Diagnosis of human and canine Brucella canis infection: development and evaluation of indirect enzyme-linked immunosorbent assays using recombinant Brucella proteins.

Brucella canis, a Gram-negative coccobacilli belonging to the genus Brucellae, is a pathogenic bacterium that can produce infections in dogs and humans. Multiple studies have been carried out to develop diagnostic techniques to detect all zoonotic Brucellae. Diagnosis of Brucella canis infection is challenging due to the lack of highly specific and sensitive diagnostic assays. This work was divided in two phases: in the first one, were identified antigenic proteins in B. canis that could potentially be used for serological diagnosis of brucellosis. Human sera positive for canine brucellosis infection was used to recognize immunoreactive proteins that were then identified by performing 2D-GEL and immunoblot assays. These spots were analyzed using MALDI TOF MS and predicted proteins were identified. Of the 35 protein spots analyzed, 14 proteins were identified and subsequently characterized using bioinformatics, two of this were selected for the next phase. In the second phase, we developed and validated an indirect enzyme-linked immunosorbent assays using those recombinant proteins: inosine 5' phosphate dehydrogenase, pyruvate dehydrogenase E1 subunit beta (PdhB) and elongation factor Tu (Tuf). These genes were PCR-amplified from genomic DNA of B. canis strain Oliveri, cloned, and expressed in Escherichia coli. Recombinant proteins were purified by metal affinity chromatography, and used as antigens in indirect ELISA. Serum samples from healthy and B. canis-infected humans and dogs were used to evaluate the performance of indirect ELISAs. Our results suggest that PdhB and Tuf proteins could be used as antigens for serologic detection of B. canis infection in humans, but not in dogs. The use of recombinant antigens in iELISA assays to detect B. canis-specific antibodies in human serum could be a valuable tool to improve diagnosis of human brucellosis caused by B. canis.

Comparative Transcriptome Analysis of Streptomyces Clavuligerus in Response to Favorable and Restrictive Nutritional Conditions.

Background: Clavulanic acid (CA), a ß-lactamase inhibitor, is industrially produced by the fermentation of Streptomyces clavuligerus. The efficiency of CA production is associated with media composition, culture conditions and physiological and genetic strain characteristics. However, the molecular pathways that govern CA regulation in S. clavuligerus remain unknown. Methods and Results: Here we used RNA-seq to perform a comparative transcriptome analysis of S. clavuligerus ATCC 27064 wild-type strain grown in both a favorable soybean-based medium and in limited media conditions to further contribute to the understanding of S. clavuligerus metabolism and its regulation. A total of 350 genes were found to be differentially expressed between conditions; 245 genes were up-regulated in favorable conditions compared to unfavorable. Conclusion: The up-regulated expression of many regulatory and biosynthetic CA genes was positively associated with the favorable complex media condition along with pleiotropic regulators, including proteases and some genes whose biological function have not been previously reported. Knowledge from differences between transcriptomes from complex/defined media represents an advance in the understanding of regulatory paths involved in S. clavuligerus' metabolic response, enabling the rational design of future experiments.

Evolution of RADIALIS and DIVARICATA gene lineages in flowering plants with an expanded sampling in non-core eudicots.

PREMISE OF THE STUDY: Bilateral symmetry in core eudicot flowers is established by the differential expression of CYCLOIDEA (CYC), DICHOTOMA (DICH), and RADIALIS (RAD), which are restricted to the dorsal portion of the flower, and DIVARICATA (DIV), restricted to the ventral and lateral petals. Little is known regarding the evolution of these gene lineages in non-core eudicots, and there are no reports on gene expression that can be used to assess whether the network predates the diversification of core eudicots. METHODS: Homologs of the RAD and DIV lineages were isolated from available genomes and transcriptomes, including those of three selected non-core eudicot species, the magnoliid Aristolochia fimbriata and the monocots Cattleya trianae and Hypoxis decumbens. Phylogenetic analyses for each gene lineage were performed. RT-PCR was used to evaluate the expression and putative contribution to floral symmetry in dissected floral organs of the selected species. KEY RESULTS: RAD-like genes have undergone at least two duplication events before eudicot diversification, three before monocots and at least four in Orchidaceae. DIV-like genes also duplicated twice before eudicot diversification and underwent independent duplications specific to Orchidaceae. RAD-like and DIV-like genes have differential dorsiventral expression only in C. trianae, which contrasts with the homogeneous expression in the perianth of A. fimbriata. CONCLUSIONS: Our results point to a common genetic regulatory network for floral symmetry in monocots and core eudicots, while alternative genetic mechanisms are likely driving the bilateral perianth symmetry in the early-diverging angiosperm Aristolochia.

