Differential expression of pathogenicity- and virulence-related genes of Xanthomonas axonopodis pv. citri under copper stress

In this study, we used real-time quantitative PCR (RT-qPCR) to evaluate the expression of 32 genes of Xanthomonas axonopodis pv. citri related to pathogenicity and virulence that are also involved in copper detoxification. Nearly all of the genes were up-regulated, including copA and copB. Two genes homologous to members of the type II secretion system (xcsH and xcsC) and two involved in the degradation of plant cell wall components (pglA and pel) were the most expressed in response to an elevated copper concentration. The type II secretion system (xcs operon) and a few homologues of proteins putatively secreted by this system showed enhanced expression when the bacteria were exposed to a high concentration of copper sulfate. The enhanced expression of the genes of secretion II system during copper stress suggests that this pathway may have an important role in the adaptative response of X. axonopodis pv. citri to toxic compounds. These findings highlight the potential role of these genes in attenuating the toxicity of certain metals and could represent an important means of bacterial resistance against chemicals used to control diseases

Mutation in the xpsD gene of Xanthomonas axonopodis pv. citri affects cellulose degradation and virulence

The Gram-negative bacterium Xanthomonas axonopodis pv. citri, the causal agent of citrus canker, is a major threat to the citrus industry worldwide. Although this is a leaf spot pathogen, it bears genes highly related to degradation of plant cell walls, which are typically found in plant pathogens that cause symptoms of tissue maceration. Little is known on Xac capacity to cause disease and hydrolyze cellulose. We investigated the contribution of various open reading frames on degradation of a cellulose compound by means of a global mutational assay to selectively screen for a defect in carboxymethyl cellulase (CMCase) secretion in X. axonopodis pv. citri. Screening on CMC agar revealed one mutant clone defective in extracellular glycanase activity, out of nearly 3,000 clones. The insertion was located in the xpsD gene, a component of the type II secretion system (T2SS) showing an influence in the ability of Xac to colonize tissues and hydrolyze cellulose. In summary, these data show for the first time, that X. axonopodis pv. citri is capable of hydrolyzing cellulose in a T2SS-dependent process. Furthermore, it was demonstrated that the ability to degrade cellulose contributes to the infection process as a whole

Structure-Function Analysis of the HrpB2-HrcU Interaction in the Xanthomonas citri Type III Secretion System

Bacterial type III secretion systems deliver protein virulence factors to host cells. Here we characterize the interaction between HrpB2, a small protein secreted by the Xanthomonas citri subsp. citri type III secretion system, and the cytosolic domain of the inner membrane protein HrcU, a paralog of the flagellar protein FlhB. We show that a recombinant fragment corresponding to the C-terminal cytosolic domain of HrcU produced in E. coli suffers cleavage within a conserved Asn264-Pro265-Thr266-His267 (NPTH) sequence. A recombinant HrcU cytosolic domain with N264A, P265A, T266A mutations at the cleavage site (HrcUAAAH) was not cleaved and interacted with HrpB2. Furthermore, a polypeptide corresponding to the sequence following the NPTH cleavage site also interacted with HrpB2 indicating that the site for interaction is located after the NPTH site. Non-polar deletion mutants of the hrcU and hrpB2 genes resulted in a total loss of pathogenicity in susceptible citrus plants and disease symptoms could be recovered by expression of HrpB2 and HrcU from extrachromossomal plasmids. Complementation of the ΔhrcU mutant with HrcUAAAH produced canker lesions similar to those observed when complemented with wild-type HrcU. HrpB2 secretion however, was significantly reduced in the ΔhrcU mutant complemented with HrcUAAAH, suggesting that an intact and cleavable NPTH site in HrcU is necessary for total functionally of T3SS in X. citri subsp. citri. Complementation of the ΔhrpB2 X. citri subsp. citri strain with a series of hrpB2 gene mutants revealed that the highly conserved HrpB2 C-terminus is essential for T3SS-dependent development of citrus canker symptoms in planta

ATLANTIC-PRIMATES: a dataset of communities and occurrences of primates in the Atlantic Forests of South America

