1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Bertini, I. Donaire, A. Jimenez, B. Luchinat, C. Parigi, G. Piccioli, M. Poggi, L. http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic C3 H7 N O2 89.093 y ALANINE 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 H13 N O2 131.173 y ISOLEUCINE L-peptide linking La 3 138.905 LANTHANUM (III) ION non-polymer 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 NE J.Biomol.NMR JBNME9 0800 0925-2738 21 85 98 10.1023/A:1012422402545 11727989 Paramagnetism-based versus classical constraints: an analysis of the solution structure of Ca Ln calbindin D9k. 2001 10.2210/pdb1kqv/pdb pdb_00001kqv 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 8963.168 VITAMIN D-DEPENDENT CALCIUM-BINDING PROTEIN P43M 1 man polymer 138.905 LANTHANUM (III) ION 1 syn non-polymer CABP, CALBINDIN D9K no no MSAKKSPEELKGIFEKYAAKEGDPNQLSKEELKLLLQTEFPSLLKGMSTLDELFEELDKNGDGEVSFEEFQVLVKKISQ MSAKKSPEELKGIFEKYAAKEGDPNQLSKEELKLLLQTEFPSLLKGMSTLDELFEELDKNGDGEVSFEEFQVLVKKISQ 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 cattle Bos Escherichia sample 9913 Bos taurus 562 Escherichia coli database_2 pdbx_nmr_spectrometer pdbx_struct_assembly pdbx_struct_oper_list struct_ref_seq_dif struct_site repository Initial release Version format compliance Version format compliance Data collection Database references Derived calculations 1 0 2002-01-16 1 1 2008-04-27 1 2 2011-07-13 1 3 2021-10-27 _database_2.pdbx_DOI _database_2.pdbx_database_accession _pdbx_nmr_spectrometer.model _struct_ref_seq_dif.details _struct_site.pdbx_auth_asym_id _struct_site.pdbx_auth_comp_id _struct_site.pdbx_auth_seq_id 1k31 is the Average NMR Solution Structure Of Ca Ln Calbindin D9K RCSB Y RCSB 2002-01-08 REL REL LA LANTHANUM (III) ION This strucure was determined using both standard and tailored NMR experiments in order to detect paramagnetic signals. target function 200 30 3D_15N-separated_NOESY HNHA HNHA HNCA HNCO HNHB IR-HSQC water solution 6.0 1 atm 300 K water solution 6.0 1 atm 283 K torsion angle dynamics 1 fewest violations 2.0 mM Ca Ln Cb H2O/D2O 10:1 Banci, L., Bertini, I., Cremonini, M.A., Gori Savellini, G., Luchinat, C., Wuthrich, K. and Guntert, P. structure solution PSEUDYANA 3.1 Banci, L., Bertini, I., Cremonini, M.A., Gori Savellini, G., Luchinat, C., Wuthrich, K. and Guntert, P. refinement PSEUDYANA 3.1 500 Bruker DRX 600 Bruker AVANCE 800 Bruker AVANCE 700 Bruker AVANCE LA 105 2 LA LA 105 A n 1 -3 A n 2 -2 A n 3 -1 A n 4 0 A