Research on mixed sample test for the rapid detection of rice stripe virus and southern rice black-streaked dwarf virus in vector.

Rice is a staple food in East and Southeast Asian countries, rice disease surveillance and warning is particularly important. Rice stripe disease and southern rice black-streaked dwarf virus disease are the insect-borne viral diseases that easily break out and quickly become epidemic. It is important to improve the efficiency of the virus detection method.

Protease activity of NIa-Pro determines systemic pathogenicity of clover yellow vein virus.

Clover yellow vein virus (ClYVV), a potyvirus that infects various dicotyledonous plants, poses a significant threat to the cultivation of legumes. Although potyviral NIa-Pro was extensively studied in viral infection cycle and host antiviral responses, the contribution of NIa-Pro protease activity to virus systemic symptoms has not yet been reported. In this study, we developed infectious clones of a ClYVV isolated from Pisum sativum.

Comparative assessment of morphological, cytological, and photosynthetic characteristics of the induced octoploid and its tetraploid counterpart of Celosia argentea L.

Background: Celosia argentea is a widely recognized plant for its ornamental qualities and therapeutic uses in traditional medicine. As demand for such multipurpose plants grows, enhancing its phenotypic and physiological traits could further expand its commercial potential. Polyploidization, particularly through chemical treatments like oryzalin, offers a method to induce genetic variation and potentially improve desirable traits in plants.

Receiving financial support and its association with late-age depression: The mediating role of social engagement.

Objectives: Researchers have long been concerned with the association between family financial support and depression in older adults. However, it remains unclear whether social engagement influences the relationship between depression and financial support in later life. Therefore, this study aims to examine the relationship between receiving financial support from family and others and depression among Indian older adults and to also explore the mediating effect of social engagement on this relationship.

Improved Metabolic Stability and Silencing Efficacy of siRNAs with Phosphorothioate Linkage-Free, GalNAc-Conjugated Sense Strands Containing Morpholino-LNA Modifications.

To ensure specificity, loading of the sense strand of small interfering RNAs (siRNAs) into RISC must be inhibited. We show here that siRNAs with 5'- and 6'-morpholino LNA residues or 6'-OH-LNA at the 5' terminus of a fully phosphodiester sense strand resulted in metabolically stable siRNAs with a potency and a duration of action in mice that were greater than those of an siRNA in which the 5' terminus of the sense strand has two terminal phosphorothioate linkages and regular LNA.

Translation Initiation Factor-2S2 (eIF2S2) Contributes to Cervical Carcinogenesis by Inhibiting the TGF-β/SMAD4 Signaling Pathway.

The deregulation of protein translational machinery and the oncogenic role of several translation initiation factors have been extensively investigated. This study aimed to investigate the role of eukaryotic translation initiation factor 2S2 (eIF2S2, also known as eIF2β) in cervical carcinogenesis. Immunohistochemical analysis of human cervical carcinoma tissues revealed a stage-specific increase in eIF2S2 expression.

Exploration of metal-free 2D electrocatalysts toward the oxygen electroreduction.

The advancement of economical and readily available electrocatalysts for the oxygen reduction reaction (ORR) holds paramount importance in the advancement of fuel cells and metal-air batteries. Recently, 2D non-metallic materials have obtained substantial attention as viable alternatives for ORR catalysts due to their manifold advantages, encompassing low cost, ample availability, substantial surface-to-volume ratio, high conductivity, exceptional durability, and competitive activity. The augmented ORR performances observed in metal-free 2D materials typically arise from heteroatom doping, defects, or the formation of heterostructures.

Discerning the Structure-Photophysical Property Correlation in Zero-Dimensional Antimony(III)-Doped Indium(III) Halide Hybrids.

Zero-dimensional (0D) metal halide hybrids incorporating optically emissive Sb dopants have received huge research attention as a result of dopant-based visible emission for lighting and scintillation applications. Indeed, there have been a plethora of reports on Sb doping of indium halide (In-X)-based 0D hybrids that show strong dopant emission with varied emission wavelengths (λ) and photoluminescence quantum yields (PLQYs). However, discerning the structure-luminescence relation in these 0D-doped hybrids remains challenging because it necessitates exquisite synthetic control on the local metal (dopant) halide geometry/site asymmetry.

Recombinant H77C gpE1/gpE2 heterodimer elicits superior HCV cross-neutralisation than H77C gpE2 alone.

Background & Aims: An optimal HCV vaccine requires the induction of antibodies that neutralise the infectivity of many heterogenous viral isolates. In this study, we have focused on determining the optimal recombinant envelope glycoprotein component to elicit cross-neutralising antibodies against global HCV genotypes. We compared the immunoreactivity and antigenicity of the HCV genotype 1a strain H77C-derived envelope glycoprotein heterodimer gpE1/gpE2 with that of recombinant gpE2 alone.

Transgenic expression of artificial microRNA targeting soybean mosaic virus P1 gene confers virus resistance in plant.

RNA silencing is an innate immune mechanism of plants against invasion by viral pathogens. Artificial microRNA (amiRNA) can be engineered to specifically induce RNA silencing against viruses in transgenic plants and has great potential for disease control. Here, we describe the development and application of amiRNA-based technology to induce resistance to soybean mosaic virus (SMV), a plant virus with a positive-sense single-stranded RNA genome.

Education and non-communicable diseases in India: an exploration of gendered heterogeneous relationships.

Background: While the association between education and non-communicable diseases (NCDs) is well established, it remains unclear whether this association varies by gender. The aim of this study was to examine two critical research questions: whether the association of education and NCDs is conditioned by gender and, if so, what are the factors contributing to this?

