A survey on bacteria inhabiting the sea surface microlayer of coastal ecosystems

Bacterial populations inhabiting the sea surface microlayer from two contrasted Mediterranean coastal stations (polluted vs. oligotrophic) were examined by culturing and genetic fingerprinting methods and were compared with those of underlying waters (50 cm depth), for a period of two years. More than 30 samples were examined and 487 strains were isolated and screened. Proteobacteria were consistently more abundant in the collection from the pristine environment whereas Gram-positive bacteria (i.e., Actinobacteria and Firmicutes) were more abundant in the polluted site. Cythophaga-Flavobacter-Bacteroides (CFB) ranged from 8% to 16% of total strains. Overall, 22.5% of the strains showed a 16S rRNA gene sequence similarity only at the genus level with previously reported bacterial species and around 10.5% of the strains showed similarities in 16S rRNA sequence below 93% with reported species. The CFB group contained the highest proportion of unknown species, but these also included Alpha- and Gammaproteobacteria. Such low similarity values showed that we were able to culture new marine genera and possibly new families, indicating that the sea-surface layer is a poorly understood microbial environment and may represent a natural source of new microorganisms. Genetic fingerprinting showed, however, no consistent differences between the predominant bacterial assemblages from surface microlayer and underlying waters, suggesting that the presence of a stable and abundant neustonic bacterial community is not a common trait of coastal marine environments.     

HIV-1(Lai) genomic RNA: combined used of NMR and molecular dynamics simulation for studying the structure and internal dynamics of a mutated SL1 hairpin

The genome of all retroviruses consists of two identical copies of an RNA sequence associated in a non-covalent dimer. A region upstream from the splice donor (SL1) comprising a self-complementary sequence is responsible for the initiation of the dimerization. This region is able to dimerize in two conformations: a loop-loop complex or an extended duplex. Here, we solve by 2D NMR techniques the solution structure of a 23-nucleotide sequence corresponding to HIV-1 SL1(Lai) in which the mutation G12-->A12 is included to prevent dimerization. It is shown that this monomer adopts a stem-loop conformation with a seven base pairs stem and a nine nucleotide loop containing the G10 C11 A12 C13 G14 C15 sequence. The stem is well structured in an A-form duplex, while the loop is more flexible even though elements of structure are evident. We show that the structure adopted by the stem can be appreciably different from its relaxed structure when the adenines A8, A9 and A16 in the loop are mechanically constrained. This point could be important for the efficiency of the dimerization. This experimental study is complemented with a 10 ns molecular dynamics simulation in the presence of counterions and explicit water molecules. This simulation brings about information on the flexibility of the loop, such as a hinge motion between the stem and the loop and a labile lattice of hydrogen bonds in the loop. The bases of the nucleotides G10 to C15 were found outside of the loop during a part of the trajectory, which is certainly necessary to initiate the dimerization process of the genuine SL1(Lai) sequence.     

In vitro selection of DNA aptamers against the HIV-1 TAR RNA hairpin

In vitro selection was performed to identify DNA aptamers against the TAR RNA stem-loop structure of HIV-1. A counterselection step allowed the elimination of kissing complex-forming aptamers previously selected (Boiziau et al. J. Biol. Chem. 1999; 274:12730). This led to the emergence of oligonucleotides, most of which contained two consensus sequences, one targeted to the stem 3'-strand (5'-CCCTAGTTA) and the other complementary to the TAR apical loop (5'-CTCCC). The best aptamer could be shortened to a 19-mer oligonucleotide, characterized by a dissociation constant of 50 nM. A 16-mer oligonucleotide complementary to the TAR stem 3'-strand could also be derived from the identified aptamers, with an equal affinity (Kd = 50 nM). Experiments performed to elucidate the interaction between TAR and the aptamers (UV melting measures, enzymatic and chemical footprints) demonstrated that the TAR stem 5'-strand was not simply displaced as a result of the complex formation but unexpectedly remained associated on contact with the antisense oligonucleotide. We suggest that a multistranded structure could be formed.     

Sleep and motor skill learning

The improvement of a perceptual or motor skill continues after training has ended. The central question is whether this improvement is just a function of time or whether sleep, a certain circadian phase, or their interaction (sleep occurring in a particular circadian phase) is favorable to the reprocessing of recent memory traces. In this issue of Neuron, provide behavioral evidence that most of the improvement of a motor skill depends on nocturnal sleep.     

