Dulanjani Wijayasekara scite author profile

Dulanjani Wijayasekara

5Publications

34Citation Statements Received

33Citation Statements Given

How they've been cited

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142

Affiliations

University of Tulsa, Oklahoma State University, University of Peradeniya

Publications

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Retention of latex at harvest, enhanced mango (Mangifera indica L.) fruit resistance and reduced anthracnose and stem-end rot

Karunanayake

Sinniah

Adikaram

et al. 2014

Australasian Plant Pathol.

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Unripe mangoes contain a network of minute latex canals in its exocarp, outer mesocarp and the pedicel. Latex, when retrieved, separates into an upper oily layer containing antifungal resorcinols and a lower aqueous layer with chitinase activity. Latex disappears in coincidence with ripening and decline of fruit resistance to fungal pathogens. The present study investigated if retention of latex at harvest enhances fruit resistance and reduces anthracnose and the stem-end rot (SER) development during ripening. Latex was retained by harvesting fruit with a portion (approximately 1 cm) of pedicel while in the controls, latex was drained off by removing the pedicel. Anthracnose and SER development from natural infections or following artificial inoculation was assessed at ripe stage. The results showed a significant reduction in the incidence and severity of anthracnose in the cultivar 'Willard' susceptible to anthracnose when latex was retained at harvest. There was delayed SER development when latex was retained in the susceptible cultivar 'Karutha Colomban'. A negative trend was observed between the pedicel length and anthracnose or SER level in cultivars susceptible to the two respective diseases. The fruit peel in which latex was retained had greater chitinase activity. The reduction of anthracnose and SER could be due to the greater resorcinols and chitinase activity respectively in latex-retained fruit. The results indicate a direct involvement of latex in fruit resistance and the possibility of its manipulation to protect ripe fruit from fungal rotting.

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Evolutionary study of maize dwarf mosaic virus using nearly complete genome sequences acquired by next-generation sequencing

Wijayasekara

Ali

2021

Sci Rep

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Next-generation sequencing is a robust approach to sequence plant virus genomes in a very short amount of time compared to traditional sequencing methods. Maize dwarf mosaic virus (MDMV) is one of the most important plant viruses worldwide and a significant threat to maize production. In this study, we sequenced 19 MDMV isolates (10 from Johnsongrass and 9 from maize) collected in Oklahoma and Missouri during 2017–2019 using Illumina sequencing and determined the genetic diversity. Sequence reads were assembled and 19 nearly complete genome sequences of MDMV isolates were obtained. Phylogenetic analysis based on complete genomes nucleotide and amino acid sequences revealed two main clusters and a close evolutionary relationship among 19 MDMV isolates. Statistical analysis of individual genes for site-specific selection revealed that all genes are under negative selection. The fixation index (FST) analysis of the MDMV isolates revealed no gene flow between the two main phylogenetic clusters, which emphasizes the divergence of MDMV isolates from the USA. Among the USA MDMV isolates, the mean genetic distance (d) and nucleotide diversity ((π) were highest in the P1 gene coding region. This is the first detailed study on the evolutionary relationship of MDMV isolates based on the nearly complete genome analysis from maize and Johnsongrass.

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Molecular characterization of two badnavirus genomes associated with Canna yellow mottle disease

et al. 2018

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Complete Genome Characterization and Coat Protein Genealogy of Isolates ofMaize dwarf mosaic virusfrom Johnsongrass and Maize in Oklahoma and Missouri

Wijayasekara

Ali

2020

Plant Disease

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Maize dwarf mosaic virus (MDMV) significantly affects maize production worldwide, including the United States. This study describes the distribution and biological and molecular characterization of MDMV isolates from Johnsongrass and maize. A total of 262 samples (symptomatic = 214, asymptomatic = 48) were collected in Oklahoma and Missouri during 2016, 2017, and 2019 growing seasons. Based on a dot-immunobinding assay (DIBA), the average incidence of maize dwarf mosaic disease varied from ∼71% (79/111) in 2016, ∼76% (81/106) in 2017, and 62% (28/45) in 2019. Sixty-five DIBA-positive samples for MDMV were further confirmed by RT-PCR, and the complete coat protein (CP) gene was cloned and sequenced. Phylogenetic analysis of 132 isolates (This study = 65; GenBank = 67) revealed two main groups (G1 and G2) of MDMV isolates. All 65 MDMV isolates contained a 39-nucleotide insertion in the N-terminal region of CP genes and clustered in G1 which were different from the isolates in G2, without 39-nucleotide insertion. The first complete genome (9,563 nucleotides) of a MDMV isolate (Bixby1) from Johnsongrass was sequenced, which was distantly related to eight previously reported MDMV isolates from maize. The dN/dS ratio showed mostly purifying selection on each of cistrons except 6K1 being subjected to the diversifying selection. Further analyses revealed three putative recombination events between MDMV-Bixby1 and MDMV isolates from other countries. The successful mechanical and aphid transmission of MDMV-Bixby1 onto maize cultivars was achieved. Altogether, this information showed that Johnsongrass harbors genetically diverse MDMV isolates, which could pose a threat to cultivated crops such as maize and sorghum.

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A Reliable and Rapid Multiplex RT-PCR Assay for Detection of Two Potyviruses and a Pararetrovirus Infecting Canna Plants

et al. 2015

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Canna plants are subject to serious virus diseases. The three most common viruses identified in canna plants are Bean yellow mosaic virus, Canna yellow mottle virus, and Canna yellow streak virus. Recent studies indicate that canna plants are commonly infected with more than one virus. Thus, the efficient control of these viruses in canna plants requires the availability of a reliable method for detecting mixed virus infection. This report presents a two-step multiplex reverse-transcription polymerase chain reaction (RT-PCR) that was developed to simultaneously detect two potyviruses and one pararetrovirus genome. We optimized the method for nucleic acid isolation for managing a large population of samples, and the primer concentrations to ensure sensitivity and reliability of the assay, and determined the detection limit in simplex and multiplex RT-PCR assays using plasmid controls and nucleic acids isolated from virus-infected plants. Combined with an automated method for total nucleic acid isolation, this multiplex RT-PCR procedure could be routinely used for virus detection in research and diagnostic laboratories.

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