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