bp219 04-13-2011
TRANSCRIPT
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Came from 242.6 in Bi 204 from 2010 oct
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• Protein Crystallography BP 219, 2 units, Robert Stroud 3/31-4/15, M-F (no Tue), 10-Noon, GH S 261, and 1:30-4:30 lab in S-176
• Natalia Khuri
• David Paquette
• Hai Tran
• Andrew Lyon
• Stefan Isaac
• Lea Gemmel Room for 4 late adds
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B1 219 ROBERT M. STROUD
• Understanding crystallography and structures
• Interactive – Bring conundra –
• Laboratory course:
– Crystallize a protein
– Determine structure
– Visit ‘Advanced Light Source’ (ALS) for data
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Determining Atomic Structure• X-ray crystallography = optics ~ 1.5Å (no lenses)
• Bond lengths ~1.4Å
• Electrons scatter X-rays; ERGO X-rays ‘see electrons’
• Resolution –Best is /2 Typical is 1 to 3 Å
• Accuracy of atom center positions ±1/10 Resolution
2
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Where do X-rays come from?=accelerating or decelerating electrons
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Resources:
Crystallography accessible to no prior knowledge of the field or its mathematical basis. The most comprehensive and concise reference Rhodes' uses visual and geometric models to help readers understand the basis of x-ray crystallography.
http://www.msg.ucsf.eduComputingCalculation software-all you will ever needOn line course for some items:http://www-structmed.cimr.cam.ac.uk/course.html
http://bl831.als.lbl.gov/~jamesh/movies/
Dr Chris Waddling msg.ucsf.edu
Dr James Holton UCSF/LBNL
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Optical image formation, - without lenses
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TopicsSummmary: Resources1 Crystal lattice
optical analoguesphotons as waves/particles
2 Wave additioncomplex exponential
3. Argand diagram4. Repetition ==sampling
fringe function5. Molecular Fourier Transform
Fourier Inversion theoremsampling the transform as a product
6. Geometry of diffraction7. The Phase problem
heavy atom Multiple Isomorphous Replacement) MIRAnomalous Dispersion Multi wavelength Anomalous Diffraction MAD/SAD
8. Difference Maps and Errors9. Structure (= phase) Refinement
Thermal factorsLeast squaresMaximum likelihood methods
10. Symmetry –basis, consequences
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Topics11. X-ray sources: Storage rings, Free Electron Laser (FELS)12. Detector systems
13. Errors, and BIG ERRORS! –RETRACTIONS
14. Sources of disorder15. X-ray sources: Storage rings, Free Electron Laser (FELS)
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If automated- why are there errors?What do I trust? Examples of errors
trace sequence backwards,mis assignment of helices
etc
The UCSF beamline 8.3.1
UCSF mission bay
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NH3 sites and the role of D160 at 1.35Å Resolution
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Data/Parameter ratio is the same for all molecular sizes at the same resolution dmin
ie. quality is the same!
30S 50S
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Growth in number and complexity of structures versus time
Macromolecular Structures
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The universe of protein structures: Our knowledge about protein structures is increasing..
• 65,271 protein structures are deposited in PDB(2/15/2010).
• This number is growing by > ~7000 a year• Growing input from Structural Genomics HT structure
determination (>1000 structures a year)
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X-Ray Crystallography for Structure Determination
Goals: 1. How does it work2. Understand how to judge where errors may lurk3. Understand what is implied, contained in the Protein Data Bank PDB http://www.pdb.org/pdb/home/home.do
Resolution: - suspect at resolutions >3 ÅR factor, and Rfree : statistical ‘holdout test’Wavelength ~ atom sizeScattering from electrons = electron densityAdding atoms? howObservations Intensity I(h,k,l) = F(hkl).F*(hkl)Determine phases (hkl)Inverse Fourier Transform === electron densityJudging electron density- How to interpret?Accuracy versus Reliability
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A Typical X-ray diffraction pattern
~100 microns
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max=22.5 if =1ÅResolution 1.35Åmax=45
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The Process is re-iterative, and should converge-but only so far!
Intensities I(h,k,l) Electron density (x,y,z)
Phases (h,k,l)
Atom positions (x,y,z)
Known:Amino acid sequenceLigandsBond lengths anglesConstraints on geometry
Crystal
Experimentalheavy atom labelsselenium for sulfurTrial & error similar structure
calculated I(h,k,l)
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Resolution dmin = /2 sin ( max)differs from Rayleigh criterion
dmin = /2 sin ( max) is the wavelength of theshortest wave used to construct the density map
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The Rayleigh Criterion
• The Rayleigh criterion is the generally accepted criterion for the minimum resolvable detail - the imaging process is said to be diffraction-limited when the first diffraction minimum of the image of one source point coincides with the maximum of another.
compared withsin ( max) = /2 dmin
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How do we judge the Quality of structure?
