Using a Multipronged Approach to Engineer Citrus for Canker Resistance

Using a Multipronged Approach to Engineer Citrus for Canker Resistance

Report Date: 01/20/2021
Project: 18-013   Year: 2020
Category: Horticultural & Management
Author: Jeffrey Jones
Sponsor: Citrus Research and Development Foundation

This project is a continuation of previously funded CRDF grants to TWO BLADES focused on utilizing multiple This project is a continuation of previously funded CRDF grants to TWO BLADES focused on utilizing multiple strategies to produce canker-resistant citrus plants. The project has focused on transforming Duncan grapefruit with genes that express EFR or a gene construct designated ProBs314EBE:avrGf2 that is activated by citrus canker bacteria virulence factors. This project is a continuation of previously funded CRDF grants to TWO BLADES focused on utilizing multiple strategies to produce canker-resistant citrus plants. The project has focused on transforming Duncan grapefruit with genes that express EFR or a gene construct designated ProBs314EBE:avrGf2 that is activated by citrus canker bacteria virulence factors. We also are in the process of testing citrus that has been transformed to modify the bs5 gene to enhance resistance to the citrus canker bacterium. Objective 1. To determine if Bs3-generated transgenic grapefruit plants are resistant to diverse strains of the citrus canker bacterium or to alternate target susceptibility genes in greenhouse experiments and to the citrus canker bacterium in field experiments in Fort Pierce.  In late March, 2019, in the field at Fort Pierce in collaboration Dr. Ed Stover thetransgenic material was planted. Citrus canker has developed on plants in the field and the trees were rated for disease in November, 2020 and there was considerable defoliation on all trees including JJ5. We also observed disease on all susceptible Duncan trees a, but no evidence on the transgenic JJ5.  The disease at this point was difficult to rate on Duncan given the defoliation. As for developing a different transgenic with  ProBs314EBE:avrGf2, we have placed our constuct in a different vector that is acceptable for future transgenic purposes. The previous constructs contain an additional selectable marker that allowed for identifying putative transgenics with a higher success rate that contained the targeted construct. Given that there was concern about the additional marker, the new construct contains only NPT as a selectable marker. The construct is with Vladimir Orbovic, who has additional transformants. We have screened these via inoculations and so far the ones we have received are susceptibe. More will be available in the future.  Objective 2. To determine if EFR-generated transgenic grapefruit plants are resistant to the citrus canker bacterium in field experiments in Fort Pierce. We have grafted our two most promising EFR transgenic plants (based on ROS activity) onto two rootstocks (812 and Sour Orange) and planted them in the field at Fort Pierce in collaboration Dr. Ed Stover. They were planted in the field in late March and were recently rated in late July.  I am in the process of analyzing the data. We have identified additional transgenics from plants received from Dr. Vladimir Orbovic that have been grafted onto rootstocks. They are currently being tested for disease severity having been inoculated in October by pinprick inoculation. We are also testing for EFR gene expression . Objective 3. To determine if bs5-generated transgenic Carrizo plants are resistant to X. citri and to generate transgenic grapefruit carrying the pepper bs5. We have recently received budwood from UC Berkeley. The budwood was from two transgenic events and a third was from a tree that was run through the transformation process but that was negative for the gene, serves as budwood that had undergone the transformation process but that was negative for the transgene. This will serve as a negative control. We have grafted the buds and several have developed into branches.  We are currently growing these.  We have recently inoculated leaves from the two CRISPR events, C1 and C2 by pinprock inoculation and should have results in early December.   


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