[19] Direct gene transfer to protoplasts of dicotyledonous and monocotyledonous plants by a number of methods, including electroporation. Recombinant DNA Part D. Elsevier; 1987. pp. 313-36. [DOI: 10.1016/0076-6879(87)53062-2]

Development of a heat shock inducible expression cassette for plants: characterization of parameters for its use in transient expression assays

A heat-inducible expression cassette has been constructed to study the conditional expression of sense or antisense orientations of any sequence of interest in transgenic plants or plant tissues. The construct includes the promoter and all but 5 bases of the mRNA leader from the soybean Gmhsp17.5-E gene, the polylinker from pUC18 (modified to remove the ATG), and a fragment that contains the polyadenylation signal and site from the nopaline synthase gene. Analysis of transient expression of a construct containing the beta-glucuronidase (GUS) coding sequence cloned in the cassette and introduced into Nicotiana plumbaginifolia protoplasts by electroporation shows that the promoter has high expression at heat shock temperatures. This construct is expressed at a roughly 80-fold higher level per unit time than a cauliflower mosaic virus 35S gene promoter-GUS construction. The heat shock promoter is regulated positively by supercoiling in this transient assay system. The level of expression of HS-GUS constructions with the polyadenylation sites from either the nopaline synthase gene or the Gmhsp17.5-E gene was similar. Constructs with a perfect fusion at the 5' end had higher levels of expression than those with the corresponding nonperfect transcriptional fusion.

Genetic engineering of plants for virus resistance

Historically, control of plant virus disease has involved numerous strategies which have often been combined to provide effective durable resistance in the field. In recent years, the dramatic advances obtained in plant molecular virology have enhanced our understanding of viral genome organizations and gene functions. Moreover, genetic engineering of plants for virus resistance has recently provided promising additional strategies for control of virus disease. At present, the most promising of these has been the expression of coat-protein coding sequences in plants transformed with a coat protein gene. Other potential methods include the expression of anti-sense viral transcripts in transgenic plants, the application of artificial anti-sense mediated gene regulation to viral systems, and the expression of viral satellite RNAs, RNAs with endoribonuclease activity, antiviral antibody genes, or human interferon genes in plants.

Transgenic plants of Orchardgrass (Dactylis glomerata L.) from protoplasts

We have demonstrated the transfer and expression of a foreign chimeric gene in the grass species, Dactylis glomerata L. This species is a member of the Gramineae sub-family Pooideae, which includes the small grain cereals, from which transformed plants have not yet been obtained. A chimeric hygromycin-resistance gene was introduced into protoplasts isolated from an embryogenic suspension culture, using heat shock followed by electroporation or polyethylene glycol treatment. Cell colonies resistant to 20 μg/ml hygromycin were selected in liquid medium using an agarose bead type culture system. Transformed calli were identified by Southern hybridization. Embryogenic callus was induced to regenerate plants and transformed plants were shown to contain the hygromycin resistance gene.