Dear Tom I am trying to run phenix.cut_out_density but I seem to be unable to select the map_coeff_labels: viscount:~/sharpfiles/logfiles/Japanin-ID29-Phaser714.15> phenix.cut_out_density cycle_best_13.pdb eden_flat_55.0pc.mtz << EOF map_coeff_labels="FBshasol SIGFPsha PHIBshasol FOMshasol" EOF The output (see below) says I did not give SIGFP and it also picks the default F,PHI and FOM from columns 4,5,6 What am I doing wrong? Thanks! Pietro # cutout # # Cut out density from a map # Type phenix.doc for help Cutting out density Miller arrays in mtz_in: ['H', 'K', 'L', 'Fcentsha', 'PHIcentsha', 'FOMsha', 'HLA', 'HLB', 'HLC', 'HLD', 'FHsha', 'PHIHsha', 'FreeR_flag', 'FPsha', 'SIGFPsha', 'Fcentshasol', 'PHIcentshasol', 'FBshasol', 'PHIBshasol', 'PHIshasol', 'FOMshasol', 'HLAshasol', 'HLBshasol', 'HLCshasol', 'HLDshasol', 'FCshasol', 'PHICshasol'] Setting FP and PHI from map_coeffs Setting FP and PHI from map_coeffs Setting FP and PHI from map_coeffs Setting FP and PHI from map_coeffs Setting FP and PHI from map_coeffs Center of cutout region will be from model center at: [62.32560090909093, 43.68719545454543, 32.72059636363636] ------------------------ COPYRIGHT NOTICE --------------------------------- Los Alamos National Laboratory This program was prepared by Los Alamos National Security, LLC at Los Alamos National Laboratory (the University) under Contract No. W-7405-ENG-36 with the U.S. Department of Energy (DOE). The University has certain rights in the program pursuant to the contract and the program should not be copied or distributed outside your organization. All rights in the program are reserved by the DOE and the University. Neither the U.S. Government nor the University makes any warranty, express or implied, or assumes any liability or responsibility for the use of this software. ******************************************************* * --- RESOLVE --- * * * * Statistical density modification * * Automated model-building * * * * For on-line help * * see "http://solve.lanl.gov" * * * * This software uses library routines from the * * CCP4 suite (http://www.ccp4.ac.uk) for which * * the author is very thankful! * ******************************************************* (version 2.15 of 20-Mar-2010) (size = 6) Tom Terwilliger, Los Alamos National Laboratory, "[email protected]"

pdb_in_memory Reading pdb_in from memory If "no_reuse_model" is not set then this model will also be used as starting point for model-building

no_build Model will not be built

mask_cycles 1 Number of mask/image cycles: 1

minor_cycles 0 Number of minor cycles per mask/image cycle: 0

no_build Model will not be built

cutout Cutting out density near cutout_center and writing to P1 cell

fine_grid FFT grid will be extra fine (1/5 of resolution)

no_sort The atoms in pdb_in will not be sorted.

resolution 1000 2.13352593412 Resolution range (A) is: 2.133526 to 1000.000

cell1 15.0 15.0 15.0 90 90 90 Cell for cutout (cell1) is 15.00000 15.00000 15.00000 90.00000 90.00000 90.00000

cutout_center 62.3256009091 43.6871954545 32.7205963636 Center of density for cutout (cutout_center) is 62.32560 43.68719 32.72060

