NMR Restraints Grid
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NMR Restraints Grid |
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Result table
| image | mrblock_id | pdb_id | cing | stage | program | type | subtype | subsubtype |
|
|
483207 |
1wcr   |
cing | 4-filtered-FRED | Wattos | check | completeness | distance |
data_1wcr
save_NOE_Completeness
_NOE_completeness_stats.Sf_category NOE_completeness_statistics
_NOE_completeness_stats.Model_count 1
_NOE_completeness_stats.Residue_count 309
_NOE_completeness_stats.Total_atom_count 4812
_NOE_completeness_stats.Observable_atom_definition ob_standard
_NOE_completeness_stats.Observable_atom_count 1680
_NOE_completeness_stats.Use_intra_residue_restraints no
_NOE_completeness_stats.Redundancy_threshold_pct 5.0
_NOE_completeness_stats.Distance_averaging_power 1.00
_NOE_completeness_stats.Completeness_cutoff 4.00
_NOE_completeness_stats.Completeness_cumulative_pct 8.9
_NOE_completeness_stats.Constraint_unexpanded_count 1273
_NOE_completeness_stats.Constraint_count 1484
_NOE_completeness_stats.Constraint_exp_unfiltered_count 5070
_NOE_completeness_stats.Constraint_exceptional_count 0
_NOE_completeness_stats.Constraint_nonobservable_count 462
_NOE_completeness_stats.Constraint_intraresidue_count 0
_NOE_completeness_stats.Constraint_surplus_count 18
_NOE_completeness_stats.Constraint_observed_count 1004
_NOE_completeness_stats.Constraint_expected_count 5058
_NOE_completeness_stats.Constraint_matched_count 448
_NOE_completeness_stats.Constraint_unmatched_count 556
_NOE_completeness_stats.Constraint_exp_nonobs_count 4610
_NOE_completeness_stats.Details
;
A detailed methodology description is available at:
http://nmr.cmbi.ru.nl/~jd/wattos/doc/Wattos/Soup/Constraint/dc_completeness.html
Please note that the contributions in ambiguous restraints are considered
separate 'restraints' for the sets defined below.
The cut off for all statistics except those in the by-shell table is
given below by the above tag: _NOE_completeness_stats.Completeness_cutoff
Description of the tags in this list:
* 1 * Administrative tag
* 2 * Administrative tag
* 3 * Administrative tag
* 4 * Number of models
* 5 * Number of residues
* 6 * Number of atoms
* 7 * Standard set name of observable atom definitions
see: Doreleijers et al., J.Biomol.NMR 14, 123-132 (1999).
* 8 * Observable atom(group)s
* 9 * Include intra residue restraints
* 10 * Surplus threshold for determining redundant restraints
* 11 * Power for averaging the distance over models
* 12 * Up to what distance are NOEs expected
* 13 * Cumulative completeness percentage
* 14 * Number of unexpanded restraints in restraint list.
* 15 * Number of restraints in restraint list. Set U
* 16 * Expected restraints based on criteria in list. Set V
Set V differs from set B only if intra residue restraints are analyzed.
* 17 * Exceptional restraints, i.e. with an unknown atom.Set E
* 18 * Not observable NOEs with e.g. hydroxyl Ser HG. Set O
Even though restraints with these atom types might have been observed they are
excluded from the analysis.
* 19 * Intra-residue restraints if not to be analyzed. Set I
* 20 * Surplus like double restraints. Set S
* 21 * Observed restraints. Set A = U - (E u O u I u S)
* 22 * Expected restraints based on criteria as in A. Set B = V - (I u S)
* 23 * Observed restraints matched to the expected. Set M = A n B
* 24 * Observed restraints that were not expected. Set C = A - M
* 25 * Expected restraints that were not observed. Set D = B - M
* 26 * This tag
Description of the tags in the class table:
* 1 * Class of restraint. Note that 'medium-range' involves (2<=i<=4) contacts.