LYS 1 n 5 LYS 1 A SER 2 n 6 SER 2 A PRO 3 n 7 PRO 3 A GLU 4 n 8 GLU 4 A GLU 5 n 9 GLU 5 A LEU 6 n 10 LEU 6 A LYS 7 n 11 LYS 7 A GLY 8 n 12 GLY 8 A ILE 9 n 13 ILE 9 A PHE 10 n 14 PHE 10 A GLU 11 n 15 GLU 11 A LYS 12 n 16 LYS 12 A TYR 13 n 17 TYR 13 A ALA 14 n 18 ALA 14 A ALA 15 n 19 ALA 15 A LYS 16 n 20 LYS 16 A GLU 17 n 21 GLU 17 A GLY 18 n 22 GLY 18 A ASP 19 n 23 ASP 19 A PRO 20 n 24 PRO 20 A ASN 21 n 25 ASN 21 A GLN 22 n 26 GLN 22 A LEU 23 n 27 LEU 23 A SER 24 n 28 SER 24 A LYS 25 n 29 LYS 25 A GLU 26 n 30 GLU 26 A GLU 27 n 31 GLU 27 A LEU 28 n 32 LEU 28 A LYS 29 n 33 LYS 29 A LEU 30 n 34 LEU 30 A LEU 31 n 35 LEU 31 A LEU 32 n 36 LEU 32 A GLN 33 n 37 GLN 33 A THR 34 n 38 THR 34 A GLU 35 n 39 GLU 35 A PHE 36 n 40 PHE 36 A PRO 37 n 41 PRO 37 A SER 38 n 42 SER 38 A LEU 39 n 43 LEU 39 A LEU 40 n 44 LEU 40 A LYS 41 n 45 LYS 41 A GLY 42 n 46 GLY 42 A MET 43 n 47 MET 43 A SER 44 n 48 SER 44 A THR 45 n 49 THR 45 A LEU 46 n 50 LEU 46 A ASP 47 n 51 ASP 47 A GLU 48 n 52 GLU 48 A LEU 49 n 53 LEU 49 A PHE 50 n 54 PHE 50 A GLU 51 n 55 GLU 51 A GLU 52 n 56 GLU 52 A LEU 53 n 57 LEU 53 A ASP 54 n 58 ASP 54 A LYS 55 n 59 LYS 55 A ASN 56 n 60 ASN 56 A GLY 57 n 61 GLY 57 A ASP 58 n 62 ASP 58 A GLY 59 n 63 GLY 59 A GLU 60 n 64 GLU 60 A VAL 61 n 65 VAL 61 A SER 62 n 66 SER 62 A PHE 63 n 67 PHE 63 A GLU 64 n 68 GLU 64 A GLU 65 n 69 GLU 65 A PHE 66 n 70 PHE 66 A GLN 67 n 71 GLN 67 A VAL 68 n 72 VAL 68 A LEU 69 n 73 LEU 69 A VAL 70 n 74 VAL 70 A LYS 71 n 75 LYS 71 A LYS 72 n 76 LYS 72 A ILE 73 n 77 ILE 73 A SER 74 n 78 SER 74 A GLN 75 n 79 GLN 75 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 identity operation 0.0000000000 0.0000000000 0.0000000000 1 A MET -3 A MET 1 1 Y 1 A SER -2 A SER 2 1 Y 1 A ALA -1 A ALA 3 1 Y 1 A LYS 0 A LYS 4 1 Y 2 A MET -3 A MET 1 1 Y 2 A SER -2 A SER 2 1 Y 2 A ALA -1 A ALA 3 1 Y 2 A LYS 0 A LYS 4 1 Y 3 A MET -3 A MET 1 1 Y 3 A SER -2 A SER 2 1 Y 3 A ALA -1 A ALA 3 1 Y 3 A LYS 0 A LYS 4 1 Y 4 A MET -3 A MET 1 1 Y 4 A SER -2 A SER 2 1 Y 4 A ALA -1 A ALA 3 1 Y 4 A LYS 0 A LYS 4 1 Y 5 A MET -3 A MET 1 1 Y 5 A SER -2 A SER 2 1 Y 5 A ALA -1 A ALA 3 1 Y 5 A LYS 0 A LYS 4 1 Y 6 A MET -3 A MET 1 1 Y 6 A SER -2 A SER 2 1 Y 6 A ALA -1 A ALA 3 1 Y 6 A LYS 0 A LYS 4 1 Y 7 A MET -3 A MET 1 1 Y 7 A SER -2 A SER 2 1 Y 7 A ALA -1 A ALA 3 1 Y 7 A LYS 0 A LYS 4 1 Y 8 A MET -3 A MET 1 1 Y 8 A SER -2 A SER 2 1 Y 8 A ALA -1 A ALA 3 1 Y 8 A LYS 0 A LYS 4 1 Y 9 A MET -3 A MET 1 1 Y 9 A SER -2 A SER 2 1 Y 9 A ALA -1 A ALA 3 1 Y 9 A LYS 0 A LYS 4 1 Y 10 A