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Merck

Purification and immobilization of engineered glucose dehydrogenase: a new approach to producing gluconic acid from breadwaste.

Biotechnology for biofuels (2020-06-10)
Pinar Karagoz, Ravneet Mandair, Jinesh Cherukkattu Manayil, Jai Lad, Katie Chong, Georgios Kyriakou, Adam F Lee, Karen Wilson, Roslyn M Bill
RESUMEN

Platform chemicals are essential to industrial processes. Used as starting materials for the manufacture of diverse products, their cheap availability and efficient sourcing are an industrial requirement. Increasing concerns about the depletion of natural resources and growing environmental consciousness have led to a focus on the economics and ecological viability of bio-based platform chemical production. Contemporary approaches include the use of immobilized enzymes that can be harnessed to produce high-value chemicals from waste. In this study, an engineered glucose dehydrogenase (GDH) was optimized for gluconic acid (GA) production. Sulfolobus solfataricus GDH was expressed in Escherichia coli. The K m and Vmax values for recombinant GDH were calculated as 0.87 mM and 5.91 U/mg, respectively. Recombinant GDH was immobilized on a hierarchically porous silica support (MM-SBA-15) and its activity was compared with GDH immobilized on three commercially available supports. MM-SBA-15 showed significantly higher immobilization efficiency (> 98%) than the commercial supports. After 5 cycles, GDH activity was at least 14% greater than the remaining activity on commercial supports. Glucose in bread waste hydrolysate was converted to GA by free-state and immobilized GDH. After the 10th reuse cycle on MM-SBA-15, a 22% conversion yield was observed, generating 25 gGA/gGDH. The highest GA production efficiency was 47 gGA/gGDH using free-state GDH. This study demonstrates the feasibility of enzymatically converting BWH to GA: immobilizing GDH on MM-SBA-15 renders the enzyme more stable and permits its multiple reuse.

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Sigma-Aldrich
Glucose (GO) Assay Kit, sufficient for 20 assays
Sigma-Aldrich
αα-Amilasa from Aspergillus oryzae, powder, ~30 U/mg
Sigma-Aldrich
Amyloglucosidase from Rhizopus sp., ≥40,000 units/g solid