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Xingbo Yang

Department of Molecular and Cellular Biology and Department of Applied Physics

Harvard University

Northwest Lab Building
52 Oxford Street
Cambridge MA 02138

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Department of Molecular and Cellular Biology and Department of Applied Physics

Harvard University

Northwest Lab Building
52 Oxford Street
Cambridge MA 02138

Google Scholar

A coarse-grained NADH redox model enables inference of subcellular metabolic fluxes from fluorescence lifetime imaging

Journal article

Xingbo Yang, Gloria Ha, Daniel J Needleman
eLife, 10:e73808, 2021 Nov 22
DOI: 10.7554/eLife.73808
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Cite

Cite

APA
Yang, X., Ha, G., & Needleman, D. J. (2021). A coarse-grained NADH redox model enables inference of subcellular metabolic fluxes from fluorescence lifetime imaging. ELife, (10:e73808).

Chicago/Turabian
Yang, Xingbo, Gloria Ha, and Daniel J Needleman. “A Coarse-Grained NADH Redox Model Enables Inference of Subcellular Metabolic Fluxes from Fluorescence Lifetime Imaging.” eLife, no. 10:e73808 (November 22, 2021).

MLA
Yang, Xingbo, et al. “A Coarse-Grained NADH Redox Model Enables Inference of Subcellular Metabolic Fluxes from Fluorescence Lifetime Imaging.” ELife, no. 10:e73808, Nov. 2021.

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