 
####################################################### 
#                                                     # 
#                        ACE                          # 
#                                                     # 
#        Ab-initio protein structure prediction       # 
#                         &                           # 
#               Comparative modeling                  # 
#                                                     # 
#                     Evaluator                       # 
#                                                     # 
#                ----------------- 11/1998            # 
#                                                     # 
#                         by                          # 
#           Adam Zemla & Ceslovas Venclovas           # 
#                                                     # 
#         Protein Structure Prediction Center         # 
#      Lawrence Livermore National Laboratory, CA     # 
#                                                     # 
####################################################### 
########################## 
#                        # 
#    ACE parameters:     # 
#                        # 
########################## 
# 
CONANA-INTER           ../CONANA/T0070.inter 
# 
NUMBER-OF-PARENTS      3 
ALIGNMENT-DALI(1)      ../PARENTS/casp3.T0070.2por.rot 
ALIGNMENT-DALI(2)      ../PARENTS/casp3.T0070.2omf.rot 
ALIGNMENT-DALI(3)      ../PARENTS/casp3.T0070.1prn.rot 
# 
ITER-CUTOFF            2.5       #    DISTANCE cutoff (for CA (iter))  
# 
# 
# MEASURES: 
# 
# For AB: 0 3 9 13 14 
# For CM: 0 1 2 3 6 7 8 9 10 11 12 13 14 18 
# 
ARMSMC  0 1 2     7 8 9    11 12 13 14 18 
ARMSSC  0 1 2 3 6 7 8 9    11 12 13 14 18 
# 
CRMSCA  0 1 2     7 8 9 10 11 12 13 14 18 
CRMSMC  0 1 2     7 8 9 10 11 12 13 14 18 
CRMSSC  0 1 2 3 6     9    11 12 13 14 18 
CRMSALL 0 1 2     7 8 9    11 12 13 14 18 
# 
D-E_CA  0 1 2     7 8 9    11 12 13 14 18 
D-E_MC  0 1 2     7 8 9    11 12 13 14 18 
D-E_SC  0 1 2 3 6 7 8 9    11 12 13 14 18 
D-E_ALL 0 1 2     7 8 9    11 12 13 14 18 
# 
# Output parameters 
# 
DIHED-OUTPUT        0         #    1 - ON, 0 - OFF 
SS-OUTPUT           0         #    1 - ON, 0 - OFF  
PHI-PSI             0         #    1 - SEPARATELY, 0 - NO  
ALIGNMENT-OUTPUT    0         #    1 - ON, 0 - OFF 
# 
# Calculation parameters 
# 
TEMP-FACTOR         30.0      #    Target structure temperature factor cutoff  
ACCESS-CUTOFF       0.20      #    Solvent accessibility cutoff  
ANGLES-CORRECT      30.0      #    target-model  (diff < 30.0)  
ROTAMERS-LIMIT      30.0      #    target-parent (diff > 30.0) 
SC-SWAPPING         1         #    1 - ON, 0 - OFF  
DSSP-HELIX          6         #    Secondary Structure subset: helix cutoff  
DSSP-STRAND         3         #    Secondary Structure subset: strand cutoff 
LIGAND-DIST1        4.0       #    Ligand contact: contact with ligand cutoff 
LIGAND-DIST2        6.0       #    Ligand contact: protein neighborhood cutoff 
PARENT-DIST3        2.5       #    target-parent (dist > 2.5) 
# 
CRMS-METHOD         3         #    0 - ALL, 1 - CA, 2 - MC+CB, 3 - CA (iter)  
# 
########################## 
#                        # 
#      ACE results:      # 
#                        # 
########################## 
 
# Reading the coordinates set (1) 
 
 
# Evaluating the coordinates set (1) 
 
# WARNING! TARGET 2461 atoms, MODEL 1279 atoms, 1278 common with TARGET 
           Number of atoms possible to evaluate: 1263 
 
