9,619 research outputs found
Perturbations in k-inflation
We extend the theory of cosmological perturbations to the case when the
``matter'' Lagrangian is an arbitrary function of the scalar field and its
first derivatives. In particular, this extension provides a unified description
of known cases such as the usual scalar field and the hydrodynamical perfect
fluid. In addition, it applies to the recently proposed k-inflation, which is
driven by non-minimal kinetic terms in the Lagrangian. The spectrum of quantum
fluctuations for slow-roll and power law k-inflation is calculated. We find,
for instance, that the usual ``consistency relation'' between the tensor
spectral index and the relative amplitude of scalar and tensor perturbations is
modified. Thus, at least in principle, k-inflation is phenomenologically
distinguishable from standard inflation.Comment: 12 pages, LaTe
Geminivirus Rep Protein Interferes with the Plant DNA Methylation Machinery and Modifies the Host Epigenome
The apparent simplicity of viruses hides the complexity of their interactions with their hosts. Viruses are masters at circumventing host defenses and manipulating the cellular environment for their own benefit. The replication of the largest known family of single-stranded DNA viruses, Geminiviridae, is impaired by DNA methylation and Arabidopsis mutants affected in cytosine methylation are hypersusceptible to geminivirus infection. This implies that plants might use methylation as a defense against geminiviruses and that the viral genome is a target for plant DNA methyltransferases. We have found a novel counter-defense strategy used by geminiviruses, that reduces the expression of the plant maintenance DNA methyltransferases, MET1 and CMT3, in both, locally and systemically infected tissues. Furthermore, we demonstrated that the virus-mediated repression of these two maintenance DNA methyltransferases is widely spread among different geminivirus species. Additionally, we identified Rep as the geminiviral protein responsible for the repression of MET1 and CMT3, and another viral protein, C4, as an ancillary player in MET1 downregulation. The presence of Rep, suppresses TGS of an Arabidopsis transgene and of host loci whose expression is strongly controlled by CG methylation. Bisulfite sequencing analyses showed that the expression of Rep caused a substantial reduction in the levels of DNA methylation at CG sites. Our findings suggest that Rep, the only viral protein essential for geminiviral replication, displays TGS suppressor activity through a mechanism distinct from the one thus far described for geminiviruses.Universidad de Málaga. Campus de Excelencia Internacional AndalucĂa Tech
Statistical strategies for pruning all the uninteresting association rules
We propose a general framework to describe formally the
problem of capturing the intensity of implication for
association rules through statistical metrics.
In this framework we present properties that influence the
interestingness of a rule, analyze the conditions that
lead a measure to perform a perfect prune at a time,
and define a final proper order to sort the surviving
rules. We will discuss why none of the currently employed
measures can capture objective interestingness, and
just the combination of some of them, in a multi-step fashion,
can be reliable. In contrast, we propose a new simple modification
of the Pearson coefficient that will meet all the necessary
requirements. We statistically infer the convenient cut-off
threshold for this new metric by empirically describing its
distribution function through simulation. Final experiments
serve to show the ability of our proposal.Postprint (published version
Discovering unbounded episodes in sequential data
One basic goal in the analysis of time-series data is
to find frequent interesting episodes, i.e, collections
of events occurring frequently together in the input sequence.
Most widely-known work decide the interestingness of an episode from a
fixed user-specified window width or interval, that bounds the
subsequent sequential association rules.
We present in this paper, a more intuitive definition that
allows, in turn, interesting episodes to grow during the mining without any
user-specified help. A convenient algorithm to
efficiently discover the proposed unbounded episodes is also implemented.
Experimental results confirm that our approach results useful
and advantageous.Postprint (published version
Optimal Fiscal Policy in Overlapping Generations Models
This paper provides, from a theoretical and quantitative point of view, an explanation of why taxes on capital returns are high (around 35%) by analyzing the optimal fiscal policy in an economy with intergenerational redistribution. For this purpose, the government is modeled explicitly and can choose (and commit to) an optimal tax policy in order to maximize society's welfare. In an infinitely lived economy with heterogeneous agents, the long run optimal capital tax is zero. If heterogeneity is due to the existence of overlapping generations, this result in general is no longer true. I provide sufficient conditions for zero capital and labor taxes, and show that a general class of preferences, commonly used on the macro and public finance literature, violate these conditions. For a version of the model, calibrated to the US economy, the main results are: first, if the government is restricted to a set of instruments, the observed fiscal policy cannot be disregarded as sub optimal and capital taxes are positive and quantitatively relevant. Second, if the government can use age specific taxes for each generation, then the age profile capital tax pattern implies subsidizing asset returns of the younger generations and taxing at higher rates the asset returns of the older ones.optimal taxation
Lending standards in mortgage markets
While the data seem to suggest that lenders did the right thing by tightening standards and increasing denials...the ongoing financial crisis suggests that they did not tighten them enough.Mortgages ; Bank loans
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