Paper et al. (2007) used LC-MS/MS to identify proteins secreted from F. graminearum after growth on culture media (in vitro) and in planta during infection of wheat heads. A total of 289 proteins were identified, and 49/120 in planta proteins were not found under in vitro conditions. Indeed, only 56% of the in planta proteins had predicted signal peptides, whereas virtually all proteins produced in vitro exhibited this motif. Fungal housekeeping Dabrafenib research buy enzymes, such as enolase,

triose phosphate isomerase, phosphoglucomutase, calmodulin, aconitase and malate dehydrogenase, were primarily found in planta, which, the authors speculated, either indicated the occurrence of fungal lysis during pathogenesis or specific in planta release to enable the fungal–plant interaction. Taylor et al. (2008) sought to investigate buy SCH772984 quantitative alterations in F. graminearum protein expression in response to in vitro stimulation of biosynthesis of the mycotoxin, trichothecene. This approach was based on the rationale that mycotoxin synthesis is associated

with early-stage plant infection, and that any altered protein expression seen in vitro should mimic that occurring during the infectious process. Quantitative protein mass spectrometry using isobaric Tags for relative and absolute quantification (iTRAQ) analysis confirmed that 130 of 435 proteins detected exhibited statistically significant expression changes. Included in this cohort were many proteins known to be involved in fungal virulence; however, of particular relevance was the number of UFPs that were also identified. Although the precise function of these proteins remains outstanding, their association with the commencement of mycotoxin

synthesis and the infectious process serves to contextualize further targeted functional proteomic studies. This clearly underlines the importance of large-scale fungal proteomics for identifying the function of individual proteins. Taylor et al. (2008) also used Northern analysis and reverse transcriptase-PCR to confirm alterations in selected protein expression following iTRAQ and 2D-PAGE analyses, and very good agreement between both transcript and protein expression was observed. This Vildagliptin is somewhat at variance with the observations of Cagas et al. (2011) with respect to caspofungin effects on A. fumigatus; however, it most likely reflects the specific nature of the metabolic responses in different organisms. Georgianna et al. (2008) also adopted a quantitative proteomic approach to study the effect of temperature on protein expression and aflatoxin production in Aspergillus flavus. Losada et al. (2009) have speculated that competition among environmental fungi may involve the deployment of secreted mycotoxins/secondary metabolites to attenuate competitor growth. Moreover, they speculated that the operation of such systems would necessitate resistance mechanisms in secreting organisms.