A bio-inspired image coder with temporal scalability

We present a novel bio-inspired and dynamic coding scheme for static images. Our coder aims at reproducing the main steps of the visual stimulus processing in the mammalian retina taking into account its time behavior. The main novelty of this work is to show how to exploit the time behavior of the retina cells to ensure, in a simple way, scalability and bit allocation. To do so, our main source of inspiration will be the biologically plausible retina model called Virtual Retina. Following a similar structure, our model has two stages. The first stage is an image transform which is performed by the outer layers in the retina. Here it is modelled by filtering the image with a bank of difference of Gaussians with time-delays. The second stage is a time-dependent analog-to-digital conversion which is performed by the inner layers in the retina. Thanks to its conception, our coder enables scalability and bit allocation across time. Also, our decoded images do not show annoying artefacts such as ringing and block effects. As a whole, this article shows how to capture the main properties of a biological system, here the retina, in order to design a new efficient coder.Comment: 12 pages; Advanced Concepts for Intelligent Vision Systems (ACIVS 2011

Sculpting oscillators with light within a nonlinear quantum fluid

Seeing macroscopic quantum states directly remains an elusive goal. Particles with boson symmetry can condense into such quantum fluids producing rich physical phenomena as well as proven potential for interferometric devices [1-10]. However direct imaging of such quantum states is only fleetingly possible in high-vacuum ultracold atomic condensates, and not in superconductors. Recent condensation of solid state polariton quasiparticles, built from mixing semiconductor excitons with microcavity photons, offers monolithic devices capable of supporting room temperature quantum states [11-14] that exhibit superfluid behaviour [15,16]. Here we use microcavities on a semiconductor chip supporting two-dimensional polariton condensates to directly visualise the formation of a spontaneously oscillating quantum fluid. This system is created on the fly by injecting polaritons at two or more spatially-separated pump spots. Although oscillating at tuneable THz-scale frequencies, a simple optical microscope can be used to directly image their stable archetypal quantum oscillator wavefunctions in real space. The self-repulsion of polaritons provides a solid state quasiparticle that is so nonlinear as to modify its own potential. Interference in time and space reveals the condensate wavepackets arise from non-equilibrium solitons. Control of such polariton condensate wavepackets demonstrates great potential for integrated semiconductor-based condensate devices.Comment: accepted in Nature Physic

Governance capacity and regionalist dynamics

The debate on the effects of regionalism and European integration on European nation states has been prominent for more than a decade. Regionalization of EU states has not brought with it genuine regional autonomy and regionalism has not emerged as a bottom-up public demand in European regions. It is contended here that to determine the future of regional devolution, whether as a result of bottom-up or top-down processes, the factors at play must be contextualized. This paper examines some determinants of regional political capacity, as identified in the policy literature, in tandem with a number of determinants of economic prospects and the existence of an economic milieu. This is done in a comparative context across 12 regions of the EU. It is suggested that the potential for regionalist pressures to emerge is dependent on regional governance capacity and the relative economic weight of a region. © Taylor & Francis

Structure–activity study of N-((trans)-4-(2-(7-cyano-3,4-dihydroisoquinolin-2(1H)-yl)ethyl)cyclohexyl)-1H-indole-2-carboxamide (SB269652), a bitopic ligand that acts as a negative allosteric modulator of the dopamine D2 receptor

We recently demonstrated that SB269652 (1) engages one protomer of a dopamine D2 receptor (D2R) dimer in a bitopic mode to allosterically inhibit the binding of dopamine at the other protomer. Herein, we investigate structural deter- minants for allostery, focusing on modifications to three moieties within 1. We find that orthosteric “head” groups with small 7-substituents were important to maintain the limited negative cooperativity of analogues of 1, and replacement of the tetrahydroisoquinoline head group with other D2R “privileged structures” generated orthosteric antagonists. Additionally, replacement of the cyclohexylene linker with polymethylene chains conferred linker length dependency in allosteric pharma- cology. We validated the importance of the indolic NH as a hydrogen bond donor moiety for maintaining allostery. Replacement of the indole ring with azaindole conferred a 30-fold increase in affinity while maintaining negative cooperativity. Combined, these results provide novel SAR insight for bitopic ligands that act as negative allosteric modulators of the D2R

Molecular basis of association of receptor activity-modifying protein 3 with the family B G protein-coupled secretin receptor

The three receptor activity-modifying proteins (RAMPs) have been recognized as being important for the trafficking and function of a subset of family B G protein-coupled receptors, although the structural basis for this has not been well established. In the current work, we use morphological fluorescence techniques, bioluminescence resonance energy transfer, and bimolecular fluorescence complementation to demonstrate that the secretin receptor associates specifically with RAMP3, but not with RAMP1 or RAMP2. We use truncation constructs, peptide competition experiments, and chimeric secretin-GLP1 receptor constructs to establish that this association is structurally specific, dependent on the intramembranous region of the RAMP and TM6 and TM7 of this receptor. There were no observed changes in secretin-stimulated cAMP, intracellular calcium, ERK1/2 phosphorylation, or receptor internalization in receptor-bearing COS or CHO-K1 cells in the presence or absence of exogenous RAMP transfection, although the secretin receptor trafficks normally to the cell surface in these cells in a RAMP-independent manner, resulting in both free and RAMP-associated receptor on the cell surface. RAMP3 association with this receptor was shown to be capable of rescuing a receptor mutant (G241C) that is normally trapped intracellularly in the biosynthetic machinery. Similarly, secretin receptor expression had functional effects on adrenomedullin activity, with increasing secretin receptor expression competing for RAMP3 association with the calcitonin receptor-like receptor to yield a functional adrenomedullin receptor. These data provide important new insights into the structural basis for RAMP3 interaction with a family B G protein-coupled receptor, potentially providing a highly selective target for drug action. This may be representative of similar interactions between other members of this receptor family and RAMP proteins

