[PDF] The Molecular Mechanisms Affecting N-Acetylaspartate Homeostasis Following Experimental Graded Traumatic Brain Injury | Semantic Scholar Skip to search formSkip to main content> Semantic Scholar's Logo Search Sign InCreate Free Account You are currently offline. Some features of the site may not work correctly. DOI:10.2119/molmed.2013.00153 Corpus ID: 20514748The Molecular Mechanisms Affecting N-Acetylaspartate Homeostasis Following Experimental Graded Traumatic Brain Injury @article{Pietro2014TheMM, title={The Molecular Mechanisms Affecting N-Acetylaspartate Homeostasis Following Experimental Graded Traumatic Brain Injury}, author={V. Di Pietro and A. M. Amorini and B. Tavazzi and R. Vagnozzi and A. Logan and G. Lazzarino and S. Signoretti and A. Belli}, journal={Molecular Medicine}, year={2014}, volume={20}, pages={147-157} } V. Di Pietro, A. M. Amorini, +6 authors A. Belli Published 2014 Biology, Medicine Molecular Medicine To characterize the molecular mechanisms of N-acetylaspartate (NAA) metabolism following traumatic brain injury (TBI), we measured the NAA, adenosine triphosphate (ATP) and adenosine diphosphate (ADP) concentrations and calculated the ATP/ADP ratio at different times from impact, concomitantly evaluating the gene and protein expressions controlling NAA homeostasis (the NAA synthesizing and degrading enzymes N-acetyltransferase 8-like and aspartoacylase, respectively) in rats receiving either… Expand View on Springer pure-oai.bham.ac.uk Save to Library Create Alert Cite Launch Research Feed Share This Paper 24 CitationsHighly Influential Citations 2 Background Citations 9 Methods Citations 1 Results Citations 4 View All Figures and Topics from this paper figure 1 figure 2 figure 3 figure 4 figure 5 figure 6 View All 6 Figures & Tables Traumatic Brain Injury N-acetylaspartate Adenosine Triphosphate Adenosine Diphosphate Brain Injuries Brain Concussion Acyltransferase T cell homeostasis drug development ASPA gene 24 Citations Citation Type Citation Type All Types Cites Results Cites Methods Cites Background Has PDF Publication Type Author More Filters More Filters Filters Sort by Relevance Sort by Most Influenced Papers Sort by Citation Count Sort by Recency Metabolic, enzymatic and gene involvement in cerebral glucose dysmetabolism after traumatic brain injury. A. M. Amorini, G. Lazzarino, +4 authors B. Tavazzi Biology, Medicine Biochimica et biophysica acta 2016 33 Save Alert Research Feed Extracellular N-Acetylaspartate in Human Traumatic Brain Injury J. ShannonRichard, van der HeideSusan, +4 authors L. H. CarpenterKeri Medicine 2016 13 Save Alert Research Feed Extracellular N-Acetylaspartate in Human Traumatic Brain Injury R. J. Shannon, Susan van der Heide, +4 authors K. Carpenter Medicine Journal of neurotrauma 2016 7 Highly Influenced PDF View 5 excerpts, cites results and background Save Alert Research Feed Neither Excessive Nitric Oxide Accumulation nor Acute Hyperglycemia Affects the N-Acetylaspartate Network in Wistar Rat Brain Cells M. Zyśk, P. Pikul, R. Kowalski, K. Lewandowski, M. Sakowicz-Burkiewicz, T. Pawełczyk Chemistry, Medicine International journal of molecular sciences 2020 PDF Save Alert Research Feed Transcriptional regulation of N-acetylaspartate metabolism in the 5xFAD model of Alzheimer's disease: Evidence for neuron–glia communication during energetic crisis Samantha Zaroff, P. Leone, V. Markov, J. Francis Biology, Medicine Molecular and Cellular Neuroscience 2015 8 Save Alert Research Feed Pyruvate Dehydrogenase and Tricarboxylic Acid Cycle Enzymes Are Sensitive Targets of Traumatic Brain Injury Induced Metabolic Derangement G. Lazzarino, A. M. Amorini, +7 authors A. Belli Chemistry, Medicine International journal of molecular sciences 2019 6 PDF View 6 excerpts, cites background, results and methods Save Alert Research Feed Disturbances of Cerebral Metabolism of Aspartate, Glutamate, and N-Acetylaspartate after Traumatic Brain Injury According to 1H Magnetic Resonance Spectroscopy P. E. Menshchikov, N. Semenova, +4 authors S. D. 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