Possible values are: intraresidue,sequential,medium-range,long-range, and intermolecular.
* 2 * Observed restraints. Set A = U - (E u O u I u S)
* 3 * Expected restraints based on criteria as in A. Set B = V - (I u S)
* 4 * Observed restraints matched to the expected. Set M = A n B
* 5 * Completeness percentage
* 6 * Standard deviation from the average over the classes.
* 7 * Extra information
* 8 * Administrative tag
* 9 * Administrative tag
Description of the tags in the shell table.
The first row shows the lower limit of the shells requested and
The last row shows the total number of restraints over the shells.
* 1 * Description of the content of the row: edges, shell, or sums.
The value determines the meaning of the values to the nine 'Matched_shell_x' tags among others.
* 2 * Lower limit of shell of expected restraints.
* 3 * Upper limit of shell of expected restraints.
* 4 * Expected restraints based on criteria as in A. Set B = V - (I u S)
* 5 * Observed restraints matched to the expected. Set M = A n B
* 6 * Matched restraints with experimental distance in shell 1
* 7 * Matched restraints with experimental distance in shell 2
* 8 * Matched restraints with experimental distance in shell 3
* 9 * Matched restraints with experimental distance in shell 4
* 10 * Matched restraints with experimental distance in shell 5
* 11 * Matched restraints with experimental distance in shell 6
* 12 * Matched restraints with experimental distance in shell 7
* 13 * Matched restraints with experimental distance in shell 8
* 14 * Matched restraints with experimental distance in shell 9
* 15 * Matched restraints overflowing the last shell
* 16 * Completeness percentage for this shell
* 17 * Completeness percentage up to upper limit of this shell
* 18 * Administrative tag
* 19 * Administrative tag
Description of the tags in the residue table:
* 1 * Chain identifier
* 2 * Residue number
* 3 * Residue name
* 4 * Observable atom(group)s for this residue.
* 5 * Observed restraints. Set A = U - (E u O u I u S)
* 6 * Expected restraints based on criteria as in A. Set B = V - (I u S)
* 7 * Observed restraints matched to the expected. Set M = A n B
* 8 * Completeness percentage
* 9 * Standard deviation from the average over the residues.
* 10 * Extra information
* 11 * Administrative tag
* 12 * Administrative tag
;
loop_
_NOE_completeness_class.Type
_NOE_completeness_class.Constraint_observed_count
_NOE_completeness_class.Constraint_expected_count
_NOE_completeness_class.Constraint_matched_count
_NOE_completeness_class.Completeness_cumulative_pct
_NOE_completeness_class.Std_dev
_NOE_completeness_class.Details
intraresidue 0 0 0 . . "no intras"
sequential 246 1632 246 15.1 0.4 .
medium-range 255 1619 16 1.0 -0.9 .
long-range 93 1165 48 4.1 -0.6 .
intermolecular 410 642 138 21.5 1.1 >sigma
stop_
loop_
_NOE_completeness_shell.Type
_NOE_completeness_shell.Shell_start
_NOE_completeness_shell.Shell_end
_NOE_completeness_shell.Constraint_expected_count
_NOE_completeness_shell.Constraint_matched_count
_NOE_completeness_shell.Matched_shell_1
_NOE_completeness_shell.Matched_shell_2
_NOE_completeness_shell.Matched_shell_3
_NOE_completeness_shell.Matched_shell_4
_NOE_completeness_shell.Matched_shell_5
_NOE_completeness_shell.Matched_shell_6
_NOE_completeness_shell.Matched_shell_7
_NOE_completeness_shell.Matched_shell_8
_NOE_completeness_shell.Matched_shell_9
_NOE_completeness_shell.Matched_shell_overflow
_NOE_completeness_shell.Completeness_shell_pct
_NOE_completeness_shell.Completeness_cumulative_pct
edges . . . . 2.00 2.50 3.00 3.50 4.00 4.50 5.00 5.50 . . . .
