1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
Garrett, D.S.
Gronenborn, A.M.
Clore, G.M.
http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic
1
90.00
90.00
90.00
1.000
1.000
1.000
C3 H7 N O2
89.093
y
ALANINE
L-peptide linking
C6 H15 N4 O2 1
175.209
y
ARGININE
L-peptide linking
C4 H8 N2 O3
132.118
y
ASPARAGINE
L-peptide linking
C4 H7 N O4
133.103
y
ASPARTIC ACID
L-peptide linking
C5 H10 N2 O3
146.144
y
GLUTAMINE
L-peptide linking
C5 H9 N O4
147.129
y
GLUTAMIC ACID
L-peptide linking
C2 H5 N O2
75.067
y
GLYCINE
peptide linking
C6 H10 N3 O2 1
156.162
y
HISTIDINE
L-peptide linking
C6 H13 N O2
131.173
y
ISOLEUCINE
L-peptide linking
C6 H13 N O2
131.173
y
LEUCINE
L-peptide linking
C6 H15 N2 O2 1
147.195
y
LYSINE
L-peptide linking
C5 H11 N O2 S
149.211
y
METHIONINE
L-peptide linking
C9 H11 N O2
165.189
y
PHENYLALANINE
L-peptide linking
C5 H9 N O2
115.130
y
PROLINE
L-peptide linking
C3 H7 N O3
105.093
y
SERINE
L-peptide linking
C4 H9 N O3
119.119
y
THREONINE
L-peptide linking
C9 H11 N O3
181.189
y
TYROSINE
L-peptide linking
C5 H11 N O2
117.146
y
VALINE
L-peptide linking
US
Biochemistry
BICHAW
0033
0006-2960
36
2517
2530
10.1021/bi962924y
9054557
Solution structure of the 30 kDa N-terminal domain of enzyme I of the Escherichia coli phosphoenolpyruvate:sugar phosphotransferase system by multidimensional NMR.
1997
1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
28381.316
ENZYME I
2.7.3.9
AMINO-TERMINAL DOMAIN, RESIDUES 1 - 259
1
man
polymer
no
no
MISGILASPGIAFGKALLLKEDEIVIDRKKISADQVDQEVERFLSGRAKASAQLETIKTKAGETFGEEKEAIFEGHIMLL
EDEELEQEIIALIKDKHMTADAAAHEVIEGQASALEELDDEYLKERAADVRDIGKRLLRNILGLKIIDLSAIQDEVILVA
ADLTPSETAQLNLKKVLGFITDAGGRTSHTSIMARSLELPAIVGTGSVTSQVKNDDYLILDAVNNQVYVNPTNEVIDKMR
AVQEQVASEKAELAKLKDR
MISGILASPGIAFGKALLLKEDEIVIDRKKISADQVDQEVERFLSGRAKASAQLETIKTKAGETFGEEKEAIFEGHIMLL
EDEELEQEIIALIKDKHMTADAAAHEVIEGQASALEELDDEYLKERAADVRDIGKRLLRNILGLKIIDLSAIQDEVILVA
ADLTPSETAQLNLKKVLGFITDAGGRTSHTSIMARSLELPAIVGTGSVTSQVKNDDYLILDAVNNQVYVNPTNEVIDKMR
AVQEQVASEKAELAKLKDR
A
polypeptide(L)
