Protein functions in the human body

Joao's Lab

24 Jan 202304:58

Summary

TLDRProteins are essential macromolecules made up of amino acids, serving diverse and critical functions in the body. They act as enzymes to catalyze reactions, transport molecules like oxygen, provide structural support (e.g., keratin in hair), store vital nutrients like iron, regulate processes through hormones like insulin, defend the body with antibodies, and enable muscle contraction with proteins like myosin. The specific function of each protein is determined by its shape, which depends on the sequence of amino acids. Protein functions are highly specialized and depend on interactions with specific molecules, or ligands, to carry out their tasks effectively.

Takeaways

😀 Proteins are large, complex macromolecules that are essential building blocks of life, along with nucleic acids, carbohydrates, and lipids.
😀 There are 20 different amino acids that form proteins, each with a unique side chain (R-group) that gives it distinct properties.
😀 Proteins are composed of amino acids joined in polypeptide chains by peptide bonds. The specific sequence of amino acids determines the protein's final shape.
😀 The shape of a protein is crucial for its function. Proteins can only carry out their functions if they have the correct shape.
😀 Enzymes are a type of protein that act as biological catalysts, speeding up chemical reactions in the body.
😀 Amylase and lipase are examples of catabolic enzymes that break down starches and fats, respectively.
😀 Transport proteins, like hemoglobin, carry substances (e.g., oxygen) through the body.
😀 Structural proteins, such as keratin, provide support and give structure to the body, including hair and nails.
😀 Storage proteins, like ferritin, store important molecules (e.g., iron) for later use in the body.
😀 Hormones are proteins that regulate various physiological processes, like insulin, which helps control blood sugar levels after eating.
😀 Defense proteins, such as antibodies (immunoglobulins), protect the body from pathogens, while contractile proteins like myosin help with muscle contraction and cellular movement.

Q & A

What is protein and why is it important?
-Protein is a large and complex macromolecule that is one of the four essential building blocks of life, alongside nucleic acids, carbohydrates, and lipids. It plays a critical role in the structure, function, and regulation of the body’s cells, tissues, and organs.
What are proteins made of?
-Proteins are made up of amino acids, which are organic compounds. There are 20 different amino acids that serve as the building blocks of proteins, each with an amino group, carbon, hydrogen, a carboxyl group, and a unique R-group (side chain).
How do amino acids form proteins?
-Amino acids link together through peptide bonds to form polypeptide chains. The sequence and number of amino acids determine how the protein folds into a specific shape, which in turn determines its function.
Why is the shape of a protein important?
-The shape of a protein is crucial because it dictates its function. A protein's structure allows it to interact with other molecules in specific ways, and this interaction is essential for its biological role.
What are enzymes and what do they do?
-Enzymes are proteins that act as biological catalysts, speeding up the rates of chemical reactions in the body. They are essential for many cellular processes, including digestion and metabolism.
Can you provide examples of catabolic enzymes?
-Catabolic enzymes break down larger molecules into smaller ones. Examples include amylase, which breaks down starches, and lipase, which breaks down fats.
What are the functions of transport, structural, and storage proteins?
-Transport proteins carry molecules through the body, structural proteins give the body its shape, and storage proteins hold essential substances, such as iron, for future use. Hemoglobin (transport), keratin (structural), and ferritin (storage) are examples of each.
What role do hormones play in the body?
-Hormones are proteins that help regulate various physiological processes in the body. For example, insulin helps regulate blood sugar levels after eating by prompting cells to absorb glucose.
What are defense proteins and what is their role?
-Defense proteins, such as immunoglobulins (antibodies), protect the body against pathogens and invaders. They identify and neutralize foreign particles like viruses.
What is the significance of protein-ligand interactions?
-Proteins interact with specific molecules called ligands, and this interaction is crucial for the protein's function. For example, antibodies bind to foreign particles to defend the body, and no ligand binding means no specialized protein function.