Transcriptional analysis of the hmw gene cluster of Mycoplasma pneumoniae.

Mycoplasma pneumoniae adherence to host cells is a multifactorial process that requires the cytadhesin P1 and additional accessory proteins. The hmw gene cluster consists of the genes p30, hmw3, and hmw1, the products of which are known to be essential for cytadherence, the rpsD gene, and six open reading frames of unknown function. Putative transcriptional terminators flank this locus, raising the possibility that these genes are expressed as a single transcriptional unit. However, S1 nuclease protection and primer extension experiments identified probable transcriptional start sites upstream of the p32, p21, p50, and rpsD genes. Each was preceded at the appropriate spacing by the -10-like sequence TTAAAATT, but the -35 regions were not conserved. Analysis of the M. pneumoniae genome sequence indicated that this promoter-like sequence is found upstream of only a limited number of open reading frames, including the genes for P65 and P200, which are structurally related to HMW1 and HMW3. Promoter deletion studies demonstrated that the promoter-like region upstream of p21 was necessary for the expression of p30 and an hmw3-cat fusion in M. pneumoniae, while deletion of the promoter-like region upstream of p32 had no apparent effect. Analysis by reverse transcription-PCR confirmed transcriptional linkage of all the open reading frames in the hmw gene cluster. Taken together, these findings suggest that the genes of this locus constitute an operon expressed from overlapping transcripts.

Construction and analysis of a modified Tn4001 conferring chloramphenicol resistance in Mycoplasma pneumoniae.

The Staphylococcus aureus transposon Tn4001 and derivatives thereof have been transformed successfully in several mycoplasma species. In order to expand the versatility of Tn4001 for other genetic manipulations and for use in mycoplasma species resistant to gentamicin (Gm), chloramphenicol acetyltransferase (Cat) from S. aureus was evaluated as a selectable marker. The cat gene was cloned in both orientations into a modified Tn4001 and transformed into Mycoplasma pneumoniae, conferring resistance to Cm and Gm. Replacement of the gene for GmR in Tn4001 with cat likewise conferred CmR when transformed into M. pneumoniae. The minimum inhibitory concentration to Cm in transformants with cat derivatives of Tn4001 was 300-500 microg/ml, and Cat enzyme activity was demonstrated by using a fluorescent substrate.