MET -3 A MET 1 1 Y 10 A SER -2 A SER 2 1 Y 10 A ALA -1 A ALA 3 1 Y 10 A LYS 0 A LYS 4 1 Y 11 A MET -3 A MET 1 1 Y 11 A SER -2 A SER 2 1 Y 11 A ALA -1 A ALA 3 1 Y 11 A LYS 0 A LYS 4 1 Y 12 A MET -3 A MET 1 1 Y 12 A SER -2 A SER 2 1 Y 12 A ALA -1 A ALA 3 1 Y 12 A LYS 0 A LYS 4 1 Y 13 A MET -3 A MET 1 1 Y 13 A SER -2 A SER 2 1 Y 13 A ALA -1 A ALA 3 1 Y 13 A LYS 0 A LYS 4 1 Y 14 A MET -3 A MET 1 1 Y 14 A SER -2 A SER 2 1 Y 14 A ALA -1 A ALA 3 1 Y 14 A LYS 0 A LYS 4 1 Y 15 A MET -3 A MET 1 1 Y 15 A SER -2 A SER 2 1 Y 15 A ALA -1 A ALA 3 1 Y 15 A LYS 0 A LYS 4 1 Y 16 A MET -3 A MET 1 1 Y 16 A SER -2 A SER 2 1 Y 16 A ALA -1 A ALA 3 1 Y 16 A LYS 0 A LYS 4 1 Y 17 A MET -3 A MET 1 1 Y 17 A SER -2 A SER 2 1 Y 17 A ALA -1 A ALA 3 1 Y 17 A LYS 0 A LYS 4 1 Y 18 A MET -3 A MET 1 1 Y 18 A SER -2 A SER 2 1 Y 18 A ALA -1 A ALA 3 1 Y 18 A LYS 0 A LYS 4 1 Y 19 A MET -3 A MET 1 1 Y 19 A SER -2 A SER 2 1 Y 19 A ALA -1 A ALA 3 1 Y 19 A LYS 0 A LYS 4 1 Y 20 A MET -3 A MET 1 1 Y 20 A SER -2 A SER 2 1 Y 20 A ALA -1 A ALA 3 1 Y 20 A LYS 0 A LYS 4 1 Y 21 A MET -3 A MET 1 1 Y 21 A SER -2 A SER 2 1 Y 21 A ALA -1 A ALA 3 1 Y 21 A LYS 0 A LYS 4 1 Y 22 A MET -3 A MET 1 1 Y 22 A SER -2 A SER 2 1 Y 22 A ALA -1 A ALA 3 1 Y 22 A LYS 0 A LYS 4 1 Y 23 A MET -3 A MET 1 1 Y 23 A SER -2 A SER 2 1 Y 23 A ALA -1 A ALA 3 1 Y 23 A LYS 0 A LYS 4 1 Y 24 A MET -3 A MET 1 1 Y 24 A SER -2 A SER 2 1 Y 24 A ALA -1 A ALA 3 1 Y 24 A LYS 0 A LYS 4 1 Y 25 A MET -3 A MET 1 1 Y 25 A SER -2 A SER 2 1 Y 25 A ALA -1 A ALA 3 1 Y 25 A LYS 0 A LYS 4 1 Y 26 A MET -3 A MET 1 1 Y 26 A SER -2 A SER 2 1 Y 26 A ALA -1 A ALA 3 1 Y 26 A LYS 0 A LYS 4 1 Y 27 A MET -3 A MET 1 1 Y 27 A SER -2 A SER 2 1 Y 27 A ALA -1 A ALA 3 1 Y 27 A LYS 0 A LYS 4 1 Y 28 A MET -3 A MET 1 1 Y 28 A SER -2 A SER 2 1 Y 28 A ALA -1 A ALA 3 1 Y 28 A LYS 0 A LYS 4 1 Y 29 A MET -3 A MET 1 1 Y 29 A SER -2 A SER 2 1 Y 29 A ALA -1 A ALA 3 1 Y 29 A LYS 0 A LYS 4 1 Y 30 A MET -3 A MET 1 1 Y 30 A SER -2 A SER 2 1 Y 30 A ALA -1 A ALA 3 1 Y 30 A LYS 0 A LYS 4 1 Y 1 A A O H LEU PHE 46 50 1.53 1 A A O H SER LEU 24 28 1.56 1 A A O H GLU GLU 48 52 1.59 1 A A O H LEU LEU 28 32 1.59 1 A A OD2 LA ASP LA 58 105 2.09 2 A A OD2 LA ASP LA 58 105 1.32 2 A A H O LEU VAL 23 61 1.46 2 A A O H SER LEU 24 28 1.53 2 A A O H LEU LEU 49 53 1.60 2 A A CG LA ASP LA 58 105 1.86 2 A A OD1 LA ASP LA 58 105 2.07 3 A A HD22 LA ASN LA 56 105 0.70 3 A A ND2 LA ASN LA 56 105 0.98 3 A A H O LEU VAL 23 61 1.47 3 A A O H LEU PHE 46 50 1.56 3 A A O H GLU GLU 48 52 1.57 3 A A O H SER