EC:3.4.21.64 - FACTA Search

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Query: EC:3.4.21.64 (proteinase K)
4,071 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Using affinity chromatography on bacitracin-Sepharose combined with ion-exchange chromatography on aminosilochrome and isoelectrofocusing, individual serine proteases have been isolated for the first time from surface cultures of T. lignorum and T. koningii. The proteinases have pI values at 6.8 and 6.7 and pH optima of 10.5. Both proteinases are stable within the pH range of 4-11 and have molecular weight of 21 000. The amino acid composition of T. lignorum enzyme is Lys3His4Arg9Asx23Thr17Ser23Glx10Pro8Gly27Ala25Cys3Val13Met2Ile11Leu11Tyr7Phe6Tr p3, that of the T. koningii enzyme is Lys3His4 Arg9Asx23Thr16Ser26Glx10Pro9Gly29Ala26Cys3Val14Met2Ile9Leu11Tyr6Phe5Trp3. The enzymes are completely inhibited by phenylmethylsulfonylfluoride, diphenylcarbamoylchloride and trypsin inhibitors from beans, Actinomyces janthinus and potato tubers. The enzymatic and molecular properties of the enzymes are similar to those of subtilisins and previously described fungal serine proteinases, especially to those of proteinase K of the fungus Tritirachium album Limber.
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PMID:[Isolation and comparative properties of serine proteinases of the microscopic fungi Trichoderma lignorum and Trichoderma koningii]. 703 10

A proteinase secreted by the sapstaining fungus Ophiostoma piceae is thought to be necessary for the primary retrieval of nitrogen from wood proteins. By using mass spectrometry (MS) techniques, we have established the cleavage specificity of this subtilisin-like serine proteinase. This work demonstrated the potential of MS in determining cleavage specificities of newly isolated proteinases in a relatively short time frame, and determined that the O. piceae proteinase showed a substrate specificity similar to that of proteinase K. Primary cleavage of the insulin B-chain occurred between Leu15 and Tyr16. In addition numerous secondary cleavage sites occurred after hydrophobic, polar, and charged amino acids indicating a broad specificity.
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PMID:Characterization of the cleavage specificity of a subtilisin-like serine proteinase from Ophiostoma piceae by liquid chromatography/mass spectrometry and tandem MS. 758 36

The extracellular serine proteinase secreted by Ophiostoma piceae was degraded by autoproteolysis under certain conditions. At elevated temperatures the mature protein of 33 kDa was rapidly degraded without any accumulation of protein breakdown products. Glycerol, calcium ions and ammonium sulfate raised the heat stability of the enzyme, increasing its half-life at 45 degrees C from 1.9 min to 9.4 min, 40.4 min and 2 h, respectively. Thermal unfolding of the proteinase also occurred at higher temperatures in the presence of calcium ions and ammonium sulfate. Under conditions of heating, altered pH or partial depletion of protein-bound ions by EDTA, the structure of the proteinase was more susceptible to proteolysis. The major hydrolytic fragments of 19 kDa and 14 kDa, had N-terminal sequences of Ala1-Tyr2-Thr3-Thr4-Gln5-Thr6-Gly7-Ala8-Pro9-and Ser170-Glu171-Pro172-Se173-Val174-X-Thr 176-Val177-Gly178-Ala179-, respectively. Since the former sequence was identical to the N-terminus of the native protein, the major autoproteolytic cleavage site for a class II subtilase appeared to be the N-side of Ser170 using numbering based on the sequence of proteinase K. The secondary structure of the proteinase from O. piceae was similar to that of proteinase K based on circular dichroic spectra in the far ultraviolet region. This cleavage site was in a similar region to that identified for class I subtilases, which was located in an outer exposed loop of the tertiary structure of subtilisin-like serine proteinases.
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PMID:Factors affecting autolysis of a subtilisin-like serine proteinase secreted by Ophiostoma piceae and identification of the cleavage site. 765 69

A novel actinomycin (Act SG3) from a strain of Streptomyces galbus var. C-72, as well as actinomycin D (Act D) were found to act as competitive inhibitors of serine proteinases from microorganisms. The inhibitory properties of Act SG3 and Act D are compared with these of other peptide antibiotics, namely bacitracin A (Bac A) and gramicidin S (Gr S). The last compound has only a weak inhibitory effect. The following order of affinity for the four peptide antibiotics towards subtilisin DY and proteinase K was observed: Bac A > Act D > Act SG3 = Gr S. The affinity towards thermitase changes as follows: Act SG3 = Act D > Bac A > Gr S.
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PMID:Actinomycins as proteinase inhibitors. 767 3

A serine proteinase was isolated from fruits of Maclura pomifera (Raf.) Schneid. by affinity chromatography on bacitracin-containing sorbents and gel-filtration. The enzyme, named macluralisin, is a glycoprotein with a molecular mass of 65 kDa; its protein moiety corresponds to a molecular mass of 50 kDa. The substrate specificity of macluralisin towards synthetic peptides and insulin B-chain is similar to that of cucumisin, a subtilisin-like proteinase from melon fruit. The enzyme is completely inhibited by diisopropylfluorophosphate. Its amino-acid composition resembles that of a serine proteinase isolated from the Cucurbitaceae. The N-terminal sequence has 33% of its residues identical to those of the sequence of fungal subtilisin-like proteinase K. Hence, Maclura pomifera serine proteinase belongs to the subtilisin family, which seems to be broadly distributed in the plant kingdom.
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PMID:Macluralisin--a serine proteinase from fruits of Maclura pomifera (Raf.) Schneid. 776 35

