Actin depolymerization is able to increase plant resistance against pathogens via activation of salicylic acid signalling pathway

The integrity of the actin cytoskeleton is essential for plant immune signalling. Consequently, it is generally assumed that actin disruption reduces plant resistance to pathogen attack. Here, we demonstrate that actin depolymerization induced a dramatic increase in salicylic acid (SA) levels in Arabidopsis thaliana. Transcriptomic analysis showed that the SA pathway was activated due to the action of isochorismate synthase (ICS). The effect was also confirmed in Brassica napus. This raises the question of whether actin depolymerization could, under particular conditions, lead to increased resistance to pathogens. Thus, we explored the effect of pretreatment with actin-depolymerizing drugs on the resistance of Arabidopsis thaliana to the bacterial pathogen Pseudomonas syringae, and on the resistance of an important crop Brassica napus to its natural fungal pathogen Leptosphaeria maculans. In both pathosystems, actin depolymerization activated the SA pathway, leading to increased plant resistance. To our best knowledge, we herein provide the first direct evidence that disruption of the actin cytoskeleton can actually lead to increased plant resistance to pathogens, and that SA is crucial to this process

Identification of salicylic acid-independent responses in an Arabidopsis 3 phosphatidylinositol 4-kinase beta double mutant

International audienceBackground and AimsWe have recently shown that an Arabidopsis thaliana double mutant of type III phosphatidylinositol-4-kinases (PI4Ks), pi4kβ1β2, constitutively accumulated a high level of salicylic acid (SA). By crossing this pi4kβ1β2 double mutant with mutants impaired in SA synthesis (such as sid2 impaired in isochorismate synthase) or transduction, we demonstrated that the high SA level was responsible for the dwarfism phenotype of the double mutant. Here we aimed at distinguishing between the SA-dependent and -independent effects triggered by the deficiency in PI4Kβ1 and PI4Kβ2.MethodsTo achieve this, the sid2pi4kβ1β2 triple mutant was a tool of choice. High-throughput analyses of phytohormones were performed on this mutant together with pi4kβ1β2 and sid2 mutants and wild-type plants. Responses to pathogens, namely Hyaloperonospora arabidopsidis, Pseudomonas syringae and Botrytis cinerea, but as well to the non-host fungus Blumeria graminis, were also determined. Callose accumulation was monitored in response to flagellin. Key ResultsWe show here the prominent role of high SA levels in influencing the concentration of many other tested phytohormones, including abscisic acid and its derivatives, the Aspartate-conjugated form of indole-3-acetic acid and some cytokinins such as cis-zeatin. We show that the increased resistance of pi4kβ1β2 plants to the host pathogens Hyaloperonospora arabidopsidis, Pseudomonas syringae pv. tomato DC3000 and Bothrytis cinerea is dependent on accumulation of high SA level. In contrast, accumulation of callose in pi4kβ1β2 after flagellin treatment was independent of SA. Concerning the response to Blumeria graminis, both callose accumulation and fungal penetration were enhanced in the pi4kβ1β2 double mutant compared to wild-type plants. Both of these processes occurred in a SA-independent manner. ConclusionsOur data extensively illustrate the influence of SA on other phytohormone levels. The sid2pi4kβ1β2 triple mutant allowed to uncover the role of PI4Kβ1/β2 per se, thus showing the importance of these enzymes in plant defence responses

Stable Isotope Composition of Fatty Acids in Organisms of Different Trophic Levels in the Yenisei River

We studied four-link food chain, periphytic microalgae and water moss (producers), trichopteran larvae (consumers I), gammarids (omnivorous – consumers II) and Siberian grayling (consumers III) at a littoral site of the Yenisei River on the basis of three years monthly sampling. Analysis of bulk carbon stable isotopes and compound specific isotope analysis of fatty acids (FA) were done. As found, there was a gradual depletion in 13C contents of fatty acids, including essential FA upward the food chain. In all the trophic levels a parabolic dependence of δ13C values of fatty acids on their degree of unsaturation/chain length occurred, with 18:2n-6 and 18:3n-3 in its lowest point. The pattern in the δ13C differences between individual fatty acids was quite similar to that reported in literature for marine pelagic food webs. Hypotheses on isotope fractionation were suggested to explain the findings