Methods: Data from the Longitudinal Aging Study in India Wave 1 (2017-2018) was used for the empirical analysis. The study employs bivariate, binary logistic regression and Oaxaca decomposition analyses.

A study of scarless wound healing through programmed inflammation, proliferation and maturation using a redox balancing nanogel.

In the study, we have shown the efficacy of an indigenously developed redox balancing chitosan gel with impregnated citrate capped MnO nanoparticles (nanogel). Application of the nanogel on a wound of preclinical mice model shows role of various signaling molecules and growth factors, and involvement of reactive oxygen species (ROS) at every stage, namely hemostasis, inflammation, and proliferation leading to complete maturation for the scarless wound healing. While in vitro characterization of nanogel using SEM, EDAX, and optical spectroscopy reveals pH regulated redox buffering capacity, in vivo preclinical studies on Swiss albino involving IL-12, IFN-γ, and α-SMA signaling molecules and detailed histopathological investigation and angiogenesis on every stage elucidate role of redox buffering for the complete wound healing process.

Strategies to Modulate the Copper Oxidation State Toward Selective C Production in the Electrochemical CO Reduction Reaction.

The electrochemical reduction of CO to form value-added chemicals receives considerable attention in recent years. Copper (Cu) is recognized as the only element capable of electro-reducing CO into hydrocarbons with two or more carbon atoms (C), but the low product selectivity of the Cu-based catalyst remains a major technological challenge to overcome. Therefore, identification of the structural features of Cu-based catalysts is of great importance for the highly selective production of C products (ethylene, ethanol, n-propanol, etc.

Morpholino oligonucleotide-mediated exon skipping for DMD treatment: Past insights, present challenges and future perspectives.

Duchenne muscular dystrophy (DMD) is an X-linked genetic disease primarily affecting boys causing loss of the dystrophin protein, ultimately leading to muscle wastage and death by cardiac or respiratory failure. The genetic mutation involved can be overcome with antisense oligonucleotides which bind to a pre-mRNA and results in reading frame restoration by exon skipping. Phosphorodiamidate morpholino oligonucleotides (PMOs) are a class of antisense agents with a neutral backbone derived from RNA which can induce effective exon skipping.

Synthesis and Biophysical Studies of High-Affinity Morpholino Oligomers Containing G-Clamp Analogs.

Successful syntheses of chlorophosphoramidate morpholino monomers containing tricyclic cytosine analogs phenoxazine, G-clamp, and G-clamp were accomplished. These modified monomers were incorporated into 12-mer oligonucleotides using trityl-chemistry by an automated synthesizer. The resulting phosphorodiamidate morpholino oligomers, containing a single G-clamp, demonstrated notably higher affinity for complementary RNA and DNA compared to the unmodified oligomers under neutral and acidic conditions.

Evaluation of Resistance of Oilseed Rape Genotypes to Turnip Yellows Virus.

Turnip yellows virus (TuYV), is one of the most important pathogens of oilseed rape, which has caused enormous yield losses in all growing regions of the world in recent years. Therefore, there is a need for resistant varieties for sustainable crop protection. We have investigated the resistance of known varieties and newly developed advanced-breeding lines of oilseed rape to TuYV in greenhouse and field trials.

Strong Dopant-Dopant Electronic Coupling in Emissive Codoped Two Dimensional Metal Halide Hybrid.

Multimetallic halide hybrids are attractive for the fundamental understanding of interacting excitons. However, realizing halide hybrids that incorporate multiple heterometal centers has been synthetically challenging. This further limits access to gaining physical insight into the electronic coupling mechanism between the constituent metal halide units.

Repurposing pentamidine for cancer immunotherapy by targeting the PD1/PD-L1 immune checkpoint.

Immunotherapy has emerged as an effective therapeutic approach to several cancer types. The reinvigoration of tumor-infiltrating lymphocyte-mediated immune responses the blockade of immune checkpoint markers, such as program cell death-1 (PD-1) or its cognate ligand PD-L1, has been the basis for developing clinically effective anticancer therapies. We identified pentamidine, an FDA-approved antimicrobial agent, as a small-molecule antagonist of PD-L1.

Tunable near-infrared emission and three-photon absorption in lanthanide-doped double perovskite nanocrystals.

CsAgInCl double perovskite (DP) nanocrystals (NCs) are an emerging class of materials with promising application potential in photonics/optoelectronics owing to their nontoxicity, direct bandgap, and high thermal and moisture stability. These NCs are, however, rarely explored for nonlinear optical (NLO) applications. Herein, we present a comprehensive investigation of the photophysical and nonlinear optical properties of erbium- (Er) and ytterbium (Yb)-doped CsAgInCl nanocrystals (denoted as Er-DP and Yb-DP, respectively).

Self-transfecting GMO-PMO chimera targeting enable gene silencing and suppresses tumor growth in 4T1 allografts in mouse.

Phosphorodiamidate morpholino oligonucleotide (PMO)-based antisense reagents cannot enter cells without the help of a delivery technique, which limits their clinical applications. To overcome this problem, self-transfecting guanidinium-linked morpholino (GMO)-PMO or PMO-GMO chimeras have been explored as antisense agents. GMO facilitates cellular internalization and participates in Watson-Crick base pairing.

Erratum: Cooperative Gas Adsorption without a Phase Transition in Metal-Organic Frameworks [Phys. Rev. Lett. 121, 015701 (2018)].

This corrects the article DOI: 10.1103/PhysRevLett.121.