Jigisha Anand scite author profile

Green tea (GT) is derived from the leaves of Camellia sinensis implicated in a wide range of health attributes. In the present comprehensive study, methanolic, acetone and aqueous extract of leaves of C. sinensis var. sinensis [Kashmir (KW), Uttarakhand (IP & PN)] and C. sinensis var. assamica (Assam, AT) were explored for their phytoconstituents. Solvent extracts of GT cultivars showed rich presence of phytoconstituents in comparison with aqueous extracts. The methanolic extract of AT and acetone extract of KW showed highest total phenol content (18.32 ± 0.357 mg of GAE equivalent/g of sample) and total flavonoid content (29.25 ± 0.015 mg of catechin equivalent/g of sample), respectively. All the cultivars revealed higher free radical scavenging activity in the range of 73.80 ± 0.152 to 82.40 ± 0.004 % confirming antioxidant potentials. The HPLC analysis of purified residue procured from solvent partitioning depicted AT with highest concentration of epigallocatechin gallate (EGCg) i.e., 154.7 ± 4.949 mg/g followed by Kashmir and Uttarakhand GT cultivars. The present study revealed that Assam GT could be a potent herbal candidate with multiple nutraceutical applications. However, significant investigation of the cultivars is to be done to further explore the EGCg-dependent activity of GT for herbal drug development.

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Anticandidal synergistic activity of green tea catechins, antimycotics and copper sulphate as a mean of combinational drug therapy against candidiasis

Anand

Rai

2017

Journal de Mycologie Médicale

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Biogenic synthesis: a sustainable approach for nanoparticles synthesis mediated by fungi

Chauhan

Anand

Parkash

et al. 2022

Inorganic and Nano-Metal Chemistry

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Computational Guided Approach for Drug Repurposing Against SARS-CoV-2

et al. 2021

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Background: In the current SARS-CoV-2 outbreak, drug repositioning emerges as a promising approach to develop efficient therapeutics in comparison to de novo drug development. The present investigation screened 130 US FDA-approved drugs including hypertension, cardiovascular diseases, respiratory tract infections (RTI), antibiotics and antiviral drugs for their inhibitory potential against SARS-CoV-2. Materials & methods: The molecular drug targets against SARS-CoV-2 proteins were determined by the iGEMDOCK computational docking tool. The protein homology models were generated through SWISS Model workspace. The pharmacokinetics of all the ligands was determined by ADMET analysis. Results: The study identified 15 potent drugs exhibiting significant inhibitory potential against SARS-CoV-2. Conclusion: Our investigation has identified possible repurposed drug candidates to improve the current modus operandi of the treatment given to COVID-19 patients.

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Nanotechnology-Based Solutions for Antibiofouling Applications: An Overview

Sinha

Kumar

Anand

et al. 2023

ACS Appl. Nano Mater.

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Biofouling is a serious concern and can cause health risks and financial burdens in many settings such as maritime structures, medical devices, and water treatment plants. Many technologies employing toxic biocides, antifouling toxic coatings, and chlorine have been established to prevent or impede biofouling. However, their applications are limited due to environmental and health concerns regarding biocides and coating materials. To overcome this, novel antifouling coatings employing ecofriendly, nontoxic nanomaterials and appreciable antimicrobial and antibiofilm properties have been developed. Due to intrinsic antimicrobial properties, these antifouling nanocoatings have been proven to be effective against several water-borne microorganisms. Various nanostructures of metals (silver, copper, and gold), metal oxides (zinc oxide, titanium oxide, copper oxide, and cerium oxide), carbon (graphene and carbon nanotubes), and metal nanocomposites inhibit the biocorrosion and biofilm formation caused by bacteria. Besides, antifouling technology developed based on nanocontainers releases key active substances that promote selfcleaning, anticorrosion, and antibiofilm properties. This review provides a comprehensive overview of nanotechnology-enabled antifouling agents developed to combat micro-and macrofouling phenomena. Moreover, the recent progress in the applications of antifouling coatings in industrial sectors such as marine (ships), water-treatment plants, and medical devices is elaborated with relevant examples. The mechanistic insights into the inhibitory action of bacterial cell growth and biofilm formation by antifouling nanocoatings are presented. The challenges associated with developing antifouling nanoproducts, their practical limitations, and prospects are also discussed.

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Jigisha Anand

Biochemical characterization and pharmacognostic evaluation of purified catechins in green tea (Camellia sinensis) cultivars of India

Anticandidal synergistic activity of green tea catechins, antimycotics and copper sulphate as a mean of combinational drug therapy against candidiasis

Biogenic synthesis: a sustainable approach for nanoparticles synthesis mediated by fungi

Computational Guided Approach for Drug Repurposing Against SARS-CoV-2

Nanotechnology-Based Solutions for Antibiofouling Applications: An Overview

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