колективна монографія

Кримінальний процесуальний кодекс 2012 року: ідеологія та практика правозастосування: колективна монографія / за заг. ред. Ю. П. Аленіна ; відпов. за вип. І. В. Гловюк. - Одеса : Видавничий дім «Гельветика», 2018. - 1148 с

Deciphering the role of lipid signalling in plant response to environmental stresses and developmental cues

La thèse est consacrée à l'étude de la signalisation lipidique comme un mécanisme universel de médiation des réponses cellulaires à phytohormones et élicitors jouant ainsi un rôle clé dans la réorganisation de métabolisme cellulaire pendant l'adaptation de la plante aux changements environnementaux.Phospholipase D (PLD) et son produit acide phosphatidic (PA) ont étés impliqués au cascades de signalisation induites par l’acide salicylique (SA) dans les cellules de garde de Arabidopsis thaliana. On a trouvé une activation de PLD et la production de PA dans les feuilles des plantes après le traitement par SA. En utilisant le marquage radioactif des phospholipides, l'analyse histochimique, les inhibiteurs de la signalisation lipidique et des lignées transgénique des plantes, nous avons montré la participation de la PLD et la NADPH-oxidase RbohD à la formation du superoxyde dans les tissues d’Arabidopsis et à la fermeture des stomates induite par SA.La cooperation entre le SA et l’acide abscisic (ABA) dans la réorganisation de transcriptome induite par ces hormones a été examinée dans la culture de la suspension cellulaire. Tant SA que l'ABA ont inhibé l'activité basale in vivo de phospholipase C dépendante de phosphatidylinositol (PI-PLC), tandis que SA (mais pas ABA) a incité aussi le phosphorylation de phosphatidylinositols. Les transcriptomes de cellules après le traitement par SA ou ABA ont été comparé à ceux obtenus aprés le traitement avec U73122 ou wortmannin. Nous avons trouvé des groupes de gènes, pour qui l'effet d'ABA et des inhibiteurs était semblable; des gènes dependants du SA via l'équilibre des phosphoinositides et des gènes dependants du SA via l’activité de PLD. Basé sur l'analyse bioinformatique de toutes les groupes de gènes choisis, nous proposons le règlement du niveaux des phosphoinositides comme un facteur important dans la regulation du transcriptome basal et également dans les changements du profile transcriptomique induits par l'effet du SA ou d'ABA.L'effet du peptide bactérien flg22 sur l’équilibre des phospholipides a été détecté tant dans des cellules de suspension que dans des plantules. Flg22 a induit l'accumulation de PA par l'activation de PI-PLC couplée a la diacylglycerolkinase 5 (DGK5), et egalement la diminution de niveau de phosphatidylinositol-4,5-biphosphate, qui est un substrat de PI-PLC. L'analyse des effects des inhibiteurs a révélé la participation des DGK et PI-PLC dans la production des espèces d'oxygène réactive (ROS) induite par flg22. La production du PA a été placée dans la cascade de la signalisation en aval de la reconnaissance du flg22 par le complexe de récepteur FLS2-BAK1, mais aprés la formation du ROS par NADPH-oxydase RbohD. Le rôle de DGK5 a été caractérisé dans la regulation du transcriptome; dans l’accumulation du callose induite par flg22 dans l’apoplast et dans la résistance au pathogène biotrophique Pseudomonas syringae pv tomato DC3000. Finalement, nous avons proposé un nouveau modèle de perception du flagellin qui inclut PI-PLC et DGK5.Le rôle de phosphoinositides dans les cascades de la signalisation d’auxin et cytokinin a été révélé dans la morphogenesis racinaire dans le mutant d'Arabidopsis pi4kb1b2 (muté dans deux isoformes de PI4K) et pi4kb1b2sid2 (contient la mutation supplémentaire de l'enzyme de biosynthèse du SA, permettant de séparer les effets du mutation en PI4K qui dependent du SA). Nous avons analysé l'anatomie de la meristem des racines, l'allongement de cellules corticales, la réponse gravitropic, les réponses aux hormones exogènes et nous avons montré la connexion entre l'activité PI4K avec les effets d’auxin et de cytokinin pendant le morphogenesis racinaire et gravitropism. Nos résultats élargissent la connaissance de la nature de la signalisation phytohormonale dans les plantes et peuvent être utilisés comme une