defining the fusarium /host interaction through genomics and proteomics
DESCRIPTION
Defining the Fusarium /host interaction through genomics and proteomics. Fusarium graminearum Broad host fungal pathogen causing fusarium head blight in wheat, barley, and oats and gibberella ear rot in maize. Reduced grain yield and quality. Mycotoxin deposition. - PowerPoint PPT PresentationTRANSCRIPT
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Defining the Defining the FusariumFusarium/host /host interaction through genomics interaction through genomics
and proteomicsand proteomics
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Fusarium graminearum
Broad host fungal pathogen causing fusarium head blight in wheat, barley, and oats and gibberella ear rot in maize.
Reduced grain yield and quality. Mycotoxin deposition. (Deoxynivalenol-DON) • food and feed safety issues
• potential export barrier
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DEOXYNIVALENOL (DON)• Trichothecene mycotoxin• 322 Da• Different forms affect
cytoxicity– 15-Acetyl DON– 3-Acetyl DON
• Important in pathogen virulence
OO
OH
OOH
HO
OO
OH
OOH
HO
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Cellular Effects of DON
Inhibits protein synthesisBinds to ribosomal protein
L3 (RPL3)Blocks peptidyl
transferase?
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Objective:
Find genes, whose altered expression in plants, will increase resistance to Fusarium graminearum
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Saccharomyces cerevisiae
Single cellular fungiHaploid or diploid5 um diameterEukaryote
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Saccharomyces cerevisiae as a Model System
1997 – first eukaryotic organism sequenced6200 ORF’sSaccharomyces Genome Database
http://www.yeastgenome.orgInexpensive / easy to useConservation of biochemical processes
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Yeast Genomic Screening on DON
Pin (2X) 1536 / plate
Singer RobotYPD + TI + 125 ug/mL DON
Grow 30°C, 2-6 days
Photograph and quantify growth
Collection in 96 well format
Repeat 2 times
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Screening Results – Example ATG4
TI + DON
TI
DMSO
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Screening Results – Example RPL27A
DMSO
TI
TI + DON
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Screening Results – Top StrainsGENE ESSENTIAL? DESCRIPTION
VTH1 N Putative membrane glycoproteinECM15 N Gene of unknown functionABF1 Y DNA binding protein
ARC18 N Required for integrity of cortical actin patches
ARC35 Y Required for integrity of cortical actin patches
AYT1 N AcetyltransferaseATG4 N Cysteine protease required for autophagyKRE9 Y Glycoprotein: cell-wall β-glucan assembly
UBP13 N Putative ubiquitin-specific proteaseRPL27A N Component of (60S) ribosomal subunitRPL39 N Component of (60S) ribosomal subunit
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Serial Dilution Dot Assay Results (Growth on TI + 175 ug/mL DON)
DMSO TI TI + DON
WT
ARC35
AYT1
ATG4
RPL27A
RPL39
68h 5d
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CONCLUSIONS
Potential mycotoxin target genes discovered:Expected – eg. RPL39, RPL27A, AYT1Novel – eg. ARC35, ATG4,
Screening method flags both “hits” and “suppressors”:
Hits - deleted genes give DON hypersensitivitySuppressors – deleted genes suppress DON
cytotoxicity
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FUTURE WORK
Screen yeast knock-out collections on other Fusarium mycotoxins
Select genes for altered expression in plants
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Fusarium systems biology pipeline
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Tri1 (unlinked to trichothecene gene cluster)1
Butenolide gene cluster – fg08079 encodes a P450 required for butenolide synthesis.2
Clm1 – encoding an enzyme required for culmorin synthesis.3
1 McCormick et al. Appl. Environ. Microbiol. (2004).2 Harris et al. Fungal Genet. Biol. (2007).3 McCormick et al. Appl. Environ. Microbiol. (2010).
Identification of genes involved in mycotoxin synthesis
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Whole gene set expression profiling conducted using Agilent 4X44K array platform - up to three 60mers representing each predicted F. graminearum gene.
monitoring impact of Fusarium regulatory genes. monitoring in planta expression – wheat, barley, maize.
Fusarium transcriptomics
Wheat Maize (68 unique)
Barley (2 unique)
6979 2389
4602
21644597
2311
2166
Fg genes detected by 96hai
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Fusarium proteomics Using non-gel-based quantitative proteomics technology
(iTRAQ), we monitored 435 Fusarium proteins ID over a time course during which mycotoxin synthesis was induced in vitro1.
The quantitative data of 130 proteins were ID as statistically significant (ANOVA, p<0.05). Many of these proteins are potentially involved in pathogenicity.
1 Taylor et al. Proteomics (2008).
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Gene expression profiling (55K oligomer arrays) and quantitative protein profiling (iTRAQ):
- B73 (susceptible)- CO441 (silk & kernel resistance; Reid et al., 2003).
Construction of recombinant inbred line by single seed descent: F6 seed of (B73 X CO441) - 414 lines.
- Summer 2010 – begin phenotyping silk and kernel resistance.
Defining resistance in maize
B73 CO441
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Uninoculated Inoculated
Arabidopsis is susceptible to F. graminearum
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DMSO DMSOChemical compounds
A
C
B
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