Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: Y22D7AL .14
53,079 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The stability of tryptophan was evaluated in several different food model systems using a chemical method (high pressure liquid chromatography after alkaline-hydrolysis) and rat assays. Losses of tryptophan were compared with the losses of lysine and methionine. Whey proteins stored in the presence of oxidizing lipids showed large losses of lysine and extensive methionine oxidation but only minor losses of tryptophan as measured chemically. The observed decrease in bioavailable tryptophan was explained by a lower protein digestibility. Casein treated with hydrogen peroxide to oxidize all methionine to methionine sulphoxide showed a 9% loss in bioavailable tryptophan. When casein was reacted with caffeic acid at pH 7 in the presence of monophenol monooxygenase (tyrosinase; EC 1.14.18.1), no chemical loss of tryptophan occurred, although fluorodinitrobenzene-reactive lysine fell by 23%. Tryptophan bioavailability fell 15%, partly due to an 8% reduction in protein digestibility. Alkali-treated casein (0.15 M-sodium hydroxide, 80 degrees, 4 h) did not support rat growth. Chemically-determined tryptophan, available tryptophan and true nitrogen digestibility fell 10, 46 and 23% respectively. Racemization of tryptophan was found to be 10% (D/(D+L)). In whole-milk powder, which had undergone "early' or "advanced' Maillard reactions, tryptophan, determined chemically or in rat assays, was virtually unchanged. Extensive lysine losses occurred. It was concluded that losses of tryptophan during food processing and storage are small and of only minor nutritional importance, especially when compared with much larger losses of lysine and the more extensive oxidation of methionine.
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PMID:Stability of tryptophan during food processing and storage. 1. Comparative losses of tryptophan, lysine and methionine in different model systems. 393 49

1. The effect of intramuscular injection of 8-arginine vasotocin, 8-arginine vasopressin, 8-lysine vasopressin, oxytocin, 8-ornithine oxytocin and 8-ornithine vasopressin on fluid uptake across the skin was studied in the live toad, Bufo melanostictus, bathed either in distilled water or in NaCl solution (0.1 g/100 ml.).2. When the bathing solution was distilled water, 8-arginine vasotocin was the most potent, 0.14 nmole/kg augmenting the rate of fluid uptake by 50%. Compared with it the others had relative potencies of: 8-arginine vasopressin 0.8, 8-lysine vasopressin 0.8 x 10(-3), oxytocin 0.8 x 10(-3), 8-ornithine oxytocin 0.8 x 10(-2), 8-ornithine vasopressin < 1.4 x 10(-4).3. When the bathing solution contained 0.1% NaCl, 8-arginine vasotocin was again the most potent, 0.06 nmole/kg augmenting the rate of fluid uptake by 50%. Compared with it the others had relative potencies of: 8-arginine vasopressin 0.3, 8-lysine vasopressin 0.3 x 10(-3), oxytocin 0.3 x 10(-2), 8-ornithine oxytocin 0.8 x 10(-2), 8-ornithine vasopressin < 0.6 x 10(-4).4. Dose-response curves for each peptide showed that in the case of 8-arginine vasopressin, 8-lysine vasopressin and 8-ornithine vasopressin the augmentation of rate of fluid uptake did not differ in the absence or in the presence of NaCl in the bathing solution; whereas in the case of 8-arginine vasotocin, oxytocin, and 8-ornithine oxytocin the augmentation was greater in the presence of sodium chloride.5. Support has been found for the postulate of a binary action of some neurohypophysial peptides on amphibian skin, arginine in position 8 being correlated with hydrosmotic effect, and isoleucine in position 3 with natriferic effect.
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PMID:Natriferic and hydrosmotic effects of neurohypophysial peptides and their analogues in augmenting fluid uptake by Bufo melanostictus. 567 41

