2021
DOI: 10.1016/j.cogsc.2021.100550
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Biotransformation of phenolic acids from by-products using heterogeneous biocatalysts: one more step toward a circular economy

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Cited by 8 publications
(6 citation statements)
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“…This approach enhanced the stability and the recycling capacity of the enzyme. 71 Ba PAD from Bacillus atrophaeus was affinity-immobilized on zeolite to successfully catalyze FA to 4VG. 72 The linker length, fusion orientation, selectivity and affinity were optimized, and the heterogeneous enzyme catalyst formed by a variant of Ba PAD fused with a specific linker peptide on Na–Y zeolite was obtained.…”
Section: Biotransformation Of Lignin Into 4-vinylphenol Derivativesmentioning
confidence: 99%
“…This approach enhanced the stability and the recycling capacity of the enzyme. 71 Ba PAD from Bacillus atrophaeus was affinity-immobilized on zeolite to successfully catalyze FA to 4VG. 72 The linker length, fusion orientation, selectivity and affinity were optimized, and the heterogeneous enzyme catalyst formed by a variant of Ba PAD fused with a specific linker peptide on Na–Y zeolite was obtained.…”
Section: Biotransformation Of Lignin Into 4-vinylphenol Derivativesmentioning
confidence: 99%
“…Phenolic acids are significant compounds present in several agricultural residues and wastes, and application of esterase enzyme technology could be a good model for transforming them into products of higher value. Through the biocatalytic activity of esterase freely available renewable bioresources can be utilised for the synthesis of some specialty chemicals such as aromas and flavours as the derivatives of phenolic acids [94]. Greener practices for the extraction of phenolic acids from raw materials, and designing of sufficient heterogeneous biocatalysts to improve the production of phenol derivatives in sustainable processes, would be an approach toward a circular bioeconomy [95,96].…”
Section: Contribution Of Esterase Enzyme To Bioeconomymentioning
confidence: 99%
“…Therefore, different chemical methods to obtain HCAs have been employed, such as the use of alkaline hydrolysis followed by organic solvent extraction [ 35 , 36 ]. More eco-friendly processes that use industrial wastes as departing raw materials to obtain HCAs have been implemented [ 37 , 38 , 39 ]. In the same way, different enzymes such as pectinases, pentosanases, and mainly feruloyl esterases have been used for the enzymatic hydrolysis and further extraction of HCAs [ 40 , 41 , 42 ].…”
Section: Hydroxycinnamic Acidsmentioning
confidence: 99%