Titav Sengupta scite author profile

Green synthesis of AuNPs that have potential anticancer properties is relatively simple, cheap and eco-friendly compared to the conventional chemical/physical approaches. Quercetin is known for its antioxidant and anticancer properties, i.e., induction of apoptosis, tumour suppression, etc. This study aims to characterize and compare between two differentially synthesized Quercetin-Au-Nanoconjugates, Q-Au-NCTSC and Q-AU-NCLE using a pure biochemical reductant, trisodium citrate and its natural alternative, citrus lemon extract respectively. Antibacterial and anticancer effects of both the nanoconjugates would also be checked and compared to analyze whether the use of a lemon extract has any impact on its structure and functional properties. A series of physicochemical characterizations viz. UV-Vis spectrophotometry, DLS, Zeta Potential, FT-IR, and SEM of the nanoconjugates were done. Further, evaluation of in vitro antibacterial activity was done against two Gram-positive bacteria: Staphylococcus aureus; Bacillus Subtilis; and two Gram-negative bacteria: Pseudomonas aeruginosa; Klebsiella pneumonia and cytotoxicity efficacy were checked on breast cancer (MCF7) cell line. Effective reduction of Au+3 to Au0 with quantum confinement in nano-regime was confirmed by a change of bulk colour of the HAu+3Cl4 solution, whereas conjugation of Quercetin to AuNPs was confirmed by FTIR. DLS showed the average size of the Q-Au-NCTSC and Q-Au-NCLE are 30 nm and 35.6 nm, respectively. The Q-Au-NCLE has shown comparatively better stability and antibacterial activity. In the case of cytotoxicity study on MCF7 cell line, the Q-Au-NCLE showed better efficacy (cell death ~ 75%) with respect to Q-Au-NCTSC (cell death ~66%). Natural sources rich in citric acid would serve as the best alternative to tri-sodium citrate in the synthesis of Au-NPs and different nanoconjugates for biomedical applications.

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Virtual Screening through Molecular Docking Analysis to Identify Potential Natural Inhibitor(s) of Lyn Tyrosine Kinase- An In-silico Approach

Kulavi

Banerjee

Sengupta

et al. 2021

JPRI

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Breast cancer on becoming one of the leading cancer types, emerged as an important barrier in increasing life expectancy of the overall population. In the current study, some compounds were screened based on literature survey for the identification of natural bioactive compounds as potential inhibitors of Lyn tyrosine kinase. Therefore, a multi-step molecular docking was carried out using AutoDock embedded in the MGL Tools. After initial screening, molecules having a higher docking score and binding free energy compared to Tamoxifen were considered for further assessment. Some already known synthetic lyn tyrosine kinase inhibitor have been used for better understanding of the comparative study. Based on in silico Lipinski filter analysis, toxicity prediction, pharmacokinetic analysis, four compounds were proposed to be promising inhibitors of Lyn tyrosine kinase. Furthermore, the binding interactions of all proposed inhibitors of Lyn showed strong ligand efficiency in terms of energy score obtained with the help of molecular modelling analyses. Hence, the proposed compounds out of which three are bioactive compounds might be taken forward as potential next-generation Lyn kinase inhibitors for managing Lyn associated breast cancer after experimental authentication.

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Green Synthesis of Silver Nanoparticles Using Olden-landia corymbosa and Ocimum sanctum Leaf Aqueous Extract

Chatterjee¹,

Das²,

Saha³

et al. 2020

PCI- Approved-IJPSN

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The field of nanotechnology is the most renowned area of research in modern day science. One of the most convenient and comprehensive technique related to the synthesis of nanoparticles using plant extracts and their subsequent action. On the other hand, herbal medicines become an integral part of modern-day treatment strategy around the globe; combination of these two ways are widely accepted and beneficial due to its low cost, better societal recognition and less side effects. Phytochemical analysis revealed that leaf aqueous extract of two medicinal plants Oldenlandia corymbosa and Ocimum sanctum, harbours high concentration of antioxidants and bioactive molecules. Hence our present course of study aims at the green synthesis of silver nano-conjugates using Oldenlandia corymbosa and Ocimum sanctum leaf aqueous extracts. The synthesized nano-conjugates have undergone advanced chara-cterization techniques including UV-Vis Spectro-photometry, DLS, and FT-IR. The UV-Vis spectroscopy results showed single peak at 420 nm and 430 nm for Oldenlandia corymbosa and Ocimum sanctum nano-conjugates, respectively. The particle size for Oldenlandia corymbosa and Ocimum sanctum nano-particles are 21.04 nm and 24.36 nm, respectively as observed from the DLS data, and finally, the FT-IR data confirms the conjugation of bioactive molecules of the medicinal plants indicating that primary amines, secondary amines, alcohols, phenols, aldehydes, aliphatic amines, alkenes, functional groups of the bioactive molecules are responsible for the stability of prepared silver nano-conjugates

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Titav Sengupta

"Green Synthesis and Characterization of Silver Nano- conjugates using Some Common Medicinal Weeds Leaf Aqueous Extracts"

Characterization and Comparative Evaluation of Antibacterial and Cytotoxic Efficacy Between Two Quercetin-Au-Nanoconjugates Synthesized Using Pure Tri-Sodium Citrate and Its Natural Alternative - Lemon Extract

Virtual Screening through Molecular Docking Analysis to Identify Potential Natural Inhibitor(s) of Lyn Tyrosine Kinase- An In-silico Approach

Green Synthesis of Silver Nanoparticles Using Olden-landia corymbosa and Ocimum sanctum Leaf Aqueous Extract

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