ArticlesAbstractPharmacognosy Research,2022,14,2,188-194.DOI:10.5530/pres.14.2.27Published:April 2022Type:Original ArticleAuthors:Thiyagarajan Sathishkumar, Muruvanda Bhuvan Uthaiah, Ravichandran Vinu Varshith, Kuppamuthu Kumaresan, and Vinohar Stephen Rapheal Author(s) affiliations:Thiyagarajan Sathishkumar, Muruvanda Bhuvan Uthaiah*, Ravichandran Vinu Varshith, Kuppamuthu Kumaresan, Vinohar Stephen Rapheal Department of Biotechnology, Kumaraguru College of Technology, Coimbatore, Tamil Nadu, INDIA. Abstract:Background: Cardiovascular diseases are responsible for severe mortality rate amongst the population. Several drugs available to control and/ or cure the same, cause severe adverse effects amidst human population. Contextually, the present study was devised to screen the in vitro cholesterol esterase (CEase) activity of few selected vegetables as an indicator of cardioprotective property. Objectives: To screen and purify the polyphenolic fractionate from the vegetable(s) extract that record an optimal CEase activity. Materials and Methods: CEase inhibitory activity was investigated using standard spectrophotometric assay. Microwave assisted central composite design based response surface methodology (CCD based RSM) was executed to quantify an improvement in the CEase inhibitory activity of Solanum melongena extract. One dimensional thin layer chromatography (1D TLC) and two-dimensional preparative thin layer chromatography (2D PTLC) analyses were carried out for Brassica oleracea var. botrytis hot water extract to identify and eluate the polyphenolic fractionate, respectively. Results: Significant CEase inhibitory activity was noticed in the hot water extract of Brassica oleracea var. botrytis (84.65 ± 3.29%) than the other vegetable extracts. Even though the optimal process model was validated (at 5% level), no significant improvement was recorded in the CEase inhibition. The presence of polyphenolic content in the hot water extract of Brassica oleracea var. botrytis (Rf = 0.69) was confirmed by comparing with standard quercetin (Rf = 0.60). Strong blue and moderate brownish yellow color spots revealed the presence of phenolic acid and flavonoid eluates respectively, were purified using 2D PTLC technique. The eluate has recorded a near moderate (28.57 ± 2.12%) CEase inhibitory activity. Conclusion: Brassica oleracea var. botrytis possess significant CEase inhibitory activity and proved to be a good diet to protect from various cardiovascular diseases. Key words: Brassica oleracea var. botrytis, Cholesterol esterase, Solanum melongena, Microwave Assisted Response Surface Methodology, Flavonoid. View:PDF (245.05 KB) PDF Thumbnails Document Outline Search Document Find Toggle Sidebar Previous Next Page: Fullscreen Print Download Current View Zoom Out Zoom In Automatic Zoom Actual Size Fit Page Full Width 50% 75% 100% 125% 150% 200% More Information Less Information Close Click here to download the PDF file. Images Contour plot and (A1) Surface plot of output % cholesterol esterase inhibition vs. Power (W), Time (sec) (B) Contour plot and (B1) ‹ Physicochemical Properties, GC-MS Analysis and Impact of Different Material Size on Yield of Himalayan C. deodara Essential Oil up Phytochemical Analysis of Cleome viscosa Active Polyphenolic Compounds Possessing Antidiabetic Activity ›