Rmm. Diks et Mj. Lee, Production of a very low saturate oil based on the specificity of Geotrichum candidum lipase, J AM OIL CH, 76(4), 1999, pp. 455-462
Lipase B (GCB) produced by the fungus Geotrichum candidum CMICC 335426 is k
nown for its high specificity towards cis-Delta 9 unsaturated fatty acids.
The wild-type lipase (not genetically modified) as well as the lipase obtai
ned by heterologous expression of the corresponding gene in Pichia pastoris
(genetically modified) were studied in a process aiming to produce an oil
containing very little saturated fatty acids (SAFA). The approach described
in this paper is based on the selective hydrolysis of sunflower oil (12% S
AFA) using the G. candidum type B (GCB) lipases. Depending on the lipase in
put, up to 60% w/w degree of hydrolysis was obtained within 6-8 h. Because
of the high specificity of the CCB lipases (specificity factor similar to 3
0), the level of unsaturates in the free fatty acid fraction was >99% w/w.
In contrast with literature data, no loss of specificity was observed, even
at the highest degree of hydrolysis obtained. Though both GCB lipases are
stable at 30 degrees C, the rate of hydrolysis decreased considerably durin
g the process. Product inhibition as well as time-dependent deactivation (h
alf-life approximate to 2 h) were shown to be involved. After separation of
the oil phase, the unsaturated free fatty acids were recovered from the mi
xture by evaporation and reconverted to triglycerides by enzymatic esterifi
cation with glycerol. Because the CCB lipases have a very low efficiency fo
r esterification, this reaction was carried out with immobilized Rhizomucor
miehei lipase. Under continuous removal of the water generated during the
process, >95% triglycerides were obtained in less than 24 h. Standard deodo
rization resulted in an odorless, colorless, and tasteless oil with less th
an 1% SAFA.