Green synthesized cobalt nanoparticles from Trianthema portulacastrum L. as a novel antimicrobials and antioxidants.

Trianthema portulacastrum is a dietary and medicinal plant that has gained substantial importance due to its pharmacological properties. This plant was used for its various healing properties since the ancient period in ayurvedic system of medicine. The green synthesis technique is an eco-friendly as well as cost effective technique which can produce more biocompatible nanoparticles when compared with those fabricated by physio-chemical methods. Therefore, nanoparticles produced by green synthesis are credible alternatives to those which are produced by conventional synthesis techniques. This research mainly aims to produce nanoparticles with the methanolic leaf extract of T. portulacastrum. The optimized nanoparticles were further analyzed for anti-fungal, anti-bacterial and antioxidant properties. Disk diffusion assay was used for the determination of the antimicrobial property and on the other hand, DPPH radical scavenging assay as well as hydrogen peroxide scavenging activity proved the antioxidant property of the formulation. The study revealed that Escherichia coli (gram negative strain) shows greater zone of inhibition when compared with Bacillus subtilis (gram positive bacteria). The nanoparticles have also been reported to show significant anti-fungal activity against the strains of Aspergillus niger and Fusarium oxysporum which proves its desirability for its further use against both bacterial as well as fungal infections. The novel formulation can be explored dually as antimicrobial and antioxidant agent.

A comparative assessment of antibacterial properties of neem oil coated sutures: An in vitro study.

Background: When it comes to surgical site infection (SSI), it has been shown that two-thirds of wound infections starts around the incision line and the number is even greater in the presence of sutures. Therefore, a number of compounds have been used to coat the suture materials which tend to decrease the SSI some of which include ciprofloxacin, Aloe vera, and chlorhexidine. Objective: The objective of this study was to assess the antibacterial properties of neem oil-coated sutures in anaerobic culture media when compared to triclosan-coated sutures and uncoated sutures. Materials and Methods: The phosphate-buffered saline solution containing the plaque samples of the patients was transferred evenly onto the sterile agar media. Equal segments of 100% neem oil coated (Group 1), 50% neem oil coated (Group 2), triclosan-coated (Group 3), and uncoated (Group 4) sutures were placed on the agar plate. These were then incubated at 37°C for 24 h. The inhibition zone was calculated in mm by measuring of the zone of inhibition (ZOI) in terms of length, breadth, and area. Results: The results were calculated following the incubation. The mean length for 100% neem oil-coated suture was 2.61 mm ± 0.2 and for 50% neem oil-coated suture was 2.49 mm ± 0.24. The mean breadth for 100% neem oil-coated suture was 1.5 mm ± 0.41 and for 50% neem oil-coated suture the mean was 0.95 mm ± 0.58. The mean area for 100% neem oil-coated suture was 77 mm ± 32.9 and for 50% neem oil-coated suture was 16.8 mm ± 11.14. Triclosan and uncoated sutures did not show any ZOI. Conclusion: The 100% neem oil-coated sutures had the largest length, breadth, and area of ZOI in the anaerobic culture media, followed by 50% neem oil-coated sutures. Triclosan-coated and uncoated sutures did not show any ZOI. Therefore, neem oil-coated suture can be used in the overall healing and prevention of postoperative discomfort after oral surgical procedures.

Protective face mask: an effective weapon against SARS-CoV-2 with controlled environmental pollution.

Masks are face coverings that give protection from infectious agents, airborne pathogens, bacteria, viruses, surgical fog, dust, and other chemical hazards by acting as a barrier between the wearer and the environment. In the COVID-19 pandemic, this major personal protective equipment's became essential part of our daily life. The aim of this review is to analyze and discuss the different types of masks with their pros and cons, manufacturing procedures, evaluation criteria, and application with some of the sterilization process for reuse and smart mask. The review used a thorough examination of the literature to analyze the preventive effects of surgical, N95, smart mask, and potential environmental damage from those masks. Several studies and evidence were also examined to understand the efficiency of different mask on different environment. N95 respirators are capable of filtering out non-oil-based 95% air-born particles, and surgical masks act as a protective barrier between the wearer and the environment. The application of spoon bond and melt blown techniques in the fabrication process of those masks improves their protective nature and makes them lightweight and comfortable. But the high demand and low supply forced users to reuse and extend their use after sterilizations, even though those masks are recommended to be used once. Universal masking in the SARS-COV-2 pandemic increased the chance of environmental pollution, so the application of smart masks became essential because of their high protection power and self-sterilizing and reusing capabilities.

Ecofriendly fabrication of cobalt nanoparticles using Azadirachta indica (neem) for effective inhibition of Candida-like fungal infection in medicated nano-coated textile.

