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2. Functional and Structural Analysis Reveals Distinct Biological Roles of Plant Synaptotagmins in Response to Environmental Stress.

Author

García‐Hernández, Selene, Rubio, Lourdes, Rivera‐Moreno, María, Pérez‐Sancho, Jessica, Morello‐López, Jorge, Esteban del Valle, Alicia, Benítez‐Fuente, Francisco, Beuzón, Carmen R., Macho, Alberto P., Ruiz‐López, Noemi, Albert, Armando, and Botella, Miguel A.

Subjects
SYNAPTOTAGMINS, PSEUDOMONAS syringae, ABIOTIC stress, FUNCTIONAL analysis, CALCIUM ions
Abstract

Endoplasmic reticulum–plasma membrane contact sites (ER–PM CSs) are evolutionarily conserved membrane domains found in all eukaryotes, where the ER closely interfaces with the PM. This short distance is achieved in plants through the action of tether proteins such as synaptotagmins (SYTs). Arabidopsis comprises five SYT members (SYT1–SYT5), but whether they possess overlapping or distinct biological functions remains elusive. SYT1, the best‐characterized member, plays an essential role in the resistance to abiotic stress. This study reveals that the functionally redundant SYT1 and SYT3 genes, but not SYT5, are involved in salt and cold stress resistance. We also show that, unlike SYT5, SYT1 and SYT3 are not required for Pseudomonas syringae resistance. Since SYT1 and SYT5 interact in vivo via their SMP domains, the distinct functions of these proteins cannot be caused by differences in their localization. Interestingly, structural phylogenetic analysis indicates that the SYT1 and SYT5 clades emerged early in the evolution of land plants. We also show that the SYT1 and SYT5 clades exhibit different structural features in their SMP and Ca2+ binding of their C2 domains, rationalizing their distinct biological roles. Summary statement: Plant synaptotagmins are tethers at endoplasmic reticulum–plasma membrane contact sites that play crucial roles in stress resistance and lipid transport. This study establishes clade‐specific functions resulting from an early evolutionary structural divergence within this family. [ABSTRACT FROM AUTHOR]

Published
2025
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6. Suppression of NLR-mediated plant immune detection by bacterial pathogens.

Author

Rufián, José S, Rueda-Blanco, Javier, Beuzón, Carmen R, and Ruiz-Albert, Javier

Subjects
PLANT surfaces, PLANT defenses, PLANT proteins, PATHOGENIC bacteria, PATHOGENIC microorganisms, IMMUNE system
Abstract

The plant immune system is constituted of two functionally interdependent branches that provide the plant with an effective defense against microbial pathogens. They can be considered separate since one detects extracellular pathogen-associated molecular patterns by means of receptors on the plant surface, while the other detects pathogen-secreted virulence effectors via intracellular receptors. Plant defense depending on both branches can be effectively suppressed by host-adapted microbial pathogens. In this review we focus on bacterially driven suppression of the latter, known as effector-triggered immunity (ETI) and dependent on diverse NOD-like receptors (NLRs). We examine how some effectors secreted by pathogenic bacteria carrying type III secretion systems can be subject to specific NLR-mediated detection, which can be evaded by the action of additional co-secreted effectors (suppressors), implying that virulence depends on the coordinated action of the whole repertoire of effectors of any given bacterium and their complex epistatic interactions within the plant. We consider how ETI activation can be avoided by using suppressors to directly alter compromised co-secreted effectors, modify plant defense-associated proteins, or occasionally both. We also comment on the potential assembly within the plant cell of multi-protein complexes comprising both bacterial effectors and defense protein targets. [ABSTRACT FROM AUTHOR]

Published
2023
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7. Regulation of plant immunity via small RNA-mediated control of NLR expression.

Author

López-Márquez, Diego, Del-Espino, Ángel, Ruiz-Albert, Javier, Bejarano, Eduardo R, Brodersen, Peter, and Beuzón, Carmen R

Subjects
GENE expression, IMMUNOREGULATION, DISEASE resistance of plants, PATTERN perception receptors, GENETIC regulation
Abstract

Plants use different receptors to detect potential pathogens: membrane-anchored pattern recognition receptors (PRRs) activated upon perception of pathogen-associated molecular patterns (PAMPs) that elicit pattern-triggered immunity (PTI); and intracellular nucleotide-binding leucine-rich repeat proteins (NLRs) activated by detection of pathogen-derived effectors, activating effector-triggered immunity (ETI). The interconnections between PTI and ETI responses have been increasingly reported. Elevated NLR levels may cause autoimmunity, with symptoms ranging from fitness cost to developmental arrest, sometimes combined with run-away cell death, making accurate control of NLR dosage key for plant survival. Small RNA-mediated gene regulation has emerged as a major mechanism of control of NLR dosage. Twenty-two nucleotide miRNAs with the unique ability to trigger secondary siRNA production from target transcripts are particularly prevalent in NLR regulation. They enhance repression of the primary NLR target, but also bring about repression of NLRs only complementary to secondary siRNAs. We summarize current knowledge on miRNAs and siRNAs in the regulation of NLR expression with an emphasis on 22 nt miRNAs and propose that miRNA and siRNA regulation of NLR levels provides additional links between PTI and NLR defense pathways to increase plant responsiveness against a broad spectrum of pathogens and control an efficient deployment of defenses. [ABSTRACT FROM AUTHOR]

Published
2023
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18. miR825-5p targets the TIR-NBS-LRR gene MIST1 and down-regulates basal immunity against Pseudomonas syringae in Arabidopsis.

