An unusual cyanobacterium from saline thermal waters with relatives from unexpected habitats

Cyanobacteria that grow above seawater salinity at temperatures above 45°C have rarely been studied. Cyanobacteria of this type of thermo-halophilic extremophile were isolated from siliceous crusts at 40–45°C in a geothermal seawater lagoon in southwest Iceland. Iceland Clone 2e, a Leptolyngbya morphotype, was selected for further study. This culture grew only at 45–50°C, in medium ranging from 28 to 94 g L⁻¹ TDS, It showed 3 doublings 24 h⁻¹ under continuous illumination. This rate at 54°C was somewhat reduced, and death occurred at 58°C. A comparison of the 16S rDNA sequence with all others in the NCBI database revealed 2 related Leptolyngbya isolates from a Greenland hot spring (13–16 g L⁻¹ TDS). Three other similar sequences were from Leptolyngbya isolates from dry, endolithic habitats in Yellowstone National Park. All 6 formed a phylogenetic clade, suggesting common ancestry. These strains shared many similarities to Iceland Clone 2e with respect to temperature and salinity ranges and optima. Two endolithic Leptolyngbya isolates, grown previously at 23°C in freshwater medium, grew well at 50°C but only in saline medium. This study shows that limited genotypic similarity may reveal some salient phenotypic similarities, even when the related cyanobacteria are from vastly different and remote habitats.     

Massive expansions of Dscam splicing diversity via staggered homologous recombination during arthropod evolution

The arthropod Down syndrome cell adhesion molecule (Dscam) gene can generate tens of thousands of protein isoforms via combinatorial splicing of numerous alternative exons encoding immunoglobulin variable domains organized into three clusters referred to as the exon 4, 6, and 9 clusters. Dscam protein diversity is important for nervous system development and immune functions. We have performed extensive phylogenetic analyses of Dscam from 20 arthropods (each containing between 46 and 96 alternative exons) to reconstruct the detailed history of exon duplication and loss events that built this remarkable system over 450 million years of evolution. Whereas the structure of the exon 4 cluster is ancient, the exon 6 and 9 clusters have undergone massive, independent expansions in each insect lineage. An analysis of nearly 2000 duplicated exons enabled detailed reconstruction of the timing, location, and boundaries of these duplication events. These data clearly show that new Dscam exons have arisen continuously throughout arthropod evolution and that this process is still occurring in the exon 6 and 9 clusters. Recently duplicated regions display boundaries corresponding to a single exon and the adjacent intron. The boundaries, homology, location, clustering, and relative frequencies of these duplication events strongly suggest that staggered homologous recombination is the major mechanism by which new Dscam exons evolve. These data provide a remarkably detailed picture of how complex gene structure evolves and reveal the molecular mechanism behind this process.     

Functionally diverse rhizobacteria of Saccharum munja (a native wild grass) colonizing abandoned morrum mine in Aravalli hills (Delhi)

Characterization of the rhizobacteria of native grasses naturally colonizing abandoned mine sites may help in identification of microbial inoculants for ecological-restoration programmes. Eighty one strains of Saccharum munja rhizobacteria isolated from an abandoned mine located on Aravalli mountain and 50 from bulk-region were identified using 16S rRNA sequence analyses. Based on chemical- and biological-assays they were categorized into ecologically diverse functional groups (siderophore-, IAA-, ACC-deaminase-, HCN-, polyphosphate-producers; phosphate-solubilizer; antagonistic). Eight genera, 25 species from rhizosphere and 2 genera, 5 species from bulk-region were dominated by Bacillus spp. (B. barbaricus, B. cereus, B. firmus, B. flexus, B. foraminis, B. licheniformis, B. megaterium, B. pumilus, B. subtilis, B. thuringiensis) and Paenibacillus spp. (P. alvei, P. apiarius, P. lautus, P. lentimorbus, P. polymyxa, P. popillae). Siderophore-producers were common in rhizosphere and bulk soil, whereas IAA-producers, N₂-fixers and FePO₄-solubilizers dominated rhizosphere samples. During the reproductive phase (winter) of S. munja, siderophore-, ACC-deaminase- and polyP-producers were predominant; however dominance of HCN-producers in summer might be associated with termite-infestation. In vivo ability of selected rhizobacteria (B. megaterium BOSm201, B. subtilis BGSm253, B. pumilus BGSm157, P. alvei BGSm255, P. putida BOSm217, P. aeruginosa BGSm 306) to enhance seed-germination and seedling-growth of S. munja in mine-spoil suggest their significance in natural colonization and potential for ecological-restoration of Bhatti mine.     

