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: UMLS:C0027960 (mole)
21,279 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ribothymidine (m5u) in tRNAs of M. lysodeikticus is not derived from methionine. The results indicate that as in tRNAs of B. subtilis a tetrahydrofolate derivative is involved in the formation of m5U, whereas methionine serves as precursor in the biosynthesis of m7G, m1A and m6A. Ribothymidine also occurs in 23S rRNA of B. subtilis and M. lysodeikticus. Approximately 2-3 moles of m5U residues were found per mole of 23S rRNA. In contrast to m5U residues present in tRNAs of B. subtilis and M. lysodeikticus, ribothymidine in 23S rRNA of these organisms and of E. coli is synthesized via S-adenosylmethionine. m6A and m1G, present in E. coli rRNAs, were not detected in rRNAs of (methyl-14C) methionine labeled B. subtilis and M. lysodeikticus.
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PMID:Biosynthetic pathway of ribothymidine in B. subtilis and M. lysodeikticus involving different coenzymes for transfer RNA and ribosomal RNA. 80 11

The paper studies the coupling reaction by covalent bonding of acetylamino-2-sulfamoyl-1,3,4-thiodiazole (AcAA) on the poly(acrylic acid-costyrene) copolymer (PAcA-S) in homogeneous system, in the presence of dicyclohexylcarbodiimide (DCC) as activator. The influence of some factors on coupling efficiency (the drug/support ratio, time, volume of solvent), as well as the mathematical model correlating the amount of coupled drug with these parameters is established. Maximum amounts of drug (28%) are chemically bound when employing maximum values of the parameters mentioned (i.e., AcAA/PAcA-S ratio = 2 mole/mole; time = 50 h; THF volume = 60 ml). Physicochemical and spectral analyses evidence the existence of some chemical bonds of the -CO-NH-SO2-type between the macromolecular support and the drug. In vivo tests have demonstrated the gradual hydrolysis of the chemical bonds as well as the release of the drug, due to the diuretic effect produced.
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PMID:Bioactive polymers 55. Synthesis and characterization of a macromolecular drug based on 5-acetylamino-2-sulfamoyl-1,3,4-thiodiazole. 143 80

Dimethylglycine dehydrogenase (EC 1.5.99.2) and sarcosine dehydrogenase (EC 1.5.99.1) are flavoproteins which catalyze the oxidative demethylation of dimethylglycine to sarcosine and sarcosine to glycine, respectively. During these reactions tightly bound tetrahydropteroylpentaglutamate (H4PteGlu5) is converted to 5,10-methylene tetrahydropteroylpentaglutamate (5,10-CH2-H4PteGlu5), although in the absence of H4PteGlu5, formaldehyde is produced. Single turnover studies using substrate levels of the enzyme (2.3 microM) showed pseudo-first-order kinetics, with apparent first-order rate constants of 0.084 and 0.14 s-1 at 23 and 48.3 microM dimethylglycine, respectively, for dimethylglycine dehydrogenase and 0.065 s-1 at 47.3 microM sarcosine for sarcosine dehydrogenase. The rates were identical in the absence or presence of bound tetrahydropteroylglutamate (H4PteGlu). Titration of the enzymes with substrate under anaerobic conditions did not disclose the presence of an intermediate semiquinone. The effect of dimethylglycine concentration upon the rate of the dimethylglycine dehydrogenase reaction under aerobic conditions showed nonsaturable kinetics suggesting a second low-affinity site for the substrate which increases the enzymatic rate. The Km for the high-affinity active site was 0.05 mM while direct binding for the low-affinity site could not be measured. Sarcosine and dimethylthetin are poor substrates for dimethylglycine dehydrogenase and methoxyacetic acid is a competitive inhibitor at low substrate concentrations. At high dimethylglycine concentrations, increasing the concentration of methoxyacetic acid produces an initial activation and then inhibition of dimethylglycine dehydrogenase activity. When these compounds were added in varying concentrations to the enzyme in the presence of dimethylglycine, their effects upon the rate of the reaction were consistent with the presence of a second low-affinity binding site on the enzyme which enhances the reaction rate. When sarcosine is used as the substrate for sarcosine dehydrogenase the kinetics are Michaelis-Menten with a Km of 0.5 mM for sarcosine. Also, methoxyacetic acid is a competitive inhibitor of sarcosine dehydrogenase with a Ki of 0.26 mM. In the absence of folate, substrate and product determinations indicated that 1 mol of formaldehyde and of sarcosine or glycine were produced for each mole of dimethylglycine or sarcosine consumed with the concomitant reduction of 1 mol of bound FAD.
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PMID:Enzymatic properties of dimethylglycine dehydrogenase and sarcosine dehydrogenase from rat liver. 241 60