CLAME: a new alignment-based binning algorithm allows the genomic description of a novel Xanthomonadaceae from the Colombian Andes.

BACKGROUND: Hot spring bacteria have unique biological adaptations to survive the extreme conditions of these environments; these bacteria produce thermostable enzymes that can be used in biotechnological and industrial applications. However, sequencing these bacteria is complex, since it is not possible to culture them. As an alternative, genome shotgun sequencing of whole microbial communities can be used. The problem is that the classification of sequences within a metagenomic dataset is very challenging particularly when they include unknown microorganisms since they lack genomic reference. We failed to recover a bacterium genome from a hot spring metagenome using the available software tools, so we develop a new tool that allowed us to recover most of this genome. RESULTS: We present a proteobacteria draft genome reconstructed from a Colombian's Andes hot spring metagenome. The genome seems to be from a new lineage within the family Rhodanobacteraceae of the class Gammaproteobacteria, closely related to the genus Dokdonella. We were able to generate this genome thanks to CLAME. CLAME, from Spanish "CLAsificador MEtagenomico", is a tool to group reads in bins. We show that most reads from each bin belong to a single chromosome. CLAME is very effective recovering most of the reads belonging to the predominant species within a metagenome. CONCLUSIONS: We developed a tool that can be used to extract genomes (or parts of them) from a complex metagenome.

Early-Onset Invasive Infection Due to Corynespora cassiicola Associated with Compound Heterozygous CARD9 Mutations in a Colombian Patient.

PURPOSE: CARD9 deficiency is an inborn error of immunity that predisposes otherwise healthy humans to mucocutaneous and invasive fungal infections, mostly caused by Candida, but also by dermatophytes, Aspergillus, and other fungi. Phaeohyphomycosis are an emerging group of fungal infections caused by dematiaceous fungi (phaeohyphomycetes) and are being increasingly identified in patients with CARD9 deficiency. The Corynespora genus belongs to phaeohyphomycetes and only one adult patient with CARD9 deficiency has been reported to suffer from invasive disease caused by C. cassiicola. We identified a Colombian child with an early-onset, deep, and destructive mucocutaneous infection due to C. cassiicola and we searched for mutations in CARD9. METHODS: We reviewed the medical records and immunological findings in the patient. Microbiologic tests and biopsies were performed. Whole-exome sequencing (WES) was made and Sanger sequencing was used to confirm the CARD9 mutations in the patient and her family. Finally, CARD9 protein expression was evaluated in peripheral blood mononuclear cells (PBMC) by western blotting. RESULTS: The patient was affected by a large, indurated, foul-smelling, and verrucous ulcerated lesion on the left side of the face with extensive necrosis and crusting, due to a C. cassiicola infectious disease. WES led to the identification of compound heterozygous mutations in the patient consisting of the previously reported p.Q289* nonsense (c.865C > T, exon 6) mutation, and a novel deletion (c.23_29del; p.Asp8Alafs10*) leading to a frameshift and a premature stop codon in exon 2. CARD9 protein expression was absent in peripheral blood mononuclear cells from the patient. CONCLUSION: We describe here compound heterozygous loss-of-expression mutations in CARD9 leading to severe deep and destructive mucocutaneous phaeohyphomycosis due to C. cassiicola in a Colombian child.

Genome microsatellite diversity within the Apicomplexa phylum.

The Apicomplexa phylum groups include unicellular and obligate intracellular protozoan parasites with an apical complex used for attachment and invasion to host cells. In this study, we analyze single sequence repeats (SSRs) in the whole genome of 20 apicomplexan organisms that represent four different lineages within the phylum. Only perfect SSRs with at least 12 nucleotides and composed of 2-6 mers were included. To better understand the association of SSR types with the genomic regions, the SSRs were classified accordingly with the genomic location into exon, intron and intergenic categories. Our results showed heterogeneous SSRs density within the studied genomes. However, the most frequent SSRs types were di- and tri-nucleotide repeats. The former was associated with intergenic regions, while the latter was associated with exon regions.

The developmental and genetic bases of apetaly in Bocconia frutescens (Chelidonieae: Papaveraceae).