2. Overall quality criteria:agreement of observations
with diffraction calculated from the interpreted structure.
3. Since we refine the structureTo match the Ihkl overfitting ?
Define Rfree for a ‘hold-out ‘ set of observations.
4. OK? R < 20%, R free< 25%
5. But the experimental errors in measuring Fo are ~ 3%.inadequate models of solvent, atom motion, anharmonicisity
6 Accuracy ~ 0.5*res*R
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Crystal lattice is made up of many ‘Unit Cells’Unit cell dimensions are 3 distances a,b,c and angles between them
Repetition in ‘Real space’
Causes Sampling in‘scattering space’
A ‘section’ throughScattering patternof a crystal l=0Note symmetry,Absences for h=even k=even
h
k
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Crystal lattice is made up of many ‘Unit Cells’Unit cell dimensions are 3 distances a,b,c and angles between them
Repetition in ‘Real space’
Causes Sampling in‘scattering space’
Vabc = |a.(bxc)|Vabc = |b.(cxa)|Vabc = |c.(axb)|
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Scattering
Adding up the scattering of Atoms:‘interference’ of waves
Waves add out of phaseby 2 [extra path/ ]
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In general they add up to somethingamplitude In between -2f and +2f.For n atoms
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Just 2 atoms…
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Many atoms add by the same rules.
Different in every direction.
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Summary of the Process from beginningto structure..
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Optical Equivalent: eg slide projector; leave out the lens..Optical diffraction = X-ray diffraction
Image of the object
Remove the lens= observe scatteringpattern
object
film
object
object
object
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Scattering
Adding up the scattering of Atoms:‘interference’ of waves
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vectors revisited…• Vectors have magnitude and direction• Position in a unit cell
– r = xa + yb + zc where a, b, c are vectors, x,y,z are scalars 0<x<1– a.b = a b cos ( ) projection of a onto b -called ‘dot product’– axb = a b sin ( ) a vector perpendicular to a, and b proportional to area in
magnitude -- called cross product– volume of unit cell = (axb).c = (bxc).a = (cxa).b = -(bxa).c = -(cxb).a – additivity: a + b = b + a– if r = xa + yb + zc and s = ha* + kb* + lc* then
• r.s = (xa + yb + zc ).(ha* + kb* + lc* ) • = xh a.a* + xka.b* + xla.c* +yhb.a* + ykb.b* + ylb.c* + zhc.a* +zhc.a* + zkc.b* + zlc.c*
– as we will see, the components of the reciprocal lattive can be represented in terms of a* + b* + c*, where a.a* = 1, b.b*=1, c.c*=1
– and a.b*=0, a.c*=0 etc..r.s = (xa + yb + zc ).(ha* + kb* + lc* ) • = xh a.a* + xka.b* + xla.c* +yhb.a* + ykb.b* + ylb.c* + zhc.a* +zhc.a* + zkc.b* + zlc.c*• = xh + yk + zl
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Adding up the scattering of Atoms:‘interference’ of waves
2 r.S
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Adding up the scattering of Atoms:‘interference’ of waves
2 r.S
F(S)
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Revisit..
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Revision notes on McClaurin’stheorem.
It allows any function f(x) to be definedin terms of its value at some x=a valueie f(a), and derivatives of f(x) at x=a,namely f’(a), f’’(a), f’’’(a) etc
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Extra Notes on Complex Numbers(p25-28)
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Wave representation
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2 r.S
F(S)Argand Diagram.. F(S) = |F(s)| ei
Intensity = |F(s)|2
How to represent I(s)?
I(s) = |F(s)|2 F(S) .F*(S)
proof?
Where F*(S) is defined to be the ‘complex conjugate’ of F(S) = |F(s)| e-i
so |F(s)|2 |F(s)|[cos( ) + isin( )].|F(s)|[cos( ) - isin( )]|F(s)|2 [cos2 ( ) + sin2 ( )]|F(s)|2 R.T.P.
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-2 r.S
F*(S)
F*(S) is the complex conjugate of F(S), = |F(s)| e-i
(c+is)(c-is)=cos2 - c is + c is + sin2
so |F(s)|2 F(S) .F*(S)
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Origin Position is arbitrary..proof..
