1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Morikis, D. Roy, M. Newlon, M.G. Scott, J.D. Jennings, P.A. http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic C3 H7 N O2 89.093 y ALANINE L-peptide linking C6 H15 N4 O2 1 175.209 y ARGININE 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 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 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 IX Eur.J.Biochem. EJBCAI 0262 0014-2956 269 2040 2051 10.1046/j.1432-1033.2002.02852.x 11985580 Electrostatic properties of the structure of the docking and dimerization domain of protein kinase A IIalpha 2002 US Nat.Struct.Biol. NSBIEW 2024 1072-8368 6 222 227 10.1038/6663 The molecular basis for protein kinase A anchoring revealed by solution NMR. 1999 US J.Biol.Chem. JBCHA3 0071 0021-9258 272 23637 23644 10.1074/jbc.272.38.23637 The A-kinase anchoring domain of type II-alpha cAMP-dependent protein kinase is highly helical. 1997 10.2210/pdb1l6e/pdb pdb_00001l6e 1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 1 SINGLE WAVELENGTH M 1 1.0 5398.181 cAMP-dependent protein kinase Type II-alpha regulatory chain 2.7.1.37 N-terminal docking and dimerization domain 2 man polymer no no HMGHIQIPPGLTELLQGYTVEVLRQQPPDLVDFAVEYFTRLREARR HMGHIQIPPGLTELLQGYTVEVLRQQPPDLVDFAVEYFTRLREARR A,B 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 house mouse Mus Escherichia sample RIIA(1-44) 10090 Mus musculus 562 Escherichia coli Plasmid PET-16B database_2 pdbx_struct_assembly pdbx_struct_oper_list struct_ref_seq_dif repository Initial release Version format compliance Version format compliance Database references Derived calculations 1 0 2002-04-03 1 1 2008-04-28 1 2 2011-07-13 1 3 2022-02-23 _database_2.pdbx_DOI _database_2.pdbx_database_accession _struct_ref_seq_dif.details 1R2A contains the same protein. SEQUENCE THE FIRST 3 RESIDUES ARE DIFFERENT DUE TO RECOMBINANT EXPRESSION AND PROTEOLYTIC CLEAVAGE. RCSB Y RCSB 2002-03-08 REL This structure was determined using standard homonuclear, heteronuclear, and triple resonance spectroscopy, and 3D 13C-edited(w2)-12C-filtered(w1)/13C-filtered(w3) NOESY. structures with the least restraint violations,structures with the lowest energy 49 24 0.012 4 1 atm 298 K 0.012 4 1 atm 298 K 0.012 4 1 atm 298 K 0.012 4 1 atm 298 K Filtered NOESY spectrum on a 50% unlabeled-50% 13C-15N-labeled sample was used to obtain inter-molecular NOE contacts of the homodimer. Other NOEs were classified as intra-molecular and ambiguous. Hybrid distance geometry-dynamical simulated annealing and refinement protocol for monomer structure determination, with 457 NOE-derived distance restraints (185 intra-residue, i-j=0; 136 sequential, |i-j|=1; 95 medium range, 1<|i-j|<5; 41 long range, |i-j|>4), 19 distance restraints representing hydrogen bonds (entered as 2 distances each), 25 phi- and 5 chi1-torsion angle restraints. Molecular dynamical simulated annealing protocol for dimer structure determination, using 505 NOE-derived distance restraints (185 intra-residue, i-j=0; 136 sequential, |i-j|=1; 95 medium range, 1<|i-j|<5; 25 long range, |i-j|>4; 38 inter-molecular; 26 ambiguous), 19 distance restraints representing hydrogen bonds (entered as 2 distances each), 25 phi- and 5 chi1-torsion angle restraints. 