Engineering and expression of recombinant antibodies that interact with plant pathogenic phytoplasma membrane proteins - a model for phytoplasma disease management. . In Australia phytoplasmas are associated with serious diseases including papaya dieback and strawberry lethal yellows. Phytoplasmas cannot be cultured so there is a paucity of knowledge at the genomic level. We have identified the ABC Transporter and FtsH genes and expressed these phytoplasma membrane proteins (MP) in E. coli . We ....Engineering and expression of recombinant antibodies that interact with plant pathogenic phytoplasma membrane proteins - a model for phytoplasma disease management. . In Australia phytoplasmas are associated with serious diseases including papaya dieback and strawberry lethal yellows. Phytoplasmas cannot be cultured so there is a paucity of knowledge at the genomic level. We have identified the ABC Transporter and FtsH genes and expressed these phytoplasma membrane proteins (MP) in E. coli . We will generate antibody fragments that bind these MP and express them in tomato. We will analyse antibody expression in tomato and study their association with the phytoplasma membrane. Transgenic plants will be inoculated with phytoplasma and monitored for resistance. This work represents a major step towards engineering resistance to phytoplasmas.Read moreRead less
Plant transformation: exploiting anti-apoptosis genes for very high efficiency transformation. Crop improvement through genetic modification depends on the ability to transform target species. The most desirable method is Agrobacterium mediated transformation. However, plant species and cultivars differ significantly in their ability to be efficiently transformed by Agrobacterium. This is particularly true for the economically important cereals. We have discovered that anti-apoptosis genes, whic ....Plant transformation: exploiting anti-apoptosis genes for very high efficiency transformation. Crop improvement through genetic modification depends on the ability to transform target species. The most desirable method is Agrobacterium mediated transformation. However, plant species and cultivars differ significantly in their ability to be efficiently transformed by Agrobacterium. This is particularly true for the economically important cereals. We have discovered that anti-apoptosis genes, which inhibit programmed cell death, dramatically increase the Agrobacterium transformation efficiency in bananas and sugarcane. We will utilise this information and develop the use of these genes to increase the efficiency of transformation in those crops and cultivars that are difficult to transform using Agrobacterium.Read moreRead less