Indian Journal of Chemical Technology

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In Silico Analysis of Cubebinol for Evaluating its Efficiency against Menacing Respiratory Ailments


Affiliations
1 Centre for Nanoscience and Technology, Anna University, Chennai-600 025, India
 

Over the recent decade a survey states that the advent of respiratory diseases had took a rapid transmittance and transformation rate. The mortality and the morbidity rates were also exorbitant. Piper cubeba is one of the traditional plant species belongs to Piperacea family, which possess good antibacterial activity. The plant comprise of several phytocomponent one among which is cubebinol, whose specific activities have not been much explored. Hence it is subjected in this research and its antibacterial efficiency is investigated through virtual screening technique. Techniques like Auto dock, Discovery studio, Pymol are evolved in the investigation to know the unknown nature of the phytocomponent by analyzing its binding affinity along with the major respiratory disease causing organism’s macromolecules. Thus it manifests the efficiency and the potency of the plant phytocomponent, which is found to be better than that of the readily available and commercially consumed drug molecules. By both the pharmacokinetic test as well as the docking validation we found that the docked ligand compound cubebinol is a potent drug against several fatal bacterial respiratory diseases.

Keywords

Cubebinol, Molecular Docking, Phytochemical, Piper cubeba, Respiratory Diseases.
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  • Ferkol T, Schraufnagel D, Ann Am Thorac Soc, 3 (2014) 404. doi: 10.1513/AnnalsATS.201311-405PS.

  • National Asthma Education Program, Expert Panel on the Management of Asthma. Guidelines for the Diagnosis and Management of Asthma, By National Heart Lungs and Blood Institute. (2007).

  • Petty T L, Int J Chron Obstruct Pulmon Dis, 1 (2006) 3. doi:10.2147/copd.2006.1.1.3.

  • Davis P B, Am J Respir Crit Care Med, 173 (2006) 475.

  • Daniel T M, Bates J H & Downes K A, History of Tuberculosis, In Tuberculosis, (John Wiley & Sons, Ltd.: Hoboken, NJ, USA), 1994; p. 13.

  • Sudre G D P & Kochi A, Sudre, Philippe, G. Ten Dam, and Arata Kochi. Bulletin of the World Health Organization 70 (1992) 149.

  • Wistuba I I & Gazdar A F, Annu Rev Pathol, 1 (2006) 331.

  • Umashankar V, Deshpande S H, Hegde H V, Singh I & Chattopadhyay D, Front Med (Lausanne), 8 (2021) 672629.

  • Baptista R, Bhowmick S, Shen J & Mur L A J, Molecules, 26 (2021) 475.

  • Hearon W M & MacGregor W S, Chem Rev, 55 (1955) 957.

  • Morris G M & Lim-Wilby M, Methods Mol Biol, 443 (2008) 365.

  • Dias R & Jr Azevedo W F, Curr Dug Targets, 9 (2008) 1040.

  • Morris G M, Huey R & Olson A J, Curr Protoc Bioinformatics, Dec 2008, Chapter 8: Unit 8.14. doi:10.1002/0471250953.bi0814s24.

  • Sandro Cosconati S F, Alex L P, Rodney H, Olson D S G A J, Expert Opin Drug Discov, 5 (2010) 597.

  • Morris G M, Goodsell D S, Huey R, Hart W E, Halliday S, Belew R & Olson A J, J Comput Chem, 30 2009) 2785.

  • Berman H M., Battistuz T, Bhat T N, Bluhm W F, Bourne P E, Burkhardt K, Feng Z, Gilliland G L, Iype L, Jain S & Fagan P, Marvin J, Padilla D, Ravichandran V, Schneider B, Thanki N, Weissig H, Westbrook J D, Zardecki C, Acta Crystallogr D Biol Crystallogr, 58 (2002) 899.

  • Berman H M, Kleywegt G J, Nakamura H & Markley J L, Structure 21(2013) 1485.

  • Batterbee J E, Burden R S, Crombie L & Whiting D A, J Chem Soc C: Org, 19 (1969) 2470.

