Pravindra Kumar

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Pravindra Kumar
Born
India
Nationality
Indian Institute of Technology Roorkee

Professor Pravindra Kumar is an Indian

structure-based drug design
. Prof. Pravindra Kumar's primary research interest lies in studying Bacterial enzymes and pathways involved in the degradation of toxic aromatic compounds, such as PCBs, dibenzofuran, chlorodibenzofurans, DDT, dyes, and plastics/plasticizers. He focuses particularly on oxidoreductases enzymes due to their unique ability to catalyze challenging reactions, with a special emphasis on understanding their catalytic mechanisms and structural basis for guiding protein engineering. One notable achievement of his research group is the successful engineering of dioxygenases capable of metabolizing various toxic compounds, including those found in plastics (J. Bacteriol. 2016, BBRC 2012, JMB 2011, J.Biol. Chem. 2011).

Biography

IIT Roorkee

The global surge in plastic consumption has led to the "Plastic Age," prompting his interest in finding innovative strategies for PET bioconversion and recycling through the engineering of robust enzymes and microbial strains. Toxic substances, such as phthalate and terephthalate, commonly found in plastic bottles, packaging, personal care items, and industrial waste, leading to their detection in various aquatic environments. These toxic substances cause cancer and heart diseases and have been found to disrupt the endocrine system and have adverse effects on reproductive health and physical growth. Hiss recent work has resulted in determining the first crystal structures of key enzymes involved in the degradation of phthalates and terephthalate, leading to the successful engineering of oxidoreductases with remarkable abilities to metabolize these toxic compounds (J. Biol. Chem., 2021; J. Bacteriol., 2021; Arch. of Biochem. and Biophys., 2022). Additionally, he has also developed a phthalate binding protein-based system for extracting phthalates from contaminated water. Prof. Kumar's lab has engineered potent microbial enzymes to eliminate these harmful substances from the atmosphere, potentially mitigating environmental contamination.This was helpful for the development of biological systems that convert waste plastic into valuable products, promoting a circular economy and reducing plastic waste's environmental impact. Further, his contributions extend to antimicrobial research, where he has made significant strides. Notably, he successfully determined the crystal structure of a crucial bacterial enzyme (OXA-58) and identified a novel inhibitor that shows promise in combating antibiotic resistance (Antimicrob Agents Chemother. 2015; Mol Biosys. 2016; JMB 2019). Moreover, his research efforts have identified potential drug targets in Moraxella catarrhalis, leading to the discovery of new inhibitors that could be utilized in developing novel antimicrobials (Acta Crystallogr D 2015; Biochim Biophys Acta. 2018; Biochemie. 2018; Arch. of Biochem. and Biophys., 2020; Biochemie. 2022). In addition to his antimicrobial research, Prof. Kumar's laboratory has explored the antibacterial properties of chlorogenic acid, a natural compound found in various plant species, as a potential new class of antibiotics (Sci. Rep. 2017; J. Bacteriol., 2020). Furthermore, his team has extensively studied the structural aspects of plant proteins and secondary metabolites from medicinal plants, leading to various discoveries with potential therapeutic implications (FEBS J 2012; PLoS One. 2013; Proteins; Proteomics 2015; Sci. Rep. 2017; Sci. Rep. 2020). Through collaboration, his team has discovered novel antivirals and patented an enzyme assay and kit for identifying inhibitors of alphavirus/Chikungunya virus (PLoS One 2013; J Virol. 2014; Sci Rep. 2017; Antiviral Res. 2017; Virology 2018; Virus Res. 2021; Virology 2022; FEBS J 2022). Prof. Pravindra Kumar's wide-ranging contributions to the understanding of enzymes, bacterial pathways, and potential drug targets have significant implications for both national and international issues. His research on plastics degradation can help address environmental pollution and promote sustainable practices in waste management. Additionally, his antimicrobial work offers promising solutions to combat antibiotic resistance and emerging viral threats, benefiting global public health efforts. Furthermore, his investigations into plant therapeutic proteins contribute to the advancement of medicinal sciences and the development of novel therapies for various ailments. Pravindra Kumar also focuses his interest on

aromatic amino acids and this could inhibit the growth of bacteria.[4] His studies have been documented by way of a number of articles[5][note 1] and ResearchGate, an online repository of scientific articles has listed 117 of them.[6]

Awards and honors

  • The Department of Biotechnology (DBT) of the Government of India awarded him the National Bioscience Award for Career Development, one of the highest Indian science awards in 2015.
  • Prof. Pravindra Kumar received a prestigious award as the chairperson from the Ashok Soota Foundation. Ashok Soota, Executive Chairman of Happiest Minds Technologies Limited, is widely recognized as one of the pioneering leaders of the Indian IT industry. As a serial entrepreneur, he has led both companies where he was founding Chairman to very successful IPOs: Happiest Minds (2020) and MindTree (2007).
  • A Fellow, Biotech Research Society, India (BRSI) in 2021.
  • ASM-IUSSTF INDO-US Visiting Professorship in 2017.
  • IUSSTF Award for organizing Indo-US workshop and Symposium in 2014.
  • BOYSCAST award from Department of Science and Technology, India and Visiting Scientist to USA in 2008.
  • Visiting Scientist at Purdue University, USA from May - July 2006.
  • National Bioscience Award by Department of Biotechnology (DBT), Ministry of Science & Technology, Govt. of India in 2016.
  • S.V. TALEKAR MEDAL for Best Post Graduate Degree in AIIMS, DELHI in 2001.

[7]

Selected bibliography

See also

Notes

  1. ^ Please see Selected bibliography section

References

  1. ^ "Faculty profile" (PDF). IIT Roorkee. 15 May 2018. Retrieved 15 May 2018.
  2. doi:10.1038/nindia.2017.121 (inactive 31 January 2024). Retrieved 15 May 2018.{{cite journal}}: CS1 maint: DOI inactive as of January 2024 (link
    )
  3. ^ "IIT Roorkee discovered the antibacterial mechanism of a natural compound obtained from plant species". India Today. 23 February 2018. Retrieved 15 May 2018.
  4. ^ "IIT-Roorkee study finds coffee compound may lead to new class of antibiotics - Times of India". The Times of India. 25 February 2018. Retrieved 15 May 2018.
  5. ^ "On Google Scholar". Google Scholar. 15 May 2018. Retrieved 15 May 2018.
  6. ^ "On ResearchGate". 15 May 2018. Retrieved 15 May 2018.
  7. ^ "Awardees of National Bioscience Awards for Career Development" (PDF). Department of Biotechnology. 2016. Retrieved 20 November 2017.

External links

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