 
 CA-RMS TARGET<->PARENT(2por)	 2.626696 
 
 CA-RMS TARGET<->PARENT(2omf)	 2.036648 
 
 CA-RMS TARGET<->PARENT(1prn)	 2.250064 
 
 
MEASURES: 
 
 
ANGLES RMS : model <-> target 
 
 (MC: PHI+PSI) DIHED RMS:      ARMSMC            PC     NP     PP     TN 
     ALL . . . . . . . . . .    71.87           51.7   470    71.0   662     ARMSMC  
     WELL ORDERED  . . . . .    62.73           61.5   187    69.8   268     ARMSMC  
     NO INTER CONTACTS . . .    68.68           54.4   408    74.3   549     ARMSMC  
     SHIFTED CHAIN . . . . .    74.05           48.9   419    70.8   592     ARMSMC  
     ALTERNATIVE PARENT  . .    70.53           50.3   143    76.1   188     ARMSMC  
     SECONDARY STRUCTURE . .    45.40           70.3   263    75.6   348     ARMSMC  
     LARGE SHIFTS/INSERTIONS    88.06           32.9   219    67.8   323     ARMSMC  
     LIGAND CONTACTS . . . .     0.00            0.0     0     0.0     0     ARMSMC  
     SURFACE . . . . . . . .    75.33           50.2   253    68.0   372     ARMSMC  
     BURIED  . . . . . . . .    67.61           53.5   217    74.8   290     ARMSMC  
     CORE  . . . . . . . . .    53.90           68.1   251    74.0   339     ARMSMC  
 (SC: CHI1) DIHED RMS:         ARMSSC            PC     NP     PP     TN 
     ALL . . . . . . . . . .    92.65           34.2    38    15.5   245     ARMSSC1 
     WELL ORDERED  . . . . .   108.96            0.0    10    13.2    76     ARMSSC1 
     NO INTER CONTACTS . . .    81.77           37.9    29    14.4   201     ARMSSC1 
     RELIABLE SIDE CHAINS  .    87.98           38.2    34    15.0   226     ARMSSC1 
     CHANGED ANGLES  . . . .   102.30           19.4    31    15.2   204     ARMSSC1 
     SHIFTED CHAIN . . . . .    94.71           30.3    33    14.9   221     ARMSSC1 
     ALTERNATIVE PARENT  . .   114.59            0.0     5     6.8    73     ARMSSC1 
     SECONDARY STRUCTURE . .    85.76           40.0    20    14.8   135     ARMSSC1 
     LARGE SHIFTS/INSERTIONS   104.61           42.9    14    12.2   115     ARMSSC1 
     LIGAND CONTACTS . . . .     0.00            0.0     0     0.0     0     ARMSSC1 
     SURFACE . . . . . . . .    95.76           37.0    27    18.6   145     ARMSSC1 
     BURIED  . . . . . . . .    84.52           27.3    11    11.0   100     ARMSSC1 
     CORE  . . . . . . . . .    84.89           29.2    24    18.5   130     ARMSSC1 
 (SC: CHI2) DIHED RMS:         ARMSSC            PC     NP     PP     TN 
     ALL . . . . . . . . . .    64.04           44.8    29    16.1   180     ARMSSC2 
     WELL ORDERED  . . . . .    59.64           66.7     6    12.0    50     ARMSSC2 
     NO INTER CONTACTS . . .    52.43           52.4    21    14.7   143     ARMSSC2 
     RELIABLE SIDE CHAINS  .    47.70           52.6    19    14.7   129     ARMSSC2 
     CHANGED ANGLES  . . . .    70.77           30.0    20    13.2   152     ARMSSC2 
     SHIFTED CHAIN . . . . .    68.63           36.0    25    15.4   162     ARMSSC2 