Primates play an important role in ecosystem functioning and offer critical insights into human evolution, biology, behavior, and emerging infectious diseases. There are 26 primate species in the Atlantic Forests of South America, 19 of them endemic. We compiled a dataset of 5,472 georeferenced locations of 26 native and 1 introduced primate species, as hybrids in the genera Callithrix and Alouatta. The dataset includes 700 primate communities, 8,121 single species occurrences and 714 estimates of primate population sizes, covering most natural forest types of the tropical and subtropical Atlantic Forest of Brazil, Paraguay and Argentina and some other biomes. On average, primate communities of the Atlantic Forest harbor 2 ± 1 species (range = 1–6). However, about 40% of primate communities contain only one species. Alouatta guariba (N = 2,188 records) and Sapajus nigritus (N = 1,127) were the species with the most records. Callicebus barbarabrownae (N = 35), Leontopithecus caissara (N = 38), and Sapajus libidinosus (N = 41) were the species with the least records. Recorded primate densities varied from 0.004 individuals/km 2 (Alouatta guariba at Fragmento do Bugre, Paraná, Brazil) to 400 individuals/km 2 (Alouatta caraya in Santiago, Rio Grande do Sul, Brazil). Our dataset reflects disparity between the numerous primate census conducted in the Atlantic Forest, in contrast to the scarcity of estimates of population sizes and densities. With these data, researchers can develop different macroecological and regional level studies, focusing on communities, populations, species co-occurrence and distribution patterns. Moreover, the data can also be used to assess the consequences of fragmentation, defaunation, and disease outbreaks on different ecological processes, such as trophic cascades, species invasion or extinction, and community dynamics. There are no copyright restrictions. Please cite this Data Paper when the data are used in publications. We also request that researchers and teachers inform us of how they are using the data. © 2018 by the The Authors. Ecology © 2018 The Ecological Society of Americ

Redox signalling and innate immunity: a role for protein S-nitrosylation in the immune response of Drosophila melanogaster

Over the past three decades, nitric oxide (NO) has been recognised as one of the most versatile and important players in many aspects of physiology, including immune responses. More recently, S-nitrosylation, the incorporation of a NO moiety into a protein thiol group, has emerged as a major post-translational modification (PTM) during pathophysiological responses in plants and animals. The main goal of this work was to investigate the role of S-nitrosylation in physiology and innate immunity of animals using the genetic reference system, Drosophila melanogaster. The S-nitrosylated derivative of glutathione (GSH), S-nitrosoglutathione (GSNO), is the main non-protein S-nitrosothiol (SNO) in the cell and extracellular fluids. GSNO can trans-S-nitrosylate other thiols and is considered a reservoir of NO bioactivity. The levels of GSNO and total S-nitrosylation have been shown to be controlled by S-nitrosoglutathione reductase (GSNOR) in yeast, plants and mammals. By employing an overlapping deletion technique to knock-out gsnor, a role for S-nitrosylation in the immune response of D. melanogaster is proposed. Compared to wild type flies, gsnor overlapping deletion flies presented lower expression of antimicrobial peptides in response to infections, and succumbed more rapidly to both Gram-positive bacterial and fungal pathogens. As the Toll pathway mediates responses against these pathogens, key components of this network were tested for their propensity to being S-nitrosylated. Two CLIP-domain serine proteases of the Toll signalling pathway, Persephone (PSH) and Spätzle-Processing Enzyme (SPE), were shown to be S-nitrosylated both in vitro and in vivo and this process seemed to control the quaternary structure of these proteins and interfere with the immune response of D. melanogaster. At least for PSH, S-nitrosylation at C254 has an immune significance as the expression of non-Snitrosylable PSHC254S in gsnor knock-out flies partially recovered the resistance of these animals to infections with the entomopathogenic fungus Beauveria bassiana. These findings might represent a novel mechanism by which NO and S-nitrosylation regulate immunity. Further results presented in this thesis reveal an interplay between reactive oxygen species (ROS) and reactive nitrogen species (RNS) in D. melanogaster physiology and immunity. Similarly to what has been reported in Arabidopsis thaliana, gsnor knock-out flies presented higher tolerance to the herbicide paraquat, an inducer of superoxide (O2 -) production. Moreover, additional mutations in Catalase (Cat), a hydrogen peroxide (H2O2) scavenger enzyme, partially restored the immunodeficiency phenotypes of gsnor knock-out flies. These findings suggest an inter-relation between the levels of ROS and RNS during stress responses of plants and animals. In addition, CRISPR/Cas9 technology was employed to generate gsnor knock-outs in the genome of D. melanogaster. These flies were shown to have no GSNOR activity, presented lower tolerance to pharmacological-induced nitrosative stress and succumbed faster to infections with B. bassiana compared to wild type flies. These results support the role played by GSNOR in regulating NO homeostasis and immunity in D. melanogaster

Functional analyses of type II secretion systems from Xanthomonas axonopodis pv. citri

