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1.
Environ Res ; 262(Pt 1): 119814, 2024 Aug 17.
Artículo en Inglés | MEDLINE | ID: mdl-39155038

RESUMEN

This work demonstrates a thorough investigation into the synthesis and characterization of bismuth ferric oxide (BFO) photocatalyst for microwave-induced photodegradation of organic pollutants in greywater. Microwave (MW) irradiation was executed to enhance the generation of reactive oxygen species, contributing to the catalytic effectiveness of the synthesized photocatalyst. Through an efficient ultrasound-assisted synthesis process, perovskite BFO nanoparticles with a rhombohedral crystal structure and a crystallite size of around 15 nm were successfully manufactured. Comprehensive characterization employing various analytical techniques including X-ray diffraction (XRD), Energy Dispersive X-ray Analysis (EDAX), Fourier Transform Infrared and Raman Spectroscopy, UV-Visible Diffuse Reflectance Spectroscopy (UVDRS), photoluminescence spectroscopy, Scanning Electron Microscopy (SEM), and Brunauer-Emmett-Teller (BET) studies provided insights into the structural, elemental, spectral, optical, morphological, and surface area properties of the nanoparticles. The UV-vis spectroscopy and Tauc's plot were employed to elucidate the band structure of the photocatalyst, providing insights into its essential electronic properties for catalytic applications. With a narrow optical band gap of 2.13 eV, the synthesized photocatalyst demonstrated suitability for optical applications and exhibited substantial catalytic activity in the microwave-induced photocatalytic degradation of greywater. Remarkably, it achieved a 93.5% reduction in total organic carbon (TOC) within 180 min under moderate 50-W illumination. Refining process parameters through optimization studies notably augmented degradation efficiency. Scavenging investigations validated the efficient mineralization of total organic carbon content. Kinetic assessments provided mechanistic insights into improved catalytic activity of BFO, which was attributed to a changed band structure that allows for fast charge transfer across interfacial layers. Moreover, the stability and reusability of the BFO photocatalyst were assessed over five cycles, highlighting its potential practical application as an efficient and reusable photocatalyst for greywater treatment. These findings underscore the promising prospects of BFO in addressing environmental challenges and advancing sustainable wastewater treatment technologies.

2.
Cell Biochem Biophys ; 2024 Jul 17.
Artículo en Inglés | MEDLINE | ID: mdl-39020085

RESUMEN

Food requirements have always been a top priority, and with the exponential growth of the human population, there is an increasing need for large quantities of food. Traditional cultivation methods are not able to meet the current demand for food products. One significant challenge is the shortened shelf-life of naturally occurring food items, which directly contributes to food scarcity. Contaminating substances such as weeds and pests play a crucial role in this issue. In response, researchers have introduced genetically engineered (GE) food as a potential solution. These food products are typically created by adding or replacing genes in the DNA of naturally occurring foods. GE foods offer various advantages, including increased quality and quantity of food production, adaptability to various climatic conditions, modification of vitamin and mineral levels, and prolonged shelf life. They address the major concerns of global food scarcity and food security. However, the techniques used in the production of GE foods may not be universally acceptable due to the genetic alteration of animal genes into plants or vice versa. Additionally, their unique nature necessitates further long-term studies. This study delves into the procedures and growth stages of DNA sequencing, covering the benefits, risks, industrial relevance, current knowledge, and future challenges of GE foods. GE foods have the potential to extend the shelf life of food items, alleviate food shortages, and fulfill the current nutritional food demand.

3.
Biochem Genet ; 2023 Dec 15.
Artículo en Inglés | MEDLINE | ID: mdl-38100038

RESUMEN

Wheat is a vital crop, providing calories, nutrients and versatility in the food industry. However, the combination of heat and drought stress, exacerbated by climate change, poses a significant threat to wheat production, leading to potential yield losses. To ensure the sustainability of wheat production it is crucial to prioritize research on developing stress-tolerant wheat genotypes. The current study focused on identifying the traits that are important for developing stress-tolerant wheat varieties under timely sown irrigated, drought stress, heat stress, and combined stress conditions. It addresses the knowledge gap regarding the combined effects of heat and drought stress on wheat physiology and yield, aiming to shed light on the intricate interactions between these stresses. The experiment was conducted at CCS HAU, Hisar, during the Rabi seasons of 2019-2020 and 2020-2021. By evaluating variability parameters, conducting correlation analysis, and path coefficient analysis among 80 diverse wheat genotypes, this research identifies genetic factors contributing to stress tolerance and helps select plants with desirable characteristics. The results showed that traits i.e., malendialdehyde, wax covering on blade, wax covering on sheath and wax covering on spike had high potential for improvement through selection among genotypes for grain yield and its component traits. The study also highlighted the importance of selecting wheat varieties with early maturity to mitigate the risk of yield loss under combined stress conditions. Moreover, the interaction between drought and heat stress can increase oxidative stress, leading to elevated malondialdehyde levels. Selecting varieties with lower malondialdehyde and optimal canopy temperature is important. Understanding the complex response of wheat to heat, drought, and their combined stress is essential for improving crop quality and production potential. Overall, this research contributes to the field of plant breeding by facilitating the development of wheat varieties with high and stable yields in challenging environments.