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
Escherichia
GI698
Escherichia
sample
562
Escherichia coli
562
Escherichia coli
PLP2
repository
Initial release
Version format compliance
Version format compliance
1
0
1998-01-07
1
1
2008-03-24
1
2
2011-07-13
CONTAINS THE RESTRAINED REGULARIZED MEAN STRUCTURE
CONTAINS MODELS 18 - 34 OF 50
CONTAINS MODELS 35 - 50 OF 50
Y
1997-01-01
REL
17
TRIPLE RESONANCE FOR ASSIGNMENT OF PROTEIN; QUANTITATIVE J CORRELATION FOR COUPLING CONSTANTS 3D
4D HETERONUCLEAR SEPARATED NOE EXPERIMENTS. 3D 13C-SEPARATED/12C-FILTERED NOE EXPERIMENTS FOR REVERSE LABELED AROMATIC SAMPLES
7
313
K
THE 3D STRUCTURE OF THE EIN WAS SOLVED BY
MULTI-DIMENSIONAL HETERONUCLEAR NMR AND
IS BASED ON 4251 EXPERIMENTAL NMR RESTRAINTS:
(A) INTRAPROTEIN: 952 SEQUENTIAL (|I- J|=1), 809 MEDIUM
RANGE (1 < |I-J| <=5) AND 586 LONG RANGE (|I-J| >5)
INTERRESIDUES AND 471 INTRARESIDUE APPROXIMATE INTERPROTON
DISTANCE RESTRAINTS; 230 DISTANCES FOR 115 BACKBONE
HYDROGEN BONDS; 140 TORSION ANGLE RESTRAINTS; 163
THREE-BOND HN-HA COUPLING CONSTANT RESTRAINTS; AND 498
(258 CALPHA AND 241 CBETA) 13C SHIFT RESTRAINTS. (NUMBERS
OF RESIDUES 1 - 259).
THE STRUCTURES WERE CALCULATED USING THE SIMULATED
ANNEALING PROTOCOL OF NILGES ET AL. (1988) FEBS LETT. 229,
129-136 USING THE PROGRAM X-PLOR 3.1 (BRUNGER) MODIFIED
TO INCORPORATE COUPLING CONSTANT (GARRETT ET AL. (1984) J.
MAGN. RESON. SERIES B 104, 99-103) AND CARBON CHEMICAL
SHIFT (KUSZEWSKI ET AL. (1995) J. MAGN. RESON. SERIES B
106, 92-96) RESTRAINTS, AND A CONFORMATIONAL DATABASE
POTENTIAL (KUSZEWSKI ET AL.(1996) PROTEIN SCI. 5, 1067-1080
IN THE RESTRAINED REGULARIZED MEAN COORDINATES THE
TEMPERATURE FACTOR FIELD REPRESENTS THE AVERAGE RMS
DIFFERENCE BETWEEN THE INDIVIDUAL SIMULATED ANNEALING
STRUCTURES AND THE MEAN COORDINATE POSITIONS. THE LAST
COLUMN IN THE INDIVIDUAL SA STRUCTURES HAS NO MEANING.
BEST FITTING TO GENERATE THE AVERAGE STRUCTURE IS WITH
RESPECT TO RESIDUES 1 - 246 (RESIDUES 250 - 259 ARE
DISORDERED IN SOLUTION) NOTE THE OCCUPANCY FIELD HAS NO
MEANING.
