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Vitamin active form

An example of a biologically important aide hyde is pyridoxal phosphate which is the active form of vitamin Bg and a coenzyme for many of the reac tions of a ammo acids In these reactions the ammo acid binds to the coenzyme by reacting with it to form an imine of the kind shown in the equation Re actions then take place at the ammo acid portion of the imine modifying the ammo acid In the last step enzyme catalyzed hydrolysis cleaves the imme to pyridoxal and the modified ammo acid... [Pg.728]

Infants maybe sensitive to doses of vitamin A [11103-57-4] in the range of 75,000—200,000 lU (22.5—60 mg), although the toxic dose in adults is probably 2—5 million lU (90.6—1.5 g). Intakes in this range from normal food suppHes without oral supplements are simply beyond imagination (79). Vitamin D [1406-16-2] toxicity is much more difficult to substantiate clinically. Humans can synthesize active forms of the vitamin in the skin upon irradiation of 7-dehydrocholesterol. Toxic symptoms are relatively nonspecific, and dangerous doses seem to He in the range of 1000—3000 lU/kg body wt (25—75 flg/kg body wt) (80). Cases of toxicity of both vitamins E and K have been reported, but under ordinary circumstances these vitamins are considered relatively innocuous (81). [Pg.479]

Clinical stresses which interfere with vitamin metabohsm, can result in calcium deficiency leading to osteomalacia and osteoporosis (secondary vitamin D deficiency). These stresses include intestinal malabsorption (lack of bile salts) stomach bypass surgery obstmctive jaundice alcoholism Hver or kidney failure decreasing hydroxylation of vitamin to active forms inborn error of metabohsm and use of anticonverdiants that may lead to increased requirement. [Pg.137]

The biological activity of various vitamin E forms was estabUshed by the fetal resorption assay ia tats and is assumed to be appHcable to humans. The results of some human studies may iadicate that the ratio of 1.36 underestimates the biological activity of the RRR form relative to the all-rac form of a-tocopheryl acetate (10—12). [Pg.144]

The total market for vitamin is relatively small and the principal producer of vitamin is Hoffmaim-La Roche. Nisshin Flour Milling Company is the predorninant manufacturer for the optically active form of vitamin K. Total world market for vitamin is 1500 t with Vanetta Company as the dorninant... [Pg.155]

Factor IX. This factor is dependent on the presence of vitamin K for its activity as a biologicaUy functional procoagulant glycoprotein. Factor IX is converted to its active form by XIa in the classic scheme of the intrinsic pathway. However, it can also be activated via interaction with Factor Xa or the complex Factor III plus Factor VII in the presence of calcium. [Pg.174]

Protein G. This vitamin K-dependent glycoproteia serine protease zymogen is produced ia the Hver. It is an anticoagulant with species specificity (19—21). Proteia C is activated to Proteia by thrombomodulin, a proteia that resides on the surface of endothefial cells, plus thrombin ia the presence of calcium. In its active form, Proteia selectively iaactivates, by proteolytic degradation. Factors V, Va, VIII, and Villa. In this reaction the efficiency of Proteia is enhanced by complex formation with free Proteia S. la additioa, Proteia activates tissue plasminogen activator, which... [Pg.175]

FIGURE 18.17 Thiamine pyrophosphate (TPP), the active form of vitamin is formed by the action of TPP-synthetase. [Pg.587]

The biologically active form of vitamin Bg is pyridoxal-5-phosphate (PEP), a coenzyme that exists under physiological conditions in two tautomeric forms (Figure 18.25). PLP participates in the catalysis of a wide variety of reactions involving amino acids, including transaminations, a- and /3-decarboxylations, /3- and ") eliminations, racemizations, and aldol reactions (Figure 18.26). Note that these reactions include cleavage of any of the bonds to the amino acid alpha carbon, as well as several bonds in the side chain. The remarkably versatile chemistry of PLP is due to its ability to... [Pg.594]

FIGURE 18.37 (a) Vitamin D3 (cholecalciferol) is produced in the skin by the action of sunlight on 7-dehydrocholesterol. The successive action of mixed-function oxidases in the liver and kidney produces 1,25-dihydroxyvitamin D3, the active form of vitamin D. [Pg.605]

The structure of vitamin E in its most active form, o-tocopherol, is shown in Figure 18.38. a-Tocopherol is a potent antioxidant, and its function in animals and humans is often ascribed to this property. On the other hand, the molecular details of its function are almost entirely unknown. One possible role for... [Pg.606]

