Analysis of signals for secretion in the staphylococcal protein A gene

Abstract

Different constructs of the gene encoding staphylococcal protein A were introduced in Staphylococcus aureus and S. xylosus as well as Escherichia coli. The product of the gene without the cell wall anchoring domain was efficiently secreted in all three hosts. N-terminal sequencing of the affinity-purified mature protein revealed a common processing site after the alanine residue at position 36. In contrast, when an internal IgG-binding fragment of protein A (region B) was inserted after the protein A signal sequence, the product was poorly secreted and N-terminal sequencing revealed no processing at the normal site. This demonstrates that the structure of the polypeptide chain beyond the signal peptide cleavage site can affect cleavage. Another construct, containing the N-terminal IgG-binding part of the mature protein A (region E) followed by region B, gave correct processing and efficient secretion. Unexpectedly, the gene product, EB, was not only secreted and correctly processed, but was also excreted to the culture medium of E. coli. Secretion vectors containing the protein A signal sequence were constructed to facilitate secretion of foreign gene products. Insertion of the E. coli gene phoA, lacking its own promoter and signal sequence, led to efficient secretion of alkaline phosphatase both in E. coli and S. aureus.