A Beauveria bassiana extracellular subtilisin-like serine endoprotease is a potential virulence factor by virtue of its activity against insect cuticles. A cDNA clone of the protease was isolated from mycelia of B. bassiana grown on cuticle/chitin cultures. The amino acid sequence of this gene was compared to that of Metarhizium anisopliae Pr1, the only pathogenicity determinant so far described from an entomopathogenic fungus, and proteinase K, isolated from Tritirachium album, a saprophytic fungus. The cDNA sequence revealed that B. bassiana Pr1 is synthesized as a large precursor (M(r) 37,460) containing a signal peptide, a propeptide and the mature protein predicted to have an M(r) of 26,832.
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PMID:Cloning of a cuticle-degrading protease from the entomopathogenic fungus, Beauveria bassiana. 787 68

The action of serine (and cysteine) proteases on peptide esters proceeds, as a generalization, orders of magnitude faster than the corresponding enzymatic hydrolysis of peptide bonds or peptide amides. Esterolysis liberates an alcohol while generating a free carboxyl group on the peptide; the proton produced can be detected by the use of an appropriate indicator. The action of trypsin on benzyloxycarbonylalanylarginine methyl ester was used as a model for the development of a simple microtiter plate assay procedure that takes advantage of the speed of these reactions and the ease of detection afforded by the color change of the indicator. A family of ester substrates of the form benzyloxycarbonylalanyl-X-methyl ester, in which X is one of the 20 common amino acids, was synthesized to allow the determination of the primary specificity profiles of serine proteases. Using a 96-well microtiter plate the specificity profiles of four enzymes with all 20 substrates can be carried out in approximately 4 h per enzyme, including setting up and data processing. The primary substrate preferences of trypsin, chymotrypsin, thrombin, pancreatic elastase, alpha-lytic protease, subtilisin, and proteinase K were determined to demonstrate the method and were found to be in good general agreement with reported specificities established by more conventional means.
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PMID:A microtiter plate assay for the characterization of serine proteases by their esterase activity. 797 64

Proteinase K forms a 1:1 stable complex with its naturally occurring protein inhibitor, PKI3. The crystal structure of this complex has been determined by a combination of molecular replacement and single isomorphous replacement methods. The model comprises all of the 459 residues: 279 for proteinase K and 180 for PKI3, and it was refined to an R-factor of 19.2% at a resolution of 2.5 A. Association of these two molecules in the complex indicates the binding of PKI3 in the substrate recognition site of the enzyme. The active serine residue of proteinase K in this complex possesses a somewhat different configuration to that found in its native structure and hence renders the enzyme inactive.
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PMID:The three-dimensional structure of the complex of proteinase K with its naturally occurring protein inhibitor, PKI3. 813 34

Comparative studies of the hydrolysis of succinyl-Ala2-Phe-methylcoumarylamide with mesentericopeptidase, a mesophilic extracellular serine proteinase from Bacillus mesentericus, and proteinases produced by organisms representing different levels of evolutionary development, were performed. Drastic differences in the proteolytic coefficient kcat/Km were found. As regards their catalytic efficiency, the proteinases studied can be placed in the following order: mesentericopeptidase < subtilisin Novo << subtilisin DY < proteinase K < subtilisin Carlsberg < thermitase < alpha-chymotrypsin. The size of the substrate-binding site of mesentericopeptidase for synthetic peptides was studied by using chloromethyl ketones with the general formula benzyloxycarbonyl-Alan-Phe-CH2Cl (n = 1, 2, 3). The presence of at least five binding subsites (S1 ... S5) on the S-side of the hydrolysed bond was suggested. Studies of the primary specificity of mesentericopeptidase with a series of dipeptide chloromethyl ketones having the general formula benzyloxycarbonyl-Ala-Aa-CH2Cl (Aa = Ala, Val, Leu, Phe) revealed the following order of reactivity toward these inhibitors: Aa = Leu >> Ala > Phe > Val. Kinetically, mesentericopeptidase is similar to subtilisin BPN'/Novo.
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PMID:Kinetic characterization of alkaline mesentericopeptidase. Comparison with serine proteinases from different origins. 830 87

The TolQ and TolR proteins of Escherichia coli are required for the uptake of group A colicins and for infection by filamentous phages. Their topology in the cytoplasmic membrane was determined by cleavage with aminopeptidase K, proteinase K, and trypsin in spheroplasts and cell lysates. From the results obtained, it is proposed that the N terminus of TolQ is located in the periplasm and that it contains three transmembrane segments (residues 9 to 36, 127 to 159, and 162 to 191), a small periplasmic loop, and two large portions in the cytoplasm. The N terminus of TolR is located in the cytoplasm and is followed by a transmembrane segment (residues 21 to 40), and the remainder of the protein is located in the periplasm. A tolQ mutant, which rendered cells resistant to group A colicins and sensitive to cholate, had alanine 13 replaced by glycine and was lacking serine 14 in the first transmembrane segment. The membrane topologies of TolQ and TolR are similar to those proposed for ExbB and ExbD, respectively, which is consistent with the partial functional substitution between ExbB and TolQ and between ExbD and TolR. The amino acid sequences of these proteins display the highest homology in the transmembrane segments, which indicates that the membrane-spanning regions play an important role in the activities of the proteins.
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PMID:Membrane topologies of the TolQ and TolR proteins of Escherichia coli: inactivation of TolQ by a missense mutation in the proposed first transmembrane segment. 833 Oct 75

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