Spatial expression of DNA topoisomerase I genes during cell proliferation in Daucus carota.

The spatial expression of carrot (Daucus carota L.) top1 genes encoding the two isoforms of the enzyme DNA topoisomerase I (EC 5.99.1.2) was investigated. In situ hybridization analysis performed with a probe recognizing both top1 transcripts provided evidence that in explanted hypocotyls induced to proliferate in vitro by the addition of the growth regulator 2,4-dichlorophenoxyacetic acid (2,4-D), the mRNA accumulation parallels the proliferation of provascular cells of the stelar cylinder. During somatic embryogenesis, the histological distribution of top1 transcripts was strongly evident at the stage of torpedo-shaped embryos, but gene expression was not only restricted to meristematic regions. When the spatial localization was extended to carrot vegetative apices and the investigation was carried out with specific probes for top1alpha and top1beta, both transcripts preferentially accumulated in tissues having mitotic activity.

Floral genes expressed in tomato hypocotyl explants in liquid culture.

This paper confirms, at molecular level, previous data showing that small explants of many plants do form a floral meristem and express specific floral genes after only few days in culture. After 15-20 days of culture, small tomato hypocotyl explants develop differentiated structures often resembling primitive ancestral reproductive organs. Other specific reproductive functions such as chromosomal segregation (somatic meiosis) were also present and demonstrated by means of a cytological and histological analysis. By reverse transcriptase-PCR and in situ hybridization it was found that these structures are indeed able to express flower-specific genes. The TM8 gene, a tomato gene that is expressed very early during floral development, is detectable on the proliferating hypocotyl explants during the first week of culture. The MON9612 gene, which in vivo is expressed only by tomato pistils and ovules, is detectable on the ovulelike structures developed after 20 days of culture. The construction of transgenic tomato plants expressing the GUS gene under the control of the MON9612 promoter allowed us to follow the induction and the expression of this gene during explant proliferation and development of the flowerlike structures. These data confirm the hypothesis that a floral reprogramming can be induced in plant explants as a consequence of wounding and growth factors action. It appears to be an effort to survive stress by means of an unscheduled reproductive program.

Carrot cells contain two top1 genes having the coding capacity for two distinct DNA topoisomerases I.

Five DNA topoisomerase I cDNA clones were isolated from a carrot (Daucus carota) cDNA library and two classes of nucleotide sequences were found. One component of the first class, pTop9, perfectly matches the open reading frame of pTop28, a truncated top1 cDNA previously described, and extended it by 594 nucleotides (top1alpha). A member of the second class, pTop11, contains an open reading frame 2727 bp long (top1ss) with a coding capacity for a second putative DNA topoisomerase I of 101 kDa. Both pTop9 and pTop11 clones are full length cDNAs. The two deduced amino acid sequences share a relevant similarity (89%) only at the C-terminal domain, whereas the similarity is reduced to 32% in the N-terminal region. Southern blot analysis and PCR amplification of genomic DNAs from carrot pure lines suggested the presence of two distinct loci. Northern blot analysis revealed the presence of two distinct transcripts of 3.0 and 3.2 kb in both cycling and starved cell populations. Three fusion peptides corresponding to the N-terminal domain of the alpha and ss forms and from the common C-terminal domain of carrot topoisomerases I were overexpressed in E. coli cells and used to raise antibodies in rabbit. Immunolocalization seems to suggest the presence of two topoisomerases I in carrot nuclei.

A tRNA gene mapping within the chloroplast rDNA cluster is differentially expressed during the development of Daucus carota.

In vivo analysis of expression of the chloroplast rDNA cluster during somatic embryogenesis of Daucus carota (D.carota) was performed by Northern-blot analysis with different DNA probes, spanning both the 16S rRNA gene, the 16S-23S rRNA spacer, which contains the two mosaic tRNA genes tRNA(Ile) and tRNA(Ala), and the region upstream of the 16S rRNA gene, where a tRNA(Val) maps. We show that expression both of the spacer tRNAs tRNA(Ile) and tRNA(Ala) is not significantly regulated during development whereas the amount of the transcript corresponding to tRNA(Val) is not detectable during early embryonic stages and progressively accumulates during late phases. Multiple transcription start sites have been identified upstream of the tRNA(Val) gene by S1 mapping analysis, which are activated late during the embryogenesis. These data indicate that developmental control mechanisms act on plastid gene expression during embryogenesis in carrot.

Recovery of V79 cell clones with different phenotypes in aminopterin- or azaserine-containing media used for the selection of HGPRT revertants.

Three 6-thioguanine (6TG)-resistant mutants were mutagen-treated and selected for clones capable of growing in 2 selective media: HAT medium, containing aminopterin (AP) and HAS medium, containing L-azaserine (AS). Both 6TG-sensitive, wild-type clones and 6TG-resistant mutants were found among colonies growing in HAT medium, while only 6TG-sensitive clones grew in HAS medium. Time for expression was required by 6TG-resistant but not by 6TG-sensitive clones, that were fully expressed immediately after treatment. All HAT-resistant, 6TG-resistant clones which were analyzed proved to be resistant to AP. These data were interpreted as follows: in HAT medium, both HGPRT+ revertants and double mutants (HGPRT-, AP-resistant) were selected, while only HGPRT+ revertants were selected in HAS medium. Not all 6TG-resistant mutants were able to produce both classes of HAT-resistant clones.

Stimulation of carrot somatic embryogenesis by proline and serine.

Serine and proline, when added in a wide range of concentrations to Daucus carota cultures during pre-growth in the presence of 2,4-D(2,4-dichlorophenoxyacetic acid), extended in time and quantity the mitotic divisions and stimulated significantly the number of embryos regenerated when the hormone subsequently was omitted from the medium. A specific effect of these amino acids on regeneration is suggested, since proline (as hydroxyproline) and serine are the two major constituents of the cell wall glycoprotein, extensin, which thus may have a morphoregulatory function. The significant role of the conditions during pregrowth of the cultures in the presence of hormone is underlined by the effect of hydroxyproline and D-proline which also stimulate embryogenesis, but alter markedly the development of the embryos.