Sajeevan Radha Sivarajan scite author profile

Finger millet (Eleusine coracana (L.) Gaertn) is an important crop for food security because of its tolerance to drought, which is expected to be exacerbated by global climate changes. Nevertheless, it is often classified as an orphan/underutilized crop because of the paucity of scientific attention. Among several small millets, finger millet is considered as an excellent source of essential nutrient elements, such as iron and zinc; hence, it has potential as an alternate coarse cereal. However, high-quality genome sequence data of finger millet are currently not available. One of the major problems encountered in the genome assembly of this species was its polyploidy, which hampers genome assembly compared with a diploid genome. To overcome this problem, we sequenced its genome using diverse technologies with sufficient coverage and assembled it via a novel multiple hybrid assembly workflow that combines next-generation with single-molecule sequencing, followed by whole-genome optical mapping using the Bionano Irys® system. The total number of scaffolds was 1,897 with an N50 length >2.6 Mb and detection of 96% of the universal single-copy orthologs. The majority of the homeologs were assembled separately. This indicates that the proposed workflow is applicable to the assembly of other allotetraploid genomes.

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Identification and Characterization of Genes Responsible for Drought Tolerance in Rice Mediated by Pseudomonas fluorescens

Saakre

Baburao

Salim

et al. 2017

Rice Science

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Comprehensive transcriptome analysis of different potato cultivars provides insight into early blight disease caused by Alternaria solani

Sivarajan

Abdelmeguid

Saripella

et al. 2022

Preprint

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Background Early blight disease in potatoes is one of the economically important diseases affecting the tuber yield and quality worldwide. It is caused by the necrotrophic fungal pathogen Alternaria solani. The disease is mainly controlled by chemical plant protection agents. However, the over-usage of these chemicals leads to the evolution of resistant A. solani strains and is environmentally hazardous. Therefore, identifying resistant potato cultivars or genetic disease resistance factors is the best strategy for the sustainable management of early blight. Results In this study, we have captured transcriptomes from three different potato cultivars with varying susceptibility to A. solani, Magnum Bonum, Désirée, and Kuras, at 18 and 36 hours post-infection. We identified many differentially expressed genes (DEGs) between these cultivars, and the number of DEGs increased with susceptibility and infection time. There were 649 transcripts commonly expressed between the potato cultivars and time points, of which 627 and 22 were up- and down-regulated, respectively. Interestingly, overall the up-regulated DEGs were twice in number as compared to down-regulated ones in all the potato cultivars and time points, except Kuras at 36 hours post-inoculation. In general, transcription factor families WRKY, ERF, bHLH, MYB, and C2H2 were highly enriched DEGs, of which a significant number were up-regulated. The majority of the key transcripts involved in the jasmonic acid and ethylene biosynthesis pathways were highly up-regulated. Many transcripts involved in the mevalonate (MVA) pathway, isoprenyl-PP, and terpene biosynthesis were also up-regulated across the potato cultivars and time points. Compared to Magnum Bonum and Désirée, multiple components of the photosynthesis machinery, starch biosynthesis and degradation pathway were down-regulated in the most susceptible potato cultivar, Kuras. Conclusions This study provides important insights into the molecular events occurring in early disease development and helps to shorten the knowledge gap and supports potato breeding programs for improved early blight disease resistance.

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