AI Article Synopsis

  • Rose-scented geranium is recognized for its aromatic and medicinal properties, particularly its production of essential metabolites like ascorbic acid and tartaric acid, which are valuable as antioxidants and flavor enhancers in food.
  • The study involved transcriptome mining to identify and characterize the enzymes responsible for synthesizing these acids, utilizing bioinformatics and molecular modeling to explore their structural and functional properties.
  • Findings included the development of three-dimensional models of the enzymes, demonstrating significant structural similarity to related proteins, and highlighting the first detailed insights into the functional roles of these enzymes in rose-scented geranium.

Article Abstract

Rose-scented geranium (Pelargonium sp.) is widely known as aromatic and medicinal herb, accumulating specialized metabolites of high economic importance, such as essential oils, ascorbic acid, and tartaric acid. Ascorbic acid and tartaric acid are multifunctional metabolites of human value to be used as vital antioxidants and flavor enhancing agents in food products. No information is available related to the structural and functional properties of the enzymes involved in ascorbic acid and tartaric acid biosynthesis in rose-scented geranium. In the present study, transcriptome mining was done to identify full-length genes, followed by their bioinformatic and molecular modeling investigations and understanding of in silico structural and functional properties of these enzymes. Evolutionary conserved domains were identified in the pathway enzymes. In silico physicochemical characterization of the catalytic enzymes revealed isoelectric point (pI), instability index, aliphatic index, and grand average hydropathy (GRAVY) values of the enzymes. Secondary structural prediction revealed abundant proportion of alpha helix and random coil confirmations in the pathway enzymes. Three-dimensional homology models were developed for these enzymes. The predicted structures showed significant structural similarity with their respective templates in root mean square deviation analysis. Ramachandran plot analysis of the modeled enzymes revealed that more than 84% of the amino acid residues were within the favored regions. Further, functionally important residues were identified corresponding to catalytic sites located in the enzymes. To, our best knowledge, this is the first report which provides a foundation on functional annotation and structural determination of ascorbic acid and tartaric acid pathway enzymes in rose-scanted geranium.

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Source
http://dx.doi.org/10.1007/s11033-018-4164-1DOI Listing

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