The eobiotic compound
indican lends itself to a compelling biocatalytic
dyeing strategy for denim, in which the formation of corrosive byproducts
is avoided. However, the efficient and scalable production of indican
remains a key bottleneck. This work focuses on the in vitro characterization of PtUGT1, a glycosyltransferase
from Polygonum tinctorium that catalyzes the formation
of indican via the glycosylation of indoxyl. Here, the buffer composition
and enzyme concentration were identified as key parameters for enzyme
activity and stability. The short lifetime of the enzyme under reaction
conditions initiated an immobilization study. As a consequence, an
amino-functionalized methacrylate resin was identified as a highly
functional option for efficient immobilization of PtUGT1, allowing immobilization yields of >98% for enzyme loadings
up to 7.6 wt %. We further report a stabilization factor of 47 and
significantly improved overall biocatalytic productivity. The straightforward
handling and reuse of the described heterogeneous biocatalyst is demonstrated.
The eobiotic compound indican lends itself to a compelling biocatalytic dyeing strategy for denim, in which the formation of corrosive by-products is avoided. However, the efficient and scalable production of indican remains a key bottleneck. This work focuses on the in vitro characterization of PtUGT1, a glycosyltransferase from Polygonum tinctorium that catalyzes the formation of indican via the glycosylation of indoxyl. Here, the buffer composition and enzyme concentration were identified as key parameters for enzyme activity and stability. The short lifetime of the enzyme under reaction conditions initiated an immobilization study. As a consequence, an amino-functionalized methacrylate resin was identified as a highly functional option for efficient immobilization of PtUGT1, allowing immobilization yields of > 98% for enzyme loadings up to 7.6 w-%. We further report a stabilization factor of 47 and significantly improved overall biocatalytic productivity. The straightforward handling and reuse of the described heterogeneous biocatalyst is demonstrated.
The eobiotic compound indican lends itself to a compelling biocatalytic dyeing strategy for denim, in which the formation of corrosive by-products is avoided. However, the efficient and scalable production of indican remains a key bottleneck. This work focuses on the in vitro characterization of PtUGT1, a glycosyltransferase from Polygonum tinctorium that catalyzes the formation of indican via the glycosylation of indoxyl. Here, the buffer composition and enzyme concentration were identified as key parameters for enzyme activity and stability. The short lifetime of the enzyme under reaction conditions initiated an immobilization study. As a consequence, an amino-functionalized methacrylate resin was identified as a highly functional option for efficient immobilization of PtUGT1, allowing immobilization yields of > 98% for enzyme loadings up to 7.6 w-%. We further report a stabilization factor of 47 and significantly improved overall biocatalytic productivity. The straightforward handling and reuse of the described heterogeneous biocatalyst is demonstrated.
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