Chimeric genes containing the coding sequence for bacterial chloramphenicol acetyl transferase (CAT) have been introduced by electroporation into maize protoplasts (Black Mexican Sweet) and transient expression monitored by enzyme assays. Levels of CAT expression were enhanced 12-fold and 20-fold respectively by the inclusion of maize alcohol dehydrogenase-1 introns 2 and 6 in the chimeric construct. This enhancement was seen when the intron was placed within the 5' translated region but not when it was located upstream of the promoter or within the 3' untranslated region. Deletion of exon sequences adjacent to intron 2 abolished its ability to mediate enhancement of CAT gene expression. Northern analysis of protoplasts electroporated with intron constructs revealed elevated levels of CAT mRNA. However, this elevation was insufficient to account for the increased enzyme activity. One explanation of these results is that splicing affects both the quantity and quality of mRNA.
Genetically transformed maize plants were obtained from protoplasts treated with recombinant DNA. Protoplasts that were digested from embryogenic cell suspension cultures of maize inbred A188 were combined with plasmid DNA containing a gene coding for neomycin phosphotransferase (NPT II) next to the 35S promoter region of cauliflower mosaic virus. A high voltage electrical pulse was applied to the protoplasts, which were then grown on filters placed over feeder layers of maize suspension cells (Black Mexican Sweet) and selected for growth in the presence of kanamycin. Selected cell lines showed NPT II activity. Plants were regenerated from transformed cell lines and grown to maturity. Southern analysis of DNA extracted from callus and plants indicated the presence of the NPT II gene.
The location of sequences homologous to a cloned D. melanogaster DNA segment, Dm 25, has been examined in polytene chromosomes by hybridization in situ. Dm 25 localizes to multiple sites and shows variation in patterns between different strains and among individuals within wild-type laboratory strains. Analysis of numerous geographically distinct isogenic lines suggests that Dm 25 patterns are determined by germ-line factors and are not the product of strictly somatic events. In general there is wide variation in Dm 25 patterns among different lines, but a significant number of sites are common to two or more distinct lines. Hybridization to restriction digests of genomic DNA suggests that Dm 25 is a moderately repetitive, conserved sequence whose copies are dispersed throughout the genome. Analysis of species other than melanogaster indicates a significant divergence in structure of sequences homologous to Dm 25 as well as a drastic reduction in amount of homology to the melanogaster sequence.
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