Neurochemical correlates of internet game play in adolescents with attention deficit hyperactivity disorder: A proton magnetic resonance spectroscopy (MRS) study

Mixed infections have been broadly applied to the study of bacterial pathogens in animals. However, the application of mixed infection-based methods in plant pathogens has been very limited. An important factor for this limitation is the different dynamics that mixed infections have been reported to show in the different types of models. Reports in systemic animal infections have shown that any bacterium has the same probability of multiplying within a mixed infection than in a single infection. However, in plant pathogens, bacterial growth in a mixed infection does not seem to reflect growth in a single infection, as growth interference takes place between the co-inoculated strains. Here we show that growth interference in mixed infection between different Pseudomonas syringae strains is not intrinsic to growth within a plant host, but dependent on the dose of inoculation. We also show that the minimal inoculation dose required to avoid interference depends on the aggressiveness of the pathogen as well as the type of virulence factor that differentiates the co-inoculated strains. This study establishes the basis for the use of mixed infection-based applications to the study of phytopathogenic bacteria. Analysis of the virulence of a type III effector mutant and an hrp regulatory mutant illustrate the increased accuracy and sensitivity of competitive index assays vs. regular growth assays. Several applications of this assay are addressed, and potential implications for this and other mixed infection-based methods are discussed.

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Analysis of the Role of the Type III Effector Inventory ofPseudomonas syringaepv. phaseolicola 1448a in Interaction with the Plant

Zumaquero

Macho

Rufián

et al. 2010

J Bacteriol

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In Pseudomonas syringae, the type III secretion system (T3SS) is essential for disease in compatible hosts and for eliciting the hypersensitive response in incompatible hosts. P. syringae pathovars secrete a variable number of type III effectors that form their secretomes. The secretome of Pseudomonas syringae pv. phaseolicola 1448a (Pph1448a) currently includes 22 experimentally validated effectors, one HrpL-regulated candidate for which translocation results have been inconsistent, two translocated candidates for which in planta expression has not been established, one bioinformatically identified candidate, and six candidates that have been experimentally discarded. We analyzed the translocation and/or expression of these and other candidates to complete the Pph1448a effector inventory, bringing this inventory to 27 bona fide effectors, including a new one that does not belong to any of the previously described effector families. We developed a simple process for rapidly making single and double knockout mutants and apply it to the generation of an effector mutant collection that includes single knockouts for the majority of the Pph1448a effector inventory. We also generated two double mutant strains containing effectors with potentially redundant functions and analyzed the virulence of the single and double mutant strains as well as strains expressing each of the effectors from a plasmid. We demonstrate that AvrB4-1 and AvrB4-2, as well as HopW1-1 and HopW1-2, are fully redundant and contribute to virulence in bean plants, thus validating this approach for dissecting the contribution of the Pph1448a type III effector inventory to virulence. We also analyzed the effect that the expression of these four effectors from Pseudomonas syringae pv. tomato DC3000 (PtoDC3000) has during its interaction with Arabidopsis thaliana, establishing that AvrB4-1, but not the others, determines a restriction of bacterial growth that takes place mostly independently of the salicylic acid (SA)-signaling pathway.

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Suppression of HopZ Effector-Triggered Plant Immunity in a Natural Pathosystem

et al. 2018

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Many type III-secreted effectors suppress plant defenses, but can also activate effector-triggered immunity (ETI) in resistant backgrounds. ETI suppression has been shown for a number of type III effectors (T3Es) and ETI-suppressing effectors are considered part of the arms race model for the co-evolution of bacterial virulence and plant defense. However, ETI suppression activities have been shown mostly between effectors not being naturally expressed within the same strain. Furthermore, evolution of effector families is rarely explained taking into account that selective pressure against ETI-triggering effectors may be compensated by ETI-suppressing effector(s) translocated by the same strain. The HopZ effector family is one of the most diverse, displaying a high rate of loss and gain of alleles, which reflects opposing selective pressures. HopZ effectors trigger defense responses in a variety of crops and some have been shown to suppress different plant defenses. Mutational changes in the sequence of ETI-triggering effectors have been proposed to result in the avoidance of detection by their respective hosts, in a process called pathoadaptation. We analyze how deleting or overexpressing HopZ1a and HopZ3 affects virulence of HopZ-encoding and non-encoding strains. We find that both effectors trigger immunity in their plant hosts only when delivered from heterologous strains, while immunity is suppressed when delivered from their native strains. We carried out screens aimed at identifying the determinant(s) suppressing HopZ1a-triggered and HopZ3-triggered immunity within their native strains, and identified several effectors displaying suppression of HopZ3-triggered immunity. We propose effector-mediated cross-suppression of ETI as an additional force driving evolution of the HopZ family.