base pour augmenter la résistance de céréales agricolement importantes aux contraintes de l’environnementThesis is devoted to the investigation of lipid signaling processes as a universal mechanism mediating cellular responses to phytohormones and elicitors thus playing a key role in cell metabolism remodeling during plant adaptation to environmental changes. Phospholipase D (PLD) and its product phosphatidic acid (PA) were found to be involved to the SA-induced signaling cascades in Arabidopsis thaliana guard cells. Using radioactive labeling of phospholipids we found an activation of PLD and production of PA in leaves of 4-week old plants after salicylic acid (SA) treatment. Using histochemical assay, inhibitor assay and transgenic lines knock-out by different isoforms of NADPH-oxidases, we showed the involvement of PLD and NADPH-oxidase RbohD to PA-mediated superoxide formation in Arabidopsis tissues infiltrated by SA and SA-induced stomatal closure. SA- crosstalk with abscisic acid (ABA) in transcriptome remodeling induced by these hormones was investigated in suspension cell culture. Both SA and ABA inhibited basal activity of phosphatidylinositol dependent phospholipase C (PI-PLC) in vivo, while SA (but not ABA) also induced the phosphorylation of phosphatidylinositols. Total transcriptomes of suspension cells after SA or ABA treatment were compared to those obtained from suspension cells treated with U73122 (PI-PLC inhibitor) or wortmannin (inhibitor of phosphatidylinositol-4-kinases (PI4K) that provide the substrate for PI-PLC catalyzed reactions). We found a specific gene clusters, for those the effect of ABA and inhibitors was similar; SA-dependent genes, regulated via the balance of phosphoinositides, and SA-dependent genes, regulated via PLD-mediated pathway. Based on the bioinformatic analysis of the promoters of all selected gene sets, we claim a phosphoinositides level regulation to be an important factor mediating basal cell transcriptome and expression changes induced by SA and ABA.The effect of bacterial peptide flg22 on phospholipid turnover was detected in both suspension cells and seedlings. Flg22 induced accumulation of PA by the activation of PI-PLC coupled with diacylglycerolkinase (DGK) and a corresponding parallel increase of phosphatidylinositol-4,5-biphosphate content, that is a substrate of PI-PLC. Inhibitor analysis revealed the involvement of Ca2+ ions in lipid signaling enzymes reaction to flagellin treatment. We showed the role of DGK and PI-PLC in production of reactive oxygen species (ROS) induced by flg22. PA-production was placed in signaling cascade downstream of flagellin recognition by FLS2-BAK1 receptor complex receptor, but upstream or ROS formation by NADPH-oxidase RbohD. DGK5 was found to be the main source of the detected PA. The role of DGK5 was characterized in basal transcriptome regulation and its flagellin-induced remodeling; in flg22-induced callose accumulation in apoplast and resistance to biotrophic pathogen Pseudomonas syringae pv tomato DC3000. We proposed a new model of flagellin perception that includes PI-PLC and DGK5. Role of phosphoinositides in auxin and cytokinin signaling cascades was revealed studying root morphogenesis in Arabidopsis mutant pi4kb1b2 deficient for two PI4K genes, and pi4kb1b2sid2 that had additional mutation it key enzyme of SA biosynthesis, thus allowing us to separate SA-dependent and independent effects of the PI4K deficiency. pi4kb1b2 mutant plants exhibit the dwarf phenotype both in leaf and root parts, while pi4kb1b2sid2 show the normal rosette growth compared to WT, but still shorter roots. We analyzed root meristem anatomy, cortical cells elongation, gravitropic response, responses to exogenic hormones and firstly showed the connection of PI4K activity with auxin and cytokinin effects during root morphogenesis and gravitropism. Our results broaden the knowledge about the nature of plant phytohormonal signaling and can be used as a basis for increasing the resistance of agriculturally important crop plants to environmental stresse

Role de la signalisation lipidique chez les plantes en réponse aux contraintes de l'environnement et lors du développement

