1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Rozek, A. Sparrow, J.T. Weisgraber, K.H. Cushley, R.J. http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic 1 90.00 90.00 90.00 1.000 1.000 1.000 C3 H7 N O2 89.093 y ALANINE L-peptide linking C6 H15 N4 O2 1 175.209 y ARGININE 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 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 C11 H12 N2 O2 204.225 y TRYPTOPHAN L-peptide linking C5 H11 N O2 117.146 y VALINE L-peptide linking US Biochemistry BICHAW 0033 0006-2960 38 14475 14484 10.1021/bi982966h 10545169 Conformation of human apolipoprotein C-I in a lipid-mimetic environment determined by CD and NMR spectroscopy. 1999 1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 -1.00000 0.00000 0.00000 6642.585 APOC-I 1 syn polymer no no TPDVSSALDKLKEFGNTLEDKARELISRIKQSELSAKMREWFSETFQKVKEKLKIDS TPDVSSALDKLKEFGNTLEDKARELISRIKQSELSAKMREWFSETFQKVKEKLKIDS 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 entity entity_src_gen pdbx_database_status pdbx_entity_src_syn pdbx_nmr_exptl pdbx_nmr_exptl_sample pdbx_nmr_refine pdbx_nmr_sample_details pdbx_nmr_software pdbx_nmr_spectrometer pdbx_struct_assembly pdbx_struct_assembly_prop pdbx_struct_oper_list repository Initial release Version format compliance Version format compliance Data collection Derived calculations Experimental preparation Other Refinement description Source and taxonomy Structure summary 1 0 1998-08-12 1 1 2008-03-04 1 2 2011-07-13 1 3 2018-03-14 _entity.src_method _pdbx_database_status.process_site _pdbx_nmr_refine.details _pdbx_nmr_spectrometer.field_strength Y BNL 1998-05-12 REL REL 9606 human Homo sapiens sample USING WATERGATE FOR WATER SUPPRESSION, 2D-TOCSY USING MLEV-17 FOR MIXING, 3D-TOCSY USING DIPSY-2RC FOR MIXING. 15N-FILTERED NOESY AND TOCSY INCLUDE DIFFERENCE (SHOWING ONLY 15N LABELED RESIDUES) AND SUM SPECTRA (SHOWING ONLY UNLABELED RESIDUES). SELECTED STRUCTURES HAVE NO HELIX-HELIX CONTACTS <5 ANGSTROMS 50 18 2D-NOESY 2D-TOCSY DQF-COSY 2D-15N-FILTERED NOESY 2D-15N-FILTERED TOCSY 2D 1H-15N HSQC 3D-NOESY-HSQC 3D-TOCSY-HSQC 2D-NOESY 5.8 mM natural abundance 5 mM [U-15N] 232 mM natural abundance 200 mM natural abundance 4.8 323 K THE STRUCTURE OF APOC-I(1-38) IN THE PRESENCE OF SODIUM DODECYL SULFATE WAS REFINED USING 685 NOE-BASED DISTANCE RESTRAINTS. NO DIHEDRAL RESTRAINTS AND NO H-BOND RESTRAINTS WERE USED. THIS ENTRY CONTAINS 18 ACCEPTED OUT OF 50 CALCULATED STRUCTURES. STRUCTURE CALCULATIONS WERE PERFORMED WITH THE PROGRAMS DGII AND DISCOVER INCLUDING DISTANCE GEOMETRY CALCULATIONS, SIMULATED ANNEALING AND ENERGY MINIMIZATION WITH A CONJUGATED GRADIENT. THE CVFF FORCEFIELD WAS USED. ALL FORMAL CHARGES WERE SWITCHED OFF. THE DIELECTRIC CONSTANT WAS SET TO 1. THE LENNARD-JONES POTENTIAL WAS USED FOR NON-BOND INTERACTIONS (CUTOFF 12A). FOR DETAILS ON STRUCTURE CALCULATION, RMSDS AND FINAL ENERGIES PLEASE SEE REFERENCE CITED UNDER "JRNL". DISTANCE GEOMETRY AND SIMULATED ANNEALING 15 