Carbohydrate metabolism and

It was known as early as 1927 that the adrenal glands of mammalian species secrete a series of substances essential to the survival of the individual. The hormonal nature of these secretions was suggested by the observation that extracts of the adrenal gland and more specifically of the outer portion of that organ (cortex) would ensure survival of animals whose adrenals had been excised. By 1943 no fewer than 28 steroids had been isolated from adrenal cortical extracts. These compounds were found to be involved in the regulation of such diverse and basic processes as electrolyte balance, carbohydrate metabolism, and resistance to trauma, to name only a few. 

Lactic acid, QH C, is a weak organic acid present in both sour milk and buttermilk. It is also a product of carbohydrate metabolism and is found in the blood after vigorous muscular activity. A buffer is prepared by dissolving lactic acid, HLac (ffa = 1.4 X 10-4), and sodium lactate, NaC3H503, NaLac. Calculate [H+] and the pH of the buffer if it is made of... 

Biopsy findings show disseminated muscle fiber atrophy which is confined to type 2 fibers, in many instances with type 2B (glycolytic) fibers most affected (Figure 23). Muscle necrosis is not seen, though at ultrastructural level focal myofibrillar disruption and myofilament loss may be evident. The muscle atrophy seems to be due to decreased protein synthesis, and at high doses, to increased catabolism. The reason for the selective effect on phasic, glycolytic fibers is not clear since, although steroids interfere with carbohydrate metabolism and oxidative capacity, there seems to be no overall effect on ATP levels. Nevertheless it has been... 

Greville GD Vol 1, p 297, in Carbohydrate Metabolism and Its Disorders. Dickens F, Randle PJ, Whelan WJ (editors). Academic Press, 1968. 

The phosphorylation and dephosphorylation of seryl, threonyl, and tyrosyl residues regulate the activity of certain enzymes of lipid and carbohydrate metabolism and the properties of proteins that participate in signal transduction cascades. 

Rice bran is the richest natural source of B-complex vitamins. Considerable amounts of thiamin (Bl), riboflavin (B2), niacin (B3), pantothenic acid (B5) and pyridoxin (B6) are available in rice bran (Table 17.1). Thiamin (Bl) is central to carbohydrate metabolism and kreb s cycle function. Niacin (B3) also plays a key role in carbohydrate metabolism for the synthesis of GTF (Glucose Tolerance Factor). As a pre-cursor to NAD (nicotinamide adenine dinucleotide-oxidized form), it is an important metabolite concerned with intracellular energy production. It prevents the depletion of NAD in the pancreatic beta cells. It also promotes healthy cholesterol levels not only by decreasing LDL-C but also by improving HDL-C. It is the safest nutritional approach to normalizing cholesterol levels. Pyridoxine (B6) helps to regulate blood glucose levels, prevents peripheral neuropathy in diabetics and improves the immune function. 

For disorders of carbohydrate metabolism and the primary lactic acidoses, see Chapter 34. 

The phosphorylated glucose (G-6-P) occupies a key position in carbohydrate metabolism and can be utilized by 4 main pathways (a) by glucose release following enzymatic dephosphorylation (b) by... 

We will now draw attention to the Krebs cycle otherwise called the tricarboxylic acid cycle (fig. 17). It is now known that carbohydrate metabolism and fatty acid metabolism as well as acetate proceed via changes indicated in the cycle. The essential... 

The availability of isotopes has made it possible to complete the descriptions of the steric course of most of the individual reactions of carbohydrate metabolism and steroid metabolism and many of the reactions of fat and amino acid metabolism. The subject has been covered from various angles in several chapters of the third edition of the Enzymes, particularly in the one by Popjack b, in a comprehensive treatise 2>3>, and in numerous recent reviews 4 12>. The wealth of available detail defies any attempt to be complete. I will try, rather, to describe trends in current experimentation, and to fit these trends into historical perspective. In so doing, I will select examples rather arbitrarily, entirely out of my own interests, and I beg the reader s indulgence for this bias. 

