cis-acting regulatory elements involved in oxygen and light control of puc operon transcription in Rhodobacter sphaeroides.

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J Bacteriol. 1992 February; 174(4): 1146-1157

research-article

cis-acting regulatory elements involved in oxygen and light control of puc operon transcription in Rhodobacter sphaeroides.

J K Lee and S Kaplan

Department of Microbiology and Molecular Genetics, University of Texas Medical School, P.O. Box 20708, Houston 77225.

ABSTRACT

Transcriptional expression of the puc operon in Rhodobactersphaeroides is highly regulated by both oxygen and light. Theapproximately 600 bp of DNA upstream of the 5' ends of the twopuc-specific transcripts encompasses two functionally separablecis-acting domains. The upstream regulatory region (URS) (-629to -150) is responsible for enhanced transcriptional regulationof puc operon expression by oxygen and light. The more proximalupstream region (downstream regulatory region [DRS]), containingputative promoter(s), operator(s), and factor binding sites(-150 to -1), is involved in unenhanced transcriptional expressionof the puc operon under aerobic and anaerobic conditions. Thus,the DRS shows normal derepression of puc operon expression whencells are shifted from aerobic to photosynthetic growth conditionsin terms of percent change but does not show the potential rangeof expression that is only observed when elements of the URSare present. Because of these observations, we have made a distinctionbetween anaerobic control (describing the shift) and oxygencontrol (describing the magnitude of derepression). Promoter(s)and/or activator function(s) of the puc operon is associatedwith a 35-bp DNA region between -92 and -57. Homologous sequencesat -10 to -27 and -35 to -52 appear to involve additional regulatoryelements: mutations at -12 (A to C) and -26 (G to A) resultin partial derepression of puc operon expression under conditionsof high aeration. Both point mutations require the upstreamregulatory region (-629 to -150) to be present in cis for partialderepression of puc operon transcription under aerobic conditions.Immediately upstream of the promoter and/or activator regionare overlapping consensus sequences for IHF (integratin hostfactor) and FNR (fumarate nitrate reductase) (-105 to -129).This region appears to be essential for enhanced expressionof the puc operon. Thus, these two regulatory domains (URS andDRS) appear to involve approximately seven unique regulatoryelements. In addition, the data reveal a direct interactionbetween the URS (-629 to -150) and the DRS (-150 to -1).

J Bacteriol. 1992 February; 174(4): 1146-1157

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