Genetic transformation is a process that involves the introduction and expression of foreign genes in a host organism. This expression can result from the extrachromosomal, or episomal, presence of genes in nuclei that may persist if the introduced DNA has a mechanism for replication. Extrachromosomal expression, however, is most often transient as the DNA becomes diluted with cell division. Expression also can result from the integration of foreign DNA into somatic chromosomes that can persist through the lifetime of the organism, but not be inherited. Alternatively, foreign genes may be stably inherited if incorporated into the genome of the germ-line, known as germ-line transformation. This is the most common type of genetic transformation in insects. Transient or somatic transformation can be achieved in several ways, and most often is used for testing promoter regulatory sequences. Genetic transformation techniques are now applied routinely to a large number of plant species. The most convenient technique for introduce genes in plants is by Agrobacterium tumefaciens (Horsch et al., 1985) and biolistic (Sanford, 1998) mediated transformation. Majority groups have used the constitutive 35S promoter from cauliflower mosaic virus, a variety of cell types are expected to express the recombinant protein. There are many examples of plants that produced biologically active proteins as antibodies molecules for a wide spectrum of purposes as: in diagnosis, therapy, vaccines and purification of pharmaceutical recombinant proteins and vaccines propose
Scientific Tracks Abstracts: Journal of Cell Science & Therapy
Keynote: Journal of Cell Science & Therapy
Posters: Journal of Cell Science & Therapy
Scientific Tracks Abstracts: Journal of Genetic Syndromes & Gene Therapy