Combination of transcriptomic and proteomic approaches helps to unravel the protein composition of Chelidonium majus L. milky sap.

MAIN CONCLUSION: A novel annotated Chelidonium majus L. transcriptome database composed of 23,004 unique coding sequences allowed to significantly improve the sensitivity of proteomic C. majus assessments, which showed novel defense-related proteins characteristic to its latex. To date, the composition of Chelidonium majus L. milky sap and biosynthesis of its components are poorly characterized. We, therefore, performed de novo sequencing and assembly of C. majus transcriptome using Illumina technology. Approximately, 119 Mb of raw sequence data was obtained. Assembly resulted in 107,088 contigs, with N50 of 1913 bp and N90 of 450 bp. Among 34,965 unique coding sequences (CDS), 23,004 obtained CDS database served as a basis for further proteomic analyses. The database was then used for the identification of proteins from C. majus milky sap, and whole plant extracts analyzed using liquid chromatography-electrospray ionization-tandem mass spectrometry (LC-ESI-MS/MS) approach. Of about 334 different putative proteins were identified in C. majus milky sap and 1155 in C. majus whole plant extract. The quantitative comparative analysis confirmed that C. majus latex contains proteins connected with response to stress conditions and generation of precursor metabolites and energy. Notable proteins characteristic to latex include major latex protein (MLP, presumably belonging to Bet v1-like superfamily), polyphenol oxidase (PPO, which could be responsible for browning of the sap after exposure to air), and enzymes responsible for anthocyanidin, phenylpropanoid, and alkaloid biosynthesis.

Global proteomic analysis of Chelidonium majus and Corydalis cava (Papaveraceae) extracts revealed similar defense-related protein compositions.

Chelidonium majus and Corydalis cava are phylogenetically closely related (Papaveraceae family). The medicinal and pharmaceutical interest in these plants is based on their synthesis of pharmaceutically important compounds, such as alkaloids, flavonoids, phenolic acids and proteins. C. majus shoot and C. cava tuber extracts have been used in traditional folk medicine to treat many diseases, such as fungal, bacterial and viral infections, liver disorders, fever, post-traumatic, colic, abdominal and menstrual pains and even cancer. This study attempts to perform a global comparative proteomic analysis of pharmacologically important extracts from these two closely related unsequenced plant species to gain insights into the protein basis of these plant organs and to compare their common and specific proteomic compositions. We used a shotgun proteomic approach combined with label-free protein quantitation according to the exponentially modified protein abundance index (emPAI). In total, a mean number of 228 protein identification results were recorded in C. cava tuber extracts and about 1240 in C. majus shoot extracts. Comparative analysis revealed a similar stress and defense-related protein composition of pharmacologically active plant species and showed the presence of different pathogenesis-related and low molecular inducible antimicrobial peptides. These findings could form the basis for further elucidation of the mechanism of the strong pharmacological activities of these medicinal plant extracts.