Defense responses in tomato landrace and wild genotypes to early blight pathogen<i>Alternaria solani</i>infection and accumulation of pathogenesis-related proteins

Salim, Abida Puthenpeedikal; Saminaidu, Krishnaveni; Murugan, M.; Yasodha, P.; Velazhahan, R.; Palanisami, Jansi Rani; Vadivel, K.

doi:10.1080/03235408.2010.482763

Cited by 11 publications

(5 citation statements)

References 57 publications

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“…The IgG concentration was significantly higher in WB1 and WB2 during week 4 and week 8 of the experiment compared to DB. β-glucanase is reported to be the most important hydrolytic enzyme for increasing resistance against microbial infection, indicating better immune response because the induction of β-1,3-glucanase in various plants like barley, wheat, rice, and sorghum in response to fungal pathogens clearly demonstrates the involvement of the enzyme in defence response (Salim et al 2011;Gupta et al 2013). The possible/ potential reason for the increased level of immunoglobulin G, an antibody, in WB, is due to the presence of β-glucanase enzymes that might have improved the beneficial micro-organism in the gastrointestinal tract, thereby improving the immunity to fight against antigens produced by bacterial and viral infections even during week 4 in WB1.…”

Section: Discussionmentioning

confidence: 99%

Effect of replacement of de-hulled barley with water-soaked barley in corn–soybean meal-based diet on growth performance, blood characteristics, and meat quality in finishing pigs

Upadhaya

Park

Kim

2016

Journal of Applied Animal Research

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A total of 144 crossbred pigs [(Yorkshire Landrace) × Duroc] with an average initial body weight (BW) of 61.7 kg were used to assess the effect of replacement of de-hulled barley (DB) with water soaked barley (WB) in corn-soybean meal-based diet on growth performance, blood characteristics, and meat quality in finishing pigs according to their BW and sex (12 replicates per treatment and 4 pigs per pen). The dietary treatments were: DB, basal diet containing 5% DB; WB1, basal diet + 5% WB (0-8 weeks of feeding); WB2, basal diet + 5% WB (4-8 weeks of feeding). At the end of week 4, the IgG concentration (p<.05) was higher in WB1 than DB and WB2. At the end of week 8, lymphocyte percent was higher (p<.05) in DB than WB1 whereas IgG concentration was higher in WB1 and WB2 than DB. The sensory evaluation of colour scored higher (p<.05) in WB1 and meat marbling scored higher (p<.05) in WB2 than in DB. A higher (p<.05) yellowness and drip loss (day 1 and day 5) was observed in DB than in WB1. In conclusion, replacement of DB with WB had a positive impact on blood characteristics and meat quality of finishing pigs. ARTICLE HISTORY

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Section: Discussionmentioning

confidence: 99%

Effect of replacement of de-hulled barley with water-soaked barley in corn–soybean meal-based diet on growth performance, blood characteristics, and meat quality in finishing pigs

Upadhaya

Park

Kim

2016

Journal of Applied Animal Research

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“…PPO1 gene overexpression increased tomato plant resistance against S. litura larvae ( Thipyapong et al, 2004 ; Mahanil et al, 2008 ). Both PPO1 and PPO2 genes were highly expressed in tomato leaves infested by Alternaria solani fungi ( Salim et al, 2011 ).…”

Section: Methodsmentioning

confidence: 99%

Gene selection for studying frugivore-plant interactions: a review and an example using Queensland fruit fly in tomato