simulated annealing
structure solution
X-PLOR (SEE ABOVE)
ABOVE)
refinement
X-PLOR (SEE ABOVE)
ABOVE)
500
Bruker
AMX500
600
Bruker
AMX600
MET
1
n
1
MET
1
A
ILE
2
n
2
ILE
2
A
SER
3
n
3
SER
3
A
GLY
4
n
4
GLY
4
A
ILE
5
n
5
ILE
5
A
LEU
6
n
6
LEU
6
A
ALA
7
n
7
ALA
7
A
SER
8
n
8
SER
8
A
PRO
9
n
9
PRO
9
A
GLY
10
n
10
GLY
10
A
ILE
11
n
11
ILE
11
A
ALA
12
n
12
ALA
12
A
PHE
13
n
13
PHE
13
A
GLY
14
n
14
GLY
14
A
LYS
15
n
15
LYS
15
A
ALA
16
n
16
ALA
16
A
LEU
17
n
17
LEU
17
A
LEU
18
n
18
LEU
18
A
LEU
19
n
19
LEU
19
A
LYS
20
n
20
LYS
20
A
GLU
21
n
21
GLU
21
A
ASP
22
n
22
ASP
22
A
GLU
23
n
23
GLU
23
A
ILE
24
n
24
ILE
24
A
VAL
25
n
25
VAL
25
A
ILE
26
n
26
ILE
26
A
ASP
27
n
27
ASP
27
A
ARG
28
n
28
ARG
28
A
LYS
29
n
29
LYS
29
A
LYS
30
n
30
LYS
30
A
ILE
31
n
31
ILE
31
A
SER
32
n
32
SER
32
A
ALA
33
n
33
ALA
33
A
ASP
34
n
34
ASP
34
A
GLN
35
n
35
GLN
35
A
VAL
36
n
36
VAL
36
A
ASP
37
n
37
ASP
37
A
GLN
38
n
38
GLN
38
A
GLU
39
n
39
GLU
39
A
VAL
40
n
40
VAL
40
A
GLU
41
n
41
GLU
41
A
ARG
42
n
42
ARG
42
A
PHE
43
n
43
PHE
43
A
LEU
44
n
44
LEU
44
A
SER
45
n
45
SER
45
A
GLY
46
n
46
GLY
46
A
ARG
47
n
47
ARG
47
A
ALA
48
n
48
ALA
48
A
LYS
49
n
49
LYS
49
A
ALA
50
n
50
ALA
50
A
SER
51
n
51
SER
51
A
ALA
52
n
52
ALA
52
A
GLN
53
n
53
GLN
53
A
LEU
54
n
54
LEU
54
A
GLU
55
n
55
GLU
55
A
THR
56
n
56
THR
56
A
ILE
57
n
57
ILE
57
A
LYS
58
n
58
LYS
58
A
THR
59
n
59
THR
59
A
LYS
60
n
60
LYS
60
A
ALA
61
n
61
ALA
61
A
GLY
62
n
62
GLY
62
A
GLU
63
n
63
GLU
63
A
THR
64
n
64
THR
64
A
PHE
65
n
65
PHE
65
A
GLY
66
n
66
GLY
66
A
GLU
67
n
67
GLU
67
A
GLU
68
n
68
GLU
68
A
LYS
69
n
69
LYS
69
A
GLU
70
n
70
GLU
70
A
ALA
71
n
71
ALA
71
A
ILE
72
n
72
ILE
72
A
PHE
73
n
73
PHE
73
A
GLU
74
n
74
GLU
74
A
GLY
75
n
75
GLY
75
A
HIS
76
n
76
HIS
76
A
ILE
77
n
77
ILE
77
A
MET
78
n
78
MET
78
A
LEU
79
n
79
LEU
79
A
LEU
80
n
80
LEU
80
A
GLU
81
n
81
GLU
81
A
ASP
82
n
82
ASP
82
A
GLU
83
n
83
GLU
83
A
GLU
84
n
84
GLU
84
A
LEU
85
n
85
LEU
85
A
GLU
86
n
86
GLU
86
A
GLN
87
n
87
GLN
87
A
GLU
88
n
88
GLU
88
A
ILE
89
n
89
ILE
89
A
ILE
90
n
90
ILE
90
A
ALA
91
n
91
ALA
91
A
LEU
92
n
92
LEU
92
A
ILE
93
n
93
ILE
93
A
LYS