An xrcc4 defect or Wortmannin stimulates homologous recombination specifically induced by double-strand breaks in mammalian cells

Non-homologous end joining (NHEJ) and homologous recombination (HR) are two alternative/competitor pathways for the repair of DNA double-strand breaks (DSBs). To gain further insights into the regulation of DSB repair, we detail here the different HR pathways affected by (i) the inactivation of DNA-PK activity, by treatment with Wortmannin, and (ii) a mutation in the xrcc4 gene, involved in a late NHEJ step, using the XR-1 cell line. Here we have analyzed not only the impact of NHEJ inactivation on recombination induced by a single DSB targeted to the recombination substrate (using I-SceI endonuclease) but also on γ-ray- and UV-C-induced and spontaneous recombination and finally on Rad51 foci formation, i.e. on the assembly of the homologous recombination complex, at the molecular level. The results presented here show that in contrast to embryonic stem cells, the xrcc4 mutation strongly stimulates I-SceI-induced HR in adult hamster cells. More precisely, we show here that both single strand annealing and gene conversion are stimulated. In contrast, Wortmannin does not affect I-SceI-induced HR. In addition, γ-ray-induced recombination is stimulated by both xrcc4 mutation and Wortmannin treatment in an epistatic-like manner. In contrast, neither spontaneous nor UV-C-induced recombination was affected by xrcc4 mutation, showing that the channeling from NHEJ to HR is specific to DSBs. Finally, we show here that xrcc4 mutation or Wortmannin treatment results in a stimulation of Rad51 foci assembly, thus that a late NHEJ step is able to affect Rad51 recombination complex assembly. The present data suggest a model according to which NHEJ and HR do not simply compete for DSB repair but can act sequentially: a defect in a late NHEJ step is not a dead end and can make DSB available for subsequent Rad51 recombination complex assembly.     

Le Crocodilien longirostre Gavialosuchus dans le Miocène moyen de Polastron (Gers,France)

A left maxilla fragment from the newly discovered Miocene vertebrate locality of Polastron (Gers, southwestern France) is described and referred to the longsnouted eusuchian crocodilian Gavialosuchus, which had never been reported from the Miocene of this area, in which crocodilian remains are scarce. On the basis of its mammal fauna, the locality is slightly older than Sansan. Although Gavialosuchus is usually found in marine beds, its occurrence in the fluviatile deposits of Polastron shows that it also inhabited rivers.     

Differential quantitative proteome analysis of Escherichia coli grown on acetate versus glucose

Relative protein abundances of Escherichia coli MG1655 growing exponentially on minimal medium with acetate or glucose as the sole carbon source were investigated in a quantitative shotgun proteome analysis with TMT6‐plex isobaric tags. Peptides were separated by high resolution high/low pH 2D‐LC, using an optimized fraction pooling scheme followed by mass spectrometric analysis. Quantitative data were acquired for 2099 proteins covering 49% of the predicted E. coli proteins, showing system‐wide effects of growth conditions. In total, 507 proteins showed a fold change of at least 1.5 and 205 proteins changed by more than twofold. Significant differences in abundance were observed for most of the proteins in the central carbon metabolism and in proteins relevant for amino acid and protein synthesis, processing of environmental information and scavenging of a variety of alternate carbon sources. Periplasmic‐binding proteins were also more abundant on acetate, especially proteins involved in scavenging extracellular resources such as sugars. All MS data have been deposited to the ProteomeXchange Consortium via the PRIDE partner repository (dataset identifier PXD003863).     

Changes in soil carbon stocks under perennial and annual bioenergy crops

Bioenergy crops are expected to provide biomass to replace fossil resources and reduce greenhouse gas emissions. In this context, changes in soil organic carbon (SOC) stocks are of primary importance. The aim of this study was to measure changes in SOC stocks in bioenergy cropping systems comparing perennial (Miscanthus × giganteus and switchgrass), semi‐perennial (fescue and alfalfa), and annual (sorghum and triticale) crops, all established after arable crops. The soil was sampled at the start of the experiment and 5 or 6 years later. SOC stocks were calculated at equivalent soil mass, and δ¹³C measurements were used to calculate changes in new and old SOC stocks. Crop residues found in soil at the time of SOC measurements represented 3.5–7.2 t C ha^?1 under perennial crops vs. 0.1–0.6 t C ha^?1 for the other crops. During the 5‐year period, SOC concentrations under perennial crops increased in the surface layer (0–5 cm) and slightly declined in the lower layers. Changes in δ¹³C showed that C inputs were mainly located in the 0–18 cm layer. In contrast, SOC concentrations increased over time under semi‐perennial crops throughout the old ploughed layer (ca. 0–33 cm). SOC stocks in the old ploughed layer increased significantly over time under semi‐perennials with a mean increase of 0.93 ± 0.28 t C ha^?1 yr^?1, whereas no change occurred under perennial or annual crops. New SOC accumulation was higher for semi‐perennial than for perennial crops (1.50 vs. 0.58 t C ha^?1 yr^?1, respectively), indicating that the SOC change was due to a variation in C input rather than a change in mineralization rate. Nitrogen fertilization rate had no significant effect on SOC stocks. This study highlights the interest of comparing SOC changes over time for various cropping systems.