padding 5.0 Padding around cutout of density: 5 A

cutout_mask 1 Cutout mask type (1=box, 2=sphere, 3=mask around model): 1

cutout_sphere 10.0 Radius of cutout of density around cutout_center: 10 A

rad_mask 5.0 Radius for creating solvent model: 5.000000

All done with inputs Not writing any files as information returned in memory Building protein Setting up for building protein Standard fill-in residues: ALA A GLY G Standard main-chain atoms: N CA C O CB All main-chain atoms: N CA C O Max dist between adjacent N atoms: 6.000000 List of all residues: GLY ALA SER VAL ILE LEU MET CYS PHE TYR LYS ARG TRP HIS GLU ASP GLN ASN PRO THR List of 1-letter code of residues: GASVILMCFYKRWHEDQNPT List of number of atoms in side-chains: 0 1 2 3 4 4 4 2 7 8 5 7 10 6 5 4 5 4 3 3 checking license file.. solve2.access The date today is 31-jul-11. Your license is good until 15-dec-96. Space group name: Point group: Space group number : 96 Symmetry operators: 8 Done with lookup FP taken from column 4 No dataset found matching ID = 0 PHIB taken from column 5 FOM taken from column 6 Using HLA HLB HLC HLD coefficients WARNING: No SIGFP input data--output SIGFP column will be SIGFP=1.0 for all HKL! Reading in FreeR_flag Total of 5695 reflections read from file Guessing FreeR_flag corresponding to free reflections This can be set with free_id xx Free R reflections are those with FreeR_flag= 0 Total of 251 of 5695 reflections in test set High-resolution limit of input phased data: 3.21 Adding F000 term (0.0) to this list Closed mtz file Starting resolution: 3.20 max: 3.20 Space group is 96 Using symmetry operations from input MTZ file MATRICES: SYMMETRY ELEMENT 0 1 0 0 0 0 1 0 0 0 0 1 0 SYMMETRY ELEMENT 1 0 -1 0 0.5 1 0 0 0.5 0 0 1 0.75 SYMMETRY ELEMENT 2 0 1 0 0.5 -1 0 0 0.5 0 0 1 0.25 SYMMETRY ELEMENT 3 1 0 0 0.5 0 -1 0 0.5 0 0 -1 0.25 SYMMETRY ELEMENT 4 -1 0 0 0.5 0 1 0 0.5 0 0 -1 0.75 SYMMETRY ELEMENT 5 -1 0 0 0 0 -1 0 0 0 0 1 0.5 SYMMETRY ELEMENT 6 0 1 0 0 1 0 0 0 0 0 -1 0 SYMMETRY ELEMENT 7 0 -1 0 0 -1 0 0 0 0 0 -1 0.5 SPACE GROUP SYMBOL: P 43 21 2 CHECK ON SPACE GROUP SYMBOL: P 43 21 2 HALL SYMBOL : P 4nw 2abw Extra fine grids used for FFT Transformations from orthogonal to fractional and back: Orthogonal to fractional fractional x= 0.01183 X + -0.00000 Y + -0.00000 Z fractional y= 0.00000 X + 0.01183 Y + -0.00000 Z fractional z= 0.00000 X + 0.00000 Y + 0.01123 Z Fractional to orthogonal Orthogonal X= 84.50000 x + 0.00010 y + 0.00010 z Orthogonal Y= 0.00000 x + 84.50000 y + 0.00010 z Orthogonal Z= 0.00000 x + 0.00000 y + 89.05000 z Estimated # of atoms in au: 2510 Not separating out FREE set from other reflections for main cycles. Using all data. Results of wilson scaling: Scale on I = 3.274 B-value = 47.194 Scaling data with value of 3.274 Reading model density histograms from /software/xtal/PHENIX/phenix-1.7.1-743/solve_resolve/ext_ref_files/segments/rho.list Read total of 6 sets of density functions Highest value of ix, iy, iz in a.u: 143 143 18 nu nv nw: 144 144 144 Number of grid points in au: 373320 Mean fom of this map was: 0.84 Summary of starting FOM vs resolution RES FOM FOM-smoothed N 29.25 0.89 0.86 27 17.82 0.79 0.86 42 13.27 0.71 0.86 72 10.48 0.85 0.86 120 8.83 0.89 0.85 118 7.63 0.84 0.85 206 6.65 0.85 0.85 243 5.96 0.88 0.85 268 5.43 0.85 0.85 306 5.03 0.88 0.85 313 4.67 0.89 0.85 415 4.38 0.86 0.84 348 4.15 0.88 0.84 445 3.91 0.86 0.84 567 3.67 0.84 0.84 701 3.46 0.82 0.84 675 3.28 0.78 0.83 829 Mean fom of this map was: 0.84 Starting phases assumed to be experimental (To override, use "phases_from_resolve") Estimating optimal initial smoothing radius using the function: R=2.41 * (dmin**0.90) * (fom**-0.26) with dmin = 3.200273 and fom = 0.8443282 Leading to R= 7.174512 To override, set "wang_radius_cycle", "wang_radius", or "wang_radius_start" Setting final smoothing radius to 4.000000 To override, set "wang_radius_cycle", "wang_radius", or "wang_radius_finish" Using pdb_in from memory Center of molecule read in with 1081 atoms is 62.275337 43.672276 32.612022 Read 1081 atoms from PDB file for use