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Introduction of a constitutive antisense full-length chalcone synthase (CHS) cDNA gene in petunia can result in an inhibition of flower pigmentation. We have evaluated some of the factors which may be important for the effectiveness of an antisense CHS gene. Antisense CHS genes encoding half-length or quarter-length RNA complementary to the 3' half of CHS mRNA are able to affect flower pigmentation, while a gene encoding RNA complementary to the 5' half of CHS mRNA did not show phenotypic effects in transgenic petunia plants. We demonstrate that the RNA encoded by the latter gene has a much lower average steady-state level in leaf tissue than the RNAs encoded by the other antisense gene constructs. We have compared the CaMV 35S and endogenous CHS promoter strengths and intrinsic stabilities of sense and antisense CHS RNAs. From the data we conclude that the constitutive antisense CHS genes are not likely to provide an excess of antisense RNA compared to the CHS mRNA derived from the endogenous genes. Effective inhibition of flower pigmentation is also observed when the antisense CHS gene is under control of the homologous CHS promoter. The results indicate that the mechanism of antisense inhibition cannot solely operate via RNA duplex formation between sense and antisense RNA.
Plant Mol Biol 1990 Apr
PMID:Inhibition of flower pigmentation by antisense CHS genes: promoter and minimal sequence requirements for the antisense effect. 210 27

A cDNA clone (pcM12) of the chalcone synthase (CHS) of Matthiola incana R. Br. (Brassicaceae) was isolated from a cDNA library, sequenced and analysed. It comprises the complete coding sequence for the CHS and 5' and 3' untranslated regions. The deduced amino acid sequence shows that the Matthiola incana CHS consists of 394 amino acid residues. Comparison with CHS amino acid sequences of other plants indicates more than 82% homology.
Plant Mol Biol 1990 Jun
PMID:Isolation and sequence analysis of a chalcone synthase cDNA of Matthiola incana R. Br. (Brassicaceae). 210 73

In order to scan the 5' flanking region of the chalcone synthase (chs A) gene for regulatory sequences involved in directing flower-specific and UV-inducible expression, a chimaeric gene was constructed containing the chs A promoter of Petunia hybrida (V30), the chloramphenicol acetyl transferase (cat) structural sequence as a reporter gene and the chs A terminator region of Petunia hybrida (V30). This chimaeric gene and 5' end deletions thereof were introduced into Petunia plants with the help of Ti plasmid-derived plant vectors and CAT activity was measured. A 220 bp chs A promoter fragment contains cis-acting elements conferring flower-specific and UV-inducible expression. A promoter fragment from -67 to +1, although at a low level, was still able to direct flower-specific expression but could not drive UV-inducible expression in transgenic Petunia seedlings. Molecular analysis of binding of flower nuclear proteins to chs A promoter fragments by gel retardation assays showed strong specific binding to the sequences from -142 to +81. Promoter sequence comparison of chs genes from other plant species, combined with the deletion analysis and gel retardation assays, strongly suggests the involvement of the TACPyAT repeats (-59 and -52) in the regulation of organ-specificity of the chs A gene in Petunia hybrida. We also describe an in vitro organ-specific transient expression system, in which flower or purple callus protoplasts are used, that enables us to pre-screen organ-specific expression of a chimaeric reporter gene.
Plant Mol Biol 1990 Jul
PMID:Promoter analysis of the chalcone synthase (chsA) gene of Petunia hybrida: a 67 bp promoter region directs flower-specific expression. 210 46

Four independent recombinant lambda clones hybridizing to parsley chalcone synthase (CHS) cDNA were isolated from a soybean (Glycine max) genomic library. Restriction fragment length polymorphism (RFLP) analysis indicated that the CHS gene family comprises six members. The CHS genes were found to be clustered with three genes on a 10 kb segment and pairs on others. DNA sequences of the 5'-, the coding-, and the 3' untranslated regions were determined for three different genes. A consensus alignment of the 5' regions revealed extensive homology between them for up to 150 bp upstream of the TATA box. Developmental regulation of CHS was observed in uninfected and in rhizobium-infected roots. Regulation at the level of transcription by different stimuli was investigated in the root, stem and cotyledons of soybean seedlings. Our results suggest a co-operative induction of CHS genes by wounding and elicitor treatment of cotyledons. The most rapid transcript accumulation, however, was observed in roots and stems. The induction of CHS genes by light was found to be UV dependent. A possible involvement of different members of the CHS gene family in response to elicitor versus UV treatment was analysed by the use of gene specific probes, and unexpectedly revealed that only CHS 1 transcription was induced by either elicitor or UV treatment of seedlings.
Mol Gen Genet 1989 Aug
PMID:Differential regulation of soybean chalcone synthase genes in plant defence, symbiosis and upon environmental stimuli. 247 56

