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  • L-arabinose pathway engineering for arabitol-free xylitol production in Candida tropicalis.

L-arabinose pathway engineering for arabitol-free xylitol production in Candida tropicalis.

Biotechnology letters (2010-12-04)
Byoung Hoon Yoon, Woo Young Jeon, Woo Yong Shim, Jung Hoe Kim
ABSTRACT

Xylose reductase (XR) is a key enzyme in biological xylitol production, and most XRs have broad substrate specificities. During xylitol production from biomass hydrolysate, non-specific XRs can reduce L-arabinose, which is the second-most abundant hemicellulosic sugar, to the undesirable byproduct arabitol, which interferes with xylitol crystallization in downstream processing. To minimize the flux from L-arabinose to arabitol, the L-arabinose-preferring, endogenous XR was replaced by a D-xylose-preferring heterologous XR in Candida tropicalis. Then, Bacillus licheniformis araA and Escherichia coli araB and araD were codon-optimized and expressed functionally in C. tropicalis for the efficient assimilation of L-arabinose. During xylitol fermentation, the control strains BSXDH-3 and KNV converted 9.9 g L-arabinose l(-1) into 9.5 and 8.3 g arabitol l(-1), respectively, whereas the recombinant strain JY consumed 10.5 g L-arabinose l(-1) for cell growth without forming arabitol. Moreover, JY produced xylitol with 42 and 16% higher productivity than BSXDH-3 and KNV, respectively.

MATERIALS
Product Number
Brand
Product Description

L-Arabinitol, European Pharmacopoeia (EP) Reference Standard
Sigma-Aldrich
L-(−)-Arabitol, ≥98% (GC)
Sigma-Aldrich
D-(+)-Arabitol, ≥99% (GC)