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Evidence of widespread wildfires in a coal seam from the middle Permian of the North China Basin
(2017)
The North China Basin is the largest coal-bearing basin in China, and has an areal extent of 800,000 km2. We analyzed 138 coal samples and in situ pillar coal samples of the middle Permian from this basin by macropetrography, microscope, scanning electron microscope, gas chromatography, and gas chromatography–mass spectrometer in order to study wildfires. High contents of inertinite (charcoal) and natural coke particles observed in coal samples indicate that vegetation in precursor mires and peats of the middle Permian coal from north China was exposed to far-ranging wildfires. In addition, high-molecular-weight polycyclic aromatic hydrocarbons were detected in the coal samples. These aromatic compounds were formed under high temperatures and provide further evidence of wildfire. These wildfires would have discharged significant CO and CO2 gases into the atmosphere and affected the paleoclimate and paleoecosystem.
Editorial
(2017)
Editorial
(2017)
Background: The Aedes (Stegomyia) albopictus subgroup includes 11 cryptic species of which Ae. albopictus is the most widely distributed. Its global expansion associated with a documented vector competence for several emerging arboviruses raise obvious concerns in the recently colonized regions. While several studies have provided important insights regarding medical importance of Ae. albopicus, the investigations of the other sibling species are scarce. In Asia, indigenous populations within the Ae. albopictus subgroup can be found in sympatry. In the present study, we aimed to describe and compare molecular, morphological and bacterial symbionts composition among sympatric individuals from the Ae. albopictus subgroup inhabiting a Vietnamese protected area.
Results: Based on morphological structure of the cibarial armarture, we identified a cryptic species in the forest park at Bù Gia Mập in the south-eastern region of Vietnam. Analysis of nuclear (ITS1-5.8S-ITS2) and mitochondrial (cox1, nad5) markers confirmed the divergence between the cryptic species and Ae. albopictus. Analysis of midgut bacterial microbiota revealed a strong similarity among the two species with a notable difference; contrary to Ae. albopictus, the cryptic species did not harbour any Wolbachia infection.
Conclusions: These results could reflect either a recent invasion of Wolbachia in Ae. albopictus or alternatively a loss of this symbiont in the cryptic species. We argue that neglected species of the Ae. albopictus subgroup are of main importance in order to estimate variation of host-symbionts interactions across evolution.
Particle identification is an important feature of the ALICE detector at the LHC. In particular, for particle identification via the time-of-flight technique, the precise determination of the event collision time represents an important ingredient of the quality of the measurement. In this paper, the different methods used for such a measurement in ALICE by means of the T0 and the TOF detectors are reviewed. Efficiencies, resolution and the improvement of the particle identification separation power of the methods used are presented for the different LHC colliding systems (pp , p-Pb and Pb-Pb) during the first period of data taking of LHC (Run 1).
Background: Treatment of patients presenting with possible acute myocardial infarction (AMI) is based on timely diagnosis and proper risk stratification aided by biomarkers. We aimed at evaluating the predictive value of GDF-15 in patients presenting with symptoms suggestive of AMI.
Methods: Consecutive patients presenting with suspected AMI were enrolled in three study centers. Cardiovascular events were assessed during a follow-up period of 6 months with a combined endpoint of death or MI.
Results: From the 1818 enrolled patients (m/f = 1208/610), 413 (22.7%) had an acute MI and 63 patients reached the combined endpoint. Patients with MI and patients with adverse outcome had higher GDF-15 levels compared with non-MI patients (967.1pg/mL vs. 692.2 pg/L, p<0.001) and with event-free patients (1660 pg/mL vs. 756.6 pg/L, p<0.001). GDF-15 levels were lower in patients with SYNTAX score ≤ 22 (797.3 pg/mL vs. 947.2 pg/L, p = 0.036). Increased GDF-15 levels on admission were associated with a hazard ratio of 2.1 for death or MI (95%CI: 1.67–2.65, p<0.001) in a model adjusted for age and sex and of 1.57 (1.13–2.19, p = 0.008) adjusted for the GRACE score variables. GDF-15 showed a relevant reclassification with regards to the GRACE score with an overall net reclassification index (NRI) of 12.5% and an integrated discrimination improvement (IDI) of 14.56% (p = 0.006).
Conclusion: GDF-15 is an independent predictor of future cardiovascular events in patients presenting with suspected MI. GDF-15 levels correlate with the severity of CAD and can identify and risk-stratify patients who need coronary revascularization.
