Proteomics of wheat and barley cereals in response to environmental stresses: Current state and future challenges

Wheat and barley genera represent a wide range of genotypes from Triticeae group grown around the globe. The broad plasticity of Triticeae phenotypes mirrors the robustness of their genomes revealing a high level of gene homeology. Publication and annotation of the reference genome sequences for spring barley Morex and Chinese Spring wheat represents an important milestone enabling the researchers to precisely identify and annotate nearly all proteins. Due to the broad range of environments used for wheat and barley cultivation and their economical importance, proteomic studies focused on their responses to environmental stresses including combined stress treatments. Most of the Triticeae stress proteomics studies are comparative ones aimed at determination of differentially abundant proteins (DAPs) between two or more genotypes with contrasting stress tolerance. Studies focused on subcellular fractions and protein posttranslational modifications (PTMs) are still relatively rare although PTMs play a crucial role in modulation of protein biological function. Functional and interactomics studies are needed although gene homeology and the resulting protein functional redundancy practically excludes the utilization of knock-out mutants. The alternatives could represent either gene overexpression in a heterologous system such as A. thaliana or transient posttranscriptional gene silencing using RNAi. Publication of complete reference genome sequences together with novel technological approaches such as pQTL mapping boost the Triticeae proteomics studies not only to provide data but also to contribute to designing novel genotypes with improved adaptations to ever changing environments.