Author

López-Márquez, Diego, Del-Espino, Ángel, López-Pagán, Nieves, Rodríguez-Negrete, Edgar A, Rubio-Somoza, Ignacio, Ruiz-Albert, Javier, Bejarano, Eduardo R, and Beuzón, Carmen R

Subjects
PSEUDOMONAS syringae, GENE targeting, ARABIDOPSIS, NON-coding RNA, MICRORNA, TRANSGENIC plants
Abstract

Plants encode numerous intracellular receptors known as nucleotide-binding leucine-rich repeat receptors (NLRs) that recognize pathogen-derived effectors or their activity to activate defenses. miRNAs regulate NLR genes in many species, often triggering the production of phased siRNAs (phasiRNAs). Most such examples involve genes encoding NLRs carrying coiled-coil domains, although a few include genes encoding NLRs carrying a Toll/interleukin-1 domain (TNL). Here, we characterize the role of miR825-5p in Arabidopsis, using a combination of bioinformatics, transgenic plants with altered miRNA levels and/or reporters, small RNAs, and virulence assays. We demonstrate that miR825-5p down-regulates the TNL MIST1 by targeting for endonucleolytic cleavage the sequence coding for TIR2, a highly conserved amino acid motif, linked to a catalytic residue essential for immune function. miR825-5p acts as a negative regulator of basal resistance against Pseudomonas syringae. miR825-5p triggers the production from MIST1 of a large number of phasiRNAs that can mediate cleavage of both MIST1 and additional TNL gene transcripts, potentially acting as a regulatory hub. miR825-5p is expressed in unchallenged leaves and transcriptionally down-regulated in response to pathogen-associated molecular patterns (PAMPs). Our results show that miR825-5p, which is required for full expression of PAMP-triggered immunity, establishes a link between PAMP perception and expression of uncharacterized TNL genes. [ABSTRACT FROM AUTHOR]

Published
2021
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19. The bacterial effector HopZ1a acetylates MKK7 to suppress plant immunity.

Author

Rufián, José S., Rueda‐Blanco, Javier, López‐Márquez, Diego, Macho, Alberto P., Beuzón, Carmen R., and Ruiz‐Albert, Javier

Subjects
DISEASE resistance of plants, ARABIDOPSIS proteins, MITOGEN-activated protein kinases, EXOTOXIN, PLANT proteins, PSEUDOMONAS syringae
Abstract

Summary: The Pseudomonas syringae type III secretion system translocates effector proteins into the host cell cytosol to suppress plant basal immunity. Effector HopZ1a suppresses local and systemic immunity triggered by pathogen‐associated molecular patterns (PAMPs) and effectors, through target acetylation. HopZ1a has been shown to target several plant proteins, but none fully substantiates HopZ1a‐associated immune suppression. Here, we investigate Arabidopsis thaliana mitogen‐activated protein kinase kinases (MKKs) as potential targets, focusing on AtMKK7, a positive regulator of local and systemic immunity.We analyse HopZ1a interference with AtMKK7 by translocation of HopZ1a from bacteria inoculated into Arabidopsis expressing MKK7 from an inducible promoter. Reciprocal phenotypes are analysed on plants expressing a construct quenching MKK7 native expression. We analyse HopZ1a–MKK7 interaction by three independent methods, and the relevance of acetylation by in vitro kinase and in planta functional assays.We demonstrate the AtMKK7 contribution to immune signalling showing MKK7‐dependent flg22‐induced reactive oxygen species (ROS) burst, MAP kinas (MAPK) activation and callose deposition, plus AvrRpt2‐triggered MKK7‐dependent signalling. Furthermore, we demonstrate HopZ1a suppression of all MKK7‐dependent responses, HopZ1a–MKK7 interaction in planta and HopZ1a acetylation of MKK7 with a lysine required for full kinase activity.We demonstrate that HopZ1a targets AtMKK7 to suppress local and systemic plant immunity. [ABSTRACT FROM AUTHOR]

Published
2021
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24. Suppression of HopZ Effector-Triggered Plant Immunity in a Natural Pathosystem.

Author

Rufián, José S., Lucía, Ainhoa, Rueda-Blanco, Javier, Zumaquero, Adela, Guevara, Carlos M., Ortiz-Martín, Inmaculada, Ruiz-Aldea, Gonzalo, Macho, Alberto P., Beuzón, Carmen R., and Ruiz-Albert, Javier

Subjects
PLANT defenses, PSEUDOMONAS syringae, GENETIC mutation
Abstract

Many type III-secreted effectors suppress plant defenses, but can also activate effectortriggered 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 ETItriggering 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 nonencoding 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. [ABSTRACT FROM AUTHOR]

Published
2018
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25. Confocal microscopy reveals <italic>in planta</italic> dynamic interactions between pathogenic, avirulent and non‐pathogenic <italic>Pseudomonas syringae</italic> strains.

Author

Rufián, José S., Macho, Alberto P., Corry, David S., Mansfield, John W., Ruiz‐Albert, Javier, Arnold, Dawn L., and Beuzón, Carmen R.

Subjects
PHYTOPATHOGENIC microorganisms, PSEUDOMONAS syringae, PLANT genomes, BACTERIAL population, CONFOCAL microscopy, COMPUTATIONAL complexity
Abstract

Summary: Recent advances in genomics and single‐cell analysis have demonstrated the extraordinary complexity reached by microbial populations within their hosts. Communities range from complex multispecies groups to homogeneous populations differentiating into lineages through genetic or non‐genetic mechanisms. Diversity within bacterial populations is recognized as a key driver of the evolution of animal pathogens. In plants, however, little is known about how interactions between different pathogenic and non‐pathogenic variants within the host impact on defence responses, or how the presence within a mixture may affect the development or the fate of each variant. Using confocal fluorescence microscopy, we analysed the colonization of the plant apoplast by individual virulence variants of Pseudomonas syringae within mixed populations. We found that non‐pathogenic variants can proliferate and even spread beyond the inoculated area to neighbouring tissues when in close proximity to pathogenic bacteria. The high bacterial concentrations reached at natural entry points promote such interactions during the infection process. We also found that a diversity of interactions take place at a cellular level between virulent and avirulent variants, ranging from dominant negative effects on proliferation of virulent bacteria to in trans suppression of defences triggered by avirulent bacteria. Our results illustrate the spatial dynamics and complexity of the interactions found within mixed infections, and their potential impact on pathogen evolution. [ABSTRACT FROM AUTHOR]

Published
2018
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26. Effects of different arbuscular mycorrhizal fungal backgrounds and soils on olive plants growth and water relation properties under well-watered and drought conditions.

