Research Notes : Correlation among seed yield, seed quality and nutritional traits in soybean

Introduction : In the present communication, the information obtained on correlations among 14 traits related to seed yield, seed quality and nu-trition in soybean germplasm has been discussed, The information on the nature of variation for these traits in the above material has been reported earlier (Rana et al., 1981). Materials and methods : The materials and methods were reported earlier by Rana et al. (1981)

Research Notes: Variation for seed yield, its quality and nutritional traits in soybeans

To bring about genetic improvement for any economic trait in economic plants, the foremost prerequisite is the presence of sufficient amount of genetic variability for the trait under improvement in the organism t o be improved. In the present investigation, an attempt has been made to get the information on nature and magnitude of variability for various seed quality traits along with seed yield traits in the soybean germplasm maintained at the Himachal Pradesh Agricultural University, Palampur. Materials and methods: The material for the present study consisted of 250 diverse genotypes of soybeans of both indigenous and exotic origin , and 5 standard checks

Molecular Dipolar Crystals as High Fidelity Quantum Memory for Hybrid Quantum Computing

We study collective excitations of rotational and spin states of an ensemble of polar molecules, which are prepared in a dipolar crystalline phase, as a candidate for a high fidelity quantum memory. While dipolar crystals are formed in the high density limit of cold clouds of polar molecules under 1D and 2D trapping conditions, the crystalline structure protects the molecular qubits from detrimental effects of short range collisions. We calculate the lifetime of the quantum memory by identifying the dominant decoherence mechanisms, and estimate their effects on gate operations, when a molecular ensemble qubit is transferred to a superconducting strip line cavity (circuit QED). In the case rotational excitations coupled by dipole-dipole interactions we identify phonons as the main limitation of the life time of qubits. We study specific setups and conditions, where the coupling to the phonon modes is minimized. Detailed results are presented for a 1D dipolar chain

The Need for Visits to Social and Vocational Programs for the Mentally Ill as Part of General Psychiatry Residency Training

Background. Comprehensive treatment planning for psychiatric illnesses should be based on a biopsychosocial model of treatment to address the acuity and chronicity of these disorders. To achieve this goal, knowledge about pharmacological, psychological, and social aspects of the treatment plan should be presented as an integral part of general psychiatry residency training. This survey study was conducted to examine how many programs provide training where residents have scheduled visits to social and vocational mental health service organizations in the community and to identify potential obstacles to including this rotation in general psychiatry residency training. Methods. A voluntary, anonymous survey was sent via SurveyMonkey® to the program directors of all general psychiatry residency programs in the United States. The survey consisted of five questions designed to assess if their programs had a rotation where residents visit social and vocational programs in the community designed for mentally ill patients to provide knowledge of the community mental health resources to their residents. Results. Of the 168 survey invitations issued, 73 (44%) responded. Fifty-six responders acknowledged that their residents were required to visit a community mental health organization, but their programs did not offer visits to community social and vocational programs. Seventeen program directors reported that their program did not provide this experience to their residents and indicated a desire to include such a rotation. Conclusions. Community mental health service organization visits should enhance knowledge of psychiatry residents about community mental health resources and indirectly promote better patient care. Information obtained from this survey should create discussion to work toward better psychiatric resident training

Transdermal Delivery of Cytochrome C—A 12.4kDa Protein—Across Intact Skin by Constant-Current Iontophoresis

Purpose: To demonstrate the transdermal iontophoretic delivery of a small (12.4kDa) protein across intact skin. Materials and Methods: The iontophoretic transport of Cytochrome c (Cyt c) across porcine ear skin in vitro was investigated and quantified by HPLC. The effect of protein concentration (0.35 and 0.7mM), current density (0.15, 0.3 or 0.5mA.cm−2 applied for 8h) and competing ions was evaluated. Co-iontophoresis of acetaminophen was employed to quantify the respective contributions of electromigration (EM) and electroosmosis (EO). Results: The data confirmed the transdermal iontophoretic delivery of intact Cyt c. Electromigration was the principal transport mechanism, accounting for ∼90% of delivery; correlation between EM flux and electrophoretic mobility was consistent with earlier results using small molecules. Modest EO inhibition was observed at 0.5mA.cm−2. Cumulative permeation at 0.3 and 0.5mA.cm−2 was significantly greater than that at 0.15mA.cm−2; fluxes using 0.35 and 0.7mM Cyt c in the absence of competing ions (J tot  = 182.8 ± 56.8 and 265.2 ± 149.1μg.cm−2.h−1, respectively) were statistically equivalent. Formulation in PBS (pH8.2) confirmed the impact of competing charge carriers; inclusion of ∼170mM Na+ resulted in a 3.9-fold decrease in total flux. Conclusions: Significant amounts (∼0.9mg.cm−2 over 8h) of Cyt c were delivered non-invasively across intact skin by transdermal electrotranspor

Fractoluminescence characterization of the energy dissipated during fast fracture of glass

Fractoluminescence experiments are performed on two kinds of silicate glasses. All the light spectra collected during dynamic fracture reveal a black body radiator behaviour, which is interpreted as a crack velocity-dependent temperature rise close to the crack tip. Crack velocities are estimated to be of the order of 1300 m.s$^{-1}$ and fracture process zones are shown to extend over a few nanometers.Comment: Accepted for publication in Europhysics Letters; 5 pages; 4 figure

