The Q gene of Rhodobacter sphaeroides: its role in puf operon expression and spectral complex assembly.

AUTOR(ES)

Gong, L

RESUMO

The Q gene of the facultative photoheterotroph Rhodobacter sphaeroides, localized immediately upstream of the oxygen- and light-regulated puf operon, encodes a 77-amino-acid polypeptide. The 5' and 3' ends of the 561-bp Q transcript were determined. To gain insight into the role of the Q gene product, a number of Q mutations were constructed by oligonucleotide-directed mutagenesis and subsequent substitution of the mutated form of the gene in single copy for the chromosomal copy via homologous recombination. The resulting mutants can grow photosynthetically, with the exception of QSTART, in which the initiation codon for the Q protein was altered. Spectral analysis of the intracytoplasmic membranes showed that one of the missense mutants (QdA) was deficient in the formation of detectable B875 light-harvesting complex (LHC), whereas deletion of the stem-loop structure (Qloop) failed to form B800-850 LHC when grown anaerobically either in the dark or under light intensity of 100 W/m2. Other missense mutants (QuA and QuB) contained either more B800-850 LHC or more B875 LHC, respectively, than the wild type. Although the levels of puf and puc transcripts isolated from QSTART grown anaerobically on succinate-dimethyl sulfoxide in the dark were comparable to wild-type levels, no B875 spectral complex was detected and there was a greater than 90% reduction in the level of the B800-850 pigment-protein complex. It has also been confirmed that the ultimate cellular levels of either the B875 or B800-850 spectral complexes can vary over wide limits without any change in the level(s) of complex specific transcripts. When the wild-type Q gene was reintroduced in trans into the Q mutations, QSTART was able to grow photosynthetically and both B800-850 and B875 spectral complexes were formed in either QdA or Qloop. Finally, we demonstrated that the level of each puf-specific mRNA behaves independently of one another as well as independently of the level(s) of Q gene-specific mRNA. These results are compatible with the existence of regulatory sequences affecting the puf mRNA level(s) being localized within the Q structural gene. These results suggest that Q-specific expression is uncoupled from puf-specific transcription and that the Q protein is not involved in the regulation of transcription of the puf operon but is directly involved in the assembly of both the B875 and B800-850 pigment-protein complexes.

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