Author

Calvo‐Polanco, Monica, Sánchez‐Castro, Iván, Cantos, Manuel, García, José Luis, Azcón, Rosario, Ruiz‐Lozano, Juan Manuel, Beuzón, Carmen R., and Aroca, Ricardo

Subjects
OLIVE, VESICULAR-arbuscular mycorrhizas, PLANT growth, BIOLOGICAL adaptation, MICROORGANISMS
Abstract

The adaptation capacity of olive trees to different environments is well recognized. However, the presence of microorganisms in the soil is also a key factor in the response of these trees to drought. The objective of the present study was to elucidate the effects of different arbuscular mycorrhizal (AM) fungi coming from diverse soils on olive plant growth and water relations. Olive plants were inoculated with native AM fungal populations from two contrasting environments, that is, semi-arid - Freila (FL) and humid - Grazalema (GZ) regions, and subjected to drought stress. Results showed that plants grew better on GZ soil inoculated with GZ fungi, indicating a preference of AM fungi for their corresponding soil. Furthermore, under these conditions, the highest AM fungal diversity was found. However, the highest root hydraulic conductivity ( Lpr) value was achieved by plants inoculated with GZ fungi and growing in FL soil under drought conditions. So, this AM inoculum also functioned in soils from different origins. Nine novel aquaporin genes were also cloned from olive roots. Diverse correlation and association values were found among different aquaporin expressions and abundances and Lpr, indicating how the interaction of different aquaporins may render diverse Lpr values. [ABSTRACT FROM AUTHOR]

Published
2016
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27. Pseudomonas syringae Differentiates into Phenotypically Distinct Subpopulations During Colonization of a Plant Host.

Author

Rufián, José S., Sánchez ‐ Romero, María ‐ Antonia, López ‐ Márquez, Diego, Macho, Alberto P., Mansfield, John W., Arnold, Dawn L., Ruiz ‐ Albert, Javier, Casadesús, Josep, and Beuzón, Carmen R.

Subjects
PSEUDOMONAS syringae, PHENOTYPES, BACTERIAL colonies, HOST plants, VIRULENCE of bacteria
Abstract

Bacterial microcolonies with heterogeneous sizes are formed during colonization of Phaseolus vulgaris by Pseudomonas syringae. Heterogeneous expression of structural and regulatory components of the P. syringae type III secretion system (T3SS), essential for colonization of the host apoplast and disease development, is likewise detected within the plant apoplast. T3SS expression is bistable in the homogeneous environment of nutrient-limited T3SS-inducing medium, suggesting that subpopulation formation is not a response to different environmental cues. T3SS bistability is reversible, indicating a non-genetic origin, and the T3SSHIGH and T3SSLOW subpopulations show differences in virulence. T3SS bistability requires the transcriptional activator HrpL, the double negative regulatory loop established by HrpV and HrpG, and may be enhanced through a positive feedback loop involving HrpA, the main component of the T3SS pilus. To our knowledge, this is the first example of phenotypic heterogeneity in the expression of virulence determinants during colonization of a non-mammalian host. [ABSTRACT FROM AUTHOR]

Published
2016
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28. Meeting report: Adaptation and communication of bacterial pathogens.

Author

Aussel, Laurent, Beuzón, Carmen R., and Cascales, Eric

Subjects
*BACTERIA, *ECOLOGICAL niche, *BIOLOGICAL adaptation, *INTRACELLULAR pathogens, *ECOLOGICAL heterogeneity
Abstract

Bacteria usually live in complex environments, sharing niche and resources with other bacterial species, unicellular eukaryotic cells or complex organisms. Thus, they have evolved mechanisms to communicate, to compete and to adapt to changing environment as diverse as human tissues, animals or plants. Understanding the molecular mechanisms underlying these adaptation processes is therefore of primary importance for epidemiology and human health protection, and was the focus of a Current Trends in Biomedicine workshop organized by the International University of Andalucia in late October 2015 in Baeza (Spain). The topic was covered by complementary sessions: (i) interbacterial communication and competition that enable a better access to nutrients or a more efficient colonization of the ecological niche, (ii) adaptation of intracellular pathogens to their host, focusing on metabolic pathways, adaptive mechanisms and populational heterogeneity, and (iii) adaptation of animal and plant pathogens as well as plant-associated bacteria to a plant niche. This workshop emphasized the broad repertoire of mechanisms and factors bacteria have evolved to become efficient pathogens. [ABSTRACT FROM AUTHOR]

Published
2016
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29. Transcriptomic Analysis Using Olive Varieties and Breeding Progenies Identifies Candidate Genes Involved in Plant Architecture.

