3. Prolamins and glutelins.

Prolamins are proteins of vegetative origin. They contain 20-25% of glutamic acid and 10-15% of proline. They are dissoluble in 60-80% ethanol water solution while all other simple proteins in these conditions usually form sediment.

Glutelins are simple proteins. They are contained in seeds of gramen, in green parts of plants. They are characterized by high amount of glutamic acid and lysine. They are dissoluble in dilute solutions of alkalis. Glutelins are reserve proteins.

Conjugative proteins

Conjugated proteins are two-component proteins which consist of simple protein and non-protein component (prosthetic group).

1. Chromoproteins (from Gr. chroma - color) consist of simple protein and the pigmented non-protein component bound to it. We distinguish hemoproteins and flavoproteins.

The group of hemoproteins include hemoglobin, myoglobin, cytochromes, catalase, peroxidases. All of them contain ferriporphyrin, but vary in protein structure, and carry out various biological functions.

Let's consider hemoglobin structure. It is a blood protein. Non-protein component of hemoglobin is the heme. It’s a pigment giving blood its red color. The basis of its structure is the protoporphyrin IX. In the heme centre the atom of iron is bounded to two atoms of nitrogen covalently and with two others by coordination bonds. A heme is "wrapped up" by one polypeptide chain. In a molecule of hemoglobin of an adult person НbА there are four polypeptide chains which together form the protein part of a molecule - globin. Two α-chains contain 141 amino-acid residues, two β-chains – 146. In blood of an adult person there is also hemoglobin НbА₂ (2α, 2δ chains, 2,5%) and НbA₃ (less than 1%, differs by structure of -chains).

There is fetal hemoglobin HbF, consisting of 2 α- and 2 γ-chains. Hemoglobin F possesses the increased affinity to oxygen. Blood of the newborn contains up to 80% HbF, by the end of the 1st year of life it is almost entirely changed to НbА.

Diseases of hemoglobins (more than 200) are called hemoglobinoses.

1. Hemoglobinopathy, at the basis of which hereditary structural change of any chain of normal hemoglobin. In blood of a human about 150 various types of mutant hemoglobins are found. Abnormal hemoglobins differ in physical and chemical properties (electrophoretic mobility, solubility, isoelectric point, affinity to oxygen).

Classical example of hemoglobinopathy is sickle-cell anemia. It widely spread in the countries of South America, Africa and South East Asia. It is the result of a mutation in DNA molecule. Glutamic acid in 6th position from the N-end in β-chains is replaced by valine (HbS). The HbS solubility and affinity to oxygen are reduced. Erythrocytes in the conditions of low partial pressure of oxygen take the form of a sickle. HbS forms sediment in the form of spindle-shaped crystals. They distort a cell and lead to a hemolysis. The heterozygous form of anomaly proceeds asymptomatically or is accompanied by an easy hemolytic anemia. Homozygous individuals from the first months of life have the heavy form of sickle-cell anemia. Disease proceeds sharply, and children often die in an early age.

2. Thalassemia is a group of diseases with hereditary infringement of synthesis of one of globin chains. We distinguish α- and β-thalassemia. Hemoglobinopathy Н is one of the variants of -thalassemia. It manifests in hemolytic anemia, the precipitation of hemoglobin H, enlarged spleen, severe osteal changes.

3. Iron-deficient anemia is infringement of synthesis of hemoglobin owing to deficiency of iron. Principal causes are blood loss and lack of nutrition rich with heme - meat and fish.

Myoglobin is a globular protein which reserves in muscles molecular oxygen and transfers it to the oxidative systems of cells. It consists of one polypeptide chain. As well as in hemoglobin, the active centre of a molecule binding O₂, is the heme. Myoglobin defines the color of muscles.

Chromoproteins are also catalase, peroxidase, cytochromes enzymes, which participate in redox reactions.

Flavoproteins are the chromoproteins, which prosthetic groups are presented by derivatives of isoalloxasine - flavine mononucleotide (FMN) and flavine adenine dinucleotide (FAD). Flavoproteins are a part of some oxidoreductases - enzymes catalyzing redox reactions in a cell.

2. Lipoproteins consist of protein and the prosthetic group presented by any lipid (neutral fats, free fatty acids, phospholipids, derivatives of cholesterol). Lipoproteins are widely spread and also carry out various biological functions. Representatives of lipoproteins are protein of lungs tissue, lipovitellin of an egg yolk etc.

Lipoproteins are present in a free state (mainly in blood plasma). Lipoproteins of blood serum contain hydrophobic lipid nuclei surrounded with polar lipids and a cover of proteins, called apoproteins. They provide transport of water insoluble lipids.

The lipids covalently bound with protein, serve as an anchor with the help of which proteins are attached to the membrane. These are structured lipoproteins (lipids of cells membranes, myelin sheath of nerve fibers).

3. Phosphoproteins are conjugative proteins which non-protein component is the phosphoric acid attached to a polypeptide chain by an ester bond through the residues of serine or threonine. The ionic bonding is also possible.

Phosphoproteins include caseinogen of milk, egg white ovalbumin, a number of enzymes such as RNA polymerase. A large number of phosphoproteins found in cells of the CNS. Phosphoproteins are a valuable source of energy and plastic material in the process of embryogenesis and postnatal growth and development, participate in the regulation of nuclear activity of the cell, ion transport and oxidative processes in mitochondria.

4. Glycoproteins are conjugative proteins that contain, in addition to a simple protein or peptide, linear or branched heterooligosaccharide chains containing from 2 to 15 residues of hexose, pentose and the terminal carbohydrate (N-acetylgalactosamine or others). Carbohydrate component is connected to the protein by covalent bonds – N-glycoside and O-glycoside.

Glycoproteins are proteins of blood plasma (except albumin), certain enzymes, saliva mucin, proteins of cartilage and bone tissues. Glycoproteins are important structural component of cell membranes. They provide a cell adhesion, molecular and cellular recognition. Carbohydrate components in addition to the informative function increase the stability of the molecules to various chemical or physical treatments, and protect them from the action of proteases. Erythrocyte membrane glycoproteins determine the blood group in humans. The typical glycoproteins include interferons, immunoglobulins.

Interferons are inhibitors of viruses reproduction. They are formed in the cell in response to the invasion of viruses’ nucleic acids.

Immunoglobulins, or antibodies are protective proteins. They neutralize entering the body foreign substances of any chemical nature - antigens. There are three major classes of immunoglobulins: IgG, IgA, IgM; minor classes are referred to as IgD and IgE. Immunoglobulins of different classes differ in molecular weight, the concentration in the blood, biological properties. At rheumatic arthritis abnormal antibodies are synthesized with an unusually short sugar chains, which causes stimulation of the immune system against the organism.

Proteoglycans are complexes of proteins and glycosaminoglycans. Carbohydrate in these compounds is the main part of the molecule (95%). Typical glycosaminoglycan is hyaluronic acid. Its main function in the connective tissue is binding of water.

5. Metalloproteins contain ions of a single metal or several metals.