| 505 |
0 |
|
|a BIOENERGETICS – D. G. Nicholls -- GLUCOSE, OXIDATIVE ENERGY METABOLISM, AND NEURAL FUNCTION IN BRAIN SLICES - GLYCOLYSIS PLAYS A KEY ROLE IN NEURAL ACTIVITY – Y. Okada, P. Lipton -- PENTOSE PHOSPHATE PATHWAY AND NADPH METABOLISM – R. Dringen, H. H. Hoepken, T. Minich, and C. Ruedig -- THE CEREBRAL TRICARBOXYLIC ACID CYCLES – T. B. Rodrigues and S. Cerdán -- ELECTRON TRANSPORT: STRUCTURE, REDOX-COUPLED PROTONMOTIVE ACTIVITY, AND PATHOLOGICAL DISORDERS OF RESPIRATORY CHAIN COMPLEXES – S. Papa, V. Petruzzella, and S. Scacco -- THE MITOCHONDRIAL F1F0 ATP SYNTHASE – A. Gaballo and S. Papa -- THE SUPPORT OF ENERGY METABOLISM IN THE CENTRAL NERVOUS SYSTEM WITH SUBSTRATES OTHER THAN GLUCOSE – E. L. Roberts, Jr -- ANAPLEROSIS – B. Hassel -- GLIAL-NEURONAL SHUTTLE SYSTEMS – C. Zwingmann and D. Leibfritz -- CYTOPLASMIC GLYCOLYTIC ENZYMES. SYNAPTIC VESICLE-ASSOCIATED GLYCOLYTIC ATP-GENERATING ENZYMES: COUPLING TO NEUROTRANSMITTER ACCUMULATION – T. Ueda and A. Ikemoto -- MITOCHONDRIAL ARCHITECTURE AND HETEROGENEITY – G. A. Perkins and M. H. Ellisman -- COUPLING OF NEURONAL FUNCTION TO OXYGEN AND GLYCOSE METABOLISM THROUGH CHANGES IN NEUROTRANSMITTER DYNAMICS AS REVEALED WITH AGING, HYPOGLYCEMIA AND HYPOXIA – J. A. Joseph and G. E. Gibson -- COUPLING OF BRAIN FUNCTION AND METABOLISM: ENDOGENOUS FLAVOPROTEIN FLUORESCENCE IMAGING OF NEURAL ACTIVITIES BY LOCAL CHANGES IN ENERGY METABOLISM – K. Shibuki, R. Hishida, H. Kitaura, K, Takahashi, and M. Tohmi -- COUPLING OF BRAIN FUNCTION TO METABOLISM: EVALUATION OF ENERGY REQUIREMENTS – A. Gjedde -- ENERGY CONSUMPTION BY PHOSPHOLIPID METABOLISM IN MAMMALIAN BRAIN – A. D. Purdon and S. I. Rapoport -- ION TRANSPORT AND ENERGY METABOLISM – O. Vergun, K. E. Dineley, and I. J. Reynolds -- ACID-BASE TRANSPORT AND pH REGULATION – J. W. Deitmer -- NITRIC OXIDE IN REGULATION OF MITOCHONDRIAL FUNCTION, RESPIRATION, AND GLYCOLYSIS – J. P. Bolaños and A. Almeida -- MITOCHONDRIAL PRODUCTION OF OXIDANTS AND THEIR ROLE IN THE REGULATION OF CELLULAR PROCESSES – P. S. Brookes -- UNCOUPLING PROTEINS – J. S. Kim-Han, S. S. Ali, and L. L. Dugan -- ACTIONS OF TOXINS ON CEREBRAL METABOLISM AT THE CELLULAR LEVEL – U. Sonnewald, T. Syversen, A. Schousboe, H. Waagepetersen, and M. Aschner -- MITOCHONDRIAL/CYTOSOLIC INTERACTIONS VIA METABOLITE SHUTTLES AND TRANSPORTERS – K. F. LaNoue, V. Carson, D.A. Berkich, and S. M. Hutson -- MITOCHONDRIAL-ENDOPLASMIC RETICULUM INTERACTIONS – G. Szabadkai and R. Rizzuto -- MITOCHONRIA-NUCLEUS ENERGETIC COMMUNICATION: ROLE FOR PHOSPHOTRANSFER NETWORKS IN PROCESSING CELLULAR INFORMATION – P. P. Dzeja and A. Terzic -- MITOCHONDRIAL PERMEABILITY TRANSITION IN THE CNS - COMPOSITION, REGULATION, AND PATHOPHYSIOLOGICAL RELEVANCE– T. Wieloch, G. Mattiasson, M. J. Hansson, and E. Elmér -- MITOCHONDRIAL MECHANISMS OF OXIDATIVE STRESS AND APOPTOSIS – L. Soane, N. Solenski, G. Fiskum -- PROTEOMICS – M. H. Maurer and W. Kuschinsky -- GENETICS AND GENE EXPRESSION OF GLYCOLYSIS – J. C. LaManna, P. Pichiule, and J. C. Chavez -- TRANSCRIPTIONAL INTEGRATION OF MITOCHONDRIAL BIOGENESIS – R. C. Scarpulla -- MECHANISMS AND MODELING OF ENERGY TRANSFER BETWEEN INTRACELLULAR COMPARTMENTS – V. A. Saks, M. Vendelin, M. K. Aliev, T. Kekelidze, and J. Engelbrecht -- MODELING OF REGULATION OF GLYCOLYSIS AND OVERALL ENERGY METABOLISM UNDER A SYSTEMS BIOLOGY APPROACH – M. Cascante, L. G. Boros, and J. Boren -- MODELING OF ELECTRON TRANSPORT: IMPLICATIONS TO MITOCHONDRIAL DISEASES – J-P. Mazat, M. Beurton-Aimar, B. Faustin, T. Letellier, M. Malgat, C. Nazaret, and R. Rossignol -- METABOLOMICS: CONCEPTS AND POTENTIAL NEUROSCIENCE APPLICATIONS – B. S. Kristal, R. Kaddurah-Daouk, M. F. Beal, and W. R. Matson.
|