Author

González-Plaza, Juan J., Ortiz-Martín, Inmaculada, Muñoz-Mérida, Antonio, García-López, Carmen, Sánchez-Sevilla, José F., Luque, Francisco, Trelles, Oswaldo, Bejarano, Eduardo R., De La Rosa, Raúl, Valpuesta, Victoriano, Beuzón, Carmen R., Costes, Evelyne, and Kalaitzis, Panagiotis

Subjects
PLANT anatomy, OLIVE varieties, DWARF plants
Abstract

Plant architecture is a critical trait in fruit crops that can significantly influence yield, pruning, planting density and harvesting. Little is known about how plant architecture is genetically determined in olive, were most of the existing varieties are traditional with an architecture poorly suited for modern growing and harvesting systems. In the present study, we have carried out microarray analysis of meristematic tissue to compare expression profiles of olive varieties displaying differences in architecture, as well as seedlings from their cross pooled on the basis of their sharing architecture-related phenotypes. The microarray used, previously developed by our group has already been applied to identify candidates genes involved in regulating juvenile to adult transition in the shoot apex of seedlings. Varieties with distinct architecture phenotypes and individuals from segregating progenies displaying opposite architecture features were used to link phenotype to expression. Here, we identify 2252 differentially expressed genes (DEGs) associated to differences in plant architecture. Microarray results were validated by quantitative RT-PCR carried out on genes with functional annotation likely related to plant architecture. Twelve of these genes were further analyzed in individual seedlings of the corresponding pool. We also examined Arabidopsis mutants in putative orthologs of these targeted candidate genes, finding altered architecture for most of them. This supports a functional conservation between species and potential biological relevance of the candidate genes identified. This study is the first to identify genes associated to plant architecture in olive, and the results obtained could be of great help in future programs aimed at selecting phenotypes adapted to modern cultivation practices in this species. [ABSTRACT FROM AUTHOR]

Published
2016
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30. Modulation of Type III Secretion System in Pseudomonas aeruginosa: Involvement of the PA4857 Gene Product.

Author

Miao Zhu, Jingru Zhao, Huaping Kang, Weina Kong, Haihua Liang, Beuzón, Carmen R., and Fang Bai

Subjects
PATHOGENIC microorganisms, PSEUDOMONAS
Abstract

Pseudomonas aeruginosa is an opportunistic pathogen that causes serious acute or chronic infections in humans. Acute infections typically involve the type III secretion systems (T3SSs) and bacterial motility, whereas chronic infections are often associated with biofilm formation and the type VI secretion system. To identify new genes required for pathogenesis, a transposon mutagenesis library was constructed and the gene PA4857, named tspR, was found to modulate T3SS gene expression. Deletion of P. aeruginosa tspR reduced the virulence in a mouse acute lung infection model and diminished cytotoxicity. Suppression of T3SS gene expression in the tspR mutant resulted from compromised translation of the T3SS master regulator ExsA. TspR negatively regulated two small RNAs, RsmY and RsmZ, which control RsmA. Our data demonstrated that defects in T3SS expression and biofilm formation in retS mutant could be partially restored by overexpression of tspR. Taken together, our results demonstrated that the newly identified retS-tspR pathway is coordinated with the retSgacS system, which regulates the genes associated with acute and chronic infections and controls the lifestyle choice of P. aeruginosa. [ABSTRACT FROM AUTHOR]

Published
2016
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31. Auto-acetylation on K289 is not essential for HopZ1a-mediated plant defense suppression.

Author

Rufián, José S., Lucía, Ainhoa, Macho, Alberto P., Orozco-Navarrete, Begoña, Arroyo-Mateos, Manuel, Bejarano, Eduardo R., Beuzón, Carmen R., Ruiz-Albert, Javier, Cameron, Robin Katrina, and Filiatrault, Melanie J.

Subjects
ACETYLATION, PLANT defenses, PSEUDOMONAS syringae
Abstract

The Pseudomonas syringae type III-secreted effector HopZ1a is a member of the HopZ/YopJ superfamily of effectors that triggers immunity in Arabidopsis. We have previously shown that HopZ1a suppresses both local [effector-triggered immunity (ETI)] and systemic immunity [systemic acquired resistance (SAR)] triggered by the heterologous effector AvrRpt2. HopZ1a has been shown to possess acetyltransferase activity, and this activity is essential to trigger immunity in Arabidopsis. HopZ1a acetyltransferase activity has been reported to require the auto-acetylation of the effector on a specific lysine (K289) residue. In this paper we analyze the relevance of autoacetylation of lysine residue 289 in HopZ1a ability to suppress plant defenses, and on the light of the results obtained, we also revise its relevance for HopZ1a avirulence activity. Our results indicate that, while the HopZ1aK289R mutant is impaired to some degree in its virulence and avirulence activities, is by no means phenotypically equivalent to the catalytically inactive HopZ1aC216A, since it is still able to trigger a defense response that induces detectable macroscopic HR and effectively protects Arabidopsis from infection, reducing growth of P. syringae within the plant. We also present evidence that the HopZ1aK289R mutant still displays virulence activities, partially suppressing both ETI and SAR. [ABSTRACT FROM AUTHOR]

Published
2015
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32. De Novo Assembly and Functional Annotation of the Olive (Olea europaea) Transcriptome.

Author

Muñoz-Mérida, Antonio, González-Plaza, Juan José, Cañada, Andrés, Blanco, Ana María, García-López, Maria del Carmen, Rodríguez, José Manuel, Pedrola, Laia, Sicardo, M. Dolores, Hernández, M. Luisa, De la Rosa, Raúl, Belaj, Angjelina, Gil-Borja, Mayte, Luque, Francisco, Martínez-Rivas, José Manuel, Pisano, David G., Trelles, Oswaldo, Valpuesta, Victoriano, and Beuzón, Carmen R.

