TY - JOUR
T1 - Use of principal component analysis to investigate the origin of heptadecenoic and conjugated linoleic acids in milk.
AU - Fievez, V.
AU - Vlaeminck, B.
AU - Dhanoa, M. S.
AU - Dewhurst, Richard J.
N1 - Fievez, V., Vlaeminck, B., Dhanoa, M. S., Dewhurst, R. J. (2003). Use of principal component analysis to investigate the origin of heptadecenoic and conjugated linoleic acids in milk. Journal of Dairy Science, 86, 4047-4053.
Sponsorship: Fund for Scientific Research—Flanders and of the Faculty of Agricultural and Applied Biological Sciences—Ghent University; Flemish Institute for the Promotion of Scientific-Technological Research; Milk Development
Council; Department for Environment, Food
and Rural Affairs (UK)
PY - 2003
Y1 - 2003
N2 - The aim of this paper was the application of principal
component analysis (PCA) 1) to elucidate mutual metabolic
relationships between milk fatty acids (FA) and
2) to illustrate the origin of milk FA, in particular C17:1
and cis-9,trans-11 conjugated linoleic acid. Data were
combined from 3 experiments with lactating Holstein-
Friesian cows offered diets based on grass or legume
silage and concentrates. Loading plots of PCA based on
milk FA concentrations showed 4 groups of milk FA,
having similar precursors or metabolic pathways in the
rumen and/or mammary gland: medium-chain saturated
FA, de novo synthesized from acetate and β-hydroxybutyrate;
monoenoic milk FA, products of Δ9-desaturase
activity in the mammary gland; odd chain FA
of rumen microbial origin and C18:0, n-6 C18:2, and n-3
C18:3 of dietary origin or the result of rumen biohydrogenation.
Loading plots of PCA based on both milk and
duodenalFAconcentrations as well as on milkFAyields
and duodenal FA flows further illustrated the importance
of postabsorptive synthesis of the milk medium
chain saturated and monoenoic FA and the direct absorption
from the blood stream of odd chain FA, C18:0,
n-6 C18:2, and n-3 C18:3. In all loading plots, milk oleic
acid (C18:1) appeared intermediate between clusters of
18-carbon FA and monoenoic FA, illustrating its dual
(dietary and endogenous production) origin. Milk C17:1
was suggested to be a desaturation product of C17:0, in
common with other milk monoenoic FA. Finally, the
PCA technique, based on milk FA patterns of one experiment,
was applied to investigate factors determining
cis-9,trans-11 conjugated linoleic acid concentrations in
milk. Within the range of diets and cows studied here,
we showed changes in cis-9,trans-11 conjugated linoleic
acid to be mainly dependent on vaccenic acid supply and
to a lesser extent on variation in desaturase activity.
AB - The aim of this paper was the application of principal
component analysis (PCA) 1) to elucidate mutual metabolic
relationships between milk fatty acids (FA) and
2) to illustrate the origin of milk FA, in particular C17:1
and cis-9,trans-11 conjugated linoleic acid. Data were
combined from 3 experiments with lactating Holstein-
Friesian cows offered diets based on grass or legume
silage and concentrates. Loading plots of PCA based on
milk FA concentrations showed 4 groups of milk FA,
having similar precursors or metabolic pathways in the
rumen and/or mammary gland: medium-chain saturated
FA, de novo synthesized from acetate and β-hydroxybutyrate;
monoenoic milk FA, products of Δ9-desaturase
activity in the mammary gland; odd chain FA
of rumen microbial origin and C18:0, n-6 C18:2, and n-3
C18:3 of dietary origin or the result of rumen biohydrogenation.
Loading plots of PCA based on both milk and
duodenalFAconcentrations as well as on milkFAyields
and duodenal FA flows further illustrated the importance
of postabsorptive synthesis of the milk medium
chain saturated and monoenoic FA and the direct absorption
from the blood stream of odd chain FA, C18:0,
n-6 C18:2, and n-3 C18:3. In all loading plots, milk oleic
acid (C18:1) appeared intermediate between clusters of
18-carbon FA and monoenoic FA, illustrating its dual
(dietary and endogenous production) origin. Milk C17:1
was suggested to be a desaturation product of C17:0, in
common with other milk monoenoic FA. Finally, the
PCA technique, based on milk FA patterns of one experiment,
was applied to investigate factors determining
cis-9,trans-11 conjugated linoleic acid concentrations in
milk. Within the range of diets and cows studied here,
we showed changes in cis-9,trans-11 conjugated linoleic
acid to be mainly dependent on vaccenic acid supply and
to a lesser extent on variation in desaturase activity.
U2 - 10.3168/jds.S0022-0302(03)74016-8
DO - 10.3168/jds.S0022-0302(03)74016-8
M3 - Article
SN - 1525-3198
VL - 86
SP - 4047
EP - 4053
JO - Journal of Dairy Science
JF - Journal of Dairy Science
IS - 12
ER -