BACKGROUND: Bocconia and Macleaya are the only genera of the poppy family (Papaveraceae) lacking petals; however, the developmental and genetic processes underlying such evolutionary shift have not yet been studied. RESULTS: We studied floral development in two species of petal-less poppies Bocconia frutescens and Macleaya cordata as well as in the closely related petal-bearing Stylophorum diphyllum. We generated a floral transcriptome of B. frutescens to identify MADS-box ABCE floral organ identity genes expressed during early floral development. We performed phylogenetic analyses of these genes across Ranunculales as well as RT-PCR and qRT-PCR to assess loci-specific expression patterns. We found that petal-to-stamen homeosis in petal-less poppies occurs through distinct developmental pathways. Transcriptomic analyses of B. frutescens floral buds showed that homologs of all MADS-box genes are expressed except for the APETALA3-3 ortholog. Species-specific duplications of other ABCE genes in B. frutescens have resulted in functional copies with expanded expression patterns than those predicted by the model. CONCLUSIONS: Petal loss in B. frutescens is likely associated with the lack of expression of AP3-3 and an expanded expression of AGAMOUS. The genetic basis of petal identity is conserved in Ranunculaceae and Papaveraceae although they have different number of AP3 paralogs and exhibit dissimilar floral groundplans.

Cristalización y predicción de la estructura tridimensional de la proteína homóloga del receptor activado para la quinasa c (lack) de leishmania / Crystallization and prediction of three-dimensional structure of the homologue protein of the receptor for activated c-kinase (lack) from leishmania / Cristalização e predição da estrutura tridimensional da proteína homologa do receptor ativado para a quinasa c (lack) de leishmania

Los parásitos del género Leishmania son los causantes de la enfermedad conocida como Leishmaniasis. Esta enfermedad es endémica en 98 países. Veinte especies de Leishmania sp han sido descritas como patógenos en humanos y varias de ellas presentan manifestaciones clínicas diferentes. No se dispone de vacuna, a pesar del considerable esfuerzo de muchos grupos de investigación. Las alternativas para descubrir nuevos medicamentos están basadas en el diseño de compuestos que interaccionen con blancos específicos, principalmente, proteínas encargadas de procesos metabólicos o celulares del patógeno, e.g. la parasitación de las células del huésped vertebrado. La eficiente parasitación del huésped vertebrado por Leishmania depende de la expresión de diferentes proteínas, incluyendo la proteína Lack. Parásitos deficientes de Lack no sobreviven internalizados en las células de los vertebrados. Este artículo presenta las condiciones de renaturalización, purificación y cristalización de la proteína Lack del patógeno humano Leishmania (Viannia) panamensis. Además, los resultados de modelación estructural de esta proteína muestran una conformación proteica similar a un ventilador organizado en 7 aspas, cada una compuesta de 4 hojas β. La estructura de la proteína Lack resultó similar a la proteína asociada a ribosoma RACK1 de Trypanosoma brucei y Saccharomyces cerevisiae, y a la de otros eucariotas. Las características estructurales de la proteína Lack podrían ser usadas para la exploración de nuevos.

Leishamnia parasites are the causative agents of the leishmaniasis disease. Due to its broad distribution, parasites are endemic in approximately 98 countries. Twenty species of Leishmaniasp has been described as human pathogens and several of them present different clinical manifestations. This feature poses a significant challenge to the general goals of parasite control and erradication. There is no a protective vaccine for humans, despite substantial efforts by many research teams. Alternatives to discover new drugs are based on the design of new compounds that bind selected targets. Mainly, the targets are proteins involved in key metabolic or cellular processes of the pathogen, e.g. parasitization of vertebrate host cells. The efficient parasitization of the vertebrate host by Leishmania parasites depends on the expression of different molecules including Lack protein. The knockout parasites fail to survive inside the vertebrate host cells. In this article we highlight the conditions to perform the refold, purification, and crystallizing of the Lack protein of the human pathogen Leishmania (Viannia) panamensis. Moreover, we present structure modelling analysis which shows a protein conformation like a fan organized in 7 blades, each one composed of 4 b sheets. Furthermore, the structure of Lack protein was found to be similar to RACK1-ribosome associated protein from Trypanosoma brucei and Saccharomyces cerevisiae and other eukaryotes. The structural characteristics of Lack protein could be used for exploration of new drugs.