1 lowest energy 2mM dimer protein in 20 mM sodium phosphate buffer, 90%H2O-10% D2O, at pH 4 and temperature 298K 90% H2O/10% D2O 1mM dimer protein 15N in 20 mM sodium phosphate buffer, 90%H2O-10% D2O, at pH 4 and temperature 298K 90% H2O/10% D2O 1mM dimer protein 13C-15N in 20 mM sodium phosphate buffer, 90%H2O-10% D2O, at pH 4 and temperature 298K 90% H2O/10% D2O Mixture of 2mM unlabeled and 2 mM 13C-15N labeled sample unfolded in 5 M guanadine hydrochloride and refolded in 20 mM sodium phosphate buffer, 90% H2O-10% D2O, at pH 4 and temperature 298K 90% H2O/10% D2O Brunger, A.T. structure solution X-PLOR 3.851 Brunger, A.T. refinement X-PLOR 3.851 500 Bruker DMX 600 Bruker DRX HIS 1 n 1 HIS 1 A MET 2 n 2 MET 2 A GLY 3 n 3 GLY 3 A HIS 4 n 4 HIS 4 A ILE 5 n 5 ILE 5 A GLN 6 n 6 GLN 6 A ILE 7 n 7 ILE 7 A PRO 8 n 8 PRO 8 A PRO 9 n 9 PRO 9 A GLY 10 n 10 GLY 10 A LEU 11 n 11 LEU 11 A THR 12 n 12 THR 12 A GLU 13 n 13 GLU 13 A LEU 14 n 14 LEU 14 A LEU 15 n 15 LEU 15 A GLN 16 n 16 GLN 16 A GLY 17 n 17 GLY 17 A TYR 18 n 18 TYR 18 A THR 19 n 19 THR 19 A VAL 20 n 20 VAL 20 A GLU 21 n 21 GLU 21 A VAL 22 n 22 VAL 22 A LEU 23 n 23 A LEU 23 A ARG 24 n 24 ARG 24 A GLN 25 n 25 GLN 25 A GLN 26 n 26 GLN 26 A PRO 27 n 27 PRO 27 A PRO 28 n 28 PRO 28 A ASP 29 n 29 ASP 29 A LEU 30 n 30 LEU 30 A VAL 31 n 31 VAL 31 A ASP 32 n 32 ASP 32 A PHE 33 n 33 PHE 33 A ALA 34 n 34 ALA 34 A VAL 35 n 35 VAL 35 A GLU 36 n 36 GLU 36 A TYR 37 n 37 TYR 37 A PHE 38 n 38 PHE 38 A THR 39 n 39 THR 39 A ARG 40 n 40 ARG 40 A LEU 41 n 41 LEU 41 A ARG 42 n 42 ARG 42 A GLU 43 n 43 GLU 43 A ALA 44 n 44 ALA 44 A ARG 45 n 45 ARG 45 A ARG 46 n 46 ARG 46 A HIS 1 n 1 HIS 1 B MET 2 n 2 MET 2 B GLY 3 n 3 GLY 3 B HIS 4 n 4 HIS 4 B ILE 5 n 5 ILE 5 B GLN 6 n 6 GLN 6 B ILE 7 n 7 ILE 7 B PRO 8 n 8 PRO 8 B PRO 9 n 9 PRO 9 B GLY 10 n 10 GLY 10 B LEU 11 n 11 LEU 11 B THR 12 n 12 THR 12 B GLU 13 n 13 GLU 13 B LEU 14 n 14 LEU 14 B LEU 15 n 15 LEU 15 B GLN 16 n 16 GLN 16 B GLY 17 n 17 GLY 17 B TYR 18 n 18 TYR 18 B THR 19 n 19 THR 19 B VAL 20 n 20 VAL 20 B GLU 21 n 21 GLU 21 B VAL 22 n 22 VAL 22 B LEU 23 n 23 B LEU 23 B ARG 24 n 24 ARG 24 B GLN 25 n 25 GLN 25 B GLN 26 n 26 GLN 26 B PRO 27 n 27 PRO 27 B PRO 28 n 28 PRO 28 B ASP 29 n 29 ASP 29 B LEU 30 n 30 LEU 30 B VAL 31 n 31 VAL 31 B ASP 32 n 32 ASP 32 B PHE 33 n 33 PHE 33 B ALA 34 n 34 ALA 34 B VAL 35 n 35 VAL 35 B GLU 36 n 36 GLU 36 B TYR 37 n 37 TYR 37 B PHE 38 n 38 PHE 38 B THR 39 n 39 THR 39 B ARG 40 n 40 ARG 40 B LEU 41 n 41 LEU 41 B ARG 42 n 42 ARG 42 B GLU 43 n 43 GLU 43 B ALA 44 n 44 ALA 44 B ARG 45 