1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Kisselev, O.G. McDowell, J.H. Hargrave, P.A. http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic C3 H7 N O2 89.093 y ALANINE 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 C6 H15 N2 O2 1 147.195 y LYSINE L-peptide linking C5 H9 N O2 115.130 y PROLINE L-peptide linking C3 H8 N O6 P 185.072 n PHOSPHOSERINE PHOSPHONOSERINE 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 C4 H10 N O6 P 199.099 n PHOSPHOTHREONINE PHOSPHONOTHREONINE L-peptide linking C5 H11 N O2 117.146 y VALINE L-peptide linking NE Febs Lett. FEBLAL 0165 0014-5793 564 307 311 10.1016/S0014-5793(04)00226-1 15111114 The arrestin-bound conformation and dynamics of the phosphorylated carboxy-terminal region of rhodopsin. 2004 10.2210/pdb1nzs/pdb pdb_00001nzs 1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 All SER and THR phosphorylated 2497.842 19-mer peptide fragment of RHODOPSIN C-terminal domain, residues 330-348 all serines and threonines phosphorylated 1 syn polymer no yes DDEA(SEP)(TPO)(TPO)V(SEP)K(TPO)E(TPO)(SEP)QVAPA DDEASTTVSKTETSQVAPA A polypeptide(L) n n n n n n n n n n n n n n n n n n n database_2 pdbx_nmr_software pdbx_struct_assembly pdbx_struct_oper_list struct_conn struct_ref_seq_dif repository Initial release Version format compliance Version format compliance Data collection Database references Derived calculations 1 0 2004-03-02 1 1 2008-04-29 1 2 2011-07-13 1 3 2022-02-23 _database_2.pdbx_DOI _database_2.pdbx_database_accession _pdbx_nmr_software.name _struct_conn.pdbx_leaving_atom_flag _struct_ref_seq_dif.details RCSB Y RCSB 2003-02-19 REL This sequence occurs naturally in Bos taurus. In a synthetic peptide, all serines and threonines are phosphorylated. sample structures with the lowest energy 100 16 2D TOCSY 2D NOESY 0.1M phosphate 6.5 ambient 277 K Experimental data are for the 7-phospho-Rh(330-348) bound to arrestin. Calculations and structures submitted are without phosphate groups. distance geometry, constrained molecular dynamics, simulated annealing 1 minimized average structure 0.16 mM of purified arrestin, 1.77 mM of 7PP, 7-phospho-Rh(330-348) or unphosphorylated Rh(330-348) in sodium phosphate buffer, 0.1 M, pH 6.5 and 10% D2O in a total volume of 0.6 ml 90% H2O/10% D2O Varian. collection VNMR 5.2 Varian data analysis VNMR 5.2 Ponder, J.W. structure solution Tinker 3.9 Ponder, J.W. refinement Tinker 3.9 600 Varian UNITYPLUS ASP 330 n 1 ASP 330 A ASP 331 n 2 ASP 331 A GLU 332 n 3 GLU 332 A ALA 333 n 4 ALA 333 A SEP 334 n 5 SEP 334 A TPO 335 n 6 TPO 335 A TPO 336 n 7 TPO 336 A VAL 337 n 8 VAL 337 A SEP 338 n 9 SEP 338 A LYS 339 n 10 LYS 339 A TPO 340 n 11 TPO 340 A GLU 341 n 12 GLU 341 A TPO 342 