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Biochemistry Lab

Biochemistry Lab. Visualizing Biological Molecules. Electrophoresis. Controlled motion of charged molecules Relies on an electrochemical cell. The two chambers are connected by a wire to allow electrons access to each reaction. A salt bridge is also needed to maintain charge balance.

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Biochemistry Lab

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  1. Biochemistry Lab Visualizing Biological Molecules

  2. Electrophoresis Controlled motion of charged molecules Relies on an electrochemical cell The two chambers are connected by a wire to allow electrons access to each reaction. A salt bridge is also needed to maintain charge balance. Anions flow to Anode Cations flow to Cathode Two chambers where an electrochemical half reaction can occur.

  3. Electrophoresis Controlled motion of charged molecules In electrophoresis, the salt bridge is made of a porous matrix that allows selective penetration of molecule based on size and shape. A salt bridge is also needed to maintain charge balance. Anions flow to Anode Cations flow to Cathode

  4. Electrophoretic Mobility How far a protein can travel down a gel Size – Can it easily fit through the pores? Shape – Does it have structural components that make it appear bigger? Charge – Will it travel toward the anode or cathode?

  5. Polyacrylamide Gel Electrophoresis Protein electrophoresis almost always uses polyacrylamide to form the resolving matrix

  6. Polyacrylamide Gel Electrophoresis This radical mediated chain reaction polymerization forms linear chains of polyacrylamide. To be useful, the chains need to be connected

  7. Polyacrylamide Gel Electrophoresis What do we need for a crosslinking molecule? Reactive

  8. Polyacrylamide Gel Electrophoresis The size of the pore is dictated by the total amount of monomer (%T) and the amount of crosslinking monomer available (%C)

  9. Size Matters Large pores Small %T or %C Small pores Big %T or %C

  10. Denaturing Condition We want to see use PAGE to estimate size! This is NOT possible for folded protein. Adding a detergent to proteins induces an unfolding transition with the apolar tail coating the hydrophobic regions of proteins

  11. Denaturing Condition Such a process allows proteins to be separated based primarily on polypeptide chain length. Long Chains experience more drag while winding through a pores.

  12. This week’s experiment:

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