25 results on '"Lickwar, Colin R."'
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2. Transcriptional Integration of Distinct Microbial and Nutritional Signals by the Small Intestinal Epithelium
3. Transcriptional programmes underlying cellular identity and microbial responsiveness in the intestinal epithelium
4. Uncovering the history of intestinal host–microbiome interactions through vertebrate comparative genomics
5. Conserved roles for Hnf4 family transcription factors in zebrafish development and intestinal function
6. A Guanosine-Centric Mechanism for RNA Chaperone Function
7. Additional file 5 of Starvation causes changes in the intestinal transcriptome and microbiome that are reversed upon refeeding
8. Transcriptional integration of distinct microbial and nutritional signals by the small intestinal epithelium
9. Fxr signaling and microbial metabolism of bile salts in the zebrafish intestine
10. Genome-wide measurement of protein-DNA binding dynamics using competition ChIP
11. Genome-wide protein–DNA binding dynamics suggest a molecular clutch for transcription factor function
12. Enteroendocrine cells sense bacterial tryptophan catabolites to activate enteric and vagal neuronal pathways
13. DNA methylation is required for expression of regional gene expression programs in the zebrafish intestine
14. Fxr signaling and microbial metabolism of bile salts in the zebrafish intestine
15. Transcriptional programmes underlying cellular identity and microbial responsiveness in the intestinal epithelium
16. Enteroendocrine cells sense bacterial tryptophan catabolites to activate enteric and vagal neuronal pathways
17. Lysosome-Rich Enterocytes Mediate Protein Absorption in the Vertebrate Gut
18. Commensal Bacteria Regulate Gene Expression and Differentiation in Vertebrate Olfactory Systems Through Transcription Factor REST
19. Genomic dissection of conserved transcriptional regulation in intestinal epithelial cells
20. Microbiota regulate intestinal epithelial gene expression by suppressing the transcription factor Hepatocyte nuclear factor 4 alpha
21. Hnf4a mediates microbial control of intestinal gene expression and inflammation
22. Microbiota modulate transcription in the intestinal epithelium without remodeling the accessible chromatin landscape
23. Microbiota modulate transcription in the intestinal epithelium without remodeling the accessible chromatin landscape
24. The Set2/Rpd3S Pathway Suppresses Cryptic Transcription without Regard to Gene Length or Transcription Frequency
25. Fxr signaling and microbial metabolism of bile salts in the zebrafish intestine.
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