Finite range effects in pionic atoms

Finite range effects are shown to be important in the derivation of the π-nucleus optical potential

Estimation of genetically effective breeding numbers using a rejection algorithm approach

Polygynous mating results in nonrandom sampling of the adult male gamete pool in each generation, thereby increasing the rate of genetic drift. In principle, genetic paternity analysis can be used to infer the effective number of breeding males (Nebm). However, this requires genetic data from an exhaustive sample of candidate males. Here we describe a new approach to estimate Nebm using a rejection algorithm in association with three statistics: Euclidean distance between the frequency distributions of maternally and paternally inherited alleles, average number of paternally inherited alleles and average gene diversity of paternally inherited alleles. We quantify the relationship between these statistics and Nebm using an individual-based simulation model in which the male mating system varied continuously between random mating and extreme polygyny. We evaluate this method using genetic data from a natural population of highly polygynous fruit bats (Cynopterous sphinx). Using data in the form of mother–offspring genotypes, we demonstrate that estimates of Nebm are very similar to independent estimates based on a direct paternity analysis that included data on candidate males. Our method also permits an evaluation of uncertainty in estimates of Nebm and thus facilitates inferences about the mating system from genetic data. Finally, we investigate the sensitivity of our method to sample size, model assumptions, adult population size and the mating system. These analyses demonstrate that the rejection algorithm provides accurate estimates of Nebm across a broad range of demographic scenarios, except when the true Nebm is high

Legalizing Merger to Monopoly and Higher Prices: The Canadian Competition Tribunal Gets It Wrong

This article analyzes the Canadian Superior Propane decision, apparently the first merger decision in world history to consider explicitly what to do when a merger was predicted to lead to both higher consumer prices and to net efficiencies. The article advocates analyzing the merger under a price to consumers or consumer welfare standard, rather than a total efficiency standard, and advocates that the enforcers and the courts block such mergers

(3+2) Neutrino Scheme From A Singular Double See-Saw Mechanism

We obtain a 3+2 neutrino spectrum within a left-right symmetric framework by invoking a singular double see-saw mechanism. Higgs doublets are employed to break $SU_{R}(2)$ and three additional fermions, singlets under the left-right symmetric gauge group, are included. The introduction of a singularity into the singlet fermion Majorana mass matrix results in a light neutrino sector of three neutrinos containing predominantly $\nu_{\alpha L}$, $\alpha=e,\mu,\tau$, separated from two neutrinos containing a small $\nu_{\alpha L}$ component. The resulting active-sterile mixing in the $5\times 5$ mixing matrix is specified once the mass eigenvalues and the $3\times3$ submatrix corresponding to the MNS mixing matrix are known.Comment: 5 pages, matches published versio

QM/MM Study of L-Lactate Oxidation by Flavocytochrome b2

In this work, we have performed molecular dynamics simulations using a hybrid Quantum Mechanics/Molecular Mechanics (QM/MM) scheme to study the mechanism of L-lactate oxidation by flavocytochrome b2 (Fcb2). Our results obtained at the QM(AM1)/MM level have been improved by single-point corrections using density functional theory (DFT) methods. Free energy surfaces have been calculated in the framework of the hydride transfer hypothesis. This mechanism involves the transfer of the lactate hydroxyl proton to H373 while the substrate αH atom is transferred as a hydride to the flavin mononucleotide (FMN) prosthetic group anchored in the active site. Four different systems have been modeled: wild-type enzyme considering R289 in a distal or a proximal conformation observed in crystal structures and the D282N and Y254L variants (with R289 in a distal position). Simulation results highlight the influence of the environment on the catalytic mechanism by describing a step-wise process in the WT enzyme with R289 in a distal position and a concerted mechanism for the other systems. In the step-wise mechanism, the hydride transfer to flavin can occur only after a proton transfer from substrate to H373. Modifications of the electrostatic field around L-lactate or H373 disfavor the highly charged complex resulting from this proton transfer. Simulations of the Y254L variant also reveal some effect of steric changes

