1. Welcome to Chapter 6 Dr. Joseph Silver

2. major topics are -what is energy -what is thermodynamics -how do enzymes work - how does ATP work -multienzyme complexes -what is metabolism -the role of feedback

3. thermodynamics is that branch of chemistry which deals with changes of energy

4. why is this important to biology because you cannot live without a constant input of energy

5. where does our energy come from from the sun which allows for the production of the plant and animal food we eat

6. energy is described as kinetic (motion) or potential(position)

7. energy can be mechanical, sound, electrical, light, radioactive and all forms of energy can generate heat

8. heat is usually described as a calorie one calorie is the amount of heat needed to raise the temperature of one gram of water one degree Celsius

10. since the source of all energy on our earth is from the sun then the energy chemically locked in the ionic and covalent bonds of all plants and animals comes from heat from the sun

11. when we break down the food we eat we release the heat locked into the chemical bonds

12. when an atom releases or loses an electron it is said to be oxidized (more positive) when an atom gains an electron it is said to be reduced (more negative) these reactions are very important in the movement of energy through biological systems

13. anabolic = use energy to build up catabolic = use energy to breakdown heat = energy moves from one item to another chemical energy = potential energy available from chemical reactions pathways = steps from raw material to finished product metabolism = chemical reactions of an organism

14. 1 st law of thermodynamics known as conservation of energy energy cannot be created or destroyed it can only change from one form to another and during each change some energy is lost as heat

15. 0

16. what is heat energy caused by the random movement of molecules or caused by the kinetic energy of atoms the faster the atoms move the more heat is generated

17. 2 nd law of thermodynamics sates that disorder in the universe (entropy) is increasing the universe is becoming more disorganized (less order) every energy transfer increases the entropy of the universe

19. spontaneous = increases entropy nonspontaneous = decreases entropy

20. in order to do work energy must be available where does it come form in biological systems it comes from breaking chemical bonds

21. the energy available to do work is called free energy and it comes from breaking chemical bonds

23. free energy = energy in - temperature x change in available for a chemical absolute entropy work bond (enthalpy)  G =  H - T  S

24. -  G = spontaneous +  G or zero  G = nonspontaneous every spontaneous process decreases the systems free energy

25. endergonic = needs energy to proceed (+G) exergonic = reaction gives off energy (-G)

26. endergonic reactions require an input of energy to start the chemical reaction this is known as the energy of activation

28. enzymes biological catalysts lower the energy of activation (fig 8.14) an enzyme makes 1 biological chemical reaction proceed millions of times faster and a cell makes 1000s or 1000000 of the same enzyme

29. where does the energy come from to do biological work from ATP adenosine tri phosphate and also from GMP

31. ATP has 3 phosphate bonds each is a positive functional group to keep a 2 nd group in place requires some energy but to keep a 3rd positive bond attached requires a large amount of energy when the energy of the 3 rd bond (high energy bond) is released it is used to do work

32. enzymes are not destroyed when they are used to do work they are used over and over until they are not needed then they are recycled

33. enzymes have an active site with the correct shape substrates (chemicals) fit into the enzyme causing changes which activate a chemical reaction which changes the substrate

35. most biological chemical reactions are part of a series of steps leading to the breakdown or building up of various chemicals

36. in order to make the chemistry of cells more efficient enzymes needed to accomplish a specific task are part of a multienzyme complex all of the enzymes needed for one job are right next to each other so that the individual steps needed to form a product take place right next to each other

38. it was once believed that all enzymes were proteins but scientists have now identified RNA enzymes (ribozymes) there are thousands of different RNAs in our cells and for most we have yet to determine their function

39. many enzymes are activated by molecules called activators activators can activate an enzyme or they can inhibit an enzyme

41. an enzyme can be inhibited by binding to the activation site and not allowing the substrate access to the enzyme competitive inhibition or a chemical can bind to the enzyme changing the shape of the activation site noncompetitive inhibition see fig. 8.18

44. the chemical reactions of an organism is known as metabolism anabolism = use of energy to build up molecules catabolism = getting energy by breaking up molecules

45. our bodies do 1000s of chemical reactions production of a product usually involves multiple steps the sequence of steps are known as a biochemical pathway

47. 0

49. when a cell no longer needs to keep making a product the cell must stop making the product how does this happen?

50. allosteric regulation a molecule binds to an enzyme and changes it’s shape to activate or inhibit the enzyme

51. It happens by feedback inhibition the end product of a biochemical pathway acts on the first step of the pathway to stop the pathway

53. the opposite also happens when the end product level drops to a low amount then the pathway begins to make more end product