  • Karthikeyan M, Karthikeyan B S, R P Vivek-Ananth, R P Chand, R. P. Bharath, S R Aparna, Pattulingam M & Samal A, Sci Rep, 8 (2018) 4329.

  • Rizvi S M D, Shakil S & Haneef M, EXCLI J, 12 (2013) 831.

  • Cheng F, Li W, Zhou Y, Shen J, Wu Z, Liu G, Lee P W & Tang Y, J Chem Inf Model, 52 (2012) 3099.

  • Marek O, Filipovič J & Prokop M, Computing and Informatics, 29 (2010) 1325.

  • Trott O & Olson A J,. J Comput Chem, 31 (2010) 455.

  • Jejurikar B L & Rohane S H, Asian J Res Chem, 14 (2020) 1.

  • Kastritis P L & Bonvin A M, J Royal Soc Interface, 10 (2013) 20120835.

  • Seo S, Choi J, Park S & Ahn J, BMC Bioinform, 22 (2021) 542.

  • Pantsar T & Poso A, Molecules, 23 (2018) 1.

  • Gurung A B, Bhattacharjee A & Ali M A, Inform Med Unlocked, 5 (2016) 1.

  • Elijah S, Uba S & Uzairu A, Turkish Comput Theor Chem, 3 (2019) 17.

  • Reva B A, Finkelstein A V & Skolnick J, Fold Des, 3 (1998) 141.

  • Chen D, Oezguen N, Urvil P, Ferguson C, Dann S M & Savidge T C, Sci Adv, 2 (2016) e1501240.

  • Umamaheswari M, Aji C S & Asokkumar K, Sivsshanmugam T, Subhadradevi V, Jagannath P & Madeswaran A,. Bangladesh J Pharmacol, 7 (2012) 108.

  • Balcells M E, Thomas S L, Godfrey-Faussett P & Grant A D, Emerg Infect Dis, 12 (2006) 744.

  • Benet L Z, Hosey C M, Ursu O & Oprea T I, Adv Drug Deliv Rev, 101 (2016) 89.

  • Bickerton G R, Paolini G V, Besnard J, Muresan S & Hopkins A L, Nat Chem, 4 (2012) 90.

  • Craciun D, Modra D & Isvoran A, AIP Conf Proc, 1694 (2015) 1.

  • Cao Y, Khan, Afrasyab, Mirzaei H, Reza K S, Javan Ma, Ng K L A, Norouzi A,Tazikeh L, Pishnamazi M E, Soltani & Alireza A A B, J Mol Liq, 334 (2021) 116516.

  • Schupp T & Plehiers P M, Toxicol Ind Health Sep, 38 (2022) 500.

  • Sun D, Gao W, Hu H & Zhou S, Acta Pharm Sin B, 12 (2022) 3049.


Abstract Views: 80

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  • In Silico Analysis of Cubebinol for Evaluating its Efficiency against Menacing Respiratory Ailments

Abstract Views: 80  |  PDF Views: 57

Authors

Hari Lakshmi S
Centre for Nanoscience and Technology, Anna University, Chennai-600 025, India
T Devasena
Centre for Nanoscience and Technology, Anna University, Chennai-600 025, India

Abstract


Over the recent decade a survey states that the advent of respiratory diseases had took a rapid transmittance and transformation rate. The mortality and the morbidity rates were also exorbitant. Piper cubeba is one of the traditional plant species belongs to Piperacea family, which possess good antibacterial activity. The plant comprise of several phytocomponent one among which is cubebinol, whose specific activities have not been much explored. Hence it is subjected in this research and its antibacterial efficiency is investigated through virtual screening technique. Techniques like Auto dock, Discovery studio, Pymol are evolved in the investigation to know the unknown nature of the phytocomponent by analyzing its binding affinity along with the major respiratory disease causing organism’s macromolecules. Thus it manifests the efficiency and the potency of the plant phytocomponent, which is found to be better than that of the readily available and commercially consumed drug molecules. By both the pharmacokinetic test as well as the docking validation we found that the docked ligand compound cubebinol is a potent drug against several fatal bacterial respiratory diseases.

Keywords


Cubebinol, Molecular Docking, Phytochemical, Piper cubeba, Respiratory Diseases.

References