n 13 TPO 342 A SEP 343 n 14 SEP 343 A GLN 344 n 15 GLN 344 A VAL 345 n 16 VAL 345 A ALA 346 n 17 ALA 346 A PRO 347 n 18 PRO 347 A ALA 348 n 19 ALA 348 A author_defined_assembly 1 monomeric A SEP 334 PHOSPHOSERINE A SEP 5 SER A TPO 335 PHOSPHOTHREONINE A TPO 6 THR A TPO 336 PHOSPHOTHREONINE A TPO 7 THR A SEP 338 PHOSPHOSERINE A SEP 9 SER A TPO 340 PHOSPHOTHREONINE A TPO 11 THR A TPO 342 PHOSPHOTHREONINE A TPO 13 THR A SEP 343 PHOSPHOSERINE A SEP 14 SER 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 1 A P SEP 334 A P SEP 5 1 Y 1 A O1P SEP 334 A O1P SEP 5 1 Y 1 A O2P SEP 334 A O2P SEP 5 1 Y 1 A O3P SEP 334 A O3P SEP 5 1 Y 1 A P TPO 335 A P TPO 6 1 Y 1 A O1P TPO 335 A O1P TPO 6 1 Y 1 A O2P TPO 335 A O2P TPO 6 1 Y 1 A O3P TPO 335 A O3P TPO 6 1 Y 1 A P TPO 336 A P TPO 7 1 Y 1 A O1P TPO 336 A O1P TPO 7 1 Y 1 A O2P TPO 336 A O2P TPO 7 1 Y 1 A O3P TPO 336 A O3P TPO 7 1 Y 1 A P SEP 338 A P SEP 9 1 Y 1 A O1P SEP 338 A O1P SEP 9 1 Y 1 A O2P SEP 338 A O2P SEP 9 1 Y 1 A O3P SEP 338 A O3P SEP 9 1 Y 1 A P TPO 340 A P TPO 11 1 Y 1 A O1P TPO 340 A O1P TPO 11 1 Y 1 A O2P TPO 340 A O2P TPO 11 1 Y 1 A O3P TPO 340 A O3P TPO 11 1 Y 1 A P TPO 342 A P TPO 13 1 Y 1 A O1P TPO 342 A O1P TPO 13 1 Y 1 A O2P TPO 342 A O2P TPO 13 1 Y 1 A O3P TPO 342 A O3P TPO 13 1 Y 1 A P SEP 343 A P SEP 14 1 Y 1 A O1P SEP 343 A O1P SEP 14 1 Y 1 A O2P SEP 343 A O2P SEP 14 1 Y 1 A O3P SEP 343 A O3P SEP 14 1 Y 2 A P SEP 334 A P SEP 5 1 Y 2 A O1P SEP 334 A O1P SEP 5 1 Y 2 A O2P SEP 334 A O2P SEP 5 1 Y 2 A O3P SEP 334 A O3P SEP 5 1 Y 2 A P TPO 335 A P TPO 6 1 Y 2 A O1P TPO 335 A O1P TPO 6 1 Y 2 A O2P TPO 335 A O2P TPO 6 1 Y 2 A O3P TPO 335 A O3P TPO 6 1 Y 2 A P TPO 336 A P TPO 7 1 Y 2 A O1P TPO 336 A O1P TPO 7 1 Y 2 A O2P TPO 336 A O2P TPO 7 1 Y 2 A O3P TPO 336 A O3P TPO 7 1 Y 2 A P SEP 338 A P SEP 9 1 Y 2 A O1P SEP 338 A O1P SEP 9 1 Y 2 A O2P SEP 338 A O2P SEP 9 1 Y 2 A O3P SEP 338 A O3P SEP 9 1 Y 2 A P TPO 340 A P TPO 11 1 Y 2 A O1P TPO 340 A O1P TPO 11 1 Y 2 A O2P TPO 340 A O2P TPO 11 1 Y 2 A O3P TPO 340 A O3P TPO 11 1 Y 2 A P TPO 342 A P TPO 13 1 Y 2 A O1P TPO 342 A O1P TPO 13 1 Y 2 A O2P TPO 342 A O2P TPO 13 1 Y 2 A O3P TPO 342 A O3P TPO 13 1 Y 2 A P SEP 343 A P SEP 14 1 Y 2 A O1P SEP 343 A O1P SEP 14 1 Y 2 A O2P SEP 343 A O2P SEP 14 1 Y 2 A O3P SEP 343 A O3P SEP 14 1 Y 3 A P SEP 334 A P SEP 5 1 Y 3 A O1P SEP 334 A O1P SEP 5 1 Y 3 A O2P SEP 334 A O2P SEP 5 1 Y 3 A O3P SEP 334 A O3P SEP 5 1 Y 3 A P TPO 335 A P TPO 6 1 Y 3 A O1P TPO 335 A O1P TPO 6 1 Y 3 A O2P TPO 335 A O2P TPO 6 1 Y 3 A O3P TPO 335 A O3P TPO 6 1 Y 3 A P TPO 336 A P TPO 7 1 Y 3 A O1P TPO 336 A O1P TPO 7 1 Y 3 A O2P TPO 336 A O2P TPO 7 1 Y 3 A O3P TPO 336 A O3P TPO 7 1 Y 3 A P SEP 338 A P SEP 9 1 Y 3 A O1P SEP 338 A O1P SEP 9 1 Y 3 A