94
n
94
LYS
94
A
ASP
95
n
95
ASP
95
A
LYS
96
n
96
LYS
96
A
HIS
97
n
97
HIS
97
A
MET
98
n
98
MET
98
A
THR
99
n
99
THR
99
A
ALA
100
n
100
ALA
100
A
ASP
101
n
101
ASP
101
A
ALA
102
n
102
ALA
102
A
ALA
103
n
103
ALA
103
A
ALA
104
n
104
ALA
104
A
HIS
105
n
105
HIS
105
A
GLU
106
n
106
GLU
106
A
VAL
107
n
107
VAL
107
A
ILE
108
n
108
ILE
108
A
GLU
109
n
109
GLU
109
A
GLY
110
n
110
GLY
110
A
GLN
111
n
111
GLN
111
A
ALA
112
n
112
ALA
112
A
SER
113
n
113
SER
113
A
ALA
114
n
114
ALA
114
A
LEU
115
n
115
LEU
115
A
GLU
116
n
116
GLU
116
A
GLU
117
n
117
GLU
117
A
LEU
118
n
118
LEU
118
A
ASP
119
n
119
ASP
119
A
ASP
120
n
120
ASP
120
A
GLU
121
n
121
GLU
121
A
TYR
122
n
122
TYR
122
A
LEU
123
n
123
LEU
123
A
LYS
124
n
124
LYS
124
A
GLU
125
n
125
GLU
125
A
ARG
126
n
126
ARG
126
A
ALA
127
n
127
ALA
127
A
ALA
128
n
128
ALA
128
A
ASP
129
n
129
ASP
129
A
VAL
130
n
130
VAL
130
A
ARG
131
n
131
ARG
131
A
ASP
132
n
132
ASP
132
A
ILE
133
n
133
ILE
133
A
GLY
134
n
134
GLY
134
A
LYS
135
n
135
LYS
135
A
ARG
136
n
136
ARG
136
A
LEU
137
n
137
LEU
137
A
LEU
138
n
138
LEU
138
A
ARG
139
n
139
ARG
139
A
ASN
140
n
140
ASN
140
A
ILE
141
n
141
ILE
141
A
LEU
142
n
142
LEU
142
A
GLY
143
n
143
GLY
143
A
LEU
144
n
144
LEU
144
A
LYS
145
n
145
LYS
145
A
ILE
146
n
146
ILE
146
A
ILE
147
n
147
ILE
147
A
ASP
148
n
148
ASP
148
A
LEU
149
n
149
LEU
149
A
SER
150
n
150
SER
150
A
ALA
151
n
151
ALA
151
A
ILE
152
n
152
ILE
152
A
GLN
153
n
153
GLN
153
A
ASP
154
n
154
ASP
154
A
GLU
155
n
155
GLU
155
A
VAL
156
n
156
VAL
156
A
ILE
157
n
157
ILE
157
A
LEU
158
n
158
LEU
158
A
VAL
159
n
159
VAL
159
A
ALA
160
n
160
ALA
160
A
ALA
161
n
161
ALA
161
A
ASP
162
n
162
ASP
162
A
LEU
163
n
163
LEU
163
A
THR
164
n
164
THR
164
A
PRO
165
n
165
PRO
165
A
SER
166
n
166
SER
166
A
GLU
167
n
167
GLU
167
A
THR
168
n
168
THR
168
A
ALA
169
n
169
ALA
169
A
GLN
170
n
170
GLN
170
A
LEU
171
n
171
LEU
171
A
ASN
172
n
172
ASN
172
A
LEU
173
n
173
LEU
173
A
LYS
174
n
174
LYS
174
A
LYS
175
n
175
LYS
175
A
VAL
176
n
176
VAL
176
A
LEU
177
n
177
LEU
177
A
GLY
178
n
178
GLY
178
A
PHE
179
n
179
PHE
179
A
ILE
180
n
180
ILE
180
A
