Identification of an essential upstream element in the nopaline synthase promoter by stable and transient assays
- PMID: 16593869
- PMCID: PMC298939
- DOI: 10.1073/pnas.84.16.5745
Identification of an essential upstream element in the nopaline synthase promoter by stable and transient assays
Abstract
We studied the fine structure of the nopaline synthase (nos) promoter, which is active constitutively in a wide range of plant tissues, by both transient and stable transformation expression analyses. 3' and 5' deletion fragments were linked to form a set of internal deletion and duplication mutants that scanned the nos promoter. These mutated promoters were linked to the gene for the marker chloramphenicol acetyltransferase (CATase) as a means to readily assay promoter strength. The stable transformation analysis revealed the functional importance of an extended CCAAT box region (-97 to -63). Deletion of an upstream region (-112 to -101) containing an octameric repeated element resulted in a reduction in promoter strength by a factor of 30. A further deletion (-119 to -101) disrupted a potential Z-DNA-forming element as well, totally eliminating promoter function. Thus, a 19-base deletion across a repeated octamer and a potential Z-DNA-forming element identifies an essential upstream activator in the nos promoter. Duplication of the upstream element tripled promoter activity. Electroporation-mediated transient analysis was unable to distinguish downstream promoter elements. However, the upstream element behaved similarly in both assays in that deletion of the entire upstream element resulted in no promoter activity and that duplication of the element significantly enhanced the promoter strength.
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