ABSTRACT
We report the efficacy of the Iron nanoparticles (IONPs) and assessed two different approaches for the synthesis of IONPs i.e. Polyol and co-precipitation method and further, evaluate their antimicrobial properties. Ferrous sulphate heptahydrate salts were reduced with ethylene glycol to obtain IONP and Fe+2 and Fe+3 co-precipitation reaction was performed with KOH at optimum heating. Further, synthesized (IONPs) were characterized by hydrodynamic radii measurement done by DLS clearly indicating the size of IONPs is 79.75nm in polyol based and 135.1 nm in co-precipitation method. The biological efficacy in terms of antimicrobial activity was assessed by the Kirby Bauer method, applied for both Gram-positive and Gram-negative bacteria such as Staphylococcus aureus and Escherichia coli, respectively. The ZOI values i.e. Zone of inhibition diameter was found to be clearly visible in both S. aureus and E. coli, indicating bactericidal activity. Further growth kinetics studies and bacterial genotoxicity was also assessed. Hence, IONPs synthesized are proposed to have great potential as an antibacterial agent and can be used in drug delivery.
ABSTRACT
Rapid advances in nanotechnology are setting new paradigms in science and technology. Nano-forensic offers a fresh perspective for real-time investigation of crimes with established advanced nano-imaging tools for visualization, nano-manipulators and nanosensors. Nanotechnology enables enhanced and improved efficiency of traditional and applied forensic techniques with high sensitivity, accuracy, and reduced requirement of time. Therobust nanotechnological applications of classic tools for investigating the documents in question, time since death, age of bloodstains, along with its application in DNA analysis, in improving polymerase chain reaction (PCR) efficiency, and explosive detection. In microbial forensics, only an extensive collection of strains from around the world and high-quality sequence data can provide the basis for meaningful results. Nanotechnology will help faster disclosure of cases and evidence to competent courts, will quickly identify proxies, interpret sources, and present those findings in court as evidence.Forensic palaeontology relies heavily on pollen fingerprinting which is one of the most effective methods for detecting and analyzing evidence of exposure. Nano-based strategies hold enormous future in detecting latent fingerprinting, for illicit drug screening and security features. Nanotechnology is likely to play an important role in forensic science, providing reliable evidence in addition to being more selective and sensitive. This review offers valuable insights into the applications of nanoparticles in forensic science.
ABSTRACT
Cancer is the leading cause of death among individuals due to its poor prognosis. Various therapeutics treatments are available in form radiation therapy, chemotherapy, or immunotherapy but major point of concern is the treatment of cancer resistant cell lines. Homozygous loss of the p53 gene is virtually present in every type of cancer. Mutation in DNA binding domain of p53 leads to formation of mutant forms having altered amino acid sequence which lacks DNA binding activity. Berberine is chemo-sensitizing isoquinoline quaternary alkaloid molecule obtained from Berberis vulgaris. Berberine has the capability to suppress the growth of broad range of tumors. It exhibits pharmacological, biochemical and anticancer properties which can potentiate the activities of the existing therapeutics available in a way that it can re-sensitize the cancer resistant clones. Berberine has an immanent potential to bind with DNA and can communicate with several cellular targets, further it also shows hormetic effect which refers to biphasic dose response curve in order to determine dose dependent stimulatory and inhibitory effect. Mode of action involved is yet not well understood but mechanistic pathway involved are autophagy, up-regulation of tumor-suppressor gene (p53) and epigenetic alterations in the viral DNA. In this review, versatility of berberine can be utilized ideally or in combination with chemotherapeutics drugs to potentiate chemo sensitization of the resistant cancer cell line. Further, cancer cell specific receptor targeting can also be employed in combination with berberine for therapeutic treatment of metastasizing cancer cells.
ABSTRACT
We report the efficacy of the gold nanoparticles (AuNPs) synthesized using the leaf extracts of Syzygium cumini (common name Jamun) with auric chloride (AuCl4) which was used as both reducing and capping agent at room temperatures- 25°C. Synthesized AuNPs were characterized using UV-Vis spectroscopy indicating a peak in the range of 520-540 nM. The hydrodynamic radii measured by DLS clearly indicated the size of AuNPs in the range of 14-64 nM. The biological efficacy in terms of antimicrobial activity was assessed by the Kirby Bauer method, applied for both Gram-positive and Gram-negative bacteria such as Staphylococcus aureus and Escherichia coli, respectively. The Zone of inhibition (ZOI) diameter was found to be 4 mM and 3 mM in S. aureus and E. coli, as indicated by the bactericidal activity. Hence, AuNPs synthesized by green synthesis are proposed as economical, environment friendly with immense potential as an antibacterial agent and for drug delivery.
ABSTRACT
The perils of cardiovascular diseases (CVD) are enhanced by systemic chronic inflammation in autoimmune disorders like Rheumatoid arthritis (RA), in which the patients generally exhibit a high inflammatory burden, dyslipidemia causing 50-60% of RA patients susceptible to CVD dependent mortality. Lysophosphatidic acid (LPA) is a polar, pleiotropic lipid molecule that is water soluble and present in the synovial fluid that can be exploited as an effective biomarker for lipid-signalling. Current research on alternative medicine has recognized various new molecular targets of Berberine (BBR) and established novel signals in support of the efficacy and therapeutic potential of BBR to fight CVD. Therefore, BBR, an alkaloid with poor aqueous solubility could be foreseen as a therapeutic strategy for the reduction of inflammation induced lipidemia by targeting the macrophages and modulating their functions. Hence, a novel BBR loaded folate-conjugated glycol chitosan nanoparticles (BFGCN) could be hypothesized as a three-pronged approach to target activated macrophages, fibroblasts of synovial fluid for downmodulation of LPA. The greatest challenge is the heterogeneity, complexity and interdependence of RA and CVD. Investigation of prognostic and predictive biomarkers is urgently required. Therefore, an improved understanding of the pathogenesis of RA would facilitate identifying an improved targeted treatment and management of RA patients.
ABSTRACT
Denaturation of proteins plays a crucial part in cellular activities. In this study, we have investigated the folding unfolding pathways of zebrafish dihydrofolate reductase (zDHFR) in presence of different chemical denaturants which were found to be an influential factor for the refolding yield by UV-visible spectrophotometric analysis. The activity change of zDHFR has been observed in presence of three different denaturants like Acetic Acid (AcOH), Sodium Dodecyl Sulphate (SDS), and Ethanol (C2H5OH). Spectrophotometric analysis reveals that protein unfolded completely at different concentrations and times by these denaturants. The spontaneous refolding experiments of chemically denatured zDHFR were also conducted to verify the spontaneous refolding yield. These investigations have helped us to decipher a picture about the denaturants contributing to achieving the refolding yield. We observed that acetic acid is a stronger denaturant among all, and the spontaneous refolding yields were higher from SDS denaturation. In the light of the above findings, higher spontaneous refolding yields were obtained from the low concentration of denaturants.