Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.31.1 (micrococcal nuclease)
 2,818 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

On the basis of the biophysical studies on the synthetic mutant (Ile-8----Asn) OmpA signal peptide in the preceding paper (Hoyt, D. C., and Gierasch, L.M. (1991) J. Biol. Chem. 266, 14406-14412), the in vivo effects of the same mutation were examined by fusing the mutant OmpA signal sequence to Staphylococcus aureus nuclease or TEM beta-lactamase. The mutation in which the isoleucine residue at position 8 of the OmpA signal sequence of Escherichia coli was replaced with a neutral polar residue, asparagine, resulted in a defective signal peptide. The mutant signal sequence was unable to be processed, and the precursor molecule accumulated in the cytoplasmic as well as in the membrane fractions, indicating that the Ile-8----Asn OmpA signal sequence is not competent for translocating nuclease A or beta-lactamase across the membrane. This result is consistent with the in vitro studies on the Ile-8----Asn OmpA signal peptide, which indicated that the mutant signal peptide was unable to penetrate into the hydrophobic core of the lipid bilayer. Other asparagine or glutamine substitution mutations in the hydrophobic region of the OmpA signal sequence were also examined. Interestingly, the OmpA signal sequence with either Ile-8----Gln, Val-10----Asn, or Leu-12----Asn mutation was completely defective as the Ile-8----Asn OmpA signal sequence, while the Ile-6----Asn and Ala-9----Asn OmpA nucleases were able to be processed to secrete nuclease, although the processing occurred at a much slower rate than the wild-type OmpA nuclease. These results indicate that the defects depend on the position of the lesion in the hydrophobic core of the OmpA signal sequence.
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PMID:In vivo effect of asparagine in the hydrophobic region of the signal sequence. 186 Aug 48

Oligonucleotide-directed site-specific mutagenesis was used to study the structure-function relationship of the positively charged amino terminus of the Escherichia coli outer membrane protein OmpA signal peptide. Mutations were isolated which reduced the overall charge of the amino-terminal region from +2 (wild type) to +1, 0, and -1, as well as one mutation from Thr to Ser at position 4. DNA encoding the wild type and mutant OmpA signal peptides was then fused in-frame to DNA encoding the mature regions of Staphylococcus aureus nuclease A and TEM beta-lactamase. In the case of both the beta-lactamase and nuclease fusions, normal processing was no longer observed when the charge at the amino terminus was reduced to zero or made negative. Differences between the two hybrid proteins were observed in the case of the Thr to Ser mutation. As expected, this mutation had no effect on the beta-lactamase hybrid; however, the processing rate of the nuclease hybrid protein was reduced to nearly one-half. Furthermore, this effect was essentially reversed when a Lys residue at position 3 was deleted. A model is presented which explains the differing effects of a signal peptide mutation on the secretion of different hybrid proteins based on kinetic differences in the translocation of the nuclease and beta-lactamase proteins.
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PMID:Modulation of the effects of mutations in the basic region of the OmpA signal peptide by the mature portion of the protein. 329 25

Oligonucleotide-directed site-specific mutagenesis was used to systematically shorten the hydrophobic region within the signal peptide of the Escherichia coli outer membrane protein OmpA. DNA encoding the wild type and mutant OmpA signal peptides were then fused in frame to DNA encoding the mature regions of Staphylococcus aureus nuclease A and TEM beta-lactamase. The ability of these signal peptides to direct processing of the resulting hybrid proteins was dependent on both their length and the protein to which they were fused. Deletion of two or more residues progressively slowed processing of pro-OmpA-nuclease. By contrast, pro-OmpA-beta-lactamase was less sensitive to the length of the hydrophobic region than to the nature of the deleted residue(s). Deletion of an Ala residue tended to reduce processing efficiency of pro-OmpA-beta-lactamase, while deletion of an Ile residue, together with the Ala residue, resulted in improvement. The loss of either 3 or 4 residues abolished processing of both hybrids. These data indicate that both the length as well as the identity of residues in the hydrophobic region are important. The relative importance of these two factors depends on the mature region of the protein being secreted.
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PMID:The differential effect on two hybrid proteins of deletion mutations within the hydrophobic region of the Escherichia coli OmpA signal peptide. 354 10