![]() Q:5: Who proposed “lock and key” model to study enzyme – substrate interaction? Q:4: Enzymes are largely _ in their chemical nature. ![]() Q:2: An activated enzyme made of polypeptide chain and a co-factor is For chemical reactions the Q10 = 2 to 3 (the rate of the reaction doubles or triples with every 10☌ rise in temperature) Enzyme-controlled reactions follow this rule as they are chemical reactions At lower temperatures enzymes are inactive and at high temperatures enzyme proteins denature The optimum temperature for an enzyme controlled reaction will be a balance between the Q10 and denaturation.Q:1: The catalytic activity of an enzyme is restricted to its small portion called Q10 (the temperature coefficient) = the increase in reaction rate with a 10☌ rise in temperature. Temperature / ☌ Enzyme activity 10 20 30 40 50 Q10 Denaturation © 2007 Paul Billiet ODWSįor most enzymes the optimum temperature is about 30☌ Many are a lot lower, cold water fish will die at 30☌ because their enzymes denature A few bacteria have enzymes that can withstand very high temperatures up to 100☌ Most enzymes however are fully denatured at 70☌ © 2007 Paul Billiet ODWS The structure of the enzyme is changed The active site is distorted and the substrate molecules will no longer fit in it At pH values slightly different from the enzyme’s optimum value, small changes in the charges of the enzyme and it’s substrate molecules will occur This change in ionisation will affect the binding of the substrate with the active site. © 2007 Paul Billiet ODWSġ2 The effect of pH Pepsin Optimum pH values Enzyme activity Trypsin pH 1ġ3 The effect of pH Extreme pH levels will produce denaturation Reaction velocity Substrate concentration Vmax Faster reaction but it reaches a saturation point when all the enzyme molecules are occupied. Reaction velocity Substrate concentration The increase in velocity is proportional to the substrate concentration © 2007 Paul Billiet ODWSġ1 Substrate concentration: Enzymic reactions What do you understand by denaturation? Discuss the factors that bring about denaturation of enzymes? How does it effect the enzyme action? Diagrammatically discuss lock and key hypothesis.Įnzymes work best under ideal conditions Any change in these will slow down the rate of reaction These conditions include temperature and pH valuesĮnzymes work best under ideal conditions Any change in these Optimum conditions will slow down the rate of reaction These conditions include: substrate concentration pH temperature inhibitors © 2007 Paul Billiet ODWSġ0 Substrate concentration: Non-enzymic reactions This explains enzyme specificity This explains the loss of activity when enzymes denature Simple account of how enzymes work: © 2007 Paul Billiet ODWSĦ Denaturation Heat proteins above 40oC (or treat with certain chemicals or radiation) they will gradually loose their 3D shape Ability to react with substrate is lost This change in shape and loss of biological activity is called DENATURATION Normally permanent process The substrate no longer fits the active site, so that is not converted into productħ Task-2 Why is enzyme specificity is a key feature in enzyme action?Įxplain difference between extra cellular and intra cellular enzymes with 4 examples each. Temporary structure called the enzyme-substrate complex formed Products have a different shape from the substrate Once formed, they are released from the active site Leaving it free to become attached to another substrate © 2007 Paul Billiet ODWSĪn enzyme binds a substrate in a region called the active site Only certain substrates can fit the active site Amino acid R groups in the active site help substrate bind Enzyme-substrate complex forms Substrate reacts to form product Product is releasedĮnzyme may be used again Enzyme-substrate complex E S P Reaction coordinate © 2007 Paul Billiet ODWSĤ Lock and Key Model E S ES complex E P P S S P Fit between the substrate and the active site of the enzyme is exact Like a key fits into a lock very precisely The key is analogous to the enzyme and the substrate analogous to the lock.
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