n 45 ARG 45 B ARG 46 n 46 ARG 46 B author_defined_assembly 2 dimeric 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 B B O H LEU ALA 30 34 1.55 1 A A O H LEU ALA 30 34 1.56 2 B B O H LEU ALA 30 34 1.54 2 A A O H LEU ALA 30 34 1.54 5 B B O H HIS GLY 1 3 1.59 5 A A O H HIS GLY 1 3 1.60 7 B B O H ASP GLU 32 36 1.54 7 A A O H ASP GLU 32 36 1.54 9 A A O H VAL GLN 22 26 1.48 9 B B O H VAL GLN 22 26 1.48 9 B B O H ASP GLU 32 36 1.56 9 A A O H ASP GLU 32 36 1.56 10 A A O H ARG ALA 40 44 1.51 10 B B O H ARG ALA 40 44 1.52 10 B B O H LEU ALA 30 34 1.53 10 A A O H LEU ALA 30 34 1.53 11 A A O H LEU ALA 30 34 1.53 11 A A O H ASP PHE 29 33 1.53 11 B B O H LEU ALA 30 34 1.53 11 B B O H ASP PHE 29 33 1.54 12 A A O H GLU GLN 21 25 1.50 12 B B O H GLU GLN 21 25 1.50 12 B B O H TYR VAL 18 22 1.60 12 A A O H TYR VAL 18 22 1.60 15 A A O H LEU ALA 30 34 1.51 15 B B O H LEU ALA 30 34 1.51 16 A A O H LEU ALA 30 34 1.52 16 B B O H LEU ALA 30 34 1.52 16 A A O H THR GLN 12 16 1.60 16 B B O H THR GLN 12 16 1.60 18 B B O H GLU ARG 43 45 1.52 18 A A O H GLU ARG 43 45 1.52 18 A B HH21 OD2 ARG ASP 42 32 1.58 19 A B HH11 OD1 ARG ASP 42 32 1.58 19 A B OD1 HH11 ASP ARG 32 42 1.58 20 A A O H PRO LEU 9 11 1.53 20 B B O H PRO LEU 9 11 1.54 20 A A O H LEU ALA 30 34 1.60 20 A A O N PRO LEU 9 11 2.19 20 B B O N PRO LEU 9 11 2.19 22 B B O H LEU THR 15 19 1.51 22 A A O H LEU THR 15 19 1.51 22 A A O H LEU ALA 30 34 1.53 22 B B O H LEU ALA 30 34 1.53 23 A A O H VAL GLN 22 26 1.46 23 B B O H VAL GLN 22 26 1.46 24 A A O HE PHE ARG 38 42 1.29 24 B B O HE PHE ARG 38 42 1.30 24 B B O H LEU ALA 41 44 1.33 24 A A O H LEU ALA 41 44 1.33 24 A A O H ASP GLU 32 36 1.56 24 B B O H ASP GLU 32 36 1.56 24 B B O H LEU ALA 30 34 1.59 24 A A O H LEU ALA 30 34 1.59 1 A ARG 40 0.129 SIDE CHAIN 1 A ARG 42 0.307 SIDE CHAIN 1 A ARG 45 0.107 SIDE CHAIN 1 A ARG 46 0.226 SIDE CHAIN 1 B ARG 40 0.129 SIDE CHAIN 1 B ARG 42 0.306 SIDE CHAIN 1 B ARG 45 0.116 SIDE CHAIN 1 B ARG 46 0.227 SIDE CHAIN 2 A ARG 24 0.297 SIDE CHAIN 2 A ARG 40 0.189 SIDE CHAIN 2 A ARG 42 0.108 SIDE CHAIN 2 A ARG 45 0.183 SIDE CHAIN 2 B ARG 24 0.298 SIDE CHAIN 2 B ARG 40 0.190 SIDE CHAIN 2 B ARG 42 0.104 SIDE CHAIN 2 B ARG 45 0.184 SIDE CHAIN 3 A ARG 24 0.316 SIDE CHAIN 3 A ARG 40 0.159 SIDE CHAIN 3 A ARG 42 0.083 SIDE CHAIN 3 A ARG 45 0.235 SIDE CHAIN 3 A ARG 46 0.078 SIDE CHAIN 3 B ARG 24 0.315 SIDE CHAIN 3 B ARG 40 0.160 SIDE CHAIN 3 B ARG 42 0.090 SIDE CHAIN 3 B ARG 45 0.239 SIDE CHAIN 3 B ARG 46 0.078 SIDE CHAIN 4 A ARG 24 0.303 SIDE CHAIN 4 A ARG 40 0.195 SIDE CHAIN 4 A ARG 42 0.298 SIDE CHAIN 4 A ARG 45 0.164 SIDE CHAIN 4 A ARG 46 0.317 SIDE CHAIN 4 B ARG 24 0.304 SIDE CHAIN 4 B ARG 40 0.197 SIDE CHAIN 4 B ARG 42 0.294 SIDE CHAIN 4 B ARG 45 0.164 SIDE CHAIN 4 B ARG 46 0.317 SIDE CHAIN 5 A ARG 24 0.316 SIDE CHAIN 5 A ARG 40 0.294 SIDE CHAIN 5 A ARG 42 0.267 SIDE CHAIN 5 A ARG 45 0.290 SIDE CHAIN 5 A ARG 46 0.223 SIDE CHAIN 5 B ARG 24 0.315 SIDE