266 research outputs found
Mutations of Different Molecular Origins Exhibit Contrasting Patterns of Regional Substitution Rate Variation
Transitions at CpG dinucleotides, referred to as βCpG substitutionsβ, are a major mutational input into vertebrate genomes and a leading cause of human genetic disease. The prevalence of CpG substitutions is due to their mutational origin, which is dependent on DNA methylation. In comparison, other single nucleotide substitutions (for example those occurring at GpC dinucleotides) mainly arise from errors during DNA replication. Here we analyzed high quality BAC-based data from human, chimpanzee, and baboon to investigate regional variation of CpG substitution rates
Increasing the potential for malaria elimination by targeting zoophilic vectors
Countries in the Asia Pacific region aim to eliminate malaria by 2030. A cornerstone of malaria elimination is the effective management of Anopheles mosquito vectors. Current control tools such as insecticide treated nets or indoor residual sprays target mosquitoes in human dwellings. We find in a high transmission region in India, malaria vector populations show a high propensity to feed on livestock (cattle) and rest in outdoor structures such as cattle shelters. We also find evidence for a shift in vector species complex towards increased zoophilic behavior in recent years. Using a malaria transmission model we demonstrate that in such regions dominated by zoophilic vectors, existing vector control tactics will be insufficient to achieve elimination, even if maximized. However, by increasing mortality in the zoophilic cycle, the elimination threshold can be reached. Current national vector control policy in India restricts use of residual insecticide sprays to domestic dwellings. Our study suggests substantial benefits of extending the approach to treatment of cattle sheds, or deploying other tactics that target zoophilic behavior. Optimizing use of existing tools will be essential to achieving the ambitious 2030 elimination target
An Experimental Biomimetic Platform for Artificial Olfaction
Artificial olfactory systems have been studied for the last two decades mainly from the point of view of the features of olfactory neuron receptor fields. Other fundamental olfaction properties have only been episodically considered in artificial systems. As a result, current artificial olfactory systems are mostly intended as instruments and are of poor benefit for biologists who may need tools to model and test olfactory models. Herewith, we show how a simple experimental approach can be used to account for several phenomena observed in olfaction
Human and Non-Human Primate Genomes Share Hotspots of Positive Selection
Among primates, genome-wide analysis of recent positive selection is currently
limited to the human species because it requires extensive sampling of genotypic
data from many individuals. The extent to which genes positively selected in
human also present adaptive changes in other primates therefore remains unknown.
This question is important because a gene that has been positively selected
independently in the human and in other primate lineages may be less likely to
be involved in human specific phenotypic changes such as dietary habits or
cognitive abilities. To answer this question, we analysed heterozygous Single
Nucleotide Polymorphisms (SNPs) in the genomes of single human, chimpanzee,
orangutan, and macaque individuals using a new method aiming to identify
selective sweeps genome-wide. We found an unexpectedly high number of
orthologous genes exhibiting signatures of a selective sweep simultaneously in
several primate species, suggesting the presence of hotspots of positive
selection. A similar significant excess is evident when comparing genes
positively selected during recent human evolution with genes subjected to
positive selection in their coding sequence in other primate lineages and
identified using a different test. These findings are further supported by
comparing several published human genome scans for positive selection with our
findings in non-human primate genomes. We thus provide extensive evidence that
the co-occurrence of positive selection in humans and in other primates at the
same genetic loci can be measured with only four species, an indication that it
may be a widespread phenomenon. The identification of positive selection in
humans alongside other primates is a powerful tool to outline those genes that
were selected uniquely during recent human evolution
Plant communities as a tool in temporary ponds conservation in SW Portugal
Pond conservationTemporary ponds are seasonal wetlands
annually subjected to extreme and unstable ecological
conditions, neither truly aquatic nor truly terrestrial.
This habitat and its flora have been poorly
studied and documented because of the ephemeral
character of the flora, the changeable annual weather
that has a great effect on the small, herbaceous taxa
and the declining abundance of temporary ponds. The
objectives of this study are: (a) to define plant
community diversity in terms of floristic composition of ephemeral wetlands in SW Portugal, (b) to identify
temporary pond types according to their vegetation
composition and (c) to identify those ponds that
configure the European community priority habitat
(3170* β Mediterranean temporary ponds).