Background: Many fungal species occur across a variety of habitats. Particularly lichens, fungi forming symbioses with photosynthetic partners, have evolved remarkable tolerances for environmental extremes. Despite their ecological importance and ubiquity, little is known about the genetic basis of adaption in lichen populations. Here we studied patterns of genome-wide differentiation in the lichen-forming fungus Lasallia pustulata along an altitudinal gradient in the Mediterranean region. We resequenced six populations as pools and identified highly differentiated genomic regions. We then detected gene-environment correlations while controlling for shared population history and pooled sequencing bias, and performed ecophysiological experiments to assess fitness differences of individuals from different environments.
Results: We detected two strongly differentiated genetic clusters linked to Mediterranean and temperate-oceanic climate, and an admixture zone, which coincided with the transition between the two bioclimates. High altitude individuals showed ecophysiological adaptations to wetter and more shaded conditions. Highly differentiated genome regions contained a number of genes associated with stress response, local environmental adaptation, and sexual reproduction.
Conclusions: Taken together our results provide evidence for a complex interplay between demographic history and spatially varying selection acting on a number of key biological processes, suggesting a scenario of ecological speciation.
Pertusarialean lichens include more than 300 species belonging to several independent phylogenetic lineages. Only some of these phylogenetic clades have been comprehensively sampled for molecular data, and formally described as genera. Here we present a taxonomic treatment of a group of pertusarialean lichens formerly known as "Pertusaria amara-group", "Monomurata-group", or "Variolaria-group", which includes widespread and well-known taxa such as P. amara, P. albescens, or P. ophthalmiza. We generated a 6-locus data set with 79 OTUs representing 75 species. The distinction of the Variolaria clade is supported and consequently, the resurrection of the genus Lepra is followed. Thirty-five new combinations into Lepra are proposed and the new species Lepra austropacifica is described from mangroves in the South Pacific. Lepra is circumscribed to include species with disciform ascomata, a weakly to non-amyloid hymenial gel, strongly amyloid asci without clear apical amyloid structures, containing 1 or 2, single-layered, thin-walled ascospores. Chlorinated xanthones are not present, but thamnolic and picrolichenic acids occur frequently, as well as orcinol depsides. Seventy-one species are accepted in the genus. Although the distinction of the genus from Pertusaria is strongly supported, the relationships of Lepra remain unresolved and the genus is tentatively placed in Pertusariales incertae sedis.
Multicellular organisms require that cells adhere to each other. This cell-cell adhesion is indispensable for the formation and the integrity of epithelial structures, tissues and organs. Mammals have developed four different cell-cell adhesion structures, the adhering junctions, which ensure the tight contact between cells but are also important platforms for communication and exchange in tissues. Two of these adhering junctions are cadherin based, the belt-like adherens junctions and the spot-like desmosomes. Both structures have in common that they are composed of single membrane spanning proteins, the cadherins, which accomplish adhesion in a calcium-dependent manner. The intracellular parts of classical as well as desmosomal cadherins bind to different adaptor proteins of the armadillo-protein family and others which build a protein plaque underneath the membrane and link the cadherins to the actin or intermediate filament cytoskeleton.
Desmosomes are of special importance for tissues that have to withstand mechanical stress. Although they are essential to stabilize tissues they have to be highly flexible and dynamic structures, as processes like wound healing or tissue remodeling require that adhesive interactions can be modulated. The molecular dynamics within desmosomes are not jet understood in detail, but it is assumed that two different membrane associated pools of desmosomal cadherins exist in cells. Cadherins that are incorporated in mature desmosomes are part of the junctional pool, whereas cadherins that are not associated with firm desmosomes and the intermediate filament cytoskeleton belong to the non-junctional pool. Lateral movements between the two pools results in a dynamic equilibrium and allows for example the exchange of old cadherins. Little is known about the breakdown of desmosomal cadherins. Several studies found that desmosome assembly or endocytosis are cholesterol dependent processes and claimed that membrane microdomains play a role in the regulation of desmosome dynamics. Moreover, membrane rafts may be involved in the pathomechanism of the desmosome associated disease pemphigus, were autoantibodies bind to the cadherin desmoglein-3 and trigger its internalization which results in a loss of adhesion in skin cells.