Another approach to safer stabilization is to use a biological antioxidant such as vitamin E (a-tocopherol is the active form of vitamin E, AO-9, Table la). It is essentially a hindered phenol which acts as an effective chain breaking donor antioxidant, donating a hydrogen to ROO to yield a very stable tocopheroxyl radical, a-Tocopherol is a very effective melt stabilizer in polyolefins that offers high protection to the polymer at very low concentration [41], (Table 2). [Pg.117]

Summary term for a number of steroid hormones and their precursors with differentiation-inducing activity in many tissues. As regards bone, three components are relevant cholecalciferol ( vitamin D ) 25-hydroxyvi-taminD3 (calcidiol) and 1,25-dihydroxy vitamin D3 (calcitriol). The latter is the biologically active form and increases both intestinal calcium absoiption and bone resorption. Vitamin D preparations are widely used for the treatment of osteoporosis. Daily supplementation with vitamin D reduces bone loss in postmenopausal women and hip fractures in elderly subjects. [Pg.1294]

In bone, three proteins have been described which are vitamin K-dependent, osteocalcin (bone Gla protein), matrix Gla protein (MGP), and protein S. Osteocalcin is synthetized by osteoclasts, regulated by the active form of vitamin D, calcitriol. Its capacity to bind calcium needs a vitamin K-dependent y-carboxylation of three glutamic acid residues. The calcium binding capacity of osteocalcin indicates a possible role in bone mineralization, but its exact function is still unclear. However, it is widely used as a serum marker for bone mineralization. Protein S, mainly a coagulant, is also vitamin-K dependent and synthesized in the liver. Children with... [Pg.1299]

Muscle phosphorylase is distinct from that of Hver. It is a dimer, each monomer containing 1 mol of pyridoxal phosphate (vitamin Bg). It is present in two forms phos-phoiylase a, which is phosphorylated and active in either the presence or absence of 5 -AMP (its allosteric modifier) and phosphorylase h, which is dephosphorylated and active only in the presence of 5 -AMP. This occurs during exercise when the level of 5 -AMP rises, providing, by this mechanism, fuel for the muscle. Phosphorylase a is the normal physiologically active form of the enzyme. [Pg.147]

Myo-inositol is one of the most biologically active forms of inositol. It exists in several isomeric forms, the most common being the constituent of phospholipids in biological cell membranes. It also occurs as free inositol and as inositol hexaphosphate (IP6) also known as phytate which is a major source from food. Rice bran is one of the richest sources of IP6 as well as free inositol. Inositol is considered to belong to the B-complex vitamins. It is released in the gastrointestinal tract of humans and animals by the dephosphorylation of IP6 (phytate) by the intestinal enzyme phytase. Phytase also releases intermediate products as inositol triphosphate and inositol pentaphosphate. Inositol triphosphate in cellular membrane functions as an important intra- and intercellular messenger, that merits its value as a nutritional therapy for cancer. [Pg.360]

Flavins — Riboflavin is first of all essential as a vitamin for humans and animals. FAD and FMN are coenzymes for more than 150 enzymes. Most of them catalyze redox processes involving transfers of one or two electrons. In addition to these well known and documented functions, FAD is a co-factor of photolyases, enzymes that repair UV-induced lesions of DNA, acting as photoreactivating enzymes that use the blue light as an energy source to initiate the reaction. The active form of FAD in photolyases is their two-electron reduced form, and it is essential for binding to DNA and for catalysis. Photolyases contain a second co-factor, either 8-hydroxy-7,8-didemethyl-5-deazariboflavin or methenyltetrahydrofolate. ... [Pg.113]

Around 99% of calcium is contained in the bones, whereas the other 1% resides in the extracellular fluid. Of this extracellular calcium, approximately 40% is bound to albumin, and the remainder is in the ionized, physiologically active form. Normal calcium levels are maintained by three primary factors parathyroid hormone, 1,25-dihydroxyvitamin D, and calcitonin. Parathyroid hormone increases renal tubular calcium resorption and promotes bone resorption. The active form of vitamin D, 1,25-dihydroxyvitamin D, regulates absorption of calcium from the GI tract. Calcitonin serves as an inhibitory factor by suppressing osteoclast activity and stimulating calcium deposition into the bones. [Pg.1482]

It soon became apparent that the biologically active forms of Vitamin Bj.2 contained the unique Co—C-a-bond, and the instability of these covalent compounds to visible light facilitated observations on the occurrence of functional corrinoids in a number of enzymes. Deoxyadenosyl-cobalamin was found to be the most abundant corrinoid in bacteria (24) and in mammalian liver (25). Methylcobalamin was found in Escherichia coli (26), calf liver and human blood plasma (27), and also in a number of Clostridia (28). [Pg.55]

