School Of Basic And Applied Sciences

Permanent URI for this communityhttps://kr.cup.edu.in/handle/32116/17

Browse

Author: search.filters.author.Singla, RamitSubject: search.filters.subject.In-silico

Search Results

Now showing 1 - 2 of 2
  • Thumbnail Image
    Item
    Phytochemical investigation and biological evaluation of secondary metabolites from asparagus racemosus l through in-vitro and in-silico approach
    (Central University of Punjab, 2013) Singla, Ramit; Jaitak, Vikas
    Nature has been a source of medicinal products for millennia, and with many useful drugs developed from different natural resources, with majority of drugs are from plant origin. Asparagus racemosus belonging to family liliaceae, is one such important medicinal plant. This plant species is used traditionally in India and other parts of the world in epilepsy, Vaat disorders, brain tonic, hypertension, hepatoprotection, immunostimulant and antiabortifacient. In this context, the aim of the present study was to explore the roots of A.racemosus in terms of its medicinal values for instances antimutagenic, and advanced glycation end-product inhibitor. Antimutagenic activity of different extracts were evaluated using Ames test. A. racemosus methanolic extract (RME) and aqueous extract (RAE) have been found to have effective in the inhibition mutation induced by NPD and sodium azide. Among the two extracts, RAE and RME showed maximum inhibition of 49.2%, and 40.63% in Co-incubation mode respectively. The inhibition of BSA-glucose for the determination of antiglycation activity showed that the inhibition varied significantly among different extracts of A. racemosus. The highest inhibition measured by BSA-glucose was observed for (Ethyl acetate extract) REE (IC50 37.56 ± 1.65 ?g/mL) followed by (methanolic extract) RME (IC50 51.32 ± 1.48 ?g/mL). Isolation of molecules from methanol extract led to the characterisation of one molecule v namely nyasol out of total seven isolated molecules. The molecular docking study of isolated molecule Nyasol displayed strong binding affinity with estrogen receptor ? and estrogen receptor ?, indicating that Nyasol is beneficial in hormone responsive breast cancer. Moreover, in-silico study of already reported phytoestrogens from A.racemosus was also carried out using Glide docking to investigate interaction pattern with Human placental estrone sulphatases (1P49), human 17?-hydroxysteroid-dehydrogenase type 1 (1FDS), human glucose 6-phosphate dehydrogenase (2BH9) and tubulin protein receptors. The top docking score was obtained for rutin (estrogen receptor ?), 3,6,4'-trimethoxy-7-O-?-D-glucopyranosyl [1?4]-O-?-D-xylopyranoside glucopyranpsyl (HSP90), 8-Methoxy-5,6,4-trihydroxyisoflavone-7-O-?-D-glucopyranoside (human placental estrone sulphatase), Shatavarin X (17?-hydroxydehydrogenase`), Racemoside A (Glucose-6-phosphate dehydrogenase), Immunoside (Colchicine binding site of tubulin). The results indicated that phytoestrogens are likely potential candidate for controlling tumor progression with a special emphasis in breast cancer progression.
  • Thumbnail Image
    Item
    An in-silico approach on essential oil molecules as apoptosis inducer in cancer chemotherapy
    (Innovations in Pharmaceuticals and Pharmacotherapy, 2017) Bhalla, Yashika; Singla, Ramit; Jaitak, Vikas; Sapra, Sameer
    Essential oils (EOs) are very engrossing natural plant products and apart from this they possess various biological properties. It has been reported that these essential oil molecules are able to inhibit tumor cell proliferation and induce tumor cell death by inhibiting multiple cancer-specific targets including the suppression of anti-apoptotic pathways i.e., BCL-2, BCL-XL, MCL-1, and NFκb. This study was conducted with the objective of exploring the anticancer activity of herbs and spices, with special reference to its potential to inhibit anti-apoptotic pathways by studying their interaction pattern with the selective inhibitors of the particular receptors. Hence a comparative in-silico study was done in which the essential oil molecules were docked with specific anti-apoptotic receptors with respect to the particular known inhibitor of that receptor therefore the binding affinity of the essential oil molecule with that of the receptor site was analyzed. It has been observed that the phytochemicals like capsaicin have an impressive binding affinity for NFκb receptor, BCL-2 as compared to its standard inhibitors, which shows that the phytochemical has stronger binding affinity for receptor. These docking results hereby apparently tells us that the binding affinity of the essential oil molecules are either comparable or more than that of the specific inhibitors of the receptors hence in future drug molecules can be synthesized keeping in view the strong binding affinity of these molecules with the receptors.