Autoimmune disease risk variant of IFIH1 is associated with increased sensitivity to IFN-α and serologic autoimmunity in lupus patients

Increased IFN-α signaling is a heritable risk factor for systemic lupus erythematosus (SLE). IFN induced with helicase C domain 1 (IFIH1) is a cytoplasmic dsRNA sensor that activates IFN-α pathway signaling. We studied the impact of the autoimmune-disease-associated IFIH1 rs1990760 (A946T) single nucleotide polymorphism upon IFN-α signaling in SLE patients in vivo. We studied 563 SLE patients (278 African-American, 179 European-American, and 106 Hispanic-American). Logistic regression models were used to detect genetic associations with autoantibody traits, and multiple linear regression was used to analyze IFN-α-induced gene expression in PBMCs in the context of serum IFN-α in the same blood sample. We found that the rs1990760 T allele was associated with anti-dsDNA Abs across all of the studied ancestral backgrounds (meta-analysis odds ratio = 1.34, p = 0.026). This allele also was associated with lower serum IFN-α levels in subjects who had anti-dsDNA Abs (p = 0.0026). When we studied simultaneous serum and PBMC samples from SLE patients, we found that the IFIH1 rs1990760 T allele was associated with increased IFN-induced gene expression in PBMCs in response to a given amount of serum IFN-α in anti-dsDNA-positive patients. This effect was independent of the STAT4 genotype, which modulates sensitivity to IFN-α in a similar way. Thus, the IFIH1 rs1990760 T allele was associated with dsDNA Abs, and in patients with anti-dsDNA Abs this risk allele increased sensitivity to IFN-α signaling. These studies suggest a role for the IFIH1 risk allele in SLE in vivo.     

EmrA1 membrane fusion protein of Francisella tularensis LVS is required for resistance to oxidative stress,intramacrophage survival and virulence in mice

Francisella tularensis is a category A biodefence agent that causes a fatal human disease known as tularaemia. The pathogenicity of F. tularensis depends on its ability to persist inside host immune cells primarily by resisting an attack from host‐generated reactive oxygen and nitrogen species (ROS/RNS). Based on the ability of F. tularensis to resist high ROS/RNS levels, we have hypothesized that additional unknown factors act in conjunction with known antioxidant defences to render ROS resistance. By screening a transposon insertion library of F. tularensis LVS in the presence of hydrogen peroxide, we have identified an oxidant‐sensitive mutant in putative EmrA1 (FTL_0687) secretion protein. The results demonstrate that the emrA1 mutant is highly sensitive to oxidants and several antimicrobial agents, and exhibits diminished intramacrophage growth that can be restored to wild‐type F. tularensis LVS levels by either transcomplementation, inhibition of ROS generation or infection in NADPH oxidase deficient (gp91Phox^?/?) macrophages. The emrA1 mutant is attenuated for virulence, which is restored by infection in gp91Phox^?/? mice. Further, EmrA1 contributes to oxidative stress resistance by affecting secretion of Francisella antioxidant enzymes SodB and KatG. This study exposes unique links between transporter activity and the antioxidant defence mechanisms of F. tularensis.     

Antioxidant Composition of Red and Orange Cultivars of Tomatoes (Solanum lycopersicon L): A Comparative Evaluation

Fourteen commercial cultivars of tomato were analyzed for their antioxidant composition. There was significant difference (p<0.05) in lycopene and phenolic contents between red and yellow cultivars. Red cultivars had higher lycopene content (2.735 to 6.552 mg 100g^?1) than yellow cultivars (0.769 to 1.238 mg 100g^?1). Mean total polyphenolic content and total antioxidant activity in red cultivars was also higher than those in yellow cultivars. Overall cherry tomatoes had highest phenolic content and appeared to be a promising cultivar in terms of their health promoting effects. The results highlight an existing unexploited variability in yellow tomato to improve their antioxidant properties.