An
unsaturated fat is a
fat or
fatty acid in which there are one or more
double bonds in the fatty acid chain. A fat
molecule is
monounsaturated if it contains one double bond, and
polyunsaturated if it contains more than one double bond. Where double bonds are formed,
hydrogen atoms are eliminated. Thus, a
saturated fat is "saturated" with hydrogen atoms. In cellular
metabolism hydrogen-carbon bonds are broken down - or
oxidized - to produce energy, thus an unsaturated fat molecule contains somewhat less energy (i.e fewer
calories) than a comparable sized saturated fat. The greater the degree of unsaturation in a fatty acid (ie, the more double bonds in the fatty acid), the more vulnerable it's to
lipid peroxidation (
rancidity).
Antioxidants can protect unsaturated fat from lipid peroxidation. Unsaturated fats also have a more enlarged shape than saturated fats.
Chemistry and Nutrition
Double bonds may be in either a
cis or
trans isomer, depending on the
geometry of the double bond. In the
cis conformation hydrogens are on the same side of the double bond, whereas in the
trans conformation they're on opposite sides (see also
Trans fat).
Saturated fats are popular with manufacturers of
processed foods because they're less vulnerable to rancidity and are generally more solid at room
temperature than
unsaturated fats. Unsaturated chains have a lower melting point, hence increasing fluidity of the
cell membranes.
Both mono- and polyunsaturated fats can replace saturated fat in the diet; trans unsaturated fats should be avoided. Substituting (replacing) saturated fats with unsaturated fats helps to lower levels of total
cholesterol and LDL cholesterol in the
blood. This effect is attributed to the low melting point of unsaturated fats found in food. Trans unsaturated fats are particularly bad because the double bond
stereochemistry allows the fat molecules to assume a linear conformation which leads to efficient packing (for example,
plaque formation). The geometry of the cis double bond introduces a bend in the molecule precluding stable formations (see specific fatty acid links above for drawings that illustrate this). Natural sources of fatty acids (see above) are rich in the cis isomer.
Although polyunsaturated fats are protective against
cardiac arrhythmias a study of post-
menopauseal women with a relatively low fat intake showed that polyunsaturated fat was positively associated with progression of
coronary atherosclerosis, whereas monounsaturated fat wasn't . This probably is an indication of the greater vulnerability of polyunsaturated fats to
lipid peroxidation, against which
Vitamin E has been shown to be protective .
Examples of unsaturated fats are
palmitoleic acid,
oleic acid,
linoleic acid, and
arachidonic acid. Foods containing unsaturated fats include
avocado, nuts, and vegetable oils such as
soybean,
canola, and
olive oils. Meat products contain both saturated and unsaturated fats.
Although unsaturated fats are healthier than saturated fats, the old
Food and Drug Administration (FDA) recommendation stated that the amount of unsaturated fat consumed shouldn't exceed 30% of one's daily caloric intake (or 67 grams given a 2000 calorie diet). The new dietary guidelines have eliminated this recommendation. Most food contain both unsaturated and saturated fats. Marketers only advertise one or the other, depending on which makes up the majority. Thus, various unsaturated fat vegetable oils, such as olive oils, also contain saturated fat.
Insulin resistance correlates positively with monounsaturated fat (especially oleic acid) and negatively with polyunsaturated fat (especially
arachidonic acid) in the
phospholipids of human
skeletal muscle .
Membrane composition as a metabolic pacemaker
Cell membranes of
mammals have a higher composition of polyunsaturated fat (
DHA,
omega-3 fatty acid) and a lower composition of monounsaturated fat than do
reptiles. Higher polyunsaturated membrane content gives greater membrane fluidity (and functionality), commensurate with the higher
metabolic rate of the
warm-blooded species. In
fish, however, increasingly cold environments lead to increasingly high cell membrane content of both monounsaturated and polyunsaturated fatty acids, presumably to maintain greater membrane fluidity (and functionality) at the lower
temperatures
External results
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