CHAIN 5 B ARG 40 0.296 SIDE CHAIN 5 B ARG 42 0.265 SIDE CHAIN 5 B ARG 45 0.292 SIDE CHAIN 5 B ARG 46 0.220 SIDE CHAIN 6 A ARG 24 0.142 SIDE CHAIN 6 A ARG 40 0.159 SIDE CHAIN 6 A ARG 42 0.318 SIDE CHAIN 6 A ARG 45 0.237 SIDE CHAIN 6 A ARG 46 0.202 SIDE CHAIN 6 B ARG 24 0.132 SIDE CHAIN 6 B ARG 40 0.156 SIDE CHAIN 6 B ARG 42 0.318 SIDE CHAIN 6 B ARG 45 0.236 SIDE CHAIN 6 B ARG 46 0.202 SIDE CHAIN 7 A ARG 24 0.234 SIDE CHAIN 7 A ARG 40 0.105 SIDE CHAIN 7 A ARG 42 0.295 SIDE CHAIN 7 A ARG 45 0.263 SIDE CHAIN 7 A ARG 46 0.309 SIDE CHAIN 7 B ARG 24 0.230 SIDE CHAIN 7 B ARG 40 0.097 SIDE CHAIN 7 B ARG 42 0.298 SIDE CHAIN 7 B ARG 45 0.264 SIDE CHAIN 7 B ARG 46 0.308 SIDE CHAIN 8 A ARG 24 0.309 SIDE CHAIN 8 A ARG 42 0.117 SIDE CHAIN 8 A ARG 45 0.298 SIDE CHAIN 8 A ARG 46 0.314 SIDE CHAIN 8 B ARG 24 0.309 SIDE CHAIN 8 B ARG 42 0.121 SIDE CHAIN 8 B ARG 45 0.298 SIDE CHAIN 8 B ARG 46 0.314 SIDE CHAIN 9 A ARG 24 0.310 SIDE CHAIN 9 A ARG 40 0.165 SIDE CHAIN 9 A ARG 42 0.178 SIDE CHAIN 9 A ARG 45 0.312 SIDE CHAIN 9 A ARG 46 0.298 SIDE CHAIN 9 B ARG 24 0.312 SIDE CHAIN 9 B ARG 40 0.168 SIDE CHAIN 9 B ARG 42 0.179 SIDE CHAIN 9 B ARG 45 0.312 SIDE CHAIN 9 B ARG 46 0.299 SIDE CHAIN 10 A ARG 24 0.175 SIDE CHAIN 10 A ARG 40 0.298 SIDE CHAIN 10 A ARG 42 0.297 SIDE CHAIN 10 A ARG 45 0.179 SIDE CHAIN 10 A ARG 46 0.123 SIDE CHAIN 10 B ARG 24 0.175 SIDE CHAIN 10 B ARG 40 0.300 SIDE CHAIN 10 B ARG 42 0.299 SIDE CHAIN 10 B ARG 45 0.181 SIDE CHAIN 10 B ARG 46 0.120 SIDE CHAIN 11 A ARG 24 0.279 SIDE CHAIN 11 A ARG 40 0.215 SIDE CHAIN 11 A ARG 42 0.184 SIDE CHAIN 11 A ARG 45 0.135 SIDE CHAIN 11 A ARG 46 0.264 SIDE CHAIN 11 B ARG 24 0.276 SIDE CHAIN 11 B ARG 40 0.211 SIDE CHAIN 11 B ARG 42 0.184 SIDE CHAIN 11 B ARG 45 0.134 SIDE CHAIN 11 B ARG 46 0.267 SIDE CHAIN 12 A ARG 24 0.265 SIDE CHAIN 12 A ARG 40 0.317 SIDE CHAIN 12 A ARG 42 0.292 SIDE CHAIN 12 A ARG 45 0.105 SIDE CHAIN 12 A ARG 46 0.308 SIDE CHAIN 12 B ARG 24 0.266 SIDE CHAIN 12 B ARG 40 0.317 SIDE CHAIN 12 B ARG 42 0.291 SIDE CHAIN 12 B ARG 45 0.101 SIDE CHAIN 12 B ARG 46 0.308 SIDE CHAIN 13 A ARG 24 0.179 SIDE CHAIN 13 A ARG 40 0.146 SIDE CHAIN 13 A ARG 42 0.152 SIDE CHAIN 13 A ARG 46 0.122 SIDE CHAIN 13 B ARG 24 0.178 SIDE CHAIN 13 B ARG 40 0.144 SIDE CHAIN 13 B ARG 42 0.151 SIDE CHAIN 13 B ARG 46 0.100 SIDE CHAIN 14 A ARG 24 0.212 SIDE CHAIN 14 A ARG 40 0.277 SIDE CHAIN 14 A ARG 42 0.133 SIDE CHAIN 14 A ARG 45 0.153 SIDE CHAIN 14 A ARG 46 0.316 SIDE CHAIN 14 B ARG 24 0.211 SIDE CHAIN 14 B ARG 40 0.281 SIDE CHAIN 14 B ARG 42 0.130 SIDE CHAIN 14 B ARG 45 0.151 SIDE CHAIN 14 B ARG 46 0.317 SIDE CHAIN 15 A ARG 24 0.305 SIDE CHAIN 15 A ARG 42 0.183 SIDE CHAIN 15 A ARG 45 0.292 SIDE CHAIN 15 A ARG 46 0.113 SIDE CHAIN 15 B ARG 24 0.305 SIDE CHAIN 15 B ARG 42 0.218 SIDE CHAIN 15 B ARG 45 0.292 SIDE CHAIN 15 B ARG 46 0.108 SIDE CHAIN 16 A ARG 24 0.078 SIDE CHAIN 16 A ARG 42 0.185 SIDE CHAIN 16 A ARG 45 0.294 SIDE CHAIN 16 A ARG 46 