Biosynthesis of Salmonella enterica [NiFe]-hydrogenase-5 : probing the roles of system-specific accessory proteins

A subset of bacterial [NiFe]-hydrogenases have been shown to be capable of activating dihydrogen-catalysis under aerobic conditions; however, it remains relatively unclear how the assembly and activation of these enzymes is carried out in the presence of air. Acquiring this knowledge is important if a generic method for achieving production of O2-resistant [NiFe]-hydrogenases within heterologous hosts is to be developed. Salmonella enterica serovar Typhimurium synthesizes the [NiFe]-hydrogenase-5 (Hyd-5) enzyme under aerobic conditions. As well as structural genes, the Hyd-5 operon also contains several accessory genes that are predicted to be involved in different stages of biosynthesis of the enzyme. In this work, deletions in the hydF, hydG, and hydH genes have been constructed. The hydF gene encodes a protein related to Ralstonia eutropha HoxO, which is known to interact with the small subunit of a [NiFe]-hydrogenase. HydG is predicted to be a fusion of the R. eutropha HoxQ and HoxR proteins, both of which have been implicated in the biosynthesis of an O2-tolerant hydrogenase, and HydH is a homologue of R. eutropha HoxV, which is a scaffold for [NiFe] cofactor assembly. It is shown here that HydG and HydH play essential roles in Hyd-5 biosynthesis. Hyd-5 can be isolated and characterized from a ΔhydF strain, indicating that HydF may not play the same vital role as the orthologous HoxO. This study, therefore, emphasises differences that can be observed when comparing the function of hydrogenase maturases in different biological systems

Characterization of rhizobium tropici CIAT899 nodulation factors: the role of nodH and nodPQ genes in their sulfation

We have purified and characterized the nodulation factors produced by Rhizobium tropici CIAT899. This strain produces a large variety of nodulation factors, these being a mixture of sulfated or nonsulfated penta- or tetra-chitooligosaccharides to which any of six different fatty acyl moieties may be attached to nitrogen of the nanreducing terminal residue, In this mixture we have also found methylated or nonmethylated lipo-chitin oligosaccharides. Here we describe a novel lipo-chitin-oligosaccharide consisting of a linear backbone of 4 N-acetylglucosamine residues and one mannose that is the reducing-terminal residue and bearing a C18:1 fatty acyl moiety on the nonreducing terminal residue. In addition, we have identified, cloned, and sequenced R. tropici nodH and nodPQ genes, generated mutations in the nodH and nodQ genes, and tested the mutant strains far nodulation in Phaseolus and Leucaena plants, Our results indicate that the sulfate group present in wildtype Nod factors plays a major role in nodulation of Leucaena plants by strain CIAT899 of R. tropici.Microbial Biotechnolog

Toward the Assessment of Food Toxicity for Celiac Patients: Characterization of Monoclonal Antibodies to a Main Immunogenic Gluten Peptide

13 pages, 8 figures.-- PMID: 18509534 [PubMed].-- PMCID: PMC2386552.[Background and Aims] Celiac disease is a permanent intolerance to gluten prolamins from wheat, barley, rye and, in some patients, oats. Partially digested gluten peptides produced in the digestive tract cause inflammation of the small intestine. High throughput, immune-based assays using monoclonal antibodies specific for these immunotoxic peptides would facilitate their detection in food and enable monitoring of their enzymatic detoxification. Two monoclonal antibodies, G12 and A1, were developed against a highly immunotoxic 33-mer peptide. The potential of each antibody for quantifying food toxicity for celiac patients was studied.[Methods] Epitope preferences of G12 and A1 antibodies were determined by ELISA with gluten-derived peptide variants of recombinant, synthetic or enzymatic origin.[Results] The recognition sequences of G12 and A1 antibodies were hexameric and heptameric epitopes, respectively. Although G12 affinity for the 33-mer was superior to A1, the sensitivity for gluten detection was higher for A1. This observation correlated to the higher number of A1 epitopes found in prolamins than G12 epitopes. Activation of T cell from gluten digested by glutenases decreased equivalently to the detection of intact peptides by A1 antibody. Peptide recognition of A1 included gliadin peptides involved in the both the adaptive and innate immunological response in celiac disease.[Conclusions] The sensitivity and epitope preferences of the A1 antibody resulted to be useful to detect gluten relevant peptides to infer the potential toxicity of food for celiac patients as well as to monitor peptide modifications by transglutaminase 2 or glutenases.This work was supported by the Asociación de Celiacos de Madrid (to Carolina Sousa), by the CTA (Corporación Tecnológica de Andalucía) and IDEA (Agencia de Innovación y Desarrollo de Andalucía) (to Angel Cebolla) and by grants BFU2007-64999 from Plan Nacional de Investigación científica, Desarrollo e Innovación tecnológica (Miniterio de Educación y Ciencia) and RICET-RD06/0021-0014, Spain (to Manuel C. López). Belén Morón was supported by a fellowship from Consejo Andaluz de Colegios Oficiales de Farmacéuticos.Peer reviewe

