Please use this identifier to cite or link to this item: http://10.9.150.37:8080/dspace//handle/atmiyauni/915
Title: Solvent tolerant enzymes in extremophiles: Adaptations and applications
Authors: Kikani, Bhavtosh
Patel, Rajesh
Thumar, Jignasha
Bhatt, Hitarth
Rathore, Dalip Singh
Koladiya, Gopi
Singh, Satya P.
Keywords: Extremophiles
Non aqueous enzymes
Solvent stability
Adaptations
Immobilization
Issue Date: 16-Mar-2023
Publisher: International Journal of Biological Macromolecules
Citation: Kikani, B., Patel, R., Thumar, J., Bhatt, H., Rathore, D. S., Koladiya, G. A., & Singh, S. P. (2023). Solvent tolerant enzymes in extremophiles: Adaptations and applications. International Journal of Biological Macromolecules, 124051.
Abstract: Non-aqueous enzymology has always drawn attention due to the wide range of unique possibilities in bio-catalysis. In general, the enzymes do not or insignificantly catalyze substrate in the presence of solvents. This is due to the interfering interactions of the solvents between enzyme and water molecules at the interface. Therefore, information about solvent-stable enzymes is scarce. Yet, solvent-stable enzymes prove quite valuable in the present day biotechnology. The enzymatic hydrolysis of the substrates in solvents synthesizes commercially valuable products, such as peptides, esters, and other transesterification products. Extremophiles, the most valuable yet not extensively explored candidates, can be an excellent source to investigate this avenue. Due to inherent structural attributes, many extremozymes can catalyze and maintain stability in organic solvents. In the present review, we aim to consolidate information about the solvent-stable enzymes from various extremophilic microorganisms. Further, it would be interesting to learn about the mechanism adapted by these microorganisms to sustain solvent stress. Various approaches to protein engineering are used to enhance catalytic flexibility and stability and broaden biocatalysis's prospects under non-aqueous conditions. It also describes strategies to achieve optimal immobilization with minimum inhibition of the catalysis. The proposed review would significantly aid our understanding of non-aqueous enzymology.
Description: The work included in this review from the author's laboratory at the Saurashtra University was supported under the University Grants Commission (UGC)-CAS Program, DST-FIST, DBT-Multi-Institutional Project, MoES (Government of India) Net Working Project and the Saurashtra University. SPS acknowledges the award of UGC-BSR Faculty Fellowship. The authors duly acknowledge the support from DST, SERB, DBT, MoES, UGC and CSIR in the form of Fellowships and International Travel Grants. Further, the authors duly acknowledge the institutions of their current affiliation for support.
URI: http://10.9.150.37:8080/dspace//handle/atmiyauni/915
ISSN: 0141-8130
Appears in Collections:01. Journal Articles

Files in This Item:
File Description SizeFormat 
466) 22119_Hitarth Bhagirathbhai Bhatt.pdf5.32 MBAdobe PDFView/Open
Show full item record


Items in DSpace are protected by copyright, with all rights reserved, unless otherwise indicated.