42 research outputs found
Sensitivity of the chiral phase transition of QCD to the scalar meson sector
Gribov's theory of light quark confinement implies the existence of two kinds
of scalar bound states. The phase diagram of the three-flavor QCD is mapped out
in the (m_pi-m_K)-plane with help of the SU_L(3)xSU_R(3) linear sigma model
supplemented with the assumption that the masses of the so-called superbound
scalars do not change under the variation of the pion and kaon mass. The phase
boundary along the m_pi=m_K line is found in the interval 15 MeV<m_crit<25 MeV,
irrespective which f_0-sigma linear combination is identified with the pure
superbound state.Comment: 11 pages, 3 figures, presented at the Gribov-75 Memorial Workshop on
Quarks, Hadrons, and Strong Interactions, Budapest, Hungary, 22-24 May 200
Resummed one-loop determination of the phase boundary of the SU(3)(R) x SU(3)(L) linear sigma model in the (m(pi) - m(K))-plane
Complete one-loop parametrization of the linear sigma model is performed and
the phase boundary between first order and crossover transition regions of the
m_pi-m_K-plane is determined using the optimized perturbation theory as a
resummation tool of perturbative series. Away from the physical point the
parameters of the model were determined by making use of chiral perturbation
theory. Along the diagonal m_pi=m_K of the mass--plane we estimate m_pi^c=110
+- 20 MeV. The location of the tricritical point on the m_pi=0 axis is
estimated in the interval m_K^TCP in (1700,1850) MeV.Comment: RevTeX4, 11 pages, 6 figures, with macro package feynm
Structural Coupling Between FKBP12 and Buried Water
Globular proteins often contain structurally well-resolved internal water molecules. Previously, we reported results from a molecular dynamics study that suggested that buried water (Wat3) may play a role in modulating the structure of the FK506 binding protein-12 (FKBP12) (Park and Saven, Proteins 2005; 60:450-463). In particular, simulations suggested that disrupting a hydrogen bond to Wat3 by mutating E60 to either A or Q would cause a structural perturbation involving the distant W59 side chain, which rotates to a new conformation in response to the mutation. This effectively remodels the ligand-binding pocket, as the side chain in the new conformation is likely to clash with bound FK506. To test whether the protein structure is in effect modulated by the binding of a buried water in the distance, we determined high-resolution (0.92-1.29 A) structures of wild-type FKBP12 and its two mutants (E60A, E60Q) by X-ray crystallography. The structures of mutant FKBP12 show that the ligand-binding pocket is indeed remodeled as predicted by the substitution at position 60, even though the water molecule does not directly interact with any of the amino acids of the binding pocket. Thus, these structures support the view that buried water molecules constitute an integral, noncovalent component of the protein structure. Additionally, this study provides an example in which predictions from molecular dynamics simulations are experimentally validated with atomic precision, thus showing that the structural features of protein-water interactions can be reliably modeled at a molecular level
Impacts of Parasites in Early Life: Contrasting Effects on Juvenile Growth for Different Family Members
Parasitism experienced early in ontogeny can have a major impact on host growth, development and future fitness, but whether siblings are affected equally by parasitism is poorly understood. In birds, hatching asynchrony induced by hormonal or behavioural mechanisms largely under parental control might predispose young to respond to infection in different ways. Here we show that parasites can have different consequences for offspring depending on their position in the family hierarchy. We experimentally treated European Shag (Phalacrocorax aristoteli) nestlings with the broad-spectrum anti-parasite drug ivermectin and compared their growth rates with nestlings from control broods. Average growth rates measured over the period of linear growth (10 days to 30 days of age) and survival did not differ for nestlings from treated and control broods. However, when considering individuals within broods, parasite treatment reversed the patterns of growth for individual family members: last-hatched nestlings grew significantly slower than their siblings in control nests but grew faster in treated nests. This was at the expense of their earlier-hatched brood-mates, who showed an overall growth rate reduction relative to last-hatched nestlings in treated nests. These results highlight the importance of exploring individual variation in the costs of infection and suggest that parasites could be a key factor modulating within-family dynamics, sibling competition and developmental trajectories from an early age
The future distribution of wetland birds breeding in Europe validated against observed changes in distribution
Wetland bird species have been declining in population size worldwide as climate warming and land-use change affect their suitable habitats. We used species distribution models (SDMs) to predict changes in range dynamics for 64 non-passerine wetland birds breeding in Europe, including range size, position of centroid, and margins. We fitted the SDMs with data collected for the first European Breeding Bird Atlas and climate and land-use data to predict distributional changes over a century (the 1970s-2070s). The predicted annual changes were then compared to observed annual changes in range size and range centroid over a time period of 30 years using data from the second European Breeding Bird Atlas. Our models successfully predicted ca. 75% of the 64 bird species to contract their breeding range in the future, while the remaining species (mostly southerly breeding species) were predicted to expand their breeding ranges northward. The northern margins of southerly species and southern margins of northerly species, both, predicted to shift northward. Predicted changes in range size and shifts in range centroids were broadly positively associated with the observed changes, although some species deviated markedly from the predictions. The predicted average shift in core distributions was ca. 5 km yr(-1) towards the north (5% northeast, 45% north, and 40% northwest), compared to a slower observed average shift of ca. 3.9 km yr(-1). Predicted changes in range centroids were generally larger than observed changes, which suggests that bird distribution changes may lag behind environmental changes leading to 'climate debt'. We suggest that predictions of SDMs should be viewed as qualitative rather than quantitative outcomes, indicating that care should be taken concerning single species. Still, our results highlight the urgent need for management actions such as wetland creation and restoration to improve wetland birds' resilience to the expected environmental changes in the future