Abstract

Olive breeding programmes are focused on selecting for traits as short juvenile period, plant architecture suited for mechanical harvest, or oil characteristics, including fatty acid composition, phenolic, and volatile compounds to suit new markets. Understanding the molecular basis of these characteristics and improving the efficiency of such breeding programmes require the development of genomic information and tools. However, despite its economic relevance, genomic information on olive or closely related species is still scarce. We have applied Sanger and 454 pyrosequencing technologies to generate close to 2 million reads from 12 cDNA libraries obtained from the Picual, Arbequina, and Lechin de Sevilla cultivars and seedlings from a segregating progeny of a Picual × Arbequina cross. The libraries include fruit mesocarp and seeds at three relevant developmental stages, young stems and leaves, active juvenile and adult buds as well as dormant buds, and juvenile and adult roots. The reads were assembled by library or tissue and then assembled together into 81 020 unigenes with an average size of 496 bases. Here, we report their assembly and their functional annotation. [ABSTRACT FROM PUBLISHER]

Published
2013
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33. Genetic Analysis of the Individual Contribution to Virulence of the Type III Effector Inventory of Pseudomonas syringae pv. phaseolicola.

Author

Macho, Alberto P., Zumaquero, Adela, Gonzalez-Plaza, Juan J., Ortiz-Martín, Inmaculada, Rufián, José S., and Beuzón, Carmen R.

Subjects
MICROBIAL virulence, PSEUDOMONAS syringae, PHENOTYPES, NICOTIANA benthamiana, GENETIC mutation, GENETICS
Abstract

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 AvrPto1PtoDC3000 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. [ABSTRACT FROM AUTHOR]

Published
2012
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35. Identification of new type III effectors and analysis of the plant response by competitive index.

Author

MACHO, ALBERTO P., RUIZ-ALBERT, JAVIER, TORNERO, PABLO, and BEUZÓN, CARMEN R.

Subjects
PROSPECTING, BIOMOLECULES, ARABIDOPSIS, ARABIDOPSIS thaliana, BIOLOGICAL transport, EXCRETION, PLANT shoots, PHYSIOLOGY
Abstract

In recent years, many efforts have been directed towards the identification of new type III-secreted effectors, and the completion of the secretomes of several Pseudomonas syringae pathovars. Several functional and bioinformatic screenings have been used to search for candidates, which have been tested for translocation into the plant cell, an essential criterion for the identification of new type III effector proteins. The most common translocation assay is based on the use of ΔAvrRpt2 as a reporter. When fused to a type III effector protein, ΔAvrRpt2 is translocated and elicits a hypersensitive response in leaves of Arabidopsis thaliana expressing the RPS2 resistance protein. This approach has been used widely and has allowed the identification of a considerable number of new effectors in a fast and convenient manner. However, as the hypersensitive response is a semi-quantitative assay, and the conditions do not resemble those occurring in nature, effectors with low expression or translocation efficiency could fail to translocate sufficient ΔAvrRpt2 to trigger a clear hypersensitive response. In keeping with these limitations, this test has failed to detect some true effectors that have been confirmed as such by other means. In order to increase the sensitivity of this method, we have developed a modification of the ΔAvrRpt2-based translocation assay using a competitive index in mixed infection to monitor the limitation of growth associated with the induction of the hypersensitive response. We have tested several effector candidates from P. syringae pv. phaseolicola and other P. syringae pathovars, and have compared the results obtained by our competitive index translocation assay with those obtained by standard hypersensitive response assays. We have identified six type III secretion system-translocated proteins using this approach, five of which failed to be identified by hypersensitive response assays. In addition, we have analysed the defence response triggered by one of these effectors using competitive index assays. [ABSTRACT FROM AUTHOR]

Published
2009
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36. Competitive index in mixed infections: a sensitive and accurate assay for the genetic analysis of Pseudomonas syringae–plant interactions.

Author

MACHO, ALBERTO P., ZUMAQUERO, ADELA, ORTIZ-MARTÍN, INMACULADA, and BEUZÓN, CARMEN R.

Subjects
PSEUDOMONAS syringae, BACTERIAL diseases of plants, PHYTOPATHOGENIC microorganisms, PLANT diseases, MICROBIAL growth
Abstract

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. [ABSTRACT FROM AUTHOR]

Published
2007
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37. The roles of SsrA-SsrB and OmpR-EnvZ in the regulation of genes encoding the Salmonella typhimurium SPI-2 type III secretion system.

Author

Garmendia, Junkal, Beuzón, Carmen R., Ruiz-Albert, Javier, and Holden, David W.

Subjects
*SALMONELLA typhimurium, *GENETIC regulation, *CHROMOSOMAL translocation, *GENE expression
Abstract

The type III secretion system (TTSS) encoded by Salmonella typhimurium pathogenicity island 2 (SPI-2) is expressed after bacterial entry into host cells. The SPI-2 TTSS secretes the translocon components SseBCD, which translocate across the vacuolar membrane a number of effector proteins whose action is required for intracellular bacterial replication. Several of these effectors, including SifA and SifB, are encoded outside SPI-2. The two-component regulatory system SsrA-SsrB, encoded within SPI-2, controls the expression of components of the SPI-2 TTSS apparatus as well as its translocated effectors. The expression of SsrA-B is in turn regulated by the OmpR-EnvZ two-component system, by direct binding of OmpR to the ssrAB promoter. Several environmental signals have been shown to induce in vitro expression of genes regulated by the SsrA-B or OmpR-EnvZ systems. In this work, immunoblotting and flow cytometry were used to analyse the roles of SsrA-B and OmpR-EnvZ in coupling different environmental signals to changes in expression of a SPI-2 TTSS translocon component (SseB) and two effector genes (sifA and sifB). Using single and double mutant strains the relative contribution of each regulatory system to the response generated by low osmolarity, acidic pH or the absence of Ca[sup 2+] was determined. SsrA-B was found to be essential for the induction of SPI-2 gene expression in response to each of these individual signals. OmpR-EnvZ was found to play a minor role in sensing these signals and to require a functional SsrA-B system to mediate their effect on SPI-2 TTSS gene expression. [ABSTRACT FROM AUTHOR]

Published
2003
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38. Growth and killing of a Salmonella enterica serovar Typhimurium sifA mutant strain in the cytosol of different host cell lines.

