Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.7 (plasmin)
 9,023 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

2432 stable auxotrophic mutants were selected from high virulent Yersinia pestis strain 20b after treatment with nitroso guanidine. They were deficient in amino acids (arginine, aspartic acid, citrulline, glycine, glutamic acid, histidine, isoleucine, serine, leucine, lysine, ornithine, proline, tryptophan, tyrosine, valiney, pyrimidine and vitamins (riboflavin, thyamine, nicotinamide). Some mutants were two- and three-fold dependent. The leucine-, histidine-, purine-dependent mutants were isolated with the high frequency. All the mutants, like their original strain, grew in R-form; they were sensitive to diagnostic phages, had pesticine-fibrinolysin-coagulase sustem (fraction I) and were calcium-dependent. P+ cultures of auxotrophs were not virulent for laboratory animals.
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PMID:[Isolation and properties of several auxotrophic mutants of a highly virulent strain of the plague microbe]. 122 53

2432 stable auxotrophic mutants were selected from high virulent Yersinia pestis strain 20b after treatment with nitroso guanidine. They were deficient in amino acids (arginine, aspartic acid, citrulline, glycine, glutamic acid, histidine, isoleucine, serine, leucine, lysine, ornithine, proline, tryptophan, tyrosine, valine), pyrimidine and vitamins (riboflavin, thyamine, nicotinamide). Some mutants were two- and three-fold dependent. The leucine-, histidine-, purine-dependent mutants were isolated with the high frequency. All the mutants, like their original strain, grew in R-form; they were sensitive to diagnostic phages, had pesticine-fibrinolysin-coagulase system (fraction I) and were calcium-dependent. P+ cultures of auxotrophs were not virulent for laboratory animals.
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PMID:[Isolation and properties of several auxotrophic mutants of a highly virulent strain of the plague microbe]. 123 31

One hundred twenty-seven isolates of Aeromonas comprising the three currently recognizable species (A. hydrophila, A. sobria, and A. caviae) were evaluated for biochemical and exoenzymatic properties. Aeromonas species were generally (greater than 90%) characterized as gram-negative fermentative rods that were oxidase-, catalase-, and beta-galactosidase-positive, produced arginine dihydrolase, and failed to decarboxylate ornithine. More than 95% of all isolates tested failed to grow on 6.5% salt or thiosulfate-citrate bile salts agar and were resistant to the vibriostatic agent 0/129. Most Aeromonas species produced acid from hexoses while failing to ferment alcoholic sugars or trisaccharides. In exoenzymatic studies, Aeromonas species were uniformly found to produce several exoenzymes, including amylase, DNase, RNase, esterase, lipase, gelatinase, protease, fibrinolysin, and chitinase. Within the genus, a number of biochemical and enzymatic properties were found to be associated with one or more of the taxonomically recognizable species. These properties included glycoside utilization, Heiberg grouping based upon fermentation of arabinose, sucrose, and mannose, and the elaboration of several extracellular enzymes (elastase, hemolysin, lecithinase, phosphatase). In addition, phenotypic markers previously associated with enterotoxigenic Aeromonas isolates were almost exclusively found among A. hydrophila and A. sobria species, suggesting that these species are the major enteric pathogens.
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PMID:Biochemical and exoenzymatic properties of Aeromonas species. 388 8

This study demonstrates that poly-lysine mimics the cofactor (enhancing) function of fibrin that is seen in tissue activator-induced plasminogen activation. Additionally, and in contrast to fibrin, poly-lysine exhibited an enhancing effect on low molecular weight (and not high molecular weight) urokinase-induced plasminogen activation. A mechanism is proposed for this enhancement that involves the rendezvous and local concentration of plasminogen and plasminogen activator molecules on the lysine polymer. All components were able to bind to immobilized poly-lysine making the proposed mechanism feasible. It was possible to elute the activators and mini-plasminogen and plasmin which required 1 M lysine for elution, suggesting specific binding involving lysine binding sites. The enhancing effect was specific for poly-D- and L-lysine and poly-L-ornithine, which has a similar structure. The use of poly-lysine can lead to a better standardization and increased sensitivity of indirect two-step assays for plasminogen activators employing synthetic chromogenic substrates.
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PMID:An enhancing effect of poly-lysine on the activation of plasminogen. 720 Feb 68

Kinetics for the hydrolysis of the chromogenic active-site titrant N alpha-(N,N-dimethylcarbamoyl)-alpha-azaornithine p-nitrophenyl ester (Dmc-azaOrn-ONp) catalysed by bovine beta-trypsin, bovine alpha-thrombin, bovine Factor Xa, human alpha-thrombin, human Factor Xa, human Lys77-plasmin, human urinary kallikrein, Mr 33 000 and Mr 54 000 species of human urokinase, porcine pancreatic beta-kallikrein-A and -B and Ancrod (the coagulating serine proteinase from the Malayan pit viper Agkistrodon rhodostoma venom) have been obtained between pH 6.0 and 8.0, at 21.0 degrees C, and analysed in parallel with those for the enzymatic cleavage of N alpha-(N,N-dimethylcarbamoyl)-alpha-azalysine p-nitrophenyl ester (Dmc-azaLys-ONp). The enzyme kinetics are consistent with the minimum three-step catalytic mechanism of serine proteinases, the rate-limiting step being represented by the deacylation process. Bovine beta-trypsin kinetics are modulated by the acid-base equilibrium of the His57 catalytic residue (pKa approximately 6.9). Dmc-azaOrn-ONp and Dmc-azaLys-ONp bind stoichiometrically to the serine proteinase active site, and allow the reliable determination of the active enzyme concentration between 1.0 x 10-6 M and 3.0 x 10-4 M. The affinity and the reactivity for Dmc-azaOrn-ONp (expressed by Ks and k+2/Ks, respectively) of the serine proteinases considered are much lower than those for Dmc-azaLys-ONp. The very different affinity and reactivity properties for Dmc-azaOrn-ONp and Dmc-azaLys-ONp have been related to the different size of the ornithine/lysine side chains, and to the ensuing different positioning of the active-site titrants upon binding to the enzyme catalytic centre (i.e. to P1-S1 recognition). These data represent the first detailed comparative investigation on the catalytic properties of serine proteinases towards an ornithine derivative (i. e. Dmc-azaOrn-ONp).
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PMID:Serine proteinase inhibition by the active site titrant N alpha-(N, N-dimethylcarbamoyl)-alpha-azaornithine p-nitrophenyl ester. A comparative study. 1067 36