shell 0.00 2.00 59 5 0 0 0 2 0 0 0 0 . 3 8.5 8.5
shell 2.00 2.50 449 49 0 9 3 17 14 0 0 0 . 6 10.9 10.6
shell 2.50 3.00 1151 231 0 3 0 209 4 0 0 9 . 6 20.1 17.2
shell 3.00 3.50 1277 87 0 3 0 13 18 3 6 9 . 35 6.8 12.7
shell 3.50 4.00 2122 76 0 0 0 6 21 0 4 9 . 36 3.6 8.9
shell 4.00 4.50 3452 225 0 0 3 0 7 0 140 15 . 60 6.5 7.9
shell 4.50 5.00 4626 129 0 0 0 3 5 0 24 6 . 91 2.8 6.1
shell 5.00 5.50 5626 50 0 0 0 0 6 0 0 12 . 32 0.9 4.5
shell 5.50 6.00 6438 30 0 0 0 6 0 0 0 6 . 18 0.5 3.5
shell 6.00 6.50 6730 23 0 0 0 0 0 0 0 6 . 17 0.3 2.8
shell 6.50 7.00 7940 19 0 0 0 0 0 0 0 7 . 12 0.2 2.3
shell 7.00 7.50 8310 8 0 0 0 0 0 0 0 8 . 0 0.1 1.9
shell 7.50 8.00 9634 16 0 0 0 0 0 0 0 9 . 7 0.2 1.6
shell 8.00 8.50 9961 20 0 0 0 3 0 0 0 12 . 5 0.2 1.4
shell 8.50 9.00 10832 3 0 0 0 0 0 0 0 3 . 0 0.0 1.2
sums . . 78607 971 0 15 6 259 75 3 174 111 . 328 . .
stop_
loop_
_NOE_completeness_comp.Entity_assembly_ID
_NOE_completeness_comp.Comp_index_ID
_NOE_completeness_comp.Comp_ID
_NOE_completeness_comp.Obs_atom_count
_NOE_completeness_comp.Constraint_observed_count
_NOE_completeness_comp.Constraint_expected_count
_NOE_completeness_comp.Constraint_matched_count
_NOE_completeness_comp.Completeness_cumulative_pct
_NOE_completeness_comp.Std_dev
_NOE_completeness_comp.Details
1 1 ALA 3 0 11 0 0.0 -1.2 >sigma
1 2 GLU 5 0 12 0 0.0 -1.2 >sigma
1 3 GLU 5 0 25 0 0.0 -1.2 >sigma
1 4 LEU 7 0 36 0 0.0 -1.2 >sigma
1 5 GLU 5 2 24 2 8.3 -0.1 .
1 6 GLU 5 3 19 1 5.3 -0.5 .
1 7 VAL 5 7 41 5 12.2 0.4 .
1 8 VAL 5 9 49 5 10.2 0.1 .
1 9 MET 6 5 29 2 6.9 -0.3 .
1 10 GLY 3 6 16 2 12.5 0.4 .
1 11 LEU 7 9 54 5 9.3 0.0 .
1 12 ILE 6 3 44 2 4.5 -0.6 .
1 13 ILE 6 3 30 1 3.3 -0.8 .
1 14 ASN 6 2 30 1 3.3 -0.8 .
1 15 SER 4 3 30 2 6.7 -0.3 .
1 16 GLY 3 2 14 1 7.1 -0.3 .
1 17 GLN 7 2 24 0 0.0 -1.2 >sigma
1 18 ALA 3 1 27 1 3.7 -0.7 .
1 19 ARG 7 6 51 2 3.9 -0.7 .
1 20 SER 4 3 17 1 5.9 -0.4 .
1 21 LEU 7 6 33 1 3.0 -0.8 .
1 22 ALA 3 5 29 2 6.9 -0.3 .
1 23 TYR 6 13 33 4 12.1 0.4 .