0.312 SIDE CHAIN 16 B ARG 24 0.079 SIDE CHAIN 16 B ARG 42 0.189 SIDE CHAIN 16 B ARG 45 0.294 SIDE CHAIN 16 B ARG 46 0.311 SIDE CHAIN 17 A ARG 24 0.254 SIDE CHAIN 17 A ARG 40 0.157 SIDE CHAIN 17 A ARG 42 0.127 SIDE CHAIN 17 A ARG 45 0.267 SIDE CHAIN 17 B ARG 24 0.258 SIDE CHAIN 17 B ARG 40 0.150 SIDE CHAIN 17 B ARG 42 0.126 SIDE CHAIN 17 B ARG 45 0.268 SIDE CHAIN 18 A ARG 24 0.164 SIDE CHAIN 18 A ARG 40 0.318 SIDE CHAIN 18 A ARG 42 0.244 SIDE CHAIN 18 A ARG 45 0.317 SIDE CHAIN 18 A ARG 46 0.141 SIDE CHAIN 18 B ARG 24 0.172 SIDE CHAIN 18 B ARG 40 0.318 SIDE CHAIN 18 B ARG 42 0.247 SIDE CHAIN 18 B ARG 45 0.317 SIDE CHAIN 18 B ARG 46 0.144 SIDE CHAIN 19 A ARG 24 0.314 SIDE CHAIN 19 A ARG 40 0.156 SIDE CHAIN 19 A ARG 42 0.223 SIDE CHAIN 19 A ARG 45 0.298 SIDE CHAIN 19 A ARG 46 0.317 SIDE CHAIN 19 B ARG 24 0.313 SIDE CHAIN 19 B ARG 40 0.156 SIDE CHAIN 19 B ARG 42 0.223 SIDE CHAIN 19 B ARG 45 0.298 SIDE CHAIN 19 B ARG 46 0.317 SIDE CHAIN 20 A ARG 24 0.183 SIDE CHAIN 20 A ARG 40 0.205 SIDE CHAIN 20 A ARG 42 0.308 SIDE CHAIN 20 A ARG 45 0.317 SIDE CHAIN 20 A ARG 46 0.316 SIDE CHAIN 20 B ARG 24 0.183 SIDE CHAIN 20 B ARG 40 0.209 SIDE CHAIN 20 B ARG 42 0.307 SIDE CHAIN 20 B ARG 45 0.318 SIDE CHAIN 20 B ARG 46 0.316 SIDE CHAIN 21 A ARG 40 0.305 SIDE CHAIN 21 A ARG 42 0.278 SIDE CHAIN 21 A ARG 45 0.268 SIDE CHAIN 21 A ARG 46 0.135 SIDE CHAIN 21 B ARG 40 0.305 SIDE CHAIN 21 B ARG 42 0.280 SIDE CHAIN 21 B ARG 45 0.248 SIDE CHAIN 21 B ARG 46 0.136 SIDE CHAIN 22 A ARG 24 0.291 SIDE CHAIN 22 A ARG 40 0.316 SIDE CHAIN 22 A ARG 42 0.124 SIDE CHAIN 22 A ARG 45 0.258 SIDE CHAIN 22 A ARG 46 0.119 SIDE CHAIN 22 B ARG 24 0.289 SIDE CHAIN 22 B ARG 40 0.316 SIDE CHAIN 22 B ARG 42 0.124 SIDE CHAIN 22 B ARG 45 0.262 SIDE CHAIN 22 B ARG 46 0.120 SIDE CHAIN 23 A ARG 24 0.233 SIDE CHAIN 23 A ARG 40 0.219 SIDE CHAIN 23 A ARG 42 0.192 SIDE CHAIN 23 A ARG 45 0.285 SIDE CHAIN 23 A ARG 46 0.266 SIDE CHAIN 23 B ARG 24 0.233 SIDE CHAIN 23 B ARG 40 0.219 SIDE CHAIN 23 B ARG 42 0.192 SIDE CHAIN 23 B ARG 45 0.286 SIDE CHAIN 23 B ARG 46 0.262 SIDE CHAIN 24 A ARG 40 0.265 SIDE CHAIN 24 A ARG 42 0.315 SIDE CHAIN 24 A ARG 45 0.274 SIDE CHAIN 24 A ARG 46 0.237 SIDE CHAIN 24 B ARG 40 0.262 SIDE CHAIN 24 B ARG 42 0.314 SIDE CHAIN 24 B ARG 45 0.272 SIDE CHAIN 24 B ARG 46 0.238 SIDE CHAIN 1 A GLN 6 -143.69 48.65 1 A THR 12 -59.06 -70.70 1 A GLU 21 -90.86 -64.32 1 A GLN 25 -159.20 20.58 1 A GLN 26 0.59 89.42 1 A ARG 45 -32.93 -36.84 1 B GLN 6 -143.28 49.73 1 B THR 12 -59.04 -70.63 1 B GLU 21 -90.84 -64.80 1 B GLN 25 -158.74 19.68 1 B GLN 26 1.72 89.30 1 B ARG 45 -32.81 -36.60 2 A LEU 11 -58.66 -73.97 2 A VAL 31 -27.98 -54.05 2 A ALA 44 -124.00 -73.40 2 A ARG 45 -15.80 84.23 2 B LEU 11 -58.69 -73.63 2 B VAL 31 -27.91 -54.24 2 B ALA 44 -123.92 -73.44 2 B ARG 45 -15.81 84.33 3 A MET 2 -110.84 54.16 3 A GLU 13 -53.62 -78.44 3 A GLN 26 37.82 70.24 3 A VAL 31 -22.73 -66.61 3 A ALA 44 -51.41 -70.87 3 A ARG 45 -22.14 133.89 3 B MET 2 -110.40 54.39 3 B GLU 13 -52.48 -78.38 3 B GLN 26 37.73 70.08 3 B VAL 31 -22.99 -66.78 3 B ALA 44 -51.40 -70.87 3 B ARG 45 -22.24 134.17 4 A GLN 26 36.47 72.67 4 A ASP 29 -160.62 119.65 4 A ALA 44 -56.14 -70.48 4 A ARG 45 -28.02 -92.09 4 B GLN 26 36.60 72.89 4 B ASP 29 -160.84 119.54 4 B ARG 45 -30.54 -91.74 5 A MET 2 68.97 -56.11 5 A HIS 4 -143.62 -89.97 5 A THR 12 -55.19 -73.47 5 A GLU 21 -94.03 -61.25 5 A GLN 25 -165.10 20.68 5 A GLN 26 -3.35 91.08 5 A LEU 30 -90.62 -70.41 5 A ARG 45 -20.83 -89.24 5 B MET 2 68.82 -56.23 5 B HIS 4 -143.36 -89.78 5 B THR 12 -53.71 -73.53 5 B GLU 21 -94.02 -62.23 5 B GLN 25 -165.29 20.84 5 B GLN 26 -3.71 91.19 5 B LEU 30 -90.66 -70.11 5 B ARG 45 -20.62 -89.11 6 A GLN 6 -148.69 43.44 6 A ARG 24 -83.86 38.17 6 A GLN 25 177.29 -28.75 6 A GLN 26 40.21 86.85 6 A ALA 44 -36.85 -73.32 6 A ARG 45 4.57 103.91 6 B GLN 6 -149.09 43.58 6 B ARG 24 -83.91 37.43 6 B GLN 25 178.02 -28.68 6 B GLN 26 40.37 86.51 6 B ALA 44 -37.08 -73.75 6 B ARG 45 5.02 103.59 7 A MET 2 -174.71 -66.06 7 A GLN 25 -168.54 44.15 7 A GLN 26 -14.17 94.69 7 A ASP 29 -160.05 116.69 7 A VAL 31 -25.37 -62.95 7 A ALA 44 -47.93 -71.72 7 A ARG 45 -34.37 85.71 7 B MET 2 -172.90 -65.18 7 B GLN 25 -168.38 44.00 7 B GLN 26 -14.19 94.78 7 B ASP 29 -160.35 116.49 7 B VAL 31 -25.16 -63.08 7 B ALA 44 -47.80 -71.76 7 B ARG 45 -34.44 85.81 8 A MET 2 -148.16 -13.12 8 A HIS 4 -161.29 82.97 8 A ILE 5 -119.87 52.27 8 A GLN 6 -168.40 36.63 8 A PRO 9 -73.96 -169.12 8 A GLN 26 42.91 74.73 8 A ARG 45 -40.83 166.24 8 B MET 2 -148.89 -14.99 8 B HIS 4 -161.08 82.72 8 B ILE 5 -119.59 51.80 8 B GLN 6 -168.21 36.77 8 B PRO 9 -73.92 -169.03 8 B GLN 26 42.99 74.68 8 B ALA 44 -60.97 -70.15 8 B ARG 45 -40.86 166.53 9 A MET 2 -148.08 -38.58 9 A GLN 6 -128.54 -155.98 9 A ILE 7 -41.44 150.21 9 A THR 12 -54.43 -78.00 9 A LEU 15 -69.48 -70.87 9 A VAL 31 -21.49 -56.91 9 A ALA 44 -42.73 -70.93 9 A ARG 45 -34.21 145.78 9 B MET 2 -148.04 -38.37 9 B GLN 6 -128.53 -155.97 9 B ILE 7 -41.30 150.06 9 B THR 12 -54.63 -77.75 9 B LEU 15 -69.69 -70.91 9 B VAL 31 -21.51 -57.08 9 B ALA 44 -42.71 -70.78 9 B ARG 45 -34.32 146.18 10 A MET 2 -142.62 -88.75 10 A GLN 25 -159.90 37.75 10 A GLN 26 -15.92 86.60 10 A VAL 31 -27.43 -62.10 10 A ARG 45 -17.15 118.89 10 B MET 2 -142.49 -89.42 10 B GLN 25 -160.12 37.75 10 B GLN 26 -15.99 86.66 10 B VAL 31 -27.63 -62.24 10 B ARG 45 -16.86 118.88 11 A MET 2 -46.76 173.98 11 A HIS 4 -165.04 101.72 11 A THR 12 -52.98 -73.18 11 A GLN 25 -165.58 23.79 11 A GLN 26 2.82 78.62 11 A LEU 30 -29.64 -68.79 11 A ALA 44 -46.31 -81.02 11 A ARG 45 8.18 -121.58 11 B MET 2 -46.59 173.77 11 B HIS 4 -164.76 101.91 11 B THR 12 -54.09 -73.60 11 B GLN 25 -165.48 24.00 11 B GLN 26 2.69 78.65 11 B LEU 30 -29.65 -68.42 11 B ALA 44 -46.31 -80.90 11 B ARG 45 8.05 -121.34 12 A PRO 9 -73.79 -168.71 12 A THR 12 -39.82 -72.03 12 A LEU 14 -60.62 -77.98 12 A ALA 34 -39.69 -30.56 12 A ALA 44 -73.87 -71.83 12 A ARG 45 -23.11 -114.55 12 B PRO 9 -73.78 -168.86 12 B THR 12 -39.83 -72.24 12 B LEU 14 -60.21 -78.42 12 B ALA 34 -39.72 -30.98 12 B ALA 44 -74.12 -71.92 12 B ARG 45 -22.81 -114.43 13 A GLN 6 -158.71 55.86 13 A GLN 26 43.14 74.31 13 A ALA 44 -127.04 -72.31 13 A ARG 45 -26.16 120.68 13 B MET 2 -144.50 10.20 13 B GLN 6 -158.45 55.86 13 B GLN 26 43.13 74.23 13 B ALA 44 -126.56 -72.07 13 B ARG 45 -26.25 121.02 14 A MET 2 46.78 97.93 14 A HIS 4 -150.30 28.62 14 A GLN 6 -109.88 -155.82 14 A ILE 7 -106.63 76.10 14 A GLN 25 -178.53 27.72 14 A GLN 26 -12.85 87.32 14 A LEU 30 -77.17 -70.05 14 A ALA 44 -38.38 -73.00 14 A ARG 45 -33.70 128.59 14 B MET 2 46.68 97.91 14 B HIS 4 -150.71 29.04 14 B GLN 6 -109.99 -155.85 14 B ILE 7 -106.66 76.17 14 B GLN 25 -178.28 27.85 14 B GLN 26 -12.96 87.43 14 B LEU 30 -77.12 -70.24 14 B ALA 44 -38.42 -73.13 14 B ARG 45 -33.99 128.65 15 A MET 2 -99.48 36.70 15 A THR 12 -39.78 -80.56 15 A GLN 26 42.59 78.82 15 A ARG 45 -16.73 129.25 15 B MET 2 -99.44 37.58 15 B HIS 4 -129.96 -168.52 15 B THR 12 -39.86 -80.55 15 B GLN 26 42.63 78.96 15 B ARG 45 -16.36 128.81 16 A HIS 4 -163.42 -86.65 16 A GLN 6 -175.77 -161.51 16 A THR 12 -56.47 -77.76 16 A GLN 26 41.84 82.26 16 A VAL 31 -26.63 -61.07 16 A TYR 37 -57.46 -74.42 16 A ALA 44 -92.14 -77.74 16 A ARG 45 -7.23 82.35 16 B HIS 4 -163.36 -86.51 16 B GLN 6 -175.93 -161.28 16 B THR 12 -56.01 -78.16 16 B GLN 26 41.97 82.40 16 B VAL 31 -26.03 -60.66 16 B TYR 37 -56.63 -74.15 16 B ALA 44 -92.93 -77.49 16 B ARG 45 -7.48 82.52 17 A HIS 4 -149.99 -39.83 17 A ILE 5 -122.03 -165.62 17 A ARG 24 -96.88 35.46 17 A GLN 25 -175.08 -34.21 17 A GLN 26 40.97 79.94 17 A TYR 37 -64.89 -70.35 17 A ARG 45 -40.04 165.18 17 B HIS 4 -150.27 -40.46 17 B ILE 5 -121.39 -165.45 17 B ARG 24 -97.14 35.36 17 B GLN 25 -175.26 -33.75 17 B GLN 26 40.90 79.90 17 B TYR 37 -64.57 -70.23 17 B ARG 45 -39.85 164.94 18 A HIS 4 -143.94 31.50 18 A ILE 7 -39.19 108.07 18 A LEU 15 -61.34 -71.82 18 A GLN 16 -38.36 -29.09 18 A GLN 26 51.06 78.05 18 A LEU 30 -79.04 -71.15 18 A VAL 31 -21.35 -61.10 18 A ALA 44 67.77 -55.09 18 A ARG 45 -33.44 83.95 18 B HIS 4 -143.87 31.48 18 B ILE 7 -39.16 108.06 18 B LEU 15 -61.41 -71.83 18 B GLN 16 -38.71 -28.74 18 B GLN 26 50.95 78.20 18 B LEU 30 -78.60 -71.18 18 B VAL 31 -21.37 -61.22 18 B ARG 42 -37.28 -39.86 18 B ALA 44 67.72 -55.16 18 B ARG 45 -33.35 83.99 19 A MET 2 -107.85 57.93 19 A HIS 4 -113.65 -145.11 19 A GLN 6 179.82 146.61 19 A ILE 7 -37.71 131.37 19 A GLN 25 -158.55 14.44 19 A GLN 26 26.24 55.90 19 A LEU 30 -29.91 -61.72 19 A TYR 37 -63.57 -76.96 19 A ALA 44 -42.02 -79.14 19 A ARG 45 14.49 94.71 19 B MET 2 -107.61 57.55 19 B HIS 4 -113.94 -145.09 19 B GLN 6 179.66 146.77 19 B ILE 7 -37.59 131.16 19 B GLN 25 -158.87 14.66 19 B GLN 26 25.71 56.19 19 B LEU 30 -29.73 -61.55 19 B TYR 37 -63.93 -76.84 19 B ALA 44 -42.06 -79.44 19 B ARG 45 15.10 94.55 20 A HIS 4 -154.93 34.30 20 A GLN 