Protein and healthy nutrition

" first part

ESSENTIAL AMINO ACIDS

NON ESSENTIAL AMINO ACIDS

Phenylalanine Alanine Isoleucine (a) Arginine (c) Leucine (a)

Asparagine

Lysine Aspartate Methionine Cysteine (b)

Threonine

Glycine (c) Tryptophan Glutamate

Valina (a)

Glutamine (c) Histidine

Proline (c)
Serine Tyrosine (b)
Taurine (c) * to. branched chain amino acids b. semi-essential amino acids c. conditionally essential amino acids

Functions of amino acids

- build body proteins ("main" function of amino acids);

-form functional nitrogen compounds, which perform numerous and varied functions;

-be catabolized to supply energy (the body does not like to use these nutrients for energy purposes, however, in case of need, this metabolic pathway can be activated in an important way; the only exception is represented by muscles, where a small amount of amino acids is continuously catabolized for energy purposes. In any case, their catabolism is less efficient than that of lipids and carbohydrates, at least as regards the yield in ATP; in fact, the demination process and the consequent elimination of nitrogen in the form of urea, has a non-negligible energy cost).

Precursor amino acid Product Function Arginine Nitric oxide

Vasodilation, transmission of nerve impulses, immune defenses

Cysteine, Glycine,

Glutamic acid

Glutathione Powerful antioxidant action Cysteine Taurine

Synthesis of bile acids, transmission of nerve impulses, stabilization of cell membranes; alleged ergogenic and antioxidant effect

Lysine Carnitine

Transport of long-chain fatty acids within the mitochondria

Phenylalanine

Catecholamines

Thyroxine

Neurotransmitters

Thyroid hormone

Tryptophan

Niacin

Serotonin

Vitamin PP (pellagra preventing)

Neurotransmitter

Proteins are complete (with a high biological value) if they contain all the essential amino acids in an adequate quantity and proportion for the organism.

Diets that provide incomplete protein, even if adequate in terms of calories,

they can induce a state of malnutrition. For this reason, nutrition must be taken care of, not only in terms of calories, but also in the qualitative composition of the foods that constitute it.

In general, animal proteins are complete, while plant proteins are not. Cereals, for example, contain little lysine, while legumes are low in methionine. However, the simple combination of these two foods (pasta and beans) is able to provide a complete meal from a protein point of view.

Recommended Dietary Intake (RDA) of Protein in Adolescents and Adults:

Protein quota recommended daily MEN WOMEN Teenagers Adults Teenagers Adults Grams of protein per kg of body weight 0,9 0,8 0,9 0,8 Grams per day in relation to average weight * 59,0 56,0 50,0 44,0

-----------------

(*) for adolescents: males 65.8 kg; females 55.7 kg.

for adults: males 70.0 kg; females 56.8 kg

DATA SOURCE: INRAN

The protein requirement varies according to the different physiological or pathological conditions of the subject. It increases, for example, during growth, pregnancy, breastfeeding, following trauma, burns, bleeding, surgery and other psychophysical stress. Athletes also need a higher protein intake in their diet.

Stress increases the need for proteins, stimulating the secretion of ACTH by the "adenohypophysis. This" hormone, called adrenocorticotropic, increases the production of cortisol in the adrenal cortex. Among the various functions of cortisol, there is also that of increasing protein catabolism. The amino acids deriving from the breakdown of proteins are largely directed to hepatic gluconeogenesis, with the aim of synthesizing the glucose that the brain and red blood cells will use for energy purposes.

In athletes, the protein requirement is greater, as it is necessary for the increase or maintenance of muscle mass, for the replacement of catabolized proteins to produce energy and to compensate for their wear. In medium-level athletes subjected to intense exercise, the protein intake should not exceed 1.8-2 g / kg body mass / day.