Nutrients: Protein
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Transcript of Nutrients: Protein
One of the six nutrient groupsComposed of carbon, hydrogen, oxygen and
nitrogenDuring digestion, they are released to their simplest
form - Amino Acids
Amino AcidsThere are approximately 22 needed by the human
body13 are made by the body – Non Essential Amino
Acids9 are not – ESSENTIAL Amino Acids – must be
supplied by the diet (8 for adults)
Proteins are found in all body cells and are essential because they:
1.Allow the body to grow and repair2.Form the basis of many of the body’s chemical
substances: antibodies, hormones, enzymes and haemoglobin
3.Can provide energy (17 kilojoules per gram) when there is insufficient carbohydrates or lipids (fats)
4.It regulates body processes, such as water balancing, transporting nutrients, and making muscles contract.
Protein: Why do we need Protein: Why do we need it?it?
Protein: Where can I get it?Protein: Where can I get it?
Grains Legumes Seeds & Nuts Vegetables
Barley Beans Sesame Seeds Leafy Greens
Corn Meal Lentils Sunflower Seeds Broccoli
Oats Peas Walnuts
Rice Peanuts Cashews
Pasta Soy Products Other Nuts
Whole Grain Bread
Protein is found in a variety of foods but the quality will differ.
Complete Proteins – food sources that have a High Biological Value (HBV) because they provide the body with all of the Essential Amino Acids – generally from animal sources (& soy beans)
Incomplete Proteins – food sources that have a Low Biological Value (LBV) because they provide the body with most but not all Essential Amino Acids – generally from plant or vegetarian sources
Supplementary/Complementary Values of Protein – the combination of incomplete proteins in order to supply the body with all of the Essential Amino Acids – especially useful for vegetarians
The Recommended Daily Allowance is
.8 grams of protein for every 1 kilogram body weight
So: (body weight) x 0.8 = _______g/day
Example: Brandon weighs 47kg. How many grams of protein should he aim for
each day?47 x 0.8 = 37.6g protein each day
MEAT DAIRY BREADS & CEREALS
7 GRAMS OF PROTEIN PER 8 GRAMS OF PROTEIN PER 3 GRAMS OF PROTEIN PER
30g meat, fish or poultry 1 egg ¼ cup tuna ½ cup baked beans, dried peas, and lentils 2 tablespoons peanut butter
1 cup milk (8oz) 1 cup yogurt (8oz) 30g cheese 1/3 cup cottage cheese 2 cups ice cream
1 slice of bread ½ cup rice, noodles, pasta, cereal
Again, this is where the Food Composition Tables will come in very handy:
Excess Deficiency
•Excess protein will be stored as fat. •Without exercise, the fat will continue to increase. •Excess protein may also result in osteoporosis and kidney stones.
•Loss of weight, weakness•Shrinkage of muscle tissue •Low blood pressure•Low heart rate, •Anaemia •Decreased metabolic rate
Cooking with
Proteins
Different cooking processes cause different changes in proteins
These changes are generally permanent (cannot be reversed) and are called Denaturation
This Denaturation occurs in 2 ways:- tenderization of meat and poultry- coagulation
Protein: Properties Protein: Properties
The process of breaking down the collagen in meat to make it easier to consume.
Protein: Tenderisation Protein: Tenderisation
to form into a soft mass: to curdle, clot or congeal
occurs when a liquid protein changes to a solid
can occur as a result of a number of processes used in food preparation:
- Heat- Acids- enzymes - agitation
Protein: Protein: CoagulationCoagulation
When an egg is fried, the white and the yolk both set firm and change colour.
When an egg white is beaten, the foam becomes stiff and firm because the protein in the white coagulates. If it is heated it, as in making meringue or pavlova, it coagulates even further.
When milk has lemon juice added to it, the acid cause the protein to clot. We say that the milk has curdled. The same thing happens when milk goes sour.
When a junket tablet is added to warm milk, the enzyme rennin in the tablet causes the milk to set. When the junket is broken, the clot separates into curds and whey.
When meat is heated, it changes from red to brown and the limp muscle becomes stiff. Continued heating causes the protein to contract, and the meat shrinks. High temperature causes the protein to become tough and indigestible, as the protein over coagulates.
A skin forms on milk when it is heated. Steam collects under the skin, and when the pressure is great enough, it breaks the skin, and milk rises in a rush to boil over.
Protein: Protein: Coagulation Coagulation ExamplesExamples
Moist and dry heat coagulates protein at approximately 75C and improve its appearance.
Moist heat softens the protein, some of which will dissolve into the gravy
Overcooking or cooking at too high a heat makes protein tough, hard, dry and indigestible, for example- cheese goes stringy- eggs curdle or go tough and leathery-meat becomes tough and hard
for best retention of nutritive value, meat should be sealed first at high temperature to reduce loss of moisture, then the heat reduced to low or moderate
Protein: Protein: CookingCooking