Supriya Srinivasan, Ph.D. - Publications

Affiliations: 
2000 University of Missouri - Columbia, Columbia, MO, United States 
Area:
Cell Biology, Microbiology Biology
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18 high-probability publications. We are testing a new system for linking publications to authors. You can help! If you notice any inaccuracies, please sign in and mark papers as correct or incorrect matches. If you identify any major omissions or other inaccuracies in the publication list, please let us know.

Year Citation  Score
2020 Srinivasan S. Neuroendocrine control of lipid metabolism: lessons from . Journal of Neurogenetics. 1-7. PMID 32619378 DOI: 10.1080/01677063.2020.1777116  0.306
2019 Bouagnon AD, Lin L, Srivastava S, Liu CC, Panda O, Schroeder FC, Srinivasan S, Ashrafi K. Intestinal peroxisomal fatty acid β-oxidation regulates neural serotonin signaling through a feedback mechanism. Plos Biology. 17: e3000242. PMID 31805041 DOI: 10.1371/Journal.Pbio.3000242  0.32
2017 Hussey R, Stieglitz J, Mesgarzadeh J, Locke TT, Zhang YK, Schroeder FC, Srinivasan S. Pheromone-sensing neurons regulate peripheral lipid metabolism in Caenorhabditis elegans. Plos Genetics. 13: e1006806. PMID 28545126 DOI: 10.1371/Journal.Pgen.1006806  0.349
2017 Palamiuc L, Noble T, Witham E, Ratanpal H, Vaughan M, Srinivasan S. A tachykinin-like neuroendocrine signalling axis couples central serotonin action and nutrient sensing with peripheral lipid metabolism. Nature Communications. 8: 14237. PMID 28128367 DOI: 10.1038/Ncomms14237  0.323
2015 Srinivasan S. Regulation of body fat in Caenorhabditis elegans. Annual Review of Physiology. 77: 161-78. PMID 25340962 DOI: 10.1146/Annurev-Physiol-021014-071704  0.321
2013 Noble T, Stieglitz J, Srinivasan S. An integrated serotonin and octopamine neuronal circuit directs the release of an endocrine signal to control C. elegans body fat. Cell Metabolism. 18: 672-84. PMID 24120942 DOI: 10.1016/J.Cmet.2013.09.007  0.316
2012 Cunningham KA, Hua Z, Srinivasan S, Liu J, Lee BH, Edwards RH, Ashrafi K. AMP-activated kinase links serotonergic signaling to glutamate release for regulation of feeding behavior in C. elegans. Cell Metabolism. 16: 113-21. PMID 22768843 DOI: 10.1016/J.Cmet.2012.05.014  0.333
2011 Lee BH, Liu J, Wong D, Srinivasan S, Ashrafi K. Hyperactive neuroendocrine secretion causes size, feeding, and metabolic defects of C. elegans Bardet-Biedl syndrome mutants. Plos Biology. 9: e1001219. PMID 22180729 DOI: 10.1371/Journal.Pbio.1001219  0.332
2008 Srinivasan S, Sadegh L, Elle IC, Christensen AG, Faergeman NJ, Ashrafi K. Serotonin regulates C. elegans fat and feeding through independent molecular mechanisms. Cell Metabolism. 7: 533-44. PMID 18522834 DOI: 10.1016/J.Cmet.2008.04.012  0.359
2007 Srinivasan S, Santiago P, Lubrano C, Vaisse C, Conklin BR. Engineering the melanocortin-4 receptor to control constitutive and ligand-mediated G(S) signaling in vivo. Plos One. 2: e668. PMID 17668051 DOI: 10.1371/Journal.Pone.0000668  0.341
2004 Srinivasan S, Lubrano-Berthelier C, Govaerts C, Picard F, Santiago P, Conklin BR, Vaisse C. Constitutive activity of the melanocortin-4 receptor is maintained by its N-terminal domain and plays a role in energy homeostasis in humans. The Journal of Clinical Investigation. 114: 1158-64. PMID 15489963 DOI: 10.1172/Jci21927  0.32
2003 Alexander S, Srinivasan S, Alexander H. Proteomics opens doors to the mechanisms of developmentally regulated secretion. Molecular & Cellular Proteomics : McP. 2: 1156-63. PMID 14504294 DOI: 10.1074/Mcp.R300011-Mcp200  0.581
2003 Srinivasan S, Vaisse C, Conklin BR. Engineering the melanocortin-4 receptor to control G(s) signaling in vivo. Annals of the New York Academy of Sciences. 994: 225-32. PMID 12851320 DOI: 10.1111/J.1749-6632.2003.Tb03184.X  0.308
2001 Srinivasan S, Traini M, Herbert B, Sexton D, Harry J, Alexander H, Williams KL, Alexander S. Proteomic analysis of a developmentally regulated secretory vesicle. Proteomics. 1: 1119-27. PMID 11990506 DOI: 10.1002/1615-9861(200109)1:9<1119::Aid-Prot1119>3.0.Co;2-X  0.586
2000 Srinivasan S, Griffiths KR, McGuire V, Champion A, Williams KL, Alexander S. The cellulose-binding activity of the PsB multiprotein complex is required for proper assembly of the spore coat and spore viability in Dictyostelium discoideum. Microbiology (Reading, England). 146: 1829-1839. PMID 10931888 DOI: 10.1099/00221287-146-8-1829  0.328
2000 Srinivasan S, Alexander H, Alexander S. Crossing the finish line of development: regulated secretion of Dictyostelium proteins. Trends in Cell Biology. 10: 215-9. PMID 10802536 DOI: 10.1016/S0962-8924(00)01758-X  0.571
2000 Srinivasan S, Alexander H, Alexander S. The Dictyostelium fruiting body – a structure of cells and cellulose Trends in Cell Biology. 10: 315. DOI: 10.1016/S0962-8924(00)01775-X  0.469
1999 Srinivasan S, Alexander H, Alexander S. The prespore vesicles of Dictyostelium discoideum. Purification, characterization, and developmental regulation. The Journal of Biological Chemistry. 274: 35823-31. PMID 10585466 DOI: 10.1074/Jbc.274.50.35823  0.578
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