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Regeneration and biotransformation of some members of the Cucurbitaceae.

dc.contributor.advisorVan Staden, Johannes.
dc.contributor.authorAbrie, Amelia Letitia.
dc.date.accessioned2013-12-23T07:40:45Z
dc.date.available2013-12-23T07:40:45Z
dc.date.created1998
dc.date.issued1998
dc.descriptionThesis (Ph.D.)-University of Natal, Pietermaritzburg, 1998.en
dc.description.abstractFive cultivars, all belonging to the family Cucurbitaceae, have been tested for the ability to regenerate shoots or somatic embryos from cotyledonary explants. The influence of several combinations of growth regulators on regeneration from cotyledonary and other explants was tested. No regeneration was obtained from the two cultivars Cucurbita maxima Duch. cv A-Line and Cucurbitapepo L. cv Rolet. Somatic embryos developed on Cucurbita maxima Duch. cv Chicago Waited, a Hubbard squash. A shoot regeneration response was observed for the cultivar Cucumis sativus L. cv Ashley, but the frequency was low and results could not be repeated in subsequent experiments. A reliable shoot regeneration protocol was developed for Cucumis melo L. cv Hales Best 36. The influence of the antibiotics kanamycin sulphate and cefotaxime on shoot regeneration from cotyledonary explants of Cucumis melo L. cv Hales Best 36 was tested. The plasmid pBI121 was transferred from Escherichia coli strain HB101 into Agrobacterium tumefaciens strain LBA4404 via a triparental mating. The plasmid pBI121, contains the screenable marker gene β-glucuronidase (GUS) and the selectable neomycin phosphotransferase-II gene (NPT-II) that confers kanamycin resistance. Cotyledonary tissue was transformed using this Agrobacterium tumefaciens transformation system. The influence of co-cultivation time, inoculation time and the wound factor acetosyringone on transformation was established. Rooted plantlets were regenerated from transformed cotyledonary tissue placed on kanamycin supplemented regeneration media. Plantlets tested positive for the presence of the GUS gene, using fluorometric and histochemical assays. The developed protocol was used to transform Cucumis melo cv Hales best 36 with the pat gene that provides resistance to the herbicide Ignite®. A selection medium was developed containing phosphinothricin, the active ingredient of the herbicide Transformants were selected on this medium and five lines were recovered. These plants were acclimatized and the herbicide resistance was confirmed in greenhouse spray tests. The ploidy level of these plants was deduced from indirect evidence of micro- and macroscopic characteristics that have been shown to have a correlation with the chromosome number of melon plants. The five lines were subjected to molecular analysis. The polymerase chain reaction was used to give an indication of the transformed nature of the selected plants. Agarose gel electrophoresis confirmed that the correct size band could be obtained from the putative transformants and the presence of pat in the product was verified using a non-radioactive system for nucleic acid analysis. Stable gene insertion into the genome of the plant was verified with a Southern blot of the total genomic DNA. This was achieved by hybridising a radioactively labelled ³²P probe specific for the pat gene to a blot of restriction digested plant DNA.en
dc.identifier.urihttp://hdl.handle.net/10413/10303
dc.language.isoen_ZAen
dc.subjectCucurbitaceae--Genetic engineering.en
dc.subjectTransgenic plants.en
dc.subjectCucurbitaceae--Diseases and pests--Control.en
dc.subjectTheses--Botany.en
dc.titleRegeneration and biotransformation of some members of the Cucurbitaceae.en
dc.typeThesisen

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