This study involves the formulation of cobalt nanoparticles by means of ethanolic Azadirachta indica (neem) extract (CoNP@N). Later, the formulated buildup was incorporated into cotton fabric in order to mitigate antifungal infection. Optimization of the formulation was carried out by considering the effect of plant concentration, temperature, and revolutions per minute (rpm) used, through design of the experiment (DOE), response surface methodology (RSM), and ANOVA of the synthetic procedure. Hence, graph was potted with the aid of effecting parameters and the related factors (size of particle and zeta potential). Further characterization of nanoparticles was performed through scanning electron microscopy (SEM) and transmission electron microscopy (TEM). Attenuated total reflection-Fourier transform infrared (ATR-FTIR) was considered for the detection of functional groups. The structural property of CoNP@N was calculated with the aid of powder X-ray diffraction (PXRD). The surface property was measured with the use of a surface area analyzer (SAA). The values of Inhibition concentration (IC50) and zone of inhibition (ZOI), were calculated, so as to determine the antifungal property against both the strains (Candida albicans, MTCC 227and Aspergillus niger, MTCC 8652). The further nano-coated cloth was subjected to a durability test, and hence the cloth was washed (through the purpose of time 0; 10; 25; and 50 washing cycles), and then its anti-fungal operation to a couple of strains was retained. Primarily, 51 µg/ml of cobalt nanoparticles incorporated on the cloth was retained but after 50 washing cycles in 500 ml of purified water, the cloth showed more efficiency contrary to C. albicans than towards A. niger.

Comprehending the dynamism of B chromosomes in their journey towards becoming unselfish.

Investigated for more than a century now, B chromosomes (Bs) research has come a long way from Bs being considered parasitic or neutral to becoming unselfish and bringing benefits to their hosts. B chromosomes exist as accessory chromosomes along with the standard A chromosomes (As) across eukaryotic taxa. Represented singly or in multiple copies, B chromosomes are largely heterochromatic but also contain euchromatic and organellar segments. Although B chromosomes are derived entities, they follow their species-specific evolutionary pattern. B chromosomes fail to pair with the standard chromosomes during meiosis and vary in their number, size, composition and structure across taxa and ensure their successful transmission through non-mendelian mechanisms like mitotic, pre-meiotic, meiotic or post-meiotic drives, unique non-disjunction, self-pairing or even imparting benefits to the host when they lack drive. B chromosomes have been associated with cellular processes like sex determination, pathogenicity, resistance to pathogens, phenotypic effects, and differential gene expression. With the advancements in B-omics research, novel insights have been gleaned on their functions, some of which have been associated with the regulation of gene expression of A chromosomes through increased expression of miRNAs or differential expression of transposable elements located on them. The next-generation sequencing and emerging technologies will further likely unravel the cellular, molecular and functional behaviour of these enigmatic entities. Amidst the extensive fluidity shown by B chromosomes in their structural and functional attributes, we perceive that the existence and survival of B chromosomes in the populations most likely seem to be a trade-off between the drive efficiency and adaptive significance versus their adverse effects on reproduction.

Green synthesis and characterization of copper nanoparticles by Tinospora cardifolia to produce nature-friendly copper nano-coated fabric and their antimicrobial evaluation.

Metallic nanoparticles such as gold, zinc, copper possess anti-microbial activity. These nanoparticles have a small size which provides a large surface area for the interaction with microbes and there are various mechanisms through which copper nanoparticles (CuNPs) act. The demand of these nanoparticles are increasing in the textile industry as they decrease the catalytic degradation property of various dyes as well as being helpful in the treatment of various topical infections. Our aim is to formulate the copper nanoparticle which is capped with Tinospora cardifolia and incorporate these nanoparticles on fabric and to study the anti-microbial activity of these nanoparticles formulated along with their study on the fabric. Formulated nanoparticles were tested for various characterizations such as SEM (Scanning Electron Microscope), TEM (Transmission Electron Microscope) for the microscopical study. The interaction of excipients with the drug was studied using FTIR, XRD, and Raman and the anti-microbial study was studied to determine the activity of the nanoparticles on gram-positive and gram-negative bacteria. Least particle size of 63.3 nm was used as optimized formulation (CuNPs-5) and further used for testing. Laundry durability, ZOI study and %efficacy of copper nanoparticles along with nanoparticle-coated fabric was tested and it was found that fabric was more efficacious for gram-positive bacteria as ZOI for gram positive and gram negative was 21.99 mm and 11 mm. The %efficacy of copper nanoparticle-coated fabric was 101% and 74% at the highest concentration for gram positive and gram negative bacteria respectively.