Vegetation sampling was conducted in 29 ponds,
identifying 168 species grouped among 15 plant
communities. Soil texture, pH, organic C and N
content were measured, but only N and percent of
clay appear to be related with the distribution of each
community type. The results showed that ephemeral
wetlands could be classified into four type: vernal
pools, marshlands, deep ponds and disturbed wetlands.
Vernal pools correspond to the Mediterranean
temporary ponds (3170*), protected as priority habitat
under the EU Habitats Directive. Submersed
Isoetes species (Isoetes setaceum and Isoetes velatum)
represents, together with Eryngium corniculatum,
the indicator species for vernal pools. We
identify also indicator plant communities of this
priority habitat, namely I. setaceum and E. corniculatumβ
Baldellia ranunculoides plant communities. In
this region, the conservation of temporary ponds has
so far been compatible with traditional agricultural
activities, but today these ponds are endangered by
the intensification of agriculture and the loss of
traditional land use practices and by the development
of touris
Reshaping of Bulbar Odor Response by Nasal Flow Rate in the Rat
The impact of respiratory dynamics on odor response has been poorly studied at the olfactory bulb level. However, it has been shown that sniffing in the behaving rodent is highly dynamic and varies both in frequency and flow rate. Bulbar odor response could vary with these sniffing parameter variations. Consequently, it is necessary to understand how nasal airflow can modify and shape odor response at the olfactory bulb level.To assess this question, we used a double cannulation and simulated nasal airflow protocol on anesthetized rats to uncouple nasal airflow from animal respiration. Both mitral/tufted cell extracellular unit activity and local field potentials (LFPs) were recorded. We found that airflow changes in the normal range were sufficient to substantially reorganize the response of the olfactory bulb. In particular, cellular odor-evoked activities, LFP oscillations and spike phase-locking to LFPs were strongly modified by nasal flow rate.Our results indicate the importance of reconsidering the notion of odor coding as odor response at the bulbar level is ceaselessly modified by respiratory dynamics
SNOntology: Myriads of novel snornas or just a mirage?
<p>Abstract</p> <p>Background</p> <p>Small nucleolar RNAs (snoRNAs) are a large group of non-coding RNAs (ncRNAs) that mainly guide 2'-O-methylation (C/D RNAs) and pseudouridylation (H/ACA RNAs) of ribosomal RNAs. The pattern of rRNA modifications and the set of snoRNAs that guide these modifications are conserved in vertebrates. Nearly all snoRNA genes in vertebrates are localized in introns of other genes and are processed from pre-mRNAs. Thus, the same promoter is used for the transcription of snoRNAs and host genes.</p> <p>Results</p> <p>The series of studies by Dahai Zhu and coworkers on snoRNAs and their genes were critically considered. We present evidence that dozens of species-specific snoRNAs that they described in vertebrates are experimental artifacts resulting from the improper use of Northern hybridization. The snoRNA genes with putative intrinsic promoters that were supposed to be transcribed independently proved to contain numerous substitutions and are, most likely, pseudogenes. In some cases, they are localized within introns of overlooked host genes. Finally, an increased number of snoRNA genes in mammalian genomes described by Zhu and coworkers is also an artifact resulting from two mistakes. First, numerous mammalian snoRNA pseudogenes were considered as genes, whereas most of them are localized outside of host genes and contain substitutions that question their functionality. Second, Zhu and coworkers failed to identify many snoRNA genes in non-mammalian species. As an illustration, we present 1352 C/D snoRNA genes that we have identified and annotated in vertebrates.</p> <p>Conclusions</p> <p>Our results demonstrate that conclusions based only on databases with automatically annotated ncRNAs can be erroneous. Special investigations aimed to distinguish true RNA genes from their pseudogenes should be done. Zhu and coworkers, as well as most other groups studying vertebrate snoRNAs, give new names to newly described homologs of human snoRNAs, which significantly complicates comparison between different species. It seems necessary to develop a uniform nomenclature for homologs of human snoRNAs in other vertebrates, e.g., human gene names prefixed with several-letter code denoting the vertebrate species.</p
N. elongata Produces Type IV Pili That Mediate Interspecies Gene Transfer with N. gonorrhoeae