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Genetic Analysis of the Individual Contribution to Virulence of the Type III Effector Inventory of Pseudomonas syringae pv. phaseolicola

Macho¹,

Zumaquero²,

Plaza³

et al. 2012

PLoS ONE

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Several reports have recently contributed to determine the effector inventory of the sequenced strain Pseudomonas syringae pv. phaseolicola (Pph) 1448a. However, the contribution to virulence of most of these effectors remains to be established. Genetic analysis of the contribution to virulence of individual P. syringae effectors has been traditionally hindered by the lack of phenotypes of the corresponding knockout mutants, largely attributed to a high degree of functional redundancy within their effector inventories. In support of this notion, effectors from Pseudomonas syringae pv. tomato (Pto) DC3000 have been classified into redundant effector groups (REGs), analysing virulence of polymutants in the model plant Nicotiana benthamiana. However, using competitive index (CI) as a virulence assay, we were able to establish the individual contribution of AvrPto1Pto DC3000 to Pto DC3000 virulence in tomato, its natural host, even though typically, contribution to virulence of AvrPto1 is only shown in strains also lacking AvrPtoB (also called HopAB2), a member of its REG. This report raised the possibility that even effectors targeting the same defence signalling pathway may have an individual contribution to virulence, and pointed out to CI assays as the means to establish such a contribution for individual effectors. In this work, we have analysed the individual contribution to virulence of the majority of previously uncharacterised Pph 1448a effectors, by monitoring the development of disease symptoms and determining the CI of single knockout mutants at different stages of growth within bean, its natural host. Despite their potential functional redundancy, we have found individual contributions to virulence for six out of the fifteen effectors analysed. In addition, we have analysed the functional relationships between effectors displaying individual contribution to virulence, highlighting the diversity that these relationships may present, and the interest of analysing their functions within the context of the infection.

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Competitive Index in Mixed Infection: A Sensitive and Accurate Method to Quantify Growth of Pseudomonas syringae in Different Plants

Macho

Zumaquero

Ortiz-Martín

et al. 2008

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Evaluación De La Respuesta Fisiológica Frente a Distintos Niveles De Estrés Hídrico en Portainjerto S De Aguacate Susceptibles a Rosellinia Necatrix

Moreno-Ortega¹,

Pliego²,

Zumaquero³

et al. 2018

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ResumenLa enfermedad de la podredumbre blanca de la raíz causada por Rosellinia necatrix es una de las amenazas más importantes que afectan a las plantaciones ya establecidas de aguacate en las regiones templadas. Su erradicación es prácticamente imposible y se requieren métodos de control que aminoren su impacto, como podría ser la inducción de tolerancia mediante estrés hídrico. Por ello, se evaluó la respuesta a nivel fisiológico de plantas susceptibles a R. necatrix frente dos niveles de estrés hídrico (moderado y severo) así como su capacidad de recuperación. La respuesta de las plantas a ambos niveles de estrés fue rápida y proporcional a la intensidad del mismo, observándose una limitación de la fotosíntesis a nivel estomático además de una disminución en el potencial hídrico acompañada de un aumento de la proporción del sistema radicular. Además, se observó un aumento en NPQ y qN indicando la necesidad de las plantas de disipar el exceso de energía absorbida en forma de calor y la puesta en marcha de mecanismos de defensa. Tras la reposición del riego, los niveles de NPQ y qN se mantuvieron elevados pese a la rápida recuperación de los parámetros potencial hídrico e intercambio gaseoso, sugiriendo un nivel de pre-alerta en las plantas que podría representar una mayor capacidad de defensa frente a R. necatrix. AbstractWhite root rot disease caused by Rosellinia necatrix is one of the most important threats affecting avocado orchards in temperate regions. Current control approaches involve the use of physical and chemical methods although none of these methods has proven to be fully effective. In this sense, the induction of tolerance through drought stress may represent an effective method to lessen the impact of this pathogen. The response at the physiological level of susceptible plants to R. necatrix was evaluated against moderate and severe drought stress, as well as their capacity for recovering. The stressed plants response was quick and induced a stomatal limitation of photosynthesis in addition to a decrease in water potential that were accompanied by an increase in the proportion of roots versus aerial part. As a consequence of this stomatal limitation, an increase in NPQ and qN was observed, indicating the need of the plants to dissipate the excess of absorbed energy as heat and the implementation of defense mechanisms. After the irrigation replacement, the levels of NPQ and qN were maintained despite the fast recovery of gas exchange parameters, suggesting a pre-alert level in the recovered plants that could represent a greater defense capacity against R. necatrix.

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Adela Zumaquero

Competitive index in mixed infections: a sensitive and accurate assay for the genetic analysis of Pseudomonas syringae–plant interactions

Analysis of the Role of the Type III Effector Inventory ofPseudomonas syringaepv. phaseolicola 1448a in Interaction with the Plant

Suppression of HopZ Effector-Triggered Plant Immunity in a Natural Pathosystem

Genetic Analysis of the Individual Contribution to Virulence of the Type III Effector Inventory of Pseudomonas syringae pv. phaseolicola

Competitive Index in Mixed Infection: A Sensitive and Accurate Method to Quantify Growth of Pseudomonas syringae in Different Plants

Evaluación De La Respuesta Fisiológica Frente a Distintos Niveles De Estrés Hídrico en Portainjerto S De Aguacate Susceptibles a Rosellinia Necatrix

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