O2P SEP 338 A O2P SEP 9 1 Y 3 A O3P SEP 338 A O3P SEP 9 1 Y 3 A P TPO 340 A P TPO 11 1 Y 3 A O1P TPO 340 A O1P TPO 11 1 Y 3 A O2P TPO 340 A O2P TPO 11 1 Y 3 A O3P TPO 340 A O3P TPO 11 1 Y 3 A P TPO 342 A P TPO 13 1 Y 3 A O1P TPO 342 A O1P TPO 13 1 Y 3 A O2P TPO 342 A O2P TPO 13 1 Y 3 A O3P TPO 342 A O3P TPO 13 1 Y 3 A P SEP 343 A P SEP 14 1 Y 3 A O1P SEP 343 A O1P SEP 14 1 Y 3 A O2P SEP 343 A O2P SEP 14 1 Y 3 A O3P SEP 343 A O3P SEP 14 1 Y 4 A P SEP 334 A P SEP 5 1 Y 4 A O1P SEP 334 A O1P SEP 5 1 Y 4 A O2P SEP 334 A O2P SEP 5 1 Y 4 A O3P SEP 334 A O3P SEP 5 1 Y 4 A P TPO 335 A P TPO 6 1 Y 4 A O1P TPO 335 A O1P TPO 6 1 Y 4 A O2P TPO 335 A O2P TPO 6 1 Y 4 A O3P TPO 335 A O3P TPO 6 1 Y 4 A P TPO 336 A P TPO 7 1 Y 4 A O1P TPO 336 A O1P TPO 7 1 Y 4 A O2P TPO 336 A O2P TPO 7 1 Y 4 A O3P TPO 336 A O3P TPO 7 1 Y 4 A P SEP 338 A P SEP 9 1 Y 4 A O1P SEP 338 A O1P SEP 9 1 Y 4 A O2P SEP 338 A O2P SEP 9 1 Y 4 A O3P SEP 338 A O3P SEP 9 1 Y 4 A P TPO 340 A P TPO 11 1 Y 4 A O1P TPO 340 A O1P TPO 11 1 Y 4 A O2P TPO 340 A O2P TPO 11 1 Y 4 A O3P TPO 340 A O3P TPO 11 1 Y 4 A P TPO 342 A P TPO 13 1 Y 4 A O1P TPO 342 A O1P TPO 13 1 Y 4 A O2P TPO 342 A O2P TPO 13 1 Y 4 A O3P TPO 342 A O3P TPO 13 1 Y 4 A P SEP 343 A P SEP 14 1 Y 4 A O1P SEP 343 A O1P SEP 14 1 Y 4 A O2P SEP 343 A O2P SEP 14 1 Y 4 A O3P SEP 343 A O3P SEP 14 1 Y 5 A P SEP 334 A P SEP 5 1 Y 5 A O1P SEP 334 A O1P SEP 5 1 Y 5 A O2P SEP 334 A O2P SEP 5 1 Y 5 A O3P SEP 334 A O3P SEP 5 1 Y 5 A P TPO 335 A P TPO 6 1 Y 5 A O1P TPO 335 A O1P TPO 6 1 Y 5 A O2P TPO 335 A O2P TPO 6 1 Y 5 A O3P TPO 335 A O3P TPO 6 1 Y 5 A P TPO 336 A P TPO 7 1 Y 5 A O1P TPO 336 A O1P TPO 7 1 Y 5 A O2P TPO 336 A O2P TPO 7 1 Y 5 A O3P TPO 336 A O3P TPO 7 1 Y 5 A P SEP 338 A P SEP 9 1 Y 5 A O1P SEP 338 A O1P SEP 9 1 Y 5 A O2P SEP 338 A O2P SEP 9 1 Y 5 A O3P SEP 338 A O3P SEP 9 1 Y 5 A P TPO 340 A P TPO 11 1 Y 5 A O1P TPO 340 A O1P TPO 11 1 Y 5 A O2P TPO 340 A O2P TPO 11 1 Y 5 A O3P TPO 340 A O3P TPO 11 1 Y 5 A P TPO 342 A P TPO 13 1 Y 5 A O1P TPO 342 A O1P TPO 13 1 Y 5 A O2P TPO 342 A O2P TPO 13 1 Y 5 A O3P TPO 342 A O3P TPO 13 1 Y 5 A P SEP 343 A P SEP 14 1 Y 5 A O1P SEP 343 A O1P SEP 14 1 Y 5 A O2P SEP 343 A O2P SEP 14 1 Y 5 A O3P SEP 343 A O3P SEP 14 1 Y 6 A P SEP 334 A P SEP 5 1 Y 6 A O1P SEP 334 A O1P SEP 5 1 Y 6 A O2P SEP 334 A O2P SEP 5 1 Y 6 A O3P SEP 334 A O3P SEP 5 1 Y 6 A P TPO 335 A P TPO 6 1 Y 6 A O1P TPO 335 A O1P TPO 6 1 Y 6 A O2P TPO 335 A O2P TPO 6 1 Y 6 A O3P TPO 335 A O3P TPO 6 1 Y 6 A P TPO 336 A P TPO 7 1 Y 6 A O1P TPO 336 A O1P TPO 7 1 Y 6 A O2P TPO 336 A O2P TPO 7 1 Y 6 A O3P TPO 336 A O3P TPO 7 1 Y 6 A P SEP 338 A P SEP 9 1 Y 6 A O1P SEP 338 A O1P SEP 9 1 Y 6 A O2P SEP 338 A O2P SEP 9 1 Y 6 A O3P SEP 338 A O3P SEP 9 1 Y 6 A P TPO 