APA
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TAU, H., R, L.-B., T, G., KA, W., N, B., D, R., … P, K. (2022). A fly GWAS for purine metabolites identifies human FAM214 homolog medusa, which acts in a conserved manner to enhance hyperuricemia-driven pathologies by modulating purine metabolism and the inflammatory response. GeroScience, 44(22), 2195–2211. https://doi.org/10.1007/s11357-022-00557-9
Chicago/Turabian
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TAU, Hilsabeck, Liu-Bryan R, Guo T, Wilson KA, Bose N, Raftery D, Beck JN, et al. “A Fly GWAS for Purine Metabolites Identifies Human FAM214 Homolog Medusa, Which Acts in a Conserved Manner to Enhance Hyperuricemia-Driven Pathologies by Modulating Purine Metabolism and the Inflammatory Response.” GeroScience 44, no. 22 (2022): 2195–2211.
MLA
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TAU, Hilsabeck, et al. “A Fly GWAS for Purine Metabolites Identifies Human FAM214 Homolog Medusa, Which Acts in a Conserved Manner to Enhance Hyperuricemia-Driven Pathologies by Modulating Purine Metabolism and the Inflammatory Response.” GeroScience, vol. 44, no. 22, 2022, pp. 2195–211, doi:10.1007/s11357-022-00557-9.
BibTeX Click to copy
@article{hilsabeck2022a,
title = {A fly GWAS for purine metabolites identifies human FAM214 homolog medusa, which acts in a conserved manner to enhance hyperuricemia-driven pathologies by modulating purine metabolism and the inflammatory response},
year = {2022},
issue = {22},
journal = {GeroScience},
pages = {2195-2211},
volume = {44},
doi = {10.1007/s11357-022-00557-9},
author = {TAU, Hilsabeck and R, Liu-Bryan and T, Guo and KA, Wilson and N, Bose and D, Raftery and JN, Beck and S, Lang and K, Jin and CS, Nelson and T, Oron and M, Stoller and DEL, Promislow and RB, Brem and R, Turkeltaub and P, Kapahi}
}