Following the elucidation of the structure of the biologically active forms of Vitamin B12 in 1961, a number of enzymes have been well characterized which require B 12-coenzymes. A survey of the properties of these enzymes in terms of molecular weight, subunits and other co-factor requirements has already been published in excellent reviews by Hogenkamp (29) and Stadtman (30). [Pg.55]

Lead has been shown to decrease circulating levels of the active form of vitamin D (1,25-dihydroxy-vitamin D) in children. The conversion of vitamin D to this active hormonal form takes place via hydroxylation to 25-hydroxyvitamin D in the liver, followed by 1-hydroxylation in the mitochondria of the renal tubule by a complex cytochrome P-450 (heme-containing) system (Mahaffey et al. 1982 Rosen and Chesney 1983). Comparisons of the serum 1,25-dihydroxyvitamin D levels in children with blood lead levels of 33 g/dL with those in children with severe renal insufficiency (Rosen et al. 1980) and in children with an inborn error of vitamin D metabolism in which the 1-hydroxylase system or component... [Pg.267]

Although the kidneys are not considered endocrine glands per se, they are involved in hormone production. Erythropoietin is a peptide hormone that stimulates red blood cell production in bone marrow. Its primary source is the kidneys. Erythropoietin is secreted in response to renal hypoxia. Chronic renal disease may impair the secretion of erythropoietin, leading to development of anemia. The kidneys also produce enzymes. The enzyme renin is part of the renin-angiotensin-aldosterone system. As will be discussed, these substances play an important role in the regulation of plasma volume and therefore blood pressure. Other renal enzymes are needed for the conversion of vitamin D into its active form, 1,25-d i hyd ro xyv itamin D3, which is involved with calcium balance. [Pg.309]

The answers are 402-g, 403-a. (Hardman, pp 1529-1532, 1582-15853 Calcitriol (1,2.5-dihydroxyvitamin D) is the most active form of vitamin D. It is formed by the kidney. When the Ca blood level rises, the kidney produces 24,25-dihydroxyvitamin D, a much less active form. Vitamin D can be manufactured in the body by the action of sunlight on the skin. Its main action is to increase Ca absorption in the gut Thus, vitamin D subserves important hormonal functions in Ca homeostasis. [Pg.235]

L The answer is e. (Kalzang, pp 744, 748J Vitamin is hydroxylated to 2.5-0ITDj (calcifediol). Calcifediol is then hydroxylated in the kidney to the most active form of vitamin D, which is 1,25-dihydroxyvitamin D (cal-citriol). Calcitriol has a rapid onset of action and a short half-life. The administration of calcitriol causes the elevation of serum Ca levels by enhancing the intestinal absorption of Ca. Calcitriol is indicated in vitamin D deficiency,... [Pg.257]

Methionine synthase deficiency (cobalamin-E disease) produces homocystinuria without methylmalonic aciduria 677 Cobalamin-c disease remethylation of homocysteine to methionine also requires an activated form of vitamin B12 677 Hereditary folate malabsorption presents with megaloblastic anemia, seizures and neurological deterioration 678... [Pg.667]

The enzyme mediating remethylation, 5-methyltetrahy-drofolate-betaine methyltransferase (Fig. 40-4 reaction 4), utilizes methylcobalamin as a cofactor. The kinetics of the reaction favor remethylation. Faulty remethylation can occur secondary to (1) dietary factors, e.g. vitamin B12 deficiency (2) a congenital absence of the apoenzyme (3) a congenital inability to convert folate or B12 to the methylated, metabolically active form (see below) or (4) the presence of a metabolic inhibitor, e.g. an antifolate agent that is used in an antineoplastic regimen. [Pg.675]


See other pages where Vitamin active form is mentioned: [Pg.367]    [Pg.780]    [Pg.162]    [Pg.367]    [Pg.780]    [Pg.162]    [Pg.414]    [Pg.415]    [Pg.5]    [Pg.36]    [Pg.66]    [Pg.103]    [Pg.144]    [Pg.156]    [Pg.380]    [Pg.606]    [Pg.606]    [Pg.606]    [Pg.1197]    [Pg.282]    [Pg.19]    [Pg.59]    [Pg.407]    [Pg.391]    [Pg.11]    [Pg.127]    [Pg.289]   
See also in sourсe #XX -- [ Pg.485 ]




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Vitamin activity

Vitamin forms

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