340 A P TPO 11 1 Y 6 A O1P TPO 340 A O1P TPO 11 1 Y 6 A O2P TPO 340 A O2P TPO 11 1 Y 6 A O3P TPO 340 A O3P TPO 11 1 Y 6 A P TPO 342 A P TPO 13 1 Y 6 A O1P TPO 342 A O1P TPO 13 1 Y 6 A O2P TPO 342 A O2P TPO 13 1 Y 6 A O3P TPO 342 A O3P TPO 13 1 Y 6 A P SEP 343 A P SEP 14 1 Y 6 A O1P SEP 343 A O1P SEP 14 1 Y 6 A O2P SEP 343 A O2P SEP 14 1 Y 6 A O3P SEP 343 A O3P SEP 14 1 Y 7 A P SEP 334 A P SEP 5 1 Y 7 A O1P SEP 334 A O1P SEP 5 1 Y 7 A O2P SEP 334 A O2P SEP 5 1 Y 7 A O3P SEP 334 A O3P SEP 5 1 Y 7 A P TPO 335 A P TPO 6 1 Y 7 A O1P TPO 335 A O1P TPO 6 1 Y 7 A O2P TPO 335 A O2P TPO 6 1 Y 7 A O3P TPO 335 A O3P TPO 6 1 Y 7 A P TPO 336 A P TPO 7 1 Y 7 A O1P TPO 336 A O1P TPO 7 1 Y 7 A O2P TPO 336 A O2P TPO 7 1 Y 7 A O3P TPO 336 A O3P TPO 7 1 Y 7 A P SEP 338 A P SEP 9 1 Y 7 A O1P SEP 338 A O1P SEP 9 1 Y 7 A O2P SEP 338 A O2P SEP 9 1 Y 7 A O3P SEP 338 A O3P SEP 9 1 Y 7 A P TPO 340 A P TPO 11 1 Y 7 A O1P TPO 340 A O1P TPO 11 1 Y 7 A O2P TPO 340 A O2P TPO 11 1 Y 7 A O3P TPO 340 A O3P TPO 11 1 Y 7 A P TPO 342 A P TPO 13 1 Y 7 A O1P TPO 342 A O1P TPO 13 1 Y 7 A O2P TPO 342 A O2P TPO 13 1 Y 7 A O3P TPO 342 A O3P TPO 13 1 Y 7 A P SEP 343 A P SEP 14 1 Y 7 A O1P SEP 343 A O1P SEP 14 1 Y 7 A O2P SEP 343 A O2P SEP 14 1 Y 7 A O3P SEP 343 A O3P SEP 14 1 Y 8 A P SEP 334 A P SEP 5 1 Y 8 A O1P SEP 334 A O1P SEP 5 1 Y 8 A O2P SEP 334 A O2P SEP 5 1 Y 8 A O3P SEP 334 A O3P SEP 5 1 Y 8 A P TPO 335 A P TPO 6 1 Y 8 A O1P TPO 335 A O1P TPO 6 1 Y 8 A O2P TPO 335 A O2P TPO 6 1 Y 8 A O3P TPO 335 A O3P TPO 6 1 Y 8 A P TPO 336 A P TPO 7 1 Y 8 A O1P TPO 336 A O1P TPO 7 1 Y 8 A O2P TPO 336 A O2P TPO 7 1 Y 8 A O3P TPO 336 A O3P TPO 7 1 Y 8 A P SEP 338 A P SEP 9 1 Y 8 A O1P SEP 338 A O1P SEP 9 1 Y 8 A O2P SEP 338 A O2P SEP 9 1 Y 8 A O3P SEP 338 A O3P SEP 9 1 Y 8 A P TPO 340 A P TPO 11 1 Y 8 A O1P TPO 340 A O1P TPO 11 1 Y 8 A O2P TPO 340 A O2P TPO 11 1 Y 8 A O3P TPO 340 A O3P TPO 11 1 Y 8 A P TPO 342 A P TPO 13 1 Y 8 A O1P TPO 342 A O1P TPO 13 1 Y 8 A O2P TPO 342 A O2P TPO 13 1 Y 8 A O3P TPO 342 A O3P TPO 13 1 Y 8 A P SEP 343 A P SEP 14 1 Y 8 A O1P SEP 343 A O1P SEP 14 1 Y 8 A O2P SEP 343 A O2P SEP 14 1 Y 8 A O3P SEP 343 A O3P SEP 14 1 Y 9 A P SEP 334 A P SEP 5 1 Y 9 A O1P SEP 334 A O1P SEP 5 1 Y 9 A O2P SEP 334 A O2P SEP 5 1 Y 9 A O3P SEP 334 A O3P SEP 5 1 Y 9 A P TPO 335 A P TPO 6 1 Y 9 A O1P TPO 335 A O1P TPO 6 1 Y 9 A O2P TPO 335 A O2P TPO 6 1 Y 9 A O3P TPO 335 A O3P TPO 6 1 Y 9 A P TPO 336 A P TPO 7 1 Y 9 A O1P TPO 336 A O1P TPO 7 1 Y 9 A O2P TPO 336 A O2P TPO 7 1 Y 9 A O3P TPO 336 A O3P TPO 7 1 Y 9 A P SEP 338 A P SEP 9 1 Y 9 A O1P SEP 338 A O1P SEP 9 1 Y 9 A O2P SEP 338 A O2P SEP 9 1 Y 9 A O3P SEP 338 A O3P SEP 9 1 Y 9 A P TPO 340 A P TPO 11 1 Y 9 A O1P TPO 340 A O1P TPO 11 1 Y 9 A O2P TPO 340 A