The K. Kim Lab of Neurobehavior and Neural Circuits42
Major research interests
Our research focuses on identifying the neuronal and molecular mechanisms that underlie pheromone-mediated regulation of development and behavior using the C. elegans model system.
These studies will allow us to better understand the mechanisms and neuronal circuits by which complex species-specific environmental cues and internal metabolic status is integrated to drive highly precise developmental and behavioral responses.
Advisor Professor : Kim, Kyuhyung
The K. Kim Lab of Neurobehavior and Neural Circuits Homepage
Our research focuses on identifying the neuronal and molecular mechanisms that underlie pheromone-mediated regulation of development and behavior using the C. elegans model system.
These studies will allow us to better understand the mechanisms and neuronal circuits by which complex species-specific environmental cues and internal metabolic status is integrated to drive highly precise developmental and behavioral responses.
Advisor Professor : Kim, Kyuhyung
The K. Kim Lab of Neurobehavior and Neural Circuits Homepage
Subject
- Fluorescence in Situ Hybridization 1
- FMRFamide 1
- Food Deprivation 1
- FOOD RESPONSE 1
- frpr-8 1
- G-PROTEINS 1
- GABA 1
- Gap Junction 1
- Gating 1
- GENE 1
Date issued
- 2020 - 2025 13
- 2012 - 2019 25
Co-Author(s)
Related Keyword
Recent Submissions
- A practical guide to ordering C. elegans strains for biological research
- Cryo-EM structures of mouse bestrophin 1 channel in closed and partially open conformations
- An evolutionarily conserved cation channel tunes the sensitivity of gustatory neurons to ephaptic inhibition in Drosophila
- A FMRFamide-like neuropeptide FLP-12 signaling regulates head locomotive behaviors in Caenorhabditis elegans
- PIEZO acts in an intestinal valve to regulate swallowing in C. elegans