Heterologous Expression of Alteromonas macleodii and Thiocapsa roseopersicina [NiFe] Hydrogenases in Synechococcus elongatus

Oxygen-tolerant [NiFe] hydrogenases may be used in future photobiological hydrogen production systems once the enzymes can be heterologously expressed in host organisms of interest. To achieve heterologous expression of [NiFe] hydrogenases in cyanobacteria, the two hydrogenase structural genes from Alteromonas macleodii Deep ecotype (AltDE), hynS and hynL, along with the surrounding genes in the gene operon of HynSL were cloned in a vector with an IPTG-inducible promoter and introduced into Synechococcus elongatus PCC7942. The hydrogenase protein was expressed at the correct size upon induction with IPTG. The heterologously-expressed HynSL hydrogenase was active when tested by in vitro H2 evolution assay, indicating the correct assembly of the catalytic center in the cyanobacterial host. Using a similar expression system, the hydrogenase structural genes from Thiocapsa roseopersicina (hynSL) and the entire set of known accessory genes were transferred to S. elongatus. A protein of the correct size was expressed but had no activity. However, when the 11 accessory genes from AltDE were co-expressed with hynSL, the T. roseopersicina hydrogenase was found to be active by in vitro assay. This is the first report of active, heterologously-expressed [NiFe] hydrogenases in cyanobacteria

Transcript analysis of the extended hyp-operon in the cyanobacteria Nostoc sp. strain PCC 7120 and Nostoc punctiforme ATCC 29133

<p>Abstract</p> <p>Background</p> <p>Cyanobacteria harbor two [NiFe]-type hydrogenases consisting of a large and a small subunit, the Hup- and Hox-hydrogenase, respectively. Insertion of ligands and correct folding of nickel-iron hydrogenases require assistance of accessory maturation proteins (encoded by the <it>hyp</it>-genes). The intergenic region between the structural genes encoding the uptake hydrogenase (<it>hupSL</it>) and the accessory maturation proteins (<it>hyp </it>genes) in the cyanobacteria <it>Nostoc </it>PCC 7120 and <it>N. punctiforme </it>were analysed using molecular methods.</p> <p>Findings</p> <p>The five ORFs, located in between the uptake hydrogenase structural genes and the <it>hyp</it>-genes, can form a transcript with the <it>hyp</it>-genes. An identical genomic localization of these ORFs are found in other filamentous, N₂-fixing cyanobacterial strains. In <it>N. punctiforme </it>and <it>Nostoc </it>PCC 7120 the ORFs upstream of the <it>hyp</it>-genes showed similar transcript level profiles as <it>hupS </it>(hydrogenase structural gene), <it>nifD </it>(nitrogenase structural gene), <it>hypC </it>and <it>hypF </it>(accessory hydrogenase maturation genes) after nitrogen depletion. <it>In silico </it>analyzes showed that these ORFs in <it>N. punctiform</it>e harbor the same conserved regions as their homologues in <it>Nostoc </it>PCC 7120 and that they, like their homologues in <it>Nostoc </it>PCC 7120, can be transcribed together with the <it>hyp</it>-genes forming a larger extended <it>hyp-</it>operon. DNA binding studies showed interactions of the transcriptional regulators CalA and CalB to the promoter regions of the extended <it>hyp</it>-operon in <it>N. punctiforme </it>and <it>Nostoc </it>PCC 7120.</p> <p>Conclusions</p> <p>The five ORFs upstream of the <it>hyp</it>-genes in several filamentous N₂-fixing cyanobacteria have an identical genomic localization, in between the genes encoding the uptake hydrogenase and the maturation protein genes. In <it>N. punctiforme </it>and <it>Nostoc </it>PCC 7120 they are transcribed as one operon and may form transcripts together with the <it>hyp</it>-genes. The expression pattern of the five ORFs within the extended <it>hyp</it>-operon in both <it>Nostoc punctiforme </it>and <it>Nostoc </it>PCC 7120 is similar to the expression patterns of <it>hupS</it>, <it>nifD</it>, <it>hypF </it>and <it>hypC</it>. CalA, a known transcription factor, interacts with the promoter region between <it>hupSL </it>and the five ORFs in the extended <it>hyp</it>-operon in both <it>Nostoc </it>strains.</p

