Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
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Target Concepts:
Gene/Protein
Disease
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Query: EC:3.4.24.27 (
thermolysin
)
1,894
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A family of mutant amidases has been derived by experimental evolution of the aliphatic amidase of Pseudomonas aeruginosa strain PAC1. Mutation amiE16, in the structural gene for the enzyme, results in the production of the mutant B amidase by strain B6. This strain, unlike the wild-type, can utilize butyramide for growth. Strain B6 gave rise by a single mutational event to strain V9, utilizing valeramide, and strain PhB3, utilizing phenylacetamide. Strain V9 was not itself able to utilize phenylacetamide but gave rise by mutation to the phenylacetamide-utilizing mutant PhV1. Peptide 108 was isolated from chymotryptic digests of mutant amidases from strains B6, PhB3 and PhV1, but could not be detected in chymotryptic digests of the wild-type amidase. The sequence of peptide 108 was established as Met-Arg-His-Gly-Asp-Ile-Phe. Thermolytic digests of mutant amidases from strains B6, PhB3, PhV1 and V9 were compared with digests of the wild-type amidase. A peptide of the composition Met, Arg, His, Gly2, Asp3, Ile, Ser3, Thr, Val was found in the digest of the wild-type amidase and was replaced in the digests of the mutant amidases by a peptide of the composition Met, Arg, His, Gly2, Asp3, Ile, Ser3, Thr, Val, Phe. Mutation amiE16 is common to the four mutant enzymes and can be accounted for by the mutation Ser leads to Phe. The sequence of the chymotryptic peptide corresponds with the N-terminal sequence of the amidase protein, and can also be related to the
thermolysin
peptides. It is concluded that mutation amiE16 is a Ser leads to Phe change at position 7 from the N-terminus and the effect of this on the enzyme conformation is discussed.
J
Gen
Microbiol 1979 Sep
PMID:Molecular basis of altered enzyme specificities in a family of mutant amidases from Pseudomonas aeruginosa. 11 34
The gene (nprM) for the highly thermostable neutral protease of Bacillus stearothermophilus MK232 was cloned in Bacillus subtilis using pTB53 as a vector. The nucleotide sequence of nprM and its flanking regions was determined. The DNA sequence revealed only one large open reading frame, composed of 1656 base pairs and 552 amino acid residues. A Shine-Dalgarno (SD) sequence was found 12 bases upstream from the translation start site (ATG). A possible promotor sequence (TTTTCC for the -35 region and TATTGT for the -10 region), which was nearly identical to the promoter for another thermostable neutral protease gene, nprT, was also found about 40 bases upstream of the SD sequence. The deduced amino acid sequence contained a signal sequence in its amino-terminal region. The sequence of the first five amino acids of purified extracellular protease completely matched residues 237-241 of the open reading frame. This suggests that the enzyme is translated as a large polypeptide containing a pre-pro structure as is known for other neutral proteases. The amino acid sequence of the extracellular form of this protease (316 amino acids, molecular mass 34,266 Da) was identical to that of the thermostable neutral protease (
thermolysin
) from Bacillus thermoproteolyticus except for two amino acid substitutions (Asp37 to Asn37 and Glu119 to Gln119). The G + C content of the coding region of nprM was 42 mol%, while that of the third letter of the codons was lower (36 mol%). This extremely low content is an exceptional case for genes from thermophiles. When the protease genes, nprM and nprT, were cloned on pTB53 in B. subtilis, the expression of nprM was about 20 times higher than that of nprT. The reason for the difference between the two systems is discussed.
J
Gen
Microbiol 1988 Jul
PMID:Cloning and nucleotide sequence of the highly thermostable neutral protease gene from Bacillus stearothermophilus. 314 72
The surface protein gp70 of an ecotropic murine retrovirus was followed during entry of [3H]glucosamine-labelled virions into SC-1 mouse fibroblasts. Upon entry, gp70 was cleaved into fragments with molecular weights 35K, 30K and 17K. The 35K and 17K fragments were also observed after trypsin or
thermolysin
cleavage of the virion, indicating that certain locations on the gp70 molecule are easily accessible from the outside of the virion. The conformation of gp70 on the membrane was shown to have a major effect on the cleavage. This protein is known to be important for early interactions with the cell (binding and membrane fusion). The results indicate that gp70 cleavage may be important for membrane fusion.
