1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
Kadavath, H.
Jaremko, M.
Jaremko, L.
Zweckstetter, M.
http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic
1
90.00
90.00
90.00
1.000
1.000
1.000
C4 H8 N2 O3
132.118
y
ASPARAGINE
L-peptide linking
C4 H7 N O4
133.103
y
ASPARTIC ACID
L-peptide linking
C3 H7 N O2 S
121.158
y
CYSTEINE
L-peptide linking
C5 H10 N2 O3
146.144
y
GLUTAMINE
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 H9 N O2
115.130
y
PROLINE
L-peptide linking
C3 H7 N O3
105.093
y
SERINE
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
GE
Angew.Chem.Int.Ed.Engl.
9999
1433-7851
54
10347
10351
10.1002/anie.201501714
26094605
Folding of the Tau Protein on Microtubules.
2015
10.2210/pdb2mz7/pdb
pdb_00002mz7
4892.681
Microtubule-associated protein tau
UNP residues 584-629
1
syn
polymer
Neurofibrillary tangle protein, Paired helical filament-tau, PHF-tau
no
no
KHQPGGGKVQIINKKLDLSNVQSKCGSKDNIKHVPGGGSVQIVYKP
KHQPGGGKVQIINKKLDLSNVQSKCGSKDNIKHVPGGGSVQIVYKP
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
citation_author
database_2
pdbx_database_status
pdbx_nmr_software
pdbx_nmr_spectrometer
repository
Initial release
Database references
Database references
Data collection
Database references
Other
1
0
2015-07-08
1
1
2015-09-02
1
2
2018-01-31
1
3
2023-06-14
_citation_author.name
_database_2.pdbx_DOI
_database_2.pdbx_database_accession
_pdbx_database_status.status_code_nmr_data
_pdbx_nmr_software.name
_pdbx_nmr_spectrometer.model
Structure of Tau(162-188) bound to Microtubules
Structure of Tau(211-242) bound to Microtubules
Structure of Tau(239-267) bound to Microtubules
Structure of Tau(265-290) bound to Microtubules
Structure of Tau(296-321) bound to Microtubules
Structure of Tau(368-402) bound to Microtubules
BMRB
Y
RCSB
2015-02-06
REL
REL
REL
REL
9606
human
Homo sapiens
sample
structures with the lowest energy
200
20
2D 1H-1H NOESY
2D 1H-1H TOCSY
2D 1H-1H NOESY
2D 1H-13C HSQC aliphatic
2D 1H-15N HSQC
50
mM
1
mM
50
mM
1
mM
50
uM
6.8
ambient
278
K
simulated annealing
1
lowest energy
50 mM sodium phosphate, 1 mM Tau, 90% H2O/10% D2O
90% H2O/10% D2O
50 mM sodium phosphate, 1 mM Tau, 50 uM microtubules, 90% H2O/10% D2O
90% H2O/10% D2O
Schwieters, Kuszewski, Tjandra and Clore
refinement
X-PLOR NIH
2.33
Guntert, Mumenthaler and Wuthrich
chemical shift assignment
CYANA
3.0
Guntert, Mumenthaler and Wuthrich
structure solution
CYANA
3.0
Goddard
data analysis
Sparky
Goddard