Avian cryptochrome 4 binds superoxide

This is the final version. Available on open access from Elsevier via the DOI in this recordData availability: The data that support the findings of this study are available from the authors upon reasonable request.Flavin-binding cryptochromes are blue-light sensitive photoreceptors that have been implicated with magnetoreception in some species. The photocycle involves an intra-protein photo-reduction of the flavin cofactor, generating a magnetosensitive radical pair, and its subsequent re-oxidation. Superoxide (O2•−) is generated in the re-oxidation with molecular oxygen. The resulting O2•−-containing radical pairs have also been hypothesised to underpin various magnetosensitive traits, but due to fast spin relaxation when tumbling in solution would require immobilisation. We here describe our insights in the binding of superoxide to cryptochrome 4 from C. livia based on extensive all-atom molecular dynamics studies and density-functional theory calculations. The positively charged “crypt” region that leads to the flavin binding pocket transiently binds O2•− at 5 flexible binding sites centred on arginine residues. Typical binding times amounted to tens of nanoseconds, but exceptional binding events extended to several hundreds of nanoseconds and slowed the rotational diffusion, thereby realising rotational correlation times as large as 1 ns. The binding sites are particularly efficient in scavenging superoxide escaping from a putative generation site close to the flavin-cofactor, possibly implying a functional relevance. We discuss our findings in view of a potential magnetosensitivity of biological flavin semiquinone/superoxide radical pairs.UK Defence Science and Technology LaboratoryLeverhulme TrustEngineering and Physical Sciences Research Council (EPSRC

Selective organic functionalization of polycrystalline silicon-germanium for bioMEMS applications

AbstractWe selectively immobilized organofunctional silanes on top of polycrystalline silicon-germanium (poly-SiGe) layers, as a first step towards the fabrication of poly-SiGe-based bioMEMS (biomedical MicroElectroMechanicalSystems) by means of standard UV photolithography. 3-aminopropyl-dimethyl-ethoxysilane (APDMES) and 3-aminopropyl-triethoxysilane (APTES) molecules were immobilized onto resist-patterned poly-SiGe surfaces. The protocols for surface hydroxylation and silane immobilization were designed to be CMOS-compatible and to avoid damage to photoresist. Silanized surfaces were investigated both by means of fluorescence microscopy, and by FEG-SEM observation after labeling with 30 nm-diameter gold nanoparticles (NPs). We report the silanization protocols, together with the results indicating successful organic functionalization of the samples

Optimización hidroenergética. Estudio del sistema de los Ríos Las Cañas - Gastona - Medina

Fil: Reyna, Santiago. Universidad Nacional de Córdoba; Argentina.Fil: Reyna, Teresa. Universidad Nacional de Córdoba; Argentina.Fil: Lande, J. Universidad Nacional de Córdoba; Argentina.Fil: Fulginit, F. Universidad Nacional de Córdoba; Argentina.Fil: Lábaque, María. Universidad Nacional de Córdoba; Argentina.La generación hidroeléctrica ofrece ventajas importantes en término de costos totales y se presenta hoy como una alternativa ambientalmente sustentable. El desarrollo actual de numerosos proyectos hidroeléctricos muestra que en Argentina existe un muy alto potencial de fuentes energéticas renovables, con grandes ventajas ambientales sobre los demás modos de generar energía. El carácter renovable de estas fuentes contrasta con la naturaleza finita de los recursos fósiles nacionales. En este contexto, la energía hidroeléctrica se muestra como una opción madura, accesible y eficiente para hacer frente a la creciente demanda de servicios energéticos en el país. La optimización aplicada a los diseños hidroeléctricos permite que se adopten soluciones hidroeléctricas adecuadas para cada aprovechamiento. En este artículo se presenta la optimización hidroenergética del Complejo Hídrico Multiprósito de los Ríos Las Cañas, Gastona y MedinaFil: Reyna, Santiago. Universidad Nacional de Córdoba; Argentina.Fil: Reyna, Teresa. Universidad Nacional de Córdoba; Argentina.Fil: Lande, J. Universidad Nacional de Córdoba; Argentina.Fil: Fulginit, F. Universidad Nacional de Córdoba; Argentina.Fil: Lábaque, María. Universidad Nacional de Córdoba; Argentina.Otras Ingeniería Civi

Quantum Dissipative Effects and Neutrinos : current constraints and future perspectives

We establish the most stringent experimental constraints coming from recent terrestrial neutrino experiments on quantum mechanical decoherence effects in neutrino systems. Taking a completely phenomenological approach, we probe vacuum oscillations plus quantum decoherence between two neutrino species in the channels $\nu_\mu \to \nu_\tau$, $\nu_\mu \to \nu_e$ and $\nu_e \to \nu_\tau$, admitting that the quantum decoherence parameter $\gamma$ is related to the neutrino energy $E_\nu$ as : $\gamma=\gamma_0 (E_\nu/\text{GeV})^{n}$, with $n=-1,0,1$ and 2. Our bounds are valid for a neutrino mass squared difference compatible with the atmospheric, the solar and, in many cases, the LSND scale. We also qualitatively discuss the perspectives of the future long baseline neutrino experiments to further probe quantum dissipation.Comment: 26 pages, 8 encapsulated postscript figure