ANODE: ANOmalousand heavy atom...
Transcript of ANODE: ANOmalousand heavy atom...
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ANODE: ANOmalous and heavy atom DEnsity
Andrea Thorn
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Organisation
Next lecture:
Advanced SHELXC/D/EThurs, 29th Sept 16:00 Strubi or Thurs, 6th Oct 11:30 DLS
Slides: shelx.uni‐ac.gwdg.de/~athorn
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Structure factors
Electron densityMap
Amplitudes& phases
Calculating a map ‐ Patterson
Intensities phases = 0
Patterson map
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Patterson maps contain allinteratomic vectors between allatoms, weighted by the electrons ofthe atoms linked and correct indirection.Consequently, macromolecularPatterson maps are very crowded,but still characteristic.
What does it look like?
Calculating a map ‐ Patterson
Intensities phases = 0
Patterson map
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Calculating a map ‐ Patterson
• Interatomic vectors• No relative positions• Handedness is not resolved.
peaks in a Patterson map
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Calculating a map ‐ Patterson
Problem: Resolution (number of vectors)
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Anomalous Patterson map
A Patterson map calculated from the anomalous differences only relates to vectors between anomalously scattering atoms: Anomalous Patterson map
Even at low resolution, atoms can now be differentiated.
Intensity differences& phases = 0
Anomalous Patterson map
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Patterson maps
Pictures made with XPREP
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Patterson map of Viscotoxin A1
Pictures courtesy of Phil EvansPictures made with XPREP
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AnomalousPatterson map of Viscotoxin A1
Pictures courtesy of Phil EvansPictures made with XPREP
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Map calculation
Anomalousdifferences & phases
Anomalous map
Or differences between derivative data setsOr differences before and after radiation damage
Or heavy atom mapOr map of radiation damage
(viewed as difference map)
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Demonstration: Viscotoxin B2Demonstration: Viscotoxin B2
PDB 2V9B, Pal et al. (2008). Acta Cryst. D64, 985‐992.
at 2.8σ
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SHELX workflow
The anomalous or heavy atom signalis used to find the substructure ofanomalous scatterers or heavyatoms.
With this information, theapproximate phases of amacromolecular structure can beobtained.
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The α angle
Im
Re
FP protein contributionFA marker atom contributionFT = FP + FA
α = T - A
A + α = T
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IntroductionIntroduction
ANODE calculates anomalous or heavy atom density.
φA = φ T – α φA
|FA| anomalous/heavy atom density map
From SHELXC or XPREP
From PDB model
Marker atom:|FA| and φA
Everything:|FT| and φT
Phase relation:φT = φ A + α
Strahs, G. & Kraut, J. (1968). J. Mol. Biol. 35, 503‐512.
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ANODE workflow
experimentaldata
name_fa.hkl
modelname.pdb
name.lsaname.phs
name_fa.res
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Output and available optionsOutput and available options
ANODE calculates the density map by Fast Fourier Transform.The square root of the density variance is derived.
Output:• Averaged density for each site type, for example S_Met• Heights and coordinates of unique peaks and distance to the
next atom in the PDB file.• Map name.pha for COOT• name_fa.res as written by SHELXD for testing with SHELXE• name.lsa – listing file
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Input and available optionsInput and available options
The program is used with the command:
anode name [options]
reads name.ent or name.pdb and name_fa.hklIf the data indices might be inconsistent with the PDB, thealternative orientation can be used by –i. For the space groupsP31, P32 and P3 four indexing options exist and should be chosenby –i1,‐i2 or –i3.A maximum resolution for FA can be given with a cut‐off (-d) ordamping can be applied (-b) which seems superior in our tests.