peak picking
Sparky
Bruker Biospin
collection
TopSpin
3.0
Bruker Biospin
processing
TopSpin
3.0
900
Bruker
AVANCE
Bruker Avance
700
Bruker
AVANCE
Bruker Avance
LYS
267
n
1
LYS
267
A
HIS
268
n
2
HIS
268
A
GLN
269
n
3
GLN
269
A
PRO
270
n
4
PRO
270
A
GLY
271
n
5
GLY
271
A
GLY
272
n
6
GLY
272
A
GLY
273
n
7
GLY
273
A
LYS
274
n
8
LYS
274
A
VAL
275
n
9
VAL
275
A
GLN
276
n
10
GLN
276
A
ILE
277
n
11
ILE
277
A
ILE
278
n
12
ILE
278
A
ASN
279
n
13
ASN
279
A
LYS
280
n
14
LYS
280
A
LYS
281
n
15
LYS
281
A
LEU
282
n
16
LEU
282
A
ASP
283
n
17
ASP
283
A
LEU
284
n
18
LEU
284
A
SER
285
n
19
SER
285
A
ASN
286
n
20
ASN
286
A
VAL
287
n
21
VAL
287
A
GLN
288
n
22
GLN
288
A
SER
289
n
23
SER
289
A
LYS
290
n
24
LYS
290
A
CYS
291
n
25
CYS
291
A
GLY
292
n
26
GLY
292
A
SER
293
n
27
SER
293
A
LYS
294
n
28
LYS
294
A
ASP
295
n
29
ASP
295
A
ASN
296
n
30
ASN
296
A
ILE
297
n
31
ILE
297
A
LYS
298
n
32
LYS
298
A
HIS
299
n
33
HIS
299
A
VAL
300
n
34
VAL
300
A
PRO
301
n
35
PRO
301
A
GLY
302
n
36
GLY
302
A
GLY
303
n
37
GLY
303
A
GLY
304
n
38
GLY
304
A
SER
305
n
39
SER
305
A
VAL
306
n
40
VAL
306
A
GLN
307
n
41
GLN
307
A
ILE
308
n
42
ILE
308
A
VAL
309
n
43
VAL
309
A
TYR
310
n
44
TYR
310
A
LYS
311
n
45
LYS
311
A
PRO
312
n
46
PRO
312
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
2
A
A
H
H
ASN
ILE
296
297
1.34
4
A
A
O
H
SER
VAL
285
287
1.59
5
A
A
O
H
LYS
ASN
294
296
1.58
8
A
A
HG
HE21
SER
GLN
305
307
1.29
8
A
A
O
H
GLN
CYS
288
291
1.53
8
A
A
O
H
HIS
GLY
268
271
1.58
9
A
A
H
HE22
SER
GLN
305
307
1.16
9
A
A
HD21
H
ASN
VAL
286
287
1.24
9
A
A
O
H
ASN
LEU
279
282
1.56
9
A
A
O
H
LYS
ASN
294
296
1.60
11
A
A
O
H
ASN
HIS
296
299
1.58
13
A
A
HZ3
HE22
LYS
GLN
298
307
1.29
14
A
A
H
HE22
VAL
GLN
306
307
1.29
14
A
A
O
H
SER
VAL
285
287
1.57
14
A
A
O
H
GLN
CYS
288
291
1.59
15
A
A
H
HE21
LEU
GLN
284
288
1.24
15
A
A
O
H
VAL
GLY
300
303
1.59
18
A
A
O
H
GLN
LYS
288
290
1.59
18
A
A
O
H
ILE
ASN
277
279
1.59
19
A
A
O
H
LYS
ASP
280
283
1.56
20
A
A
OG
H
SER
LYS
293
294
1.54
20
A
A
O
H
GLN
LYS
288
290
1.60
3
-15.15
2.10
128.40
113.25
A
A
A
C
N
CD
VAL
PRO
PRO
300
301
301
Y
5
-13.04
2.10
128.40
115.36
A
A
A
C
N
CD
VAL
PRO
PRO
300
301
301
Y
7
-13.73
2.10
128.40
114.67
A
A
A
C
N
CD
VAL
PRO
PRO
300
301
301
Y
13
-15.48
2.10
128.40
112.92
A
A
A
C
N
CD
VAL
PRO
PRO
300
301
301
Y
15
-14.58
2.10
128.40
113.82
A
A
A
C
N
CD
VAL
PRO
PRO
300
301
301
Y
16
-17.49
2.10
128.40
110.91
A
A
A
C
N
CD
VAL
PRO
PRO
300
301
301
Y
18
-15.32
2.10
128.40
113.08
A
A
A
C
N
CD
VAL
PRO
PRO
300
301
301
