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- 031-290-7866
- cell4u@skku.edu
- 기초학문관51동 3층 51363호실
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[관심분야]
Molecular plant-geminivirus interactions Translational research : Side effect alleviation of cancer patients Antiviral protein development : Nucleic acid hydrolytic catalytic antibody
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- 031-290-7869
- dhkweon@skku.edu
- 생명공학관62동 2층 62204호실
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[관심분야]
Development of chemical regulators of SNARE-driven membrane fusion, and development of Botox substitutes for cosmetic and therapeutic purposes. Development of nanoperforators of viral envelope for antivirals (e.g., anti-influenza drugs) Protein engineering of industrial enzymes for improved stability, solubility and activity Recombinant protein production technologies (protein expression control, purification, refolding and protein characterization through spectroscopies)
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- 031-290-7867
- keejung@skku.edu
- 생명공학관62동 2층 62207호실
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[관심분야]
신경줄기세포와 뇌발생, Neural stem cells and brain development 줄기세포를 이용한 세포치료법, Stem cell therapy using induced pluripotent stem cells 뇌암, Brain cancers 신경계를 감염하는 바이러스, Viral infections in the brain
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- 031-290-7868
- jaecho@skku.edu
- 생명공학관62동 1층 62107호실
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[관심분야]
Study of functional role of cell cytoskeleton in inflammatory and tumorgenic responses Understanding of signal transduction pathway in inflammatory signaling Development of anti-inflammatory and anti-cancer drugs Functional role of protein methylation in immune responses
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- 031-290-7865
- ohjs@skku.edu
- 생명공학관62동 1층 62152호실
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[관심분야]
Regulation of meiotic cell cycle: Cell division is a highly regulated process, driven by the action of cyclin-dependent kinases (Cdks) and their regulatory subunits, cyclins. Inappropriate activation of Cdk/cyclin complexes can drive unregulated cell division resulting in cell death or tumor formation. Cdk/cyclin complexes also play essential roles in a variety of cellular processes such as development and differentiation. Our lab is focused on the action of Cdk/cyclin complexes and all pathways that control or are controlled by Cdk/cyclin complexes during female meiosis. Homologous chromosome segregation and aneuploidy: Reduction of chromosome number during meiosis is essential for producing haploid gametes from diploid parental cells. This reduction is achieved by two successive rounds of chromosome segregation, meiosis I (MI) and meiosis II (MII), after a single round of DNA replication. Although MII resembles mitosis in that sister chromatids separate and segregate to different daughter cells, the pattern of chromosome segregation during MI is unique. During MI, homologous chromosomes pair and then segregate from each other. Defects in this process result in aneuploidy, leading to miscarriages, infertility and genetic disorders such as Down’s syndrome. Therefore, our lab studies the molecular mechanisms that control homologous chromosome segregation during meiosis. Control of oocyte quality: Mammalian oocytes are arrested at the prophase of the first meiosis. After LH surge, the oocytes resume meiosis. During these processes, the oocytes is subjected to various sources of damage-inducing factors, which may lead to a progressive deterioration of oocyte quality. Thus, the control of oocyte quality is critical to reproductive success and survival of a species; however, the precise mechanisms underlying this process remain elusive. Our lab is interesting in identifying the molecular mechanisms that control oocyte quality and eventually leading to identification of diagnostic markers that are predictive of oocyte quality in a clinical setting. Chromatin remodeling during fertilization: Fertilization leads to the transformation of two haploid gametes into a totipotent zygote. During this process, highly condensed chromatins are largely reorganized, preparing to initiate the transcription of embryonic genes which are essential for obtaining the pluripotency. Our lab is exploring the mechanisms of the chromatin remodeling upon fertilization and investigating the role of maternal factors in this process.
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- 031-299-4859
- wjchung@skku.edu
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[관심분야]
Phage/peptide-based biomaterials Biomimetic materials Bioprinting Therapeutic bionanomaterials
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- 031-290-7861
- bioneer@skku.edu
- 생명공학관62동 2층 62251A호실
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[관심분야]
Skin physiology & Signal transduction, Skin diseases & Immunology, Development of functional agents for abnormal skin conditions,
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- 부교수 T 세포 및 종양 면역
- 송민경
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- 031-290-7863
- piscesmk@skku.edu
- 생명공학관62동 1층 62102호실
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[관심분야]
Investigation of transcriptional, epigenetic and metabolic regulatory mechanisms of T cell function in diverse disease settings Exploring the specific role of the ER for sensing microenvironmental conditions and controlling cellular responses Devising novel strategies for cancer treatment
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- 031-290-7862
- jeon2020@skku.edu
- 생명공학관62동 1층 62156호실
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[관심분야]
A. Liquid Biopsy / Circulating Tumor Nucleic Acids / Next Generation Sequencing / Bioinformatics B. Cancer Recurrence / Drug Resistance / Radiation Resistance C. Cancer Cell Biology / Metabolic Stresses / ERAD D. Non-codingRNAs
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- 부교수 유전자교정
- 김희권
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- 031-290-7864
- huikwonkim@skku.edu
- 생명공학관62동 2층 62206호실
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[관심분야]
Biotechnology, Genome editing technology, Gene therapeutics, Machine learning
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- 부교수
- 발라찬드란마나발란
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- 031-299-4858
- more
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- 부교수
- 박우람
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- 031-299-4857
- 생명공학관62동 3층 62301A호실
- more
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- 명예교수
- 권무식
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- more
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- 명예교수
- 권석태
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- more
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- 명예교수
- 서동상
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- more
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- 명예교수
- 홍성열
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- more
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- 조교수
- 백가현
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- 031-299-4856
- 생명공학관61동 1층 61157B호실