Os parasitas do gênero Leishmania são os agentes causadores da doença conhecida como Leishmaniasis. Esta doença é endêmica em 98 países. Vinte espécies de Leishmania sp têm sido descritas como patógenos em humanos e várias delas apresentam manifestações clínicas diferentes. Não se dispõe de vacina, apesar do considerável esforço de muitos grupos de pesquisa. As alternativas para descobrir novos medicamentos estão baseadas no desenho de compostos que interajam com alvos específicos, principalmente, proteínas encarregadas de processos metabólicos ou celulares do patógeno, e.g. a parasitação das células do hóspede vertebrado. A eficiente infestação do hóspede vertebrado por Leishmania depende da expressão de diferentes proteínas, incluindo a proteína Lack. Parasitas deficientes de Lack não sobrevivem internalizados nas células dos vertebrados. Este artigo apresenta as condições de regeneração, purificação e cristalização da proteína Lack do patogénico humano Leishmania (Viannia) panamensis. Além disso, resultados de modelação estrutural desta proteína mostram uma conformação protéica similar a um ventilador, organizado em 7 pás, cada uma composta de 4 folhas β. A estrutura da proteína Lack resultou similar a proteína associada ao ribossomo RACK1 de Trypanosoma brucei y Saccharomyces cerevisiae, e à de outros eucariotas. As características estruturais da proteína Lack poderiam ser usadas para a pesquisa de novos fármacos.

Leishmania infantum EndoG is an endo/exo-nuclease essential for parasite survival.

EndoG, a member of the DNA/RNA non-specific ßßα-metal family of nucleases, has been demonstrated to be present in many organisms, including Trypanosomatids. This nuclease participates in the apoptotic program in these parasites by migrating from the mitochondrion to the nucleus, where it takes part in the degradation of genomic DNA that characterizes this process. We now demonstrate that Leishmania infantum EndoG (LiEndoG) is an endo-exonuclease that has a preferential 5' exonuclease activity on linear DNA. Regardless of its role during apoptotic cell death, this enzyme seems to be necessary during normal development of the parasites as indicated by the reduced growth rates observed in LiEndoG hemi-knockouts and their poor infectivity in differentiated THP-1 cells. The pro-life role of this protein is also corroborated by the higher survival rates of parasites that over-express this protein after treatment with the LiEndoG inhibitor Lei49. Taken together, our results demonstrate that this enzyme plays essential roles in both survival and death of Leishmania parasites.

Probing the dimerization interface of Leishmania infantum trypanothione reductase with site-directed mutagenesis and short peptides.

Binding at the interface: We tested the inhibitory activity of a set of peptide sequences derived from an α-helix of the dimeric trypanothione reductase from Leishmania infantum. Replacement of a glutamic acid residue with a lysine promoted monomer dissociation and enzyme inhibition.

Complete genome sequence of a novel potato virus S strain infecting Solanum phureja in Colombia.

Potato virus S (PVS) (genus Carlavirus, family Betaflexiviridae) is one of the most prevalent viruses in potato crops (Solanum tuberosum and S. phureja) around the world, causing reductions in crop yields between 10 and 20 %. Symptoms of PVS infection may include leaf mottling, rugosity of leaves, deepening of the veins and reductions in crop yields between 10 and 20 %. Virions are flexuous rods of 610-710 nm with a positive-sense ssRNA genome of approximately 8500 nt comprising six ORFs, a 5'CAP and a 3'poly-A tail. PVS has been classified into two groups: PVS(O) (Ordinary) and PVS(A) (Andean). PVSA induces severe symptoms in infected plants, such as premature senescence and defoliation, and is more efficiently transmitted by aphids than PVS(O). To date, only five PVS genomes have been completely sequenced, including those of three PVS(O) and two PVS(A) strains. Currently, there are no reports of complete PVS genome sequences from Andean South America. In this work, we present the complete genomic sequence of a novel PVS strain infecting S. phureja that is clearly distinct from currently known PVS isolates.

Leishmania (Viannia) panamensis expresses a nuclease with molecular and biochemical features similar to the Endonuclease G of higher eukaryotes / Leishmania (Viannia) panamensis expresa una nucleasa molecular y bioquímicamente similar a la Endonucleasa G de eucariotas superiores

Objective: To characterize the molecular and biochemical features of the Endonuclease G of Leishmania (Viannia) panamensis.Methods: The gene of the putative L. (V.) panamensis Endonuclease G was amplified, cloned, and sequenced. The recombinant protein was produced in a heterologous expression system and biochemical assays were run to determine its ion, temperature, and pH preferences.Results: The L. (V.) panamensis rENDOG has biochemical features similar to those found in other trypanosomatids and higher eukaryotes. In addition, phylogenetic analysis revealed a possible evolutionary relationship with metazoan ENDOG.Conclusions: L. (V.) panamensis has a gene that codifies an ENDOG homologous to those of higher organisms. This enzyme can be produced in Escherichia coli and is able to degrade covalently closed circular double-stranded DNA. It has a magnesium preference, can be inhibited by potassium, and is able to function within a wide temperature and pH range.