Membrane rafts are cholesterol dependent nanoscale structures of cellular membranes that are able to regulate the distribution of proteins within the plasma membrane and thus form platforms for cell signaling and membrane trafficking. Flotillins are proteins that are associated with membrane rafts and are reported to be involved in processes like endocytosis, endosomal sorting and a multitude of different signaling events. We could recently show that the membrane raft associated proteins flotillin-1 and flotillin-2 bind directly to the armadillo protein y-catenin which can be part of both, the adherens junction and the desmosome. The aim of this study was to eluciadate a possible role of flotillins in the regulation of desmosomes.
HaCaT keratinocytes were chosen as the main cell system for this study and at first the association of desmosomal components with flotillins was analyzed in detail. It was found that flotillins are clearly associated with desmosomal proteins. They colocalize with desmoglein-3 at cell borders and precipitate the other desmogleins. Further binding assays revealed that both flotillins bind to all desmogleins and the long isoforms of the second class of desmosomal cadherins, the desmocollins. The interaction is a direct one and was mapped to the ICS sequence within the cadherins. This close association rendered the question whether flotillins are functionally implicated in desmosome regulation. To address this issue, stable flotillin knockdown HaCaT cells were analyzed in detail. The molecular morphology of desmoglein-3, desmoglein-1 and two plaque proteins was clearly altered in the absence of flotillins. The membrane staining of all tested desmosomal proteins was derailed and disordered. Furthermoore, the loss of flotillins had an impact on the adhesive capacity of HaCaT keratinocytes. The cell-cell adhesion was weakened in the absence of flotillins, which was monitored by an increased fragmentation of knockdown cells in a cell dissociation assay.
In order to find out the mechanism by which flotillins influence the membrane morphology and the adhesiveness in keratinocytes, the association of desmosomal proteins with membrane microdomains was examined, at first. A predominant part of desmoglein-3 is associated with membrane rafts in HaCaT keratinocytes, whereas only a minor part of desmoglein-1 is found there. However, the raft-association of none of the examined proteins was altered in the absence of flotillins. Furthermore, flotillin depletion did not change the distribution of desmogleins with the two different cadherin pools. Less desmoglein-3 is found in the junctional pool of the flotillin depleted cells compared to the control cells, but this is due to an overall diminished desmoglein-3 protein level in these cells.
Flotillins are involved in endocytic processes but their exact role there is under debate. The endocytic uptake of desmosomal cadherins requires intact membrane rafts, but the precise mechanism is still unknown. A possible involvement of flotillins on the endocytosis of desmoglein-3 was addressed next. It is known that the internalization of desmoglein-2 is dependent on the GTPase dynamin, arguing for an involvement of dynamin in the endocytosis of desmoglein-3 as well. When dynamin and thus desmoglein-3 endocytosis was inhibited using chemical compounds, the mislocalization of desmoglein-3 that was observed in flotillin knockdown cells was restored. This suggest that inhibition of desmoglein-3 endocytosis enhances the amount and/or availability of desmoglein-3 at the plasma membrane, which then normalizes the morphological alterations caused by a knockdown of flotillins. Furthermore the morphological alterations in the flotillin knockdown HaCaT cells were found to be similar to the localization of desmoglein-3 that was observed upon treatment of keratinocytes with PV IgG These structures have been described before as linear arrays and are assumed to be sites of endocytic uptake. This strengthens the idea that enhanced desmoglein-3 internalization takes place in the absence of flotillins, which then results in a weakened adhesion.
Altogether this study revealed flotillins as novel players in desmosome mediated cell-cell adhesion processes. By binding to desmosomal cadherins and desmosomal plaque proteins, flotillins stabilize desmosomes at the plasma membrane and are required for a proper cell-cell adhesion.
Phytotoxic dioxolanones from Guignardia bidwellii can be described as potential virulence factors which cause the formation of lesions upon an infection by G. bidwellii. The toxin guignardic acid was found in planta of G. bidwellii-infected Vitis vinifera leaves, whereas no phytotoxic dioxolanones were detected in uninfected leaf material. Secondary metabolism analyses of further phytopathogenic fungi from the genus Guignardia led to the observation that all species investigated can produce the phytotoxins known from G. bidwellii. In addition to these studies, it was demonstrated that phenguignardic acid is biosynthetically derived from two molecules of phenylalanine and that phenylalanine is a key precursor in the biosynthesis of the two other phytotoxins – alaguignardic acid and guignardic acid.