LEU 24 28 1.57 3 A A O H LEU LEU 49 53 1.60 3 A A CG LA ASN LA 56 105 1.66 3 A A OD1 LA ASN LA 56 105 2.08 4 A A O H LEU PHE 46 50 1.54 4 A A H OE2 LYS GLU 55 65 1.55 4 A A O H SER LEU 24 28 1.59 5 A A HD22 LA ASN LA 56 105 1.49 5 A A OD1 H ASP GLY 58 59 1.55 5 A A O H SER LEU 24 28 1.56 5 A A O H LEU PHE 46 50 1.57 5 A A O H LEU LEU 49 53 1.60 5 A A ND2 LA ASN LA 56 105 1.80 5 A A OD1 LA ASN LA 56 105 1.82 5 A A CG LA ASN LA 56 105 1.92 6 A A HD22 LA ASN LA 56 105 1.10 6 A A O H LEU PHE 46 50 1.51 6 A A O H SER LEU 24 28 1.56 6 A A ND2 LA ASN LA 56 105 1.88 7 A A O H LEU PHE 46 50 1.53 7 A A O H SER LEU 24 28 1.58 7 A A O H GLU GLU 48 52 1.58 7 A A O H LEU LEU 49 53 1.59 7 A A OD1 LA ASP LA 58 105 2.19 8 A A O H GLY LYS 8 12 1.58 8 A A O H SER LEU 24 28 1.58 9 A A HD22 LA ASN LA 56 105 0.49 9 A A ND2 LA ASN LA 56 105 0.71 9 A A O H SER LEU 24 28 1.53 9 A A HD21 LA ASN LA 56 105 1.57 9 A A O H LEU LEU 49 53 1.60 9 A A CG LA ASN LA 56 105 1.65 10 A A O H SER LEU 24 28 1.56 10 A A O H GLU GLU 48 52 1.58 10 A A O H LEU LEU 49 53 1.59 10 A A H OE2 LYS GLU 55 65 1.60 11 A A H O LEU VAL 23 61 1.48 11 A A H OE2 ASN GLU 56 65 1.51 11 A A O H LEU PHE 46 50 1.51 11 A A OD2 LA ASP LA 58 105 1.52 11 A A O H GLU GLU 48 52 1.58 11 A A O H SER LEU 24 28 1.59 11 A A O H LEU LEU 49 53 1.59 11 A A CG LA ASP LA 58 105 2.01 11 A A OD1 LA ASP LA 58 105 2.12 12 A A O H LEU PHE 46 50 1.52 12 A A O H SER LEU 24 28 1.57 13 A A O H SER LEU 24 28 1.57 13 A A O H LEU LEU 49 53 1.59 14 A A O H SER LEU 24 28 1.56 14 A A O H LEU LEU 49 53 1.60 15 A A O H SER LEU 24 28 1.57 16 A A HD22 LA ASN LA 56 105 0.85 16 A A O H LEU PHE 46 50 1.56 16 A A O H SER LEU 24 28 1.57 16 A A O H GLY LYS 8 12 1.58 16 A A O H LEU LEU 28 32 1.59 16 A A O H LEU LEU 49 53 1.60 16 A A ND2 LA ASN LA 56 105 1.67 17 A A O H SER LEU 24 28 1.55 17 A A OE2 LA GLU LA 65 105 1.86 18 A A HD22 LA ASN LA 56 105 0.68 18 A A ND2 LA ASN LA 56 105 0.81 18 A A HD21 LA ASN LA 56 105 1.43 18 A A O H SER LEU 24 28 1.55 18 A A CG LA ASN LA 56 105 1.87 18 A A O LA GLU LA 60 105 2.02 19 A A HD22 LA ASN LA 56 105 1.12 19 A A O H SER LEU 24 28 1.56 19 A A O H LEU LEU 49 53 1.58 19 A A ND2 LA ASN LA 56 105 1.93 20 A A HD22 LA ASN LA 56 105 0.67 20 A A ND2 LA ASN LA 56 105 1.15 20 A A O H GLU GLU 48 52 1.54 20 A A O H SER LEU 24 28 1.58 20 A A CG LA ASN LA 56 105 1.69 20 A A OD1 LA ASN LA 56 105 1.94 21 A A O HG LYS SER 71 74 1.42 21 A A O H SER LEU 24 28 1.55 21 A A O H GLU GLU 48 52 1.57 21 A A O H LEU LEU 28 32 1.59 21 A