Y
19
-15.75
2.10
128.40
112.65
A
A
A
C
N
CD
VAL
PRO
PRO
300
301
301
Y
1
A
ILE
278
70.12
-24.44
1
A
SER
285
100.26
-134.52
1
A
SER
289
33.17
-85.41
1
A
SER
293
-68.63
-171.92
1
A
ILE
297
49.87
6.42
1
A
VAL
300
-25.64
111.87
1
A
SER
305
173.88
-5.11
1
A
VAL
306
51.28
81.72
1
A
GLN
307
-137.36
-75.64
1
A
VAL
309
37.75
41.79
1
A
TYR
310
-149.63
51.69
1
A
LYS
311
-9.18
108.69
2
A
GLN
269
-34.42
-33.82
2
A
ASN
279
18.61
-112.56
2
A
LYS
280
37.84
23.64
2
A
SER
285
-58.77
-142.03
2
A
CYS
291
30.77
33.06
2
A
LYS
294
-45.93
-12.92
2
A
ASN
296
-179.87
16.43
2
A
LYS
298
-77.73
20.41
2
A
PRO
301
-45.85
-10.32
2
A
VAL
306
40.76
14.64
2
A
LYS
311
62.94
112.36
3
A
VAL
275
-150.56
-15.01
3
A
ASN
279
-51.76
-1.97
3
A
LYS
280
-38.11
-11.83
3
A
SER
285
-55.60
-155.67
3
A
ASN
286
-43.35
-16.03
3
A
VAL
287
-52.33
-7.95
3
A
GLN
288
-41.20
-14.57
3
A
SER
293
-164.67
-28.47
3
A
LYS
294
13.99
-130.64
3
A
ASP
295
44.81
10.55
3
A
ASN
296
-177.98
-65.47
3
A
ILE
297
-90.68
54.62
3
A
LYS
298
-37.49
88.22
3
A
SER
305
-60.16
-172.28
3
A
GLN
307
-65.77
-122.23
3
A
VAL
309
25.22
36.86
3
A
LYS
311
67.72
62.87
4
A
VAL
275
61.84
-0.23
4
A
GLN
276
-72.40
24.86
4
A
ILE
277
-39.67
-26.51
4
A
SER
285
-57.26
72.73
4
A
ASN
286
61.42
-29.71
4
A
VAL
287
-59.03
-7.30
4
A
CYS
291
34.48
62.66
4
A
SER
293
-35.78
118.53
4
A
LYS
294
179.11
-73.94
4
A
ASP
295
-94.17
-70.08
4
A
ASN
296
-150.32
-0.57
4
A
LYS
298
-44.49
-12.42
4
A
VAL
300
-178.13
80.66
4
A
VAL
306
41.86
20.61
4
A
TYR
310
168.35
-20.28
4
A
LYS
311
66.26
68.99
5
A
GLN
276
-57.24
12.06
5
A
SER
289
22.30
35.05
5
A
SER
293
-172.33
-31.23
5
A
ASP
295
60.60
-68.35
5
A
ILE
297
-47.01
-4.49
5
A
SER
305
-101.51
-116.15
5
A
VAL
306
-163.59
8.21
6
A
ILE
277
-140.89
-119.26
6
A
ILE
278
55.66
-74.13
6
A
SER
285
93.46
-139.95
6
A
SER
289
11.42
52.70
6
A
CYS
291
-37.97
-34.47
6
A
SER
293
173.51
9.99
6
A
LYS
294
92.41
-48.13
6
A
LYS
298
-102.37
45.79
6
A
PRO
301
-60.33
81.52
6
A
SER
305
-86.88
-79.63
6
A
VAL
306
-179.87
7.44
6
A
VAL
309
-161.31
-4.80
6
A
TYR
310
-53.78
-8.01
6
A
LYS
311
68.19
64.48
7
A
GLN
269
79.30
143.67
7
A
VAL
275
176.55
-97.64
7
A
GLN
276
37.39
-126.70
7
A
SER
285
-61.66
67.72
7
A
ASN
286
60.94
-25.28
7
A
VAL
287
-50.68
-8.28
7
A
GLN
288
-40.57
-18.08
7
A
SER
289
-48.41
-9.55
7
A
CYS
291
63.72
-67.55
7
A
SER
293
30.44
97.72
7
A
LYS
294
-138.75
-79.87
7
A
ASN
296
-176.67
-13.39
7
A
LYS
298
27.21
33.14
7
A
SER
305
-49.98
-170.06
7
A
GLN
307
-85.19
-104.93
7
A
LYS
311
67.41
104.38
