bioRxiv
Transcriptomics informs design of a planar human enterocyte culture system that reveals metformin enhances fatty acid export
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Gomez-Martinez, I; Bliton, J; Breau, K; Czerwinski, M; Williamson, I; Wen, J; Rawls, J; Magness, S
2022
Duke Scholars
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Gomez-Martinez, I., Bliton, J., Breau, K., Czerwinski, M., Williamson, I., Wen, J., … Magness, S. (2022). Transcriptomics informs design of a planar human enterocyte culture system that reveals metformin enhances fatty acid export. bioRxiv. https://doi.org/10.1101/2022.01.24.477515
Gomez-Martinez, Ismael, Jarrett Bliton, Keith Breau, Michael Czerwinski, Ian Williamson, Jia Wen, John Rawls, and Scott Magness. “Transcriptomics informs design of a planar human enterocyte culture system that reveals metformin enhances fatty acid export.” BioRxiv, 2022. https://doi.org/10.1101/2022.01.24.477515.
Gomez-Martinez I, Bliton J, Breau K, Czerwinski M, Williamson I, Wen J, et al. Transcriptomics informs design of a planar human enterocyte culture system that reveals metformin enhances fatty acid export. bioRxiv. 2022.
Gomez-Martinez, Ismael, et al. “Transcriptomics informs design of a planar human enterocyte culture system that reveals metformin enhances fatty acid export.” BioRxiv, 2022. Epmc, doi:10.1101/2022.01.24.477515.
Gomez-Martinez I, Bliton J, Breau K, Czerwinski M, Williamson I, Wen J, Rawls J, Magness S. Transcriptomics informs design of a planar human enterocyte culture system that reveals metformin enhances fatty acid export. bioRxiv. 2022.