Thesis is devoted to the investigation of lipid signaling processes as a universal mechanism mediating cellular responses to phytohormones and elicitors thus playing a key role in cell metabolism remodeling during plant adaptation to environmental changes. Phospholipase D (PLD) and its product phosphatidic acid (PA) were found to be involved to the SA-induced signaling cascades in Arabidopsis thaliana guard cells. Using radioactive labeling of phospholipids we found an activation of PLD and production of PA in leaves of 4-week old plants after salicylic acid (SA) treatment. Using histochemical assay, inhibitor assay and transgenic lines knock-out by different isoforms of NADPH-oxidases, we showed the involvement of PLD and NADPH-oxidase RbohD to PA-mediated superoxide formation in Arabidopsis tissues infiltrated by SA and SA-induced stomatal closure. SA- crosstalk with abscisic acid (ABA) in transcriptome remodeling induced by these hormones was investigated in suspension cell culture. Both SA and ABA inhibited basal activity of phosphatidylinositol dependent phospholipase C (PI-PLC) in vivo, while SA (but not ABA) also induced the phosphorylation of phosphatidylinositols. Total transcriptomes of suspension cells after SA or ABA treatment were compared to those obtained from suspension cells treated with U73122 (PI-PLC inhibitor) or wortmannin (inhibitor of phosphatidylinositol-4-kinases (PI4K) that provide the substrate for PI-PLC catalyzed reactions). We found a specific gene clusters, for those the effect of ABA and inhibitors was similar; SA-dependent genes, regulated via the balance of phosphoinositides, and SA-dependent genes, regulated via PLD-mediated pathway. Based on the bioinformatic analysis of the promoters of all selected gene sets, we claim a phosphoinositides level regulation to be an important factor mediating basal cell transcriptome and expression changes induced by SA and ABA.The effect of bacterial peptide flg22 on phospholipid turnover was detected in both suspension cells and seedlings. Flg22 induced accumulation of PA by the activation of PI-PLC coupled with diacylglycerolkinase (DGK) and a corresponding parallel increase of phosphatidylinositol-4,5-biphosphate content, that is a substrate of PI-PLC. Inhibitor analysis revealed the involvement of Ca2+ ions in lipid signaling enzymes reaction to flagellin treatment. We showed the role of DGK and PI-PLC in production of reactive oxygen species (ROS) induced by flg22. PA-production was placed in signaling cascade downstream of flagellin recognition by FLS2-BAK1 receptor complex receptor, but upstream or ROS formation by NADPH-oxidase RbohD. DGK5 was found to be the main source of the detected PA. The role of DGK5 was characterized in basal transcriptome regulation and its flagellin-induced remodeling; in flg22-induced callose accumulation in apoplast and resistance to biotrophic pathogen Pseudomonas syringae pv tomato DC3000. We proposed a new model of flagellin perception that includes PI-PLC and DGK5. Role of phosphoinositides in auxin and cytokinin signaling cascades was revealed studying root morphogenesis in Arabidopsis mutant pi4kb1b2 deficient for two PI4K genes, and pi4kb1b2sid2 that had additional mutation it key enzyme of SA biosynthesis, thus allowing us to separate SA-dependent and independent effects of the PI4K deficiency. pi4kb1b2 mutant plants exhibit the dwarf phenotype both in leaf and root parts, while pi4kb1b2sid2 show the normal rosette growth compared to WT, but still shorter roots. We analyzed root meristem anatomy, cortical cells elongation, gravitropic response, responses to exogenic hormones and firstly showed the connection of PI4K activity with auxin and cytokinin effects during root morphogenesis and gravitropism. Our results broaden the knowledge about the nature of plant phytohormonal signaling and can be used as a basis for increasing the resistance of agriculturally important crop plants to environmental stressesLa thèse est consacrée à l'étude de la signalisation lipidique comme un mécanisme universel de médiation des réponses cellulaires à phytohormones et élicitors jouant ainsi un rôle clé dans la réorganisation de métabolisme cellulaire pendant l'adaptation de la plante aux changements environnementaux.Phospholipase D (PLD) et son produit acide phosphatidic (PA) ont étés impliqués au cascades de signalisation induites par l’acide