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W4226369649 abstract "An endeavor to accommodate sustainability within chemical manufacturing led to the recently popularized green chemistry. For a chemical process to be green, it must meet the following criteria: avoiding usage of non-biodegradable materials, all industrial processing transformations should lead to minimal waste accumulation, the processes must be cost-effective, both energetically and economically, etc. This is why biocatalysis using enzymes brought about a monumental shift toward a greener chemical process. Since its initial introduction, enzymes have mediated almost all industrial sectors, from pharmaceutics to food industry, pulp, textile, agro-waste management, bioremediation, etc. Recently, metagenomic approaches have led to the discovery of enzymes from extremophilic organisms that thrive under conditions considered optimal for most life on earth. Most of these extreme-loving organisms are bacterial or fungal in origin. Regardless of their origin, it has been demonstrated that extremozymes produced by them are far more efficient and resilient under the harsh industrial conditions. This makes them preferred candidates to be used as biocatalysts. Recently, several extremozymes of fungal origin have gained interest as potential industrial biotransformants. This chapter discusses the applications of fungal extremozymes, improves on the synthesis, bioconversions, and bioremediation processes." @default.
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W4226369649 date "2022-01-01" @default.
W4226369649 modified "2023-10-14" @default.
W4226369649 title "Fungal Extremozymes in Green Chemistry" @default.
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W4226369649 doi "https://doi.org/10.1007/978-981-16-4907-3_28" @default.
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