Transgene inactivation in Petunia hybrida is influenced by the properties of the foreign gene.

Petunia mutant RL01 was transformed with maize A1 and gerbera gdfr cDNAs, which both encode dihydroflavonol-4-reductase (DFR) activity. The same Agrobacterium vector and the same version of the CaMV 35S promoter were used in both experiments. Transformation with the cDNAs resulted in production of pelargonidin pigments in the transformants. However, the A1 and gdfr transformants showed clearly different phenotypes. The flowers of the primary A1 transformants were pale and showed variability in pigmentation during their growth, while the flowers of the gdfr transformants showed intense and highly stable coloration. The color difference in the primary transformants was reflected in the expression levels of the transgenes as well as in the levels of anthocyanin pigment. As previously reported by others, the instability in pigmentation in the A1 transformants was more often detected in clones with multiple copies of the transgene and was associated with methylation of the 35S promoter and of the transgene cDNA itself. In the gdfr transformants, the most intense pigmentation was observed in plants with multiple transgenes in their genome. Only rarely was partial methylation of the 35S promoter detected, while the gdfr cDNA always remained in an unmethylated state. We conclude that the properties of the transgene itself strongly influence the inactivation process. The dicotyledonous gdfr cDNA with a lower GC content and fewer possible methylation sites is more 'compatible' the genomic organization of petunia and this prevents it being recognized as a foreign gene and hence silenced by methylation.

Chalcone synthase-like genes active during corolla development are differentially expressed and encode enzymes with different catalytic properties in Gerbera hybrida (Asteraceae).

Recent studies on chalcone synthase (CHS) and the related stilbene synthase (STS) suggest that the structure of chs-like genes in plants has evolved into different forms, whose members have both different regulation and capacity to code for different but related enzymatic activities. We have studied the diversity of chs-like genes by analysing the structure, expression patterns and catalytic properties of the corresponding enzymes of three genes that are active during corolla development in Gerbera hybrida. The expression patterns demonstrate that chs-like genes are representatives of three distinct genetic programmes that are active during organ differentiation in gerbera. Gchs1 and gchs3 code for typical CHS enzymes, and their gene expression pattern temporally correlates with flavonol (gchs1, gchs3) and anthocyanin (gchs1) synthesis during corolla development. Gchs2 is different. The expression pattern does not correlate with the pigmentation pattern, the amino acid sequence deviates considerably from the consensus of typical CHSs, and the catalytic properties are different. The data indicate that it represents a new member in the large superfamily of chs and chs-related genes.

Evaluation of DAPI as a fluorescent probe for DNA in viable Petunia protoplasts.

4',6-Diamidino-2-phenyl-indole (DAPI), is a fluorescent probe that specifically and quantitatively stains DNA. Electroporation of viable Petunia protoplasts in the presence of DAPI revealed integral fluorescence that was similar for both the electroporated and fixed protoplasts, indicating quantitative staining of DNA. DAPI fluorescence was localized in the nuclei of viable protoplasts of Petunia. Protoplasts had a short term viability of 56-65% of the control (non-electroporated, unstained) protoplasts as determined by fluorescein diacetate staining 24 hr following electroporation in the presence of DAPI. The majority (84% of the number originally cultured) of these protoplasts subjected to electroporation were able to form a cell wall, but most did not form microcalli because they were blocked in cell division. The three week plating efficiency for protoplasts exposed to DAPI was 4% of the original number of protoplasts initially cultured compared to 30% for the control. DAPI should not be used as a fluorescent probe for plant protoplasts when the protoplasts are cultured for sustained growth because the levels of DAPI required to obtain quantitative staining of the DNA resulted in inhibition of the cell cycle. DAPI may, however, be used as a fluorescent DNA probe for short term (24 hr) studies.

1-Aminocyclopropane-1-carboxylic-acid-dependent ethylene production during re-formation of vacuoles in evacuolated protoplasts of Petunia hybrida.

Ethylene formation from 1-aminocycloprane-1-carboxylic acid (ACC) was studied in whole protoplasts, evaluolated protoplasts and isolated vacuoles from mesophyll cells of Petunia hybrida L. cv. Pink Magic. The re-formation of the large, central vacuole in evacuolated protoplasts and morphological characteristics of both types of protoplasts were examined by electron microscopy. Both the normal, whole protoplasts and vacuoles isolated from them produced ethylene from ACC at similar rates. Freshly-prepared evacuolated protoplasts had lost the capacity to produce ethylene. Re-formation of the central vacuole in these evacuolated protoplasts occurred between 14 to 17 h of incubation in the recovery medium and was followed by the development of ethyleneforming activity. Both these processes were inhibited by cycloheximide, indicating a requirement for new protein synthesis. Light stimulated the conversion of ACC to ethylene in both the regenerating, whole protoplasts and the evacuolated protoplasts that had re-formed the central vacuole.