19 research outputs found
Numerical aspects for efficient welding computational mechanics
The effect of the residual stresses and strains is one of the most important
parameter in the structure integrity assessment. A finite element model is
constructed in order to simulate the multi passes mismatched submerged arc
welding SAW which used in the welded tensile test specimen. Sequentially
coupled thermal mechanical analysis is done by using ABAQUS software for
calculating the residual stresses and distortion due to welding. In this
work, three main issues were studied in order to reduce the time consuming
during welding simulation which is the major problem in the computational
welding mechanics (CWM). The first issue is dimensionality of the problem.
Both two- and three-dimensional models are constructed for the same analysis
type, shell element for two dimension simulation shows good performance
comparing with brick element. The conventional method to calculate residual
stress is by using implicit scheme that because of the welding and cooling
time is relatively high. In this work, the author shows that it could use the
explicit scheme with the mass scaling technique, and time consuming during
the analysis will be reduced very efficiently. By using this new technique,
it will be possible to simulate relatively large three dimensional
structures
Arabidopsis leucine-rich repeat receptorâlike kinase NILR1 is required for induction of innate immunity to parasitic nematodes
Plant-parasitic nematodes are destructive pests causing losses of billions of dollars annually. An effective plant defence against pathogens relies on the recognition of pathogen-associated molecular patterns (PAMPs) by surface-localised receptors leading to the activation of PAMP-triggered immunity (PTI). Extensive studies have been conducted to characterise the role of PTI in various models of plant-pathogen interactions. However, far less is known about the role of PTI in roots in general and in plant-nematode interactions in particular. Here we show that nematode-derived proteinaceous elicitor/s is/are capable of inducing PTI in Arabidopsis in a manner dependent on the common immune co-receptor BAK1. Consistent with the role played by BAK1, we identified a leucine-rich repeat receptor-like kinase, termed NILR1 that is specifically regulated upon infection by nematodes. We show that NILR1 is essential for PTI responses initiated by nematodes and nilr1 loss-of-function mutants are hypersusceptible to a broad category of nematodes. To our knowledge, NILR1 is the first example of an immune receptor that is involved in induction of basal immunity (PTI) in plants or in animals in response to nematodes. Manipulation of NILR1 will provide new options for nematode control in crop plants in future
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Heterodera schachtii Tyrosinase-like protein - a novel nematode effector modulating plant hormone homeostasis
The beet cyst nematode Heterodera schachtii causes major yield losses in sugar beet. Understanding the interaction between H. schachtii and its host plant is important for developing a sustainable management system. Nematode effectors play a crucial role in initializing and sustaining successful parasitism. In our study, we identified a gene (Hs-Tyr) encoding a tyrosinase functional domain (PF00264). We describe Hs-Tyr as a novel nematode effector. Hs-Tyr is localized in the nematode esophageal gland. Up-regulation of its expression coincided with the parasitic developmental stages of the nematode. Silencing Hs-Tyr by RNA interference made the treated nematodes less virulent. When RNAi-treated nematodes succeeded in infecting the plant, developing females and their associated syncytial nurse cells were significantly smaller than in control plants. Ectopically expressing the Hs-Tyr effector in Arabidopsis increased plant susceptibility to H. schachtii, but not to the root-knot nematode Meloidogyne incognita. Interestingly, Hs-Tyr in the plant promoted plant growth and changed the root architecture. Additionally, the expression of Hs-Tyr in Arabidopsis caused changes in the homeostasis of several plant hormones especially auxin and the ethylene precursor aminocyclopropane-carboxylic acid
Myoâinositol oxygenase is important for the removal of excess myoâinositol from syncytia induced by Heterodera schachtii in Arabidopsis roots
The enzyme myo-inositol oxygenase is the key enzyme of a pathway leading from myo-inositol to UDP-glucuronic acid. In Arabidopsis, myo-inositol oxygenase is encoded by four genes. All genes are strongly expressed in syncytia induced by the beet cyst nematode Heterodera schachtii in Arabidopsis roots. Here, we studied the effect of a quadruple myo-inositol oxygenase mutant on nematode development. We performed metabolite profiling of syncytia induced in roots of the myo-inositol oxygenase quadruple mutant. The role of galactinol in syncytia was studied using Arabidopsis lines with elevated galactinol levels and by supplying galactinol to wild-type seedlings. The quadruple myo-inositol oxygenase mutant showed a significant reduction in susceptibility to H. schachtii, and syncytia had elevated myo-inositol and galactinol levels and an elevated expression level of the antimicrobial thionin gene Thi2.1. This reduction in susceptibility could also be achieved by exogenous application of galactinol to wild-type seedlings. The primary function of myo-inositol oxygenase for syncytium development is probably not the production of UDP-glucuronic acid as a precursor for cell wall polysaccharides, but the reduction of myo-inositol levels and thereby a reduction in the galactinol level to avoid the induction of defence-related genes
