Nanotechnology is rapidly transforming various fields, including medicine, environmental conservation, agriculture, and pharmaceuticals. The production of metallic nanoparticles is a key area within this field, known for its innovative applications. However, traditional chemical and physical methods used for nanoparticle synthesis often involve toxic chemicals and are expensive, making them unsuitable for large-scale production. To address these issues, there has been a growing focus on developing sustainable, cost-effective, and eco-friendly methods. One promising approach is the biological synthesis of metallic nanoparticles. This technique combines principles from biology and nanotechnology, using natural sources such as plant extracts, bacteria, fungi, yeast, and algae to produce nanoparticles in an environmentally friendly way. This review examines the biological synthesis of various metal nanoparticles, including platinum, palladium, gold, and silver. It explores different green methods used for their production and discusses the mechanisms that enable these biological processes. Additionally, the review highlights the diverse applications of these nanoparticles, from environmental cleanup and heavy metal removal to cancer treatment and drug delivery. By focusing on green synthesis methods, this approach not only reduces environmental impact but also offers a scalable, sustainable alternative to traditional nanoparticle production techniques. As research in this area advances, these eco-friendly methods are expected to play a crucial role in the future of nanotechnology.
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http://dx.doi.org/10.2174/0122117385353296241119072148 | DOI Listing |
Sci Rep
December 2024
Department of Biological Sciences, Université de Montréal, Montréal, QC, Canada.
Mitochondrial epigenetics, particularly mtDNA methylation, is a flourishing field of research. MtDNA methylation appears to play multiple roles, including regulating mitochondrial transcription, cell metabolism and mitochondrial inheritance. In animals, bivalves with doubly uniparental inheritance (DUI) of mitochondria are the exception to the rule of maternal mitochondrial inheritance since DUI also involve a paternal mtDNA transmitted from the father to sons.
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December 2024
Department of Biotechnology, Faculty of Agro-industry, Kasetsart University, Bangkok, 10900, Thailand.
Tilapia lake virus (TiLV) disease is highly contagious and causes substantial mortality in tilapia. Currently, no effective treatments or commercial vaccines are available to prevent TiLV infection. In this study, TiLV segment 4 (S4) was cloned into the pET28a(+)vector and transformed into Escherichia coli BL21(DE3).
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December 2024
Interventional Oncology, Johnson & Johnson Enterprise Innovation, Inc, 10th Floor 255 Main St, 02142, Cambridge, Boston, MA, USA.
The introduction of anti-PD-1/PD-L1 therapies revolutionized treatment for advanced non-small cell lung cancer (NSCLC), yet response rates remain modest, underscoring the need for predictive biomarkers. While a T cell inflamed gene expression profile (GEP) has predicted anti-PD-1 response in various cancers, it failed in a large NSCLC cohort from the Stand Up To Cancer-Mark (SU2C-MARK) Foundation. Re-analysis revealed that while the T cell inflamed GEP alone was not predictive, its performance improved significantly when combined with gene signatures of myeloid cell markers.
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December 2024
Laboratory of Biochemistry and Vascular Biology, Center for Biologic Evaluation and Research, Food and Drug Administration, Bethesda, 20993, MD, USA.
Blood storage lesion induces cytosolic and membrane changes driven in part by hemoglobin (Hb) oxidation reactions within red blood cells (RBCs). A novel gel formulation containing the antioxidant curcuminoids in a biocompatible solvent system was used to deliver curcumin into RBCs. Incubation of peroxide treated RBCs stored in PBS with curcumin gel led to a reduction in prooxidant ferrylHb and recovery in ATP.
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December 2024
Faculty of Natural Sciences, Institute of Biology, Biotechnology and Environmental Protection, University of Silesia in Katowice, Jagiellońska 28, 40-032, Katowice, Poland.
Studies of in situ plant response and adaptation to complex environmental stresses, are crucial for understanding the mechanisms of formation and functioning of ecosystems of anthropogenically transformed habitats. We study short- and long-term responses of photosynthetic apparatus (PSA) and anti-oxidant capacity to complex abiotic stresses of common plants Calamagrostis epigejos and Solidago gigantea in semi-natural (C) and heavy metal contaminated habitats (LZ). We found significant differences in leaf pigment content between both plant species growing on LZ plots and their respective C populations.
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