Articoli con mandati relativi all'accesso pubblico - Stanisław DejaUlteriori informazioni
Non disponibile pubblicamente: 1
Ins and Outs of the TCA Cycle: The Central Role of Anaplerosis
M Inigo, S Deja, SC Burgess
Annual review of nutrition 41, 19-47, 2021
Mandati: US National Institutes of Health
Disponibili pubblicamente: 15
Acetyl CoA Carboxylase Inhibition Reduces Hepatic Steatosis but Elevates Plasma Triglycerides in Mice and Humans: A Bedside to Bench Investigation
CW Kim, C Addy, J Kusunoki, NN Anderson, S Deja, X Fu, SC Burgess, ...
Cell metabolism 26 (2), 394-406. e6, 2017
Mandati: US National Institutes of Health, Leducq Foundation, USA
Pyruvate-carboxylase-mediated anaplerosis promotes antioxidant capacity by sustaining TCA cycle and redox metabolism in liver
DA Cappel, S Deja, JAG Duarte, B Kucejova, M Iñigo, JA Fletcher, X Fu, ...
Cell metabolism 29 (6), 1291-1305. e8, 2019
Mandati: US National Institutes of Health
Impaired ketogenesis and increased acetyl-CoA oxidation promote hyperglycemia in human fatty liver
JA Fletcher, S Deja, S Satapati, X Fu, SC Burgess, JD Browning
JCI insight 4 (11), 2019
Mandati: US National Institutes of Health
The NQO1 bioactivatable drug, β-lapachone, alters the redox state of NQO1+ pancreatic cancer cells, causing perturbation in central carbon metabolism
MA Silvers, S Deja, N Singh, RA Egnatchik, J Sudderth, X Luo, MS Beg, ...
Journal of Biological Chemistry 292 (44), 18203-18216, 2017
Mandati: US National Institutes of Health
Targeted Determination of Tissue Energy Status by LC-MS/MS
X Fu, S Deja, B Kucejova, JAG Duarte, JG McDonald, SC Burgess
Analytical chemistry 91 (9), 5881-5887, 2019
Mandati: US National Institutes of Health
INCA 2.0: A tool for integrated, dynamic modeling of NMR-and MS-based isotopomer measurements and rigorous metabolic flux analysis
M Rahim, M Ragavan, S Deja, ME Merritt, SC Burgess, JD Young
Metabolic Engineering, 2021
Mandati: US National Institutes of Health
Simultaneous tracers and a unified model of positional and mass isotopomers for quantification of metabolic flux in liver
S Deja, X Fu, JA Fletcher, B Kucejova, JD Browning, JD Young, ...
Metabolic Engineering 59, 1-14, 2020
Mandati: US National Institutes of Health
Measurement of lipogenic flux by deuterium resolved mass spectrometry
X Fu, S Deja, JA Fletcher, NN Anderson, M Mizerska, G Vale, ...
Nature Communications 12 (1), 1-8, 2021
Mandati: US National Institutes of Health
Cytosolic phosphoenolpyruvate carboxykinase as a cataplerotic pathway in the small intestine
A Potts, A Uchida, S Deja, ED Berglund, B Kucejova, JA Duarte, X Fu, ...
American Journal of Physiology-Gastrointestinal and Liver Physiology 315 (2 …, 2018
Mandati: US National Institutes of Health
Endogenous renal adiponectin drives gluconeogenesis through enhancing pyruvate and fatty acid utilization
T Onodera, MY Wang, JM Rutkowski, S Deja, S Chen, MS Balzer, DS Kim, ...
Nature Communications 14 (1), 1-20, 2023
Mandati: US National Institutes of Health
In Vivo Estimation of Ketogenesis Using Metabolic Flux Analysis—Technical Aspects and Model Interpretation
S Deja, B Kucejova, X Fu, JD Browning, JD Young, S Burgess
Metabolites 11 (5), 279, 2021
Mandati: US National Science Foundation, US National Institutes of Health
Persistent fasting lipogenesis links impaired ketogenesis with citrate synthesis in humans with non-alcoholic fatty liver
X Fu, JA Fletcher, S Deja, M Inigo-Vollmer, SC Burgess, JD Browning
The Journal of Clinical Investigation, 2023
Mandati: US National Institutes of Health
Krebs takes a turn at cell differentiation
S Deja, PA Crawford, SC Burgess
Cell Metabolism 34 (5), 658-660, 2022
Mandati: US National Institutes of Health
Effects of hepatic mitochondrial pyruvate carrier deficiency on de novo lipogenesis and gluconeogenesis in mice
NKH Yiew, S Deja, D Ferguson, K Cho, C Jarasvaraparn, M Jacome-Sosa, ...
iScience, 2023
Mandati: US National Institutes of Health
NQO1 Bioactivatable Drugs Enhance Radiation Responses
EA Bey, JC Meade, MA Silvers, EA Motea, PL Patidar, R Brekken, S Deja, ...
Strategies to Enhance the Therapeutic Ratio of Radiation as a Cancer …, 2016
Mandati: US National Institutes of Health
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