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W4361285139 endingPage "3018" @default.
W4361285139 startingPage "3018" @default.
W4361285139 abstract "In glucose metabolism, the pentose phosphate pathway (PPP) is the major metabolic pathway that plays a crucial role in cancer growth and metastasis. Although it has been pointed out that blockade of the PPP is a promising approach against cancer, in the clinical setting, effective anti-PPP agents are still not available. Dysfunction of the G6PD enzyme in this pathway leads to cancer development as this enzyme possesses oncogenic activity. In the present study, an attempt was made to identify bioactive compounds that can be developed as potential G6PD inhibitors. In the present study, 11 natural compounds and a controlled drug were taken. The physicochemical and toxicity properties of the compounds were determined via ADMET and ProTox-II analysis. In the present study, the findings of docking studies revealed that staurosporine was the most effective compound with the highest binding energy of -9.2 kcal/mol when docked against G6PD. Homology modeling revealed that 97.56% of the residues were occupied in the Ramachandran-favored region. The modeled protein gave a quality Z-score of -10.13 by ProSA tool. iMODS server provided significant insights into the mobility, stability and flexibility of the G6PD protein that described the collective functional protein motion. In the present study, the physical and functional interactions between proteins were determined by STRING. CASTp server determined the topological and geometric properties of the G6PD protein. The findings of the present study revealed that staurosporine could be developed as a potential G6PD inhibitor; however, further in vivo and in vitro studies are needed for further validation of these results." @default.
W4361285139 created "2023-03-31" @default.
W4361285139 creator A5025195607 @default.
W4361285139 creator A5037255427 @default.
W4361285139 creator A5057043467 @default.
W4361285139 creator A5078756021 @default.
W4361285139 creator A5090818627 @default.
W4361285139 date "2023-03-28" @default.
W4361285139 modified "2023-09-26" @default.
W4361285139 title "Computational Approaches for Identification of Potential Plant Bioactives as Novel G6PD Inhibitors Using Advanced Tools and Databases" @default.
W4361285139 cites W1514878133 @default.
W4361285139 cites W1673751863 @default.
W4361285139 cites W1912388982 @default.
W4361285139 cites W1963502651 @default.
W4361285139 cites W1966969388 @default.
W4361285139 cites W1967293793 @default.
W4361285139 cites W1976422615 @default.
W4361285139 cites W1977933482 @default.
W4361285139 cites W1981737096 @default.
W4361285139 cites W1983186230 @default.
W4361285139 cites W1986191025 @default.
W4361285139 cites W1992192767 @default.
W4361285139 cites W1995217109 @default.
W4361285139 cites W2004593094 @default.
W4361285139 cites W2022034132 @default.
W4361285139 cites W2028440694 @default.
W4361285139 cites W2030914356 @default.
W4361285139 cites W2033357321 @default.
W4361285139 cites W2046853057 @default.
W4361285139 cites W2058851466 @default.
W4361285139 cites W2073332412 @default.
W4361285139 cites W2083411335 @default.
W4361285139 cites W2094072010 @default.
W4361285139 cites W2099025768 @default.
W4361285139 cites W2107517961 @default.
W4361285139 cites W2108862316 @default.
W4361285139 cites W2117692326 @default.
W4361285139 cites W2123257370 @default.
W4361285139 cites W2132402247 @default.
W4361285139 cites W2134967712 @default.
W4361285139 cites W2135368843 @default.
W4361285139 cites W2147479689 @default.
W4361285139 cites W2150193675 @default.
W4361285139 cites W2169228168 @default.
W4361285139 cites W2171419407 @default.
W4361285139 cites W2176696819 @default.
W4361285139 cites W2179504521 @default.
W4361285139 cites W2201278674 @default.
W4361285139 cites W2220893036 @default.
W4361285139 cites W2257487078 @default.
W4361285139 cites W2295358293 @default.
W4361285139 cites W2300792970 @default.
W4361285139 cites W2402258526 @default.
W4361285139 cites W2417740552 @default.
W4361285139 cites W2529089430 @default.
W4361285139 cites W2546736978 @default.
W4361285139 cites W2578618235 @default.
W4361285139 cites W2591755009 @default.
W4361285139 cites W2592973432 @default.
W4361285139 cites W2593436234 @default.
W4361285139 cites W2730189927 @default.
W4361285139 cites W2770278477 @default.
W4361285139 cites W2782873773 @default.
W4361285139 cites W2790131475 @default.
W4361285139 cites W2801088198 @default.
W4361285139 cites W2802518194 @default.
W4361285139 cites W2804822363 @default.
W4361285139 cites W2806397309 @default.
W4361285139 cites W2807541399 @default.
W4361285139 cites W2810016861 @default.
W4361285139 cites W2884610229 @default.
W4361285139 cites W2887703959 @default.
W4361285139 cites W2888936354 @default.
W4361285139 cites W2891104345 @default.
W4361285139 cites W2892724735 @default.
W4361285139 cites W2910183000 @default.
W4361285139 cites W2917946285 @default.
W4361285139 cites W2943874997 @default.
W4361285139 cites W2960978659 @default.
W4361285139 cites W2990795726 @default.
W4361285139 cites W3007927709 @default.
W4361285139 cites W3015311636 @default.
W4361285139 cites W3016668097 @default.
W4361285139 cites W3024960654 @default.
W4361285139 cites W4234714728 @default.
W4361285139 cites W4307230658 @default.
W4361285139 cites W4308052471 @default.
W4361285139 doi "https://doi.org/10.3390/molecules28073018" @default.
W4361285139 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37049781" @default.
W4361285139 hasPublicationYear "2023" @default.
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