THR
181
n
181
THR
181
A
ASP
182
n
182
ASP
182
A
ALA
183
n
183
ALA
183
A
GLY
184
n
184
GLY
184
A
GLY
185
n
185
GLY
185
A
ARG
186
n
186
ARG
186
A
THR
187
n
187
THR
187
A
SER
188
n
188
SER
188
A
HIS
189
n
189
HIS
189
A
THR
190
n
190
THR
190
A
SER
191
n
191
SER
191
A
ILE
192
n
192
ILE
192
A
MET
193
n
193
MET
193
A
ALA
194
n
194
ALA
194
A
ARG
195
n
195
ARG
195
A
SER
196
n
196
SER
196
A
LEU
197
n
197
LEU
197
A
GLU
198
n
198
GLU
198
A
LEU
199
n
199
LEU
199
A
PRO
200
n
200
PRO
200
A
ALA
201
n
201
ALA
201
A
ILE
202
n
202
ILE
202
A
VAL
203
n
203
VAL
203
A
GLY
204
n
204
GLY
204
A
THR
205
n
205
THR
205
A
GLY
206
n
206
GLY
206
A
SER
207
n
207
SER
207
A
VAL
208
n
208
VAL
208
A
THR
209
n
209
THR
209
A
SER
210
n
210
SER
210
A
GLN
211
n
211
GLN
211
A
VAL
212
n
212
VAL
212
A
LYS
213
n
213
LYS
213
A
ASN
214
n
214
ASN
214
A
ASP
215
n
215
ASP
215
A
ASP
216
n
216
ASP
216
A
TYR
217
n
217
TYR
217
A
LEU
218
n
218
LEU
218
A
ILE
219
n
219
ILE
219
A
LEU
220
n
220
LEU
220
A
ASP
221
n
221
ASP
221
A
ALA
222
n
222
ALA
222
A
VAL
223
n
223
VAL
223
A
ASN
224
n
224
ASN
224
A
ASN
225
n
225
ASN
225
A
GLN
226
n
226
GLN
226
A
VAL
227
n
227
VAL
227
A
TYR
228
n
228
TYR
228
A
VAL
229
n
229
VAL
229
A
ASN
230
n
230
ASN
230
A
PRO
231
n
231
PRO
231
A
THR
232
n
232
THR
232
A
ASN
233
n
233
ASN
233
A
GLU
234
n
234
GLU
234
A
VAL
235
n
235
VAL
235
A
ILE
236
n
236
ILE
236
A
ASP
237
n
237
ASP
237
A
LYS
238
n
238
LYS
238
A
MET
239
n
239
MET
239
A
ARG
240
n
240
ARG
240
A
ALA
241
n
241
ALA
241
A
VAL
242
n
242
VAL
242
A
GLN
243
n
243
GLN
243
A
GLU
244
n
244
GLU
244
A
GLN
245
n
245
GLN
245
A
VAL
246
n
246
VAL
246
A
ALA
247
n
247
ALA
247
A
SER
248
n
248
SER
248
A
GLU
249
n
249
GLU
249
A
LYS
250
n
250
LYS
250
A
ALA
251
n
251
ALA
251
A
GLU
252
n
252
GLU
252
A
LEU
253
n
253
LEU
253
A
ALA
254
n
254
ALA
254
A
LYS
255
n
255
LYS
255
A
LEU
256
n
256
LEU
256
A
LYS
257
n
257
LYS
257
A
ASP
258
n
258
ASP
258
A
ARG
259
n
259
ARG
259
A
author_defined_assembly
1
monomeric
1.0000000000
0.0000000000
0.0000000000
0.0000000000
1.0000000000
0.0000000000
0.0000000000
0.0000000000
1.0000000000
1_555
x,y,z
