Browsing by Author "Suravajhala, P."

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    RB1 screening of retinoblastoma patients in Sri Lanka using targeted next generation sequencing (NGS) and gene ratio analysis copy enumeration PCR (GRACE-PCR)
    (BioMed Central, 2023) Kugalingam, N.; de Silva, D.; Abeysekera, H.; Nanayakkara, S.; Tirimanne, S.; Ranaweera, D.; Suravajhala, P.; Chandrasekharan, V.
    BACKGROUND: Retinoblastoma (RB) a tumour affecting those under 5 years, has a prevalence of 1 in 20,000, with around twenty new diagnoses per year in Sri Lanka. Unilateral and bilateral RB presents around 24 and 15 months respectively. Approximately 10% are familial. Systematic genetic testing for germline pathogenic variants of RB1, the only gene associated with an inherited risk of RB, is unavailable in Sri Lanka. Genetic testing optimizes management of affected children and at-risk siblings. This study aimed to develop accessible genetic testing to identify children with a germline pathogenic variant of RB1 in Sri Lanka. METHODS: Targeted next generation sequencing (NGS) for detecting pathogenic sequence variants and Gene Ratio Analysis Copy Enumeration PCR (GRACE-PCR) for detecting RB1 copy number variations (CNVs) were performed for 49 consecutive RB patients treated between 2016 and 2020 at the designated RB care unit, Lady Ridgway hospital, Colombo. Patients (bilateral RB (n = 18; 37%), unilateral n = 31) were recruited following ethical clearance and informed consent. RESULTS: There were 26 (53%) females. Mean age at diagnosis was 18 months. Thirty-five patients (71%) had undergone enucleation. Germline pathogenic variants of RB1 identified in 22/49 (45%) patients including 18 (37%; 12 bilateral and 6 unilateral) detected by targeted NGS (2 missense, 7 stop gained, 1 splice donor, 8 frameshift variants). Six were previously undescribed, likely pathogenic frameshift variants. Four bilateral RB patients had GRACE-PCR detected CNVs including one whole RB1, two intragenic deletions (exon 12/13; exon 11 and 23) and a partial duplication of exon 27. The only familial case (affected mother and child) shared the duplication. Only 2 of 4 CNVs and 10 of 18 pathogenic variants were confirmed by whole exome sequencing and Sanger sequencing respectively, due to funding limitations. CONCLUSIONS: The study identified pathogenic or likely pathogenic germline RB1 sequence variants and copy number variants in 16/18 (89%) bilateral and 6/31(19%) unilateral cases, which is comparable to worldwide data (10-15% unilateral, 80-85% bilateral). Targeted NGS combined with GRACE-PCR significantly reduce the cost of RB1 testing in Sri Lanka, and may widen access for genetic diagnosis of RB patients in other low and middle income countries.
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    Reconstruction of Metabolic Pathways for the Setaria digitata Whole Genome
    (Sri Lanka Medical Association, 2020) Rashanthy, N.; Kothalawala, M.S.A.; Mugunamalwaththa, T.S.; Darshika, W.A.S.; Lakmali, G.L.Y.; de Zoysa, K.; Chandrasekharan, N.V.; Gunawardene, Y.I.N.S.; Suravajhala, P.; Dassanayake, R.S.
    INTRODUCTION AND OBJECTIVES: Setaria digitata is a Wolbachia-free filarial parasite that resides in the abdominal cavity of ungulates. It can cause cerebrospinal nematodiasis (CNS) in unnatural hosts such as sheep, goats, which causes a serious threat to livestock farming. Furthermore, S. digitata can also infect humans causing several conditions showing a gradual adaption to humans. METHODS: Despite, to date, complete a metabolic pathway reconstruction of S. digitata has not been undertaken and therefore, in this study the latter analyses were carried out using BLAST2GO software. RESULTS: Metabolic pathway analysis based on Kyoto Encyclopedia of Genes and Genomes (KEGG) database identified 111 enzymes found in total of 246 contigs that involve in 95 metabolic pathways, in which the most over-represented pathways are Biosynthesis of antibiotics, Phosphatidylinositol signaling system and Purine metabolism. Since S. digitata does not harbor Wolbachia endosymbiont, it was theorized that the S. digitata genome must encodes genes to carryout haem, riboflavin and nucleotides pathways, otherwise encoded by Wolbachia genome, potentially through lateral transfer of Wolbachia to an ancestor of S.digitata. Here, KEGG analysis identified 16 enzyme coding genes involve in nucleotide biosynthesis and one enzyme involve in riboflavin biosynthesis pathway. Although studies have revealed that FAD and glutathione pathways are complete in all nematode genomes, the genes encoding FAD and glutathione pathways were not found in the S. digitata. Moreover, complete nucleotide synthesis pathway and haem synthesis pathway were not found. CONCLUSION: This suggests that S. digitata may have evolved its own sequences to encode those biosynthetic pathways and hence calling for investigations to undertake characterization of genes involved in these pathways.