K. lactis is one of the most studie

K. lactis is one of the most studied yeast species and has become a
model system for studies on molecular physiology of so-called “nonconventional
yeasts”, in particular comparative studieswith S. cerevisiae
(Breunig et al., 2000). The interest around K. lactis, namely regarding its
lactose metabolism, was initially motivated by academic questions
while biotechnological interest came much later (Fukuhara, 2006).
K. lactis is not commonly used for ethanol production, although it
has been exploited for other biotechnological applications such as the
production of heterologous proteins (for a review see van Ooyen
et al., 2006) namely using cheese whey as culture media (Maullu et al.,
1999). The ability of this yeast to metabolise lactose results from
the presence of a lactose permease (encoded by the LAC12 gene) and a
β-galactosidase (LAC4 gene) (Rubio-Texeira, 2006). β-galactosidase
hydrolyses lactose into glucose and galactose. Intracellular glucose
can enter glycolysis while galactose follows the Leloir pathway. The
metabolism of lactose and galactose are closely related. The GAL/LAC
systemof K. lactishasbeenstudied indetail (for reviews seeBreunig et al.,
2000; Rubio-Texeira, 2005; Schaffrath and Breunig, 2000), particularly in
comparison with the model GAL/MEL regulon of S. cerevisiae.