A second and unusual pucBA operon of Rhodobacter sphaeroides 2.4.1: genetics and function of the encoded polypeptides.

A new operon (designated the puc2BA operon) displaying a high degree of similarity to the original pucBA genes of Rhodobacter sphaeroides 2.4.1 (designated puc1) was identified and studied genetically and biochemically. The puc2B-encoded polypeptide is predicted to exhibit 94% identity with the original beta-apoprotein. The puc2A-encoded polypeptide is predicted to be much larger (263 amino acids) than the 54-amino-acid puc1A-encoded polypeptide. In the first 48 amino acids of the puc2A-encoded polypeptide there is 58% amino acid sequence identity to the original puc1A-encoded polypeptide. We found that puc2BA is expressed, and DNA sequence data suggested that puc2BA is regulated by the PpsR/AppA repressor-antirepressor and FnrL. Employing genetic and biochemical approaches, we obtained evidence that the puc2B-encoded polypeptide is able to enter into LH2 complex formation, but neither the full-length puc2A-encoded polypeptide nor its N-terminal 48-amino-acid derivative is able to enter into LH2 complex formation. Thus, the sole source of alpha-polypeptides for the LH2 complex is puc1A. The role of the puc1C-encoded polypeptide was also determined. We found that the presence of this polypeptide is essential for normal levels of transcription and translation of the puc1 operon but not for transcription and translation of the puc2 operon. Thus, the puc1C gene product appears to have both transcriptional and posttranscriptional roles in LH2 formation. Finally, the absence of any LH2 complex when puc1B was deleted in frame was surprising since we know that in the presence of functional puc2BA, approximately 30% of the LH2 complexes normally observed contain a puc2B-encoded beta-polypeptide.