1 24 ALA 3 4 21 1 4.8 -0.6 .
1 25 ALA 3 3 36 1 2.8 -0.9 .
1 26 LEU 7 13 61 6 9.8 0.1 .
1 27 LYS 7 3 31 1 3.2 -0.8 .
1 28 GLN 7 2 39 1 2.6 -0.9 .
1 29 ALA 3 6 29 2 6.9 -0.3 .
1 30 LYS 7 4 48 3 6.3 -0.4 .
1 31 GLN 7 5 21 4 19.0 1.3 >sigma
1 32 GLY 3 5 12 5 41.7 4.3 >sigma
1 33 ASP 4 7 17 5 29.4 2.7 >sigma
1 34 PHE 7 4 30 2 6.7 -0.3 .
1 35 ALA 3 4 14 3 21.4 1.6 >sigma
1 36 ALA 3 3 23 2 8.7 -0.1 .
1 37 ALA 3 2 40 2 5.0 -0.6 .
1 38 LYS 7 4 21 2 9.5 0.0 .
1 39 ALA 3 3 17 2 11.8 0.3 .
1 40 MET 6 3 41 2 4.9 -0.6 .
1 41 MET 6 4 39 2 5.1 -0.6 .
1 42 ASP 4 2 17 2 11.8 0.3 .
1 43 GLN 7 4 19 2 10.5 0.2 .
1 44 SER 4 4 28 1 3.6 -0.8 .
1 45 ARG 7 3 41 1 2.4 -0.9 .
1 46 MET 6 3 16 2 12.5 0.4 .
1 47 ALA 3 4 19 2 10.5 0.2 .
1 48 LEU 7 3 47 3 6.4 -0.4 .
1 49 ASN 6 2 21 1 4.8 -0.6 .
1 50 GLU 5 2 22 1 4.5 -0.6 .
1 51 ALA 3 3 29 2 6.9 -0.3 .
1 52 HIS 6 6 24 2 8.3 -0.1 .
1 53 LEU 7 3 21 2 9.5 0.0 .
1 54 VAL 5 5 31 3 9.7 0.1 .
1 55 GLN 7 5 59 2 3.4 -0.8 .
1 56 THR 4 2 27 1 3.7 -0.7 .
1 57 LYS 7 3 21 2 9.5 0.0 .
1 58 LEU 7 15 50 7 14.0 0.6 .
1 59 ILE 6 6 46 3 6.5 -0.4 .
1 60 GLU 5 2 18 2 11.1 0.3 .
1 61 GLY 3 2 9 2 22.2 1.7 >sigma
1 62 ASP 4 2 22 2 9.1 -0.0 .
1 63 ALA 3 2 12 2 16.7 1.0 .
1 64 GLY 3 2 6 2 33.3 3.2 >sigma
1 65 GLU 5 2 10 2 20.0 1.4 >sigma
1 66 GLY 3 2 8 2 25.0 2.1 >sigma
1 67 LYS 7 2 23 2 8.7 -0.1 .
1 68 MET 6 2 18 2 11.1 0.3 .
1 69 LYS 7 2 44 2 4.5 -0.6 .
1 70 VAL 5 19 45 6 13.3 0.5 .
1 71 SER 4 1 25 1 4.0 -0.7 .
1 72 LEU 7 8 43 3 7.0 -0.3 .
1 73 VAL 5 12 42 3 7.1 -0.3 .
1 74 LEU 7 5 62 2 3.2 -0.8 .
1 75 VAL 5 33 56 10 17.9 1.2 >sigma
1 76 HIS 6 19 42 8 19.0 1.3 >sigma
1 77 ALA 3 7 34 3 8.8 -0.1 .
1 78 GLN 7 5 47 2 4.3 -0.7 .
1 79 LEU 7 32 65 15 23.1 1.9 >sigma
1 80 HIS 6 5 35 2 5.7 -0.5 .
