Green Synthesis of Biocatalysts Based on Nanocarriers Promises an Effective Role in Pharmaceutical and Biomedical Fields

Khafaga, Doaa S. R.; Radwan, Mohamed G.; Muteeb, Ghazala; Aatif, Mohammad; Farhan, Mohd

doi:10.3390/catal13111448

Cited by 7 publications

(4 citation statements)

References 131 publications

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“…Recently, an increasing number of studies have focused on the synthesis of nanoscale metals using chemical, physical, and green approaches ( Wang et al, 2007 ; Horwat et al, 2011 ). Green synthesis technologies are progressively replacing physical and chemical approaches ( Tippayawat et al, 2016 ; Alsammarraie et al, 2018 ; Rashwan et al, 2022 ; Nagy et al, 2022 ; Jahan et al, 2023 ; Khafaga et al, 2023a , 2023b ) owing to difficulties with significant energy usage ( Horwat et al, 2011 ), toxic and hazardous chemical emissions ( Hoag et al, 2009 ), and the use of complex equipment and synthetic environments ( Baruwati, Polshettiwar & Varma, 2009 ; Ahmed & Ikram, 2015 ). Physical methods such as UV radiation ( Wojnarowicz et al, 2018 ), aerosols ( Smirniotis, Boningari & Inturi, 2018 ), and thermal decomposition ( Ahmed et al, 2016a ) require high temperatures and pressures ( Ahmed et al, 2016b ).…”

Section: Green Synthesis Of Nanomaterialsmentioning

confidence: 99%

“…Because they can produce many bioactive chemicals, fungi are often used to reduce and stabilize the production of nanoparticles on a large scale while maintaining their shapes and sizes under control. However, algae may produce a variety of bioactive chemicals, pigments, and proteins that function as capping agents in the synthesis process, assisting in salt reduction ( Khafaga et al, 2023b ). The creation of environmentally friendly nano-supports for enzyme immobilization is crucial from the perspective of sustainability.…”

Section: Green Synthesis Of Nanomaterialsmentioning

confidence: 99%

“…It is expected that creating nanoparticles using biological principles will be simple, cost-effective, safe, and environmentally friendly ( Gautam et al, 2023 ). The production of nanoparticles by using plants has drawn a lot of attention, mostly because it is an easy process that does not require complex steps, such as maintaining a microbial culture or numerous purification stages ( Khafaga et al, 2023a , 2023b ). Green chemistry is a novel approach to the subject of nanosynthesized materials.…”

Section: Introductionmentioning

confidence: 99%

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Green nanobiocatalysts: enhancing enzyme immobilization for industrial and biomedical applications

Khafaga,

Muteeb,

Elgarawany

et al. 2024

PeerJ

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Nanobiocatalysts (NBCs), which merge enzymes with nanomaterials, provide a potent method for improving enzyme durability, efficiency, and recyclability. This review highlights the use of eco-friendly synthesis methods to create sustainable nanomaterials for enzyme transport. We investigate different methods of immobilization, such as adsorption, ionic and covalent bonding, entrapment, and cross-linking, examining their pros and cons. The decreased environmental impact of green-synthesized nanomaterials from plants, bacteria, and fungi is emphasized. The review exhibits the various uses of NBCs in food industry, biofuel production, and bioremediation, showing how they can enhance effectiveness and eco-friendliness. Furthermore, we explore the potential impact of NBCs in biomedicine. In general, green nanobiocatalysts are a notable progression in enzyme technology, leading to environmentally-friendly and effective biocatalytic methods that have important impacts on industrial and biomedical fields.

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Section: Green Synthesis Of Nanomaterialsmentioning

confidence: 99%

Section: Green Synthesis Of Nanomaterialsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Green nanobiocatalysts: enhancing enzyme immobilization for industrial and biomedical applications

Khafaga,

Muteeb,

Elgarawany

et al. 2024

PeerJ

Self Cite

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“…Smaller nanoparticles typically have larger surface-area-to-volume ratios, and their interactions with cells are influenced by factors such as cellular uptake, internalization, and bioavailability. Biologically synthesized AuNPs, often in the nanoscale range, are more efficiently internalized by cells due to their optimized size, promoting cellular compatibility [87]. In contrast, chemically prepared AuNPs may exhibit a broader size distribution, including larger particles that could induce increased cytotoxicity through mechanisms such as enhanced oxidative stress and inflammation [88].…”

Section: Ros Activitymentioning

confidence: 99%

Biological Synthesis, Characterization, and Therapeutic Potential of S. commune-Mediated Gold Nanoparticles

Alqurashi,

Almalki,

Ibrahim

et al. 2023

Biomolecules

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Green-synthesized gold nanoparticles demonstrate several therapeutic benefits due to their safety, non-toxicity, accessibility, and ecological acceptance. In our study, gold nanoparticles (AuNPs) were created using an extracellular extract from the fungus Schizophyllum commune (S. commune). The reaction color was observed to be a reddish pink after a 24 h reaction, demonstrating the synthesis of the nanoparticles. The myco-produced nanoparticles were investigated using transmission electron microscopy (TEM), dynamic light scattering (DLS), and UV–visible spectroscopy. The TEM pictures depicted sphere-like shapes with sizes ranging from 60 and 120 nm, with an average diameter of 90 nm, which is in agreement with the DLS results. Furthermore, the efficiency of the AuNPs’ antifungal and cytotoxic properties, as well as their production of intracellular ROS, was evaluated. Our findings showed that the AuNPs have strong antifungal effects against Trichoderma sp. and Aspergillus flavus at increasing doses. Additionally, the AuNPs established a dose-dependent activity against human alveolar basal epithelial cells with adenocarcinoma (A549), demonstrating the potency of synthesized AuNPs as a cytotoxic agent. After 4 h of incubation with AuNPs, a significant increase in intracellular ROS was observed in cancer cells. Therefore, these metallic AuNPs produced by fungus (S. commune) can be used as an effective antifungal, anticancer, and non-toxic immunomodulatory delivery agent.

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Classification and Applications of Bio‐nanomaterials

Dakal,

Bhushan,

Dhakar

et al. 2024

Bio‐Nanomaterials in Environmental Remediation

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Green Synthesis of Biocatalysts Based on Nanocarriers Promises an Effective Role in Pharmaceutical and Biomedical Fields

Cited by 7 publications

References 131 publications

Green nanobiocatalysts: enhancing enzyme immobilization for industrial and biomedical applications

Green nanobiocatalysts: enhancing enzyme immobilization for industrial and biomedical applications

Biological Synthesis, Characterization, and Therapeutic Potential of S. commune-Mediated Gold Nanoparticles

Classification and Applications of Bio‐nanomaterials

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