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Handbook of neurochemistry and molecular neurobiology. Brain energetics, integration of molecular and cellular processes [electronic resource] /

Abel Lajtha (ed.) ; volume editors, Gary E. Gibson and Gerald A. Dienel.

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Names: Lajtha, Abel. | Gibson, Gary E. | Dienel, Gerald A.
Published: New York : Springer, c2007.
Edition: 3rd ed.
Topics: Brain - Metabolism. | Energy metabolism. | Brain - Pathopysiology. | Brain - metabolism. | Brain Chemistry - physiology. | Energy Metabolism - physiology. | Neurons - metabolism. | Synaptic Transmission.
Genres: Electronic books.
Online Access: SpringerLink
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245 00|aHandbook of neurochemistry and molecular neurobiology.|pBrain energetics, integration of molecular and cellular processes|h[electronic resource] /|cAbel Lajtha (ed.) ; volume editors, Gary E. Gibson and Gerald A. Dienel.
246 30|aBrain energetics, integration of molecular and cellular processes
250 |a3rd ed.
260 |aNew York :|bSpringer,|cc2007.
300 |axv, 924 p. :|bill. ;|c25 cm.
504 |aIncludes bibliographical references and index.
505 00|tBioenergetics /|rD. G. Nicholls --|tGlucose, Oxidative Energy Metabolism, and Neural Function in Brain Slices: Glycolysis Plays a Key Role in Neural Activity /|rY. Okada, P. Lipton --|tPentose Phosphate Pathway and NADPH Metabolism /|rR. Dringen, H. H. Hoepken, T. Minich, C. Ruedig --|tCerebral Tricarboxylic Acid Cycles /|rT. B. Rodrigues, S. Cerdán --|tElectron Transport. Structure, Redox-Coupled Protonmotive Activity, and Pathological Disorders of Respiratory Chain Complexes /|rS. Papa, V. Petruzzella, S. Scacco --|tMitochondrial F1Fo ATP Synthase /|rA. Gaballo, S. Papa --|tSupport of Energy Metabolism in the Central Nervous System with Substrates Other than Glucose /|rE. L. Roberts, Jr. --|tAnaplerosis /|rB. Hassel --|tGlial-Neuronal Shuttle Systems /|rC. Zwingmann, D. Leibfritz --|tCytoplasmic Glycolytic Enzymes. Synaptic Vesicle-Associated Glycolytic ATP-Generating Enzymes: Coupling to Neurotransmitter Accumulation /|rT. Ueda, A. Ikemoto --|tMitochondrial Architecture and Heterogeneity /|rG. A. Perkins, M. H. Ellisman --|tCoupling of Neuronal Function to Oxygen and Glucose Metabolism Through Changes in Neurotransmitter Dynamics as Revealed with Aging, Hypoglycemia, and Hypoxia /|rJ. A. Joseph, G. E. Gibson --|tCoupling of Brain Function and Metabolism: Endogenous Flavoprotein Fluorescence Imaging of Neural Activities by Local Changes in Energy Metabolism /|rK. Shibuki, R. Hishida, H. Kitaura, K. Takahashi, M. Tohmi --|tCoupling of Brain Function to Metabolism: Evaluation of Energy Requirements /|rA. Gjedde --|tEnergy Consumption by Phospholipid Metabolism in Mammalian Brain /|rA. D. Purdon, S. I. Rapoport --|tIon Transport and Energy Metabolism /|rO. Vergun, K. E. Dineley, I. J. Reynolds --|tAcid-Base Transport and pH Regulation /|rJ. W. Deitmer --|tNitric Oxide in Regulation of Mitochondrial Function, Respiration, and Glycolysis /|rJ. P. Bolaños, A. Almeida --|tMitochondrial Production of Oxidants and Their Role in the Regulation of Cellular Processes /|rP. S. Brookes --|tUncoupling Proteins /|rJ. S. Kim-Han, S. S. Ali, L. L. Dugan --|tActions of Toxins on Cerebral Metabolism at the Cellular Level /|rU. Sonnewald, T. Syversen, A. Schousboe, H. Waagepetersen, M. Aschner --|tMitochondrial/Cytosolic Interactions via Metabolite Shuttles and Transporters /|rK. F. LaNoue, V. Carson, D. A. Berkich, S. M. Hutson --|tMitochondrial-Endoplasmic Reticulum Interactions /|rG. Szabadkai, R. Rizzuto --|tMitochondria-Nucleus Energetic Communication: Role for Phosphotransfer Networks in Processing Cellular Information /|rP. P. Dzeja, A. Terzic --|tMitochondrial Permeability Transition in the CNS: Composition, Regulation, and Pathophysiological Relevance /|rT. Wieloch, G. Mattiasson, M. J. Hansson, E. Elmér /|tMitochondrial Mechanisms of Oxidative Stress and Apoptosis /|rL. Soane, N. Solenski, G. Fiskum --|tProteomics /|rM. H. Maurer . W. Kuschinsky --|tGenetics and Gene Expression of Glycolysis /|rJ. C. LaManna, P. Pichiule, J. C. Chavez --|tTranscriptional Integration of Mitochondrial Biogenesis /|rR. C. Scarpulla --|tMechanisms and Modeling of Energy Transfer Between Intracellular Compartments /|rV. A. Saks, M. Vendelin, M. K. Aliev, T. Kekelidze, J. Engelbrecht --|tModeling of Regulation of Glycolysis and Overall Energy Metabolism Under a Systems Biology Approach /|rM. Cascante, L. G. Boros, J. Boren --|tModeling of Electron Transport: Implications to Mitochondrial Diseases /|rJ-P. Mazat, M. Beurton-Aimar, B. Faustin, T. Letellier, M. Malgat, C. Nazaret, R. Rossignol --|tMetabolomics: Concepts and Potential Neuroscience Applications /|rB. S. Kristal, R. Kaddurah-Daouk, M. F. Beal, W. R. Matson.
533 |aElectronic reproduction.|bNew York :|cSpringer,|d2008.|nMode of access: World Wide Web.|nSystem requirements: Web browser.|nTitle from title screen (viewed on Oct. 10, 2008).|nAccess may be restricted to users at subscribing institutions.
650 0|aBrain|xMetabolism.
650 0|aEnergy metabolism.
650 0|aBrain|xPathopysiology.
650 12|aBrain|xmetabolism.
650 22|aBrain Chemistry|xphysiology.
650 22|aEnergy Metabolism|xphysiology.
650 22|aNeurons|xmetabolism.
650 22|aSynaptic Transmission.
655 0|aElectronic books.
700 1 |aLajtha, Abel.
700 1 |aGibson, Gary E.
700 1 |aDienel, Gerald A.
776 1 |cOriginal|z9780387303666|z0387303669|w(DLC) 2007274566|w(OCoLC)144571005
856 40|3SpringerLink|uhttp://ezproxy.uis.edu:2048/login?url=http://dx.doi.org/10.1007/978-0-387-30411-3
994 |a92|bILL

Staff View for: Handbook of neurochemistry and molecular