Computational Analysis of Anion Transporter Proteins Revealed Rv3679 and Rv2397c as Potential Drug Targets for MycobacteriumTuberculosis

Authors

  • Vikas Jha National Facility for Biopharmaceuticals, Guru Nanak Khalsa College of Arts, Science & Commerce, Mumbai, Maharashtra 400019, India Author
  • Sankalp Kasabe National Facility for Biopharmaceuticals, Guru Nanak Khalsa College of Arts, Science & Commerce, Mumbai, Maharashtra 400019, India Author
  • Darpan Kaur National Facility for Biopharmaceuticals, Guru Nanak Khalsa College of Arts, Science & Commerce, Mumbai, Maharashtra 400019, India Author
  • Arpita Marick National Facility for Biopharmaceuticals, Guru Nanak Khalsa College of Arts, Science & Commerce, Mumbai, Maharashtra 400019, India Author
  • Ashish Jhangiani National Facility for Biopharmaceuticals, Guru Nanak Khalsa College of Arts, Science & Commerce, Mumbai, Maharashtra 400019, India Author
  • Reetikesh Patel National Facility for Biopharmaceuticals, Guru Nanak Khalsa College of Arts, Science & Commerce, Mumbai, Maharashtra 400019, India Author
  • Kabir Thakur National Facility for Biopharmaceuticals, Guru Nanak Khalsa College of Arts, Science & Commerce, Mumbai, Maharashtra 400019, India Author
  • Vrushali Dhamapurkar National Facility for Biopharmaceuticals, Guru Nanak Khalsa College of Arts, Science & Commerce, Mumbai, Maharashtra 400019, India Author
  • Nimisha Rane School of Biotechnology and Bioinformatics, D Y Patil Deemed to be University, Navi Mumbai, Maharashtra 400614, India Author
  • Arpita Singh School of Biotechnology and Bioinformatics, D Y Patil Deemed to be University, Navi Mumbai, Maharashtra 400614, India Author
  • Saloni Rasal National Facility for Biopharmaceuticals, Guru Nanak Khalsa College of Arts, Science & Commerce, Mumbai, Maharashtra 400019, India Author

DOI:

https://doi.org/10.47363/JIDSCR/2022(3)169

Keywords:

Mycobacterium Tuberculosis, Anion Transporter, Molecular Docking, Physio-Chemical Analysis, Structure Validation, Homology Modelling, Drug Target

Abstract

Tuberculosis is still a serious, life-threatening disease all throughout the world. One of the greatest therapeutic challenges is the treatment of multidrugresistant tuberculosis. The prevalence of multidrug resistant tuberculosis (MDR-TB) poses a danger to the ability of conventional control strategies to stem the global TB epidemic. Drug resistance in TB is primarily a result of poor prescribing practices, noncompliance with treatment regimens, erratic drug supply, and subpar drug quality. The cell wall composition of Mycobacterium tuberculosis makes it many times less permeable to chemotherapeutic drugs, the current vaccination only provides modest protection against the disease. The cell membrane, which is made up of proteins from the ATP binding cassette family, allows Mycobacterium tuberculosis to quickly alter its cellular membrane to adapt to an unfavourable environment. A greater understanding of such transport proteins may lead to earlier detection and more effective therapeutic drug targets. A thorough computational analysis of Mycobacterium tuberculosis anion transporter proteins was conducted. Bioinformatics tools were used to predict its physiochemical properties, secondary structure, functional analysis, protein-protein interaction, subcellular localization, and molecular docking was also carried out. From the selected proteins, Rv3679 and Rv2397c exhibited best results and can be considered as potential drug targets.

Author Biographies

  • Vikas Jha, National Facility for Biopharmaceuticals, Guru Nanak Khalsa College of Arts, Science & Commerce, Mumbai, Maharashtra 400019, India

    National Facility for Biopharmaceuticals, Guru Nanak Khalsa College of Arts, Science & Commerce, Mumbai, Maharashtra 400019, India

  • Sankalp Kasabe, National Facility for Biopharmaceuticals, Guru Nanak Khalsa College of Arts, Science & Commerce, Mumbai, Maharashtra 400019, India

    National Facility for Biopharmaceuticals, Guru Nanak Khalsa College of Arts, Science & Commerce, Mumbai, Maharashtra 400019, India

  • Darpan Kaur, National Facility for Biopharmaceuticals, Guru Nanak Khalsa College of Arts, Science & Commerce, Mumbai, Maharashtra 400019, India

    National Facility for Biopharmaceuticals, Guru Nanak Khalsa College of Arts, Science & Commerce, Mumbai, Maharashtra 400019, India

  • Arpita Marick, National Facility for Biopharmaceuticals, Guru Nanak Khalsa College of Arts, Science & Commerce, Mumbai, Maharashtra 400019, India

    National Facility for Biopharmaceuticals, Guru Nanak Khalsa College of Arts, Science & Commerce, Mumbai, Maharashtra 400019, India

  • Ashish Jhangiani, National Facility for Biopharmaceuticals, Guru Nanak Khalsa College of Arts, Science & Commerce, Mumbai, Maharashtra 400019, India

    National Facility for Biopharmaceuticals, Guru Nanak Khalsa College of Arts, Science & Commerce, Mumbai, Maharashtra 400019, India

  • Reetikesh Patel, National Facility for Biopharmaceuticals, Guru Nanak Khalsa College of Arts, Science & Commerce, Mumbai, Maharashtra 400019, India

    National Facility for Biopharmaceuticals, Guru Nanak Khalsa College of Arts, Science & Commerce, Mumbai, Maharashtra 400019, India

  • Kabir Thakur, National Facility for Biopharmaceuticals, Guru Nanak Khalsa College of Arts, Science & Commerce, Mumbai, Maharashtra 400019, India

    National Facility for Biopharmaceuticals, Guru Nanak Khalsa College of Arts, Science & Commerce, Mumbai, Maharashtra 400019, India

  • Vrushali Dhamapurkar, National Facility for Biopharmaceuticals, Guru Nanak Khalsa College of Arts, Science & Commerce, Mumbai, Maharashtra 400019, India

    National Facility for Biopharmaceuticals, Guru Nanak Khalsa College of Arts, Science & Commerce, Mumbai, Maharashtra 400019, India

  • Nimisha Rane, School of Biotechnology and Bioinformatics, D Y Patil Deemed to be University, Navi Mumbai, Maharashtra 400614, India

    School of Biotechnology and Bioinformatics, D Y Patil Deemed to be University, Navi Mumbai, Maharashtra 400614, India

  • Arpita Singh, School of Biotechnology and Bioinformatics, D Y Patil Deemed to be University, Navi Mumbai, Maharashtra 400614, India

    School of Biotechnology and Bioinformatics, D Y Patil Deemed to be University, Navi Mumbai, Maharashtra 400614, India

  • Saloni Rasal, National Facility for Biopharmaceuticals, Guru Nanak Khalsa College of Arts, Science & Commerce, Mumbai, Maharashtra 400019, India

    National Facility for Biopharmaceuticals, Guru Nanak Khalsa College of Arts, Science & Commerce, Mumbai, Maharashtra 400019, India

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Published

2022-10-31

Issue

Vol. 3 No. 4 (2022): Volume 3 Issue 4

Section

Articles