| |
|
| ¢º |
Research Field |
|
| |
1. Functional studies of genes involved in abiotic stress tolerance in plants.
- Molecular cloning of novel genes induced by abiotic stresses such as heat shock, drought, salt, or cold from Arabidopsis, soybean or halophytes.
- Gain-of-function approach; overexpression transgenic Arabidopsis and soybean plants
Loss-of-function approach; T-DNA Arabidopsis mutant lines, RNAi transgenic plants
- Subcellular localization of target protein; confocal microscopy analyses of GFP-fusion protein expression in plant cell |
|
| |
 |
|
| |
|
|
| |
2. Functional genomics and metabolic engineering approach to explore the essential genes regulating the biosynthesis of the secondary metabolites in medicinal plants.
- RNA seq genomics; high-through put screening for important genes regulating secondary metabolite biosynthesis in medicinal plants.
- Hairy root transformation; overexpression or RNAi-based binary vector construct used for hairy root formation. |
|
| |
 |
|
| |
|
|
| ¢º |
Lab Members |
|
| |
-Senior research fellow
Kyoungmee Kim: Functional studies of novel soybean transcription factors involved in abiotic stress tolerance.
-Post-doc.
Hyun-Ah So: Molecular and physiological analyses of Arabidopsis genes participating the signal pathway in response to abiotic stresses.
-Graduate student (Ph.D)
Selvam Ayarpadikannan: Functional approach of halophyte (salt-plant) genes conferring abiotic stress tolerance.
-Graduate student (M.S.)
Kenneth Ryan Schraufnagle: Functional studies of novel soybean NAC transcription factors involved in abiotic stress tolerance.
Hyo Young Kim: Exploration of useful genes involved in secondary metabolic pathway and purification of active compound from the medicinal plants. |
|
| |
|
|
| ¢º |
Former lab members |
|
| |
Dr. Chang-Woo Cho (Ph.D) - ´©º¸ º¥ÃÄ È¸»ç
Jee Eun Heo (M.S.) - µ¿¾Æ´ëÇб³ À¯Àü°øÇаú Á¶±³
Jee Sook Kang (M.S.) - µ¿ÀÇ´ëÇб³ ¿¬±¸Á¶±³
Bo-Hyun Yun (M.S.) - °í·Á´ëÇб³ ¹Ú»ç°úÁ¤ |
|
| |
|
|
¿¬ ±¸