8
A
GLN
269
-38.27
-39.72
8
A
SER
285
-56.34
69.17
8
A
ASN
286
58.73
-22.35
8
A
GLN
288
-51.12
-112.79
8
A
SER
289
36.11
-89.69
8
A
CYS
291
-77.42
-80.28
8
A
LYS
294
-170.49
-53.08
8
A
ASP
295
-93.15
-74.13
8
A
VAL
300
176.39
80.46
8
A
VAL
306
59.30
13.72
8
A
LYS
311
35.59
64.99
9
A
GLN
269
93.26
71.40
9
A
VAL
275
-156.94
-41.97
9
A
ILE
278
-62.82
6.74
9
A
ASN
279
-61.97
13.39
9
A
ASP
283
-149.95
33.60
9
A
SER
289
67.33
-8.03
9
A
SER
293
-167.01
6.26
9
A
ASP
295
59.57
-69.94
9
A
ILE
297
-49.89
-11.90
9
A
HIS
299
-67.77
-165.65
9
A
VAL
300
173.58
78.39
9
A
LYS
311
34.12
56.16
10
A
LYS
280
40.03
-149.20
10
A
LYS
281
55.79
-19.19
10
A
SER
285
-63.01
86.66
10
A
ASN
286
63.08
-29.85
10
A
GLN
288
-44.19
-10.62
10
A
SER
289
-46.40
-19.79
10
A
SER
293
174.49
75.26
10
A
ILE
297
120.06
63.62
10
A
LYS
298
1.17
66.95
10
A
PRO
301
-45.15
-12.04
10
A
ILE
308
-42.78
154.21
10
A
LYS
311
31.66
97.29
11
A
GLN
269
-29.34
-30.58
11
A
ILE
277
41.46
-120.18
11
A
ILE
278
38.89
-83.56
11
A
SER
285
-45.84
172.54
11
A
ASN
286
-45.69
-6.63
11
A
GLN
288
-36.12
-77.15
11
A
SER
289
43.33
11.17
11
A
LYS
294
-130.88
-77.86
11
A
HIS
299
-54.30
-121.38
11
A
VAL
300
-175.63
31.97
11
A
PRO
301
19.25
-120.14
11
A
SER
305
171.80
-125.64
11
A
VAL
306
-161.56
61.74
11
A
GLN
307
-110.54
-112.84
11
A
TYR
310
-175.25
33.97
11
A
LYS
311
34.43
77.91
12
A
GLN
276
-74.16
32.41
12
A
ILE
277
-48.77
-1.43
12
A
ILE
278
-43.82
-12.04
12
A
ASN
279
101.15
28.67
12
A
SER
285
-51.45
-175.44
12
A
ASN
286
-44.30
-12.65
12
A
SER
289
35.75
-89.44
12
A
SER
293
-179.96
110.84
12
A
LYS
294
61.78
-25.51
12
A
ASN
296
-168.11
-34.01
12
A
LYS
298
28.93
30.21
12
A
VAL
300
134.06
-48.99
12
A
SER
305
-176.59
-20.34
12
A
VAL
306
74.44
35.18
12
A
VAL
309
66.65
-28.68
13
A
SER
285
152.08
57.21
13
A
ASN
286
71.79
-22.45
13
A
GLN
288
-45.05
-9.84
13
A
SER
289
-35.02
-30.17
13
A
SER
293
153.70
-86.86
13
A
LYS
294
-149.06
31.42
13
A
ASN
296
-152.63
-15.72
13
A
LYS
298
-46.59
87.72
13
A
PRO
301
-52.01
105.21
13
A
VAL
306
75.83
75.19
13
A
GLN
307
-136.09
-69.96
13
A
TYR
310
-49.35
0.03
13
A
LYS
311
34.96
93.37
14
A
VAL
275
173.43
-23.63
14
A
GLN
276
-55.08
-153.40
14
A
ILE
278
65.10
-19.02
14
A
SER
285
95.80
86.51
14
A
ASN
286
65.34
-52.41
14
A
GLN
288
-44.25
-13.43
14
A
CYS
291
72.50
-60.02
14
A
SER
293
59.07
16.29
14
A
LYS
294
-146.18
-90.02
14
A
PRO
301
-46.49
-11.39
14
A
VAL
306
79.75
82.36
14
A
GLN
307
-123.33
-91.92
14
A
VAL
309
39.86
13.12
14
A
LYS
311
75.22
95.79
15
A
