Metabolic & Therapeutic Aspects of Amino Acids in Clinical NutritionLuc A. Cynober CRC Press, 13.11.2003 - 776 Seiten The first edition of this innovative book brought a new perspective to the metabolic and therapeutic aspects of amino acids in clinical nutrition. Since its publication, a number of very important advances have been made in the field and interesting new findings have emerged. Until now, no reference has fully explored the promising new developments |
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... protein were reported to be important since the system becomes refractory after 2 h of constant elevation of amino ... degradation are each regulated by multiple hormonal as well as nutritional factors, and the protein balance of ...
... protein were reported to be important since the system becomes refractory after 2 h of constant elevation of amino ... degradation are each regulated by multiple hormonal as well as nutritional factors, and the protein balance of ...
Seite
... protein synthesis vs. those that affect protein degradation. It is suggested that proteolysis is more sensitive than synthesis to small changes in plasma insulin within its physiological range. Inasmuch as insulin and IGF-1 exert ...
... protein synthesis vs. those that affect protein degradation. It is suggested that proteolysis is more sensitive than synthesis to small changes in plasma insulin within its physiological range. Inasmuch as insulin and IGF-1 exert ...
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... protein and a decreased production of transferrin.23 Eicosapentaenoic acid ... Degradation of even a single essential amino acid causes a decrease in the ... protein S6 kinase, S6K1, and a concomitant decline in S6 phosporylation ...
... protein and a decreased production of transferrin.23 Eicosapentaenoic acid ... Degradation of even a single essential amino acid causes a decrease in the ... protein S6 kinase, S6K1, and a concomitant decline in S6 phosporylation ...
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... protein degradation and protein synthesis, but in opposite directions. A central player in the intracellular pathways discussed by these authors is mTOR. The mechanism by which amino acids activate mTOR remains unknown, although several ...
... protein degradation and protein synthesis, but in opposite directions. A central player in the intracellular pathways discussed by these authors is mTOR. The mechanism by which amino acids activate mTOR remains unknown, although several ...
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... protein is expressed, a large continuous flux of NO ensues that is limited ... degradation by an enzyme that is highly expressed in the liver. Nijveldt et ... Proteins, Oxford University Press, Oxford, 2001, 30, 304 pp. 2. Fruton, J.S. ...
... protein is expressed, a large continuous flux of NO ensues that is limited ... degradation by an enzyme that is highly expressed in the liver. Nijveldt et ... Proteins, Oxford University Press, Oxford, 2001, 30, 304 pp. 2. Fruton, J.S. ...
Andere Ausgaben - Alle anzeigen
Metabolic & Therapeutic Aspects of Amino Acids in Clinical Nutrition Luc A. Cynober Eingeschränkte Leseprobe - 2003 |
Metabolic & Therapeutic Aspects of Amino Acids in Clinical Nutrition, Second ... Luc A. Cynober Keine Leseprobe verfügbar - 2003 |
Häufige Begriffe und Wortgruppen
acidosis activity adults alanine amino acid metabolism amino acid requirements amino acid transport ammonia arginase arginine autophagy BCAA Biochem Biochem.J Biol branched-chain amino acids cancer catabolism cells cellular Chem citrulline Clin clinical concentration cycle Cynober cysteine decrease diabetes diet dietary effect elderly Enteral Nutr enzymes free amino acids function gene gluconeogenesis glucose glutamate glutathione healthy hepatic hepatocytes hormone human hyperammonemia immune increased induced infusion inhibition intake intracellular islets ketoglutarate kidney kinetics L-arginine leucine levels lymphocytes lysine macrophages mammalian mechanism Metab methionine mg·kg mitochondrial mRNA mTOR muscle protein synthesis nitric oxide synthase nitrogen balance ornithine pathway patients peptide perfused phenylalanine phosphorylation Physiol plasma production protein breakdown protein degradation protein kinase protein metabolism protein synthesis protein turnover proteolysis regulation renal response role signaling skeletal muscle small intestine splanchnic stimulation studies substrate supplementation synthesis rate tissue total parenteral nutrition tracer tumor tyrosine uptake urea vivo whole-body