     ALTERNATIVE PARENT  . .   101.21            0.0     3     6.1    49     ARMSSC2 
     SECONDARY STRUCTURE . .    59.44           50.0    16    16.5    97     ARMSSC2 
     LARGE SHIFTS/INSERTIONS    80.04           16.7    12    14.3    84     ARMSSC2 
     LIGAND CONTACTS . . . .     0.00            0.0     0     0.0     0     ARMSSC2 
     SURFACE . . . . . . . .    61.73           47.6    21    18.3   115     ARMSSC2 
     BURIED  . . . . . . . .    69.72           37.5     8    12.3    65     ARMSSC2 
     CORE  . . . . . . . . .    49.73           64.7    17    17.7    96     ARMSSC2 
 (SC: CHI3) DIHED RMS:         ARMSSC            PC     NP     PP     TN 
     ALL . . . . . . . . . .    58.31           40.0     5     8.9    56     ARMSSC3 
     WELL ORDERED  . . . . .    30.41            0.0     1     7.7    13     ARMSSC3 
     NO INTER CONTACTS . . .    24.50           66.7     3     6.2    48     ARMSSC3 
     RELIABLE SIDE CHAINS  .    58.31           40.0     5    12.2    41     ARMSSC3 
     CHANGED ANGLES  . . . .    58.31           40.0     5     9.3    54     ARMSSC3 
     SHIFTED CHAIN . . . . .    58.31           40.0     5     9.6    52     ARMSSC3 
     ALTERNATIVE PARENT  . .    41.26            0.0     1     5.9    17     ARMSSC3 
     SECONDARY STRUCTURE . .    61.84           50.0     4    12.1    33     ARMSSC3 
     LARGE SHIFTS/INSERTIONS    73.31            0.0     3     8.6    35     ARMSSC3 
     LIGAND CONTACTS . . . .     0.00            0.0     0     0.0     0     ARMSSC3 
     SURFACE . . . . . . . .    63.39           50.0     4    12.1    33     ARMSSC3 
     BURIED  . . . . . . . .    30.41            0.0     1     4.3    23     ARMSSC3 
     CORE  . . . . . . . . .    20.93          100.0     2     9.5    21     ARMSSC3 
 (SC: CHI4) DIHED RMS:         ARMSSC            PC     NP     PP     TN 
     ALL . . . . . . . . . .   106.07           25.0     4    12.9    31     ARMSSC4 
     WELL ORDERED  . . . . .     0.00            0.0     0     0.0     6     ARMSSC4 
     NO INTER CONTACTS . . .   101.00            0.0     2     8.0    25     ARMSSC4 
     RELIABLE SIDE CHAINS  .   106.07           25.0     4    12.9    31     ARMSSC4 
     CHANGED ANGLES  . . . .   122.25            0.0     3    10.3    29     ARMSSC4 
     SHIFTED CHAIN . . . . .   106.07           25.0     4    13.8    29     ARMSSC4 
     ALTERNATIVE PARENT  . .   156.31            0.0     1    11.1     9     ARMSSC4 
     SECONDARY STRUCTURE . .    82.81           33.3     3    17.6    17     ARMSSC4 
     LARGE SHIFTS/INSERTIONS   110.91           50.0     2     9.1    22     ARMSSC4 
     LIGAND CONTACTS . . . .     0.00            0.0     0     0.0     0     ARMSSC4 
     SURFACE . . . . . . . .   106.07           25.0     4    20.0    20     ARMSSC4 
     BURIED  . . . . . . . .     0.00            0.0     0     0.0    11     ARMSSC4 
     CORE  . . . . . . . . .   101.00            0.0     2    22.2     9     ARMSSC4 
 