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Arabidopsis leucine-rich repeat receptorâlike kinase NILR1 is required for induction of innate immunity to parasitic nematodes
Plant-parasitic nematodes are destructive pests causing losses of billions of dollars annually. An effective plant defence against pathogens relies on the recognition of pathogen-associated molecular patterns (PAMPs) by surface-localised receptors leading to the activation of PAMP-triggered immunity (PTI). Extensive studies have been conducted to characterise the role of PTI in various models of plant-pathogen interactions. However, far less is known about the role of PTI in roots in general and in plant-nematode interactions in particular. Here we show that nematode-derived proteinaceous elicitor/s is/are capable of inducing PTI in Arabidopsis in a manner dependent on the common immune co-receptor BAK1. Consistent with the role played by BAK1, we identified a leucine-rich repeat receptor-like kinase, termed NILR1 that is specifically regulated upon infection by nematodes. We show that NILR1 is essential for PTI responses initiated by nematodes and nilr1 loss-of-function mutants are hypersusceptible to a broad category of nematodes. To our knowledge, NILR1 is the first example of an immune receptor that is involved in induction of basal immunity (PTI) in plants or in animals in response to nematodes. Manipulation of NILR1 will provide new options for nematode control in crop plants in future
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Arabidopsis HIPP27 is a host susceptibility gene for the beet cyst nematode Heterodera schachtii
Sedentary plant-parasitic cyst nematodes are obligate biotrophs that infect the roots of their host plant. Their parasitism is based on the modification of root cells to form a hypermetabolic syncytium from which the nematodes draw their nutrients. The aim of this study was to identify nematode susceptibility genes in Arabidopsis thaliana and to characterize their roles in supporting the parasitism of Heterodera schachtii. By selecting genes that were most strongly upregulated in response to cyst nematode infection, we identified HIPP27 (HEAVY METAL-ASSOCIATED ISOPRENYLATED PLANT PROTEIN 27) as a host susceptibility factor required for beet cyst nematode infection and development. Detailed expression analysis revealed that HIPP27 is a cytoplasmic protein and that HIPP27 is strongly expressed in leaves, young roots and nematode-induced syncytia. Loss-of-function Arabidopsis hipp27 mutants exhibited severely reduced susceptibility to H. schachtii and abnormal starch accumulation in syncytial and peridermal plastids. Our results suggest that HIPP27 is a susceptibility gene in Arabidopsis whose loss of function reduces plant susceptibility to cyst nematode infection without increasing the susceptibility to other pathogens or negatively affecting the plant phenotype
Knock-out <i>nilr1-1</i> enhances susceptibility to nematodes.
<p>(<b>A</b>) Average number of female nematodes induced by <i>H</i>. <i>schachtii</i> per plant in Col-0, <i>nilr1-1</i> and <i>nilr2-1</i>. Bars represent mean ± SE for three biological replicates. (<b>B</b>) Average number of galls induced <i>by M</i>. <i>incognita</i> per plants in Col-0, <i>nilr1-1</i> and <i>nilr2-1</i>. Bars represent mean ± SE for three biological replicates. (<b>C</b>) Root segments from Col-0, and <i>nilr1-1</i> plants were treated with water, <i>Hs</i>NemaWater or flg22 and ROS burst was measured using L-012 based assay from 0 to 120 min. Bars represent mean ± SE for sixteen biological replicates. (<b>D</b>) 5-day-old Col-0 and <i>nilr1-1</i> seedlings were incubated in water, <i>Hs</i>NemaWater, or flg22 for seven days. Fresh weight was measured at 12 days after germination. Bars represent mean ± SE for three independent biological replicates. (<b>E</b>) 5-day-old Col-0 and <i>nilr2-1</i> seedlings were incubated in water, <i>Hs</i>NemaWater, or flg22 for seven days. Fresh weight was measured at 12 days after germination. Bars represent mean ± SE for three independent biological replicates. (<b>F)</b> Root segments from Col-0 and <i>nilr2-1</i> plants were treated with water, <i>Hs</i>NemaWater or flg22 and ROS burst was measured using L-012 based assay from 0 to 120 min. Bars represent mean ± SE for sixteen biological replicates (<b>A-E</b>) Data were analysed using single-factor ANOVA and Tukeyâs post hoc test (P<0.05). Columns sharing same letter are not statistically different.</p