Abstract
This study was conducted to improve the knowledge of molecular processes involved in the interaction between Fusarium graminearum and emmer in the course of grain ripening. Emmer plants were artificially inoculated with a F. graminearum spore suspension at anthesis. In the course of grain ripening from milk ripe to plant death stage, grains at four phenological growth stages were collected for analysis. The infection degree was evaluated based on the F. graminearum DNA content in emmer grain infolding tissues (glumes and rachis). For proteome analysis the albumin and globulin fractions of emmer grains, consisting of proteins with various functions related to the development and stress response, were analysed regarding the changes due to Fusarium infection by two-dimensional gel electrophoresis. Altogether, forty-three proteins affected by infection were identified by mass spectrometry. Enzymes detoxifying reactive oxygen species were regulated at all developmental stages. In the early stage of grain development, the abundance of proteins related to stress response, such as 2-Cys peroxiredoxin, a chitinase, a xylanase inhibitor and a spermidine synthase was increased. During later stage of grain development, the abundance of stress-related proteins, such as chitinases, heat shock proteins and an α-amylase inhibitor-like protein, decreased. During all ripening stages, but especially during medium milk stage (BBCH 75) and soft dough stage (BBCH 85), the abundance of proteins related to carbon metabolism, starch and protein biosynthesis as well as photosynthesis increased due to F. graminearum infection. At the plant death stage (BBCH 97) the abundance of only two proteins related to metabolism decreased.
Highlights
Fusarium head blight (FHB) is a cereal disease causing significant yield losses and in particular accumulation of several mycotoxins, such as trichothecenes deoxynivalenol (DON), nivalenol (NIV), their acetylated derivatives and zearalenone (ZEA) [1]
Some of the identified and unidentified proteins were apparently proteolytic fragments. To our knowledge this is the first proteomic study analysing the effect of F. graminearum infection on cereal grains covering all ripening stages from early grain development until plant death
We found that inoculation of emmer with F. graminearum led to changes of protein expression in all development stages
Summary
Fusarium head blight (FHB) is a cereal disease causing significant yield losses and in particular accumulation of several mycotoxins, such as trichothecenes deoxynivalenol (DON), nivalenol (NIV), their acetylated derivatives and zearalenone (ZEA) [1]. The predominant species infesting cereals in Europe are Fusarium graminearum Schwabe The most critical period for infection and colonisation of cereal ears with Fusarium spp. is during the anthesis and the first half of the grain filling stage [2]. Multiple mechanisms of defence and resistance are known to exist in plants. Resistance against Fusarium infection involves the ability to degrade trichothecenes and the inhibition of trichothecene biosynthesis of the pathogen [3]. More information about infection mechanisms of the pathogen and respective defence strategies of the plants is needed
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