So the origin is chosen by choice of:
a) conventional choice in each space group-eg Often on a major symmetry axis- BUT for strong reasons—see ‘symmetry section’.
Even so there are typically 4 equivalent major symmetry axes per unit cell..
b) chosen when we fix the first heavy metal (or Selenium) atom position, -all becomes relative to that.
c) chosen when we place a similar moleculefor ‘molecular replacement’ = trial and errorsolution assuming similarity in structure.
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Adding waves from j atoms…F(S)= G(s) =
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and why do we care?
How much difference will it make to the average intensity? average amplitude?
if we add a single Hg atom?
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The ‘Random Walk’ problem? (p33.1-33.3)
What is the average sum of n steps in random directions?
(What is the average amplitude<|F(s)|> from an n atom structure?)
-AND why do we care?!........
How much difference from adding amercury atom (f=80).
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The average intensity for ann atom structure, each of f electronsis <I>= nf2
The average amplitude is Square rootof n, times f
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and why do we care?
How much difference will 10 electrons make to the average intensity? average amplitude?
average difference in amplitude?average difference in intensity?
if we add a single Hg atom?
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and why do we care?
How much difference will 10 electrons make to the average intensity? 98,000 e2
average amplitude? 313
average difference in amplitude?average difference in intensity?
if we add a single Hg atom?
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and why do we care?
How much difference will 10 electrons make to the average intensity? 98,000 e2
average amplitude? 313 e
average difference in amplitude?2.2% of each amplitude!
average difference in intensity?98,100-98000=100 (1%)
if we add a single Hg atom?
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and why do we care?
How much difference will 80 electrons make to the average intensity? 98,000 e2
average amplitude? 313 e
average difference in amplitude?18 % of each amplitude!
average difference in intensity?104,400-98000=6400 (6.5%)
or Hg atom n=80e
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WILSON STATISTICS
What is the expectedintensity of scattering versus the observedfor proteins of i atoms,?
on average versus resolution |s|?
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Bottom Lines:
This plot should provide The overall scale factor(to intercept at y=1)
The overall B factor
In practice for proteins it has bumpsin it, they correspond to predominantor strong repeat distances in the protein.For proteins these are at 6Å (helices)3Å (sheets), and 1.4Å (bonded atoms)
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Topic: Building up a Crystal
1 Dimension
Scattering from an array of points, is the same as scattering from one point,SAMPLED at distances ‘inverse’ to the repeat distance in the object
The fringe function
Scattering from an array of objects, is the same as scattering from one object,SAMPLED at distances ‘inverse’ to the repeat distance in the object eg DNA
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Scattering from a molecule is described by
F(s)= i fi e(2 ir.s)
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Consequences of being a crystal?
• Repetition = sampling of F(S)
34Å 1/34Å-1
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Object repeated 1/2/
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Consequences of being a crystal?
• Sampling DNA = repeating of F(S)
34Å 1/34Å-1
3.4Å 1/3.4Å-1
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Transform of two hoizontal lines defined y= ± y1
F(s) = Int [x=0-inf exp{2 i(xa+y1b).s} + exp{2 i(xa-y1b).s}dVr ]=2 cos (2 y1b).s * Int [x=0-inf exp{2 i(xa).s dVr]
for a.s=0 the int[x=0-inf exp{2 i(xa).s dVr] = total e content of the linefor a.s≠0 int[x=0-inf exp{2 i(xa).s dVr] = 0
hence r(r) is a line at a.s = 0 parallel to b, with F(s) = 2 cos (2 y1b).s -along a vertical line perpendicular to the horizontal lines.
This structure repeats along the b direction thus peaks occur at b.s = k (where k is integer only)
Transform of a bilayer..
b=53Å
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4.6Å
b = 53Å Repeat distance 40Å inter bilayer spacing
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4.6Å
53Å Repeat distance
40Å inter bilayer spacing
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The Transform of a Molecule
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How to calculate electron density?