Author

Beuzón, Carmen R., Salcedo, Suzana P., and Holden, David W.

Subjects
*SALMONELLA, *INTRACELLULAR pathogens, *CYTOSOL, *CELL lines
Abstract

Intracellular pathogens have developed different mechanisms which enable their survival and replication within the host cells. Some survive and replicate within a membrane-bound vacuole modified by the bacteria to support microbial growth (e.g. Salmonella enterica serovar Typhimurium), whereas others escape from the vacuole into the host cell cytosol, where they proliferate (e.g. Listeria monocytogenes). In this study a Salmonella strain carrying a mutation in sifA which is released from the vacuole was used to analyse Salmonella survival and replication within the cytosol of several cell lines. It was found that Salmonella replicates within the cytosol of epithelial cells at a higher rate than that achieved when replicating within the vacuole, but is defective for replication in the cytosol of fibroblasts or macrophages. Using an aroCpurD double mutant strain which does not replicate within host cells, it was shown that Salmonella encounters a killing activity within the cytosol of macrophages. Furthermore, in vitro experiments using cytosol extracted from either infected or uninfected macrophages suggested that this activity is activated upon Salmonella infection. [ABSTRACT FROM AUTHOR]

Published
2002

39. A role for the PhoP/Q regulon in inhibition of fusion between lysosomes and Salmonella-containing vacuoles in macrophages.

Author

Garvis, Steven G., Beuzón, Carmen R., and Holden, David W.

Subjects
*LYSOSOMES, *SALMONELLA
Abstract

After uptake by murine macrophages, Salmonella typhimurium is able to survive and replicate within specialized phagosomes called Salmonella-containing vacuoles (SCVs), which are segregated from the late endocytic pathway. The molecular basis of this process and the virulence factors required are not fully understood. In this study, we used confocal fluorescence microscopy to evaluate interactions between the endocytic pathway of the murine macrophage cell line RAW 264.7 and different S. typhimurium strains. The analysis was carried out using the fluid-phase marker Texas red–ovalbumin and antibodies against the lysosomal enzyme cathepsin D, the late endosomal lipid lysobisphosphatidic acid and the adaptor proteins AP-1 and AP-3. Less than 10% of wild-type SCVs were associated with these markers at 24 h after uptake by macrophages. A similar low level of association was observed for vacuoles containing mutant strains affected in the function of the Salmonella pathogenicity island (SPI)-2 type III secretion system or the virulence plasmid spv operon. However, at this time point, the proportion of vacuoles containing phoP- mutant bacteria that were associated with each of the markers ranged from 25% to 50%. These results show that the regulon controlled by the PhoP/Q two-component system makes a major contribution to trafficking of the SCV in macrophages. Segregation of SCVs from the endocytic pathway was also found to be dependent on bacterial proteins synthesized between 15 min and 4 h after uptake into macrophages. However, after this time, protein synthesis was not required to maintain the segregation of SCVs from late endosomes and lysosomes. [ABSTRACT FROM AUTHOR]

Published
2001
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42. Salmonella Heterogeneously Expresses Flagellin during Colonization of Plants.

Author

Zarkani, Azhar A., López-Pagán, Nieves, Grimm, Maja, Sánchez-Romero, María Antonia, Ruiz-Albert, Javier, Beuzón, Carmen R., and Schikora, Adam

Subjects
PLANT colonization, FLAGELLIN, FOODBORNE diseases, CONTINUED fractions, PLANT cells & tissues, SALMONELLA enterica, SALMONELLA
Abstract

Minimally processed or fresh fruits and vegetables are unfortunately linked to an increasing number of food-borne diseases, such as salmonellosis. One of the relevant virulence factors during the initial phases of the infection process is the bacterial flagellum. Although its function is well studied in animal systems, contradictory results have been published regarding its role during plant colonization. In this study, we tested the hypothesis that Salmonella's flagellin plays a versatile function during the colonization of tomato plants. We have assessed the persistence in plant tissues of a Salmonella enterica wild type strain, and of a strain lacking the two flagellins, FljB and FliC. We detected no differences between these strains concerning their respective abilities to reach distal, non-inoculated parts of the plant. Analysis of flagellin expression inside the plant, at both the population and single cell levels, shows that the majority of bacteria down-regulate flagellin production, however, a small fraction of the population continues to express flagellin at a very high level inside the plant. This heterogeneous expression of flagellin might be an adaptive strategy to the plant environment. In summary, our study provides new insights on Salmonella adaption to the plant environment through the regulation of flagellin expression. [ABSTRACT FROM AUTHOR]

Published
2020
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43. Gene Expression Profile of Mexican Lime (Citrus aurantifolia) Trees in Response to Huanglongbing Disease caused by Candidatus Liberibacter asiaticus.

