International Postgraduate Research Conference (IPRC)

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    Interspecific Relationships of Piper Species in Sri Lanka as Revealed by DNA Barcode ITS
    (Faculty of Graduate Studies, University of Kelaniya, Sri Lanka, 2016) Jayarathna, N.; Senanayake, S.P.; Rajapakse, S.; Jayasekera, R.; Paranagama, P.A.
    The genus Piper which is the largest genus in the family Piperaceae is economically important as it comprises with valuable crop species as well as several wild species. Although ten species of genus Piper are recorded in Sri Lanka, their interspecific relationships were not well studied. Therefore, the aim of this study was to determine interspecific relationships of Piper species in Sri Lanka using internal transcribed spacers from nuclear ribosomal DNA )ITS(. Ten varieties of Piper nigrum L., two varieties of each P. betle L.and P. longum L., P. chuvya )Miq.( C. DC., P. siriboa L., P. sylvestre Lam., P. walkeri Miq. and P. zeylanicum Miq. were used for the study. The genomic DNA was extracted from tender leaf samples using CTAB method, PCR amplified using ITS primer pair and subjected to DNA sequencing. The DNA sequence alignment analysis was carried out and a dendrogram was constructed using the multiple sequence alignment programme MUSCLE. According to the dendrogram clear formation of two major clusters can be seen and ten P. nigrum varieties were clustered together however, variety Kuching has shown a separation from the main cluster. P. longum, P. walkeri, P. sylvestre, P. siriboa, P. betle, P. chuvya and P. zeylanicum formed the other cluster in which P. siriboa has shared close similarities with P. betle, while P. sylvestre and P. walkeri displayed close relationships and clustered together with P. longum varieties. Interspecific relationships between wild species and cultivated species )P. nigrum, P. betle and P. longum( indicated the potential of using the wild species in breeding programs for crop improvement. However, further studies to reveal genetic and phenetic relatedness of those species are needed to deepen the knowledge on interspecific relationships of Piper species.
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    Use of molecular features for identification of isolated fungal pathogens of big onion damping off disease and Trichoderma spp. isolated from soil
    (Faculty of Graduate Studies, University of Kelaniya, 2015) Gunaratna, L.N.R.; Deshappriya, N.; Jayaratne, D.L.
    Big onion (Allium cepa L.) is one of the economically important spices grown in Sri Lanka. Damping off disease caused by Fusarium sp. during nursery stage of growth poses a major factor that affect the yield significantly. Application of fungicides decrease incidence of damping off disease considerably, but this is neither economical nor environmental friendly. Thus, disease management practices have to be directed towards biological control strategies. Trichoderma spp. have been extensively studied as biological control agents for controlling numerous soil-borne fungal pathogens. In the present study, isolation and identification of fungal pathogens associated with damping off disease of onion and Trichoderma spp. present in soil of the same onion fields was carried out with a view to using the Trichoderma spp. in the management of damping off pathogens. Pathogens associated with damping off were isolated from diseased and healthy seedlings (7-30 days old) collected from the fields in the Matale and Anuradhapura districts. Seedlings were surface sterilized and plated in Potato Dextrose Agar (PDA) supplemented with tetracycline. Soil samples collected from the same fields were used for the isolation of Trichoderma spp. using the Warcup method. Based on morphological characteristics and using identification keys, the fungal pathogens isolated from seedlings were identified as Fusarium, Curvularia, Alternaria and Sclerotium spp. and 14 fungal species isolated from soil samples were identified as Trichoderma spp. Although fungi can be identified using morphological features, the use of molecular biological methods tend to be more accurate. Therefore, the identity of isolated fungal species was confirmed by molecular biological methods. Genomic DNA of Fusarium spp., Alternaria spp., Trichoderma spp. were extracted. Molecular characterization of these DNA was carried out using Polymerase Chain Reaction (PCR) where the Internal Transcribed Spacer (ITS) region of rDNA gene was amplified using ITS-1 and ITS-4 primer pairs. The products were subjected to agarose gel electrophoresis. The procedures were repeated 3 times. Results showed 550 bp size bands characteristic of Fusarium spp. and 570 bp products specific to Alternaria spp. confirming the previous identity using culture based methods. Fungal species isolated from soil showed products of 600 bp which corresponds to Trichoderma sp. Molecular characterization of the potential biocontrol agents i.e. Trichoderma spp. and A.cepa L. pathogens using PCR amplification of ITS region confirmed the preliminary identities carried out using culture based methods.