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Transcriptomic analysis of cyclotides in Sri Lankan Viola betonicifolia

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dc.contributor.author Rajendran, Sanjeevan
dc.contributor.author Slazak, Blazej
dc.contributor.author Mohotti, Supun
dc.contributor.author Göransson, Ulf
dc.contributor.author Hettiarachchi, C. M.
dc.contributor.author Gunasekera, Sunithi
dc.date.accessioned 2020-11-26T09:50:21Z
dc.date.available 2020-11-26T09:50:21Z
dc.date.issued 2020
dc.identifier.citation Rajendran, Sanjeevan, Slazak, Blazej, Mohotti, Supun, Göransson, Ulf, Hettiarachchi, C. M., Gunasekera, Sunithi (2020). Transcriptomic analysis of cyclotides in Sri Lankan Viola betonicifolia. In: International conference on Frontiers in Chemical Technology 2020. Institute of Chemistry Ceylon, p.47. en_US
dc.identifier.uri http://repository.kln.ac.lk/handle/123456789/21658
dc.description.abstract Plants belong to Violaceae family are known to contain stable bioactive cyclic peptides known as cyclotides. Eight species of Violaceae plants can be found in Sri Lanka: three from genus Rinorea, three from genus Viola and two from genus Hybanthus. Rinorea species were thought to be extinct in Sri Lanka until the recent discovery of Rinorea decora and Rinorea bengalensis. However, the chemical constituents and bioactivities of Sri Lankan Viola plants have not been investigated. Aim of the study was to characterize cyclotides in Sri Lankan Viola plants using a complementary tool of transcriptomics. Out of all Violaceae plants, V. betonicifolia was selected for transcriptome de novo sequencing and analysis to identify cyclotide sequences. RNA from V. betonicifolia plant tissues were extracted and sequenced by the platform Illumina HiSeq 2000 sequencing system with the library TruSeq RNA. Analysis of precursor sequences and putative processing sites provides further insight into cyclotide biosynthesis in V. betonicifolia and may also help to distinguish cyclotides from other cysteine-rich plant proteins. A total of 28 new (vibe 1-28) and three known (kalata S, viba 17, viba 11) cyclotide sequences were identified, which includes acyclotide and both cyclotide subfamilies Möbius and bracelet. Three precursors differ significantly in these common processing sites; vibe 10, vibe 22 and vibe 25 lack the common asparagine or aspartic acid in their cyclotide domain at C termini, vital for cyclisation. BLAST search of cyclisation enzyme, asparagine endopeptidase in the V. betonicifolia transcriptome showed most similar to the predicted enzyme from V. uliginosa transcriptome (93%) followed by butelase 1 (71%) and OaAEP1b (68%). en_US
dc.publisher Institute of Chemistry Ceylon Adamantane House, Rajagiriya, Sri Lanka. en_US
dc.subject Violaceae, Cyclotides, Transcriptome de novo sequencing, Cyclisation enzyme en_US
dc.title Transcriptomic analysis of cyclotides in Sri Lankan Viola betonicifolia en_US


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