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World Journal of Pharmacy and
Pharmaceutical Sciences

( An ISO 9001:2015 Certified International Journal )

An International Peer Reviewed Journal for Pharmaceutical and Medical Research and Technology

Impact Factor : 8.025

ICV : 84.65

WJPPS Citation

	All	Since 2019
Citation	5450	3969
h-index	23	20
i10-index	134	84

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WJPPS introducing updated version of OSTS (online submission and tracking system), which have dedicated control panel for both author and reviewer. Using this control panel author can submit manuscript

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WJPPS Impact Factor has been Increased to 8.025 for Year 2024.

WJPPS Rank with Index Copernicus Value 84.65 due to high reputation at International Level

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WJPPS is indexed in Scope Database based on the recommendation of the Content Selection Committee (CSC).

WJPPS: NOVEMBER ISSUE PUBLISHED

NOVEMBER 2024 Issue has been successfully launched on 1 NOVEMBER 2024.

Abstract

QSAR STUDY OF 7-CHLOROQUINOLINE DERIVATIVES AS ANTITUBERCULAR AGENTS

Ravichandran Veerasamy*, Shalini Sivadasan, Sokkalingam Arumugam Dhanaraj, Harish Rajak and Suresh Kumar

ABSTRACT

The major issue for many antimycobacterial agents is the resistance of Mycobacterium tuberculosis strains. Quinoline compounds serve as anti-mycobacterial agents with encouraging anti-tubercular activity. A linear quantitative structure activity relationship (QSAR) model is presented for modeling and predicting anti-tubercular activity of 7- chloroquinolines. The database consisting of eight 7-chloroquinolines was used to develop the model using step-wise multiple linear regression technique. The developed QSAR model was validated and evaluated for statistical significance. Physiochemical descriptors serve as the first line guidance for the design of potent and novel antitubercular agents. The key conclusion of this study is that the number of hydrogen bond acceptors and LR1 significantly influence the anti-tubercular activity of novel 7- chloroquinoline derivatives.

Keywords: Anti-tubercular agents; tuberculosis; quantitative structure activity relationship; 7-chloroquinoline derivatives

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