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Welcome to BISC 220 Cell Physiology Lab

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Welcome to BISC 220 Cell Physiology Lab Lab Instructor: Jennifer Hood-DeGrenier Office: SC 376A, x3313 Research Lab: SC 311, x3387 Email: jhooddeg_at_wellesley.edu – PowerPoint PPT presentation

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Title: Welcome to BISC 220 Cell Physiology Lab


1
Welcome toBISC 220 Cell Physiology Lab
  • Lab Instructor Jennifer
  • Hood-DeGrenier
  • Office SC 376A, x3313
  • Research Lab SC 311, x3387
  • Email jhooddeg_at_wellesley.edu
  • Office Hours
  • Tues. 130-230 pm
  • Thurs. 930-1030 am
  • Or e-mail to schedule an appointment

2
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3
The Four Strands of Modern Cell Biology
  • Cytology observation of cells by microscopy
  • Biochemistry reductionist approach in vitro
    study of biological molecules
  • Genetics study of the effect of heritable
    information (DNA) on cell behavior/attributes
    use of mutants to study cellular processes
  • Bioinformatics application of computer
    algorithms to the analysis of large databases of
    biological information (genomics/proteomics)

4
BISC 220 Lab Overview
  • Series1 (Biochemistry)
  • Protein purification enzyme kinetics using the
    enzyme b-galactosidase
  • Molecular modeling database search
  • Recombinant protein induction purification by
    affinity chromatography
  • Quantitative qualitative assessment of
    purification success (gel electrophoresis)
  • Quantitative enzyme kinetics assays, including
    determination of the effect of an inhibitor
  • Series 2 (Genetics)
  • Analysis of the secretory pathway in budding
    yeast
  • Genetic assay to identify/characterize mutants
    defective in secretion
  • Western Blot to assess location of secretion
    defect
  • Series 3 (Cytology)
  • Tissue culture the cytoskeleton
  • Learning cell culture techniques
  • Determining the effect of varying concentrations
    of a drug on the actin cytoskeleton cell
    viability by fluorescence microscopy flow
    cytometry

5
Lab Grading
  • Series 1
  • Homework assignments (3) 35
  • Lab report 40
  • Series 2
  • Homework assignment (1) 15
  • Lab report 45
  • Series 3
  • Group Presentation 25
  • Partial Lab report 35
  • P pointsParticipation Preparation 5
  • TOTAL 200

6
Lab 1
  • Induction of b-galactosidase (b- gal) expression
    in E. coli
  • RasMol
  • Investigation of the structure of ?-gal
  • ClustalW
  • Identification of amino acid residues conserved
    among b-gal proteins from different species

Next week purification of b-gal for study of
its enzymatic properties
7
b-galactosidase our enzyme of choice
Lactose Glucose Galactose
Beta-galactosidase
  • Our b-gal is the Escherichia coli (E. coli)
    version

8
How is b-gal expression normally regulated?
lac operon
9
I. E. coli BL21(DE3) genetically engineered to
express T7 RNA polymerase in the presence of IPTG
Our system how to make lots of b-gal!
A two-part process
IPTG binds lac repressor, prevents it from
interfering with the lac promoter and turns on T7
Pol expression
10
II. pET-14 plasmid in this E. coli strain
T7 promoter
lacZ encodes ?-gal with 6 histidines (His) added
as a tail (affinity tag)
6xHis
Expression of T7 polymerase causes expression of
large amounts of 6xHis-b-gal. (The 6xHis tag will
be used in the purification process.)
11
ProtocolThings to Remember
  • Think about aseptic technique (avoid
    contaminating your culture!)
  • Make flow chart of procedure and record all
    results in lab notebook
  • Do not discard anything contaminated with
    bacteria in sinkput growth medium in waste
    container or back in flask (must be treated with
    bleach)
  • Give labeled cell pellets to instructor for
    freezing
  • Pre-IPTG induction (small aliquot in tube)
  • After IPTG induction (small aliquot in tube)
  • After IPTG (remainder in centrifuge bottle)

12
While your bacteria are making lots of
6xHis-?-gal
  • Calibrate micropipets
  • Look at CD animation of pdb file
  • Follow RasMol tutorial in Appendix 1 Lab 1
    (groups of 2)
  • Follow ClustalW instructions in Appendix 2 Lab 1
    (same groups as RasMol)

13
A quick review of protein structure
  • Levels of structure primary, secondary, tertiary
    quaternary
  • Secondary structure elements a-helices
    b-sheets
  • R-group interactions
  • Salt bridges (ionic interactions), Hydrogen
    bonds, van der Waals forces, hydrophobic
    interactions, disulfide bonds
  • Use of X-ray crystallography to solve protein
    structures (important for determining enzyme
    mechanisms, designing drugs, engineering
    mutations that alter protein function)

14
The Four Levels of Protein Structure
15
Interactions that contribute to tertiary
quaternary structure
16
X-ray crystallography as a means for determining
a proteins structure at the atomic level
17
Homework
  • Do individually
  • Due next lab 10 points
  • Create a figure with a correctly formatted legend
    from your saved RasMol picture of the active site
    of b-gal.
  • Include a paragraph (up to 1 page) describing
    what you learned about the active site. Try to
    relate the ClustalW analysis to the structural
    analysis.
  • May consult references listed at end of HW
    assignment in lab manual.
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