🐭 RAT series
Points to Ponder for NEET-PG, FMGE & NEXT
- Enzymes are biological catalysts.
- Oxidoreductases remove hydrogen atoms or add oxygen atoms.
- Hydroxylases incorporate one atom of oxygen into a substrate.
- Transferases transfer a functional group from one molecule to another.
- Hydrolases break down molecules by adding water at a specific covalent bond.
- Lyases cleave c-c, c-n, or other covalent bonds without using water.
- Isomerases rearrange atoms within a molecule to create a different isomer.
- Ligases/synthetases join two molecules together using energy.
Enzymes
- Enzymes are biological catalysts that accelerate biochemical reactions.
- They are classified based on the type of chemical reaction they catalyze.
- Oxidoreductases
- Function: Remove hydrogen atoms (dehydrogenation) or add oxygen atoms (oxidation)
- Subtypes:
- Dehydrogenases: Remove hydrogen using electron acceptors like NAD⁺, NADP⁺, or FAD:
- Examples: Pyruvate dehydrogenase, lactate dehydrogenase, glucose-6-phosphate dehydrogenase, succinate dehydrogenase.
- Oxidases: Use molecular oxygen (O₂) as the hydrogen acceptor (e.g., respiratory burst During phagocytosis activates oxidase)
- Hydroxylases (Monooxygenases): Incorporate one atom of oxygen into a substrate, often forming a hydroxyl group (OH). (e.g., Phenylalanine hydroxylase)
- Dioxygenases: Incorporate both atoms of an O₂ molecule into the substrate.
- Dehydrogenases: Remove hydrogen using electron acceptors like NAD⁺, NADP⁺, or FAD:
- Transferases
- Function: Transfer a functional group (e.g., methyl, phosphate) from one molecule (donor) to another (acceptor).
- Examples: Kinases (phosphotransferases), transketolase, transaldolase.
- Hydrolases
- Function: Break down molecules by adding water (hydrolysis) at a specific covalent bond.
- Examples:
- Proteases (Peptidases): Break down proteins into peptides and amino acids.
- Esterases: Break down esters into alcohols and carboxylic acids.
- Phospholipases: Break down phospholipids.
- Amidases: Break down amides into carboxylic acids and ammonia.
- Lyases
- Function: Cleave C-C, C-N, or other covalent bonds without using water. Often involve the creation of a double bond.
- Examples:
- Decarboxylases: Remove carboxyl groups (CO₂) from molecules.
- Hydratases: Add water to a molecule, forming a single bond.
- Aldolases: Cleave fructose-1,6-bisphosphate into glyceraldehyde-3-phosphate and dihydroxyacetone phosphate.
- Dehydratases: Remove water from a molecule, forming a double bond.
- Isomerases
- Function: Rearrange atoms within a molecule to create a different isomer (same chemical formula, different structure).
- Examples:
- Epimerases: Convert one stereoisomer to another (e.g., glucose-6-phosphate isomerase).
- Mutases: Move a functional group within a molecule (e.g., phosphoglycerate mutase).
- Ligases (Synthetases)
- Function: Join two molecules together using energy from ATP to form a new covalent bond.
- Examples: Carboxylases (fix CO₂ into organic molecules).
Quiz
