Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.5.1.4 (deaminase)
 5,113 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effect of 1-(beta-aminoethyl)-3H-pyrrole[2,3-h]quinoline (I), 3-(beta-aminoethyl)-1H-pyrrole[2,3-h]quinoline (I'), 8-amino-3H-pyrrole[2,3-h]quinoline (II), 6-amino-3H-pyrrole[2,3-h]quinoline (II') and 8-amino-1H-pyrrole[2,3-h]quinoline (III) on tyramine, serotonin and 2-phenylethylamine deaminase activities of mitochondrial monoamine oxidase from bovine brain were studied. All the compounds tested appeared to be reversibly inhibit MAO without preliminary incubation. Compounds II, II' and III specifically inhibited type A MAO; compound III exhibited the highest selectivity. The inhibition was of a mixed type. The effects of compounds I and I' were competitive and inconsistent with a classical concept on the dual activity of MAO, i. e., deamination of tyramine, a substrate common for MAO type A and MAO type B was inhibited in a greater degree than the deamination of specific substrates of MAO type A (serotonin) or type B (2-phenylethylamine). Possible reasons for the observed phenomenon are discussed.
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PMID:[Monoamine oxidase inhibition by pyrrole quinoline derivatives]. 316 19

A new amidohydrolase deacetylating several N-acetyl-1-phenylethylamine derivatives (R)-specifically was found in Arthrobacter aurescens AcR5b. The strain was isolated from a wet haystack by enrichment culture with (R)-N-acetyl-1-phenylethylamine as the sole carbon source. (R) and (S)-N-acetyl-1-phenylethylamine do not serve as inducers for acylase formation. By improving the growth conditions the enzyme production was increased 47-fold. The amidohydrolase was purified to homogeneity leading to a 5.2-fold increase of the specific activity with a recovery of 67%. A molecular mass of 220 kDa was estimated by gel filtration. Sodium dodecyl sulfate/polyacrylamide gel electrophorosis shows two subunits with molecular masses of 16 kDa and 89 kDa. The optimum pH and temperature were pH 8 and 50 degrees C, respectively. The enzyme was stable in the range of pH 7-9 and at temperatures up to 30 degrees C. The enzyme activity was inhibited by Cu2+, Co2+, Ni2+, and Zn2+, and this inhibition was reversed by EDTA.M.
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PMID:Isolation and characterization of highly (R)-specific N-acetyl-1-phenylethylamine amidohydrolase, a new enzyme from Arthrobacter aurescens AcR5b. 923 88

Immobilization of penicillin G acylase on glyoxyl agarose and its further hydrophilization by physicochemical modification with ionic polymers has made it possible to perform the direct condensation between (+/-)-2-hydroxy-2-phenylethylamine [(+/-)-1] and different acyl donors in the presence of high concentrations of organic cosolvent (up to 90%) in the reaction medium. Using 50 mM phenyl acetic acid and these drastic reaction conditions, too harsh for any other PGA preparation, we have achieved an almost quantitative transformation (more than 99%) of 10 mM (+/-)-1 into the corresponding amide. Remarkably, the enantioselectivity of the enzyme immobilized on the amine was strongly dependent on the acyl donor employed. Thus, using phenylacetic acid (2), the enantioselectivity was almost negligible (1.3 favoring the S isomer), whereas using S-mandelic acid [(S)-4], the E factor reached a value of 21 (also favoring the S isomer). By using R-mandelic acid [(R)-4], we observed a different enantioselectivity (E was 3.6 favoring the R). At 4 degrees C, the E value reached a value higher than 100 when (S)-4 was used as the acyl donor. The reaction performed under these conditions allowed us to produce (2S,2'S)-N-2'-hydroxy-2'-phenyl)-2-hydroxyphenylacetamide [(2S,2'S)-7] with a diasteromeric excess higher than 98%.
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PMID:Enantioselective synthesis of phenylacetamides in the presence of high organic cosolvent concentrations catalyzed by stabilized penicillin G acylase. Effect of the acyl donor. 1517 9

The amidase from Rhodococcus erythropolis MP50 demonstrated, in the presence of hydroxylamine, acyltransferase activity and catalyzed the formation of hydroxamates from amides and hydroxylamine. The rates of acyltransferase activity of the purified amidase for the substrates acetamide, phenylacetamide, and 2-phenylpropionamide were higher than the corresponding rates for the hydrolysis reactions. With the substrate 2-phenylpropionamide the hydrolysis reaction and the acyltransferase activity were highly enantioselective. The optically active 2-phenylpropionhydroxamate was converted by a chemical Lossen rearrangement in an aqueous medium into the enantiopure S-1-phenylethylamine.
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PMID:Formation of a Chiral Hydroxamic Acid with an Amidase from Rhodococcus erythropolis MP50 and Subsequent Chemical Lossen Rearrangement to a Chiral Amine. 1653 82