The possible role of cobalamins in the utilization of serum methyltetrahydrofolate has been investigated by means of radiolabeled methyltetrahydrofolate in subjects suffering from pernicious anemia. After intravenous administration, methyltetrahydrofolate-(3)H (SA 11,500 Ci/mole; dose 0.05 mug/kg) was cleared from the serum to tissues of B(12)-deficient subjects half as fast as after the same subjects had received vitamin B(12) therapy. B(12) deficiency was also associated with an increased rate of renal excretion of methyltetrahydrofolate or its derivatives, and a decreased rate of renal metabolism of methyltetrahydrofolate to other urinary folate derivatives.Intravenously administered methyl-(14)C-tetrahydrofolate-(3)H at a higher dose (5 mug/kg) caused a severalfold elevation of the total serum folate concentration and, in B(12)-deficient subjects, it did not disappear from the serum significantly more slowly although its urinary excretion was significantly increased. These results indicate that there is some cobalamin requirement for the utilization of serum methyltetrahydrofolate and verify one prediction of the "methyltetrahydrofolate trap" explanation for the megaloblastosis of B(12) deficiency.
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PMID:Impaired utilization of serum folate in pernicious anemia. A study with radiolabeled 5-methyltetrahydrofolate. 502 40

Dimethylglycine dehydrogenase (EC 1.5.99.2) carries out the oxidative demethylation of dimethylglycine to sarcosine in liver mitochondria. In vivo, the enzyme uses tightly bound tetrahydropteroyl pentaglutamate (H4PteGlu5) as an acceptor of the one-carbon group generated during the reaction. The purified enzyme can use, but does not require, H4PteGlu5 and under these conditions formaldehyde is the one-carbon unit produced. It is reported that folic acid may be covalently linked to dimethylglycine dehydrogenase in a specific and saturable manner so that only 1 mole of folic acid is bound per mole of enzyme. Covalently bound folic acid blocks the subsequent binding of H4PteGlu, and does not inhibit the rate of dimethylglycine dehydrogenase activity in vitro.
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PMID:Covalent binding of folic acid to dimethylglycine dehydrogenase. 648 95

10-Formyltetrahydrofolate dehydrogenase (EC 1.5.1.6) was previously identified as a folate-binding protein in rat liver cytosol (R.J. Cook and C. Wagner, Biochemistry 21, 4427-4434, 1982) by virtue of the tetrahydrofolate polyglutamate tightly bound to the partially purified enzyme. In this current study we provide evidence to show that when liver cytosol was rapidly processed to identify the protein bound folate, large amounts of both 10-formyl- and 5-formyltetrahydrofolate were present. After overnight storage of the cytosol at 5 degrees C before processing, almost no formylfolates were present and the major protein-bound form was tetrahydrofolate. This suggests that 10-formyltetrahydrofolate polyglutamates are tightly bound to the enzyme in vivo and are converted to tetrahydrofolate forms during isolation by the hydrolase activity associated with the enzyme. Covalent binding of the stable folate analogue, 5-formyltetrahydrofolate, to the purified enzyme resulted in 2 mol bound per mole of enzyme subunit. This is consistent with earlier reports suggesting the enzyme is capable of carrying out both oxidative and hydrolytic conversion of 10-formyltetrahydrofolate to tetrahydrofolate at the same time. Partial tryptic digestion of the purified enzyme selectively inhibited dehydrogenase activity of the enzyme but did not affect the hydrolase or aldehyde dehydrogenase activities.
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PMID:10-Formyltetrahydrofolate dehydrogenase: identification of the natural folate ligand, covalent labeling, and partial tryptic digestion. 784 Jun 9

