Egg albumen ovomucin distribution and composition were studied in fresh egg
s with relatively low or high internal quality as indicated by Haugh unit (
HU) values. Egg HU had been altered as a result of genetic selection (mean
all eggs: 87 vs 73 HU) or by feeding vanadium (V) to hens (mean all eggs: 9
1 vs 80 HU). In both altered HU conditions, eggs with low HU values yielded
significantly less water-insoluble ovomucin from the thick albumen than eg
gs with high HU values, whereas the yield of ovomucin from thin albumen did
not differ. The amount of ovomucin differed between eggs with high or low
HU values as a result of feeding V, but the composition of ovomucin from th
e thick albumen was not affected. This was confirmed by SDS-PAGE gels, carb
ohydrate contents, and amino acid contents. When HU values were different a
s a result of genetics, ovomucin was affected differently. The total amount
of ovomucin isolated from the thick albumen of the eggs with high HU was m
uch higher than the amount isolated from the low HU thick albumen. The comp
osition of the ovomucin was also different. SDS-PAGE gels showed a greater
proportion of the highly glycosylated beta-subunit in the ovomucin from the
low HU eggs. Carbohydrate analyses showed higher concentrations of sialic
acids, hexoses and hexosamines in the ovomucin from the low HU eggs. The on
ly difference between the ovomucins in the amino acid content was that isol
eucine was slightly higher in the high HU ovomucin. (C) 1999 Society of Che
mical Industry.