1 81 LEU 7 5 51 2 3.9 -0.7 .
1 82 MET 6 6 46 2 4.3 -0.7 .
1 83 THR 4 6 40 3 7.5 -0.2 .
1 84 SER 4 9 31 2 6.5 -0.4 .
1 85 MET 6 6 31 3 9.7 0.1 .
1 86 LEU 7 29 55 10 18.2 1.2 >sigma
1 87 ALA 3 11 41 5 12.2 0.4 .
1 88 ARG 7 3 66 1 1.5 -1.0 >sigma
1 89 GLU 5 4 23 1 4.3 -0.7 .
1 90 LEU 7 35 56 13 23.2 1.9 >sigma
1 91 ILE 6 13 68 6 8.8 -0.1 .
1 92 THR 4 3 24 2 8.3 -0.1 .
1 93 GLU 5 6 32 2 6.3 -0.4 .
1 94 LEU 7 18 68 9 13.2 0.5 .
1 95 ILE 6 9 53 5 9.4 0.0 .
1 96 GLU 5 4 31 1 3.2 -0.8 .
1 97 LEU 7 46 58 13 22.4 1.8 >sigma
1 98 HIS 6 10 35 4 11.4 0.3 .
1 99 GLU 5 5 26 2 7.7 -0.2 .
1 100 LYS 7 7 41 2 4.9 -0.6 .
1 101 LEU 7 31 42 14 33.3 3.2 >sigma
1 102 LYS 7 0 16 0 0.0 -1.2 >sigma
1 103 ALA 3 0 15 0 0.0 -1.2 >sigma
2 1 ALA 3 0 11 0 0.0 -1.2 >sigma
2 2 GLU 5 0 12 0 0.0 -1.2 >sigma
2 3 GLU 5 0 25 0 0.0 -1.2 >sigma
2 4 LEU 7 0 36 0 0.0 -1.2 >sigma
2 5 GLU 5 2 24 2 8.3 -0.1 .
2 6 GLU 5 3 19 1 5.3 -0.5 .
2 7 VAL 5 7 41 5 12.2 0.4 .
2 8 VAL 5 9 49 5 10.2 0.1 .
2 9 MET 6 5 29 2 6.9 -0.3 .
2 10 GLY 3 6 16 2 12.5 0.4 .
2 11 LEU 7 9 54 5 9.3 0.0 .
2 12 ILE 6 3 44 2 4.5 -0.6 .
2 13 ILE 6 3 30 1 3.3 -0.8 .
2 14 ASN 6 2 30 1 3.3 -0.8 .
2 15 SER 4 3 30 2 6.7 -0.3 .
2 16 GLY 3 2 14 1 7.1 -0.3 .
2 17 GLN 7 2 24 0 0.0 -1.2 >sigma
2 18 ALA 3 1 27 1 3.7 -0.7 .
2 19 ARG 7 6 51 2 3.9 -0.7 .
2 20 SER 4 3 17 1 5.9 -0.4 .
2 21 LEU 7 6 33 1 3.0 -0.8 .
2 22 ALA 3 5 29 2 6.9 -0.3 .
2 23 TYR 6 13 33 4 12.1 0.4 .
2 24 ALA 3 4 21 1 4.8 -0.6 .
2 25 ALA 3 3 35 1 2.9 -0.9 .
2 26 LEU 7 13 61 6 9.8 0.1 .
2 27 LYS 7 3 31 1 3.2 -0.8 .
2 28 GLN 7 2 39 1 2.6 -0.9 .
2 29 ALA 3 6 29 2 6.9 -0.3 .
2 30 LYS 7 4 48 3 6.3 -0.4 .
2 31 GLN 7 5 21 4 19.0 1.3 >sigma
2 32 GLY 3 5 12 5 41.7 4.3 >sigma
2 33 ASP 4 7 17 5 29.4 2.7 >sigma
2 34 PHE 7 4 30 2 6.7 -0.3 .