O2P TPO 11 1 Y 9 A O3P TPO 340 A O3P TPO 11 1 Y 9 A P TPO 342 A P TPO 13 1 Y 9 A O1P TPO 342 A O1P TPO 13 1 Y 9 A O2P TPO 342 A O2P TPO 13 1 Y 9 A O3P TPO 342 A O3P TPO 13 1 Y 9 A P SEP 343 A P SEP 14 1 Y 9 A O1P SEP 343 A O1P SEP 14 1 Y 9 A O2P SEP 343 A O2P SEP 14 1 Y 9 A O3P SEP 343 A O3P SEP 14 1 Y 10 A P SEP 334 A P SEP 5 1 Y 10 A O1P SEP 334 A O1P SEP 5 1 Y 10 A O2P SEP 334 A O2P SEP 5 1 Y 10 A O3P SEP 334 A O3P SEP 5 1 Y 10 A P TPO 335 A P TPO 6 1 Y 10 A O1P TPO 335 A O1P TPO 6 1 Y 10 A O2P TPO 335 A O2P TPO 6 1 Y 10 A O3P TPO 335 A O3P TPO 6 1 Y 10 A P TPO 336 A P TPO 7 1 Y 10 A O1P TPO 336 A O1P TPO 7 1 Y 10 A O2P TPO 336 A O2P TPO 7 1 Y 10 A O3P TPO 336 A O3P TPO 7 1 Y 10 A P SEP 338 A P SEP 9 1 Y 10 A O1P SEP 338 A O1P SEP 9 1 Y 10 A O2P SEP 338 A O2P SEP 9 1 Y 10 A O3P SEP 338 A O3P SEP 9 1 Y 10 A P TPO 340 A P TPO 11 1 Y 10 A O1P TPO 340 A O1P TPO 11 1 Y 10 A O2P TPO 340 A O2P TPO 11 1 Y 10 A O3P TPO 340 A O3P TPO 11 1 Y 10 A P TPO 342 A P TPO 13 1 Y 10 A O1P TPO 342 A O1P TPO 13 1 Y 10 A O2P TPO 342 A O2P TPO 13 1 Y 10 A O3P TPO 342 A O3P TPO 13 1 Y 10 A P SEP 343 A P SEP 14 1 Y 10 A O1P SEP 343 A O1P SEP 14 1 Y 10 A O2P SEP 343 A O2P SEP 14 1 Y 10 A O3P SEP 343 A O3P SEP 14 1 Y 11 A P SEP 334 A P SEP 5 1 Y 11 A O1P SEP 334 A O1P SEP 5 1 Y 11 A O2P SEP 334 A O2P SEP 5 1 Y 11 A O3P SEP 334 A O3P SEP 5 1 Y 11 A P TPO 335 A P TPO 6 1 Y 11 A O1P TPO 335 A O1P TPO 6 1 Y 11 A O2P TPO 335 A O2P TPO 6 1 Y 11 A O3P TPO 335 A O3P TPO 6 1 Y 11 A P TPO 336 A P TPO 7 1 Y 11 A O1P TPO 336 A O1P TPO 7 1 Y 11 A O2P TPO 336 A O2P TPO 7 1 Y 11 A O3P TPO 336 A O3P TPO 7 1 Y 11 A P SEP 338 A P SEP 9 1 Y 11 A O1P SEP 338 A O1P SEP 9 1 Y 11 A O2P SEP 338 A O2P SEP 9 1 Y 11 A O3P SEP 338 A O3P SEP 9 1 Y 11 A P TPO 340 A P TPO 11 1 Y 11 A O1P TPO 340 A O1P TPO 11 1 Y 11 A O2P TPO 340 A O2P TPO 11 1 Y 11 A O3P TPO 340 A O3P TPO 11 1 Y 11 A P TPO 342 A P TPO 13 1 Y 11 A O1P TPO 342 A O1P TPO 13 1 Y 11 A O2P TPO 342 A O2P TPO 13 1 Y 11 A O3P TPO 342 A O3P TPO 13 1 Y 11 A P SEP 343 A P SEP 14 1 Y 11 A O1P SEP 343 A O1P SEP 14 1 Y 11 A O2P SEP 343 A O2P SEP 14 1 Y 11 A O3P SEP 343 A O3P SEP 14 1 Y 12 A P SEP 334 A P SEP 5 1 Y 12 A O1P SEP 334 A O1P SEP 5 1 Y 12 A O2P SEP 334 A O2P SEP 5 1 Y 12 A O3P SEP 334 A O3P SEP 5 1 Y 12 A P TPO 335 A P TPO 6 1 Y 12 A O1P TPO 335 A O1P TPO 6 1 Y 12 A O2P TPO 335 A O2P TPO 6 1 Y 12 A O3P TPO 335 A O3P TPO 6 1 Y 12 A P TPO 336 A P TPO 7 1 Y 12 A O1P TPO 336 A O1P TPO 7 1 Y 12 A O2P TPO 336 A O2P TPO 7 1 Y 12 A O3P TPO 336 A O3P TPO 7 1 Y 12 A P SEP 338 A P SEP 9 1 Y 12 A O1P SEP 338 A O1P SEP 9 1 Y 12 A O2P SEP 338 A O2P SEP 9 1 Y 12 A O3P SEP 338 A O3P SEP 9 1 Y 12 A P TPO 340 A P TPO 11 1 Y 12 A O1P TPO 340 A O1P TPO 11 1 Y 12 A O2P TPO 