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Gary Yellen

Affiliations: 
Neurobiology Harvard Medical School, Boston, MA, United States 
Area:
Ion Channel Biophysics, Metabolism and Excitability
Website:
http://www.fas.harvard.edu/~biophys/Gary_Yellen.htm
Google:
"Gary Yellen"
Bio:

http://yellen.hms.harvard.edu/
http://dms.hms.harvard.edu/neuroscience/fac/yellen.php

Mean distance: 13.02 (cluster 46)
 
SNBCP
Cross-listing: Chemistry Tree

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Publications

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Díaz-García CM, Lahmann C, Martínez-François JR, et al. (2019) Quantitative in vivo imaging of neuronal glucose concentrations with a genetically encoded fluorescence lifetime sensor. Journal of Neuroscience Research
Díaz-García CM, Yellen G. (2018) Neurons rely on glucose rather than astrocytic lactate during stimulation. Journal of Neuroscience Research
Martínez-François JR, Fernández-Agüera MC, Nathwani N, et al. (2018) BAD and KATP channels regulate neuron excitability and epileptiform activity. Elife. 7
Hung YP, Teragawa C, Kosaisawe N, et al. (2017) Akt regulation of glycolysis mediates bioenergetic stability in epithelial cells. Elife. 6
Foley J, Burnham V, Tedoldi M, et al. (2017) BAD knockout provides metabolic seizure resistance in a genetic model of epilepsy with sudden unexplained death in epilepsy. Epilepsia
Masia R, McCarty WJ, Lahmann C, et al. (2017) Live cell imaging of cytosolic NADH/NAD(+) ratio in hepatocytes and liver slices. American Journal of Physiology. Gastrointestinal and Liver Physiology. ajpgi.00093.2017
Díaz-García CM, Mongeon R, Lahmann C, et al. (2017) Neuronal Stimulation Triggers Neuronal Glycolysis and Not Lactate Uptake. Cell Metabolism. 26: 361-374.e4
Lutas A, Lahmann C, Soumillon M, et al. (2016) The leak channel NALCN controls tonic firing and glycolytic sensitivity of substantia nigra pars reticulata neurons. Elife. 5
Chen Y, Saulnier JL, Yellen G, et al. (2016) Corrigendum: A PKA activity sensor for quantitative analysis of endogenous GPCR signaling via 2-photon FRET-FLIM imaging. Frontiers in Pharmacology. 7: 46
Mongeon R, Venkatachalam V, Yellen G. (2016) Cytosolic NADH-NAD+ redox visualized in brain slices by two-photon fluorescence lifetime biosensor imaging. Antioxidants & Redox Signaling
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