499 research outputs found
Comparative genomics among members of the Streptococcus bovis/Streptococcus equinus complex
Background: Today, only one streptococcal species, i.e. Streptococcus thermophilus is recognized as food-grade. Interestingly, other
streptococci like Streptococcus macedonicus and Streptococcus infantarius belonging to the Streptococcus bovis/Streptococcus
equinus complex (SBSEC) are also found in food matrices. However, these species are phylogenetically related to Streptococcus
gallolyticus and Streptococcus pasteurianus that have been linked to endocarditis, bacteremia and colon cancer.
Objectives: To compare the available genomes of the members of the SBSEC in order to shed light onto their evolution and
phylogenetic relation and to assess in silico their pathogenic potential.
Methods: Comparative genomics analysis including full chromosome and CDS alignments, whole genome phylogeny and evaluation
of gene content (e.g. core genome, singletons, etc.) was performed with appropriate bioinformatics tools.
Conclusions: Despite the fact that the four species of the SBSEC were found tightly related based on whole genome phylogeny, there
were two different patterns of evolution among them. Streptococcus pasteurianus, S. macedonicus and S. infantarius seem to have
undergone a reductive evolution process that resulted in significantly diminished genome sizes and increased percentages of
potential pseudogenes when compared to S. gallolyticus. In addition, S. pasteurianus, S. macedonicus and S. infantarius seem to
have lost several genes previously linked to the ability of S. gallolyticus to survive in the gastrointestinal tract of herbivores and to
its pathogenicity. Our findings indicate differences in the ecological niche and the pathogenic potential among the four species
Cosmology with a long range repulsive force
We consider a class of cosmological models in which the universe is filled
with a (non-electric) charge density that repels itself by means of a force
carried by a vector boson with a tiny mass. When the vector's mass depends upon
other fields, the repulsive interaction gives rise to an electromagnetic
barrier which prevents these fields from driving the mass to zero. This can
modify the cosmology dramatically. We present a very simple realization of this
idea in which the vector's mass arises from a scalar field. The electromagnetic
barrier prevents this field from rolling down its potential and thereby leads
to accelerated expansion.Comment: 15 pages, 8 figures, LaTeX (version accepted for publication in PRD).
3 new figures, extended discussion of observational consequence
Electronic excitation of furfural as probed by high-resolution vacuum ultraviolet spectroscopy, electron energy loss spectroscopy, and ab initio calculations
13 págs.; 7 figs.; 8 tabs.© 2015 AIP Publishing LLC. The electronic spectroscopy of isolated furfural (2-furaldehyde) in the gas phase has been investigated using high-resolution photoabsorption spectroscopy in the 3.5-10.8 eV energy-range, with absolute cross section measurements derived. Electron energy loss spectra are also measured over a range of kinematical conditions. Those energy loss spectra are used to derive differential cross sections and in turn generalised oscillator strengths. These experiments are supported by ab initio calculations in order to assign the excited states of the neutral molecule. The good agreement between the theoretical results and the measurements allows us to provide the first quantitative assignment of the electronic state spectroscopy of furfural over an extended energy range.F.F.S. and P.L.V. acknowledge the Portuguese Foundation
for Science and Technology (FCT-MEC) through Grant Nos.
SFRH/BPD/68979/2010 and SFRH/BSAB/105792/2014,
respectively, the research Grant Nos. PTDC/FIS-ATO/1832/
2012 and UID/FIS/00068/2013. P.L.V. also acknowledges
his Visiting Research Fellow position at Flinders University,
Adelaide, South Australia. The Patrimoine of the University
of Liège, the Fonds National de la Recherche Scientifique,
and the Fonds de la Recherche Fondamentale Collective of
Belgium have also supported this research. E.L. and R.F.C.N.
thank CNPq (Brazil) and the Science Without Borders
Programme for opportunities to study abroad. The authors
wish to acknowledge the beam time at the ISA synchrotron
at Aarhus University, Denmark. The research leading to these
results has received funding from the European Community’s
Seventh Framework Programme (Grant No. FP7/2007-2013)
CALIPSO under Grant Agreement No. 312284. D.B.J.
thanks the Australian Research Council for financial support
provided through a Discovery Early Career Research Award.
M.J.B. also thanks the Australian Research Council for some
financial support, while M.J.B. and M.C.A.L. acknowledge the
Brazilian agencies CNPq and FAPEMIG for financial support.
F.B. and G.G. acknowledge partial financial support from the
Spanish Ministry MINECO (Project No. FIS2012-31230) and
the EU COST Action No. CM1301 (CELINA). Finally, R.F.C.,
M.T.do N.V., M.H.F.B., and M.A.P.L. acknowledge support
from the Brazilian agency CNPq.Peer Reviewe
Ticks produce highly selective chemokine binding proteins with antiinflammatory activity
Bloodsucking parasites such as ticks have evolved a wide variety of immunomodulatory proteins that are secreted in their saliva, allowing them to feed for long periods of time without being detected by the host immune system. One possible strategy used by ticks to evade the host immune response is to produce proteins that selectively bind and neutralize the chemokines that normally recruit cells of the innate immune system that protect the host from parasites. We have identified distinct cDNAs encoding novel chemokine binding proteins (CHPBs), which we have termed Evasins, using an expression cloning approach. These CHBPs have unusually stringent chemokine selectivity, differentiating them from broader spectrum viral CHBPs. Evasin-1 binds to CCL3, CCL4, and CCL18; Evasin-3 binds to CXCL8 and CXCL1; and Evasin-4 binds to CCL5 and CCL11. We report the characterization of Evasin-1 and -3, which are unrelated in primary sequence and tertiary structure, and reveal novel folds. Administration of recombinant Evasin-1 and -3 in animal models of disease demonstrates that they have potent antiinflammatory properties. These novel CHBPs designed by nature are even smaller than the recently described single-domain antibodies (Hollinger, P., and P.J. Hudson. 2005. Nat. Biotechnol. 23:1126–1136), and may be therapeutically useful as novel antiinflammatory agents in the future
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