Plant and Molecular Biology

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Author: search.filters.author.Attanayake, R. N.Start date: 2022

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    Morpho-molecular genetic diversity and population structure analysis to enrich core collections in tea [Camellia sinensis (L.) O. Kuntze] germplasm of Sri Lanka and India
    (Genetic Resources and Crop Evolution, 2023) Kottawa-Arachchi, J. D.; Ranatunga, M. A. B.; Sharma, R. K.; Chaudhary, H. K.; Attanayake, R. N.; Amarakoon, A. M. T.; Gunasekare, M. T. K.; Sharma, B.; Kumar, N.; Sood, V. K.
    Despite tea [Camellia sinensis (L.) O. Kuntze] is one of the top non-alcoholic beverages consumed around the world; its genetic and phenotypic diversity is less understood compared to other plantation crops. The study’s aims were to undertake phenotypic and genotypic characterization of Sri Lankan and Indian tea germplasm and to identify diverse accessions to accelerate tea breeding programmes in both countries. A total of 171 tea accessions, comprising 94 Sri Lankan and 77 Indian accessions were used. All the accessions were subjected to phenotyping and genotyping using 28 polymorphic simple sequence repeat (SSR) markers. Based on 16 morphological characters, the first three principal components explained 57.61% and 58.43% of the total variability of Sri Lankan and Indian accessions, respectively. Young shoot pubescence, young shoot pigmentation, serration of leaf margin, and mature leaf colour contributed positively to the grouping of accessions. Based on Neighbor-joining analysis, all Sri Lankan accessions grouped in a single cluster, whereas Indian accessions grouped in two distinct clusters. The Gower’s distance method was the most appropriate than other methods for developing core subsets. Among 21 Sri Lankan core accessions selected, 11 accessions belong to introductions, five TRI-developed cultivars and five estate selections. Among 18 Indian core accessions selected, 11 belong to China types, two Assam types and five Indian recommended cultivars. The current study is the first study to compare tea germplasm of both countries and the results are useful for tea crop improvement programme, conservation and utilization of tea germplasm in India and Sri Lanka in the future.
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    Species identification and pollination biology of an economically important true halophyte, Salicornia brachiata Roxb.
    (Aquatic Botany, 2024) Siridewa, K.; De Silva, W.; Ratnayake, R.; Wijesundara, S.; Perera, D.; Attanayake, R. N.
    Members of the genus Salicornia have gained a global attraction due to their ability to thrive under high saline conditions and as potential candidates in saline agriculture. However, it has been a taxonomically challenging genus for decades since the members show plastic responses to extreme environmental conditions and due to incongruences between morphological and molecular identification methods. While only a handful of commercially grown Salicornia species are fully described, most of the species including S. brachiata, a native species in the Indian sub-continent, Myanmar, and Sri Lanka are poorly described. With the potentials in adapting S. brachiata in saline agriculture, the aim of this study was to establish a morphology and DNA barcodebased species delineation system and to study pollination biology for future crop improvement projects. Tentatively identified S. brachiata plant samples were collected from two populations in Sri Lanka and completely described. GenBank lacked authenticated barcode data for S. brachiata except for one chloroplast genome to which the matK sequence obtained in the present study matched with 100 % identity. For the first time, well defined sequences of three barcode regions, ITS, ETS and matK, of S. brachiata were made available for accurate species identification. Reproductive dynamics in different parts of the inflorescence was studied. A facultative xenogamous mating system was recorded for the first time in the genus and while the lower florets in the cladode showed a preference towards outcrossing, the upper florets displayed adaptations for selfing. Data could be effectively utilized in future Salicornia breeding programs.
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    Nested PCR-based rapid detection of Phytoplasma leaf wilt disease of coconut in Sri Lanka and systemic movement of the pathogen.
    (Pathogens, 2023) De Silva, P. R.; Perera, C. N.; Bahder, B. W.; Attanayake, R. N.
    Phytoplasmas are associated with many plant diseases. In palms, lethal bronzing disease, Texas Phoenix palm decline, and coconut lethal yellowing decline are some of them. In Sri Lanka, coconut leaf wilt decline has been reported in the Weligama area of the Southern province, and the disease is called Weligama coconut leaf wilt disease (WCLWD). Unlike other phytoplasma diseases of palms, WCLWD shows slow disease progress. Pathogen detection entirely relies on nested polymerase chain reaction (PCR). However, inconsistencies in pathogen detection have been experienced, i.e., symptomatic plants often produce negative results. The objectives of this study were to reconsider the choice of primers and to determine the best sampling tissue types for consistent detection of the pathogen. Among the six universal primer combinations tested, P1/Tint nested with fU5/rU3 produced consistent results. BLASTn searches of the sequences showed 99–100% similarity to sugarcane white leaf disease (SWL) or grassy shoot (SGS) disease-causing phytoplasma. The optimized nested PCR protocol was successful, with the minimum success rating of 88% and 100% specificity. Midribs of milky white bud leaf samples were the best tissue type for rapid detection. Systemic movement of the pathogen and a tentative latent period were also reported. The findings are helpful in the early detection of the disease.