University of Groningen
Biochemical characterization and bioinformatic analysis of two large multi-domain enzymes
from Microbacterium aurum B8.A involved in native starch degradation
Valk, Vincent
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Publication date: 2017
Link to publication in University of Groningen/UMCG research database
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Valk, V. (2017). Biochemical characterization and bioinformatic analysis of two large multi-domain enzymes from Microbacterium aurum B8.A involved in native starch degradation. Rijksuniversiteit Groningen.
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Publicaties
167
Publicaties
168
V. Valk, R. M. van der Kaaij, and L. Dijkhuizen
The evolutionary origin and possible functional roles of FNIII domains in two Microbacterium aurum B8.A granular starch degrading enzymes, and other carbohydrate acting enzymes
Amylase, 2017, volume 1, issue 1
V. Valk, R. M. van der Kaaij, and L. Dijkhuizen
Characterization of the starch-acting MaAmyB enzyme from Microbacterium aurum B8.A representing the novel subfamily GH13_42 with an unusual, multi-domain organization
Scientific Reports, 2016, volume 6, page 36100
V. Valk, A. Lammerts van Bueren, R. M. van der Kaaij and L. Dijkhuizen Carbohydrate Binding Module 74 is a novel starch binding domain associated with large and multi-domain α-amylase enzymes
The FEBS Journal, 2016, volume 283, issue 12, pages 2354–2368
V. Valk, W. Eeuwema, F. D. Sarian, R. M. van der Kaaij, and L. Dijkhuizen Degradation of granular starch by the bacterium Microbacterium aurum strain B8.A involves a modular α-amylase enzyme system with FNIII and CBM25 domains
Applied and Enviromental Microbiology, 2015, volume 81, issue 19, pages 6610–6620
S. Kralj, S. S. van Leeuwen, V. Valk, W. Eeuwema, J. P. Kamerling and L. Dijkhuizen Hybrid reuteransucrase enzymes reveal regions important for glucosidic linkage specificity and the transglucosylation/hydrolysis ratio