Green synthesis of ZnO-NPs using endophytic fungal extract of <i>Xylaria arbuscula</i> from <i>Blumea axillaris</i> and its biological applications

Lavanya, N.; Kandasamy, Gayathri Devi; Vanaraj, Sekar; Alshehri, M.; Panneerselvam, Chellasamy; Alasmari, Abdulrahman; Preethi, Kathirvel

doi:10.1080/21691401.2023.2232654

Cited by 14 publications

(8 citation statements)

References 65 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…4C) was affirmed the presence of carbon, oxygen, nitrogen, zinc and gold atoms with some impurities like chlorine, potassium, silicon, and sodium which due to the fungal medium extract protein and carbohydrates remaining. Our results were agreement with Nehru et al (Nehru et al 2023) using the fungi for synthesis of NPs. However, the nanocomposite low magnification image (Fig.…”

Section: Resultssupporting

confidence: 93%

Green biosynthesis of bimetallic ZnO@AuNPs with its formulation into cellulose derivative: biological and environmental applications

Al Abboud,

Mashraqi,

Qanash

et al. 2024

Bioresour. Bioprocess.

View full text Add to dashboard Cite

Nanoparticles (NPs) formulation in biopolymers is an attractive process for the researcher to decrease the disadvantages of NPs application alone. Bimetallic NPs are a promising formula of two NPs that usually act as synergetic phenomena. Zinc oxide and gold NPs (ZnO@AuNPs) biosynthesis as a bimetallic was prepared via the eco-friendly manner currently. Carboxymethylcellulose (CMC) was employed for the formulation of ZnO@AuNPs as a nanocomposite via a green method. Physicochemical and topographical characterization was assigned to ZnO@AuNPs and nanocomposite features. The nanostructure of bimetallic NPs and nanocomposite were affirmed with sizes around 15 and 25 nm, respectively. Indeed, the DLS measurements affirmed the more reasonable size and stability of the prepared samples as 27 and 93 nm for bimetallic NPs and nanocomposite, respectively. The inhibitory potential of nanocomposite was more than ZnO@AuNPs against Staphylococcus aureus, Escherichia coli, Salmonella typhi, Enterococcus faecalis, Mucor albicans, Aspergillus flavus, and Mucor circinelloid. ZnO@AuNPs and nanocomposite exhibited antioxidant activity via DPPH with IC50 of 71.38 and 32.4 µg/mL, correspondingly. Excellent anti-diabetic potential of nanocomposite with IC50 of 7.4 µg/mL, and ZnO@AuNPs with IC50 of 9.7 µg/mL was reported compared with the standard acarbose with the IC50 of 50.93 µg/mL for amylase inhibition (%). Photocatalytic degradation of RR195 and RB dyes was performed by ZnO@AuNPs and nanocomposite, where maximum degradation was 85.7 ± 1.53 and 88.7 ± 0.58%, respectively using ZnO@AuNPs, 90.3 ± 0.28 and 91.8 ± 0.27%, respectively using nanocomposite at 100 min. Graphical Abstract

show abstract

Section: Resultssupporting

confidence: 93%

Green biosynthesis of bimetallic ZnO@AuNPs with its formulation into cellulose derivative: biological and environmental applications

Al Abboud,

Mashraqi,

Qanash

et al. 2024

Bioresour. Bioprocess.

