Photocatalytic C-C Bond Azidation and Cyanation of Acyclic Ketones via a Pro-aromatic Intermediate.

Herein, we report a formal C-C bond azidation and cyanation of unactivated aliphatic ketones using commercially available tosyl azide and cyanide, respectively. A visible-light-mediated organophotocatalyst enables radical azidation and cyanation of ketone-derived pro-aromatic dihydroquinazolinones (under mostly redox-neutral conditions) as supported by preliminary mechanistic studies. These metal-free and scalable protocols can be used to synthesize tertiary, secondary, and primary alkyl azides and nitriles with good functional group tolerance and postsynthetic diversification of the azide group, including bioconjugation.

Transition metal phosphide-based oxygen electrocatalysts for aqueous zinc-air batteries.

Electrically rechargeable zinc-air batteries (ZABs) are emerging as promising energy storage devices in the post-lithium era, leveraging the oxygen reduction reaction (ORR) and the oxygen evolution reaction (OER) at the air cathodes. Efficient bifunctional oxygen electrocatalysts, capable of catalyzing both the ORR and OER, are essential for the operation of rechargeable ZABs. Traditional Pt- and RuO/IrO-based catalysts are not ideal, as they lack sufficient bifunctional ORR and OER activity, exhibit limited long-term durability, require high overpotentials and are expensive.

Equipping residential aged care facilities for acute respiratory illness: The Western Sydney experience of improving outbreak management.

Objectives: Acute respiratory illnesses have a disproportionate impact on older people, and especially those living in residential aged care facilities where transmission risks are heightened. Additionally, staff in these facilities have been working under challenging conditions, often ill-equipped in terms of both training and resources to successfully manage the outbreaks of these illnesses. This paper examines the actions of an Australian public health unit to improve influenza outbreak management in residential aged care facilities and critiques the outcomes through a contemporary lens.

Microplastics can alter structural configurations of human non-canonical G-quadruplex DNA.

Microplastics (MP) with a diameter of less than 150 μm can enter the lymph and bloodstream systems, induce cellular toxicity and damage DNA. G-quadruplexes (GQs) are tetraplex DNA secondary structures found in the human genomes that play important roles in replication, transcription and genomic integrity. Comprehending the biological and molecular processes underlying the activities of MPs could aid in estimating potential hazards to humans.

Degradable Theranostic Polyurethane for Macrophage-Targeted Antileishmanial Drug Delivery.

The present investigation aims to develop a reactive oxygen species (ROS) and esterase-responsive biodegradable mannosylated polyurethane to effectively deliver the encapsulated antileishmanial drug amphotericin B (AmB) selectively to infected macrophage cells. Owing to suitable amphiphilic balance, the as-synthesized glycosylated polyurethane () with aryl boronic ester-based diol () moiety as ROS-trigger, water-soluble mannose pendants, and fluorescent 4,4-difluoro-4-bora-3a,4a-diaza--indacene (BODIPY) chain ends for bioimaging formed nanoaggregates in an aqueous medium as confirmed by H NMR spectroscopy, dynamic light scattering (DLS), field emission scanning electron microscopy (FESEM), transmission electron microscopy (TEM), and critical aggregation concentration (CAC) measurements. Aided by two endogenous stimuli present in phagolysosome, ROS and esterase, AmB-encapsulated polymeric nanoaggregates as drug delivery vehicles achieved an efficient reduction of both and intracellular amastigote burden compared to the free AmB.

Group 8 Organometallic Photochromic Compounds: Strategies and Applications.

Stimuli-responsive photochromic units have emerged as one of the key components in the development of multi-responsive switches, optoelectronics, biomedical sciences and many more. The photoswitchability of such compounds depends greatly on the molecular structure, where association of metallic species is found to produce fascinating results. This review is a comprehensive report of all such photoswitchable metal-bounded molecules with group 8 metals within a span of last six years (2018-2024).

Facets of click-mediated triazoles in decorating amino acids and peptides.

Decorating biomolecular building blocks, such as amino acids, to afford desired and tuneable photophysical/biophysical properties would allow chemical biologists to use them for several biotechnological and biosensing applications. While many synthetic methodologies have been explored in this direction, advantages provided by click-derived triazole moieties are second to none. However, since their discovery, click-mediated triazoles have been majorly utilised as linkers for conjugating biomolecules, creating materials with novel properties, such as polymers or drug conjugates.