Lactobacillus leichmannii thymidylate synthase (5,10-CH2-H4PteGlu:dUMP C-methyltransferase, EC 2.1.1.45) forms a tight and stable covalently bonded ternary complex with the inhibitor 5-FdUMP in the presence of the cofactor 5,10-CH2-H4-PteGlu. 'Filter assay' employing the radioactive nucleotide ligand showed that 2 moles of FdUMP are bound per mole enzyme during the ternary complex formation with the L. leichmannii dTMP synthase. This is in line with our earlier observation on the Streptococcus faecium thymidylate synthase [Narasimha Rao, K & Kisliuk R L (1983), Proc Natl Acad Sci USA, 80, 916-920]. The enzyme has Km values of 6.3 x 10(-6) M, 8.2 x 10(-5) M and 1.0 x 10(-4) M for dUMP, (dl)-L-H4PteGlu and Mg2+ respectively; Vmax for dUMP, (dl)-L-H4PteGlu and Mg2+ are; 0.55, 0.5 and 1.1 respectively. It has K(i) values of 6.7 x 10(-6) M, 2.2 x 10(-6) M, 5.0 x 10(-5) M and 2.0 x 10(-4) M for FdUMP, dTMP, MTX and Ca2+ respectively. The type of enzyme inhibition with FdUMP, dTMP, MTX and Ca2+ was competitive. dTMP Studies clearly show the 'end product' inhibition of the enzyme.
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PMID:Ternary complex formation with 5-fluoro-2'-deoxyuridylate and the kinetic properties of thymidylate synthase from Lactobacillus leichmannii. 835 17

High-temperature bromination of 10-bromotricyclo[6.3.1.0(2,7)]dodeca-2,4,6,9-tetraene (8) resulted mainly in the formation of two isomeric tribromides (16 and 17) whose dehydrobromination with DBU afforded the corresponding 9,10-dibromotricyclo [6.3.1.0(2,7)] dodeca-2,4,6,9-tetraene (14). Treatment of 14 with tert-butyllithium in THF at -78 degrees C produces the strained bicyclic alkyne (10) which is trapped by 1,3-diphenylisobenzofuran to give two isomeric cycloadducts 12a and 12b. The adducts 12a and 12b were found to readily rearrange to the isomeric ketones 19a and 19b upon chromatography. Upon treatment with potassium tert-butoxide, the adducts 12a and 12b undergo base-catalyzed double bond isomerization to give four products 20-23. Furthermore, reaction of 14 with one and two mole of potassium tert-butoxide has been studied and the mechanism of the product formation is discussed with regard to either an allene or alkyne as a possible intermediate.
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PMID:Generation and trapping of a highly strained bicyclic alkyne: tricyclo[6.3.1.0(2,7)]dodeca-2,4,6-trien-9-yne. 1137 1

(Z)-3-[2H1]-Phenylprop-2-enone is isomerised by hydroperoxide to an equimolar mixture of the (Z)- and (E)-isomers prior to epoxidation. Poly-(L)-leucine (10 mole %) accelerates the addition of hydroperoxide by an order of magnitude and sequesters hydroperoxide from THF.
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PMID:The isomerisation of (Z)-3-[2H1]-phenylprop-2-enone as a measure of the rate of hydroperoxide addition in Weitz-Scheffer and Julia-Colonna epoxidations. 1536 53

The synthesis of thymine for DNA is catalyzed by the enzyme thymidylate synthase (TS). A family of flavin-dependent TSs encoded by the thyX gene has been discovered recently. These newly discovered TSs require a reducing substrate in addition to 2'-deoxyuridine monophosphate (dUMP) and 5,10-methylenetetrahydrofolate (CH2THF), suggesting that the enzyme-bound flavin is a redox intermediary in catalysis. The oxidation of the reduced flavin of the TS from Campylobacter jejuni has been observed directly upon mixing with dUMP and CH2THF under anaerobic conditions, thus providing the first direct demonstration of its redox role in catalysis. Product analysis showed that the one mole of 2'-deoxythymidine monophosphate is formed along with one mole of tetrahydrofolate for each mole of reduced enzyme-bound flavin. The classic TS inactivator 5-fluoro-2'-deoxyuridine monophosphate (FdUMP) was able to bind to the reduced enzyme but was unable to oxidize the flavin, even in the presence of CH2THF. Furthermore, the nucleotide binding site of the enzyme treated with FdUMP and CH2THF was irreversibly blocked, suggesting the formation of a stable substrate adduct analogous to that formed by the well-studied thyA-encoded TS. The formation of inactivated enzyme without flavin oxidation indicates that methylene transfer from the folate to the nucleotide occurs prior to flavin redox chemistry.
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PMID:Direct observation of the participation of flavin in product formation by thyX-encoded thymidylate synthase. 1565 10


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