Retaining Expression on De-identified Faces

© Springer International Publishing AG 2017The extensive use of video surveillance along with advances in face recognition has ignited concerns about the privacy of the people identifiable in the recorded documents. A face de-identification algorithm, named k-Same, has been proposed by prior research and guarantees to thwart face recognition software. However, like many previous attempts in face de-identification, kSame fails to preserve the utility such as gender and expression of the original data. To overcome this, a new algorithm is proposed here to preserve data utility as well as protect privacy. In terms of utility preservation, this new algorithm is capable of preserving not only the category of the facial expression (e.g., happy or sad) but also the intensity of the expression. This new algorithm for face de-identification possesses a great potential especially with real-world images and videos as each facial expression in real life is a continuous motion consisting of images of the same expression with various degrees of intensity.Peer reviewe

A NWB-based dataset and processing pipeline of human single-neuron activity during a declarative memory task

A challenge for data sharing in systems neuroscience is the multitude of different data formats used. Neurodata Without Borders: Neurophysiology 2.0 (NWB:N) has emerged as a standardized data format for the storage of cellular-level data together with meta-data, stimulus information, and behavior. A key next step to facilitate NWB:N adoption is to provide easy to use processing pipelines to import/export data from/to NWB:N. Here, we present a NWB-formatted dataset of 1863 single neurons recorded from the medial temporal lobes of 59 human subjects undergoing intracranial monitoring while they performed a recognition memory task. We provide code to analyze and export/import stimuli, behavior, and electrophysiological recordings to/from NWB in both MATLAB and Python. The data files are NWB:N compliant, which affords interoperability between programming languages and operating systems. This combined data and code release is a case study for how to utilize NWB:N for human single-neuron recordings and enables easy re-use of this hard-to-obtain data for both teaching and research on the mechanisms of human memory

Adsorption of Amorphous Silica Nanoparticles onto Hydroxyapatite Surfaces Differentially Alters Surfaces Properties and Adhesion of Human Osteoblast Cells.

Silicon (Si) is suggested to be an important/essential nutrient for bone and connective tissue health. Silicon-substituted hydroxyapatite (Si-HA) has silicate ions incorporated into its lattice structure and was developed to improve attachment to bone and increase new bone formation. Here we investigated the direct adsorption of silicate species onto an HA coated surface as a cost effective method of incorporating silicon on to HA surfaces for improved implant osseointegration, and determined changes in surface characteristics and osteoblast cell adhesion. Plasma-sprayed HA-coated stainless steel discs were incubated in silica dispersions of different concentrations (0-42 mM Si), at neutral pH for 12 h. Adsorbed Si was confirmed by XPS analysis and quantified by ICP-OES analysis following release from the HA surface. Changes in surface characteristics were determined by AFM and measurement of surface wettability. Osteoblast cell adhesion was determined by vinculin plaque staining. Maximum Si adsorption to the HA coated disc occurred after incubation in the 6 mM silica dispersion and decreased progressively with higher silica concentrations, while no adsorption was observed with dispersions below 6 mM Si. Comparison of the Si dispersions that produced the highest and lowest Si adsorption to the HA surface, by TEM-based analysis, revealed an abundance of small amorphous nanosilica species (NSP) of ~1.5 nm in diameter in the 6 mM Si dispersion, with much fewer and larger NSP in the 42 mM Si dispersions. 29Si-NMR confirmed that the NSPs in the 6 mM silica dispersion were polymeric and similar in composition to the larger NSPs in the 42 mM Si dispersion, suggesting that the latter were aggregates of the former. Amorphous NSP adsorbed from the 6 mM dispersion on to a HA-coated disc surface increased the surface's water contact angle by 53°, whereas that adsorbed from the 42 mM dispersion decreased the contact angle by 18°, indicating increased and decreased hydrophobicity, respectively. AFM showed an increase in surface roughness of the 6 mM Si treated surface, which correlated well with an increase in number of vinculin plaques. These findings suggest that NSP of the right size (relative to charge) adsorb readily to the HA surface, changing the surface characteristics and, thus, improving osteoblast cell adhesion. This treatment provides a simple way to modify plasma-coated HA surfaces that may enable improved osseointegration of bone implants.The authors acknowledge the National Institute of Health Research (NIHR) and the Medical Research Council, grant number MC_US_A090_0008/Unit Programme number U1059, www. mrc.ac.uk, to RJ; Engineering and Physical Sciences Research Council (UK), grant number EP/ F019823/1 (https://www.epsrc.ac.uk) to PK, DJM; Engineering and Physical Sciences Research Council (UK), grant number EP/K023853/1 (https://www.epsrc.ac.uk) "Leeds EPSRC Nanoscience and Nanotechnology Research Equipment Facility (LENNF)" to APB and PK. Orthopaedic Research UK Grant "Drug Delivery of Silicon from the Furlong HA-C Hip" (www.oruk.org) to PK, RAB. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.This is the final version of the article. It first appeared from PLOS via http://dx.doi.org/10.1371/journal.pone.014478

Quantum Simulations of Extended Hubbard Models with Dipolar Crystals

In this paper we study the realization of lattice models in mixtures of atomic and dipolar molecular quantum gases. We consider a situation where polar molecules form a self-assembled dipolar lattice, in which atoms or molecules of a second species can move and scatter. We describe the system dynamics in a master equation approach in the Brownian motion limit of slow particles and fast phonons, which we find appropriate for our system. In a wide regime of parameters, the reduced dynamics of the particles leads to physical realizations of extended Hubbard models with tuneable long-range interactions mediated by crystal phonons. This extends the notion of quantum simulation of strongly correlated systems with cold atoms and molecules to include phonon-dynamics, where all coupling parameters can be controlled by external fields.Comment: 44 pages, 14 figure