identity operation
0.0000000000
0.0000000000
0.0000000000
A
O
ALA
12
A
O
ALA
12
A
N
LEU
220
A
N
LEU
220
A
O
ILE
219
A
O
ILE
219
A
N
TYR
228
A
N
TYR
228
A
O
LEU
17
A
O
LEU
17
A
N
ILE
157
A
N
ILE
157
A
O
LEU
158
A
O
LEU
158
A
N
ILE
180
A
N
ILE
180
1
A
A
HG1
H
THR
ALA
99
102
1.29
1
A
A
O
H
ALA
ASP
16
215
1.51
1
A
A
O
H
ALA
ASP
91
95
1.52
2
A
A
O
H
ALA
ASP
91
95
1.56
4
A
A
O
H
ALA
ASP
91
95
1.51
5
A
A
HG1
H
THR
ALA
99
102
1.34
5
A
A
OD1
HG1
ASP
THR
182
205
1.44
5
A
A
O
H
ALA
ASP
91
95
1.52
6
A
A
HG1
H
THR
ALA
99
102
1.31
6
A
A
HH21
O
ARG
ILE
42
141
1.51
6
A
A
O
H
ALA
ASP
91
95
1.53
6
A
A
O
H
ALA
GLN
241
245
1.59
7
A
A
H
OD2
LYS
ASP
213
216
1.56
8
A
A
O
HG1
LYS
THR
60
64
1.45
8
A
A
H
OD2
LYS
ASP
213
216
1.53
8
A
A
O
H
ALA
ASP
16
215
1.54
8
A
A
O
H
ALA
ASP
91
95
1.58
9
A
A
O
H
ALA
ASP
91
95
1.50
9
A
A
H
OD2
LYS
ASP
213
216
1.54
10
A
A
O
HG1
LYS
THR
60
64
1.52
10
A
A
HH22
OE2
ARG
GLU
47
86
1.55
11
A
A
O
H
ALA
ASP
91
95
1.52
11
A
A
O
H
VAL
LEU
40
44
1.54
11
A
A
O
H
GLY
ALA
46
50
1.59
12
A
A
O
H
ALA
ASP
16
215
1.50
12
A
A
O
H
MET
GLN
239
243
1.51
12
A
A
O
H
ALA
ASP
91
95
1.57
13
A
A
O
H
ALA
ASP
16
215
1.42
13
A
A
O
H
GLY
ALA
46
50
1.59
14
A
A
H
OD2
LYS
ASP
213
216
1.46
14
A
A
HH21
O
ARG
ILE
42
141
1.52
14
A
A
O
H
ALA
ASP
91
95
1.52
15
A
A
O
H
ALA
ASP
91
95
1.56
15
A
A
O
HD22
GLY
ASN
4
225
1.58
16
A
A
O
H
ALA
ASP
16
215
1.51
16
A
A
H
OD2
LYS
ASP
213
216
1.53
17
A
A
H
OD2
LYS
ASP
213
216
1.54
1
A
LEU
6
49.91
97.77
1
A
ASP
119
-97.56
47.77
1
A
ASP
182
-98.14
42.74
1
A
ALA
183
-119.22
66.68
1
A
GLU
198
53.66
12.72
1
A
ASP
215
80.72
-2.69
1
A
ALA
222
39.54
20.20
2
A
LEU
6
49.45
96.73
2
A
PRO
165
-39.67
-37.77
2
A
ASP
182
-103.24
43.62
2
A
GLU
198
54.04
9.75
2
A
ALA
222
38.80
16.84
2
A
VAL
223
-120.38
-63.31
2
A
ALA
251
-81.03
37.18
3
A
LEU
6
51.42
95.39
3
A
THR
187
-152.60
36.95
3
A
GLU
198
52.97
10.66
3
A
ASP
215
81.69
-2.44
3
A
ALA
222
38.59
18.80
3
A
ALA
251
-74.52
28.55
4
A
ILE
2
48.36
71.36
4
A
LEU
6
50.80
95.58
4
A
ASP
182
-108.38
66.73
4
A
THR
187
-149.31
58.27
4
A
GLU
198
55.25
13.79
4
A
ASP
215
81.73
-7.00
4
A
ALA
222
37.91
16.87
5
A
LEU
6