Roohigohar

Clarke

Prentis

2021

PeerJ

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Fruit production is negatively affected by a wide range of frugivorous insects, among them tephritid fruit flies are one of the most important. As a replacement for pesticide-based controls, enhancing natural fruit resistance through biotechnology approaches is a poorly researched but promising alternative. The use of quantitative reverse transcription PCR (RT-qPCR) is an approach to studying gene expression which has been widely used in studying plant resistance to pathogens and non-frugivorous insect herbivores, and offers a starting point for fruit fly studies. In this paper, we develop a gene selection pipe-line for known induced-defense genes in tomato fruit, Solanum lycopersicum, and putative detoxification genes in Queensland fruit fly, Bactrocera tryoni, as a basis for future RT-qPCR research. The pipeline started with a literature review on plant/herbivore and plant/pathogen molecular interactions. With respect to the fly, this was then followed by the identification of gene families known to be associated with insect resistance to toxins, and then individual genes through reference to annotated B. tryoni transcriptomes and gene identity matching with related species. In contrast for tomato, a much better studied species, individual defense genes could be identified directly through literature research. For B. tryoni, gene selection was then further refined through gene expression studies. Ultimately 28 putative detoxification genes from cytochrome P450 (P450), carboxylesterase (CarE), glutathione S-transferases (GST), and ATP binding cassette transporters (ABC) gene families were identified for B. tryoni, and 15 induced defense genes from receptor-like kinase (RLK), D-mannose/L-galactose, mitogen-activated protein kinase (MAPK), lipoxygenase (LOX), gamma-aminobutyric acid (GABA) pathways and polyphenol oxidase (PPO), proteinase inhibitors (PI) and resistance (R) gene families were identified from tomato fruit. The developed gene selection process for B. tryoni can be applied to other herbivorous and frugivorous insect pests so long as the minimum necessary genomic information, an annotated transcriptome, is available.

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“…are among the most economically important diseases of tomato [30][31][32][33]. In the past, researchers have successfully used tomato landraces as sources of resistance against pathogens or diseases, such as Verticillium dahliae [34] or early blight [35]. Heirloom tomatoes were compared to hybrid varieties inside a high tunnel in organic production.…”

Section: Introductionmentioning

confidence: 99%

Tomato Landraces Are Competitive with Commercial Varieties in Terms of Tolerance to Plant Pathogens—A Case Study of Hungarian Gene Bank Accessions on Organic Farms

Boziné-Pullai

Csambalik

Drexler³

et al. 2021

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Landraces are generally neglected by industrialized agriculture, regardless of their potential to provide valuable genetic material for breeding and to diversifying the available assortment for producers and markets. They may also excel in certain plant protection issues with possible resistance or tolerance to plant pathogens. This is the first report on the disease susceptibility traits of Hungarian on certain indeterminate and determinate tomato gene bank accessions under on-farm organic conditions. For this, a three-year on-farm experiment was conducted in two management systems, open-field and protected. Yield and disease symptoms data obtained from ten tomato landraces were compared to commercial varieties. The incidence and severity of three important diseases (caused by late blight ‘Phytophthora infestans’, early blight ‘Alternaria solani’ and Septoria leafspot ‘Septoria lycopersici’), as well as yield, were recorded and assessed. According to these results, there were no significant difference between landraces and control varieties (San Marzano, Kecskeméti 549) regarding the studied parameters, and year was a determinant factor in the occurrence and severity of the infection of the studied diseases. In 2016, rainy, humid weather induced a severe late blight infection, causing serious damage to the open field, while the weather in 2015 and 2017 was favorable for tomato production and our measurements. There were some differences within and between landraces in terms of susceptibility. The investigation revealed that certain accessions can be highly recommended, e.g., the indeterminate ‘Fadd’ (RCAT030275) and ‘Mátrafüred’ (RCAT057656) had suitably high yields with significantly lower susceptibility to late blight, and the determinate ‘Szentlőrinckáta’ (RCAT078726) with high yield as well as tolerance to early blight is also recommendable, but it is sensitive to late blight under an adverse environment. This study suggests that landraces are competitive with the studied commercial varieties under organic production systems. Considering yield and the prevention of the major diseases of tomato, the studied tomato gene bank accessions are recommended for organic field and protected management systems.

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Defense responses in tomato landrace and wild genotypes to early blight pathogenAlternaria solaniinfection and accumulation of pathogenesis-related proteins

Cited by 11 publications

References 57 publications

Effect of replacement of de-hulled barley with water-soaked barley in corn–soybean meal-based diet on growth performance, blood characteristics, and meat quality in finishing pigs

Effect of replacement of de-hulled barley with water-soaked barley in corn–soybean meal-based diet on growth performance, blood characteristics, and meat quality in finishing pigs

Gene selection for studying frugivore-plant interactions: a review and an example using Queensland fruit fly in tomato

Tomato Landraces Are Competitive with Commercial Varieties in Terms of Tolerance to Plant Pathogens—A Case Study of Hungarian Gene Bank Accessions on Organic Farms

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