2 35 ALA 3 4 14 3 21.4 1.6 >sigma
2 36 ALA 3 3 23 2 8.7 -0.1 .
2 37 ALA 3 2 40 2 5.0 -0.6 .
2 38 LYS 7 4 21 2 9.5 0.0 .
2 39 ALA 3 3 17 2 11.8 0.3 .
2 40 MET 6 3 40 2 5.0 -0.6 .
2 41 MET 6 4 39 2 5.1 -0.6 .
2 42 ASP 4 2 17 2 11.8 0.3 .
2 43 GLN 7 4 19 2 10.5 0.2 .
2 44 SER 4 4 28 1 3.6 -0.8 .
2 45 ARG 7 3 41 1 2.4 -0.9 .
2 46 MET 6 3 16 2 12.5 0.4 .
2 47 ALA 3 4 19 2 10.5 0.2 .
2 48 LEU 7 3 47 3 6.4 -0.4 .
2 49 ASN 6 2 21 1 4.8 -0.6 .
2 50 GLU 5 2 22 1 4.5 -0.6 .
2 51 ALA 3 3 29 2 6.9 -0.3 .
2 52 HIS 6 6 24 2 8.3 -0.1 .
2 53 LEU 7 3 21 2 9.5 0.0 .
2 54 VAL 5 5 31 3 9.7 0.1 .
2 55 GLN 7 5 59 2 3.4 -0.8 .
2 56 THR 4 2 27 1 3.7 -0.7 .
2 57 LYS 7 3 21 2 9.5 0.0 .
2 58 LEU 7 15 50 7 14.0 0.6 .
2 59 ILE 6 6 46 3 6.5 -0.4 .
2 60 GLU 5 2 18 2 11.1 0.3 .
2 61 GLY 3 2 9 2 22.2 1.7 >sigma
2 62 ASP 4 2 22 2 9.1 -0.0 .
2 63 ALA 3 2 12 2 16.7 1.0 .
2 64 GLY 3 2 6 2 33.3 3.2 >sigma
2 65 GLU 5 2 10 2 20.0 1.4 >sigma
2 66 GLY 3 2 8 2 25.0 2.1 >sigma
2 67 LYS 7 2 23 2 8.7 -0.1 .
2 68 MET 6 2 18 2 11.1 0.3 .
2 69 LYS 7 2 44 2 4.5 -0.6 .
2 70 VAL 5 19 45 6 13.3 0.5 .
2 71 SER 4 1 25 1 4.0 -0.7 .
2 72 LEU 7 8 42 3 7.1 -0.3 .
2 73 VAL 5 12 43 3 7.0 -0.3 .
2 74 LEU 7 5 62 2 3.2 -0.8 .
2 75 VAL 5 32 56 10 17.9 1.2 >sigma
2 76 HIS 6 19 42 8 19.0 1.3 >sigma
2 77 ALA 3 7 34 3 8.8 -0.1 .
2 78 GLN 7 5 47 2 4.3 -0.7 .
2 79 LEU 7 31 65 14 21.5 1.6 >sigma
2 80 HIS 6 5 36 2 5.6 -0.5 .
2 81 LEU 7 5 51 2 3.9 -0.7 .
2 82 MET 6 6 46 2 4.3 -0.7 .
2 83 THR 4 6 40 3 7.5 -0.2 .
2 84 SER 4 9 31 2 6.5 -0.4 .
2 85 MET 6 6 31 3 9.7 0.1 .
2 86 LEU 7 27 55 9 16.4 1.0 .
2 87 ALA 3 11 40 5 12.5 0.4 .
2 88 ARG 7 3 66 1 1.5 -1.0 >sigma
2 89 GLU 5 4 23 1 4.3 -0.7 .
2 90 LEU 7 33 56 12 21.4 1.6 >sigma
2 91 ILE 6 13 68 6 8.8 -0.1 .
2 92 THR 4 3 24 2 8.3 -0.1 .