A OD1 LA ASP LA 58 105 2.08 22 A A HD22 LA ASN LA 56 105 1.22 22 A A O H SER LEU 24 28 1.54 22 A A ND2 LA ASN LA 56 105 2.02 23 A A O H SER LEU 24 28 1.58 23 A A O H LEU LEU 49 53 1.59 24 A A HD22 LA ASN LA 56 105 0.87 24 A A ND2 LA ASN LA 56 105 1.43 24 A A O H SER LEU 24 28 1.52 24 A A O H LEU LEU 49 53 1.58 24 A A O H PHE ALA 10 14 1.60 25 A A O H SER LEU 24 28 1.56 26 A A HD22 LA ASN LA 56 105 0.57 26 A A ND2 LA ASN LA 56 105 0.95 26 A A H O LEU VAL 23 61 1.47 26 A A O H SER LEU 24 28 1.56 26 A A O H GLU GLU 48 52 1.58 26 A A O H LEU LEU 49 53 1.58 26 A A CG LA ASN LA 56 105 1.66 26 A A OD1 LA ASN LA 56 105 2.08 27 A A HD22 LA ASN LA 56 105 0.82 27 A A ND2 LA ASN LA 56 105 1.34 27 A A O H SER LEU 24 28 1.55 27 A A CG LA ASN LA 56 105 1.84 27 A A OD1 LA ASN LA 56 105 2.01 28 A A O H SER LEU 24 28 1.57 28 A A O H LEU LEU 49 53 1.59 29 A A O H SER LEU 24 28 1.59 30 A A HD22 LA ASN LA 56 105 0.89 30 A A O H LEU PHE 46 50 1.51 30 A A ND2 LA ASN LA 56 105 1.52 30 A A OD1 HD21 ASP ASN 19 21 1.54 30 A A O H SER LEU 24 28 1.55 30 A A O H LEU LEU 49 53 1.59 30 A A CG LA ASN LA 56 105 1.96 30 A A OD1 LA ASN LA 56 105 2.00 1 A SER 2 -59.96 176.32 1 A ASP 58 -134.46 -57.11 1 A VAL 61 -102.23 52.46 1 A SER 62 -43.26 165.55 2 A PHE 36 -151.46 89.77 3 A SER 2 -59.92 175.15 3 A PHE 36 -151.17 88.75 4 A PHE 36 -151.55 89.38 4 A ASP 58 -131.35 -54.55 4 A VAL 61 -101.77 51.12 4 A SER 62 -46.04 164.41 5 A SER 2 -59.90 174.77 5 A ASP 58 -142.37 -68.82 5 A SER 62 -46.35 172.06 6 A PHE 36 -151.57 89.27 6 A LYS 55 -168.46 -42.40 6 A ASP 58 -137.40 -52.58 6 A VAL 61 -97.07 52.40 6 A SER 62 -47.08 165.88 7 A SER 2 -59.86 173.97 7 A PHE 36 -151.80 89.20 7 A ASP 58 -131.56 -55.82 7 A VAL 61 -103.83 58.79 8 A ASP 58 -134.50 -58.63 8 A VAL 61 -97.38 57.78 8 A SER 62 -48.79 166.34 9 A SER 2 -59.98 175.18 9 A PHE 36 -151.47 88.98 9 A ASP 58 -129.60 -56.42 9 A VAL 61 -102.98 62.58 9 A SER 62 -49.25 179.81 10 A PHE 36 -151.27 88.78 10 A ASP 58 -133.36 -48.53 10 A VAL 61 -100.47 59.21 10 A SER 62 -48.77 173.02 11 A PHE 36 -151.45 89.02 11 A THR 45 -59.94 170.08 11 A ASP 54 -68.17 74.02 12 A PHE 36 -151.65 89.09 12 A ASP 58 -134.91 -51.73 13 A LYS 41 -94.56 57.60 13 A LYS 55 -178.36 -37.36 13 A ASP 58 -135.68 -51.52 13 A VAL 61 -98.51 53.32 13 A SER 62 -46.19 164.86 14 A PHE 36 -151.55 89.13 14 A THR 45 -59.90 170.08 14 A ASP 54 -69.84 68.83 14 A ASP 58 -124.56 -52.62 14 A VAL 61 -100.86 48.37 14 A SER 62 -43.22 163.71 15 A PHE 36 -151.69 88.70 15 A ASP 58 -136.77 -51.37 15 A