appeared in journals such as Scientific Reports, Free Radical Research, and Clinical and Experimental Hypertension.
الاهتمامات البحثية
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MicroRNA Exocytosis and Ribomone: Novel neuromodulator, Neurotransmitter, and Cell-to-cell communicaton.
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Molecular Mechanisms of Vesicle Fusion: Biological, Biophysical, and Biochemical tools.
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Human induced pluripotent stem cells for autism.
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Mechanosensitive ion channel: Mechanisms & Functions.
الخبرات
Postdoc
Neurological Disorders Research Center, QBRI
2020 - presentTeaching assistant
Graduate School of Medicine
2018 - 2019
المؤهلات العلمية
Ph.D
Cellular & Molecular Medicine from the same university
2019Bachelor's degree
Biotechnology at Konkuk University from Korea
2012
المؤلفات المختارة
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Shin KC*, Park HJ*, Kim JG, Lee IH, Cho H, Park C, Sung TS, Koh SD, Park SW, Bae YM.
The Piezo2 ion channel is mechanically activated by low-threshold positive pressure. Scientific Reports (2019), 9(1):6446 (*, equal contribution)
2019 -
Park HJ*, Shin KC*, Yoou SK, Kang M, Kim JG, Sung DJ, Yu W, Lee Y, Kim SH, Bae YM, Park SW.
Hydrogen peroxide constricts rat arteries by activating Na+-permeable and Ca2+-permeable cation channels. Free Radical Research (2019), 53(1):94-103 (*, equal contribution)
2019 -
Park SW*, Shin KC*, Yoou SK, Park HJ, Eun SH, Bae YM, Lee HM, Chae HJ, Chae SW, Choi BH.
Effects of an ethanolic extract of mulberry fruit on blood pressure and vascular remodeling in spontaneous hypertensive rats. Clinical and Experimental Hypertension (2018), 41(3):280-286 (*, equal contribution)
2018
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