340 A O2P TPO 11 1 Y 12 A O3P TPO 340 A O3P TPO 11 1 Y 12 A P TPO 342 A P TPO 13 1 Y 12 A O1P TPO 342 A O1P TPO 13 1 Y 12 A O2P TPO 342 A O2P TPO 13 1 Y 12 A O3P TPO 342 A O3P TPO 13 1 Y 12 A P SEP 343 A P SEP 14 1 Y 12 A O1P SEP 343 A O1P SEP 14 1 Y 12 A O2P SEP 343 A O2P SEP 14 1 Y 12 A O3P SEP 343 A O3P SEP 14 1 Y 13 A P SEP 334 A P SEP 5 1 Y 13 A O1P SEP 334 A O1P SEP 5 1 Y 13 A O2P SEP 334 A O2P SEP 5 1 Y 13 A O3P SEP 334 A O3P SEP 5 1 Y 13 A P TPO 335 A P TPO 6 1 Y 13 A O1P TPO 335 A O1P TPO 6 1 Y 13 A O2P TPO 335 A O2P TPO 6 1 Y 13 A O3P TPO 335 A O3P TPO 6 1 Y 13 A P TPO 336 A P TPO 7 1 Y 13 A O1P TPO 336 A O1P TPO 7 1 Y 13 A O2P TPO 336 A O2P TPO 7 1 Y 13 A O3P TPO 336 A O3P TPO 7 1 Y 13 A P SEP 338 A P SEP 9 1 Y 13 A O1P SEP 338 A O1P SEP 9 1 Y 13 A O2P SEP 338 A O2P SEP 9 1 Y 13 A O3P SEP 338 A O3P SEP 9 1 Y 13 A P TPO 340 A P TPO 11 1 Y 13 A O1P TPO 340 A O1P TPO 11 1 Y 13 A O2P TPO 340 A O2P TPO 11 1 Y 13 A O3P TPO 340 A O3P TPO 11 1 Y 13 A P TPO 342 A P TPO 13 1 Y 13 A O1P TPO 342 A O1P TPO 13 1 Y 13 A O2P TPO 342 A O2P TPO 13 1 Y 13 A O3P TPO 342 A O3P TPO 13 1 Y 13 A P SEP 343 A P SEP 14 1 Y 13 A O1P SEP 343 A O1P SEP 14 1 Y 13 A O2P SEP 343 A O2P SEP 14 1 Y 13 A O3P SEP 343 A O3P SEP 14 1 Y 14 A P SEP 334 A P SEP 5 1 Y 14 A O1P SEP 334 A O1P SEP 5 1 Y 14 A O2P SEP 334 A O2P SEP 5 1 Y 14 A O3P SEP 334 A O3P SEP 5 1 Y 14 A P TPO 335 A P TPO 6 1 Y 14 A O1P TPO 335 A O1P TPO 6 1 Y 14 A O2P TPO 335 A O2P TPO 6 1 Y 14 A O3P TPO 335 A O3P TPO 6 1 Y 14 A P TPO 336 A P TPO 7 1 Y 14 A O1P TPO 336 A O1P TPO 7 1 Y 14 A O2P TPO 336 A O2P TPO 7 1 Y 14 A O3P TPO 336 A O3P TPO 7 1 Y 14 A P SEP 338 A P SEP 9 1 Y 14 A O1P SEP 338 A O1P SEP 9 1 Y 14 A O2P SEP 338 A O2P SEP 9 1 Y 14 A O3P SEP 338 A O3P SEP 9 1 Y 14 A P TPO 340 A P TPO 11 1 Y 14 A O1P TPO 340 A O1P TPO 11 1 Y 14 A O2P TPO 340 A O2P TPO 11 1 Y 14 A O3P TPO 340 A O3P TPO 11 1 Y 14 A P TPO 342 A P TPO 13 1 Y 14 A O1P TPO 342 A O1P TPO 13 1 Y 14 A O2P TPO 342 A O2P TPO 13 1 Y 14 A O3P TPO 342 A O3P TPO 13 1 Y 14 A P SEP 343 A P SEP 14 1 Y 14 A O1P SEP 343 A O1P SEP 14 1 Y 14 A O2P SEP 343 A O2P SEP 14 1 Y 14 A O3P SEP 343 A O3P SEP 14 1 Y 15 A P SEP 334 A P SEP 5 1 Y 15 A O1P SEP 334 A O1P SEP 5 1 Y 15 A O2P SEP 334 A O2P SEP 5 1 Y 15 A O3P SEP 334 A O3P SEP 5 1 Y 15 A P TPO 335 A P TPO 6 1 Y 15 A O1P TPO 335 A O1P TPO 6 1 Y 15 A O2P TPO 335 A O2P TPO 6 1 Y 15 A O3P TPO 335 A O3P TPO 6 1 Y 15 A P TPO 336 A P TPO 7 1 Y 15 A O1P TPO 336 A O1P TPO 7 1 Y 15 A O2P TPO 336 A O2P TPO 7 1 Y 15 A O3P TPO 336 A O3P TPO 7 1 Y 15 A P SEP 338 A P SEP 9 1 Y 15 A O1P SEP 338 A O1P SEP 9 1 Y 15 A O2P SEP 338 A O2P SEP 9 1 Y 15 A O3P SEP 338 A O3P SEP 9 1 Y 15 A P TPO 340 A P TPO 11 1 Y 15 A O1P TPO 340 A O1P TPO 11 1 