Objetivo: Caracterizar molecular y bioquímicamente la Endonucleasa G (EndoG) de Leishmania (Viannia) panamensis.Métodos: El gen de la putativa Endonucleasa G de L. (V.) panamensis fue amplificado, clonado y secuenciado. La proteína recombinante se produjo en un sistema de expresión heterólogo y la proteína activa se sometió a pruebas bioquímicas para determinar la preferencia de iones, temperatura y pH.Resultados: La rEndoG de L. (V.) panamensis muestra características bioquímicas similares a aquellas descritas en otros trypanosomatidos y en eucariotas superiores. Además, los análisis filogenéticos muestran una posible relación evolutiva con la Endonucleasa G de metazoos.Conclusiones: Leishmania (V.) panamensis posee un gen que codifica para una endonucleasa homóloga a la EndoG de otros organismos superiores, que se puede producir de forma recombinante en Escherichia coli y que es capaz de degradar ADN circular cerrado de doble cadena. Tiene una preferencia por los iones magnesio y manganeso para usarlos como cofactor y es inhibida por el potasio. Además, funciona en un amplio rango de pH y temperatura.

Apoptotic markers in protozoan parasites.

The execution of the apoptotic death program in metazoans is characterized by a sequence of morphological and biochemical changes that include cell shrinkage, presentation of phosphatidylserine at the cell surface, mitochondrial alterations, chromatin condensation, nuclear fragmentation, membrane blebbing and the formation of apoptotic bodies. Methodologies for measuring apoptosis are based on these markers. Except for membrane blebbing and formation of apoptotic bodies, all other events have been observed in most protozoan parasites undergoing cell death. However, while techniques exist to detect these markers, they are often optimised for metazoan cells and therefore may not pick up subtle differences between the events occurring in unicellular organisms and multi-cellular organisms.In this review we discuss the markers most frequently used to analyze cell death in protozoan parasites, paying special attention to changes in cell morphology, mitochondrial activity, chromatin structure and plasma membrane structure/permeability. Regarding classical regulators/executors of apoptosis, we have reviewed the present knowledge of caspase-like and nuclease activities.

Leishmania infantum expresses a mitochondrial nuclease homologous to EndoG that migrates to the nucleus in response to an apoptotic stimulus.

It is increasingly accepted that single-celled organisms, such as Leishmania parasites, are able to undergo a cell death process that resembles apoptosis in metazoans and is induced by a variety of stimuli. However, the molecular mechanisms that participate and regulate this death process are still very poorly described, and very few of the participating molecules have been identified. Because DNA degradation is probably the most frequently characterized event during programmed cell death in Leishmania parasites, we have focused on identifying a candidate nuclease responsible for this effect during the cell death process. The results presented herein demonstrate that Leishmania infantum promastigotes express a nuclease similar to the endonuclease G of higher eukaryotes which, according to its predicted structure, belongs to the beta beta alpha metal superfamily of nucleases. Its cation dependence resembles that of the EndoGs present in other organisms and, similarly to them, it is inhibited by moderate concentrations of K+ or Na+. L. infantum EndoG contains a signal peptide that causes its translocation to the mitochondrion where it is maintained under normal growth conditions. However, under the pressure of a death stimulus such as edelfosine treatment, L. infantum EndoG is released from the single mitochondrion and translocates to the nucleus, where it is thought to participate in the process of DNA degradation that is associated with programmed cell death. Our results also demonstrate that overexpression of the nuclease in edelfosine-treated promastigotes causes a significant increase in the percentage of TUNEL-positive parasites.

Edelfosine induces an apoptotic process in Leishmania infantum that is regulated by the ectopic expression of Bcl-XL and Hrk.

The alkyl-lysophospholipids edelfosine and miltefosine induce apoptosis in Leishmania infantum promastigotes. The finding that edelfosine-induced cell death can be regulated by the ectopic expression of the antiapoptotic and proapoptotic members of the Bcl-2 family of proteins Bcl-X(L) and Hrk suggests that this process is similar to apoptosis in eukaryotic cells.

The method used to sample ulcers influences the diagnosis of cutaneous leishmaniasis.

Before beginning treatment for cutaneous leishmaniasis, parasitological confirmation of the disease is required. The most commonly used diagnostic procedures are microscopy and culture of samples taken from the active edge of the lesion. In this study, we compared the sensitivity of previous diagnostic procedures with the polymerase chain reaction (PCR), using smears taken from the edge of the lesion and its centre. The sensitivity was greater with smears taken from the centre of the lesion, both for microscopical examination (85%) and for PCR (81%), compared to those obtained from the edge of the lesion (69% and 58% respectively). When PCR was carried out on biopsy material from the edge of the lesion the sensitivity was 63%.