LEU
284
-153.43
64.91
15
A
SER
285
43.82
-173.44
15
A
SER
289
25.19
30.04
15
A
ASP
295
51.68
6.54
15
A
HIS
299
162.27
165.84
15
A
PRO
301
-52.53
101.93
15
A
SER
305
-133.15
-128.36
15
A
VAL
309
-171.55
-0.05
15
A
LYS
311
33.16
68.63
16
A
LYS
274
-91.13
-78.29
16
A
VAL
275
-176.05
-39.85
16
A
GLN
276
-67.40
9.24
16
A
SER
285
-56.75
73.53
16
A
ASN
286
55.01
-6.15
16
A
SER
289
-163.31
-51.21
16
A
SER
293
89.71
-167.04
16
A
ASP
295
-166.09
72.32
16
A
ASN
296
39.30
20.78
16
A
ILE
308
-132.51
-152.25
16
A
VAL
309
166.27
-5.74
16
A
LYS
311
39.66
56.16
17
A
HIS
268
57.16
146.20
17
A
VAL
275
51.85
19.21
17
A
ILE
278
64.63
-65.20
17
A
SER
285
-55.72
-167.58
17
A
ASN
286
-49.99
-3.32
17
A
SER
289
41.87
11.99
17
A
LYS
294
-166.83
-129.73
17
A
ILE
297
12.94
-98.28
17
A
LYS
298
35.34
29.11
17
A
VAL
300
-154.28
-8.27
17
A
PRO
301
-56.72
106.16
17
A
GLN
307
47.14
100.24
17
A
VAL
309
69.76
-50.78
18
A
LYS
274
-54.93
-70.82
18
A
VAL
275
-161.82
-15.54
18
A
GLN
276
-56.14
-131.74
18
A
ILE
278
62.79
-32.61
18
A
SER
285
93.21
-171.11
18
A
SER
289
59.82
-26.56
18
A
ASP
295
38.17
37.73
18
A
ASN
296
73.67
46.03
18
A
ILE
297
34.60
32.11
18
A
PRO
301
-51.60
108.27
18
A
SER
305
-71.61
-84.89
18
A
VAL
306
178.27
80.99
18
A
GLN
307
-120.24
-100.04
18
A
TYR
310
-43.30
-9.55
19
A
HIS
268
-57.10
-149.54
19
A
GLN
276
-44.20
-8.04
19
A
ILE
277
-48.33
-3.28
19
A
LYS
280
-46.85
-1.48
19
A
SER
285
89.95
-134.42
19
A
SER
289
50.76
-79.81
19
A
SER
293
163.16
107.23
19
A
LYS
294
44.97
18.05
19
A
ASP
295
52.50
8.45
19
A
ASN
296
-144.80
-65.72
19
A
ILE
297
-159.31
50.49
19
A
SER
305
-55.49
-131.56
19
A
VAL
306
-159.58
26.52
19
A
GLN
307
-84.84
-70.87
19
A
TYR
310
-70.29
20.35
19
A
LYS
311
32.31
98.81
20
A
GLN
269
84.94
125.55
20
A
ASN
279
-67.13
23.55
20
A
LYS
280
-38.75
-15.83
20
A
SER
285
87.11
-177.39
20
A
SER
289
60.13
-68.77
20
A
SER
293
-62.36
-141.91
20
A
ASP
295
-161.99
-120.93
20
A
VAL
300
172.35
74.44
20
A
PRO
301
-31.32
-28.30
20
A
GLN
307
-82.20
-72.41
20
A
VAL
309
33.97
40.08
20
A
TYR
310
-146.40
-14.33
20
A
LYS
311
31.96
96.84
lowest energy, model1
Structure of Tau(267-312) bound to Microtubules
1
N
N
A
ILE
278
A
ILE
12
HELX_P
A
ASP
283
A
ASP
17
1
1
6
A
SER
285
A
SER
19
HELX_P
A
SER
289
A
SER
23
5
2
5
A
ASP
295
A
ASP
29
HELX_P
A
HIS
299
A
HIS
33
5
3
5
PROTEIN BINDING
Tau, microtubule, dynamics, PROTEIN BINDING
TAU_HUMAN
UNP
1
584
P10636
KHQPGGGKVQIINKKLDLSNVQSKCGSKDNIKHVPGGGSVQIVYKP
584
629
2MZ7
267
312
P10636
A
1
1
46
1
P 1