Author

Arce-Leal, Ángela Paulina, Bautista, Rocío, Rodríguez-Negrete, Edgar Antonio, Manzanilla-Ramírez, Miguel Ángel, Velázquez-Monreal, José Joaquín, Santos-Cervantes, María Elena, Méndez-Lozano, Jesús, Beuzón, Carmen R., Bejarano, Eduardo R., Castillo, Araceli G., Claros, M. Gonzalo, and Leyva-López, Norma Elena

Subjects
CANDIDATUS liberibacter asiaticus, CITRUS greening disease, GENE expression profiling, CANDIDATUS diseases, SECONDARY metabolism, CITRUS
Abstract

Nowadays, Huanglongbing (HLB) disease, associated with Candidatus Liberibacter asiaticus (CLas), seriously affects citriculture worldwide, and no cure is currently available. Transcriptomic analysis of host–pathogen interaction is the first step to understand the molecular landscape of a disease. Previous works have reported the transcriptome profiling in response to HLB in different susceptible citrus species; however, similar studies in tolerant citrus species, including Mexican lime, are limited. In this work, we have obtained an RNA-seq-based differential expression profile of Mexican lime plants challenged against CLas infection, at both asymptomatic and symptomatic stages. Typical HLB-responsive differentially expressed genes (DEGs) are involved in photosynthesis, secondary metabolism, and phytohormone homeostasis. Enrichment of DEGs associated with biotic response showed that genes related to cell wall, secondary metabolism, transcription factors, signaling, and redox reactions could play a role in the tolerance of Mexican lime against CLas infection. Interestingly, despite some concordance observed between transcriptional responses of different tolerant citrus species, a subset of DEGs appeared to be species-specific. Our data highlights the importance of studying the host response during HLB disease using as model tolerant citrus species, in order to design new and opportune diagnostic and management methods. [ABSTRACT FROM AUTHOR]

Published
2020
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44. Role for Salmonella enterica Enterobacterial Common Antigen in Bile Resistance and Virulence.

Author

Ramos-Morales, Francisco, Prieto, Ana I., Beuzón, Carmen R., Holden, David W., and Casadesús, Josep

Subjects
*SALMONELLA, *ANTIGENS, *MICROBIAL virulence
Abstract

Passage through the digestive tract exposes Salmonella enterica to high concentrations of bile salts, powerful detergents that disrupt biological membranes. Mutations in the wecD or wecA gene, both of which are involved in the synthesis of enterobacterial common antigen (ECA), render S. enterica serovar Typhimurium sensitive to the bile salt deoxycholate. Competitive infectivity analysis of wecD and wecA mutants in the mouse model indicates that ECA is an important virulence factor for oral infection. In contrast, lack of ECA causes only a slight decrease in Salmonella virulence during intraperitoneal infection. A tentative interpretation is that ECA may contribute to Salmonella virulence by protecting the pathogen from bile salts. [ABSTRACT FROM AUTHOR]

Published
2003
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45. Analysis of the Role of the Type III Effector Inventory of Pseudomonas syringae pv. phaseolicola 1448a in Interaction with the Plant.

Author

Zumaquero, Adela, Macho, Alberto P., Rufián, José S., and Beuzón, Carmen R.

Subjects
*PSEUDOMONAS syringae, *PLASMIDS, *MICROBIAL virulence, *SALICYLIC acid, *CHROMOSOMAL translocation
Abstract

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 transiocation 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 Pph 1448a 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. [ABSTRACT FROM AUTHOR]

Published
2010
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46. SseA is a chaperone for the SseB and SseD translocon components of the Salmonella pathogenicity-island-2-encoded type III secretion system.

Author

Ruiz-Albert, Javier, Mundy, Rosanna, Xiu-Jun Yu, Beuzón, Carmen R., and Holden, David W.

Subjects
*SALMONELLA, *PATHOGENIC bacteria
Abstract

The type III secretion system (TTSS) encoded by the Salmonella pathogenicity island 2 (SPI-2) is required for bacterial replication inside macrophages and for systemic infection in mice. Many TTSS secreted proteins, including effectors and components of the translocon, require chaperones which promote their stability, prevent their premature interactions or facilitate their secretion. In this study, the function of the first gene (sseA) of one of the SPI-2 operons (sseA-G) was investigated. This operon includes genes that encode translocon components (SseB, SseC and SseD), translocated proteins (SseF and SseG) and putative chaperones (SscA and SscB). sseA encodes a 12·5 kDa protein with a C-terminal region with the potential to form a coiled-coil structure, but no sequence similarity to other proteins. Mutation of sseA results in severe virulence attenuation and an intracellular replication defect. It is shown here that SseA is not a secreted protein, but is required for SPl-2-dependent translocation of two effector proteins (SifA and PipB). Furthermore, the translocon components SseB and SseD were not detected in an sseA mutant strain. By using a yeast two-hybrid assay and column binding experiments, it is demonstrated that SseA interacts directly with SseB and SseD. These results indicate that SseA is a chaperone for SseB and SseD. The inability of an sseA mutant to assemble the SPI-2 TTSS translocon accounts for its high level of virulence attenuation in vivo. To the authors' knowledge, this is the first chaperone described for the SPI-2 TTSS. [ABSTRACT FROM AUTHOR]

Published
2003
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47. Dual-Fluorescence Chromosome-Located Labeling System for Accurate In Vivo Single-Cell Gene Expression Analysis in Pseudomonas syringae.

Author

López-Pagán N, Rufián JS, Ruiz-Albert J, and Beuzón CR

Subjects
Single-Cell Gene Expression Analysis, Chromosomes, Bacterial, Microscopy, Fluorescence, Coloring Agents, Pseudomonas syringae, Epigenesis, Genetic
Abstract

Epigenetic regulation as a means for bacterial adaptation is receiving increasing interest in the last decade. Significant efforts have been directed towards understanding the mechanisms giving raise to phenotypic heterogeneity within bacterial populations and its adaptive relevance. Phenotypic heterogeneity mostly refers to phenotypic variation not linked to genetic differences nor to environmental stimuli. Recent findings on the relevance of phenotypic heterogeneity on some bacterial complex traits are causing a shift from traditional assays where bacterial phenotypes are defined by averaging population-level data, to single-cell analysis that focus on bacterial individual behavior within the population. Fluorescent labeling is a key asset for single-cell gene expression analysis using flow cytometry, fluorescence microscopy, and/or microfluidics.We previously described the generation of chromosome-located transcriptional gene fusions to fluorescent reporter genes using the model bacterial plant pathogen Pseudomonas syringae. These fusions allow researchers to follow variation in expression of the gene(s) of interest, without affecting gene function. In this report, we improve the analytic power of the method by combining such transcriptional fusions with constitutively expressed compatible fluorescent reporter genes integrated in a second, neutral locus of the bacterial chromosome. Constitutively expressed fluorescent reporters allow for the detection of all bacteria comprising a heterogeneous population, regardless of the level of expression of the concurrently monitored gene of interest, thus avoiding the traditional use of stains often incompatible with samples from complex contexts such as the leaf., (© 2024. The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature.)