In this paper we describe the organization and expression of the genes encoding the flavonoid-biosynthetic enzyme dihydroflavonol-4-reductase (DFR) in Petunia hybrida. A nearly full-size DFR cDNA clone (1.5 kb), isolated from a corolla-specific cDNA library was compared at the nucleotide level with the pallida gene from Antirrhinum majus and at the amino acid level with enzymes encoded by the pallida gene and the A1 gene from Zea mays. The P. hybrida and A. majus DFR genes transcribed in flowers contain 5 introns, at identical positions; the three introns of the A1 gene from Z. mays coincide with the first three introns of the other two species. P. hybrida line V30 harbours three DFR genes (A, B, C) which were mapped by RFLP analysis on three different chromosomes (IV, II and VI respectively). Steady-state levels of DFR mRNA in the line V30 follow the same pattern during development as chalcone synthase (CHS) and chalcone flavanone isomerase (CHI) mRNA. Six mutants that accumulate dihydroflavonols in mature flowers were subjected to Northern blot analysis for the presence of DFR mRNA. Five of these mutants lack detectable levels of DFR mRNA. Four of these five also show drastically reduced levels of activity for the enzyme UDPG: flavonoid-3-O-glucosyltransferase (UFGT), which carries out the next step in flavonoid biosynthesis; these mutants might be considered as containing lesions in regulatory genes, controlling the expression of the structural genes in this part of the flavonoid biosynthetic pathway. Only the an6 mutant shows no detectable DFR mRNA but a wild-type level for UFGT activity. Since both an6 and DFR-A are located on chromosome IV and DFR-A is transcribed in floral tissues, it is postulated that the An6 locus contains the DFR structural gene. The an9 mutant shows a wild-type level of DFR mRNA and a wild-type UFGT activity.
Plant Mol Biol 1989 Nov
PMID:Flavonoid synthesis in Petunia hybrida: partial characterization of dihydroflavonol-4-reductase genes. 249 67

Four solid-colour revertants were isolated from the highly variegated niv-53::Tam1 mutant, in which the transposable element Tam1 is integrated in the promoter region of the chalcone synthase (chs) gene. DNA sequence analysis revealed that in all four lines the Tam1 element was deleted together with flanking nucleotides of the chs promoter. In one case the TATA box of the chs gene was removed resulting in extremely low expression of the gene, and initiation of transcription occurring at a new position. The other three deletions defined a sequence motif (TAC-CAT) which is apparently required for maximal gene expression. Thus transposable elements seem to be useful for probing gene structure, in this case the signal structure in the promoter region, by virtue of imprecise excision.
Mol Gen Genet 1988 Jan
PMID:Transposon-induced alterations in the promoter region affect transcription of the chalcone synthase gene of Antirrhinum majus. 283 Apr 68

Two types of genomic DNA hybridizing with a chalcone synthase cDNA were isolated from cell suspension cultures of parsley (Petroselinum crispum cv. Mooskrause) and cloned in lambda EMBL4. Their fragmentation patterns with several common restriction enzymes were identical, except for the occurrence of a 927 base pair insertion in one type relative to the other. This insertion is located 538 base pairs upstream of the first of two transcription start sites and has characteristic features of a transposable element. The two types of cloned DNA most likely represent two alleles of a chalcone synthase gene occurring in one copy per haploid parsley genome. The nucleotide sequence and exon-intron structure of the larger allele were determined. Analysis of plants either heterozygous or homozygous with respect to the chalcone synthase gene revealed that both allelic forms were expressed and activated by UV light.
Mol Gen Genet 1988 Apr
PMID:Two alleles of the single-copy chalcone synthase gene in parsley differ by a transposon-like element. 283 8

