Rakic, D. J. Begley, H. Davson, and B. V. Zlokovic (ed., Peptide and Amino Acid Transport Mechanisms in the Central Nervous System, Stockton Press, New York, 1988, pp. 67–78.

Rakic, D. Changes in regional blood-brain transfer ofL-leucine elicited by.

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the central nervous system (CNS). This chapter discusses the transport of amino acid across the blood-brain barrier (BBB). The peptide signals observed in the releasates have been mass-matched to those characterized and identified in homogenates of entire DRGs and associated nerves. This data aids our understanding of the chemical composition of the mammalian peripheral sensory-motor system, which is involved in key physiological functions such as nociception, thermoreception, itch sensation, and proprioception.

Lj Rakic, D. Dav. by Lj Rakic, D. Davson, B. Zlokovic. Published January 1989 by Stockton Pr. Peptide and Amino Acid Transport Mechanisms in the Central Nervous Sys. Are you sure you want to remove Peptide and Amino Acid Transport Mechanisms in the Central Nervous System from your list? Peptide and Amino Acid Transport Mechanisms in the Central Nervous System.

Central nervous system fatigue, or central fatigue, is a form of fatigue that is associated with changes in the synaptic concentration of neurotransmitters within the central nervous system.

Central nervous system fatigue, or central fatigue, is a form of fatigue that is associated with changes in the synaptic concentration of neurotransmitters within the central nervous system (CNS; including the brain and spinal cord) which affects exercise performance and muscle function and cannot be explained by peripheral factors that affect muscle function.

EAN/UPC/ISBN Code 9780333456002. Brand Palgrave Macmillan. DE. Author: L. Rakic. . avson and Zlokovic. Vegetable Crop Pests EAN 9780333455999. Art and Desire EAN 9780333455982. Managers and Their Jobs EAN 9780333455920. New Dimensions: Test Material Cassette L2 EAN 9780333456057. IVY COMPTON-BURNETT (Women Writers).

The rates of protein synthesis and degradation and of amino acid transport were determined in the leg muscle of untrained postabsorptive normal volunteers at rest and approximately 3 h after a resistance exercise routine

The rates of protein synthesis and degradation and of amino acid transport were determined in the leg muscle of untrained postabsorptive normal volunteers at rest and approximately 3 h after a resistance exercise routine. The methodology involved use of stable isotopic tracers of amino acids, arteriovenous catheterization of the femoral vessels, and biopsy of the vastus lateralis muscle

Amino acids are important components for peptides and proteins and act . Marked levels of D-serine were found in the central nervous system (CNS) of rodents and humans.

Amino acids are important components for peptides and proteins and act as signal transmitters. Only L-amino acids have been considered necessary in mammals, including humans. Aberrant receptor activity is related to diseases of the central nervous system (CNS), such as Alzheimer’s disease, amyotrophic lateral sclerosis, and schizophrenia. Furthermore, D-amino acids are detected in parts of the endocrine system, such as the pineal gland, hypothalamus, pituitary gland, pancreas, adrenal gland, and testis.

Peptide transport across the blood-brain barrier. CNS-delivery via conjugation to biological carriers: physiological-based approaches. Intracranial delivery of proteins and peptides as a therapy for neurodegenerative diseases. Altering the properties of the blood-brain barrier: disruption and permeabilization. Modifying peptide properties by prodrug design for enhanced transport into the CNS. Peptide vectors as drug carriers.

Mechanism of amino acid transport in the proximal tubule. The C-terminal domain is partly folded and occludes the central substrate-binding site from the cytoplasm. See text for details. Several amino acid transport systems have been recognized in mammalian RBCs, each with its own characteristic species distribution, ion requirements, and substrate specificity (Fincham et a. 1987; Young, 1983). In addition, the band 3 anion transporter can transport glycine and some other amino acids (Fincham et a. 1987).