Human liver alanine aminopeptidase (EC 3.4.11.14; L-alpha-aminoacyl-peptide hydrolase) catalyzes the stepwise hydrolysis of methionyl-lysyl-bradykinin to yield methionine, lysine, and the limit nonapeptide, bradykinin which is resistant to further hydrolytic cleavage by this enzyme. Alanine aminopeptidase also catalyzes the hydrolysis of various neutral amino acid beta-naphthylamides. This enzyme cleaves N-terminal arginyl residues unless the adjacent penultimate residue is proline as is the case for bradykinin. The properties are consistent with the requirements of a kinin converting enzyme. Human alanine aminopeptidase activity is reduced by several beta-lactam antibiotics, with the cloxacillin, oxacillin, and methicillin Ki values being 0.51 mM, 1.6 mM, and 2.4 mM respectively. Our experiments with radioactively labelled penicillin indicate that two moles of antibiotic are bound per mole of enzyme. Neither chromatography of the penicillin-treated enzyme on G-25 Sephadex, treatment of penicillin-G-treated enzyme with penicillinase, nor extensive dilution of cloxacillin-treated enzyme diminished the degree of inactivation produced. Inhibition was obtained with 6-aminopenicillanic acid, which indicated that the penicillin nucleus itself was being bound, but substitutions, as in cloxacillin, could enhance the binding.
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PMID:Human-liver alanine aminopeptidase. A kinin-converting enzyme sensitive to beta-lactam antibiotics. 612 21

V1 vasopressin, angiotensin, alpha-adrenergic, and glucagon receptors in liver were studied on membrane fractions prepared from two groups of jerboas ( Jaculus orientalis) given dry or water-enriched diets for periods of 4 to 7 weeks, and from rats acutely treated with pharmacological amounts of arginine-vasopressin (AVP) or (1-deamino-8-D-arginine)-vasopressin (dDAVP). Tritiated (8-lysine)-vasopressin ([3H]vasopressin), tritiated (1-asparagine-5-valine)-angiotensin II ([3H]angiotensin II), tritiated dihydroergocryptine ([3H] DHEC ), and iodinated glucagon ([125I]-glucagon) were used as specific labeled ligands of these receptors. The V1 vasopressin, angiotensin, alpha-adrenergic, and glucagon receptors detected in both groups of jerboas were identical to receptors found in rat liver plasma membranes in regard to the apparent dissociation constants for their respective labeled ligands. Furthermore, vasopressin receptors in jerboa liver membranes discriminated as efficiently as rat liver receptors between the natural neurohypophyseal peptides arginine-vasopressin and lysine-vasopressin on the one hand and the structural analogs (1-deamino-8-D-arginine)-vasopressin and (4-valine-8-D-arginine)-vasopressin on the other. The reduction of antidiuretic hormone (ADH) secretion in jerboas fed a water-enriched diet compared to those on a dry diet (75 +/- 25 pM versus 372 +/- 86 pM) was accompanied by an increase in the number of liver vasopressin receptors (2.79 +/- 0.53 versus 1.25 +/- 0.14 pmol [3H]vasopressin bound/mg protein). The modifications observed were specific for vasopressin receptors, as judged by the maximal binding capacities of [3H]angiotensin II, [3H] DHEC , and [125I]-glucagon, which remained unchanged in jerboas whatever the levels of endogenous circulating ADH. Similarly, administration of pharmacological doses of AVP by iv infusion to rats induced, 2 hr later, a loss of about 50% of V1 liver vasopressin receptors, while the numbers and apparent dissociation constants of angiotensin, alpha-adrenergic, and glucagon liver receptors remained unchanged, and V2 kidney vasopressin receptors were almost desensitized. For V1 liver and V2 kidney vasopressin receptors, the desensitization process was strikingly dependent on the antidiuretic/glycogenolytic activity ratio of the peptide used. Thus, im injection to rats of dDAVP (an analog possessing a very high antidiuretic/glycogenolytic activity ratio) induced, 1 hr later, a total loss of V2 kidney receptors without modification of the number and apparent dissociation constant of V1 liver receptors.
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PMID:Plasma antidiuretic hormone levels and liver vasopressin receptors in the jerboa, Jaculus orientalis, and rat. 632 98