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Demonstration: Viscotoxin B2Demonstration: Viscotoxin B2
PDB 2V9B, Pal et al. (2008). Acta Cryst. D64, 985‐992.
at 2.8σ
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ExamplesExamples
• Hellethionin D: S‐SAD data from Cu home source and MR‐SAD
• Zn‐MAD data: Chemical identities
• SAD data: Radiation damage in a single data set
• RIP data: Seeing the effects of radiation damage
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Hellethionin D (Cu home source)Hellethionin D (Cu home source)
Hellethionin D • 46 residues, 4 disulfide bridges• ellipsoidal crystals in I422, 7
copies/ASU• MacScience SRA Cu source
with Incoatec Helios mirrors• Chloride and sulphur present• high multiplicity
The structure could not be solved by S‐SAD.
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Hellethionin D (Cu home source)Hellethionin D (Cu home source)
Weak signal ‐ not suitable for S‐SAD phasing, high multiplicity.
Wavelength (Å) 1.542
Resolution (Å) 34.10 – 2.70(2.80 – 2.70)
Completeness (%) 98.6 (85.5)
Multiplicity 99.7 (85.1)
Friedel‐compl. (%) 98.6 (85.1)
Mean I/σ 38.45 (17.39)
Rint (%) 15.21 (35.75)
Rpim (%) 1.51 (3.57)
d“/σ 1.08 (0.86)
PDB 3SZS, unpublished
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Hellethionin D (Cu home source)Hellethionin D (Cu home source)
Averaged anomalous densities (sigma)4.76 SG_CYS2.40 CL_CL0.65 BO_HOH0.22 NA_NA
(...)
Strongest unique anomalous peaksX Y Z Height(sig) SOF Nearest atom
S1 0.50000 0.50000 0.50000 10.21 0.125 35.051 NZ_A:LYS1S2 0.60858 0.20837 0.18402 7.63 1.000 0.603 SG_E:CYS26S3 0.57538 0.26385 -0.04962 7.52 1.000 0.623 SG_C:CYS16S4 0.47052 0.22168 0.09210 7.38 1.000 0.417 SG_G:CYS26
(...)
S52 0.56305 0.41309 0.08752 4.10 1.000 1.899 SG_A:CYS4052 Peaks output to file xtal3_fa.res
Terwilligeret al.. Acta Cryst. D72: 359‐374PDB 3SZS, unpublished
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Hellethionin D (Cu home source)Hellethionin D (Cu home source)
at 3.0 σ
PDB 3SZS, unpublished
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MR‐SADMR‐SAD
• The input PDB model can be aMR solution.
• Anomalous peaks can be usedas substructure.
• This can be put into SHELXE.
Hence, MR‐SAD can be done withANODE.
SAD data
name_fa.hkl
name_fa.res
name.hkl
partial structurename.pdb
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ANODE output with different models as input:
MR‐SADMR‐SAD
input highest peak () correct CC (SHELXE)*PHASER solution 4.713 12 6.66%ARCIMBOLDO solution 9.905 54 31.93%final structure 12.273 60 32.10%
* A value over 25% usually indicates a correct structure solution.
Phaser: McCoy et al. (2007) J. Appl. Cryst. 40, 658Arcimboldo: Rodriguez et al. (2010) Nat. Methods 6, 651
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Zn‐MADZn‐MAD
• Thermolysin measured by Marianna Biadene and Ina Dix• excess zinc• Three‐wavelength MAD experiment • BESSY beamline 14.2• Resolution 2.06 Å• Zinc, calcium and sulfur present
Unexpected peak 3.25 Å from the main zinc site: Holland et al.(1995) argued on its nature based on the native density and chemical environment of the site.
Holland et al. (1995). Protein Sci. 4, 1955‐1965.
