542 research outputs found
Microfabricated high-finesse optical cavity with open access and small volume
We present a microfabricated optical cavity, which combines a very small mode volume with high finesse. In contrast to other micro-resonators, such as microspheres, the structure we have built gives atoms and molecules direct access to the high-intensity part of the field mode, enabling them to interact strongly with photons in the cavity for the purposes of detection and quantum-coherent manipulation. Light couples directly in and out of the resonator through an optical fiber, avoiding the need for sensitive coupling optics. This renders the cavity particularly attractive as a component of a lab-on-a-chip, and as a node in a quantum network
Effects of Current on Arc Fabrication of Cu Nanoparticles
Arc-fabricated copper nanoparticles (Cu Nps) size, morphology and the crystalline structure, as well as the yields of Nps appear sensitive to the applied currents (50–160 A) in distilled water. The results indicate that the sizes of Cu Nps are directly proportional to the currents employed. At 50 A, TEM, XRD, and SEM analyses show fabrication of relatively purest, the most dispersed, face-centered cubic (fcc) brown Cu Nps with rather smallest average size of 20 nm. At the same current, the TGA-DTA analysis reveals neither weight loss nor gain, indicating thermal stability of the fabricated Cu Nps
An antibody raised against a pathogenic serpin variant induces mutant-like behaviour in the wild-type protein.
A monoclonal antibody (mAb) that binds to a transient intermediate may act as a catalyst for the corresponding reaction; here we show this principle can extend on a macro-molecular scale to the induction of mutant-like oligomerisation in a wild-type protein. Using the common, pathogenic Glu342Lys (Z) variant of α1-antitrypsin as antigen - whose native state is susceptible to the formation of a proto-oligomeric intermediate - we have produced a mAb (5E3) that increases the rate of oligomerisation of the wild-type (M) variant. Employing ELISA, gel shift, thermal stability and FRET time-course experiments, we show that mAb5E3 does not bind to the native state of α1-antitrypsin, but recognises a cryptic epitope in the vicinity of the post-helix A loop and strand 4C that is revealed upon transition to the polymerisation intermediate, and which persists in the ensuing oligomer. This epitope is not shared by loop-inserted monomeric conformations. We show the increased amenity to polymerisation by either the pathogenic Glu342Lys mutation or the binding of mAb5E3 occurs without affecting energetic barrier to polymerisation. As mAb5E3 also does not alter the relative stability of the monomer to intermediate, it acts in a manner similar to the Glu342Lys mutation, by facilitating the conformational interchange between these two states
Enhancing Coronal Adaptation of Root Canal Fillings with a Modified Single-Cone Obturation Technique: Two Case Reports
The single-cone technique, also known as the hydraulic condensation technique, is widely employed in endodontics. However, the aforementioned method is presented with certain limitations; specifically concerning the coronal seal and the adaptation of the coronal third of a master gutta-percha (GP) with a round cross-section to the coronal dentinal walls of root canals with semi-round or oval cross-sections. Through two case reports, the current article introduces the coronal vertical condensation (CVC) technique; aiming to enhance GP adaptation to canal walls in similar scenarios. In fact, the coronal vertical condensation technique amalgamates the different aspects of warm vertical condensation and single-cone techniques. In CVC, following the placement of the master GP cone, an electrical heat carrier is inserted immediately a few millimeters apical from the canal orifice to remove the coronal portion of the master GP cone. Subsequently, a hand plugger is used to condense GP in the vertical dimension, and the coronal space is backfilled using melted GP. The implementation of CVC technique has demonstrated an improved coronal adaptation of GP with canal walls. The stated technique seems beneficial; especially in the obturation of severely curved canals or root canals with a final preparation shape of variable taper
Laser beam steering device
Agile beam steering is a critical requirement for airborne and space based LIDAR and optical communication systems. Design and test results are presented for a compact beam steering device with low inertia which functions by dithering two complementary (positive and negative) binary optic microlens arrays relative to each other in directions orthogonal to the direction of light propagation. The miniaturized system has been demonstrated at scan frequencies as high as 300 Hz, generating a 13 x 13 spot array with a total field of view of 2.4 degrees. The design is readily extendable to a 9.5 degree field of view and a 52 x 52 scan pattern. The system is compact - less than 2 in. on a side. Further size reductions are anticipated
Onomatopoeia, gestures, actions and words: How do caregivers use multimodal cues to communicate with their children
Most research on how children learn the mapping between
words and world has assumed that language is arbitrary, and
has investigated language learning in contexts in which objects
referred to are present in the environment. Here, we report
analyses of a semi-naturalistic corpus of caregivers talking to
their 2-3 year-old. We focus on caregivers’ use of non-arbitrary
cues across different expressive channels: both iconic
(onomatopoeia and representational gestures) and indexical
(points and actions with objects). We ask if these cues are used
differently when talking about objects known or unknown to
the child, and when the referred objects are present or absent.
