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Biochemistry Kay Iwelumo. Objectives Proteins- Composition/Structure Protein Purification Enzymes- Kinetics and Inhibition Hemoglobin/Myoglobin Membrane-

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Presentation on theme: "Biochemistry Kay Iwelumo. Objectives Proteins- Composition/Structure Protein Purification Enzymes- Kinetics and Inhibition Hemoglobin/Myoglobin Membrane-"— Presentation transcript:

1 Biochemistry Kay Iwelumo

2 Objectives Proteins- Composition/Structure Protein Purification Enzymes- Kinetics and Inhibition Hemoglobin/Myoglobin Membrane- Structure & Function Metabolism/Metabolic Pathways

3 Proteins Primary Secondary Tertiary Quaternary Amino acids Characterized by polar vs. nonpolar, negative vs. postively charged terminals Can you identify?

4 Proteins  Purification  Use assays to monitor presence of protein  Can be purified based off of solubility, charge, size, binding affinity  Positive result on assay means protein is present Step 1: Disrupting cell membrane, forming homogenate Centrifugation to separate based on density Fractions separately assayed for desired activity Step 2: Salting out Dialysis Gel Filtration chromatography Ion exchange chromatography Affinity chromatography Step 3: Testing whether purification is effective Gel electrophoresis SDS Page

5 Purification Methods Dialysis Gel-Filtration Chromatography

6 Hemoglobin and Myoglobin Deoxy(T-state)  Oxy (R-state) Hemoglobin shifts between states when carrying Oxygen from lungs to tissues 2,3-BPG is an allosteric inhibitor in hemoglobin Binding curves differ

7 Enzymes  Catalyze reactions without changing equilibrium  Facilitate the formation of a transition state- decreasing activation energy Inhibitors Michaelis- Menten Kinetics Potent Inhibitor- V max K m V max K m

8 Membrane Transport Mechanisms Membrane Structure Boundaries of a cell Selective permeability Hydrophobic and hydrophilic lipid components Restrict flow of polar molecules Proteins can serve as pumps, channels and carriers Various types of transport

9 Metabolic Pathways Glycolysis Gluconeogenesis Cori Cycle Glycogen in muscles  lactic acid Sent through blood to liver Converted to glycogen Can be converted to glucose & sent to muscles Or stored Energy conversion pathways Considered reciprocal pathways Glycolysis- a glucose molecule is converted to 2 pyruvate molecules– 2 ATP Gluconeogenesis-synthesizes glucose from 2 pyruvate  liver Consumes ATP Reciprocally regulated to prevent wasting ATP

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