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Enzymes and Metabolism Biochemistry – Part One Microbiology.

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Presentation on theme: "Enzymes and Metabolism Biochemistry – Part One Microbiology."— Presentation transcript:

1 Enzymes and Metabolism Biochemistry – Part One Microbiology

2 Metabolism G The sum total of all cellular reactions

3 Metabolism G Anabolism - The total of all biosynthetic processes in the cell G Catabolism - The energy generating processes in the cell G Anabolism - The total of all biosynthetic processes in the cell G Catabolism - The energy generating processes in the cell

4 Energy G Energy releasing reactions are exergonic – the free energy is released to be used in the cell for other operations G Reactions in which the amount of energy required for their initiation than the energy released are endergonic G Energy releasing reactions are exergonic – the free energy is released to be used in the cell for other operations G Reactions in which the amount of energy required for their initiation than the energy released are endergonic

5 Biochemical Reactions enzyme G Reactant(s) Product(s) ( substrate) Great specificity of the enzyme for the substrate Envisioned as a lock and key More probable like an induced fit enzyme G Reactant(s) Product(s) ( substrate) Great specificity of the enzyme for the substrate Envisioned as a lock and key More probable like an induced fit

6 Enzymes G Are biological catalysts G Proteins G Their tertiary structure produces a specific site for the interaction of reactants(substrates) G Are biological catalysts G Proteins G Their tertiary structure produces a specific site for the interaction of reactants(substrates)

7 Enzymes G Form temporary intermolecular forces with the substrate G Orient the substrate so the reaction occur G Associates two substrates that are in equally low concentrations in the cell G Form temporary intermolecular forces with the substrate G Orient the substrate so the reaction occur G Associates two substrates that are in equally low concentrations in the cell

8 Enzyme-Substrate http://programs.northlandcollege.edu/biology/Biology1111/animations/ enzyme.swf http://programs.northlandcollege.edu/biology/Biology1111/animations/ enzyme.swf Enzyme-Substrate http://programs.northlandcollege.edu/biology/Biology1111/animations/ enzyme.swf http://programs.northlandcollege.edu/biology/Biology1111/animations/ enzyme.swf

9 Enzyme-Substrate http://student.ccbcmd.edu/~gkaiser/biotutorials/proteins/enzsu b.html http://student.ccbcmd.edu/~gkaiser/biotutorials/proteins/enzsu b.html Enzyme-Substrate http://student.ccbcmd.edu/~gkaiser/biotutorials/proteins/enzsu b.html http://student.ccbcmd.edu/~gkaiser/biotutorials/proteins/enzsu b.html

10 G Protease – breaks down proteins G DNase breaks down and recycles DNA G Kinase- tranfers phosphate from ATP to another molecule G Protease – breaks down proteins G DNase breaks down and recycles DNA G Kinase- tranfers phosphate from ATP to another molecule

11 Activation energy

12 G Activation energy is the energy required to start a biochemical reaction G All biochemical reactins require a biochemical catalyst to reduce the amount of energy required to initiate the reaction G Activation energy is the energy required to start a biochemical reaction G All biochemical reactins require a biochemical catalyst to reduce the amount of energy required to initiate the reaction

13

14 Factors that Affect the rate of an Enzyme reaction G Temperature G pH G Concentration of enzyme G Concentration of substrate G Temperature G pH G Concentration of enzyme G Concentration of substrate

15 Optimal Temperature and pH

16 Competitive Inhibition

17 Non Competitive Inhibitor

18 NAD- Coenzyme

19 NAD+

20 FAD Coenzyme

21 REDOX Reactions G Oxidation is the loss of electrosn( e-), the loss of hydrogen(H), and the gain of oxygen G Reduction is the gain of electrons, the gain of Hydrogen, and the loss of oxygen G Oxidation is the loss of electrosn( e-), the loss of hydrogen(H), and the gain of oxygen G Reduction is the gain of electrons, the gain of Hydrogen, and the loss of oxygen

22 REDOX

23 REDOX REACTION

24 Feedback Inhibition

25 Allosteric Interactions

26 Coupled reactions G Reactions which require the input of energy must be coupled to the hydrolysis of ATP

27

28 student.ccbcmd.edu/.../energy/adpan.html

29 Terms G Chemo – chemical energy G Photo – light energy G Organo – organic molecules G Litho – uptake larger organic molecules for biosynthesis G Auto – produces its own organic molecules from basic molecules G Chemo – chemical energy G Photo – light energy G Organo – organic molecules G Litho – uptake larger organic molecules for biosynthesis G Auto – produces its own organic molecules from basic molecules

30 Chemoorganoheterotroph G Uses organic molecules for a Carbon source and as an energy source G Pathogens exhibit this type of metabolism G Uses organic molecules for a Carbon source and as an energy source G Pathogens exhibit this type of metabolism

31 Chemolithoautotroph G Uses inorganic molecules as a carbon source and energy source G Extremophiles, nitrogen fixing bacteria, thermophiles, and methanogens G Uses inorganic molecules as a carbon source and energy source G Extremophiles, nitrogen fixing bacteria, thermophiles, and methanogens

32 Photolithoautotroph G Uses light energy as an energy source and inorganic CO2 as a carbon source. G Conventional photosynthesis – Cyanobacteria G Chlorophyll as si the primary phtosynthetic pigment G Capture light energy at 420 and 620+ nm G Uses light energy as an energy source and inorganic CO2 as a carbon source. G Conventional photosynthesis – Cyanobacteria G Chlorophyll as si the primary phtosynthetic pigment G Capture light energy at 420 and 620+ nm

33 Photoorganoheterotroph G Use light energy to trasnform to energy for biological processes G Uses alternative pigments to capture light G Use light energy to trasnform to energy for biological processes G Uses alternative pigments to capture light

34 Pathways

35 Pathways begin with one molecule and end with a product G Glycolysis – Catabolic pathway – energy producing – breaks down glucose G Gluconeogensis – Anabolic – requires the inpute of energy – produces sugars and carbohydrates G Glycolysis – Catabolic pathway – energy producing – breaks down glucose G Gluconeogensis – Anabolic – requires the inpute of energy – produces sugars and carbohydrates

36 Cycles

37 Krebs – Citric Acid

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