본문 바로가기

교수진보기

교수 상세보기

김재욱 교수 이미지
김재욱 교수

경력

  • 2024. 3. ~ 현재 : 한국교원대학교 , 조교수
  • 2021. 5. ~ 2024. 2. : 충남대학교 , 전임연구원
  • 2019. 4. ~ 2021. 3. : 일본학술진흥원 , 박사후연구원
  • 2017. 2. ~ 2017. 12. : 한국과학기술원 , 박사후연구원
  • 2017. 12. ~ 2019. 3. : 큐슈대학교 , 박사후연구원

학력

  • 2017. 2. : 한국과학기술원 , 박사 (한국)
  • 2011. 2. : 한국과학기술원 , 이학사 (대한민국)

연구

  • 생물화학 : 식물유전자의 생물화학적 연구
  • 진화학 : 삭물유전자의 진화과정 추론
  • 시스템생물학 : 식물 내의 분자간의 복합적 상호작용에 대한 연구
  • 계산생물학 : 식물의 생리현상과 유전자 발현 간의 관계를 모델링 등의 기법으로 계산해 예측하거나 최중요유전자를 알아내는 연구
  • 식물생리학 : 식물의 빛에 대한 저장기관 발달 연구

논문

  • 2024. 9. : De Novo Genome Assembly and Phylogenetic Analysis of Cirsium nipponicum (Genes)
  • 2024. 8. : Genetic variations underlying root-knot nematode resistance in sweetpotato (Gene)
  • 2024. 8. : Differential expression of sweetpotato nodulin 26-like intrinsic protein (NIP) genes in response to infection with the root knot nematode (Plant Biotechnology Reports)
  • 2024. 8. : Comparative chloroplast genome analyses of cultivated and wild Capsicum species shed light on evolution and phylogeny (BMC Plant Biology)
  • 2024. 3. : A Comprehensive Analysis Integrating Phenotypic Assessment Uncovering Thornless Cultivar Lineages in Aralia elata   (Genomics)
  • 2024. 10. : Axillary root development triggered by cold plasma treatment (Journal of Plant Biotechnology)
  • 2023. 8. : Comparative transcriptome analysis on wild-simulated ginseng of different age revealed possible mechanism of ginsenoside accumulation (Plant Physiology and Biochemistry)
  • 2023. 6. : BLZ8 activates a plastidial peroxiredoxin and a ferredoxin to protect Chlamydomonas reinhardtii against oxidative stress (Plant Biology)
  • 2023. 5. : Nitrate enhances the secondary growth of storage roots in Panax ginseng (Journal of Ginseng Research)
  • 2023. 11. : Modulation of warm temperature-sensitive growth using a phytochrome B dark reversion variant, phyB[G515E], in Arabidopsis and rice (Journal of Advanced Research)
  • 2023. 11. : Transcriptome-Based Comparative Expression Profiling of Sweet Potato during a Compatible Response with Root-Knot Nematode Meloidogyne incognita Infection (Genes)
  • 2023. 11. : Expression analysis of sweet potato patatin-like protein (PLP) genes in response to infection with the root knot nematode Meloidogyne incognita (Plant Biotechnology Reports)
  • 2023. 1. : Epidermal phyB requires RRC1 to promote light responses by activating the circadian rhythm (New Phytologists)
  • 2022. 3. : Comparative Transcriptome Analysis between Two Potato Cultivars in Tuber Induction to Reveal Associated Genes with Anthocyanin Accumulation (International Journal of Molecular Sciences)
  • 2022. 11. : De novo genome assembly of the bioluminescent mushroom Omphalotus guepiniiformis reveals an Omphalotus-specific lineage of the luciferase gene block (Genomics)
  • 2022. 11. : Comparison of Endophytic and Epiphytic Microbial Communities in Surviving and Dead Korean Fir (Abies koreana) Using Metagenomic Sequencing (Forests)
  • 2022. 10. : Prolonged Exposure to High Temperature Inhibits Shoot Primary and Root Secondary Growth in Panax ginseng (International Journal of Molecular Sciences)
  • 2020. 2. : The epidermis coordinates thermoresponsive growth through the phyB-PIF4-auxin pathway (Nature Communications)
  • 2020. 11. : Fluorescent protein-based imaging and tissue-specific RNA-seq analysis of Arabidopsis hydathodes (Journal of Experimental Botany)
  • 2019. 4. : Triterpenoid-biosynthetic UDP-glycosyltransferases from plants (Biotechnology Advances)
  • 2017. 3. : Atmospheric Pressure Pulsed Plasma Induces Cell Death in Photosynthetic Organs via Intracellularly Generated ROS (Scientific Reports)
  • 2016. 8. : Epidermal Phytochrome B Inhibits Hypocotyl Negative Gravitropism Non-Cell-Autonomously (The Plant Cell)
  • 2016. 6. : PIF1-Interacting Transcription Factors and Their Binding Sequence Elements Determine the in Vivo Targeting Sites of PIF1 (The Plant Cell)