32,972 research outputs found
Cell biology, SevERing mitochondria
The endoplasmic reticulum is an active participant in the division of another organelle, the mitochondrion
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Corpus-Based Transcription as an Approach to the Compositional Control of Timbre
Timbre space is a cognitive model useful to address the problem of structuring timbre in electronic music. The recent concept of corpus-based concatenative sound synthesis is proposed as an approach to timbral control in both real- and deferred-time applications. Using CataRT and related tools in the FTM and Gabor libraries for Max/MSP we describe a technique for real-time analysis of a live signal to pilot corpus-based synthesis, along with examples of compositional realizations in works for instruments, electronics, and sound installation. To extend this technique to computer-assisted composition for acoustic instruments, we develop tools using the Sound Description Interchange Format (SDIF) to export sonic descriptors to OpenMusic where they may be further manipulated and transcribed into an instrumental score. This presents a flexible technique for the compositional organization of noise-based instrumental sounds
Large-Scale Suppression from Stochastic Inflation
We show non-perturbatively that the power spectrum of a self-interacting
scalar field in de Sitter space-time is strongly suppressed on large scales.
The cut-off scale depends on the strength of the self-coupling, the number of
e-folds of quasi-de Sitter evolution, and its expansion rate. As a consequence,
the two-point correlation function of field fluctuations is free from infra-red
divergencies.Comment: 4 pages, 1 figure; v2 minor changes to match published PRL versio
Effects of weak self-interactions in a relativistic plasma on cosmological perturbations
The exact solutions for linear cosmological perturbations which have been
obtained for collisionless relativistic matter within thermal field theory are
extended to a self-interacting case. The two-loop contributions of scalar
theory to the thermal graviton self-energy are evaluated, which
give the corrections in the perturbation equations. The changes
are found to be perturbative on scales comparable to or larger than the Hubble
horizon, but the determination of the large-time damping behavior of subhorizon
perturbations requires a resummation of thermally induced masses.Comment: 11 pages, REVTEX, 4 postscript figures included by epsf.sty -
expanded version (more details on the resummation of thermal masses which is
required for the late-time damping behaviour
Stochastic Inflation and Replica Field Theory
We adopt methods from statistical field theory to stochastic inflation. For
the example of a free test field in de Sitter and power-law inflation, the
power spectrum of long-wavelength fluctuations is computed. We study its
dependence on the shape of the filter that separates long from short wavelength
modes. While for filters with infinite support the phenomenon of dimensional
reductions is found on large super-horizon scales, filters with compact support
return a scale-invariant power spectrum in the infra-red. Features of the power
spectrum, induced by the filter, decay within a few e-foldings. Thus the
late-time power spectrum is independent of the filter details.Comment: 15 pages, 14 figure
Slow-roll inflation with a Gauss-Bonnet correction
We consider slow-roll inflation for a single scalar field with an arbitrary
potential and an arbitrary nonminimal coupling to the Gauss-Bonnet term. By
introducing a combined hierarchy of Hubble and Gauss-Bonnet flow functions, we
analytically derive the power spectra of scalar and tensor perturbations. The
standard consistency relation between the tensor-to-scalar ratio and the
spectral index of tensor perturbations is broken. We apply this formalism to a
specific model with a monomial potential and an inverse monomial Gauss-Bonnet
coupling and constrain it by the 7-year Wilkinson Microwave Anisotropy Probe
data. The Gauss-Bonnet term with a positive (or negative) coupling may lead to
a reduction (or enhancement) of the tensor-to-scalar ratio and hence may revive
the quartic potential ruled out by recent cosmological data.Comment: 7 pages, 2 figures, RevTeX, references added, published versio
The hepta-β-glucoside elicitor-binding proteins from legumes represent a putative receptor family
The ability of legumes to recognize and respond to β-glucan elicitors by synthesizing phytoalexins is consistent with the existence of a membrane-bound β-glucan-binding site. Related proteins of approximately 75 kDa and the corresponding mRNAs were detected in various species of legumes which respond to beta-glucans. The cDNAs for the beta-glucan-binding proteins of bean and soybean were cloned. The deduced 75-kDa proteins are predominantly hydrophilic and constitute a unique class of glucan-binding proteins with no currently recognizable functional domains. Heterologous expression of the soybean beta-glucan-binding protein in tomato cells resulted in the generation of a high-affinity binding site for the elicitor-active hepta-β-glucoside conjugate (K-d = 4.5 nM). Ligand competition experiments with the recombinant binding sites demonstrated similar ligand specificities when compared with soybean. In both soybean and transgenic tomato, membrane-bound, active forms of the glucan-binding proteins coexist with immunologically detectable, soluble but inactive forms of the proteins. Reconstitution of a soluble protein fraction into lipid vesicles regained beta-glucoside-binding activity but with lower affinity (K-d = 130 nM). We conclude that the beta-glucan elicitor receptors of legumes are composed of the 75 kDa glucan-binding proteins as the critical components for ligand-recognition, and of an as yet unknown membrane anchor constituting the plasma membrane-associated receptor complex
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