148 research outputs found
Entanglement redistribution in the Schwarzschild spacetime
The effect of Hawking radiation on the redistribution of the entanglement and
mutual information in the Schwarzschild spacetime is investigated. Our analysis
shows that the physically accessible correlations degrade while the
unaccessible correlations increase as the Hawking temperature increases because
the initial correlations described by inertial observers are redistributed
between all the bipartite modes. It is interesting to note that, in the limit
case that the temperature tends to infinity, the accessible mutual information
equals to just half of its initial value, and the unaccessible mutual
information between mode and also equals to the same value.Comment: 11 pages, 3 figures; Submit to PLB on Aug 29, 200
Projective measurements and generation of entangled Dirac particles in Schwarzschild Spacetime
It is shown that the projective measurements made by Bob who locates near the
event horizon of the Schwarzschild black hole will create entangled particles
detected by Alice who stays stationary at the asymptotically flat region. It is
found that the degree of entanglement decreases as the frequency of the
detected particles increases and approaches to zero as the frequency
. It is also noted that the degree of entanglement
increases as the Hawking temperature increases. Especially, the particle state
is unentangled when the Hawking temperature is zero and approaches a maximally
entangled Bell state when the black hole evaporates completely.Comment: 11 pages, 1 figure; Accepted by Annals of physic
Interaction between Coastal and Oceanic Ecosystems of the Western and Central Pacific Ocean through Predator-Prey Relationship Studies
The Western and Central Pacific Ocean sustains the highest tuna production in the world. This province is also characterized by many islands and a complex bathymetry that induces specific current circulation patterns with the potential to create a high degree of interaction between coastal and oceanic ecosystems. Based on a large dataset of oceanic predator stomach contents, our study used generalized linear models to explore the coastal-oceanic system interaction by analyzing predator-prey relationship. We show that reef organisms are a frequent prey of oceanic predators. Predator species such as albacore (Thunnus alalunga) and yellowfin tuna (Thunnus albacares) frequently consume reef prey with higher probability of consumption closer to land and in the western part of the Pacific Ocean. For surface-caught-predators consuming reef prey, this prey type represents about one third of the diet of predators smaller than 50 cm. The proportion decreases with increasing fish size. For predators caught at depth and consuming reef prey, the proportion varies with predator species but generally represents less than 10%. The annual consumption of reef prey by the yellowfin tuna population was estimated at 0.8Β±0.40CV million tonnes or 2.17Γ1012Β±0.40CV individuals. This represents 6.1%Β±0.17CV in weight of their diet. Our analyses identify some of the patterns of coastal-oceanic ecosystem interactions at a large scale and provides an estimate of annual consumption of reef prey by oceanic predators
Directing Astroglia from the Cerebral Cortex into Subtype Specific Functional Neurons
Forced expression of single defined transcription factors can selectively and stably convert cultured astroglia into synapse-forming excitatory and inhibitory neurons
Holographic Calculations of Renyi Entropy
We extend the approach of Casini, Huerta and Myers to a new calculation of
the Renyi entropy of a general CFT in d dimensions with a spherical entangling
surface, in terms of certain thermal partition functions. We apply this
approach to calculate the Renyi entropy in various holographic models. Our
results indicate that in general, the Renyi entropy will be a complicated
nonlinear function of the central charges and other parameters which
characterize the CFT. We also exhibit the relation between this new thermal
calculation and a conventional calculation of the Renyi entropy where a twist
operator is inserted on the spherical entangling surface. The latter insight
also allows us to calculate the scaling dimension of the twist operators in the
holographic models.Comment: 71 pages, 6 figure
Activity-Induced Remodeling of Olfactory Bulb Microcircuits Revealed by Monosynaptic Tracing
The continued addition of new neurons to mature olfactory circuits represents a remarkable mode of cellular and structural brain plasticity. However, the anatomical configuration of newly established circuits, the types and numbers of neurons that form new synaptic connections, and the effect of sensory experience on synaptic connectivity in the olfactory bulb remain poorly understood. Using in vivo electroporation and monosynaptic tracing, we show that postnatal-born granule cells form synaptic connections with centrifugal inputs and mitral/tufted cells in the mouse olfactory bulb. In addition, newly born granule cells receive extensive input from local inhibitory short axon cells, a poorly understood cell population. The connectivity of short axon cells shows clustered organization, and their synaptic input onto newborn granule cells dramatically and selectively expands with odor stimulation. Our findings suggest that sensory experience promotes the synaptic integration of new neurons into cell type-specific olfactory circuits
Heterogeneous natural selection on oxidative phosphorylation genes among fishes with extreme high and low aerobic performance
Background: Oxidative phosphorylation (OXPHOS) is the primary source of ATP in eukaryotes and serves as a mechanistic link between variation in genotypes and energetic phenotypes. While several physiological and anatomical factors may lead to increased aerobic capacity, variation in OXPHOS proteins may influence OXPHOS efficiency and facilitate adaptation in organisms with varied energy demands. Although there is evidence that natural selection acts on OXPHOS genes, the focus has been on detection of directional (positive) selection on specific phylogenetic branches where traits that increase energetic demands appear to have evolved. We examined patterns of selection in a broader evolutionary context, i.e., on multiple lineages of fishes with extreme high and low aerobic performance.
Results: We found that patterns of natural selection on mitochondrial OXPHOS genes are complex among fishes with different swimming performance. Positive selection is not consistently associated with high performance taxa and appears to be strongest on lineages containing low performance taxa. In contrast, within high performance lineages, purifying (negative) selection appears to predominate.
Conclusions: We provide evidence that selection on OXPHOS varies in both form and intensity within and among lineages through evolutionary time. These results provide evidence for fluctuating selection on OXPHOS associated with divergence in aerobic performance. However, in contrast to previous studies, positive selection was strongest on low performance taxa suggesting that adaptation of OXPHOS involves many factors beyond enhancing ATP production in high performance taxa. The broader pattern indicates a complex interplay between organismal adaptations, ATP demand, and OXPHOS function.This work was supported by NSF award DEB-0732988 (to REB).Ye
Multidrug efflux pumps:structure, function and regulation
Infections arising from multidrug-resistant pathogenic bacteria are spreading rapidly throughout the world and threaten to become untreatable. The origins of resistance are numerous and complex, but one underlying factor is the capacity of bacteria to rapidly export drugs through the intrinsic activity of efflux pumps. In this Review, we describe recent advances that have increased our understanding of the structures and molecular mechanisms of multidrug efflux pumps in bacteria. Clinical and laboratory data indicate that efflux pumps function not only in the drug extrusion process but also in virulence and the adaptive responses that contribute to antimicrobial resistance during infection. The emerging picture of the structure, function and regulation of efflux pumps suggests opportunities for countering their activities
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