Proof of the Inverse Fourier Transform:
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Definitions:
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Build up a crystal from Molecules…
First 1 dimension,a direction
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b.s=k
a.s=h
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hkl=(11,5,0)
Measure I(hkl)F(hkl)= √I(hkl)Determine (s) = (hkl)
Calculate electron density map
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The density map is made up of interfering density waves through the entire unit cell…
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Geometry of Diffraction
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A Typical X-ray diffraction pattern
~100 microns
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A Typical X-ray diffraction pattern
~100 microns
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=2dhklsin( )
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Compute a Transform of a series of 50%b/50%w parallel lines
• Ronchi ruling:
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F(S) = j fj e(2 irj.S)
Scattering pattern is the Fourier transform of the structure
Structure is the ‘inverse’Fourier transform of the Scattering pattern
r) = F(S) e(-2 ir.S)
FT
FT-1
FT-1
FT
This is all there is? YES!!
a
b
1/a
1/b
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F(S) = j fj e(2 irj.S)
Scattering pattern is the Fourier transform of the structure
Structure is the ‘inverse’Fourier transform of the Scattering pattern
r) = F(S) e(-2 ir.S)
FT
FT-1
FT-1
FT
But we observe |F(S)|2 and there are ‘Phases’
a
b
1/a
1/b
Where F(S) has phaseAnd amplitude
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F(S) = j fj e(2 irj.S)
Scattering pattern is the Fourier transform of the structure
Structure is the ‘inverse’Fourier transform of the Scattering pattern
r) = F(S) e(-2 ir.S)
FT
FT-1
FT-1
FT
This is all there is?
a
b
1/a
1/bF(h,k,l) = j fj e(2 i (hx+ky+lz))
x,y,z) = F(h,k,l) e(-2 ir.S)
S
Sh=15, k=3,
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Relative Information in Intensities versus phases
r) = F(S) e(-2 ir.S)
r) duck r) cat
F(S) = j fj e(2 irj.S)F(S) duck
|F(S)|
(s)
F(S) cat
|F(S)|duck
(s) cat
Looks like a …..
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Relative Information in Intensities versus phases
r) = F(S) e(-2 ir.S)
r) duck r) cat
F(S) = j fj e(2 irj.S)F(S) duck
|F(S)|
(s)
F(S) cat
|F(S)|duck
(s) cat
Looks like a CATPHASES DOMINATE:-Incorrect phases = incorrect structure-incorrect model = incorrect structure-incorrect assumption = incorrect structure
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Measure I(hkl)
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The Process is re-iterative, and should converge-but only so far!
Intensities I(h,k,l) Electron density (x,y,z)
Phases (h,k,l)
Atom positions (x,y,z)
Known:Amino acid sequenceLigandsBond lengths anglesConstraints on geometry
Crystal
Experimentalheavy atom labelsselenium for sulfurTrial & error similar structure
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Phase determination by any means, ends up as a probabilty distribution. So Fh,k,l, (h,k,l)
Then what to use for the best map?r) = F(S) e
(-2 ir.S) ?
the signal towards some F true will beIntegral P(F(S)) cos ( (h,k,l) – true)and the ‘noise ‘ will be Integral P(F(S)) sin ( (h,k,l) – true)
The map with the least noise will haveF(s) = center of mass of P(F(S))
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Phase determination by any means, ends up as a probabilty distribution. So Fh,k,l, (h,k,l)
Then what to use for the best map?r)best = F(S) e
(-2 ir.S) ?The map with the least noise will haveF(s) = center of mass of P(F(S))= Int P F sin( (best))is a minimum. Then m = Int P F cos ( (best))/Fie m|F(s)| (best) =Int P.Fwhere m = figure of merit = Int P(F) F(s) noise = Int F(s) sin
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If a map is produced with some (hkl)
The probability of it being correct is (hkl)P(hkl) ( (hkl)
Maximum value of P(hkl) ( (hkl) gives the ‘Most probable’ map
Map with the least mean square error, is when noise is minimum, Int find (best) such that Q= Int [|F| P(hkl) ( (hkl) exp (i (hkl) Fbest (best))]
2d is minimum.
is minimum when dQ/dFbest = 0so Fbest (best) = |F| P(hkl) ( (hkl) exp (i (hkl) d
Fbest (best) = m|F| center of ‘mass’ of the Probability distribution
m = Int P(hkl) ( (hkl) cos( - (best))consider errors from one reflection, and its complex conjugate<( )2> = 2/V2
Then F= Int Fcos( - (best))/ FNoise = 1/V Int F sin ( - (best))/F = F(1-m2)
mF where
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Adding up the scattering of Atoms:‘interference’ of waves
2 r.S
s0sss
s0
s1 S
radius = 1/
I(S)= F(S).F(S)*
F(S)
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How to be ‘UNBIASED’
• The Observations are constant F(hkl)
• The phases change according to presumptions..
• Remove all assumptions about any questionable region as early as possible
• Re-enforce the observations at each cycle and try to improve the phases without bias
• It is an objective method (prone to human aggressive enthusiasm.