COORDINATES RMS : model <-> target 
 
 
UNITARY 3.3 RIGHT HANDED ROTATION MATRIX: 
 r(1,1) =   0.63739     r(1,2) =   0.76815     r(1,3) =   0.06070 
 r(2,1) =  -0.77049     r(2,2) =   0.63630     r(2,3) =   0.03834 
 r(3,1) =  -0.00918     r(3,2) =  -0.07120     r(3,3) =   0.99742 
THE OFFSET VECTOR: 
 v(1) =  52.66394     v(2) =  30.69497     v(3) =  11.87814 
 
 Number of iteration 105                   (CUTOFF:  2.50) 
 TEST (CA iter) RMS =   1.49           (Number of atoms:   99) 
 
 (CA)  RMS:                   CRMSCA         NP     PP     TN 
     ALL . . . . . . . . . .   14.79        330    99.4   332     CRMSCA  
     CRN = ALL/NP  . . . . .    0.0448                            CRMSCA  
     WELL ORDERED  . . . . .   12.79        152   100.0   152     CRMSCA  
     NO INTER CONTACTS . . .   14.98        273    99.3   275     CRMSCA  
     SHIFTED CHAIN . . . . .   13.75        295    99.3   297     CRMSCA  
     ALTERNATIVE PARENT  . .   10.63         94   100.0    94     CRMSCA  
     SECONDARY STRUCTURE . .   13.75        174   100.0   174     CRMSCA  
     SHIFTED SS UNITS  . . .    9.62         91   100.0    91     CRMSCA  
     LARGE SHIFTS/INSERTIONS   14.48        160    98.8   162     CRMSCA  
     SURFACE . . . . . . . .   15.98        185    98.9   187     CRMSCA  
     BURIED  . . . . . . . .   13.11        145   100.0   145     CRMSCA  
     CORE  . . . . . . . . .   15.07        170   100.0   170     CRMSCA  
 (MC)  RMS:                   CRMSMC         NP     PP     TN 
     ALL . . . . . . . . . .   13.74       1129    70.3  1606     CRMSMC  
     WELL ORDERED  . . . . .   11.48        518    70.2   738     CRMSMC  
     NO INTER CONTACTS . . .   13.85        957    71.8  1332     CRMSMC  
     SHIFTED CHAIN . . . . .   13.17       1007    70.1  1437     CRMSMC  
     ALTERNATIVE PARENT  . .   10.30        324    71.2   455     CRMSMC  
     SECONDARY STRUCTURE . .   11.45        615    72.5   848     CRMSMC  
     SHIFTED SS UNITS  . . .    9.42        348    78.6   443     CRMSMC  
     LARGE SHIFTS/INSERTIONS   14.44        529    67.8   780     CRMSMC  
     SURFACE . . . . . . . .   14.99        618    67.9   910     CRMSMC  
     BURIED  . . . . . . . .   12.06        511    73.4   696     CRMSMC  
     CORE  . . . . . . . . .   13.10        600    72.6   826     CRMSMC  
 (SC)  RMS:                   CRMSSC         NP     PP     TN 
     ALL . . . . . . . . . .   13.36        177    15.6  1133     CRMSSC  
     WELL ORDERED  . . . . .   10.43         55    12.6   438     CRMSSC  
     NO INTER CONTACTS . . .   14.30        129    13.9   925     CRMSSC  
     RELIABLE SIDE CHAINS  .   13.17        149    15.6   957     CRMSSC  
     CHANGED ANGLES  . . . .   14.34        107    14.1   757     CRMSSC  
     SECONDARY STRUCTURE . .   11.87         98    15.7   626     CRMSSC  
     LARGE SHIFTS/INSERTIONS   14.20         61    11.6   524     CRMSSC  
     SURFACE . . . . . . . .   13.60        128    18.8   682     CRMSSC  
     BURIED  . . . . . . . .   12.70         49    10.9   451     CRMSSC  
     CORE  . . . . . . . . .   12.89        116    19.0   609     CRMSSC  
 (ALL) RMS:                   CRMSALL        NP     PP     TN 
     ALL . . . . . . . . . .   13.66       1263    51.3  2461     CRMSALL 
     WELL ORDERED  . . . . .   11.40        553    52.7  1049     CRMSALL 
     NO INTER CONTACTS . . .   13.85       1053    52.0  2025     CRMSALL 
     SHIFTED CHAIN . . . . .   13.11       1119    51.0  2193     CRMSALL 
     ALTERNATIVE PARENT  . .   10.43        340    49.8   683     CRMSALL 
     SECONDARY STRUCTURE . .   11.46        689    52.1  1322     CRMSALL 
     LARGE SHIFTS/INSERTIONS   14.41        575    49.1  1172     CRMSALL 
     SURFACE . . . . . . . .   14.73        718    50.2  1430     CRMSALL 
     BURIED  . . . . . . . .   12.10        545    52.9  1031     CRMSALL 
     CORE  . . . . . . . . .   12.99        688    53.4  1289     CRMSALL 
 