49.63
100.89
5
A
ASP
162
-171.80
144.74
5
A
ASP
182
-98.10
39.33
5
A
GLU
198
54.14
9.31
5
A
ASP
215
78.30
-1.17
5
A
ALA
222
39.73
13.92
6
A
LEU
6
49.89
93.83
6
A
ASP
119
-99.20
36.08
6
A
ASP
182
-105.04
44.72
6
A
GLU
198
52.54
13.45
6
A
ASP
215
83.35
-7.62
6
A
ALA
222
38.17
15.41
6
A
LYS
255
-85.53
34.82
7
A
LEU
6
50.82
101.16
7
A
ASP
119
-99.71
43.55
7
A
ASP
182
-101.53
61.70
7
A
GLU
198
48.62
14.54
7
A
ASP
215
80.24
2.51
7
A
ALA
222
38.23
17.85
7
A
ASP
258
-105.97
56.39
8
A
LEU
6
49.02
98.88
8
A
ASP
119
-101.83
43.71
8
A
ASP
162
-172.96
149.70
8
A
GLU
198
56.23
5.52
8
A
VAL
203
-140.47
-29.77
8
A
ALA
222
39.13
17.97
9
A
LEU
6
49.83
102.05
9
A
ASP
119
-97.74
37.36
9
A
ASP
162
-172.54
147.26
9
A
GLU
198
55.63
8.35
9
A
ASP
215
80.75
-1.50
9
A
ALA
222
39.11
13.31
9
A
LEU
256
-93.30
56.75
10
A
LEU
6
52.52
94.59
10
A
GLU
67
-54.84
-166.63
10
A
GLU
68
-66.57
7.29
10
A
ASP
119
-100.39
55.23
10
A
ASP
182
-98.68
47.95
10
A
GLU
198
47.46
14.91
10
A
ASP
215
81.49
4.06
10
A
ALA
222
39.21
17.19
10
A
LEU
256
-87.35
39.30
11
A
ILE
2
48.29
74.71
11
A
LEU
6
52.06
95.83
11
A
ASP
162
-173.30
147.86
11
A
ASP
182
-104.40
43.25
11
A
GLU
198
53.67
9.71
11
A
ASP
215
80.93
-3.81
11
A
ALA
222
38.62
18.14
11
A
VAL
223
-109.68
-60.49
12
A
LEU
6
48.61
94.35
12
A
ASP
119
-94.85
41.44
12
A
SER
188
-79.53
26.75
12
A
GLU
198
53.61
9.87
12
A
ASP
215
81.39
-3.05
12
A
ALA
222
38.64
14.71
13
A
LEU
6
49.49
98.52
13
A
ASP
119
-94.92
39.46
13
A
ASP
162
-172.72
146.48
13
A
ASP
182
-101.17
52.10
13
A
THR
187
-146.94
37.92
13
A
GLU
198
53.33
7.99
13
A
VAL
203
-135.42
-32.20
13
A
ASP
215
80.27
-0.75
13
A
ALA
222
38.61
17.52
13
A
LEU
256
-87.08
40.24
14
A
LEU
6
49.57
95.58
14
A
ASP
182
-103.85
65.83
14
A
THR
187
-146.72
41.99
14
A
GLU
198
54.60
12.50
14
A
ASP
215
80.19
0.25
14
A
ALA
222
38.77
18.37
14
A
LYS
257
-87.33
-122.67
15
A
LEU
6
50.72
96.99
15
A
ASP
119
-101.46
46.91
15
A
ASP
182
-102.54
59.15
15
A
THR
187
-108.44
41.51
15
A
GLU
198
53.12
7.16
15
A
ASP
215
80.32
7.49
15
A
ALA
222
37.93
18.07
15
A
LEU
256
-90.32
-76.30
15
A
LYS
257
-123.21
-126.51
16
A
LEU
6
49.33