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AXIOM: Forward FT Back FT-1 are Truly Inverse
Amplitudes F(h,k,l) Electron density (x,y,z)
Phases (h,k,l)
Atom positions (x,y,z)
Known:Amino acid sequenceLigandsBond lengths anglesConstraints on geometry
Crystal
Experimentalheavy atom labelsselenium for sulfurTrial & error similar structure
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Change one side Change the other
Amplitudes F(h,k,l) Electron density (x,y,z)
Phases (h,k,l)
Atom positions (x,y,z)
Known:Amino acid sequenceLigandsBond lengths anglesConstraints on geometry
Crystal
Experimentalheavy atom labelsselenium for sulfurTrial & error similar structure
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Amplitudes F(h,k,l) Electron density (x,y,z)
Phases (h,k,l)
Atom positions (x,y,z)
Known:Amino acid sequenceLigandsBond lengths anglesConstraints on geometry
Crystal
Experimentalheavy atom labelsselenium for sulfurTrial & error similar structure
Fhkl
Compare the ‘Observations’, with the Calculation-that depends on assumptions. =Difference Mapping!
Where Bias creeps in: 1. No Assumptions = no changes
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Amplitudes F(h,k,l) Electron density (x,y,z)
Phases (h,k,l)
Atom positions (x,y,z)
Known:Amino acid sequenceLigandsBond lengths anglesConstraints on geometry
Crystal
Experimentalheavy atom labelsselenium for sulfurTrial & error similar structure
Fhkl
Compare the ‘Observations’, with the Calculation-that depends on assumptions. =Difference Mapping!
Where Bias creeps in: 1. Errors of Overinterpretation
Solvent FlatteningAverage multiple copies
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2 r1.S
f1=6 electrons
F(S)
Sum of 7 atoms scattering
Result is a wave of amplitude |F(S)|phase (S)
cos( )
sin( )
e(i ) = cos( ) + i sin( )
i = √(-1)
F(S) = f1 e(2 ir1.S) + f2 e(2 ir2.S) +….
A reminder: Each individual F(hkl) has its own Phase (hkl)
(S)
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2 r1.S
f1=6 electrons
F(S)
Sum of 7 atoms scattering
Result is a wave of amplitude |F(S)|phase (S)
cos( )
sin( )
e(i ) = cos( ) + i sin( )
i = √(-1)
F(S) = f1 e(2 ir1.S) + f2 e(2 ir2.S) +….
In reality, maybe 3 atoms are missing.How to see what is missing?
Suppose we interpret 7 atoms; but 3 remain to be found in density
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2 r1.S
f1=6 electrons
F(S)
Sum of 7 atoms scattering
Result is a wave of amplitude |F(S)|phase (S)
cos( )
sin( )
e(i ) = cos( ) + i sin( )
i = √(-1)
F(S) = f1 e(2 ir1.S) + f2 e(2 ir2.S) +….
In reality, maybe 3 atoms are missing.How to see what is missing?
phase (S)
|F(S)|observed
Observed F(hkl) will contain a part of that information..
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F(S)
In reality The missing component isThe Difference F(S) obs - F(S)calc
It has all the missing information.Transform it= all missing parts.
But all we know is |F(S)|observed |F(S)|calc
and current (biased) phase (S)
So what if we take the Difference we
know ||F(S)|obs- |F(S)|calc| and (S)
e(i ) = cos( ) + i sin( )
F(S) = f1 e(2 ir1.S) + f2 e(2 ir2.S) +….
In reality, maybe 3 atoms are missing.How to see what is missing?
phase (S)
|F(S)|observed
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F(S)
In reality The missing component isThe Difference F(S) obs - F(S)calc
It has all the missing information.Transform it= all missing parts.
But all we know is |F(S)|observed |F(S)|calc
and current (biased) phase (S)
So what if we take the Difference we
know ||F(S)|obs- |F(S)|calc| and (S)
= F and (S)
e(i ) = cos( ) + i sin( )
F(S) = f1 e(2 ir1.S) + f2 e(2 ir2.S) +….
phase (S)
|F(S)|observed
It contains a component of the truth F cos( ), and an error component F sin( )
F
The BEST WE CAN DO…IS F, (S)
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F(S)
So what if we transform the Difference we
know F =||F(S)|obs- |F(S)|calc| and (S)
On average F = ftrue cos( )so On average towards the truth is
F cos( ) = ftrue cos2( )What is the average value of cos2( )?= ½ ( cos 2
phase (S)
|F(S)|observed
It contains a component of the truth F cos( )
and an error component F sin( )
Fftrue
f cos2(q)0
2p
ò
= ½ 0[ -f sin2= ½ fie transform F, (S) = ½ true density for 3 missing atoms
+ 11/2
What contribution to the ‘missing truth’?