Hybridization Assays Using an Expressible DNA Fragment Encoding Firefly Luciferase as a Label

We report the use of a new label, an expressible enzymecoding DNA fragment, for nucleic acid hybridization assays. The DNA label contains a firefly luciferase coding sequence downstream from a T7 RNA polymerase promoter. The target DNA (200 bp) is denatured and hybridized simultaneously with two oligonucleotide probes. One of the probes is immobilized in microtiter wells, via the digoxigenin/anti-digoxigenin interaction, and the other probe is biotinylated. After completion of the hybridization, the hybrids are reacted with a streptavidin-luciferase DNA complex. Subsequently, the solid-phase bound DNA is expressed by coupled transcription/ translation. The synthesized luciferase catalyzes the luminescent reaction of luciferin with O 2 and ATP. The luminescence is linearly related to the amount of target DNA in the range of 5-5000 amol. The CVs obtained for 20 and 100 amol of target are 6.5% and 10.8%, respectively (n ) 4). The specific and strong interaction between two complementary nucleic acid strands forms the basis for the development of hybridization assays. Hybridization methodology is emerging as the most promising area in laboratory medicine and has transformed the way clinical testing is realized. Previous tests have been based on the monitoring of gene products, i.e., phenotypic markers, such as oncoproteins, viral antigens, etc. In contrast, current laboratory tests that are based on hybridization allow the analysis of disease at the nucleic acid level. Thus, pre-or postnatal diagnosis of genetic disease can be accomplished by hybridization of the patient's DNA with allele-specific oligonucleotide probes that recognize mutations, deletions, or insertions causing the disease. Also, the various infectious agents can be measured in biological fluids by hybridization with specific probes. In forensic science, hybridization of DNA with minisatellite probes allows the unique identification of individuals (DNA fingerprinting). 1,2 Radioactive probes (usually labeled with 32 P), in combination with autoradiographic detection, dominated in the field of hybridization assays for more than 2 decades and provide the highest sensitivities. However, the short half-life of 32 P, the health hazards and problems associated with its use and disposal, and the long exposure times (many hours to days) required for detection have placed limitations on the routine use of hybridization assays in the clinical laboratory. The current trend in this area is toward novel nonradioactive alternatives. 2,3 The labels can be incorporated into the probes either enzymatically (e.g., using DNA polymerase or deoxynucleotidyl transferase and modified deoxynucleoside triphosphates) or by chemical conjugation (e.g., introduction of NH 2 groups into the probe via cytidine transamination and then conjugation to the reporter molecule). 4 Nonisotopic hybridization assays based on fluorescent, chemiluminescent, or enzyme labels have been developed. Generally, there are two strategies for the analysis of hybrids. Either the reporter molecule is directly conjugated to the probe, 5,6 or a ligand is attached to the probe and the hybrids are measured in a subsequent step by adding a specific, labeled binding protein. The ligand may be biotin or a hapten (e.g., digoxigenin). Labeled (strept)avidin or antihapten antibodies may then be employed for detection. 7,8 Enzymes (such as alkaline phosphatase and horseradish peroxidase) are the most widely used nonradioisotopic labels because they provide amplification through the high turnover of their substrates to detectable products. 2 Recently, we reported 9 that a DNA fragment (DNA template) coding for an enzyme can be used as a novel label for the development of highly sensitive immunoassays (expression immunoassays). In these assays, after completion of the immunoreaction, the DNA template (a luciferase-coding DNA) is expressed by in vitro transcription/translation and the activity of the synthesized enzyme is measured. Furthermore, it was estimated that 12-14 luciferase molecules were synthesized from each DNA template molecule. In the present work, we extend our investigation in the area of hybridization assays. EXPERIMENTAL SECTION Instrumentation. Luminescence measurements were carried out using a liquid scintillation counter (Model LS-6500, Beckman Instruments Inc., Fullerton, CA) in the single photon monitoring mode. Fluorescence measurements were performed with th

Analytical formulation for the shielding effectiveness of enclosures with apertures

An analytical formulation has been developed for the shielding effectiveness of a rectangular enclosure with an aperture. Both the magnetic and electric shielding may be calculated as a function of frequency, enclosure dimensions, aperture dimensions and position within the enclosure. Theoretical values of shielding effectiveness are in good agreement with measurements. The theory has been extended to account for circular apertures, multiple apertures, and the effect of the enclosure contents. The captions for Figures 12-16 were incorrect in the original published version. The captions should be: 12. Emissions measurement of shielding at centre of 300x120x300 mm enclosure with 150x40 mm aperture compared to calculated SE and SM. 13. Effect of loss term zeta on calculated SE. 14. Measured SE with various sized blocks of RAM in enclosure. 15. Measured SE with two different circuit boards in enclosure. 16. Measured and calculated SE at centre of 300 x 120 x 300mm enclosure with 88mm diameter circular aperture