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W3181857613 endingPage "111625" @default.
W3181857613 startingPage "111625" @default.
W3181857613 abstract "Microorganisms have been used for the production of various enzymes, including inducible tannase for various industrial and environmental applications. Tannases have lot of potential to convert hydrolysable tannins to gallic acid, which is one of the important industrial and therapeutic significant molecules whose demand is over 10000 tons per year. Tannins invariably occur in angiosperms, gymnosperms and pteridophytes, and predominantly present in various parts of plants such as, leaves, roots, bark and fruit. Furthermore, tannery effluents are frequently loaded with significant levels of tannic acid. Tannase can be effectively used to decrease tannin load in the toxic tannery effluent thus providing the opportunity to minimize the operational cost. Over the past three decades, tannase from microbial sources has been proposed for the degradation of natural tannins. The availability of various agro-industrial residues paves a way for maximum utilization of tannase production for the degradation of tannin and eventually the production of gallic acid. In this review, an illustrative and comprehensive account on tannase from microbial source for current day applications is presented. The present review emphasises on up-to-date microbial sources of tannases, biochemical properties, optimization of tannase production in solid state and submerged fermentation and its industrial and environmental applications." @default.
W3181857613 created "2021-07-19" @default.
W3181857613 creator A5044097810 @default.
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W3181857613 date "2021-10-01" @default.
W3181857613 modified "2023-10-16" @default.
W3181857613 title "A comprehensive review on tannase: Microbes associated production of tannase exploiting tannin rich agro-industrial wastes with special reference to its potential environmental and industrial applications" @default.
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W3181857613 doi "https://doi.org/10.1016/j.envres.2021.111625" @default.
W3181857613 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/34224709" @default.
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