Mr. Yong-Hwan Moon | Plant molecular biology | Best Researcher Award
Professor, Pusan National University, South Korea
Yong-Hwan Moon is a distinguished professor at Pusan National University in South Korea, renowned for his contributions to the field of molecular biology. With a rich academic background that includes a Ph.D. from Seoul National University, he has dedicated over two decades to researching plant abiotic stress signaling. His work has garnered significant recognition, including the Albert Nelson Marquis Lifetime Achievement Award. 🌿
Profile
Education
Yong-Hwan Moon’s academic journey began at Seoul National University, where he earned his B.S., M.S., and Ph.D. degrees in Biology. He further honed his expertise as a postdoctoral fellow at prestigious institutions, including the University of California, Berkeley. His educational foundation has paved the way for a successful career in research and academia. 🎓
Experience
With over 20 years of experience, Professor Moon has held various roles at Pusan National University, including positions as Assistant Professor, Associate Professor, and now Professor in the Department of Molecular Biology. His tenure includes serving as dean of the department and engaging in impactful research projects that bridge molecular biology and plant science. 🌍
Research Interests
Professor Moon’s primary research interest lies in plant abiotic stress signaling, particularly how plants respond to environmental challenges such as salinity and drought. His innovative approach combines molecular biology techniques with practical applications, aiming to enhance plant resilience and agricultural productivity. 🌾
Awards
In recognition of his outstanding contributions to science, Professor Moon received the prestigious Albert Nelson Marquis Lifetime Achievement Award in 2018. This accolade highlights his commitment to research excellence and his influence within the scientific community. 🏆
Publications Top Notes
Professor Moon has authored numerous articles in high-impact journals, significantly advancing our understanding of plant biology. Notable publications include:
AtC3H3, an Arabidopsis Non-TZF Gene, Enhances Salt Tolerance by Increasing the Expression of Both ABA-Dependent and -Independent Stress-Responsive Genes (2024, International Journal of Molecular Sciences)
Genome-Wide Analysis of Stress-Responsive Genes and Alternative Splice Variants in Arabidopsis Roots under Osmotic Stresses (2023, International Journal of Molecular Sciences)
Influence of black rice bran derived anthocyanin-extract on growth rate, immunological response, and immune-antioxidant gene expression in Nile tilapia (2022, Fish & Shellfish Immunology)
AtERF71/HRE2, an Arabidopsis AP2/ERF Transcription Factor Gene, Contains Both Positive and Negative Cis-Regulatory Elements (2022, International Journal of Molecular Sciences)
An Efficient Hairy Root System for Validation of Plant Transformation Vector and CRISPR/Cas Construct Activities in Cucumber (2022, Frontiers in Plant Science)