 
RMS Details of loops: 
 
 GLOBAL SUPERPOSITION 
 RMS:          CRMSCA     NP     PP     TN        LOOPS 
 CA  LOOP  1     3.65      1    33.3     3       1-QSS-3    
 CA  LOOP  2     3.53      3   100.0     3      11-DTN-13   
 CA  LOOP  3    21.97     23   100.0    23      17-VNKDAAGDSRYGLGTSGASTSRL-39   
 CA  LOOP  4    17.96      3   100.0     3      48-GGG-50   
 CA  LOOP  5    17.46     19   100.0    19      58-EGEIFGDDGNASGFNFKRR-76   
 CA  LOOP  6     3.80      6   100.0     6      99-QKLTSY-104  
 CA  LOOP  7     9.72     28   100.0    28     108-SATGIGPFMGFRNWAAGQGADDNGIRAN-135  
 CA  LOOP  8    11.05     12   100.0    12     159-KQTIGTADSVGR-170  
 CA  LOOP  9     4.19      3   100.0     3     179-DNG-181  
 CA  LOOP 10     5.65     11   100.0    11     193-KTAVGGLATDR-203  
 CA  LOOP 11    10.01     14   100.0    14     225-QTKFKRDIGGDIKT-238  
 CA  LOOP 12    11.15      6   100.0     6     264-QKAIDS-269  
 CA  LOOP 13    14.36     24   100.0    24     298-KDASTLGLQAKGVYAGGVQAGESQ-321  
 RMS:          CRMSMC     NP     PP     TN        LOOPS 
 MC  LOOP  1     3.36      4    26.7    15       1-QSS-3    
 MC  LOOP  2     3.52     12    80.0    15      11-DTN-13   
 MC  LOOP  3    21.92     96    86.5   111      17-VNKDAAGDSRYGLGTSGASTSRL-39   
 MC  LOOP  4    17.85     12   100.0    12      48-GGG-50   
 MC  LOOP  5    17.07     36    39.6    91      58-EGEIFGDDGNASGFNFKRR-76   
 MC  LOOP  6     4.03     19    63.3    30      99-QKLTSY-104  
 MC  LOOP  7     9.16     95    70.9   134     108-SATGIGPFMGFRNWAAGQGADDNGIRAN-135  
 MC  LOOP  8     8.78     30    51.7    58     159-KQTIGTADSVGR-170  
 MC  LOOP  9     4.39     12    85.7    14     179-DNG-181  
 MC  LOOP 10     5.29     46    86.8    53     193-KTAVGGLATDR-203  
 MC  LOOP 11     9.75     49    72.1    68     225-QTKFKRDIGGDIKT-238  
 MC  LOOP 12    10.94     16    53.3    30     264-QKAIDS-269  
 MC  LOOP 13    14.53     80    69.6   115     298-KDASTLGLQAKGVYAGGVQAGESQ-321  
 RMS:          CRMSALL    NP     PP     TN        LOOPS 
 ALL LOOP  1     3.36      4    19.0    21       1-QSS-3    
 ALL LOOP  2     3.52     12    52.2    23      11-DTN-13   
 ALL LOOP  3    21.70    108    67.9   159      17-VNKDAAGDSRYGLGTSGASTSRL-39   
 ALL LOOP  4    17.85     12   100.0    12      48-GGG-50   
 ALL LOOP  5    17.38     43    28.9   149      58-EGEIFGDDGNASGFNFKRR-76   
 ALL LOOP  6     4.67     22    43.1    51      99-QKLTSY-104  
 ALL LOOP  7     9.12     98    49.0   200     108-SATGIGPFMGFRNWAAGQGADDNGIRAN-135  
 ALL LOOP  8     8.78     30    35.3    85     159-KQTIGTADSVGR-170  
 ALL LOOP  9     4.39     12    60.0    20     179-DNG-181  
 ALL LOOP 10     5.09     52    69.3    75     193-KTAVGGLATDR-203  
 ALL LOOP 11     9.56     58    51.8   112     225-QTKFKRDIGGDIKT-238  
 ALL LOOP 12    11.01     19    42.2    45     264-QKAIDS-269  
 ALL LOOP 13    14.43     83    50.9   163     298-KDASTLGLQAKGVYAGGVQAGESQ-321  
 