Published
2024
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48. Single-Cell Analysis of the Expression of Pseudomonas syringae Genes within the Plant Tissue.

Author

Rufián JS, López-Pagán N, Ruiz-Albert J, and Beuzón CR

Subjects
Single-Cell Analysis, Plant Diseases microbiology, Virulence, Bacterial Proteins genetics, Bacterial Proteins metabolism, Gene Expression Regulation, Bacterial, Pseudomonas syringae genetics, Type III Secretion Systems metabolism
Abstract

A plethora of pathogenic microorganisms constantly attack plants. The Pseudomonas syringae species complex encompasses Gram-negative plant-pathogenic bacteria of special relevance for a wide number of hosts. P. syringae enters the plant from the leaf surface and multiplies rapidly within the apoplast, forming microcolonies that occupy the intercellular space. The constitutive expression of fluorescent proteins by the bacteria allows for visualization of the microcolonies and monitoring of the development of the infection at the microscopic level. Recent advances in single-cell analysis have revealed the large complexity reached by clonal isogenic bacterial populations. This complexity, referred to as phenotypic heterogeneity, is the consequence of cell-to-cell differences in gene expression (not linked to genetic differences) among the bacterial community. To analyze the expression of individual loci at the single-cell level, transcriptional fusions to fluorescent proteins have been widely used. Under stress conditions, such as those occurring during colonization of the plant apoplast, P. syringae differentiates into distinct subpopulations based on the heterogeneous expression of key virulence genes (i.e., the Hrp type III secretion system). However, single-cell analysis of any given P. syringae population recovered from plant tissue is challenging due to the cellular debris released during the mechanical disruption intrinsic to the inoculation and bacterial extraction processes. The present report details a method developed to monitor the expression of P. syringae genes of interest at the single-cell level during the colonization of Arabidopsis and bean plants. The preparation of the plants and the bacterial suspensions used for inoculation using a vacuum chamber are described. The recovery of endophytic bacteria from infected leaves by apoplastic fluid extraction is also explained here. Both the bacterial inoculation and bacterial extraction methods are empirically optimized to minimize plant and bacterial cell damage, resulting in bacterial preparations optimal for microscopy and flow cytometry analysis.

Published
2022
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49. Fluorescently labeled Pseudomonas syringae DC3000 and 1449b wild-type strains constitutively expressing either eGFP, eCFP, or dsRED.

Author

Rufián JS, Ruiz-Albert J, and Beuzón CR

Abstract

Here we describe the generation of fluorescently labeled derivatives of the plant pathogen Pseudomonas syringae DC3000 and 1449b strains, with each derivative constitutively expressing either the enhanced green (eGFP), enhanced cyan (eCFP), or Discosoma sp. red (dsRED) fluorescent proteins. The fluorophore-expressing cassetes are stably located in a neutral locus in the chromosome, and its expression does not affect bacterial fitness, while allowing efficient detection by microscopy or flow cytometry. We have generated these strains as a complementary set of labeled strains to those previously generated in our laboratory, thus extending the range of applications., (Copyright: © 2022 by the authors.)

Published
2022
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50. Usefulness of a New Large Set of High Throughput EST-SNP Markers as a Tool for Olive Germplasm Collection Management.

Author

Belaj A, de la Rosa R, Lorite IJ, Mariotti R, Cultrera NGM, Beuzón CR, González-Plaza JJ, Muñoz-Mérida A, Trelles O, and Baldoni L

Abstract

Germplasm collections are basic tools for conservation, characterization, and efficient use of olive genetic resources. The identification of the olive cultivars maintained in the collections is an important ongoing task which has been performed by both, morphological and molecular markers. In the present study, based on the sequencing results of previous genomic projects, a new set of 1,043 EST-SNP markers has been identified. In order to evaluate its discrimination capacity and utility in diversity studies, this set of markers was used in a representative number of accessions from 20 different olive growing countries and maintained at the World Olive Germplasm Collection of IFAPA Centre 'Alameda del Obispo' (Córdoba, Spain), one of the world's largest olive germplasm bank. Thus, the cultivated material included: cultivars belonging to previously defined core collections by means of SSR markers and agronomical traits, well known homonymy cases, possible redundancies previously identified in the collection, and recently introduced accessions. Marker stability was tested in repeated analyses of a selected number of accessions, as well as in different trees and accessions belonging to the same cultivar. In addition, 15 genotypes from a cross 'Picual' × 'Arbequina' cultivars from the IFAPA olive breeding program and a set of 89 wild genotypes were also included in the study. Our results indicate that, despite their relatively wide variability, the new set of EST-SNPs displayed lower levels of genetic diversity than SSRs in the set of olive core collections tested. However, the EST-SNP markers displayed consistent and reliable results from different plant material sources and plant propagation events. The EST-SNPs revealed a clear cut off between inter- and intra-cultivar variation in olive. Besides, they were able to reliably discriminate among different accessions, to detect possible homonymy cases as well as efficiently ascertain the presence of redundant germplasm in the collection. Additionally, these markers were highly transferable to the wild genotypes. These results, together with the low genotyping error rates and the easy and fully automated procedure used to get the genotyping data, validate the new set of EST-SNPs as possible markers of choice for olive cultivar identification.

Published
2018
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