Orientadores: Marcos Antonio Machado, Alexandre Morais do AmaralDissertação (mestrado) - Universidade Estadual de Campinas, Instituto de BiologiaResumo: O cancro cítrico é uma das mais sérias doenças de citros no mundo, sobretudo nos países onde a citricultura exerce papel influente na geração de empregos e divisas, como o Brasil, o maior produtor mundial de laranjas. Por esse motivo, o agente causal dessa doença, a bactéria Xanthomonas axonopodis pv. citri (Xac), teve seu genoma completamente sequenciado. No genoma de Xac foram identificados dois agrupamentos gênicos (operons), xcsCDEFGHIJKLMN e xpsEFGHIJKLMND, que codificam para o sistema de secreção do tipo II (SSTII), mecanismo altamente envolvido no processo de patogenicidade em algumas bactérias causadoras de doenças em plantas. Até o momento, não há evidência da função desempenhada por cada conjunto gênico do SSTII de Xac e da relação desses com o processo de interação com a planta de citros. Neste estudo foram analisadas as funcionalidades dos dois agrupamentos gênicos do SSTII de Xac e sua atividade durante a interação com a planta hospedeira. As análises revelaram que a bactéria utiliza os dois sistemas de forma distinta e com relevância diferenciada durante a interação com a planta, com repercussão no crescimento da bactéria no tecido foliar, sobretudo o operon xps. Adicionalmente, foram identificadas contribuições distintas na atividade de degradação dos compostos amido, carboximetilcelulose e proteína. Exames de microscopia revelaram que a bactéria tem sua organização estrutural do biofilme influenciada pelos dois SSTII e análises de expressão gênica revelaram que o operon xps apresenta atividade extremamente maior em relação ao operon xcs. Estes resultados mostram pela primeira vez a influência independente de ambos SSTII na capacidade patogênica de Xac.Abstract: The citrus canker is a major threat to the citrus industry worldwide, especially where the citriculture plays an important role in employments and revenues, like United States and Brazil, the largest orange producing country. Therefore, the causal agent of citrus canker, the Gram negative bacterium Xanthomonas axonopodis pv. citri (Xac), had its genome completely sequenced. Throughout the genome of Xac, two operons (xps EFGHIJKLMND and xcsCDEFGHIJKLMN) that encompass 11 and 12 different proteins, respectively, for the type two secretion systems (TIISS) were identified. These mechanisms are highly involved in pathogenicity and virulence in some bacteria that cause disease in plants. However, so far, there are no studies on the function of these operons in Xac and their relationship for the infection process in the citrus plant. In this study, the functions of the two operons that code for the TIISS in Xac and their activity during the interaction with the plant host were analyzed. The analyses revealed that the bacterium uses both TIISS, however in a different fashion during the contact with the leaf tissue and the xps operon is highly more active. In addition, the operons were found to be differentially effective on the degradation of starch, carboxymethilcellulose and proteins. Confocal microscopy investigations found that the bacterial organization (biofilm) is influenced by both TIISS and gene expression analyses showed a much higher activity of the xps operon as compared to the xcs group. These results provide the first clear evidence of the independent influence of both TIISS in the pathogenic process of Xac.MestradoGenetica de MicroorganismosMestre em Genética e Biologia Molecula

Structure-Function Analysis of the HrpB2-HrcU Interaction in the Xanthomonas citri Type III Secretion System

Bacterial type III secretion systems deliver protein virulence factors to host cells. Here we characterize the interaction between HrpB2, a small protein secreted by the Xanthomonas citri subsp. citri type III secretion system, and the cytosolic domain of the inner membrane protein HrcU, a paralog of the flagellar protein FlhB. We show that a recombinant fragment corresponding to the C-terminal cytosolic domain of HrcU produced in E. coli suffers cleavage within a conserved Asn264-Pro265-Thr266-His267 (NPTH) sequence. A recombinant HrcU cytosolic domain with N264A, P265A, T266A mutations at the cleavage site (HrcU(AAAH)) was not cleaved and interacted with HrpB2. Furthermore, a polypeptide corresponding to the sequence following the NPTH cleavage site also interacted with HrpB2 indicating that the site for interaction is located after the NPTH site. Non-polar deletion mutants of the hrcU and hrpB2 genes resulted in a total loss of pathogenicity in susceptible citrus plants and disease symptoms could be recovered by expression of HrpB2 and HrcU from extrachromossomal plasmids. Complementation of the Delta hrcU mutant with HrcU(AAAH) produced canker lesions similar to those observed when complemented with wild-type HrcU. HrpB2 secretion however, was significantly reduced in the Delta hrcU mutant complemented with HrcU(AAAH), suggesting that an intact and cleavable NPTH site in HrcU is necessary for total functionally of T3SS in X. citri subsp. citri. Complementation of the Delta hrpB2 X. citri subsp. citri strain with a series of hrpB2 gene mutants revealed that the highly conserved HrpB2 C-terminus is essential for T3SS-dependent development of citrus canker symptoms in planta.Fundacao de Amparo a Pesquisa do Estado de Sao Paulo (FAPESP)[2005/59243-3]Conselho Nacional de Desenvolvimento Cientifico e Tecnologico (CNPq