in model-building MEMORY Solvent content will be 0.40 Using database entry 5 for histograms (" 3 A dehalogenase model ") Using all data for tests due to low number in test set (override with "use_free_for_test") Total mask cycles: 1 Total density modification mask cycles: 1 Cycle Ref NCS Use NCS Build image solvent Extend Cycles Test 1 NO NO NO NO YES NO 0 Mask cycle 1 Weighting this cycle: 1.000000 Histogram DB entry # 5 (" 3 A dehalogenase model ") Solvent content: 0.40 Smoothing radius: 7.17 Using histogram-based mask Assuming this cycle is unbiased (no previous density modification) Plot 1 ------------------------------------------------------------------------------- Plot of probability that a grid point is part of protein region vs percentiles of grid points All points to the left of the "+" signs are in solvent masked region those to right are in protein masked region. The values of p(protein) should change from low to high approximately at the value of the fraction of solvent indicated by the "+" signs. The sharper the transition the better. Note: the mask is only used to make an estimate of the p(protein) The values of p(protein) are used to weight the contribution of each grid point to the probability of the map: p(rho) = p(rho|protein) p(protein) + p(rho|solvent) (1-p(protein)) This says that the probability that we would observe the value "rho" of electron density at this point is the probability that we would observe "rho" if this were really protein times the probability that this is protein, plus the probability that we would observe "rho" if it were really solvent, times the probability that it is solvent. Probability that grid points are in protein region 1.0 ...........................xxxxxxxxxxxxxxxxxxxxxxx . + xx . . + x . . + x . . + . . + x . . + . p(protein) . xxxxxx . 0.5 . xxxxxxxxxxxxx + . . + . . x + . . + . .x + . . + . . + . 0.0 ....................+............................. 0 20 40 60 80 100 Percentile of grid points ------------------------------------------------------------------------------- Cutting region containing model out of map Box to be cut out of density (A) : 15 15 15 Box with padding (A) : 25 25 25 NX NY NZ for cutout box: 36 36 36 NX NY NZ with padding: 60 60 60 Center of cutout region (A): 62.3256 43.6872 32.7206 Using box for cutout mask Total grid points marked: 46656 not marked: 169344 Mean density in cutout region (no density offset applied ) 0.040 for 46656 points Number of points in padded region (set to 0.0): 169344 Output array in memory with 3600 reflections resolve exit_info: source_file: /net/longnose/scratch2/phenix/phenix-1.7.1-743/solve_resolve/resolve/cutout.cpp source_line: 252 status: 0 EndOfResolve Output map coeffs 3600 Writing output mtz: cutout.mtz Writing output pdb (offset to match output mtz): cutout.pdb Citations for cutout: Adams PD, Afonine PV, Bunkoczi G, Chen VB, Davis IW, Echols N, Headd JJ, Hung LW, Kapral GJ, Grosse-Kunstleve RW, McCoy AJ, Moriarty NW, Oeffner R, Read RJ, Richardson DC, Richardson JS, Terwilliger TC, Zwart PH. (2010) PHENIX: a comprehensive Python-based system for macromolecular structure solution. Acta Cryst. D66:213-221. ________________________________________ From: [email protected] [[email protected]] On Behalf Of Thomas C. Terwilliger [[email protected]] Sent: 05 July 2011 17:46 To: PHENIX user mailing list Subject: Re: [phenixbb] phenix.mr_rosetta: Inconsistent query numbering Hi Pietro, There is something that phenix.mr_model_preparation cannot read in Japanin.hhr (attached): phenix.mr_model_preparation Japanin.hhr gives the same error. I'll copy Gabor Bunkoczi and see if he can help with this. All the best, Tom T

...

Dear all,

my run of phenix.mr_rosetta stops with:

******************* ERROR ENDING *************** Inconsistent query numbering

******************* ERROR ENDING ***************

I attach script and logfiles.

Any suggestions?

Thanks

Pietro _______________________________________________ phenixbb mailing list [email protected] http://phenix-online.org/mailman/listinfo/phenixbb