Nickel Catalyzed Aryl-Aryl Bridging C-N Bond Activation of 2-Pyridylpyridones and 6-Purinylpyridones.

A Ni-catalyzed C-N bond activation of 2-pyridylpyridone and 1-(9-alkyl 9-purin-6-yl)pyridin-2(1)-one and coupling with arylboronic acid have been achieved. A unique feature of this reaction is the strategic activation of the bridging C-N bond and replacement of the pyridone unit with aryl groups using nickel catalyzed Suzuki-Miyaura coupling. This provides an exciting new tool to build C-C bonds in the place of pyridones.

Dual stimuli-responsive biotinylated polymer-drug conjugate for dual drug delivery.

Stimuli-responsive nanoscale polymer-drug conjugates are one of the most promising alternatives in the realm of advanced therapeutics, rendering several characteristics such as spatio-temporal control over drug release, reduced off-target toxicity, enhanced bioavailability, and longer blood circulation time of the drug. Fostered by the aforementioned conceptualization, our quest to develop an ideal polymer-drug conjugate has originated the present investigation of developing a reactive oxygen species (ROS) and esterase-responsive self-assembled polymer-drug (chlorambucil, CBL) conjugate with biotin pendants (DP2) for cancer cell targeting, surrogating another antineoplastic drug, doxorubicin (DOX) physical encapsulation (DP2@DOX). The ROS and esterase trigger not only released the covalently stitched CBL but also resulted in DOX release by dismantling the amphiphilic balance of the nanoaggregates.

Unraveling the hydration dynamics of ACCK with ATP: From liquid to droplet to amyloid fibril.

In order to achieve a comprehensive understanding of protein aggregation processes, an exploration of solvation dynamics, a key yet intricate component of biological phenomena, is mandatory. In the present study, we used Fourier transform infrared spectroscopy and terahertz spectroscopy complemented by atomic force microscopy and kinetic experiments utilizing thioflavin T fluorescence to elucidate the changes in solvation dynamics during liquid-liquid phase separation and subsequent amyloid fibril formation, the latter representing a transition from liquid to solid phase separation. These processes are pivotal in the pathology of neurodegenerative disorders such as Alzheimer's and Parkinson's diseases.

Simultaneous removal of malachite green and lead from water by consortium dry-biomasses of Bacillus licheniformis AG3 and Bacillus cereus M.

Synthetic textile dye malachite green (MG) and heavy metals present in industrial wastewater are hazardous to the ecosystem. Bioremediation of dyes and heavy metals using dry-biomasses has advantages over chemical methods. This study screened an acclimatized, heavy metal-resistant, and dye-degrading Gram positive Bacillus licheniformis AG3 strain from the textile wastewater near Kolkata, West Bengal.

Cucurbit Leaf Crumple Virus Is Seed Transmitted in Yellow Squash ().

The traditional understanding of begomovirus transmission exclusively through the whitefly (Gennadius) has shifted with findings of seed transmission in some begomoviruses over the last decade. We investigated the seed transmissibility of cucurbit leaf crumple virus (CuLCrV), a bipartite begomovirus that has recently emerged as a severe constraint for yellow squash ( L.) production in the southeastern United States.

Controlled Photooxidation via Singlet Oxygen Generation by Triplet Harvesting in a Heavy Atom Free Pure Organic Dithienylethene-Naphthalene Diimide.

Noninvasive control over the reversible generation of singlet oxygen (O) has found the enormous practical implications in the field of biomedical science. However, metal-free pure organic emitters, connected with a photoswitch, capable of generating "on-demand" O via triplet harvesting remain exceedingly rare; therefore, the utilization of these organic materials for the reversible control of singlet oxygen production remains at its infancy. Herein, an ambient triplet mediated emission in quinoline-dithienylethene (DTE)-core-substituted naphthalene diimide (cNDI) derivative is unveiled via delayed fluorescence.

Tailoring of ALT Flap for Optimizing Donor Site Morbidity.

Wide and irregular-shaped defects at the lower trunk region are not uncommon following wide local excision of tumors. Pedicled anterolateral thigh (ALT) perforator flap has been the workhorse for these types of defects. But, in most of the cases flap donor sites cannot be closed primarily due to wide and irregular-shaped flap requirement.

Exposure to polyethylene microplastics exacerbate inflammatory bowel disease tightly associated with intestinal gut microflora.