4.
Arch Microbiol ; 205(2): 62, 2023 Jan 11.
Artículo en Inglés | MEDLINE | ID: mdl-36629918

RESUMEN

In the 20th century, the discovery of antibiotics played an essential role in the fight against infectious diseases, including meningitis, typhoid fever, pneumonia and Mycobacterium tuberculosis. The development of multidrug resistance in microflora due to improper antibiotic use created significant public health issues. Antibiotic resistance has increased at an alarming rate in the past few decades. Multidrug-resistant bacteria (superbugs) such as methicillin-resistant Staphylococcus aureus (MRSA) as well as drug-resistant tuberculosis pose serious health implications. Despite the continuous increase in resistant microbes, the discovery of novel antibiotics is constrained by the cost and complexities of discovery of drugs. The nanotechnology has given new hope in combating this problem. In the present review, recent developments in therapeutics utilizing nanotechnology for novel antimicrobial drug development are discussed. The nanoparticles of silver, gold and zinc oxide have proved to be efficient antimicrobial agents against multidrug-resistant Klebsiella, Pseudomonas, Escherichia Coli and MRSA. Using nanostructures as carriers for antimicrobial agents provides better bioavailability, less chances of sub-therapeutic drug accumulation and less drug-related toxicity. Nanophotothermal therapy using fullerene and antibody functionalized nanostructures are other strategies that can prove to be helpful.


Asunto(s)
Antiinfecciosos , Staphylococcus aureus Resistente a Meticilina , Tuberculosis Resistente a Múltiples Medicamentos , Humanos , Antibacterianos/farmacología , Antibacterianos/uso terapéutico , Farmacorresistencia Bacteriana Múltiple , Antiinfecciosos/farmacología , Pruebas de Sensibilidad Microbiana
5.
Biomolecules ; 11(6)2021 06 15.
Artículo en Inglés | MEDLINE | ID: mdl-34203733

RESUMEN

Nanotechnology is the science of nano-sized particles/structures (~100 nm) having a high surface-to-volume ratio that can modulate the physical, chemical and biological properties of the chemical compositions. In last few decades, nanoscience has attracted the attention of the scientific community worldwide due to its potential uses in the pharmacy, medical diagnostics and disease treatment, energy, electronics, agriculture, chemical and space industries. The properties of nanoparticles (NPs) are size and shape dependent. These characteristic features of nanoparticles can be explored for various other applications such as computer transistors, chemical sensors, electrometers, memory schemes, reusable catalysts, biosensing, antimicrobial activity, nanocomposites, medical imaging, tumor detection and drug delivery. Therefore, synthesizing nanoparticles of desired size, structure, monodispersity and morphology is crucial for the aforementioned applications. Recent advancements in nanotechnology aim at the synthesis of nanoparticles/materials using reliable, innoxious and novel ecofriendly techniques. In contrast to the traditional methods, the biosynthesis of nanoparticles of a desired nature and structure using the microbial machinery is not only quicker and safer but more environmentally friendly. Various microbes, including bacteria, actinobacteria, fungi, yeast, microalgae and viruses, have recently been explored for the synthesis of metal, metal oxide and other important NPs through intracellular and extracellular processes. Some bacteria and microalgae possess specific potential to fabricate distinctive nanomaterials such as exopolysaccharides, nanocellulose, nanoplates and nanowires. Moreover, their ability to synthesize nanoparticles can be enhanced using genetic engineering approaches. Thus, the use of microorganisms for synthesis of nanoparticles is unique and has a promising future. The present review provides explicit information on different strategies for the synthesis of nanoparticles using microbial cells; their applications in bioremediation, agriculture, medicine and diagnostics; and their future prospects.


Asunto(s)
Bacterias/química , Hongos/química , Microalgas/química , Nanopartículas/química , Virus/química , Bacterias/genética , Hongos/genética , Microalgas/genética , Virus/genética
6.
Polymers (Basel) ; 14(1)2021 Dec 23.
Artículo en Inglés | MEDLINE | ID: mdl-35012063

RESUMEN

Biopolymeric Chitosan-Carrageenan nanocomposites 66.6-231.82 nm in size containing the chemical fungicide mancozeb (nano CSCRG-M) were synthesized following a green chemistry approach. The physicochemical study of nanoparticles (NPs) was accomplished using a particle size analyzer, SEM and FTIR. TEM exhibited clover leaf-shaped nanoparticles (248.23 nm) with mancozeb on the inside and entrapped outside. Differential scanning calorimetry and TGA thermogravimetry exhibited the thermal behaviour of the nanoform. Nano CSCRG-1.5 at 1.5 ppm exhibited 83.1% inhibition against Alternaria solani in an in vitro study and performed as well as mancozeb (84.6%). Complete inhibition was exhibited in Sclerotinia sclerotiorum at 1.0 and 1.5 ppm with the nanoformulation. The in vivo disease control efficacy of mancozeb-loaded nanoparticles against A. solani in pathogenized plants was found to be relatively higher (79.4 ± 1.7) than that of commercial fungicide (76 ± 1.1%) in pot conditions. Nanomancozeb showed superior efficacy for plant growth parameters, such as germination percentage, root-shoot ratio and dry biomass. The nanoformulation showed higher cell viability compared to mancozeb in Vero cell cultures at 0.25 and 0.50 mg/mL in the resazurin assay. CSCRG-0.5 showed slow-release behavior up to 10 h. Thus, these green nano-based approaches may help combat soil and water pollution caused by harmful chemical pesticides.

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