6 -116.65 -146.73 20 A ILE 7 -24.59 137.48 20 A PRO 9 -66.81 -151.86 20 A LEU 15 -45.53 -71.52 20 A ARG 24 -92.14 -66.54 20 A GLN 26 41.09 81.88 20 A VAL 31 -27.28 -61.46 20 A ALA 44 -81.29 -74.29 20 A ARG 45 -8.35 88.45 20 B HIS 4 -154.32 35.44 20 B GLN 6 -116.94 -146.62 20 B ILE 7 -24.29 137.14 20 B PRO 9 -66.93 -151.84 20 B LEU 15 -45.13 -71.84 20 B ARG 24 -92.61 -66.56 20 B GLN 26 40.81 82.03 20 B VAL 31 -26.95 -61.40 20 B ALA 44 -81.07 -74.07 20 B ARG 45 -8.52 89.06 21 A THR 12 -41.93 -74.72 21 A GLN 26 38.12 70.61 21 A TYR 37 -73.05 -70.57 21 A ALA 44 -20.50 -65.76 21 A ARG 45 -38.83 158.77 21 B THR 12 -41.41 -75.01 21 B GLN 26 38.41 70.43 21 B TYR 37 -72.93 -70.79 21 B ALA 44 -20.66 -62.35 21 B ARG 45 -41.23 166.24 22 A GLN 6 -102.69 -160.12 22 A THR 12 -47.75 -79.91 22 A LEU 15 -57.91 -72.91 22 A GLN 16 -39.66 -31.25 22 A GLN 25 -172.30 27.13 22 A GLN 26 8.03 78.82 22 A ARG 45 -35.84 155.80 22 B GLN 6 -102.52 -159.71 22 B THR 12 -47.13 -79.93 22 B LEU 15 -58.06 -72.94 22 B GLN 16 -39.59 -31.34 22 B GLN 25 -172.16 27.05 22 B GLN 26 8.18 78.79 22 B ARG 45 -36.08 155.95 23 A MET 2 -41.99 -76.71 23 A LEU 11 -77.20 -71.31 23 A GLN 25 -167.26 -37.24 23 A GLN 26 57.01 80.58 23 A ASP 29 -171.87 130.07 23 A VAL 31 -29.52 -67.31 23 A ARG 45 -26.76 125.22 23 B MET 2 -42.08 -76.56 23 B LEU 11 -77.58 -71.44 23 B GLN 25 -166.98 -37.01 23 B GLN 26 57.07 80.72 23 B ASP 29 -172.27 130.73 23 B VAL 31 -29.19 -67.02 23 B ARG 45 -27.03 125.44 24 A MET 2 -112.68 74.55 24 A GLN 25 -162.35 16.05 24 A GLN 26 17.95 77.16 24 A VAL 31 -23.35 -72.08 24 A PHE 38 -56.28 -70.05 24 A THR 39 -39.07 -29.28 24 A ARG 45 -25.89 91.26 24 B MET 2 -113.39 74.62 24 B GLN 25 -162.50 16.04 24 B GLN 26 17.48 77.18 24 B VAL 31 -23.01 -72.22 24 B THR 39 -39.09 -29.54 24 B ARG 42 -37.09 -39.99 24 B ARG 45 -26.36 91.70 Solution structure of the docking and dimerization domain of protein kinase A II-alpha (RIIalpha D/D). Alternatively called the N-terminal dimerization domain of the regulatory subunit of protein kinase A. 1 N N 1 N N A GLY 10 A GLY 10 HELX_P A GLN 25 A GLN 25 1 1 16 A ASP 29 A ASP 29 HELX_P A ARG 42 A ARG 42 1 2 14 B GLY 10 B GLY 10 HELX_P B GLN 25 B GLN 25 1 3 16 B ASP 29 B ASP 29 HELX_P B ARG 42 B ARG 42 1 4 14 TRANSFERASE Four-helix bundle, helix-loop-helix, regulatory subunit, dimerization, docking, anchoring, TRANSFERASE KAP2_MOUSE UNP 1 2 P12367 HIQIPPGLTELLQGYTVEVGQQPPDLVDFAVEYFTRLREARR 2 43 1L6E 4 46 P12367 A 1 4 46 2 43 1L6E 4 46 P12367 B 1 4 46 1 SEE REMARK 999 HIS 1 1L6E A P12367 UNP 1 1 SEE REMARK 999 MET 2 1L6E A P12367 UNP 2 1 SEE REMARK 999 GLY 3 1L6E A P12367 UNP 3 1 insertion LEU 23 1L6E A A P12367 UNP 23 1 GLY variant ARG 24 1L6E A P12367 UNP 21 24 2 SEE REMARK 999 HIS 1 1L6E B P12367 UNP 1 2 SEE REMARK 999 MET 2 1L6E B P12367 UNP 2 2 SEE REMARK 999 GLY 3 1L6E B P12367 UNP 3 2 insertion LEU 23 1L6E B B P12367 UNP 23 2 GLY variant ARG 24 1L6E B P12367 UNP 21 24