2 93 GLU 5 6 32 2 6.3 -0.4 .
2 94 LEU 7 18 68 9 13.2 0.5 .
2 95 ILE 6 9 53 5 9.4 0.0 .
2 96 GLU 5 4 31 1 3.2 -0.8 .
2 97 LEU 7 44 58 12 20.7 1.5 >sigma
2 98 HIS 6 10 35 4 11.4 0.3 .
2 99 GLU 5 5 26 2 7.7 -0.2 .
2 100 LYS 7 7 41 2 4.9 -0.6 .
2 101 LEU 7 29 42 12 28.6 2.6 >sigma
2 102 LYS 7 0 17 0 0.0 -1.2 >sigma
2 103 ALA 3 0 16 0 0.0 -1.2 >sigma
3 1 ALA 3 0 11 0 0.0 -1.2 >sigma
3 2 GLU 5 0 12 0 0.0 -1.2 >sigma
3 3 GLU 5 0 25 0 0.0 -1.2 >sigma
3 4 LEU 7 0 36 0 0.0 -1.2 >sigma
3 5 GLU 5 2 24 2 8.3 -0.1 .
3 6 GLU 5 3 19 1 5.3 -0.5 .
3 7 VAL 5 7 41 5 12.2 0.4 .
3 8 VAL 5 9 48 5 10.4 0.2 .
3 9 MET 6 5 29 2 6.9 -0.3 .
3 10 GLY 3 6 16 2 12.5 0.4 .
3 11 LEU 7 9 54 5 9.3 0.0 .
3 12 ILE 6 3 44 2 4.5 -0.6 .
3 13 ILE 6 3 30 1 3.3 -0.8 .
3 14 ASN 6 2 30 1 3.3 -0.8 .
3 15 SER 4 3 30 2 6.7 -0.3 .
3 16 GLY 3 2 14 1 7.1 -0.3 .
3 17 GLN 7 2 24 0 0.0 -1.2 >sigma
3 18 ALA 3 1 28 1 3.6 -0.8 .
3 19 ARG 7 6 51 2 3.9 -0.7 .
3 20 SER 4 3 17 1 5.9 -0.4 .
3 21 LEU 7 6 34 1 2.9 -0.8 .
3 22 ALA 3 5 30 2 6.7 -0.3 .
3 23 TYR 6 13 33 4 12.1 0.4 .
3 24 ALA 3 4 21 1 4.8 -0.6 .
3 25 ALA 3 3 35 1 2.9 -0.9 .
3 26 LEU 7 13 61 6 9.8 0.1 .
3 27 LYS 7 3 31 1 3.2 -0.8 .
3 28 GLN 7 2 39 1 2.6 -0.9 .
3 29 ALA 3 6 29 2 6.9 -0.3 .
3 30 LYS 7 4 49 3 6.1 -0.4 .
3 31 GLN 7 5 22 4 18.2 1.2 >sigma
3 32 GLY 3 5 13 5 38.5 3.9 >sigma
3 33 ASP 4 7 17 5 29.4 2.7 >sigma
3 34 PHE 7 4 30 2 6.7 -0.3 .
3 35 ALA 3 4 14 3 21.4 1.6 >sigma
3 36 ALA 3 3 23 2 8.7 -0.1 .
3 37 ALA 3 2 39 2 5.1 -0.6 .
3 38 LYS 7 4 20 2 10.0 0.1 .
3 39 ALA 3 3 17 2 11.8 0.3 .
3 40 MET 6 3 40 2 5.0 -0.6 .
3 41 MET 6 4 41 2 4.9 -0.6 .
3 42 ASP 4 2 17 2 11.8 0.3 .
3 43 GLN 7 4 19 2 10.5 0.2 .
3 44 SER 4 4 28 1 3.6 -0.8 .
3 45 ARG 7 3 41 1 2.4 -0.9 .
3 46 MET 6 3 16 2 12.5 0.4 .
