pathogen confusion as a strategy for controlling diseases caused by xylella fastidosa - steve...
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Pathogen confusion as a strategy forcontrolling diseases caused by Xylella fastidosaTRANSCRIPT
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Pathogen confusion as a strategy forcontrolling diseases caused by Xylella fastidosa
Steven Lindow
Department of Plant and Microbial BiologyUniversity of California, Berkeley
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X. fastidiosa Decreases Virulence by Coordinating Virulence Genes in Cell Density-Dependent Fashion
Wild type rpfF mutant
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Key Virulence Genes Controlled by DSF
Downregulated: Type IV piliPolyglacturonaseCellulase
Meng et al. 2005
Upregulated:Hemagglutinin adhesinsExtracellular polysaccharides (EPS): gumType I pili
Type IV pili
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Wild Type - gfp rpfF - gfp
20µM
The RpfF- mutant of Xylella fastidiosa colonizes many more xylem vessels than the wild-type strain
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Wild type RpfF mutant
RpfF- mutant tends to fill xyllem vessels more frequently than wild-type strain of Xylella fastidiosa
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Over-expression of RpfF in Xylella fastidiosa reduces the movement of the pathogen in the plant and limits disease to site of inoculation
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RpfC mutant of X. fastidiosa over-produce DSF andare less virulent since it does not move well within grape
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DSF Abundance
Gum Production
Stickiness to SurfacesExpression of adhesins
Twitching MotilityType IV pili
Pit Membrane DegradationPgl and Eng expression
Plant colonization phase Insect acquisition phaseExtensive vessel colonization Low cell numbers in most vesselsDisease symptoms may not be present
Some vessels have high cell numbersDisease symptoms may be presentFurther multiplication in crowded vessels slows
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The goal: Production of DSF in transgenic grape
The approach: Expression of rpfF encoding DSF synthase from Xylella fastididosa
The strategy: Express RpfF in different cellularlocations and with different accessory proteins
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Strategy 1: Express un-targeted Rpf
35S rpfF pCAMBIA 1390
Results: Very modest production of DSF
At threshold of detection in grape, Arabidopsis,and tomato
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35S SSU rpfF
C-DNA encoding the RUBISCO small subunit N-terminal was isolated from Arabidopsis leaf RNAIn-frame fusion with rpfF gene from Xylella fastidiosa
Strategy 2: Expression of chloroplast-targeted RpfF
Results:Enhanced DSF production in Arabidopsis, tobacco and TomatoTransformation of grape underway
MASSMLSSATMVASPAQATMVAPFNGLKSSAAFPATRKANNDITSITSNGGRVNCMQVWPPIGKKKFETLSYLPDLTDSELAE F MSAVQPFIRTNIGSTLRIIEEPQRDVYWIHMHADLAINPGRACFSTRLVDDITGYQTNLGQRLNTAGVLAPHVVLASDSDVFNLGGDLALFCQLIREGDRARLLDYAQRCVRGVHAFHVGLGARAHSIALVQGSALGGGFEAALSCHTIIAEEGVMMGLPEVLFXLFPG
SSU-rpfF WT-tomato Xf-DSF
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Strategy 3: C0-expression of chloroplast-targeted RpfF and RpfB
Logic: The role of RpfB in DSF synthesis is not clear but it seems to be an “accessory” protein that may help supply needed substrate for RpfF
35S SSU-rpfF nos 35S SSU-rpfB nos 35S gus nos
Results:Somewhat higher expression of DSF in Arabidopsis compared to SSU-rpfF constructTransformation of grape is underway
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Phenotype of transformed, uninoculated plants: Normal
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Method for challenging with Xylella fastidiosa
Stem droplet-needle puncture
Vector inoculation may be superior in that it delivers fewer cells to fewer vessels, but it has been unfeasiblesince transgenic plants have required insecticide sprays to defend against pests in greenhouse
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Grape transformed with rpfF gene from Xylella fastidiosa and producing DSF are much more resistant to Pierce’s Disease compared to wild-type grape
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Disease severity from topical application of Xanthomonas campestris strains varying in DSF production to Arabidopsis transformed with rpfF or with both rpfB and rpfF
Arabidopsis genotype Xcc strains
Wild type rpfF-Col (WT) ++++ -rpfF transformed ++++ +rpfF & rpfB transformed ++++ ++
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Studies of the movement and titer of Xylella fastidiosa in transgenic grape is underway, but we expect both to be reduced based on the observation of disease symptoms that are limited to near the point of inoculation in RpfF-expressing plants and the reduced growth/movement ofDSF-overproducing Xylella fastidiosa mutants
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Susceptible Cabernet sauvignon have been grafted onto transgenic rpfF-expressing rootstocks to test for mobility of DSF within plants
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1. Rationale for achieving transgenic protection against Xf
2. Introduced DNA construction, its construction, and its expected affects
3. Observed phenotype of the transformed, uninoculated grapevine
4. Xf challenge method described and compared to vector inoculation
5. Comparison of challenged transgenic and non-transgenic grapevine
6. Xf accumulation (titer) and localization in transgenic vs non-transgenic grapevine
7. Assessment of the value and applicability of the transgenic approach taken
Session 4 Panel Discussion
Can Transgenic ResearchMitigate Pierce’s Disease?
Panel:, David Gilchrist, Abhaya Dandekar, John Labavich, Steven Lindow