 LOCAL SUPERPOSITION 
 RMS:          CRMSCA     NP     PP     TN        LOOPS 
 WARNING! LOOP  1 cannot be considered (not enough atoms). 
 
 CA  LOOP  2     0.16      3   100.0     3      11-DTN-13   
 CA  LOOP  3    10.73     23   100.0    23      17-VNKDAAGDSRYGLGTSGASTSRL-39   
 CA  LOOP  4     0.80      3   100.0     3      48-GGG-50   
 CA  LOOP  5     6.94     19   100.0    19      58-EGEIFGDDGNASGFNFKRR-76   
 CA  LOOP  6     1.45      6   100.0     6      99-QKLTSY-104  
 CA  LOOP  7     7.28     28   100.0    28     108-SATGIGPFMGFRNWAAGQGADDNGIRAN-135  
 CA  LOOP  8     3.48     12   100.0    12     159-KQTIGTADSVGR-170  
 CA  LOOP  9     0.54      3   100.0     3     179-DNG-181  
 CA  LOOP 10     3.73     11   100.0    11     193-KTAVGGLATDR-203  
 CA  LOOP 11     5.61     14   100.0    14     225-QTKFKRDIGGDIKT-238  
 CA  LOOP 12     2.51      6   100.0     6     264-QKAIDS-269  
 CA  LOOP 13     5.06     24   100.0    24     298-KDASTLGLQAKGVYAGGVQAGESQ-321  
 RMS:          CRMSMC     NP     PP     TN        LOOPS 
 WARNING! LOOP  1 cannot be considered (not enough atoms). 
 
 MC  LOOP  2     0.76     12    80.0    15      11-DTN-13   
 MC  LOOP  3    10.67     96    86.5   111      17-VNKDAAGDSRYGLGTSGASTSRL-39   
 MC  LOOP  4     2.32     12   100.0    12      48-GGG-50   
 MC  LOOP  5     7.68     36    39.6    91      58-EGEIFGDDGNASGFNFKRR-76   
 MC  LOOP  6     1.51     19    63.3    30      99-QKLTSY-104  
 MC  LOOP  7     7.01     95    70.9   134     108-SATGIGPFMGFRNWAAGQGADDNGIRAN-135  
 MC  LOOP  8     3.47     30    51.7    58     159-KQTIGTADSVGR-170  
 MC  LOOP  9     1.38     12    85.7    14     179-DNG-181  
 MC  LOOP 10     3.49     46    86.8    53     193-KTAVGGLATDR-203  
 MC  LOOP 11     5.06     49    72.1    68     225-QTKFKRDIGGDIKT-238  
 MC  LOOP 12     2.72     16    53.3    30     264-QKAIDS-269  
 MC  LOOP 13     4.94     80    69.6   115     298-KDASTLGLQAKGVYAGGVQAGESQ-321  
 RMS:          CRMSALL    NP     PP     TN        LOOPS 
 WARNING! LOOP  1 cannot be considered (not enough atoms). 
 