5.8 mM native apoC-I, 90%H2O/10%D2O, 232 mM SDS-D25 native apoC-I was isolated from blood plasma sample_1 90% H2O/10% D2O solution 5 mM selectively 15N-labeled synthetic apoC-I, 90%H2O/10%D2O, 200 mM SDS-D25 sample_2 90% H2O/10% D2O solution MOLECULAR SIMULATIONS INC, SAN DIEGO refinement DGII, DISCOVER DISCOVER MOLECULAR SIMULATIONS INC, SAN DIEGO structure solution DGII AND DISCOVER DISCOVER 600 Bruker AMX 600 THR 1 n 1 THR 1 A PRO 2 n 2 PRO 2 A ASP 3 n 3 ASP 3 A VAL 4 n 4 VAL 4 A SER 5 n 5 SER 5 A SER 6 n 6 SER 6 A ALA 7 n 7 ALA 7 A LEU 8 n 8 LEU 8 A ASP 9 n 9 ASP 9 A LYS 10 n 10 LYS 10 A LEU 11 n 11 LEU 11 A LYS 12 n 12 LYS 12 A GLU 13 n 13 GLU 13 A PHE 14 n 14 PHE 14 A GLY 15 n 15 GLY 15 A ASN 16 n 16 ASN 16 A THR 17 n 17 THR 17 A LEU 18 n 18 LEU 18 A GLU 19 n 19 GLU 19 A ASP 20 n 20 ASP 20 A LYS 21 n 21 LYS 21 A ALA 22 n 22 ALA 22 A ARG 23 n 23 ARG 23 A GLU 24 n 24 GLU 24 A LEU 25 n 25 LEU 25 A ILE 26 n 26 ILE 26 A SER 27 n 27 SER 27 A ARG 28 n 28 ARG 28 A ILE 29 n 29 ILE 29 A LYS 30 n 30 LYS 30 A GLN 31 n 31 GLN 31 A SER 32 n 32 SER 32 A GLU 33 n 33 GLU 33 A LEU 34 n 34 LEU 34 A SER 35 n 35 SER 35 A ALA 36 n 36 ALA 36 A LYS 37 n 37 LYS 37 A MET 38 n 38 MET 38 A ARG 39 n 39 ARG 39 A GLU 40 n 40 GLU 40 A TRP 41 n 41 TRP 41 A PHE 42 n 42 PHE 42 A SER 43 n 43 SER 43 A GLU 44 n 44 GLU 44 A THR 45 n 45 THR 45 A PHE 46 n 46 PHE 46 A GLN 47 n 47 GLN 47 A LYS 48 n 48 LYS 48 A VAL 49 n 49 VAL 49 A LYS 50 n 50 LYS 50 A GLU 51 n 51 GLU 51 A LYS 52 n 52 LYS 52 A LEU 53 n 53 LEU 53 A LYS 54 n 54 LYS 54 A ILE 55 n 55 ILE 55 A ASP 56 n 56 ASP 56 A SER 57 n 57 SER 57 A author_defined_assembly 1 monomeric 0 0 5620 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 2 A A LEU GLU 18 19 137.49 2 A A GLU LEU 33 34 149.05 4 A A GLU LEU 33 34 141.07 5 A A GLU LEU 33 34 144.46 6 A A GLY ASN 15 16 141.49 6 A A LEU SER 34 35 148.72 6 A A SER ALA 35 36 -149.07 7 A A GLU LEU 33 34 149.44 11 A A GLU LEU 33 34 142.74 12 A A SER ALA 35 36 147.59 13 A A GLU LEU 33 34 146.65 13 A A SER ALA 35 36 -144.54 17 A A GLU LEU 33 34 143.35 17 A A SER ALA 35 36 138.60 18 A A LEU SER 34 35 -127.19 1 3.66 0.50 120.30 123.96 A A A NE CZ NH1 ARG ARG ARG 23 23 23 N 1 3.84 0.50 120.30 124.14 A A A NE CZ NH1 ARG ARG ARG 28 28 28 N 1 3.76 0.50 120.30 124.06 A A A NE CZ NH1 ARG ARG ARG 39 39 39 N 2 3.73 0.50 120.30 124.03 A A A NE CZ NH1 ARG ARG ARG 23 23 23 N 2 3.76 0.50 120.30 124.06 A A A NE CZ NH1 ARG ARG ARG 28 28 28 N 2 -11.53 1.80 110.60 99.07 A A A N CA CB MET MET MET 38 38 38 N 2 3.95 0.50 120.30 124.25 A A A NE CZ NH1 ARG ARG ARG 39 39 39 N 3 3.76 0.50 120.30 124.06 A A A NE CZ NH1 ARG ARG ARG 23 23 23 N 3 3.84 0.50 120.30 124.14 A A A NE CZ NH1 ARG ARG ARG 28 28 28 N 3 11.08 1.80 110.60 121.68 A A A N CA CB GLU GLU GLU 33 33 33 N 3 3.68 0.50 120.30 123.98 A A A NE CZ NH1 ARG ARG ARG 39 39 39 N 4 3.71 0.50 120.30 124.01 A A A NE CZ NH1 ARG ARG ARG 23 23 23 N 4 3.69 0.50 120.30 123.99 A A A NE CZ NH1 ARG ARG ARG 28 28 28 N 4 -12.16 1.80 110.60 98.44 