/2d /2
/2/2
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F(S)
phase (S)
|F(S)|observed
Fftrue
ie transform F, (S) = ½ true density for 3 missing atoms+ noise from error components F sin( )
So transform 2 F, (S) = true density for 3 missing atoms+ 2*noise from error components F sin( )
This Difference map containsmore of the ‘missing’ truth than the 7 atomsplus some (small) noise.
Unbiased by any assumptionof the three missing atoms.
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F(S)
USES: 1. Finding the missing parts of a model.The Transform of |F(S)|calc (S) = 7 atoms assumed
F (S) = density for 3 missing atoms + ‘noise’(|F(S)|calc + 2 F) (S) = all 10 atoms
Since F =||F(S)|obs- |F(S)|calc| this is
2|F(S)|obs- |F(S)|calccalled a ‘2F0-Fc map’
phase (S)
|F(S)|observed
Fftrue
It is unbiased as to where the missingcomponents are
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F(S)
USES: 2. Add a substrate, Grow a new crystalMeasure New |F(S)|obs+substrate Compare with the apo-protein.
Transform F =||F(S)|obs+substrate- |F(S)|obs| (S)
or[2|F(S)|obs+substrate- |F(S)|obs ] (S)
= a ‘2F0-Fo map’
phase (S)
|F(S)|observed
Fftrue
It is unbiased as to where the missingsubstrate is.
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Difference Maps: Errors and Signal
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Fo-Fc maps identify everything ordered that is 'missing'
mapmap
-Eliminate Bias
-Half electron content
-See electrons
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Difference Maps: Errors and Signal
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The Best Fourier: Minimizing errors in the density map.
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Seeing Single electrons:
Errors in Difference maps are much smaller than in protein maps.
~ | F0|/Volume of unit cellversus~ |F0|/Volume of unit cell
Peaks of atoms are seen in less and less noise as refinement progresses.
(rms errors)1/2 ~ | F0| Thus errors in|F(Protein+Substrate)| - |F(Protein)| areby far lower (like Rmerge ~5%Fo) than for |Fo-Fc| (like Rfactor~20% of Fo
Can easily see movement of <1/10resolution (<0.2Å)
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A Dfference map shows 1/3 occupied NH3 sites and the role of D160 at 1.35Å Resolution. Here are 0.3 NH3 peaks!
Khademi..Stoud 2003
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Fo-Fc maps identify everything ordered that is 'missing'
mapmap
-Eliminate Bias-Half electron content-See electrons
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4/13/2011
Figure 3 The catalytic triad. (A) Stereoview displaying Model H superimposed on the 2Fo Fc (model H phases) at 1 (aqua) and 4 (gold). The densities for C and N in His 64 are weaker than in Asp 32. The Asp 32 CO2 bond at 4 is continuous, while the density for the C and O1 are resolved. (B) Schematic of the catalytic residues and hydrogen bonded neighbors with thermal ellipsoid representation countered at 50% probability (29). Catalytic triad residues Ser 221 and His 64 show larger thermal motion than the Asp 32. Solvent O1059 appears to be a relatively rigid and integral part of the enzyme structure. (C) Catalytic hydrogen bond (CHB). A Fo Fc (model H phases) difference map contoured at +2.5 (yellow) and 2.5 (red) and a 2Fo Fc (model H phases) electron density map contoured at 4 (gold). The position of the short hydrogen atom (labeled HCHB) in the CHB is positioned in the positive electron density present between His 64 N1 and Asp 32 O2.
Published in: Peter Kuhn; Mark Knapp; S. Michael Soltis; Grant Ganshaw; Michael Thoene; Richard Bott; Biochemistry 1998, 37, 13446-13452.DOI: 10.1021/bi9813983Copyright © 1998 American Chemical Society
The closer you get –the lower the noise. Can see single electrons!
|2Fo-Fc| c map
The structure showing‘thermal ellipsoids’ at50% Probability
|Fo-Fc| c map
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Difference Mapnoise ~20% of noise in the parent protein-and only two peaks!