J
Gen
Virol 1987 Aug
PMID:Cleavage fragments of the retrovirus surface protein gp70 during virus entry. 361 88
Among mutants of E. coli selected for temperature-sensitive growth, four were found to possess alterations in ribosomal proteins L7/L12. Of these, three apparently lack protein L7, the acetylated form of protein L12. Genetic analyses have revealed that the mutation responsible for this alteration maps at a locus around 34 min of the current E. coli genetic map, which is clearly different from the location for the structural gene for protein L7/L12 which is situated at 89 min. Hence, the gene affected in these mutants was termed rimL. Tryptic and
thermolysin
fingerprints of the protein L12 purified from the rimL mutants showed a profile indistinguishable from that of wild-type protein. It was found that the assayed in vitro, in the high-speed supernatant prepared from mutant cells. These results indicated that the three mutants contain mutations in the gene rimL codes for an acetylating enzyme specific for ribosomal protein L12.
Mol
Gen
Genet 1981
PMID:Ribosomal protein modification in Escherichia coli. III. Studies of mutants lacking an acetylase activity specific for protein L12. 703 78
New classes of mutants of influenza virus A/seal/Mass/1/80 are described in which the haemagglutinins (HA) have lost their protease cleavability by trypsin, but can be activated by elastase, chymotrypsin or
thermolysin
in different cell types. The same proteases that were required for activation of infectivity of the mutants also activated haemolysis and cell-fusing properties. The protease activation (pa)-mutants were non-pathogenic for chickens, but induced a protective immune response against a highly pathogenic challenge virus. The failure of the mutants to be activated by trypsin, but instead to be activated by the other proteases employed, was related to amino acid exchanges around the HA cleavage site. The cleavability of the chymotrypsin and elastase pa-mutants is most likely determined by replacement of Arg-1 by neutral amino acids such as Ile, Thr, Met or Leu, depending on the substrate specificity of the activating proteases. Cleavage activation of the
thermolysin
pa-mutants, on the other hand, became possible by insertion of a single Leu residue at position 4 of the HA2 polypeptide, which compensates for the loss of the Gly residue at the N terminus of the fusion peptide due to
thermolysin
cleavage. The correction of the mutations in revertants confirmed the conclusions drawn from sequence analyses of the pa-mutants.
J
Gen
Virol 1995 Mar
PMID:Trypsin-resistant protease activation mutants of an influenza virus. 789 52
The gene encoding the extracellular neutral metalloprotease ShpI from Staphylococcus hyicus subsp. hyicus was cloned. DNA sequencing revealed an ORF of 1317 nucleotides encoding a 438 amino acid protein with Mr of 49,698. When the cloned gene was expressed in Staphylococcus carnosus, a 42 kDa protease was found in the culture medium. The protease was purified from both S. carnosus (pCAshp1) and S. hyicus subsp. hyicus. The N-terminal amino acid sequences of the two proteases revealed that ShpI is organized as a pre-pro-enzyme with a proposed 26 amino acid signal peptide, a 75 amino acid hydrophilic pro-region, and a 337 amino acid extracellular mature form with a calculated Mr of 38,394. The N-termini showed microheterogeneity in both host strains. ShpI had a maximum proteolytic activity at 55 degrees C and pH 7.4-8.5. The protease, which had a low substrate specificity, could be inhibited by metal- and zinc-specific inhibitors, such as EDTA and 1,10-phenanthroline. Insensitivity to phosphoramidon separates ShpI from the
thermolysin
-like family. The conserved Zn2+ binding motif, the only homology to other proteases, and the reactivation of the apoenzyme by Zn2+, indicated that Zn2+ is the catalytic ion. Ca2+ very probably acts as a stabilizer. We also demonstrated the presence of a second extracellular protease in S. hyicus subsp. hyicus.
Mol
Gen
Genet 1994 Feb
PMID:Genetic and biochemical properties of an extracellular neutral metalloprotease from Staphylococcus hyicus subsp. hyicus. 812 97
The cerebral prion protein (PrP) isolated in the absence of proteinase K digestion, from ruminants prion sources transmitted to ovine transgenic mice, was studied by Western blot analysis. A C2 PrP fragment, showing strain-specific cleavages, similar to those observed after proteinase K or
thermolysin
digestion, accumulated in the brain. 'CH1641-like' scrapie was characterized by the unique accumulation of a more C-terminally cleaved PrP fragment (CTF14). A similar, protease-resistant, PrP product was observed after proteinase K or
thermolysin
digestion. Whereas classical BSE appeared highly resistant to
thermolysin
digestion, CH1641 and 'CH1641-like' natural isolates did not show any remarkable feature regarding resistance to
thermolysin
. Thus, the molecular strain-specific features in the brain of transmissible spongiform encephalopathy infected mice essentially reflect the PrP proteolytic processing occurring in vivo.
J
Gen
Virol 2010 Feb
PMID:Strain-specific proteolytic processing of the prion protein in prion diseases of ruminants transmitted in ovine transgenic mice. 1982 61