VAL 61 -97.95 57.50 16 A LYS 55 -165.17 -42.97 16 A ASP 58 -133.63 -52.71 16 A VAL 61 -97.53 52.11 16 A SER 62 -46.53 164.56 17 A LYS 55 -164.42 -43.51 17 A ASP 58 -127.86 -52.43 17 A SER 62 -48.29 176.20 18 A ASP 54 -69.70 72.54 18 A ASP 58 -125.29 -55.59 18 A SER 62 65.35 157.99 19 A PHE 36 -151.00 88.64 19 A LYS 55 -175.17 -39.53 19 A ASP 58 -133.14 -54.09 19 A VAL 61 -99.32 59.34 20 A PHE 36 -150.81 88.70 20 A LYS 41 -90.52 53.11 20 A THR 45 -59.48 170.63 20 A ASP 58 -138.06 -48.86 20 A VAL 61 -97.23 57.00 20 A SER 62 -49.19 166.65 21 A PHE 36 -151.46 89.92 21 A ASP 54 -66.06 85.51 21 A ASP 58 -129.58 -56.23 21 A VAL 61 -105.85 61.05 21 A SER 62 -50.13 179.76 22 A PHE 36 -151.47 89.59 22 A LYS 55 -169.95 -41.78 22 A ASP 58 -134.19 -52.22 22 A VAL 61 -94.95 59.19 22 A SER 62 -44.94 169.33 23 A PHE 36 -151.76 89.09 23 A ASP 58 -132.68 -84.68 23 A VAL 61 -92.29 50.80 23 A SER 62 -43.97 164.84 24 A PHE 36 -151.37 89.38 24 A ASP 58 -143.68 -50.08 24 A VAL 61 -112.95 52.45 24 A SER 62 -44.23 165.95 25 A PHE 36 -151.62 89.10 25 A LYS 55 -173.29 -40.64 25 A ASP 58 -132.86 -54.06 25 A VAL 61 -100.11 59.20 25 A SER 62 -46.96 172.54 26 A PHE 36 -150.94 89.13 26 A THR 45 -59.83 170.45 26 A ASP 54 -68.66 66.67 27 A PHE 36 -151.44 89.92 27 A ASP 58 -126.00 -60.14 27 A VAL 61 -100.94 60.55 27 A SER 62 -46.25 170.22 28 A PHE 36 -151.38 88.63 28 A THR 45 -59.63 170.76 28 A ASP 58 -143.06 -68.54 28 A VAL 61 -91.80 50.43 28 A SER 62 -43.24 165.09 29 A PHE 36 -151.17 89.51 29 A ASP 58 -137.37 -50.50 29 A VAL 61 -97.17 54.47 29 A SER 62 -48.58 166.16 30 A SER 2 -59.85 175.73 30 A PHE 36 -151.40 89.44 30 A ASP 58 -131.14 -52.52 30 A SER 62 -50.31 178.10 Family of NMR Solution Structures of Ca Ln Calbindin D9K 1 N N 2 N N A SER 2 A SER 6 HELX_P A ALA 15 A ALA 19 1 1 14 A SER 24 A SER 28 HELX_P A GLU 35 A GLU 39 1 2 12 A PRO 37 A PRO 41 HELX_P A GLY 42 A GLY 46 1 3 6 A THR 45 A THR 49 HELX_P A ASP 54 A ASP 58 1 4 10 A SER 62 A SER 66 HELX_P A ILE 73 A ILE 77 1 5 12 METAL BINDING PROTEIN calcium binding proteins, NMR solution structure, paramagnetism-based constraints, METAL BINDING PROTEIN S100G_BOVIN UNP 1 0 P02633 MSAKKSPEELKGIFEKYAAKEGDPNQLSKEELKLLLQTEFPSLLKGPSTLDELFEELDKNGDGEVSFEEFQVLVKKISQ 0 78 1KQV -3 75 P02633 A 1 1 79 1 PRO engineered mutation MET 43 1KQV A P02633 UNP 46 47 BINDING SITE FOR RESIDUE LA A 105 A LA 105 Software 5 A ASP 54 A ASP 58 5 1_555 A ASN 56 A ASN 60 5 1_555 A ASP 58 A ASP 62 5 1_555 A GLU 60 A GLU 64 5 1_555 A GLU 65 A GLU 69 5 1_555