Concomitant hydroxylation of proline and lysine residues in protocollagen was studied using purified enzymes. The data suggest that prolyl 4-hydroxylase (prolyl-glycyl-peptide, 2-oxoglutarate: oxygen oxidoreductase (4-hydroxylating), EC 1.14.11.2) and lysyl hydroxylase (peptidyllysine, 2-oxoglutarate; oxygen 5-oxidoreductase, EC 1.14.11.4) are competing for the protocollagen substrate, this competition resulting in an inhibition of the lysyl hydroxylase but not of the prolyl 4-hydroxylase reaction. When the same protocollagen was used for these hydroxylases, the affinity of prolyl 4-hydroxylase to the protocollagen substrate was about 2-fold higher than that of lysyl hydroxylase. Hydroxylation of lysine residues in protocollagen had no effect on the affinity of prolyl 4-hydroxylase, whereas hydroxylation of proline residues decreased the affinity of lysyl hydroxylase to one-half of the value determined before the hydroxylation. When enzyme preparations containing different ratios of lysyl hydroxylase activity to prolyl 4-hydroxylase activity were used to hydroxylase protocollagen substrate, it was found that in the case of a low ratio the hydroxylation of lysine residues seemed to proceed only after a short lag period. Accordingly, it seems probable that most proline residues are hydroxylated to 4-hydroxyproline residues before hydroxylation of lysine residues if the prolyl 4-hydroxylase and lysyl hydroxylase are present as free enzymes competing for the same protocollagen substrate.
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PMID:Concomitant hydroxylation of proline and lysine residues in collagen using purified enzymes in vitro. 633 20

Resonance Raman spectra are reported for a series of dithioacyl-enzymes involving actinidin (EC 3.4.22.14) and papaya peptidase II (the more basic monothiol cysteine proteinase of Carica papaya). The acyl groups are N-benzoylglycine and N-(beta-phenylpropionyl)glycine containing C = S or 13C = S at the ester function. Comparison of the data with those for the corresponding papain (EC 3.4.22.2) analogues [Storer, Lee & Carey (1983) Biochemistry 22, 4789-4796] allows us to define the conformation of the dithioacyl group in the catalytic site. In each case the dithioacyl group is bound in a single conformation known as conformer B, in which the glycinic nitrogen atom comes into close contact with the sulphur atom of the catalytic-site cysteine residue. For the N-(beta-phenylpropionyl)glycine dithioacyl-enzymes the torsional angles of the NH-CH2-C(= S) bonds assume values typical of an essentially relaxed non-strained state. However, for the N-benzoylglycine dithioacyl-enzymes there is evidence for a slightly perturbed conformer B, and the perturbation is most pronounced for N-benzoylglycine dithioacyl-actinidin. Values of k+2/Ks and k+3 for the reactions of papain, actinidin and papaya peptidase II with N-benzoylglycine and N-(beta-phenylpropionyl)glycine methyl thionoesters were obtained by a pre-steady-state kinetic study. Wide variation was found in k+2/Ks, but the values of k+3 are all similar. This general picture is supported by the results from a steady-state kinetic study of the reactions of the three enzymes with N-benzoyl-L-arginine-p-nitroanilide and with N-benzyloxycarbonyl-L-lysine p-nitrophenyl ester. The similarity of the values of k+3, together with the invariance of conformer B geometry at the P1 site, suggests that the chemistry of the deacylation process is highly conserved among these three cysteine proteinases.
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PMID:Comparative resonance Raman spectroscopic and kinetic studies of acyl-enzymes involving papain, actinidin and papaya peptidase II. 639 67

