The specific activity of xylitol de

The specific activity of xylitol dehydrogenase from this experiment was 0.805 mU min-1 mg-1 or 0.013 nkat mg-1. Comparing with the other XDH activities that are reported from previous publications (Table 1), the XDH activity from this work is considered low. This might be caused from many factors such as medium, or promoter that was used in the cloning. Previous studies showed that carbon source in the media play a critical role in the activity of XDH (19, 29, 30, 31,32). In this work YEPD medium was used, which contains glucose as a carbon source. Glucose was reported to give the lowest activity of XDH when it is used as a carbon source in the media. Tamburini et al (29) reported that the highest
XDH activity in C. tropicalis was detected when xylose plus glycerol were used as carbon sources, while glucose and xylitol gave the lowest activity of XDH. Ko et al (30) presented a significant increase of about 280%, 100% or 40% of the C. tropicalis XDH activity when arabinose, xylose, or glycerol was used in the media, respectively. On the other hand, no major change was found when glucose, fructose, sorbose were used as carbon sources (30). Tantirungkij et al (19) also
reported an increase in the XDH activity of the genetic engineered S. cerevisiae strains when xylose was used in the medium instead of glucose. The effect of carbon source in the XDH activity was also reported on Pachysolen tannophilus (31). Bolen and Detroy (31) found that the highest XDH activity of P. tannophilus was observed when arabinose was used as a carbon source. The XDH activities of P. tannophilus decreased when xylose, galactose, fructose/ glycerol/ mannitol/ mannose/sorbitol were used as carbon sources (31). Glucose was found to give the lowest XDH activity (31). Alexander
(32) also reported a major change of the XDH activity when glucose or xylose was added in the media, namely higher XDH activity was observed from the cell that grew in xylose-containing medium.