In Silico Analysis of S315T and S315R Mutations of Multidrug-resistant <i>Mycobacterium tuberculosis </i>Clinical Isolates from Karachi, Pakistan

AuthorMuhammad Mumtaz Khanen
AuthorMaria S Alvesen
AuthorSadia Alamen
AuthorMohammad H Khanen
AuthorMuhammad Jahangiren
AuthorAbdul Jabbaren
AuthorRehmat Zamanen
AuthorSajid Alien
AuthorAisha Bibien
AuthorMustafa Kamalen
Issued Date2020-09-30en
AbstractBackground: Tuberculosis is one of the most frequent and persistent global diseases causing millions of deaths every year. Pakistan lies at number 6 among the 22 most dominant countries, with multidrug resistance up to 15%. Isoniazid-resistant strains of Mycobacterium tuberculosis are gradually rising and seem to be more prevalent in developing countries. Mutations in the katG gene are considered to be responsible for the accusation of isoniazid resistance in M. tuberculosis. Objectives: The current study was designed to investigate the structural and functional associations of KatG gene mutations (S315R and S315T) and multidrug resistance in M. tuberculosis isolates from Karachi, Pakistan. Results: The present study revealed conformational changes in the structure of the KatG enzyme due to observed mutations, which led to induced alterations in isoniazid binding residues at the active site of the KatG enzyme. Furthermore, substantial changes were observed in interaction energy, ligand-receptor energy, electrostatic energy, salvation energy, and ligand-receptor conformational entropy. All these resultant modifications due to S315R and S315T mutations ultimately reduced the flexibility and stability of proteins at isoniazid-binding residues. Conclusions: This deviation in the consistency of protein texture eventually compromises the enzyme activity. It is well expected that the outcomes of the current study would provide a better understanding of the consequences of these mutations and provide a detailed insight into some previously unknown features.en
DOIhttps://doi.org/10.5812/jjm.100948en
URIhttps://brieflands.com/journals/jjm/articles/100948en
Keyword<i>Mycobacterium tuberculosis</i>en
Keyword<i>KatG</i>en
KeywordIsoniaziden
KeywordResistanceen
KeywordMutationen
KeywordDockingen
PublisherBrieflandsen
TitleIn Silico Analysis of S315T and S315R Mutations of Multidrug-resistant <i>Mycobacterium tuberculosis </i>Clinical Isolates from Karachi, Pakistanen
TypeResearch Articleen

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