- Ascarosides Treatment Proteomic Study
NeuCode SILAC and mass spectrometry proteomics analysis towards 1-day post L4 adult hermaphrodites after 6 hours of treatments by 1uM ascaroside ascr#2 or ascr#5.
- Ascarosides Treatment Proteomic Study
NeuCode SILAC and mass spectrometry proteomics analysis towards 1-day post L4 adult hermaphrodites after 6 hours of treatments by 1uM ascaroside ascr#2 or ascr#5.
- Ascarosides Treatment Proteomic Study
NeuCode SILAC and mass spectrometry proteomics analysis towards 1-day post L4 adult hermaphrodites after 6 hours of treatments by 1uM ascaroside ascr#2 or ascr#5.
- Ascarosides Treatment Proteomic Study
NeuCode SILAC and mass spectrometry proteomics analysis towards 1-day post L4 adult hermaphrodites after 6 hours of treatments by 1uM ascaroside ascr#2 or ascr#5.
- Ascarosides Treatment Proteomic Study
NeuCode SILAC and mass spectrometry proteomics analysis towards 1-day post L4 adult hermaphrodites after 6 hours of treatments by 1uM ascaroside ascr#2 or ascr#5.
- Ascarosides Treatment Proteomic Study
NeuCode SILAC and mass spectrometry proteomics analysis towards 1-day post L4 adult hermaphrodites after 6 hours of treatments by 1uM ascaroside ascr#2 or ascr#5.
- Ascarosides Treatment Proteomic Study
NeuCode SILAC and mass spectrometry proteomics analysis towards 1-day post L4 adult hermaphrodites after 6 hours of treatments by 1uM ascaroside ascr#2 or ascr#5.
- Ascarosides Treatment Proteomic Study
NeuCode SILAC and mass spectrometry proteomics analysis towards 1-day post L4 adult hermaphrodites after 6 hours of treatments by 1uM ascaroside ascr#2 or ascr#5.
- Ascarosides Treatment Proteomic Study
NeuCode SILAC and mass spectrometry proteomics analysis towards 1-day post L4 adult hermaphrodites after 6 hours of treatments by 1uM ascaroside ascr#2 or ascr#5.
- Expression data from C. elegans wild type, hlh-25 mutant and hlh-29 mutant strains
In Caenorhabditis elegans, the six proteins that make up the REF-1 family are HES homologs that act in both Notch dependent and Notch-independent pathways to regulate embryonic events. To further our understanding of how the REF-1 family works to coordinate post-embryonic cellular events, we performed transcriptome analysis of HLH-25 and HLH-29 mutant strains.