Proteins are long chains of amino acids that form a molecular chain. In this blog post, we will look at the different types of proteins and their functions along with how they can be classified into groups.The main function of all proteins is to build tissues in our body by binding cells together through its peptide bondsProteins have four levels where it can exist: primary, secondary, tertiary and quaternary structure . Primary Structure refers to the order/ sequence of amino acid residues within a polypeptide backbone while Secondary Structure involves hydrogen bonding between atoms which causes folding or bending such as Alpha Helix or Beta Strand formation . Tertiary structure describes proteins’ three dimensional shape while Quaternary structure pertains to the formation of complexes between two or more polypeptide chains.
Classes of Proteins
There are five main classes of proteins which can be classified according to their function: Enzymes, Structural Proteins, Transport Proteins, Regulatory Proteins and Hormones. The following is a brief description of each type:
Enzyme proteins catalyse biochemical reactions in the body while some inhibitors stop these enzymes from working.
Structural proteins provide support for cells and tissues while also aiding in movement.
Transport proteins move molecules across cell membranes such as ions, nutrients and waste products.
Regulatory proteins control cellular processes by turning genes on or off.
Hormones act as chemical messengers to communicate between cells.
Importance of Studying Proteins:
Proteins play a vital role in many biological processes and are essential for the body to function properly. By understanding their structure and function, we can gain insight into how they work together to carry out various tasks. This knowledge can be used to develop treatments for diseases or create new drugs that target specific proteins.
Protein Structure
Fibrous proteins and globular proteins are the two forms of protein molecules in general. Fibrous proteins are stretched and insoluble. Soluble and compact, globular proteins are found in the body. Fibrous and globular proteins can have one or more of four different protein structures: primary, secondary, tertiary, and quaternary.
- Primary Structure: It is made up of a specific sequence of amino acids. Information contained in genes detects the order in which amino acids are linked together.
- Secondary Structure: It is a three-dimensional representation of a protein’s local segment. They are produced by hydrogen bonding between atoms along the polypeptide chain’s backbone.
- Tertiary Structure: R-groups determine the tertiary structure. It’s a protein’s three-dimensional form. Quaternary Structure is formed by the folding of a large number of tertiary structures.
- Quaternary Structure: The arrangement of numerous folded protein subunits in a multi-subunit complex is known as quaternary structure.
Synthesis of Proteins
The process of protein synthesis is known as translation. The cytoplasm is where this happens. It entails the translation of genetic codes. A cell’s ribosomes assist in the translation of genetic information into polypeptide chains. Only after undergoing certain modifications do these polypeptide chains become functional proteins.
PROTEIN RESOURCES
Although there are arguments over the quantity of carbohydrates and fats to consume in order to maintain good health, a doctor’s first advise is always to consume a minimum amount of protein every day. Eggs, almonds, poultry, oats, fish and shellfish, soy, beans and pulses, cottage cheese, Greek yoghurt, milk, broccoli, and quinoa are the most prevalent foods high in protein.
Primary Proteins and Their Functions
- Enzymes: Enzymes are the proteins that carry out all of the chemical events that occur within a cell. They also assist in the regeneration and creation of DNA molecules, as well as the execution of complex procedures.
- Hormones: Proteins are involved in the production of a variety of hormones that aid in the balancing of the body’s components. For instance, hormones such as insulin, which aids in blood sugar regulation, and secretin. It also plays a role in digestion and the production of digestive juices.
- Immunoglobulin: An immunoglobulin is a type of antibody. It’s a type of protein that the immune system uses to mend and heal the body after it’s been infected by bacteria. They frequently collaborate with other immune cells to recognise and segregate antigens, preventing them from multiplying until they are entirely destroyed by white blood cells.
- Proteins are the primary source of energy that aids in our body’s movement. In order to turn protein into energy, the proper amount of protein is required. Protein is needed to make fat and becomes a part of fat cells when taken in excess amounts.
Nucleic Acids
Deoxyribonucleic acid and ribonucleic acid are the two types of nucleic acid. Nucleotides are the basic building components of nucleic acids. A phosphate unit, a sugar, and a nitrogen base make up each nucleotide. Adenine, thymine, guanine, and cytosine are the nucleotide bases in DNA. Except for the replacement of unit cells for thymine, RNA employs the same set of nucleotides as DNA.
Nucleotides build strands or other structures by binding to one another. Nucleotides are twisted and organised in a double strand called a double helix in the DNA molecule. The “master code” for constructing proteins and other nucleic acids is the sequence of various nucleotides along the DNA double helix.
Conclusion
Biological polymers are what we refer to as proteins (i.e. they occur naturally in nature). Amino acids are the building components of proteins, as we previously learned. Proteins have a lengthy chain-like structure, with amino acids as the major constituent. Peptide bonds join these amino acids, and a polypeptide chain is formed when several of these bonds bind together. A protein is created when one or more of these polypeptide chains twist or fold spontaneously.