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Disease
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Drug
Enzyme
Compound
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Gene/Protein
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Target Concepts:
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Query: EC:3.1.1.5 (
neuropathy target esterase
)
1,070
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The interaction between Penicillium notatum
phospholipase B
and divalent cations such as Ca2+ and Mg2+ was studied. When the purified enzyme, present at concentrations of submicrogram to microgram per ml, was incubated with submillimolar to millimolar concentrations of CaCl2 or MgCl2, the enzymatic activity was remarkably decreased (to no more than 30% of original activity, when the enzyme was incubated with 2 mM CaCl2 for 15 min). The inhibitory effect of divalent cations was reversible, since dialysis against a metal chelator, such as EDTA or EGTA, substantially restored the enzymatic activity. Atomic absorption analysis showed the purified enzyme molecule to be present in a complex with Ca2+ at a ratio approaching 1:1, and this Ca2+ binding was shown to be extremely tight, since repeated dialyses of the enzyme molecules against EDTA or EGTA could remove the divalent cations only in a gradual manner. During this process, the enzyme activity increased also gradually. The remnant fraction of tightly bound Ca2+ was released from the enzyme molecule after the denaturation of the enzyme by treatment with
guanidine
hydrochloride, and the apoenzyme recovered its substantial activity after removal of the denaturing agent by dialysis. On the other hand, the content of Mg2+ in the purified enzyme molecule was lower than that of Ca2+, and the association of Mg2+ with the enzyme was much weaker in comparison to that of Ca2+. Atomic absorption analysis of the enzyme exposed to exogenous Ca2+ showed a fast removal, by dialysis, of unbound and weakly bound divalent cation, followed by a gradual removal of endogenous Ca2+ and a concomitant increase of enzymatic activity, which are similar to data obtained for the purified enzyme. Results shown in this report suggest some regulatory roles of divalent cations, especially of Ca2+, in the enzymatic function of P. notatum phospholipse B.
...
PMID:Interaction of Penicillium notatum phospholipase B with divalent cations. 336 41
Two types of
phospholipase B
of Penicillium notatum, the native type and the modified type that is thought to be generated by the introduction of some nicks into the native type of enzyme by the endogenous protease(s), were distinguished on a slab sodium dodecyl sulfate (SDS)-polyacrylamide gel electrophoresis under a nonreducing condition. The native form migrated with a rate corresponding to 95K Da, whereas the modified form migrated more slowly, corresponding to 106K Da, presumably because of its more extended conformation. That the "106K" protein was indeed a nicked product of the "95K" protein was confirmed by amino acid analysis, peptide mapping, N- and C-terminal sequence analyses, and immunoblotting. The peptide fragments (70K and 37K + 32K) comprising the modified protein were isolated by gel filtration in the presence of SDS and 2-mercaptoethanol (the 32K peptide was suggested to be a partial proteolytic product of the 37K peptide). When the "95K" protein was subjected to the same treatment under denaturing condition, it retained a low, but significant, enzymatic activity; in contrast, the separated peptide fragments did not show any significant activity. By a coincubation of these fragments, however, a restoration of enzymatic activity was observed through a reformation of the active complex, corresponding to the original modified protein. The enzymatic activity of this complex was further increased by a treatment with
guanidine
X HCl, followed by dialysis. The association of peptide fragments appears to occur through the formation of interpeptidal disulfide bonds.
...
PMID:Molecular relationship between two types of phospholipase B from Penicillium notatum and reconstitution of active enzyme from its peptide fragments. 354 77