The genus Neisseria contains at least eight commensal and two pathogenic species. According to the Neisseria phylogenetic tree, commensals are basal to the pathogens. N. elongata, which is at the opposite end of the tree from N. gonorrhoeae, has been observed to be fimbriated, and these fimbriae are correlated with genetic competence in this organism. We tested the hypothesis that the fimbriae of N. elongata are Type IV pili (Tfp), and that Tfp functions in genetic competence. We provide evidence that the N. elongata fimbriae are indeed Tfp. Tfp, as well as the DNA Uptake Sequence (DUS), greatly enhance N. elongata DNA transformation. Tfp allows N. elongata to make intimate contact with N. gonorrhoeae and to mediate the transfer of antibiotic resistance markers between these two species. We conclude that Tfp functional for genetic competence is a trait of a commensal member of the Neisseria genus. Our findings provide a mechanism for the horizontal gene transfer that has been observed among Neisseria species
Development of a Management Algorithm for Post-operative Pain (MAPP) after total knee and total hip replacement: study rationale and design.
BACKGROUND: Evidence from clinical practice and the extant literature suggests that post-operative pain assessment and treatment is often suboptimal. Poor pain management is likely to persist until pain management practices become consistent with guidelines developed from the best available scientific evidence. This work will address the priority in healthcare of improving the quality of pain management by standardising evidence-based care processes through the incorporation of an algorithm derived from best evidence into clinical practice. In this paper, the methodology for the creation and implementation of such an algorithm that will focus, in the first instance, on patients who have undergone total hip or knee replacement is described. METHODS: In partnership with clinicians, and based on best available evidence, the aim of the Management Algorithm for Post-operative Pain (MAPP) project is to develop, implement, and evaluate an algorithm designed to support pain management decision-making for patients after orthopaedic surgery. The algorithm will provide guidance for the prescription and administration of multimodal analgesics in the post-operative period, and the treatment of breakthrough pain. The MAPP project is a multisite study with one coordinating hospital and two supporting (rollout) hospitals. The design of this project is a pre-implementation-post-implementation evaluation and will be conducted over three phases. The Promoting Action on Research Implementation in Health Services (PARiHS) framework will be used to guide implementation. Outcome measurements will be taken 10Β weeks post-implementation of the MAPP. The primary outcomes are: proportion of patients prescribed multimodal analgesics in accordance with the MAPP; and proportion of patients with moderate to severe pain intensity at rest. These data will be compared to the pre-implementation analgesic prescribing practices and pain outcome measures. A secondary outcome, the efficacy of the MAPP, will be measured by comparing pain intensity scores of patients where the MAPP guidelines were or were not followed. DISCUSSION: The outcomes of this study have relevance for nursing and medical professionals as well as informing health service evaluation. In establishing a framework for the sustainable implementation and evaluation of a standardised approach to post-operative pain management, the findings have implications for clinicians and patients within multiple surgical contexts
A Sustained Dietary Change Increases Epigenetic Variation in Isogenic Mice
Epigenetic changes can be induced by adverse environmental exposures, such as
nutritional imbalance, but little is known about the nature or extent of these
changes. Here we have explored the epigenomic effects of a sustained nutritional
change, excess dietary methyl donors, by assessing genomic CpG methylation
patterns in isogenic mice exposed for one or six generations. We find stochastic
variation in methylation levels at many loci; exposure to methyl donors
increases the magnitude of this variation and the number of variable loci.
Several gene ontology categories are significantly overrepresented in genes
proximal to these methylation-variable loci, suggesting that certain pathways
are susceptible to environmental influence on their epigenetic states. Long-term
exposure to the diet (six generations) results in a larger number of loci
exhibiting epigenetic variability, suggesting that some of the induced changes
are heritable. This finding presents the possibility that epigenetic variation
within populations can be induced by environmental change, providing a vehicle
for disease predisposition and possibly a substrate for natural selection
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