Seeing small shifts-down to ±0.1Å
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4/13/2011
Figure 2 (A) Electron density for Asp 60. Fo Fc difference electron density map, contoured at +2.5 (yellow) and 2.5 (purple), is superimposed on a 2Fo Fc electron density map contoured at 1 (aqua) and 4 (gold), based on model H (Table 2). No hydrogen atoms were included for residues Asp 60, Gly 63, Thr 66, and solvent. At the 4 contour, the electron density between C and both O1 and O2 are equivalent as expected. (B) H2O hydrogen bonding in an internal water channel. Electron density; 2Fo Fc (model H phases) contoured at 4 (gold) level is superposed on Fo Fc (model H phases) difference electron density contoured at +2.5 (yellow) and 2.5 (purple) level. Peaks for both hydrogen atoms on solvent O1024 are seen along with hydrogen atoms of neighboring solvent and Thr 71 O1. A zigzag pattern of alternating proton donors and acceptors can be seen extending from Thr 71 O1 in the interior, through a chain of four solvent molecules ending at the surface of the enzyme (Figure 1).
Published in: Peter Kuhn; Mark Knapp; S. Michael Soltis; Grant Ganshaw; Michael Thoene; Richard Bott; Biochemistry 1998, 37, 13446-13452.DOI: 10.1021/bi9813983Copyright © 1998 American Chemical Society
2Fo-Fc maps (aqua and gold)Fo-Fc map in yellow and purple show individual hydrogen atoms!
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What happens if we transform what we do know and can measure, namely I(S) = |F(S)|observed
P(r) = |F(S)|2 e(-2 ir.S)
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Transform of I(hkl) = Transform of F2(hkl)…
What happens if I transform what I do know and can measure, namely I(S) = |F(S)|observed
ie
P(r) = |F(S)|2 e(-2 ir.S)
= [F(S). F*(S)] e(-2 ir.S)
?
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Arthur Lindo Patterson (1902-1966), innovative crystallographer who devised the well-known Patterson method (Patterson function) used in crystal-structure determination.
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Molecular Replacement
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Patterson map
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Intramolecular vectors before rotation
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Colour-coded Patterson map
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Intramolecular vectors after rotation
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30e
20e
a
b
All vectors brought to a common origin.
Consider a structure of 2 atomsone 20 electrons, one 30 electrons-in a monoclinic ‘space group’ie. a two fold symmetry axis is present, symbolized by
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Problem Set:
Interpret a Patterson mapin terms of heavy mercury atompositions
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The Process is re-iterative, and should converge-but only so far!
Intensities I(h,k,l) Electron density (x,y,z)
Phases (h,k,l)
Atom positions (x,y,z)
Known:Amino acid sequenceLigandsBond lengths anglesConstraints on geometry
Crystal
Experimentalheavy atom labelsselenium for sulfurTrial & error similar structure
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The Process is re-iterative, and should converge-but only so far!
Intensities I(h,k,l) Electron density (x,y,z)
Phases (h,k,l)
Atom positions (x,y,z)
Known:Amino acid sequenceLigandsBond lengths anglesConstraints on geometry
Crystal
Experimentalheavy atom labelsselenium for sulfurTrial & error similar structure
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The Process is re-iterative, and should converge-but only so far!
Intensities I(h,k,l) Electron density (x,y,z)
Phases (h,k,l)
Atom positions (x,y,z)
Known:Amino acid sequenceLigandsBond lengths anglesConstraints on geometry
Crystal
Experimentalheavy atom labelsselenium for sulfurTrial & error similar structure
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Intensities I(h,k,l) Electron density (x,y,z)
Phases (h,k,l)
Atom positions (x,y,z)
Known:Amino acid sequenceLigandsBond lengths anglesConstraints on geometry
Crystal
Experimentalheavy atom labelsselenium for sulfurTrial & error similar structure
Density Modification: Solvent Flattening
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Intensities I(h,k,l) Electron density (x,y,z)
Phases (h,k,l)
Atom positions (x,y,z)
Known:Amino acid sequenceLigandsBond lengths anglesConstraints on geometry
Crystal
Experimentalheavy atom labelsselenium for sulfurTrial & error similar structure
Density Modification: Place expected atoms
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Intensities I(h,k,l) Electron density (x,y,z)
Phases (h,k,l)
Atom positions (x,y,z)
Known:Amino acid sequenceLigandsBond lengths anglesConstraints on geometry
Crystal
Experimentalheavy atom labelsselenium for sulfurTrial & error similar structure
Density Modification: Non-Crystal Symmetry
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Intensities I(h,k,l) Electron density (x,y,z)
Phases (h,k,l)
Atom positions (x,y,z)
Known:Amino acid sequenceLigandsBond lengths anglesConstraints on geometry
Crystal
Experimentalheavy atom labelsselenium for sulfurTrial & error similar structure
Density Modification: Non-Crystal Symmetry
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Intensities I(h,k,l) Electron density (x,y,z)
Phases (h,k,l)
Atom positions (x,y,z)
Known:Amino acid sequenceLigandsBond lengths anglesConstraints on geometry
Crystal
Experimentalheavy atom labelsselenium for sulfurTrial & error similar structure
Density Modification: Non-Crystal Symmetry
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Addendum on Icosohedral virus structures
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Triangulation numbers of icosohedral virusesThere are 60T copies of each protein (asymmetric unit) in the capsid.