salicylique (SA) dans les cellules de garde de Arabidopsis thaliana. On a trouvé une activation de PLD et la production de PA dans les feuilles des plantes après le traitement par SA. En utilisant le marquage radioactif des phospholipides, l'analyse histochimique, les inhibiteurs de la signalisation lipidique et des lignées transgénique des plantes, nous avons montré la participation de la PLD et la NADPH-oxidase RbohD à la formation du superoxyde dans les tissues d’Arabidopsis et à la fermeture des stomates induite par SA.La cooperation entre le SA et l’acide abscisic (ABA) dans la réorganisation de transcriptome induite par ces hormones a été examinée dans la culture de la suspension cellulaire. Tant SA que l'ABA ont inhibé l'activité basale in vivo de phospholipase C dépendante de phosphatidylinositol (PI-PLC), tandis que SA (mais pas ABA) a incité aussi le phosphorylation de phosphatidylinositols. Les transcriptomes de cellules après le traitement par SA ou ABA ont été comparé à ceux obtenus aprés le traitement avec U73122 ou wortmannin. Nous avons trouvé des groupes de gènes, pour qui l'effet d'ABA et des inhibiteurs était semblable; des gènes dependants du SA via l'équilibre des phosphoinositides et des gènes dependants du SA via l’activité de PLD. Basé sur l'analyse bioinformatique de toutes les groupes de gènes choisis, nous proposons le règlement du niveaux des phosphoinositides comme un facteur important dans la regulation du transcriptome basal et également dans les changements du profile transcriptomique induits par l'effet du SA ou d'ABA.L'effet du peptide bactérien flg22 sur l’équilibre des phospholipides a été détecté tant dans des cellules de suspension que dans des plantules. Flg22 a induit l'accumulation de PA par l'activation de PI-PLC couplée a la diacylglycerolkinase 5 (DGK5), et egalement la diminution de niveau de phosphatidylinositol-4,5-biphosphate, qui est un substrat de PI-PLC. L'analyse des effects des inhibiteurs a révélé la participation des DGK et PI-PLC dans la production des espèces d'oxygène réactive (ROS) induite par flg22. La production du PA a été placée dans la cascade de la signalisation en aval de la reconnaissance du flg22 par le complexe de récepteur FLS2-BAK1, mais aprés la formation du ROS par NADPH-oxydase RbohD. Le rôle de DGK5 a été caractérisé dans la regulation du transcriptome; dans l’accumulation du callose induite par flg22 dans l’apoplast et dans la résistance au pathogène biotrophique Pseudomonas syringae pv tomato DC3000. Finalement, nous avons proposé un nouveau modèle de perception du flagellin qui inclut PI-PLC et DGK5.Le rôle de phosphoinositides dans les cascades de la signalisation d’auxin et cytokinin a été révélé dans la morphogenesis racinaire dans le mutant d'Arabidopsis pi4kb1b2 (muté dans deux isoformes de PI4K) et pi4kb1b2sid2 (contient la mutation supplémentaire de l'enzyme de biosynthèse du SA, permettant de séparer les effets du mutation en PI4K qui dependent du SA). Nous avons analysé l'anatomie de la meristem des racines, l'allongement de cellules corticales, la réponse gravitropic, les réponses aux hormones exogènes et nous avons montré la connexion entre l'activité PI4K avec les effets d’auxin et de cytokinin pendant le morphogenesis racinaire et gravitropism. Nos résultats élargissent la connaissance de la nature de la signalisation phytohormonale dans les plantes et peuvent être utilisés comme une base pour augmenter la résistance de céréales agricolement importantes aux contraintes de l’environnemen

EFFECTIVE WAYS OF POSTGRADUATE PEDAGOGICAL EDUCATION INSTITUTES TEACHERS’ TRAINING

The article presents the results of comparative analysis of training for teachers of postgraduate pedagogical education institutes for various forms of training: full-time, full-time- distance and distance after the author's program "Teacher training of postgraduate pedagogical education institutes for use of audiovisual teaching aids." The comparison was done on such indicators as the number of participants who completed the training, the pace of learning, quality control test mastery of the material of the course, the qualitative and quantitative performance indicators of individual case studies. As a result, the article identifies the main advantages and disadvantages of each form of education and recommended the most effective form of in-service training of the teaching load