 ALL LOOP  2     0.76     12    52.2    23      11-DTN-13   
 ALL LOOP  3    10.67    108    67.9   159      17-VNKDAAGDSRYGLGTSGASTSRL-39   
 ALL LOOP  4     2.32     12   100.0    12      48-GGG-50   
 ALL LOOP  5     7.24     43    28.9   149      58-EGEIFGDDGNASGFNFKRR-76   
 ALL LOOP  6     1.91     22    43.1    51      99-QKLTSY-104  
 ALL LOOP  7     6.97     98    49.0   200     108-SATGIGPFMGFRNWAAGQGADDNGIRAN-135  
 ALL LOOP  8     3.47     30    35.3    85     159-KQTIGTADSVGR-170  
 ALL LOOP  9     1.38     12    60.0    20     179-DNG-181  
 ALL LOOP 10     3.86     52    69.3    75     193-KTAVGGLATDR-203  
 ALL LOOP 11     5.94     58    51.8   112     225-QTKFKRDIGGDIKT-238  
 ALL LOOP 12     3.68     19    42.2    45     264-QKAIDS-269  
 ALL LOOP 13     4.90     83    50.9   163     298-KDASTLGLQAKGVYAGGVQAGESQ-321  
 
 
Accuracy of estimates of atomic coordinate errors: model <-> target 
 
 (CA)  ERRORS:                  |D-E|   |D-E|/|D+E|   SR(D,E)    NP     PP     TN 
     ALL . . . . . . . . . .    8.202      0.474       0.293    330    99.4   332     ERRCA  
     WELL ORDERED  . . . . .    6.897      0.430       0.282    152   100.0   152     ERRCA  
     NO INTER CONTACTS . . .    8.105      0.470       0.295    273    99.3   275     ERRCA  
     SHIFTED CHAIN . . . . .    7.748      0.459       0.273    295    99.3   297     ERRCA  
     ALTERNATIVE PARENT  . .    5.184      0.362       0.227     94   100.0    94     ERRCA  
     SECONDARY STRUCTURE . .    6.857      0.437       0.310    174   100.0   174     ERRCA  
     LARGE SHIFTS/INSERTIONS    9.226      0.513       0.263    160    98.8   162     ERRCA  
     SURFACE . . . . . . . .    9.049      0.491       0.299    185    98.9   187     ERRCA  
     BURIED  . . . . . . . .    7.121      0.452       0.285    145   100.0   145     ERRCA  
     CORE  . . . . . . . . .    7.237      0.437       0.321    170   100.0   170     ERRCA  
 (MC)  ERRORS:                  |D-E|   |D-E|/|D+E|   SR(D,E)    NP     PP     TN 
     ALL . . . . . . . . . .    7.377      0.469       0.299   1129    70.3  1606     ERRMC  
     WELL ORDERED  . . . . .    5.970      0.427       0.295    518    70.2   738     ERRMC  
     NO INTER CONTACTS . . .    7.248      0.467       0.304    957    71.8  1332     ERRMC  
     SHIFTED CHAIN . . . . .    7.233      0.459       0.281   1007    70.1  1437     ERRMC  
     ALTERNATIVE PARENT  . .    4.993      0.362       0.227    324    71.2   455     ERRMC  
     SECONDARY STRUCTURE . .    5.472      0.425       0.317    615    72.5   848     ERRMC  
     LARGE SHIFTS/INSERTIONS    9.230      0.525       0.271    529    67.8   780     ERRMC  
     SURFACE . . . . . . . .    8.091      0.476       0.297    618    67.9   910     ERRMC  
     BURIED  . . . . . . . .    6.512      0.459       0.301    511    73.4   696     ERRMC  
     CORE  . . . . . . . . .    5.743      0.419       0.324    600    72.6   826     ERRMC  
 (SC)  ERRORS:                  |D-E|   |D-E|/|D+E|   SR(D,E)    NP     PP     TN 
     ALL . . . . . . . . . .    7.430      0.499       0.278    177    15.6  1133     ERRSC  
     WELL ORDERED  . . . . .    6.019      0.480       0.247     55    12.6   438     ERRSC  