T=h2 + k2 + hkwhere h, k are integers
T=1,3,4,7,9,12,13, 16, 21,25are all possible.
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2 r1.S
f1=6 electrons
f7=8 electrons
2 r7.S
F(S)
Sum of 7 atoms scattering
Result is a wave of amplitude F(S)phase (s)
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2 r1.S
f1=6 electrons
f7=8 electrons
2 r7.S
F(S)
Sum of 7 atoms scattering
Result is a wave of amplitude F(S)phase (S)
cos( )
sin( )
e(i ) = cos( ) + i sin( )
i = √(-1)
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2 r1.S
f1=6 electrons
f7=8 electrons
2 r7.S
F(S)
Sum of 7 atoms scattering
Result is a wave of amplitude |F(S)|phase (S)
cos( )
sin( )
e(i ) = cos( ) + i sin( )
i = √(-1)
F(S) = f1 e(2 ir1.S) + f2 e(2 ir2.S) +….
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2 r1.S
f1=6 electrons
f7=8 electrons
2 r7.S
F(S)
Sum of 7 atoms scattering
Result is a wave of amplitude |F(S)|phase (S)
cos( )
sin( )
e(i ) = cos( ) + i sin( )
i = √(-1)
F(S) = j fj e(2 irj.S)
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2 r1.S
f1=6 electrons
f7=8 electrons
2 r7.S
F(S)
Sum of 7 atoms scattering
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2 r1.S
f1=6 electrons
f7=8 electrons
2 r7.S
F(S)
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F(S) = j fj e(2 irj.S)
e(i ) = cos( ) + i sin( )
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The Process is re-iterative, and should converge-but only so far!
Intensities I(h,k,l) Electron density (x,y,z)
Phases (h,k,l)
Atom positions (x,y,z)
Known:Amino acid sequenceLigandsBond lengths anglesConstraints on geometry
Crystal
Experimentalheavy atom labelsselenium for sulfurTrial & error similar structure
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F(S) = j fj e(2 irj.S)
Scattering pattern is the Fourier transform of the structure
Structure is the ‘inverse’Fourier transform of the Scattering pattern
r) = F(S) e(-2 ir.S)
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Rosalind Franklin and DNA
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Consequences of being a crystal?
• Repetition = sampling of F(S)
34Å
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Consequences of being a crystal?
• Repetition = sampling of F(S)
34Å 1/34Å-1
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Object repeated 1/2/
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Object ScatteringBuild a crystal
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Early Definitions:
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a.s=h
b.s=k
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hkl=(11,5,0)
Measure I(hkl)F(hkl)= √I(hkl)Determine (s) = (hkl)
Calculate electron density map
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The density map is made up of interfering density waves through the entire unit cell…
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Appendix: Slides for recall
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The Process is re-iterative, and should converge-but only so far!
Intensities I(h,k,l) Electron density (x,y,z)
Phases (h,k,l)
Atom positions (x,y,z)
Known:Amino acid sequenceLigandsBond lengths anglesConstraints on geometry
Crystal
Experimentalheavy atom labelsselenium for sulfurTrial & error similar structure
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The Process is re-iterative, and should converge-but only so far!
Intensities I(h,k,l) Electron density (x,y,z)
Phases (h,k,l)
Atom positions (x,y,z)
Known:Amino acid sequenceLigandsBond lengths anglesConstraints on geometry
Crystal
Experimentalheavy atom labelsselenium for sulfurTrial & error similar structure
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Anomalous Diffraction
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Anomalous diffraction
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Friedel’s Law: F(hkl)=F(-h,-k,-l)
a(hkl)=-a F(-h,-k,-l)
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http://www.ruppweb.org/Xray/101index.htmlfor any/all elements..
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http://www.ruppweb.org/Xray/101index.html
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