Y 15 A O2P TPO 340 A O2P TPO 11 1 Y 15 A O3P TPO 340 A O3P TPO 11 1 Y 15 A P TPO 342 A P TPO 13 1 Y 15 A O1P TPO 342 A O1P TPO 13 1 Y 15 A O2P TPO 342 A O2P TPO 13 1 Y 15 A O3P TPO 342 A O3P TPO 13 1 Y 15 A P SEP 343 A P SEP 14 1 Y 15 A O1P SEP 343 A O1P SEP 14 1 Y 15 A O2P SEP 343 A O2P SEP 14 1 Y 15 A O3P SEP 343 A O3P SEP 14 1 Y 16 A P SEP 334 A P SEP 5 1 Y 16 A O1P SEP 334 A O1P SEP 5 1 Y 16 A O2P SEP 334 A O2P SEP 5 1 Y 16 A O3P SEP 334 A O3P SEP 5 1 Y 16 A P TPO 335 A P TPO 6 1 Y 16 A O1P TPO 335 A O1P TPO 6 1 Y 16 A O2P TPO 335 A O2P TPO 6 1 Y 16 A O3P TPO 335 A O3P TPO 6 1 Y 16 A P TPO 336 A P TPO 7 1 Y 16 A O1P TPO 336 A O1P TPO 7 1 Y 16 A O2P TPO 336 A O2P TPO 7 1 Y 16 A O3P TPO 336 A O3P TPO 7 1 Y 16 A P SEP 338 A P SEP 9 1 Y 16 A O1P SEP 338 A O1P SEP 9 1 Y 16 A O2P SEP 338 A O2P SEP 9 1 Y 16 A O3P SEP 338 A O3P SEP 9 1 Y 16 A P TPO 340 A P TPO 11 1 Y 16 A O1P TPO 340 A O1P TPO 11 1 Y 16 A O2P TPO 340 A O2P TPO 11 1 Y 16 A O3P TPO 340 A O3P TPO 11 1 Y 16 A P TPO 342 A P TPO 13 1 Y 16 A O1P TPO 342 A O1P TPO 13 1 Y 16 A O2P TPO 342 A O2P TPO 13 1 Y 16 A O3P TPO 342 A O3P TPO 13 1 Y 16 A P SEP 343 A P SEP 14 1 Y 16 A O1P SEP 343 A O1P SEP 14 1 Y 16 A O2P SEP 343 A O2P SEP 14 1 Y 16 A O3P SEP 343 A O3P SEP 14 1 Y 1 A A C N SEP LYS 338 339 1.18 1 -49.58 1.90 123.30 73.72 A A A OD1 CG OD2 ASP ASP ASP 331 331 331 N 1 25.27 0.90 118.30 143.57 A A A CB CG OD1 ASP ASP ASP 331 331 331 N 1 24.40 0.90 118.30 142.70 A A A CB CG OD2 ASP ASP ASP 331 331 331 N 1 -15.87 1.60 110.90 95.03 A A A CG1 CB CG2 VAL VAL VAL 345 345 345 N 1 11.27 1.50 110.90 122.17 A A A CA CB CG1 VAL VAL VAL 345 345 345 N 1 9.30 1.50 110.90 120.20 A A A CA CB CG2 VAL VAL VAL 345 345 345 N 1 A A CG OD1 ASP ASP 330 330 -0.147 0.023 1.249 1.102 N 1 A A CG OD2 ASP ASP 330 330 -0.160 0.023 1.249 1.089 N 1 A A CG OD1 ASP ASP 331 331 -0.545 0.023 1.249 0.704 N 1 A A CG OD2 ASP ASP 331 331 -0.574 0.023 1.249 0.675 N 1 A A CD OE1 GLU GLU 332 332 -0.110 0.011 1.252 1.142 N 1 A A CD OE2 GLU GLU 332 332 -0.112 0.011 1.252 1.140 N 1 A A C N SEP LYS 338 339 -0.153 0.023 1.336 1.183 Y 1 A A CE NZ LYS LYS 339 339 -0.206 0.025 1.486 1.280 N 1 A A CD OE1 GLU GLU 341 341 -0.075 0.011 1.252 1.177 N 1 A A CD OE2 GLU GLU 341 341 -0.079 0.011 1.252 1.173 N 1 A A CG CD GLN GLN 344 344 -0.239 0.023 1.506 1.267 N 1 A A CD OE1 GLN GLN 344 344 -0.238 0.022 1.235 0.997 N 1 A A CD NE2 GLN GLN 344 344 -0.249 0.025 1.324 1.075 N 1 A A CB CG1 VAL VAL 345 345 -0.333 0.021 1.524 1.191 N 1 A A CB CG2 VAL VAL 345 345 -0.327 0.021 1.524 1.197 N 1 A SEP 338 -84.68 43.92 1 A TPO 340 -121.36 -164.45 2 A ASP 331 -85.28 -79.61 2 A VAL 337 -67.73 -75.09 2 A TPO 340 -115.18 -145.32 3 A ASP 331 -91.04 -71.43 3 A TPO 340 -126.27 -148.51 