Zinc is a microelement essential for proper functioning of the human body. The level of daily demand for zinc was established as 13 to 16 mg (Ziemlahski, 2001). Zinc plays a role in protein and carbohydrate metabolism and is a component of over 60 metaloenzymes, including alkaline phosphatase, pancreatic carboxypeptidases A and B, alcoholic and lactic dehydrogenases, carbonate anhydrase, and proteases. It also forms bonds with nucleic acids -which is very important for their functioning (Prasad, 1983 Valee and Falchuk, 1993). 

There are data from animal studies in mice, rats, and pigs that indicate that both carbohydrate metabolism and lipid metabolism may be affected by exposure to heptachlor or heptachlor epoxide (Enan et al. 1982 Halacka et al. 1974 Kacew and Singhal 1973 Pelikan 1971). Alterations in gluconeogenic enzymes and an increase in cellular steatosis in the liver have been reported. Granulomas and fibrotic liver have also been observed. In addition, hepatocellular carcinoma was identified as causally related to heptachlor in the diet in a mouse study conducted by the National Cancer Institute (NCI 1977). The existing evidence suggests that heptachlor and heptachlor epoxide are hepatic toxicants. 

Kacew S, Singhal RL. 1973. The influence of p,p-DDT, a-chlordane, heptachlor, and endrin on hepatic and renal carbohydrate metabolism and cyclic AMP-adenyl cyclase system. Life Sci 13 1363-1371. 

Mechanism of Action Acts as a coenzyme for various metabolic functions, including fat and carbohydrate metabolism and protein synthesis. Therapeutic Effect Necessary for cell growth and replication, hematopoiesis, and myelin synthesis. Pharmacokinetics In the presence of calcium, absorbed systemically in lower half of ileum. Initially, bound to intrinsicfactor this complex passes down intestine, binding to receptor sites on ileal mucosa. Protein binding High, Metabolized in the liver. Primarily eliminated unchanged in urine. Half-life 6 days. 

Hofius, D., Bornke, F. A. J. (2007). Photosynthesis, carbohydrate metabolism and source-sink relations. In D. Vreugdenhil (Ed.), Potato Biology and Biotechnology Advances and Perspectives (pp. 257-285). Elsevier, Oxford. 

Review of the roles of GSK3 in carbohydrate metabolism and in other regulatory phenomena. 

To meet these changing circumstances, the liver has remarkable metabolic flexibility. For example, when the diet is rich in protein, hepatocytes supply themselves with high levels of enzymes for amino acid catabolism and gluconeogenesis. Within hours after a shift to a high-carbohydrate diet, the levels of these enzymes begin to drop and the hepatocytes increase their synthesis of enzymes essential to carbohydrate metabolism and fat synthesis. Liver enzymes turn over (are synthesized and degraded) at live to ten times the rate of enzyme turnover in other tissues, such as muscle. Extrahepatic... 

In die physiological system, niacin and related substances maintain nicotinamide adenine diiuicleotide (NAD) and nicotinamide adenine ciinucleotide phosphate (NADP). Niacin also acts as a hydrogen and electron transfer agent in carbohydrate metabolism and furnishes coenzymes for dehydrogenase systems. A niacin coenzyme participates in lipid catabolism, oxidative deamination, and photo synthesis,... 

Thiamin is proportionately linked with carbohydrate metabolism and the antioxidant vitamins A, C and E can aid the elimination of free radicals formed within muscle at an increased rate during strenuous activity (Davies et al., 1982). Vitamins can thus be of value during post-activity recovery. 

K+ is also involved in carbohydrate metabolism and the uptake of phosphates in microorganisms. 

Matthews, P.M., Foxall, D., Shen, L. and Mansour, T.E. (1 986) Nuclear magnetic resonance studies of carbohydrate metabolism and substrate cycling in Fasciola hepatica. Molecular Pharmacology 29, 65-73. 

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