Polyethylene microplastics (PE MPs) have sparked widespread concern about their possible health implications because of their abundance, pervasiveness in the environment and in our daily life. Multiple investigations have shown that a high dosage of PE MPs may adversely impact gastrointestinal health. In tandem with the rising prevalence of Inflammatory bowel disease (IBD) in recent decades, global plastic manufacturing has risen to more than 300 million tons per year, resulting in a build-up of plastic by-products such as PE MPs in our surroundings.

Larvicidal activity of β-Citral: An In-vitro and In-silico study to understand its potential against mosquito.

Tropical and subtropical regions face millions of deaths from mosquito-borne illnesses yearly. Insecticides prevent transmission but pose health risks like dermatitis and allergies. The primary objective was to mitigate the recurring dependence on synthetic insecticides, thereby curbing the development of mosquito resistance.

Mechanistic Insights into the Stabilization of In Situ Formed γ-NiOOH Species on NiNb Nanoglass for Effective Urea Electro-Oxidation.

The formation of NiOOH on the catalyst surface is widely considered to be the active species in electrochemical urea oxidation reactions (UOR). Though in situ-formed NiOOH species are reported to be more active than the synthesized ones, the mechanistic study of the actual active species remains a daunting task due to the possibility of different phases and instability of surface-formed NiOOH. Herein, mechanistic UOR aspects of electrochemically activated metallic NiNb Nanoglass showing stability toward the γ-NiOOH phase are reported, probed via in situ Raman spectroscopy, supported by electron microscopy analysis and X-ray photoelectron spectroscopy in contrast with the β-NiOOH formation favored on Ni foil.

The governance factor: Mitigating carbon emissions through FDI and financial development in emerging Asian economies.

This study investigates the influence of foreign direct investment (FDI), financial development (FD), and governance on carbon emissions in 15 emerging Asian economies (EAEs) from 2000 to 2021. It aims to assess how successful these nations have been in upholding ecological sustainability while promoting themselves as alternative manufacturing destinations to China and fostering domestic manufacturing through significant financial development. It creates a composite governance quality (GQ) measure and three subdimensions-EcoGov, InstGov, and PolGov-to assess its precise role in influencing the FDI-carbon dioxide (CO) and FD-CO nexuses.

Characterization of Caulimovirid-like Sequences from Upland Cotton ( L.) Exhibiting Terminal Abortion in Georgia, USA.

In this study, we investigated the potential involvement of endogenous viral elements (EVEs) in the development of apical tissue necrosis, resulting in the terminal abortion of upland cotton ( L.) in Georgia. The high-throughput sequence analysis of symptomatic and asymptomatic plant tissue samples revealed near-complete EVE-Georgia (EVE-GA) sequences closely related to caulimoviruses.

Microneedle assisted delivery of the cloned components of cucurbit leaf crumple virus in yellow squash (Cucurbita pepo).

Cucurbit leaf crumple virus (CuLCrV) is among the prominent viruses infecting cucurbits in the USA. Attainable procedures of virus inoculation to crops are prerequisite for screening of resistance against the virus. Because mechanical (non-vector-mediated) infection by cucurbit leaf crumple virus (CuLCrV) is inefficient in economically important crops, screening for CuLCrV resistance is currently laborious and time-consuming using transmission by viruliferous whiteflies.

Insights into the Binding Interactions between Microplastics and Human α-Synuclein Protein by Multispectroscopic Investigations and Amyloidogenic Oligomer Formation.

Aggregation of human α-synuclein protein is regarded to be a key stage in the etiology of Parkinson's disease and numerous other neurodegenerative illnesses. Microplastics pollution can be a potential agent to promote various neurodegenerative disorders. In this study, we have employed various multispectroscopic analytical methods to investigate the binding interactions between polyethylene (PE-MPs), polyvinyl chloride (PVC-MPs), polystyrene (PS-MPs) microplastics, and human α-synuclein protein.

Investigating the preferential interaction between imatinib mesylate and VEGF G-quadruplex DNA as therapeutic strategies for cancer treatment: Biophysical and molecular modelling approaches.

G-Quadruplex DNA (GQ-DNA) is one of the most important non-canonical nucleic acid structures. GQ-DNA forming sequences are present in different crucial genomic regions and are abundant in promoter regions of several oncogenes. Therefore, GQ-DNA is an important target for anticancer drugs and hence binding interactions between GQ-DNA and small molecule ligands are of great importance.