Computational evaluation on spectroscopic (FT-IR, Raman), electronic and biological, and NLO properties of cirsilineol by DFT, ADMET, and molecular docking method

Computational evaluation on spectroscopic (FT-IR, Raman), electronic and biological, and NLO properties of cirsilineol by DFT, ADMET, and molecular docking method

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Cirsilineol is a natural product that has pharmacological characteristics and is used to prevent the growth of cancer. This study aims to investigate the spectroscopic, electronic, and biological properties of drugs and predict their suitability for drug-like candidates to inhibit prostate cancer....

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Main Authors: Tirth Raj Paneru, Poonam Tandon, Bhawani Datt Joshi
Format: Article
Language:English
Published: Department of Physics, Mahendra Morang Adarsh Multiple Campus, Tribhuvan University 2025-01-01
Series:Bibechana
Subjects:
Cirsilineol
Vibrational spectra
Electrostatic potential
ADMET
van der Waals surface
UV-Vis spectra
Online Access:https://www.nepjol.info/index.php/BIBECHANA/article/view/70126
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author Tirth Raj Paneru
Poonam Tandon
Bhawani Datt Joshi
author_facet Tirth Raj Paneru
Poonam Tandon
Bhawani Datt Joshi
author_sort Tirth Raj Paneru
collection DOAJ
description Cirsilineol is a natural product that has pharmacological characteristics and is used to prevent the growth of cancer. This study aims to investigate the spectroscopic, electronic, and biological properties of drugs and predict their suitability for drug-like candidates to inhibit prostate cancer. The computational evaluation was performed with density functional theory (DFT) at B3LYP/6−311++G(d,p) level of theory and drug-like characteristics rendered from ADMET analysis. Spectral measurement for IR and Raman provided evidence of intra-molecular hydrogen bonding of the OH group in ring R1. The electronic transition properties of the title compound were determined using TD-DFT with a polarized continuum model in solvent ethanol, resulting in a blue shift in absorption wavelength. The electrostatic potential mapped with the van der Wall surface predicted effective electrophiles and nucleophiles, allowing for the layout of intra- and intermolecular hydrogen bonds. The pharmacological properties of cirsilineol determined by ADMED analysis confirmed that it is non-toxic. To assess the biological performance of cirsilineol, molecular docking was performed with protein codes 1E3G and 1GS4, which showed inhibition action with binding affinity −7.7 and −7.8 kcal/mol, respectively.
format Article
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institution Kabale University
issn 2091-0762
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language English
publishDate 2025-01-01
publisher Department of Physics, Mahendra Morang Adarsh Multiple Campus, Tribhuvan University
record_format Article
series Bibechana
spelling doaj-art-e1faa0d365e04ccebaaf033b70ab2bd92025-01-27T13:14:22ZengDepartment of Physics, Mahendra Morang Adarsh Multiple Campus, Tribhuvan UniversityBibechana2091-07622382-53402025-01-01221Computational evaluation on spectroscopic (FT-IR, Raman), electronic and biological, and NLO properties of cirsilineol by DFT, ADMET, and molecular docking method Tirth Raj Paneru0Poonam Tandon1Bhawani Datt Joshi2Department of General Science, Far Western University, Kanchanpur, NepalDepartment of Physics, University of Lucknow, Lucknow-226007, IndiaDepartment of Physics, Siddhanath Science Campus, Tribhuvan University, Mahendranagar, 10400, Nepal Cirsilineol is a natural product that has pharmacological characteristics and is used to prevent the growth of cancer. This study aims to investigate the spectroscopic, electronic, and biological properties of drugs and predict their suitability for drug-like candidates to inhibit prostate cancer. The computational evaluation was performed with density functional theory (DFT) at B3LYP/6−311++G(d,p) level of theory and drug-like characteristics rendered from ADMET analysis. Spectral measurement for IR and Raman provided evidence of intra-molecular hydrogen bonding of the OH group in ring R1. The electronic transition properties of the title compound were determined using TD-DFT with a polarized continuum model in solvent ethanol, resulting in a blue shift in absorption wavelength. The electrostatic potential mapped with the van der Wall surface predicted effective electrophiles and nucleophiles, allowing for the layout of intra- and intermolecular hydrogen bonds. The pharmacological properties of cirsilineol determined by ADMED analysis confirmed that it is non-toxic. To assess the biological performance of cirsilineol, molecular docking was performed with protein codes 1E3G and 1GS4, which showed inhibition action with binding affinity −7.7 and −7.8 kcal/mol, respectively. https://www.nepjol.info/index.php/BIBECHANA/article/view/70126Cirsilineol Vibrational spectra Electrostatic potential ADMET van der Waals surface UV-Vis spectra
spellingShingle Tirth Raj Paneru
Poonam Tandon
Bhawani Datt Joshi
Computational evaluation on spectroscopic (FT-IR, Raman), electronic and biological, and NLO properties of cirsilineol by DFT, ADMET, and molecular docking method
Bibechana
Cirsilineol
Vibrational spectra
Electrostatic potential
ADMET
van der Waals surface
UV-Vis spectra
title Computational evaluation on spectroscopic (FT-IR, Raman), electronic and biological, and NLO properties of cirsilineol by DFT, ADMET, and molecular docking method
title_full Computational evaluation on spectroscopic (FT-IR, Raman), electronic and biological, and NLO properties of cirsilineol by DFT, ADMET, and molecular docking method
title_fullStr Computational evaluation on spectroscopic (FT-IR, Raman), electronic and biological, and NLO properties of cirsilineol by DFT, ADMET, and molecular docking method
title_full_unstemmed Computational evaluation on spectroscopic (FT-IR, Raman), electronic and biological, and NLO properties of cirsilineol by DFT, ADMET, and molecular docking method
title_short Computational evaluation on spectroscopic (FT-IR, Raman), electronic and biological, and NLO properties of cirsilineol by DFT, ADMET, and molecular docking method
title_sort computational evaluation on spectroscopic ft ir raman electronic and biological and nlo properties of cirsilineol by dft admet and molecular docking method
topic Cirsilineol
Vibrational spectra
Electrostatic potential
ADMET
van der Waals surface
UV-Vis spectra
url https://www.nepjol.info/index.php/BIBECHANA/article/view/70126
work_keys_str_mv AT tirthrajpaneru computationalevaluationonspectroscopicftirramanelectronicandbiologicalandnlopropertiesofcirsilineolbydftadmetandmoleculardockingmethod
AT poonamtandon computationalevaluationonspectroscopicftirramanelectronicandbiologicalandnlopropertiesofcirsilineolbydftadmetandmoleculardockingmethod
AT bhawanidattjoshi computationalevaluationonspectroscopicftirramanelectronicandbiologicalandnlopropertiesofcirsilineolbydftadmetandmoleculardockingmethod

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