SUPPRESSION OF METHICILLIN RESISTANCE IN A MECA-CONTAINING PRE-METHICILLIN-RESISTANT STAPHYLOCOCCUS-AUREUS STRAIN IS CAUSED BY THE MECI-MEDIATED REPRESSION OF PBP-2' PRODUCTION
K. Kuwaharaarai et al., SUPPRESSION OF METHICILLIN RESISTANCE IN A MECA-CONTAINING PRE-METHICILLIN-RESISTANT STAPHYLOCOCCUS-AUREUS STRAIN IS CAUSED BY THE MECI-MEDIATED REPRESSION OF PBP-2' PRODUCTION, Antimicrobial agents and chemotherapy, 40(12), 1996, pp. 2680-2685
The mechanism of methicillin susceptibility was studied in Staphylococ
cus aureus N315P, a pre-methicillin-resistant S. aureus strain that is
susceptible to methicillin, despite the presence of mecA in the chrom
osome, In the presence of mec regulator genes mecI and mecR1, transcri
ption of the mecA gene was not inducible by the addition of methicilli
n to the culture medium, Inactivation of the mecI gene function by rep
lacing it with tetL made N315P express heterogeneous-type methicillin
resistance, The subclone, in which the mecI gene was replaced, subclon
e P Delta I, produced 12 times greater amounts of mecA gene transcript
s and 8.5 times more PBP 2' protein than N315P. These data indicate th
at the mecI gene-encoded repression of mecA gene transcription is resp
onsible for the apparent methicillin susceptibility phenotype of pre-m
ethicillin-resistant S. aureus N315P.