100.86
16
A
ASP
119
-97.80
39.41
16
A
ASP
182
-101.40
57.52
16
A
GLU
198
49.94
19.09
16
A
VAL
203
-138.15
-30.38
16
A
ASP
215
79.89
-1.61
16
A
ALA
222
40.41
19.86
16
A
VAL
223
-121.84
-59.68
17
A
LEU
6
49.70
99.03
17
A
ASP
119
-97.76
55.51
17
A
ASP
162
-172.97
148.95
17
A
ASP
182
-106.25
62.03
17
A
GLU
198
53.92
13.60
17
A
ASP
215
80.44
1.81
17
A
ALA
222
39.75
19.35
17
A
ALA
251
-69.47
12.81
model building
X-PLOR
3.1
refinement
X-PLOR
3.1
phasing
X-PLOR
3.1
ENZYME I
AMINO TERMINAL DOMAIN OF ENZYME I FROM ESCHERICHIA COLI, NMR, 17 STRUCTURES
1
Y
N
A
ALA
33
A
ALA
33
HELX_P
A
THR
64
A
THR
64
1
1
32
A
GLU
67
A
GLU
67
HELX_P
A
LEU
80
A
LEU
80
1
2
14
A
GLU
83
A
GLU
83
HELX_P
A
ASP
95
A
ASP
95
1
3
13
A
ALA
100
A
ALA
100
HELX_P
A
GLU
117
A
GLU
117
1
4
18
A
GLU
121
A
GLU
121
HELX_P
A
ILE
141
A
ILE
141
1
5
21
A
LEU
149
A
LEU
149
HELX_P
A
ALA
151
A
ALA
151
5
6
3
A
PRO
165
A
PRO
165
HELX_P
A
GLN
170
A
GLN
170
1
7
6
A
HIS
189
A
HIS
189
HELX_P
A
LEU
197
A
LEU
197
1
8
9
A
VAL
208
A
VAL
208
HELX_P
A
SER
210
A
SER
210
5
9
3
A
ASN
233
A
ASN
233
HELX_P
A
LYS
257
A
LYS
257
1
10
25
PHOSPHOTRANSFERASE
PHOSPHOTRANSFERASE, KINASE, SUGAR TRANSPORT
PT1_ECOLI
UNP
1
1
P08839
MISGILASPGIAFGKALLLKEDEIVIDRKKISADQVDQEVERFLSGRAKASAQLETIKTKAGETFGEEKEAIFEGHIMLL
EDEELEQEIIALIKDKHMTADAAAHEVIEGQASALEELDDEYLKERAADVRDIGKRLLRNILGLKIIDLSAIQDEVILVA
ADLTPSETAQLNLKKVLGFITDAGGRTSHTSIMARSLELPAIVGTGSVTSQVKNDDYLILDAVNNQVYVNPTNEVIDKMR
AVQEQVASEKAELAKLKDLPAITLDGHQVEVCANIGTVRDVEGAERNGAEGVGLYRTEFLFMDRDALPTEEEQFAAYKAV
AEACGSQAVIVRTMDIGGDKELPYMNFPKEENPFLGWRAIRIAMDRREILRDQLRAILRASAFGKLRIMFPMIISVEEVR
ALRKEIEIYKQELRDEGKAFDESIEIGVMVETPAAATIARHLAKEVDFFSIGTNDLTQYTLAVDRGNDMISHLYQPMSPS
VLNLIKQVIDASHAEGKWTGMCGELAGDERATLLLLGMGLDEFSMSAISIPRIKKIIRNTNFEDAKVLAEQALAQPTTDE
LMTLVNKFIEEKTIC
1
258
1EZB
1
258
P08839
A
1
1
258
3
3
anti-parallel
anti-parallel
parallel
parallel
A
ALA
12
A
ALA
12
A
LYS
15
A
LYS
15
A
TYR
217
A
TYR
217
A
LEU
220
A
LEU
220
A
VAL
227
A
VAL
227
A
VAL
229
A
VAL
229
A
ALA
16
A
ALA
16
A
LEU
18
A
LEU
18
A
ILE
157
A
ILE
157
A
ALA
160
A
ALA
160
A
PHE
179
A
PHE
179
A
THR
181
A
THR
181
1
P 1