4 A ASP 331 -95.13 -70.08 4 A SEP 334 -64.47 -87.33 4 A TPO 335 -168.60 -164.21 4 A LYS 339 -167.07 106.35 5 A SEP 334 -70.77 -78.13 5 A VAL 337 -80.06 -88.41 5 A TPO 340 -117.99 -144.61 6 A VAL 337 -67.68 -71.34 6 A TPO 340 -108.12 -167.83 7 A TPO 335 -175.63 135.98 7 A VAL 337 -71.72 -78.46 7 A SEP 338 -77.98 45.46 8 A TPO 335 -173.51 136.29 8 A SEP 338 -95.70 37.06 9 A VAL 337 -69.89 -71.50 9 A TPO 340 -123.59 -169.83 10 A TPO 335 -176.69 137.83 10 A LYS 339 -65.18 95.90 11 A ASP 331 -104.59 -74.42 11 A SEP 334 -20.20 -87.44 11 A TPO 335 173.63 168.20 11 A VAL 337 -66.76 -70.66 12 A VAL 337 -69.55 -70.26 12 A SEP 338 -76.18 26.95 12 A TPO 340 -121.83 -165.22 13 A TPO 340 -120.47 -164.67 14 A SEP 334 -53.35 -80.94 14 A VAL 337 -72.96 -74.55 14 A SEP 338 -76.63 38.09 14 A TPO 340 -124.92 -148.95 15 A SEP 334 -62.32 -85.38 15 A VAL 337 -114.77 -88.66 15 A SEP 338 -110.92 79.73 15 A TPO 340 -118.39 -147.50 16 A SEP 334 -49.05 -77.98 16 A VAL 337 -68.56 -73.90 16 A LYS 339 -57.21 106.42 minimized average NMR structures of phosphorylated carboxy terminus of bovine rhodopsin in arrestin-bound state 1 N N A TPO 340 A TPO 11 HELX_P A ALA 346 A ALA 17 1 1 7 covale 1.290 both A ALA 333 A C ALA 4 1_555 A SEP 334 A N SEP 5 1_555 covale 1.294 both A SEP 334 A C SEP 5 1_555 A TPO 335 A N TPO 6 1_555 covale 1.271 both A TPO 335 A C TPO 6 1_555 A TPO 336 A N TPO 7 1_555 covale 1.994 one A TPO 336 A O TPO 7 1_555 A VAL 337 A N VAL 8 1_555 covale 1.235 both A TPO 336 A C TPO 7 1_555 A VAL 337 A N VAL 8 1_555 covale 1.233 both A VAL 337 A C VAL 8 1_555 A SEP 338 A N SEP 9 1_555 covale 1.903 one A SEP 338 A O SEP 9 1_555 A LYS 339 A N LYS 10 1_555 covale 1.183 both A SEP 338 A C SEP 9 1_555 A LYS 339 A N LYS 10 1_555 covale 1.302 both A LYS 339 A C LYS 10 1_555 A TPO 340 A N TPO 11 1_555 covale 1.332 both A TPO 340 A C TPO 11 1_555 A GLU 341 A N GLU 12 1_555 covale 1.331 both A GLU 341 A C GLU 12 1_555 A TPO 342 A N TPO 13 1_555 covale 1.328 both A TPO 342 A C TPO 13 1_555 A SEP 343 A N SEP 14 1_555 covale 1.322 both A SEP 343 A C SEP 14 1_555 A GLN 344 A N GLN 15 1_555 SIGNALING PROTEIN rhodopsin, GPCR, arrestin, phosphorylation, helix-loop, ball-and-chain, bound conformation, signal termination, SIGNALING PROTEIN OPSD_BOVIN UNP 1 330 P02699 DDEASTTVSKTETSQVAPA 330 348 1NZS 330 348 P02699 A 1 1 19 1 SER modified residue SEP 334 1NZS A P02699 UNP 334 5 1 THR modified residue TPO 335 1NZS A P02699 UNP 335 6 1 THR modified residue TPO 336 1NZS A P02699 UNP 336 7 1 SER modified residue SEP 338 1NZS A P02699 UNP 338 9 1 THR modified residue TPO 340 1NZS A P02699 UNP 340 11 1 THR modified residue TPO 342 1NZS A P02699 UNP 342 13 1 SER modified residue SEP 343 1NZS A P02699 UNP 343 14