View full text Add to dashboard Cite

show abstract

“…(2023). [ 9 ] In another study zinc nanoparticles synthesized using endophytic fungal extract exhibited significant and concentration-dependent anti-inflammatory effects compared to the standard (Nehru et al , 2023)[ 10 ]. In addition, investigation highlighted the anti-inflammatory activity of titanium dioxide nanoparticles synthesized from plant extracts (Srinivasan et al , 2019).…”

Section: R Esults and Discussionmentioning

confidence: 99%

Green Synthesis of Mimosa pudica-Mediated Strontium Nanoparticles and its Anti-Inflammatory Activity

Harshini,

Shanmugam,

Govindharaj

2024

Journal of Pharmacy and Bioallied Sciences

View full text Add to dashboard Cite

Background: Considerable focus has been directed toward green synthesis as a dependable, sustainable, and environmentally friendly approach for synthesizing various nanomaterials. Mimosa pudica, a quickly grown pantropical weed, has been used widely for its anti-inflammatory and antimicrobial activity in traditional medicine. The development of strontium-based nanoparticles and nanoparticles linked with strontium has garnered attention in recent years due to their established utility in diverse domains such as effective drug distribution, bioimaging, cancer treatment, and advancements in bone engineering. Aims and Objectives: To examine the green synthesise of strontium nanoparticles using Mimosa pudica and its anti-inflammatory activity. Material and Methods: Mimosa pudica-mediated strontium nanoparticles’ anti-inflammatory activity was tested using bovine serum albumin denaturation assay, egg albumin denaturation assay, and membrane stabilization assay with diclofenac sodium as the standard. Result: In all three assays, increasing concentration of Mimosa pudica-mediated strontium nanoparticles exhibited an increasing anti-inflammatory effect, which was similar to the standard diclofenac sodium. Conclusion: Consequently, this holds promise as a new potential anti-inflammatory agent in forthcoming applications.

show abstract

“…For these purposes, for a safer strategy, eco-friendly nanomaterial synthesis methods are started to be used for biomedical applications in order to eliminate the concerns of nanotoxicology. Green nanoparticles are seen to achieve an environmentally friendly approach by utilizing the active compounds of various biological entities such as bacteria, algae, cyanobacteria, yeast, actinomycetes, fungi and plants [ 25 , 26 ]. Preliminary in vitro studies report the promising potential of green nanoparticles for biological applications such as antioxidant, anti-inflammatory, antimicrobial, gene delivery and drug development to fight chronic diseases [ 26-35 ], but stem cell-based therapies are rare.…”

Section: Nanomaterials As Drug Deliversmentioning

confidence: 99%

Frontiers of stem cell engineering for nanotechnology-mediated drug delivery systems

Yeşilkır Baydar,

Ay,

Cakir Koc

2024

ADMET DMPK

View full text Add to dashboard Cite

Background and purpose: Cell biology approaches have gained a successful integration, development and application of nanotechnology with stem cell engineering and have led to the emergence of a new interdisciplinary field known as stem cell nanotechnology (SCN). Recent studies showed the potential and the advancement of developments for SCN applications in drug delivery systems. Cancer, neurodegenerative, muscle and blood diseases, cell and gene therapies, and tissue engineering and regenerative medicine applications are the important targets of SCN. Experimental approach: In this overview, we searched the literature using the common online websites for research and read the open access, full-text available articles since 2013. Key results: The studies vary according to the type of disease they targeted and the strategies they proposed, whether diagnostic or therapeutic. In addition to the use of stem cells, the utilisation of their membranes, secretomes, exosomes and extracellular vesicles with an appropriate nanotechnology strategy is also an aspect of the research. Conclusion: This brief overview of stem cell nanotechnology over the last ten years aims to provide insight into the frontiers of stem cell engineering for nanotechnology-mediated drug delivery systems.

show abstract

Green synthesis of ZnO-NPs using endophytic fungal extract of Xylaria arbuscula from Blumea axillaris and its biological applications

Cited by 14 publications

References 65 publications

Green biosynthesis of bimetallic ZnO@AuNPs with its formulation into cellulose derivative: biological and environmental applications

Green biosynthesis of bimetallic ZnO@AuNPs with its formulation into cellulose derivative: biological and environmental applications

Green Synthesis of Mimosa pudica-Mediated Strontium Nanoparticles and its Anti-Inflammatory Activity

Frontiers of stem cell engineering for nanotechnology-mediated drug delivery systems

Contact Info

Product

Resources

About