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Integrative Biology of Host-Microbiome Interactions in the Digestive System
We seek to understand how the intestinal microbiome contributes to vertebrate physiology and disease. To that end, we leverage complementary zebrafish and mouse models to study the integrative physiology of host-microbiome interactions. This work has identified novel and conserved mechanisms by which intestinal bacteria regulate dietary fat metabolism and systemic innate immunity. We also apply genomic approaches in these animal models to understand the transcriptional regulatory pathways utilized by the intestinal epithelium to mediate host responses to the microbiome. These studies have identified mechanisms of transcriptional and chromatin regulation that have been conserved during vertebrate evolution and also contribute to modern human diseases such as the inflammatory bowel diseases, obesity, and diabetes. To further advance our understanding of obesity pathophysiology, we developed the zebrafish as a model system for studying adipose tissues and identifying new environmental and genetic regulators of adiposity. We are also engaged in translational research in humans and animal models to define microbial and metabolic determinants of obesity and efficacy of weight loss intervention. Grounded in comparative and integrative physiology, our research program has been effective in discovering ancient mechanisms of host-microbiome interaction that are conserved across animal taxa and contribute to the etiology of human disease.
Integrative Biology of Host-Microbiome Interactions in the Digestive System
We seek to understand how the intestinal microbiome contributes to vertebrate physiology and disease. To that end, we leverage complementary zebrafish and mouse models to study the integrative physiology of host-microbiome interactions. This work has identified novel and conserved mechanisms by which intestinal bacteria regulate dietary fat metabolism and systemic innate immunity. We also apply genomic approaches in these animal models to understand the transcriptional regulatory pathways utilized by the intestinal epithelium to mediate host responses to the microbiome. These studies have identified mechanisms of transcriptional and chromatin regulation that have been conserved during vertebrate evolution and also contribute to modern human diseases such as the inflammatory bowel diseases, obesity, and diabetes. To further advance our understanding of obesity pathophysiology, we developed the zebrafish as a model system for studying adipose tissues and identifying new environmental and genetic regulators of adiposity. We are also engaged in translational research in humans and animal models to define microbial and metabolic determinants of obesity and efficacy of weight loss intervention. Grounded in comparative and integrative physiology, our research program has been effective in discovering ancient mechanisms of host-microbiome interaction that are conserved across animal taxa and contribute to the etiology of human disease.
研究兴趣
论文共 165 篇作者统计合作学者相似作者
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James H. Thierer,Ombretta Foresti,Pradeep Kumar Yadav,Meredith H. Wilson,Tabea O. C. Moll,Meng-Chieh Shen, Elisabeth M. Busch-Nentwich,Margaret Morash,Karen L. Mohlke,John F. Rawls, Vivek Malhotra,M. Mahmood Hussain,
Nature Communicationsno. 1 (2024): 1-17
Nature Communicationsno. 1 (2024): 1-1
Proceedings of the National Academy of Sciences of the United States of Americano. 27 (2023)
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Margaret Morash,Richard Kay, Jia Wen, Gilberto Padilla-Mercado, Lihua Ye,Frank Reimann,Fiona Gribble,John Rawls
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PHYSIOLOGYno. S1 (2023)
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Yang Jin,Darby Kozan,Jennifer L Anderson,Monica Hensley,Meng-Chieh Shen,Jia Wen,Tabea Moll, Hannah Kozan,John F Rawls,Steven A Farber
bioRxiv : the preprint server for biology (2023)
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John Rawls,Cecelia Kelly,Jayanth Jawahar,Lauren Davey, Jeffrey Everitt,Joseph Galanko,Chelsea Anderson, Jonathan Avendano,Jessica McCann, Ryan Sartor,Raphael Valdivia
PHYSIOLOGYno. S1 (2023)
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Cecelia Kelly,Jayanth Jawahar,Lauren Davey, Jeffrey I Everitt,Joseph A Galanko,Chelsea Anderson, Jonathan E Avendano,Jessica R McCann,R Balfour Sartor,Raphael H Valdivia,John F Rawls
mBio (2023)
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