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Nutrients are simple and complex molecules that make up food and are required by the body to meet different demands, such as growth, tissue repair and cell function.
Food contains six types of nutrients. Simple nutrients are absorbed through the walls of the digestive tract. Complex nutrients undergo chemical digestion to break down into smaller molecules that are then absorbed through the digestive tract.
Lipids, proteins and some carbohydrates are complex molecules that must undergo chemical digestion to break down into smaller molecules that are then absorbed through the digestive tract.
Water, vitamins and minerals are already small enough molecules to be directly taken in by the cells.
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Nutrient |
Functions |
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Indigestible carbohydrates |
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Carbohydrates are nutrients found in fruit, vegetables, cereals, pasta, legumes and dairy products, among others.
Carbohydrates are made up of single or double units called sugars. Glucose is the most common sugar and the one most used by the body.
Most of the carbohydrates we consume come from plants, which produce glucose through the photosynthesis reaction. This reaction takes place in the chloroplasts and uses light energy, water and carbon dioxide to produce glucose and oxygen.
Glucose is a simple carbohydrate that can be absorbed directly by the body.
Carbohydrates are generally divided into two categories: simple carbohydrates and complex carbohydrates.
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Simple carbohydrates, also known as sugars, are made up of one or two units. They are characterized by their sweet taste and are the main source of energy used by cells. They are found in fruit, vegetables and dairy products, among other things. Fructose, glucose and lactose are examples of simple carbohydrates.
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Complex carbohydrates are made up of several simple carbohydrates. They do not have a sweet taste. They are found in cereals, pasta and legumes, among others. Starch and cellulose are examples of complex carbohydrates.
Some complex carbohydrates are indigestible. In other words, they cannot be broken down and absorbed by the body. Dietary fibre is an essential indigestible carbohydrate. It facilitates the circulation of intestinal contents and helps with the formation of fecal matter and defecation.
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Nutrients |
Structure |
Examples |
Functions |
Sources |
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Digestible carbohydrates |
Simple carbohydrates |
Glucose |
Energy source |
Fruit |
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Complex carbohydrates |
Starch |
Energy source |
Pasta |
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Indigestible carbohydrates (dietary fibre) |
Complex carbohydrates |
Cellulose |
Circulation of intestinal contents |
Vegetables |
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Formation and elimination of fecal matter |
Lipids are nutrients that make up the fat in food. They can be of animal or vegetable origin. They are found in meat, vegetable oils, nuts and dairy products, among others.
During digestion, lipids are broken down into glycerol molecules and fatty acids so that they can be absorbed by the body.
Fatty acids can be used by the body to produce energy, while glycerol molecules are used to store energy by forming fat under the skin, in the muscles, and around certain organs. Glycerol molecules are also used to build cell membranes.
Lipids are the body's main energy reserve. They also play a protective role: the fat accumulated under the skin prevents heat loss and the fat covering certain organs, such as the heart and kidneys, helps hold them in place and protect them from shocks.
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Product of nutrient breakdown |
Functions |
Sources |
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Glycerols |
Fat formation for energy reserve |
Vegetable oils |
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Fatty acids |
Energy source |
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Thermal insulation |
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Organ protection |
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Cell membrane composition |
Different types of lipids are found both in the body and in food.
Unsaturated fats come mainly from plant-based food. They are liquid at room temperature. They are also sensitive to heat and oxidation. Their consumption is encouraged because, among other things, they tend to reduce the risk of cardiovascular disease. These unsaturated fats are found in large quantities in vegetable oils.
Omega-3 fats are rare examples of unsaturated fats that come from animals. They are found in fish and various seafood.
Saturated fats are lipids that come mainly from animal-based food. They are generally solid at room temperature. Too much saturated fat is associated with a higher risk of cardiovascular disease, among other things. Saturated fats are found in large quantities in meat, eggs and dairy products.
Trans fats are unsaturated fats that are transformed into saturated fats through a process called hydrogenation. These fats are generally produced to increase the consistency of lipids and improve food preservation. Like saturated fats, excessive consumption of trans fats is associated, among other things, with a higher risk of cardiovascular disease. They are found in many prepared types of food, such as pastries, certain crackers, margarine and fried foods.
Cholesterol is another lipid that comes from animal-based food. It is also produced by the body from saturated and trans fats. High cholesterol levels are associated, among other things, with a higher risk of cardiovascular disease.
Proteins are nutrients that are found in many types of animal and plant-based foods.
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Animal-based |
Plant-based |
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Meat |
Legumes |
A protein molecule is a long chain of amino acids. Digestion allows the amino acids to separate and be absorbed by the body.
Once absorbed, amino acids are used by the body to produce new proteins specific to its own needs. Each type of protein is a unique assembly of several amino acids, which gives it a particular shape and function.
The main functions performed by proteins in the body are shown in the following table.
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Functions |
Example |
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Tissue growth and repair |
Collagen is found in certain tissues, such as skin and scar tissue. |
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Activation of chemical reactions |
Pepsin is a digestive enzyme involved in the chemical digestion of proteins. |
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Immune response |
An antibody neutralizes pathogens that enter the body. |
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Chemical messaging |
Insulin is a hormone that controls blood glucose levels. |
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Transportation |
Hemoglobin binds and transports respiratory gases in the blood. |
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Last resort energy source |
Proteins are used as a source of energy when carbohydrates and lipids are depleted. |
Water is essential to the body's survival. Making up about 60% of the body’s mass, it is the most abundant substance in the human body. Water makes up the majority of the food humans eat, but it is most abundant in juices, fruit and vegetables.
Water is the solvent for various solutions in the body, such as blood, lymph, sweat, urine and cytoplasm. The main functions of water in the body are described in the following table.
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Functions |
Example |
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Fluid for chemical reactions to take place |
Water and digestive juices form an aqueous solution in which the chemical digestion of food takes place. |
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Transportation |
Broken down nutrients, respiratory gases, hormones and waste are transported in the blood or lymph. |
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Body temperature regulation |
Perspiration reduces body temperature. |
Vitamins are essential molecules used by the body to function properly, even though the quantities required are very small. Daily requirements for each vitamin vary between 0.000006 and 0.001 g. Because these quantities are so small, the microgram (µg) is generally used to express the quantities of vitamins on the nutrition label.
||1\ \text{µg}=0.000001\ \text{g}||
There are 13 different types of vitamins in the human body, including vitamins A, B, C, D, E and K. They are classified according to their properties and functions. The following table shows some of the functions of each type of vitamin.
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Type of vitamin |
Example of functions |
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Vitamin A |
Adaptation of vision in a dark environment |
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Vitamin B |
Participation in chemical reactions |
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Vitamin C |
Participation in immune system functions |
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Vitamin D |
Growth and maintenance of bones |
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Vitamin E |
Contribution to a healthy circulatory system |
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Vitamin K |
Blood coagulation and bone calcification |
Minerals are simple chemical elements that make up certain tissues and regulate a number of essential chemical reactions in the body. Although the human body's daily mineral requirements are very low, it is essential to meet them through diet. Fruit, vegetables, meat and nuts, dairy products and fish are all sources of different minerals. The following table shows some of the functions of the main essential minerals.
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Minerals |
Functions |
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Calcium (Ca), phosphorus (P), magnesium (Mg) |
Composition of bones and teeth |
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Magnesium (Mg), calcium (Ca), potassium (K) and sodium (Na) |
Muscle contractions and nerve impulse transmission |
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Iron (Fe) |
Oxygen fixation on red blood cells |
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Calcium (Ca) |
Blood coagulation |