Marek Dryjanski scite author profile

Low concentrations of citral (3,7-dimethyl-2,6-octadienal), an inhibitor of retinoic acid biosynthesis, inhibited E1, E2 and E3 isozymes of human aldehyde dehydrogenase (EC1.2.1.3). The inhibition was reversible on dilution and upon long incubation in the presence of NAD + ; it occurred with simultaneous formation of NADH and of geranic acid. Thus, citral is an inhibitor and also a substrate. K m values for citral were 4 mm for E1, 1 mm for E2 and 0.1 mm for E3; V max values were highest for E1 (73 nmol´min 21´m g 21 ), intermediate for E2 (17 nmol´min 21´m g 21 ) and lowest (0.07 nmol´min 21´m g 21 ) for the E3 isozyme. Citral is a 1 : 2 mixture of isomers: cis isomer neral and trans isomer, geranial; the latter structurally resembles physiologically important retinoids. Both were utilized by all three isozymes; a preference for the trans isomer, geranial, was observed by HPLC and by enzyme kinetics. With the E1 isozyme, both geranial and neral, and with the E2 isozyme, only neral obeyed Michaelis±Menten kinetics. With the E2 isozyme and geranial sigmoidal saturation curves were observed with S 0.5 of <50 nm; the n-values of 2±2.5 indicated positive cooperativity. Geranial was a better substrate and a better inhibitor than neral. The low V max, which appeared to be controlled by either the slow formation, or decomposition via the hydride transfer, of the thiohemiacetal reaction intermediate, makes citral an excellent inhibitor whose selectivity is enhanced by low K m values. The V max for citral with the E1 isozyme was higher than those of the E2 and E3 isozymes which explains its fast recovery following inhibition by citral and suggests that E1 may be the enzyme involved in vivo citral metabolism.

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Steady-State Kinetics of the Binding of .beta.-Lactams and Penicilloates to the Second Binding Site of the Enterobacter cloacae P99 .beta.-Lactamase

Dryjanski¹,

Pratt²

1995

Biochemistry

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Previous research has shown that the class C beta-lactamase of Enterobacter cloacae P99 is able to catalyze the hydrolysis and aminolysis of acyclic depsipeptides. The steady kinetics of these reactions are complicated by the presence of an additional (depsi)peptide binding site in addition to the active site [Pazhanisamy, S., & Pratt, R. F. (1989) Biochemistry 28, 6875-6882]. The present paper presents a steady-state kinetic analysis of the inhibition of depsipeptide hydrolysis by sodium benzylpenicilloate, methyl benzylpenicilloate, 6-aminopenicillanic acid, and 7-aminocephalosporanic acid. The two beta-lactams are considerably poorer substrates than the depsipeptide employed, m-[[(phenylacetyl)glycyl]oxy]benzoic acid. The aim was to determine the relative affinity of these ligands for the active site and the second site. Three types of experiments were employed: (i) measurements of direct inhibition of depsipeptide hydrolysis, (ii) measurements of the effect of an active-site-directed inhibitor, m-(dansylamidophenyl)-boronic acid, on the effectiveness of the ligands as inhibitors, and (iii) measurements of the effect of a preferential second site ligand, N-(phenylacetyl)glycyl-D-phenylalanine, on the effectiveness of the ligands as inhibitors. The results suggest that all four ligands preferentially bind to the active site, with weaker binding at the second site. The necessarily weaker binding of a ligand to the second site when the active site is occupied by a transition-state analog inhibitor was analyzed. Perhaps surprisingly, the intact beta-lactams appeared to bind more firmly to the alternative site than do the flexible penicilloates.(ABSTRACT TRUNCATED AT 250 WORDS)

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Aspartic proteinase from Penicillium camemberti: Purification, properties, and substrate specificity

Chrzanowska¹,

Kolaczkowska

Dryjanski

et al. 1995

Enzyme and Microbial Technology

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Inactivation of the Enterobacter cloacae P99 .beta.-Lactamase by a Fluorescent Phosphonate: Direct Detection of Ligand Binding at the Second Site

Dryjanski

Pratt²

1995

Biochemistry

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The synthesis of a fluorescent beta-lactamase inhibitor, p-nitrophenyl [(dansylamido)methyl]-phosphonate is described. The compound inactivated the class C beta-lactamase of Enterobacter cloacae P99 with stoichiometric release of p-nitrophenol, presumably, as with other phosphonate inhibitors, by phosphonylation of the active site serine. The inhibited enzyme exhibited typical dansyl fluorescence emission at 533 nm with excitation maxima at 345 and 283 nm; the latter excitation peak probably arises from radiationless energy transfer to the dansyl group from aromatic chromophores on the protein-inspection of the crystal structure shows that the closest are tyrosines. The fluorescence of the p-nitrophenyl phosphonate and the inhibited enzyme varied with pH in a very similar fashion, reflecting dissociation of the dimethylammonium ion in the ground state at low pH and of the sulfonamide in the excited state above pH 6. No perturbation of the fluorescence of the inhibited enzyme due to active site functional groups was observed. This may reflect the distance between the dansyl fluorophore and the phosphonyl group and/or the high pKa's of the protonated active site functional groups in the presence of the phosphonate. The addition of certain small molecular weight N-acyl amino acids, of preferred structure D-RCONHCHR'CO2-, to the inhibited enzyme led to an enhancement of dansyl fluorescence intensity and a blue shift in the emission maximum. This suggested that these molecules bind to the beta-lactamase at a site other than the active site and supports previous kinetic data to this effect [Dryjanski, M., & Pratt, R. F., (1995) Biochemistry 34, preceding paper in this issue].(ABSTRACT TRUNCATED AT 250 WORDS)

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Serine Proteinase fromCucurbita ficifoliaSeed; Purification, Properties, Substrate Specificity and Action on Native Squash Trypsin Inhibitor (CMTI I)

Dryjanski¹,

Otlewski²,

Polanowski³

et al. 1990

Biological Chemistry Hoppe-Seyler

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A proteinase was purified from resting seeds of Cucurbitaficifolia by ammonium sulfate fractionation and succesive chromatography on CM-cellulose, Sephacryl S-300 and TSK DEAE-2SW (HPLC) columns. Inhibition by DFP and PMSF suggests that the enzyme is a serine proteinase. The apparent molecular mass of this enzyme is ca. 77 kDa. The optimum activity for hydrolysis of casein and Suc-Ala-Ala-Pro-Phe-pNA is around pH 10.5. The following peptide bonds in the oxidized insulin Bchain were hydrolysed by the proteinase: Phe^Val 2 ,

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Marek Dryjanski

Mechanism of inhibition of aldehyde dehydrogenase by citral, a retinoid antagonist

Steady-State Kinetics of the Binding of .beta.-Lactams and Penicilloates to the Second Binding Site of the Enterobacter cloacae P99 .beta.-Lactamase

Aspartic proteinase from Penicillium camemberti: Purification, properties, and substrate specificity

Inactivation of the Enterobacter cloacae P99 .beta.-Lactamase by a Fluorescent Phosphonate: Direct Detection of Ligand Binding at the Second Site

Serine Proteinase fromCucurbita ficifoliaSeed; Purification, Properties, Substrate Specificity and Action on Native Squash Trypsin Inhibitor (CMTI I)

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