We have cloned an Arabidopsis thaliana chalcone synthase (CHS) gene on the basis of cross-hybridization with a Petroselinum hortense CHS cDNA clone. The protein sequence deduced from the A. thaliana CHS DNA sequence is at least 85% homologous to the CHS sequences from P. hortense, Antirrhinum majus, and Petunia hybrida. Southern blot analysis indicated that CHS is a single-copy gene in A. thaliana. High-intensity light treatment of A. thaliana plants for 24 h caused a 50-fold increase in CHS enzyme activity and an accumulation of visibly detectable levels of anthocyanin pigments in the vegetative structures of these plants. A corresponding increase in the steady-state level of CHS mRNA was detected after high-intensity light treatment for the same period of time. The accumulation of CHS mRNA in response to high-intensity light was due, at least in part, to an increased rate of transcription of the CHS gene as demonstrated by nuclear runoff experiments.
Mol Cell Biol 1988 May
PMID:Transcriptional regulation of the Arabidopsis thaliana chalcone synthase gene. 338 31

Chalcone synthase (CHS) catalyzes the first and key regulatory step in the branch pathway of phenylpropanoid biosynthesis specific for synthesis of ubiquitous flavonoid pigments and UV protectants. In bean (Phaseolus vulgaris L.) and other members of the Leguminoseae, chalcone synthase is also involved in the synthesis of the isoflavonoid-derived phytoalexin antibiotics characteristic of this family. We have demonstrated that the haploid genome of bean contains a family of about six to eight CHS genes, some of which are tightly clustered. Treatment of bean cells with fungal elicitor activates several of these genes leading to the accumulation of at least five and probably as many as nine distinct CHS transcripts encoding a set of CHS isopolypeptides of Mr 42-43 kDa but with differing pI in the range pH 6-7. In elicited cells specific transcripts and encoded polypeptides are differentially induced with respect to both the extent and kinetics of accumulation. Wounding or infection of hypocotyl tissue also activates several CHS genes with marked differences in the pattern of accumulation of specific transcripts and encoded polypeptides in wounded compared to infected tissue or elicited cells, indicating operation of more than one cue for defense gene activation. Illumination induces accumulation of a different set of CHS transcripts including only one of the set hitherto demonstrated to be induced by biological stress. The organization and differential regulation of the CHS gene family in bean are discussed in relation to the functions of this enzyme in adaptative and protective responses to diverse environmental stresses.
Mol Gen Genet 1987 Dec
PMID:Organization and differential activation of a gene family encoding the plant defense enzyme chalcone synthase in Phaseolus vulgaris. 348 20

Activation of plant defense genes was investigated by analysis of transcripts completed in vitro by isolated nuclei. Elicitor treatment of suspension-cultured bean (Phaseolus vulgaris L.) cells caused marked transient stimulation of transcription of genes encoding apoproteins of cell wall hydroxyproline-rich glycoproteins (HRGP) and the phenylpropanoid biosynthetic enzymes phenylalanine ammonia-lyase (PAL) and chalcone synthase (CHS), concomitant with the onset of rapid accumulation of the respective mRNAs and hence expression of the phytoalexin (PAL, CHS), lignin (PAL), and HRGP defense responses. While there was a lag of 2 h prior to stimulation of HRGP gene transcription, induction of the transcription of PAL and CHS genes occurred within 5 min of elicitor treatment. Induction of transcription of PAL, CHS, and HRGP genes was also observed in wounded hypocotyls and in infected hypocotyls during race-cultivar-specific interactions with the fungus Colletotrichum lindemuthianum, the causal agent of anthracnose. Transcriptional activation occurred not only in directly infected tissue but also in distant, hitherto uninfected tissue, indicating intercellular transmission of an endogenous signal for defense gene activation. It is concluded that transcriptional activation of defense genes characteristically underlies induction of the corresponding defense responses and expression of disease resistance.
Mol Cell Biol 1987 Jan
PMID:Transcriptional activation of plant defense genes by fungal elicitor, wounding, and infection. 356 93

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