We hypothesize that caregivers would use these cues more
often with objects novel to the child. Moreover, they would use
the iconic cues especially when objects are absent because
iconic cues bring to the mind’s eye properties of referents. We
find that cue distribution differs: all cues except points are more
common for unknown objects indicating their potential role in
learning; onomatopoeia and representational gestures are more
common for displaced contexts whereas indexical cues are
more common when objects are present. Thus, caregivers
provide multimodal non-arbitrary cues to support children’s
vocabulary learning and iconicity – specifically – can support
linking mental representations for objects and labels
Onomatopoeia, gestures, actions and words: how do caregivers use multimodal cues in their communication to children?
Most research on how children learn the mapping between words and world has assumed that language is arbitrary, and has investigated language learning in contexts in which objects referred to are present in the environment. Here, we report analyses of a semi-naturalistic corpus of caregivers talking to their 2-3 year-old. We focus on caregivers’ use of non-arbitrary cues across different expressive channels: both iconic (onomatopoeia and representational gestures) and indexical (points and actions with objects). We ask if these cues are used differently when talking about objects known or unknown to the child, and when the referred objects are present or absent. We hypothesize that caregivers would use these cues more often with objects novel to the child. Moreover, they would use the iconic cues especially when objects are absent because iconic cues bring to the mind’s eye properties of referents. We find that cue distribution differs: all cues except points are more common for unknown objects indicating their potential role in learning; onomatopoeia and representational gestures are more common for displaced contexts whereas indexical cues are more common when objects are present. Thus, caregivers provide multimodal non-arbitrary cues to support children’s vocabulary learning and iconicity – specifically – can support linking mental representations for objects and labels
Comparison of antibacterial activity of essential oils of Foeniculum vulgare Mill, Mentha arvensis and Mentha piperita against Streptococcus mutans
Background and aims: Tooth decay is one of the most common chronic diseases around
the world and this problem is the result of variety of different bacteria. Streptococcus
mutants is one of the most important bacteria which is related to this disease. Finding
new effective antibacterial agents is an important area in bioscience for fighting and
controlling bacterial infections. Essential oils are most important natural sources of
antibacterial agents, particularly against drug-resistant bacteria.
Methods: The aim of this study was to evaluate and compare the antibacterial activity of
three essential oils Mentha arvensis, Mentha piperita and Foeniculum vulgare Mill
against Streptococcus mutants. Disk diffusion method was carried out and the minimum
inhibitory concentration (MIC) and minimum bactericidal concentration (MBC) were
measured.
Results: The results showed that all three essential oils have antibacterial activity against
S. mutants. With a constant concentration of 100 µg/µl, the efficiency of Mentha piperita
and then Foeniculum vulgare Mill was higher than the efficiency of Mentha arvensis at
all 3 given time points (24, 48 and 72 hours). The most effective MIC and MBC were
related to Streptococcus mutants using Foeniculum vulgare essential oil which were
equal to 8.4 and 14.9 µg/ml, respectively. MIC and MBC for Mentha piperita essential
oil were measured 10.5 and 16.3 µg/ml, respectively.
Conclusion: The Essential oils used in present study with different components showed
antibacterial activity and therefore they can be used as new antibacterial substances
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Identification of Mycobacterium avium genes associated with resistance to host antimicrobial peptides
Antimicrobial peptides are an important component of the innate immune defense. Mycobacterium avium subsp hominissuis (M. avium) is an organism that establishes contact with the respiratory and gastrointestinal mucosa as a necessary step for infection. M. avium is resistant to high concentrations of polymyxin B, a surrogate for antimicrobial peptides. To determine gene-encoding proteins that are associated with this resistance, we screened a transposon library of M. avium strain 104 for susceptibility to polymyxin B. Ten susceptible mutants were identified and the inactivated genes sequenced. The greatest majority of the genes were related to cell wall synthesis and permeability. The mutants were then examined for their ability to enter macrophages and to survive macrophage killing. Three clones among the mutants had impaired uptake by macrophages compared to the wild-type strain, and all ten clones were attenuated in macrophages. The mutants were shown also to be susceptible to cathelicidin (LL-37), in contrast to the wild-type bacterium. All but one of the mutants were significantly attenuated in mice. In conclusion, this study indicated that the M. avium envelope is the primary defense against host antimicrobial peptides
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