Plant nuclear factor ASF-1 binds to an essential region of the nopaline synthase promoter

We have characterized a tobacco nuclear factor that binds to the -118 region of the nopaline synthase (nos) promoter from the Ti plasmid of Agrobacterium tumefaciens. The binding site for this factor, identified by DNase I footprinting, encompasses the region from -138 to -103 of the nos promoter. This region, which contains a potential Z-DNA-forming sequence, was previously shown to be essential for nos promoter activity in transgenic tobacco. A synthetic 21-base pair sequence from the protected region (from -131 to -111), designated as nos-1, was sufficient for factor recognition in vitro. In transgenic tobacco, a tetramer of nos-1 can confer leaf and root expression when fused upstream of a truncated 35 S promoter from the cauliflower mosaic virus. Mutations at the two TGACG-like motifs in nos-1 abolish factor binding while preserving the potential for Z-DNA formation. A tetramer of the nos-1 mutant sequence has no significant activity above background when tested in transgenic tobacco. Competition experiments with activation sequence factor (ASF)-1 binding sites from the 35 S promoter of cauliflower mosaic virus (as-1) and the wheat histone H3 promoter (hex-1) demonstrate that ASF-1 is the factor that binds to nos-1.     

Cis-elements and trans-factors that regulate expression of the maize Cat1 antioxidant gene in response to ABA and osmotic stress: H2O2 is the likely intermediary signaling molecule for the response

The mechanisms by which the maize antioxidant Cat1 gene responds to abscisic acid (ABA) and osmotic stress have been investigated. Results show that during late embryogenesis, Cat1 expression in vivo is independent of endogenous ABA levels. However, exogenously applied ABA significantly enhances Cat1 expression. Transient assays using particle bombardment show that the proximal ABRE2 element on the Cat1 promoter is responsible for the induction of Cat1 expression by ABA. We further show that ABA induces the expression of Cat1 via the interaction between ABRE2 and one of its binding proteins, CBF1 (Cat1 binding factor 1). Using ABA-deficient mutant embryos, we show that osmotic stress induces Cat1 expression through two alternate signal transduction pathways: an ABA signaling pathway leading to the interaction between the ABRE2 motif and CBF1, and a pathway via the interaction of ABRE2 and CBF2 (Cat1 binding factor 2) that is independent of ABA. The data presented clearly suggest that hydrogen peroxide (H2O2) plays an important intermediary role in the ABA signal transduction pathway leading to the induction of the Cat1 gene.     

ASF-2: a factor that binds to the cauliflower mosaic virus 35S promoter and a conserved GATA motif in Cab promoters.

We have used nuclear extracts prepared from tobacco leaf tissue to characterize a factor binding site, designated as-2 (activating sequence-2), at the -100 region of the cauliflower mosaic virus 35S promoter. The activity of this factor, called ASF-2 (activating sequence factor-2), is not detected in tobacco root extracts. as-2 includes two GT motifs with sequence homology to the SV40 enhancer core A element and the Box II element of pea rbcS. Nevertheless, oligomers of these sequence elements do not compete for ASF-2 binding in gel retardation assays, indicating that the GT motifs may not be involved. Methylation interference studies identify two guanines (G93 and G98) that are required for interaction with ASF-2. Sequences surrounding these two critical guanines display homologies to a GATA repeat conserved among several light-responsive promoters. One such sequence from a petunia Cab promoter is able to compete with as-2 for factor binding. In transgenic plants, a tetramer of as-2 is able to confer leaf expression when fused 5' to the -90 derivative of the 35S promoter. The expression is not dependent on light and, thus, the as-2 tetramer does not function as a light-responsive element in this context. Histochemical localization of the reporter gene product suggests that the as-2 tetramer directs expression in trichomes, vascular elements, and epidermal and mesophyll cells.     

Abscisic acid-responsive sequences from the em gene of wheat.

We demonstrate that a chimeric gene containing the beta-glucuronidase (GUS) reporter gene linked to a 646-base pair 5' fragment (-554 to +92) from the abscisic acid (ABA)-regulated Em gene from wheat is correctly expressed in transgenic tobacco. We observe high activity only in embryos of mature seeds, and immature seeds cultured on ABA show enhanced expression. Using a rice transient assay, we identify a 260-base pair fragment (-168 to +92) that accounts for the ABA-specific 15-fold to 20-fold increase in GUS expression. A 50-base pair sequence (-152 to -103) fused 5' in either orientation to a truncated cauliflower mosaic virus promoter (35S) increases GUS activity threefold in the presence of ABA. Insertion of the Em 5'-untranslated region (+6 to +86) between the 35S promoter and the ATG of GUS results in a 10-fold increase in GUS activity in the absence of ABA. These results suggest the following two functional fragments of the Em 5' region: an ABA response element from -152 to -103 and an element between +6 and +86 that quantitatively increases the ABA response.     

Regulation of the maizerab17 gene promoter in transgenic heterologous systems

The maizerab17 gene is expressed in different plant parts in response to ABA and osmotic stress (J. Vilardellet al., Plant Mol Biol 14 (1990) 423–432). Here we demonstrate that 5 upstream sequences of therab17 gene confer the appropriate patterns of expression on the chloramphenicol acetyl transferase (CAT) reporter gene in transgenic tobacco plants, as well as in protoplasts derived from cultured rice cells. Specifically, a CAT construct containing a large 5 upstream fragment ofrab17 (–1330/+29) results in high levels of CAT activity in embryos, leaves and roots of transgenic plants subjected to water stress or ABA treatment. Transient expression assays in rice protoplasts transfected with CAT genes fused torab17 promoter deletions indicate that a 300 bp DNA fragment (–351/–102) is sufficient to confer ABA responsiveness upon the reporter gene. Furthermore, a 100 bp sequence (–219/–102) is capable of conferring ABA responsiveness upon a minimal promoter derived from the 35S CaMV promoter. Gel retardation experiments indicate that maize nuclear proteins bind to this fragment. This region of 100 bp contains a sequence (ACGTGGC) which has been identified as an abscisic acid response element in studies of other ABA-responsive plant genes.     

Abscisic acid promotes novel DNA-binding activity to a desiccation-related promoter of Craterostigma plantagineum

Abscisic acid-treated callus of the resurrection plant Craterostigma plantagineum tolerates extreme desiccation. Nuclear proteins from tolerant callus bind specific sequence elements in the promoter region of the ABA and desiccation-inducible CDeT27–45 gene. One specific region of the promoter, which is protected from DNAse I treatment by DNA-binding activities, is different from previously reported ABA response elements. Four complexes of nuclear proteins and this DNA region are detected by electrophoretic mobility shift assay: two of these complexes (I and II) are readily detectable in untreated samples and are increased by ABA treatment while two other complexes (III and IV) accumulate only following ABA treatment and are prevented from accumulating by protein synthesis inhibitors. When a fragment containing the novel binding site is deleted from the wild-type promoter the ABA responsiveness of the promoter is removed; however, gain of function experiments using synthetic promoters in a protoplast transient assay suggest that besides the binding site other promoter elements are required. A second region of the promoter, containing the sequence element ACGT which is found in abscisic acid response elements, is also bound by nuclear proteins. The level of this second binding activity is similar in both untreated and ABA-treated cells and promoter/reporter gene constructs which contain only the four ACGT elements of the CDeT27–45 promoter are not ABA responsive in a C. plantagineum transient assay system