Onion ( Allium cepa L.) is an important vegetable crop widely grown for diverse culinary and nutraceutical properties. Being a shallow-rooted plant, it is prone to drought. In the present study, transcriptome sequencing of drought-tolerant (1656) and drought-sensitive (1627) onion genotypes was performed to elucidate the molecular basis of differential response to drought stress. A total of 123206 and 139252 transcripts (average transcript length: 690 bases) were generated after assembly for 1656 and 1627, respectively. Differential gene expression analyses revealed upregulation and downregulation of 1189 and 1180 genes, respectively, in 1656, whereas in 1627, upregulation and downregulation of 872 and 1292 genes, respectively, was observed. Genes encoding transcription factors, cytochrome P450, membrane transporters, and flavonoids, and those related to carbohydrate metabolism were found to exhibit a differential expression behavior in the tolerant and susceptible genotypes. The information generated can facilitate a better understanding of molecular mechanisms underlying drought response in onion.
The root-endophytic fungus Piriformospora indica (=Serendipita indica) has been revealed for its growth-promoting effects and its capacity to induce resistance in a broad spectrum of host plants. However, the bioefficacy of this fungus had not yet been tested against any pathogen affecting onion (Allium cepa). In this study, the biocontrol potency of P. indica against onion leaf blight, an impacting disease caused by the necrotrophic fungal pathogen Stemphylium vesicarium, was evaluated. First, it was proved that colonisation of onion roots by P. indica was beneficial for plant growth, as it increased leaf development and root biomass. Most relevantly, P. indica was also effective in reducing Stemphylium leaf blight (SLB) severity, as assessed under greenhouse conditions and confirmed in field trials in two consecutive years. These investigations could also provide some insight into the biochemical and molecular changes that treatment with P. indica induces in the main pathways associated with host defence response. It was possible to highlight the protective effect of P. indica colonisation against peroxidative damage, and its role in signalling oxidative stress, by assessing changes in malondialdehyde and H2O2 content. It was also showed that treatment with P. indica contributes to modulate the enzymatic activity of superoxide dismutase, catalase, phenylalanine ammonia-lyase and peroxidase, in the course of infection. qPCR-based expression analysis of defence-related genes AcLOX1, AcLOX2, AcPAL1, AcGST, AcCHI, AcWRKY1, and AcWRKY70 provided further indications on P. indica ability to induce onion systemic response. Based on the evidence gathered, this study aims to propose P. indica application as a sustainable tool for improving SLB control, which might not only enhance onion growth performance but also activate defence signalling mechanisms more effectively, involving different pathways.
Garlic (Allium sativum L.) is an economically important spice and vegetable crop grown throughout the world. Garlic viral disease complex caused by multiple virus infections is an important constraint in exploiting the potential yield of garlic. Among these viral pathogens, allexivirus (family Alphaflexiviridae) is the genus of viruses known for their degenerative effect on garlic yield. Their coexistence with other viruses, particularly potyviruses, has an adverse effect on garlic yield and quality (Perotto et al. 2010). During Sept 2018, while screening garlic germplasm accessions for the presence of allexiviruses, symptoms like foliar mosaic and curling were observed on accession G-204, planted at an experimental plot of ICAR-DOGR, Pune, India. A total of five samples comprised of five randomly selected G-204 garlic plants were collected from the experimental plot. Each sample contained leaves from the top, middle, and bottom portion of the individual garlic plants. These samples were subjected to RNA extraction using the RNeasy Plant Mini Kit (Qiagen, Germany) followed by reverse transcription (RT) using the Transcriptor cDNA synthesis kit (Roche Diagnostics, GmbH, Germany). The extracted RNA was then tested for allexiviruses such as garlic virus A (GarV-A), garlic virus B (GarV-B), garlic virus C (GarV-C), garlic virus D (GarV-D), and garlic virus X (GarV-X) by polymerase chain reaction (PCR) (Gawande et al. 2015; Roylawar et al. 2019; Baranwal et al. 2011; Gieck et al. 2009). Leaf samples tested through RT-PCR were found positive for garlic viruses GarV-A, GarV-B, GarV-C, GarV-D, and GarV-X. Allexiviruses other than GarV-B had been previously reported in India and hence further tests were conducted to confirm GarV-B infection. RT-PCR using primers, CF 5’- ATGGGAGACAGGTCGCAA-3’ and CR5’- CTAAAATGTAAGCATGAGCGGT-3’ designed specific to the coat protein yielded a 735-bp amplicon from all five G-204 plants. The amplified product was purified using QIAquick PCR Purification Kit (Qiagen, Germany) and cloned in pJET1.2 vector (Thermo Scientific, Lithuania). Two clones containing the CP gene were bidirectionally sequenced, and a consensus sequence was submitted to GenBank (MN650206). BLASTn results indicated that this consensus sequence showed 97.96% nucleotide (KP657919.1) and 100% amino acid sequence (AKN19940.1) identity with the CP sequence of GarV-B isolate from Poland. The presence of GarV-B was confirmed by enzyme-linked immunosorbent assay (ELISA) using a double-antibody sandwich ELISA kit (Arsh Biotech, Delhi, India) as per the manufacturer’s protocol. An absorbance of reaction was read using a microplate reader at 405 nm. The mean OD values of negative and positive controls were 0.034 and 0.373, respectively. The OD values of five samples tested ranged from 0.210 to 0.296 indicating a positive reaction for GarV-B. To assess the presence of GarV-B in the available genetic stock, we tested 30 garlic germplasm accessions for GarV-B using RT-PCR. Out of these, 17 accessions were found positive for GarV-B. GarV-B has been reported from many countries (Gieck et al. 2009). This is the first report of GarV-B from India. Globally, allexiviruses are known for their adverse impact on garlic production (Oliveira et al. 2014). GarV-B together with other viruses can be a potential threat to garlic production in India. Further, detailed evaluations are needed to study the impact of GarV-B on garlic production in India.
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