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Zn‐MADZn‐MAD
at 3.5 σ
PDB 3FGD
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The anomalous signal
f = f0 + f’ + i f ”
f '
f ''
E
Fluorescence scan orhttp://skuld.bmsc.washington.edu
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Zn‐MADZn‐MAD
Data 3‐Wavelengths Inflectionpoint Peak High energy
remote
Experiment MAD SAD SAD SAD
Zn2+ 82.5 55.7 66.4 56.0
Ca2+ (mean) 11.2 15.1 11.1 12.8
SD_Met (mean) 1.8 3.5 2.3 2.9
Unknown 28.5 18.2 24.7 20.1
Ratio Ca2+/Zn2+ 0.136 0.271 0.167 0.229
Ratio Unk./Zn2+ 0.345 0.326 0.372 0.359
Peak height over as given by ANODE
PDB 3FGD
Data 3‐Wavelengths
Experiment MAD
Zn2+ 82.5
Ca2+ (mean) 11.2
SD_Met (mean) 1.8
Unknown 28.5
Ratio Ca2+/Zn2+ 0.136
Ratio Unk./Zn2+ 0.345
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Zn‐MADZn‐MAD
at 3.5 σ
PDB 3FGD
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Radiation damage from one data setRadiation damage from one data set
PDB 3T0O, Thorn et al. (2012) Nuc. Acids Res., epub
• Human RNase T2• 252 residues• SAD data set from BESSY 14.1• P21; 1 monomer/ASU• resolution 2.2 Å• multiplicity 7.16• four disulfide bridges
...which look different in ANODE.
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Radiation damage from one data setRadiation damage from one data set
at 2.2 σ
PDB 3T0O, Thorn et al. (2012) Nuc. Acids Res., epub
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Radiation damage from one data setRadiation damage from one data set
PDB 3T0O, Thorn et al. (2012) Nuc. Acids Res., epub
• Human Rnase T2• 252 residues• SAD data set from BESSY 14.1• P21; 1 monomer/ASU• resolution 2.2 Å• multiplicity 7.16• four disulfide bridges
...which look different in ANODE.
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RIP: Visualizing Radiation damage reactionsRIP: Visualizing Radiation damage reactions
• Thaumatin RIP data from Max Nanao• ESRF MAD beam line ID14‐EH4• Two data sets: Before and after radiation damage
How can the chemical changes by the radiation damage be assessed with ANODE?
Nanao et al. (2005) Acta Crystallogr. D61, 1227
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RIP: Visualizing Radiation damageRIP: Visualizing Radiation damage
To obtain negative and positive RIP density,
anode name –n3
has to be used. The negative densitycorresponds to the atomic positions after theradiation damage.
RIP data
name_fa.hkl
name.phaname.lsa
name_fa.res
final structurename.pda
Nanao et al. (2005) Acta Crystallogr. D61, 1227
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RIP: Visualizing Radiation damageRIP: Visualizing Radiation damage
Nanao et al. (2005) Acta Crystallogr. D61, 1227
at 5.5σ/‐3.1σ
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RIP: Visualizing Radiation damageRIP: Visualizing Radiation damage
Nanao et al. (2005) Acta Crystallogr. D61, 1227
at 4.8 σ / ‐3.1 σ
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ConclusionConclusion
ANODE allows for fast and effective visualisation of anomalous signal, radiation damage and heavy atoms:• Works well with weak signal• Ligand localization, validation and identification of
atom types• MR‐SAD or validation of MR solutions• Available at http://shelx.uni‐ac.gwdg.de/SHELX• The program ANODE is a standalone EXE file• SHELXC (or XPREP) is needed to set up _fa.hkl files
A. Thorn & G.M. Sheldrick: “ANODE: ANOmalous and heavy‐atom DEnsity calculation” J. Appl. Cryst. 44 (2011), 1285‐1287A. Thorn & G.M. Sheldrick: “ANODE: ANOmalous and heavy‐atom DEnsity calculation” J. Appl. Cryst. 44 (2011), 1285‐1287
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ACKNOWLEDGEMENTS
George M. Sheldrick ([email protected]‐ac.gwdg.de)
Isabel Usón, Max Nanao, Christian Große, Kevin Pröpper, Tobias Beck, Marianna Biadene, Gabor Buncoczi, Judit Debreczeni, Ina Dix, Tim
Gruene, Uwe Müller, Manfred Weiss
http://shelx.uni‐ac.gwdg.de/SHELX/.