3 47 ALA 3 4 19 2 10.5 0.2 .
3 48 LEU 7 3 47 3 6.4 -0.4 .
3 49 ASN 6 2 21 1 4.8 -0.6 .
3 50 GLU 5 2 22 1 4.5 -0.6 .
3 51 ALA 3 3 29 2 6.9 -0.3 .
3 52 HIS 6 6 24 2 8.3 -0.1 .
3 53 LEU 7 3 21 2 9.5 0.0 .
3 54 VAL 5 5 31 3 9.7 0.1 .
3 55 GLN 7 5 59 2 3.4 -0.8 .
3 56 THR 4 2 27 1 3.7 -0.7 .
3 57 LYS 7 3 21 2 9.5 0.0 .
3 58 LEU 7 15 50 7 14.0 0.6 .
3 59 ILE 6 6 46 3 6.5 -0.4 .
3 60 GLU 5 2 18 2 11.1 0.3 .
3 61 GLY 3 2 9 2 22.2 1.7 >sigma
3 62 ASP 4 2 22 2 9.1 -0.0 .
3 63 ALA 3 2 12 2 16.7 1.0 .
3 64 GLY 3 2 6 2 33.3 3.2 >sigma
3 65 GLU 5 2 10 2 20.0 1.4 >sigma
3 66 GLY 3 2 8 2 25.0 2.1 >sigma
3 67 LYS 7 2 24 2 8.3 -0.1 .
3 68 MET 6 2 18 2 11.1 0.3 .
3 69 LYS 7 2 45 2 4.4 -0.6 .
3 70 VAL 5 19 45 6 13.3 0.5 .
3 71 SER 4 1 25 1 4.0 -0.7 .
3 72 LEU 7 8 42 3 7.1 -0.3 .
3 73 VAL 5 12 41 3 7.3 -0.3 .
3 74 LEU 7 5 62 2 3.2 -0.8 .
3 75 VAL 5 32 56 10 17.9 1.2 >sigma
3 76 HIS 6 19 42 8 19.0 1.3 >sigma
3 77 ALA 3 7 34 3 8.8 -0.1 .
3 78 GLN 7 5 47 2 4.3 -0.7 .
3 79 LEU 7 31 65 14 21.5 1.6 >sigma
3 80 HIS 6 5 35 2 5.7 -0.5 .
3 81 LEU 7 5 51 2 3.9 -0.7 .
3 82 MET 6 6 46 2 4.3 -0.7 .
3 83 THR 4 6 40 3 7.5 -0.2 .
3 84 SER 4 9 31 2 6.5 -0.4 .
3 85 MET 6 6 31 3 9.7 0.1 .
3 86 LEU 7 27 55 9 16.4 1.0 .
3 87 ALA 3 11 41 5 12.2 0.4 .
3 88 ARG 7 3 67 1 1.5 -1.0 >sigma
3 89 GLU 5 4 23 1 4.3 -0.7 .
3 90 LEU 7 33 56 12 21.4 1.6 >sigma
3 91 ILE 6 13 68 6 8.8 -0.1 .
3 92 THR 4 3 24 2 8.3 -0.1 .
3 93 GLU 5 6 32 2 6.3 -0.4 .
3 94 LEU 7 18 68 9 13.2 0.5 .
3 95 ILE 6 9 53 5 9.4 0.0 .
3 96 GLU 5 4 31 1 3.2 -0.8 .
3 97 LEU 7 44 58 12 20.7 1.5 >sigma
3 98 HIS 6 10 36 4 11.1 0.3 .
3 99 GLU 5 5 26 3 11.5 0.3 .
3 100 LYS 7 7 42 2 4.8 -0.6 .
3 101 LEU 7 29 42 13 31.0 2.9 >sigma
3 102 LYS 7 0 13 0 0.0 -1.2 >sigma
3 103 ALA 3 0 15 0 0.0 -1.2 >sigma
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