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Biological Chemistry LaboratoryBiology 3515/Chemistry 3515
Spring 2022
Lecture 9
Introduction to Proteases and X-ray Crystallography
8 February 2022©David P. Goldenberg
University of [email protected]
Computer Labs
Computer Labs this week.• Start at 2:00 PM!• Room 150 Biology Building
This week: Molecular modeling with PyMOL.
We will use the computers in the lab, not personal laptops.
But, you should still install SciDAVis and PyMOL on your own computer.Use the versions available on Canvas.
First Quiz: Thursday, 10 February
In class, during second half.
Study materials:• Quizzes from previous years (Canvas).• Problems in lab manual.• Answers will not be posted, but the TAs and instructors are available for
discussion.
Review session with TAs:• 5:30 PM, Wednesday, 9 February• Room 210, Aline Skaggs Biology Building
The General Protease Reaction
H
N
O
O
N
H
CH 3
O
NH 3
+
+ + H
3 N
CH 3
O
NH 3
+
O
O
H
N
O –
H2OH
N
H
N
residue residue residue residue
About 2% of genes in most organisms encode proteases.(Hedstrom, L. 2002, Chem. Rev. 102, 4429)
General Protease Mechanism is Nucleophilic Substitution
H2NC
C
C
O
NuC
C
O
NH
C
Nu
+C
C
O-
NH
C
Nu
HA
+
Water Can Act as the Nucleophile,but Must be Activated by a Base
H2NC
C
C
O
OHC
C
O
NH
C +
C
C
O-
NH
C
HA
H
O
H
H
O-
H
O
B
BH+
Why is this reaction so slow in the absence of an enzyme?
How do enzymes enhance the rate?
Carboxyl Groups Activate H2O in Aspartyl Proteases
H
O
H
Cα
C
O
NH
CαC
O O-
C
O
OH
Asp Asp
Cα
C
O-
NH
Cα
H
O
C
O
C
HO O
Asp Asp
OH
Examples include pepsin and HIV protease
Serine Proteases Employ a Two-Step Mechanism
Enzyme-Substrate Complex Acyl Intermediate Enzyme + Products
O
O
O H
H
OH
O
N H
+ H 3 N
OH
O
O –
+ H 3 N
In step 1, a serine hydroxyl is the nucleophile.
In step 2, a water molecule is the nucleophile.
Both steps require activation by a base.
Examples include trypsin, chymotrypsin, blood clotting factors and manyothers.
How Do We Know What We Know About Serine Proteases?
Information
Observations
Experiments
Data
Knowledge
Organized information
Theories
Predictions
Chemical and biochemical data:• Enzyme kinetics• Studies with inhibitors• Chemical analysis, e.g., active site labeling
Structural analysis, mostly X-ray crystallography
Clicker Question #2: How Big is an Enzyme?
A) 10−10m
B) 10−9m
C) 10−8m
D) 10−7m
E) 10−6m
?
No wrong answers (for now)!
Optical Magnification
Duck
Magnified Duck Image
Lens
A B
As the object is brought closer to the lens:
Image moves further from the lens and becomes larger.
Magnification = B=A
Magnification, in principle, is not limited, but resolution is.
Imaging With a Lens - a Wave Interpretation
Image is formed at points where waves are brought back in phase.
Points in the object must be separated by at least ∼ 1=2 wavelength togive rise to separate points in the image.
The Electromagnetic Spectrum
Illustration From: McMurry, J. & Fay, R. (2004). Chemistry . Prentice-Hall, 4th edition.
Why Not an X-Ray Microscope?
Scattering from individual atoms is very weak, especially from elementswith low atomic numbers.
Very difficult to make lenses for X-rays.
In crystallography:• Use crystals to increase the total scattering intensity.
• Use a mathematical technique, the Fourier transform, to do the job of a lens.
A Real Diffraction Pattern From a Pretend Duck
Taylor, C. & Lipson, H. (1964). Optical Transforms: Their preparation and application to X-ray diffractionproblems. Cornell Univ. Press, Ithaca, NY.
Steps in Protein Crystallography
1. Grow Crystals
Entirely empirical andidiosyncratic.
Protein crystals are about 50%water and are kept suspended in asalt solution; close to physiologicalconditions.
Resolution of final structure ishighly dependent on how wellordered the crystals are.
Crystal pictures from: http://biophysics.uoguelph.ca/central/facilities.htm
Steps in Protein Crystallography
2. Collect Diffraction Data
Pictures from:http://www.nsrrc.org.tw/english/research8_1_circle_Diffractometer.aspx
http://www.bnl.gov/nufo/facilities.asp
Steps in Protein Crystallography
3. Determine PhasesDiffraction data contain intensities of scattered X-ray waves, but not theirphases. Both are needed to reconstruct structure.
One way: Comparing diffraction intensities of crystals containingdifferent heavy-atom derivatives.
4. Calculate electron density map
Molecular model is built into the electron density map.
Figure from Berg, Tymoczko and Stryer Biochemistry, 5thed. (2002) W.H. Freeman, New York.
Atomic Coordinates are Depositedin the Protein Data Bank (PDB)
http://www.rcsb.org