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W4285282882 endingPage "139" @default.
W4285282882 startingPage "115" @default.
W4285282882 abstract "Microbial species are known to grow in diverse environmental conditions and have shown remarkable adaptability toward extreme conditions. Temperature plays a critical role in the survival and growth of such microorganisms and their presence varies widely on different parts of the biosphere ranging from subzero cold in Polar regions to very high-temperature ranges in hot springs, volcanic eruptions, and desert regions. It is evident that genetic variability and cellular adaptations under such extreme temperature ranges brings differences in microbial survival. A complete understanding of these adaptation mechanisms would decipher the molecular pathways involved in protecting the cell damage. As the discovery of thermostable polymerase revolutionized the field of genetic engineering, a similar interest could be envisaged with thermostable enzymes present within extremophiles which holds immense industrial applications. Cellulase and beta-glucosidase from thermophiles have been shown to be more efficient for second-generation biofuels production using agricultural or forestry residues in biorefineries. Further, extremophilic enzymes can be employed in other applications such as the production of lactose-free milk products or production of stonewashed jeans in textile industry. Thus this chapter focuses on a variety of microorganisms found in extreme temperature conditions, their molecular mechanisms for survival and the production of extremozymes that can be used for industrially relevant bioprocesses." @default.
W4285282882 created "2022-07-14" @default.
W4285282882 creator A5000836506 @default.
W4285282882 creator A5015716807 @default.
W4285282882 creator A5073314400 @default.
W4285282882 date "2022-01-01" @default.
W4285282882 modified "2023-10-16" @default.
W4285282882 title "Microbial adaptation to extreme temperatures: an overview of molecular mechanisms to industrial application" @default.
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