An enzyme responsible for the deacylation of beta-citryl-L-glutamate to citrate and glutamate has been characterized in rat testis. The enzyme required manganese ion for full activity and was strongly inhibited by nucleotides such as ATP or GTP. The activity was localized in the particulate fractions. The enzyme favored N-formyl-L-glutamate greater than beta-citrly-L-glutamate greater than beta-citryl-L-glutamine in a decreasing order. The amidohydrolyase activity was highest in the testis and lung, a moderate activity was detected in heart, kidney and intestine, and low in brain, thymus, stomach, skeletal muscle, spleen and liver. These findings suggest that the amidohydrolase is different from any of amidohydrolases reported so far, amidohydrolase I (EC 3.5.1.14), II (EC 3.5.1.15), III, N-acetyl-lysine deacylase (EC 3.5.1.17) and N-acetyl-beta-alanine deacetylase (EC 3.5.1.21), and various peptidases.
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PMID:A beta-citryl-L-glutamate-hydrolysing enzyme in rat testes. 641 21

Fluorescein isothiocyanate (FITC) has been selectively bound to the epsilon-amino group of lysine-382 in cytochrome P-450 LM2 (RH, reduced-flavoprotein: oxygen oxidoreductase (RH-hydroxylating), EC 1.14.14.1) at pH 8.15. Benzphetamine N-demethylase activity of the reconstituted FITC-modified cytochrome P-450 LM2 was inhibited by 25%. This inhibition has been shown to be due to an impaired electron transfer from the NADPH-cytochrome P-450 reductase (NADPH: ferricytochrome oxidoreductase, EC 1.6.2.4) to the haemoprotein. The data indicate that cytochrome P-450 interacts with the flavoprotein via electrostatic interactions.
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PMID:Selective chemical modification of a functionally linked lysine in cytochrome P-450 LM2. 642 89

Glutamine may serve as an activator and/or regulator of the N6-hydroxylase (E.C. 1.14.99) of Aerobacter aerogenes 62-1. Activation and stabilization of N6-hydroxylase activity was observed both in vivo and in vitro. Growth in a glutamine-supplemented medium resulted in (1) maximum N6-hydroxylase activity at an earlier stage of growth and (2) higher N6-hydroxylase activity and continued aerobactin synthesis into stationary phase. Storage of P2 in the presence of L-glutamine (1 mM) significantly increased the lifetime of the labile N6-hydroxylase activity. Inclusion of L-glutamine in the incubation mixture typically resulted in a 2-3-fold activation of the hydroxylase activity. The stimulatory effect of glutamine was independent of and additive to the enhancement of N6-hydroxylation by the active component(s) in the supernatant, S2 fraction. Glutamic acid-gamma-semihydrazide activated slightly in the absence of glutamine but activation of the system by glutamine was decreased by this compound. Azaserine was shown to be an uncompetitive inhibitor with respect to lysine and this inhibition was not reversed by glutamine.
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PMID:Stimulation by glutamine of the formation of N6-hydroxylysine in a cell-free extract from Aerobacter aerogenes 62-1. 643 5

Fragments of scallop testis calmodulin were prepared by tryptic digestion. One peptide consisted of 75 amino acid residues from N-acetylalanine to lysine at position 75 (F12) and the other of 71 residues from aspartic acid at position 78 to C-terminal lysine (F34). Flow dialysis and equilibrium dialysis experiments revealed the existence of two Ca2+ binding sites in each fragment. Half-saturating concentrations of the Ca2+ titration curves were 11 microM for F12 and 3.2 microM for F34, and Hill coefficients were obtained as 1.14 and 1.84, respectively. The results indicate that the high-affinity sites for Ca2+ are located on the C-terminal region of the calmodulin. The sum of the two Ca2+ titration curves of F12 and F34 fits well to the curves of Ca2+ binding to intact calmodulin. This shows that the characteristic of Ca2+ bindings in intact calmodulin did not change after separation of the whole molecule into two domains, F12 and F34. The domains corresponding to F12 and F34 may exist independently from each other in the intact calmodulin molecule.
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PMID:Calcium binding to tryptic fragments of calmodulin. 652 Jan 19


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