The programme on ecosystem change and society (PECS): a decade of deepening social-ecological research through a place-based focus

The Programme on Ecosystem Change and Society (PECS) was established in 2011, and is now one of the major international social-ecological systems (SES) research networks. During this time, SES research has undergone a phase of rapid growth and has grown into an influential branch of sustainability science. In this Perspective, we argue that SES research has also deepened over the past decade, and helped to shed light on key dimensions of SES dynamics (e.g. system feedbacks, aspects of system design, goals and paradigms) that can lead to tangible action for solving the major sustainability challenges of our time. We suggest four ways in which the growth of place-based SES research, fostered by networks such as PECS, has contributed to these developments, namely by: 1) shedding light on transformational change, 2) revealing the social dynamics shaping SES, 3) bringing together diverse types of knowledge, and 4) encouraging reflexive researchers.FSW - Global Connections --- Ou

Impact of Diazotrophic Bacteria on Germination and Growth of Tomato, with Bio-control Effect, Isolated from Algerian Soil

Abstract: 10 soils samples were collected from the west region of Bejaia-Algeria in aseptic conditions. The preliminary germination test on tomatos seeds allowed screening of 4 simples from which 40 different colonies were isolated and purified. These last were submitted to in vitro germination test, while 20 strains with an inductor effect on the germination were selected and tested for the presence of stimulator effect of growth of tomato in vivo. Biochemical (on API 50 CHB/E gallery), and phylogenetic (DNAr 16S sequencing) identification, tests researching characteristics promoting plant growth (production of IAA (Indol Acetic Acid) phytohormone, enzymes, siderophores, free nitrogen fixation, and an antagonistic test on five phytopathogenic fungi (Botrytis cinerea; Phytophtora cactorum, phytophtora cinnamomi; Fusarium oxysporum and Verticillium dahliae) were applied for the strain showing positive in vivo germination results on tomato.The results of this last test led to select four strains: S11, S6, S15, and S12 that greatly affected tomato growth, with stems length (cm) of 9.212, 9.280, 9.362 and 9.858, respectively, compared to the control (6.400). Biochemical and phylogenic identifications of these strains allowed to affiliate them as following: Arthrobacter agilis (S6), Streptomyces Sp (S11), Bacillus sp13 (S15) and Mycobacterium Sp (S12). The four strains produced several enzymes, high indol acetic acid (phytohormone) quantity (mg/l: 38.47 (S11); 86.90 (S6); 93.96 (S12) and 190.23 (S15), siderophores, nitrogen fixing. It also showed an antagonistic activity against the phytopathogenic fungi tested with variable plant growth inhibition (PGI) %:0-78.51% for Bacillus sp13; 29-74%for Streptomyces sp; 0-72%for Arthrobacter agilis; and 0-69% for Mycobacterium sp. These results prove that the strains are compatible for tomato growth stimulation