     NO INTER CONTACTS . . .    7.837      0.505       0.288    129    13.9   925     ERRSC  
     RELIABLE SIDE CHAINS  .    7.594      0.513       0.289    149    15.6   957     ERRSC  
     CHANGED ANGLES  . . . .    8.698      0.552       0.278    107    14.1   757     ERRSC  
     SHIFTED CHAIN . . . . .    7.718      0.532       0.290    149    14.8  1005     ERRSC  
     ALTERNATIVE PARENT  . .    7.410      0.491       0.250     21     6.8   307     ERRSC  
     SECONDARY STRUCTURE . .    6.017      0.435       0.240     98    15.7   626     ERRSC  
     LARGE SHIFTS/INSERTIONS   10.386      0.644       0.326     61    11.6   524     ERRSC  
     SURFACE . . . . . . . .    6.888      0.449       0.259    128    18.8   682     ERRSC  
     BURIED  . . . . . . . .    8.847      0.630       0.327     49    10.9   451     ERRSC  
     CORE  . . . . . . . . .    5.876      0.423       0.252    116    19.0   609     ERRSC  
 (ALL) ERRORS:                  |D-E|   |D-E|/|D+E|   SR(D,E)    NP     PP     TN 
     ALL . . . . . . . . . .    7.356      0.471       0.296   1263    51.3  2461     ERRALL 
     WELL ORDERED  . . . . .    5.965      0.431       0.292    553    52.7  1049     ERRALL 
     NO INTER CONTACTS . . .    7.282      0.470       0.302   1053    52.0  2025     ERRALL 
     SHIFTED CHAIN . . . . .    7.266      0.467       0.282   1119    51.0  2193     ERRALL 
     ALTERNATIVE PARENT  . .    5.150      0.370       0.229    340    49.8   683     ERRALL 
     SECONDARY STRUCTURE . .    5.520      0.426       0.306    689    52.1  1322     ERRALL 
     LARGE SHIFTS/INSERTIONS    9.307      0.534       0.275    575    49.1  1172     ERRALL 
     SURFACE . . . . . . . .    7.887      0.472       0.290    718    50.2  1430     ERRALL 
     BURIED  . . . . . . . .    6.658      0.470       0.303    545    52.9  1031     ERRALL 
     CORE  . . . . . . . . .    5.727      0.419       0.313    688    53.4  1289     ERRALL 
 
 
 
DISTANCES: Percent of total atoms where distance (target <-> model) in global 
           superposition is less than: 1 , 2 , 3 , 5 , 10 Angstroms 
            D < 1     D < 2     D < 3     D < 5    D < 10      NP      TN 
CA  (N)        29        82       106       148       195     330     332   DISTCA 
CA  (P)      8.73     24.70     31.93     44.58     58.73             332   DISTCA 
CA  (RMS)    0.68      1.29      1.61      2.49      4.59                   DISTCA 
 
ALL (N)       129       355       472       622       814    1263    2461   DISTALL 
ALL (P)      5.24     14.43     19.18     25.27     33.08            2461   DISTALL 
ALL (RMS)    0.70      1.27      1.64      2.36      4.30                   DISTALL 
 
CA RMS: P<->T (parent <-> target), and T<->M (target <-> model) calculated using 
        CA positions for which there exists an alignment with principal parent, 
        and for which does not (LARGE SHIFTS/INSERTIONS): 
              P<->T         T<->M         T<->M (LSI) 
CA  (N)         170           170           160          RMSLSI 
CA  (P)       51.20         51.20         48.19          RMSLSI 
CA  (RMS)      1.52         15.07         14.48          RMSLSI 
 
 
 
END of the results output 