A A A N CA CB MET MET MET 38 38 38 N 4 3.75 0.50 120.30 124.05 A A A NE CZ NH1 ARG ARG ARG 39 39 39 N 5 3.84 0.50 120.30 124.14 A A A NE CZ NH1 ARG ARG ARG 23 23 23 N 5 3.69 0.50 120.30 123.99 A A A NE CZ NH1 ARG ARG ARG 28 28 28 N 5 3.76 0.50 120.30 124.06 A A A NE CZ NH1 ARG ARG ARG 39 39 39 N 6 3.94 0.50 120.30 124.24 A A A NE CZ NH1 ARG ARG ARG 23 23 23 N 6 3.71 0.50 120.30 124.01 A A A NE CZ NH1 ARG ARG ARG 28 28 28 N 6 3.75 0.50 120.30 124.05 A A A NE CZ NH1 ARG ARG ARG 39 39 39 N 7 3.76 0.50 120.30 124.06 A A A NE CZ NH1 ARG ARG ARG 23 23 23 N 7 3.71 0.50 120.30 124.01 A A A NE CZ NH1 ARG ARG ARG 28 28 28 N 7 3.88 0.50 120.30 124.18 A A A NE CZ NH1 ARG ARG ARG 39 39 39 N 8 3.78 0.50 120.30 124.08 A A A NE CZ NH1 ARG ARG ARG 23 23 23 N 8 3.87 0.50 120.30 124.17 A A A NE CZ NH1 ARG ARG ARG 28 28 28 N 8 3.50 0.50 120.30 123.80 A A A NE CZ NH1 ARG ARG ARG 39 39 39 N 9 3.70 0.50 120.30 124.00 A A A NE CZ NH1 ARG ARG ARG 23 23 23 N 9 3.75 0.50 120.30 124.05 A A A NE CZ NH1 ARG ARG ARG 28 28 28 N 9 4.00 0.50 120.30 124.30 A A A NE CZ NH1 ARG ARG ARG 39 39 39 N 10 3.72 0.50 120.30 124.02 A A A NE CZ NH1 ARG ARG ARG 23 23 23 N 10 3.94 0.50 120.30 124.24 A A A NE CZ NH1 ARG ARG ARG 28 28 28 N 10 3.72 0.50 120.30 124.02 A A A NE CZ NH1 ARG ARG ARG 39 39 39 N 11 11.56 1.90 111.40 122.96 A A A CB CA C VAL VAL VAL 4 4 4 N 11 3.66 0.50 120.30 123.96 A A A NE CZ NH1 ARG ARG ARG 23 23 23 N 11 3.73 0.50 120.30 124.03 A A A NE CZ NH1 ARG ARG ARG 28 28 28 N 11 3.75 0.50 120.30 124.05 A A A NE CZ NH1 ARG ARG ARG 39 39 39 N 12 3.99 0.50 120.30 124.29 A A A NE CZ NH1 ARG ARG ARG 23 23 23 N 12 3.84 0.50 120.30 124.14 A A A NE CZ NH1 ARG ARG ARG 28 28 28 N 12 3.61 0.50 120.30 123.91 A A A NE CZ NH1 ARG ARG ARG 39 39 39 N 13 3.73 0.50 120.30 124.03 A A A NE CZ NH1 ARG ARG ARG 23 23 23 N 13 4.01 0.50 120.30 124.31 A A A NE CZ NH1 ARG ARG ARG 28 28 28 N 13 11.00 1.40 110.10 121.10 A A A N CA CB ALA ALA ALA 36 36 36 N 13 4.06 0.50 120.30 124.36 A A A NE CZ NH1 ARG ARG ARG 39 39 39 N 14 3.76 0.50 120.30 124.06 A A A NE CZ NH1 ARG ARG ARG 23 23 23 N 14 3.91 0.50 120.30 124.21 A A A NE CZ NH1 ARG ARG ARG 28 28 28 N 14 3.62 0.50 120.30 123.92 A A A NE CZ NH1 ARG ARG ARG 39 39 39 N 14 11.00 1.80 110.60 121.60 A A A N CA CB GLU GLU GLU 40 40 40 N 15 3.63 0.50 120.30 123.93 A A A NE CZ NH1 ARG ARG ARG 23 23 23 N 15 3.82 0.50 120.30 124.12 A A A NE CZ NH1 ARG ARG ARG 28 28 28 N 15 3.78 0.50 120.30 124.08 A A A NE CZ NH1 ARG ARG ARG 39 39 39 N 16 3.71 0.50 120.30 124.01 A A A NE CZ NH1 ARG ARG ARG 23 23 23 N 16 3.76 0.50 120.30 124.06 A A A NE CZ NH1 ARG ARG ARG 28 28 28 N 16 3.92 0.50 120.30 124.22 A A A NE CZ NH1 ARG ARG ARG 39 39 39 N 17 3.70 0.50 120.30 124.00 A A A NE CZ NH1 ARG ARG ARG 23 23 23 N 17 3.77 0.50 120.30 124.07 A A A NE CZ NH1 ARG ARG ARG 28 28 28 N 17 3.84 0.50 120.30 124.14 A A A NE CZ NH1 ARG ARG ARG 39 39 39 N 18 3.74 0.50 120.30 124.04 A A A NE CZ NH1 ARG ARG ARG 23 23 23 N 18 3.82 0.50 120.30 124.12 A A A NE CZ NH1 ARG ARG ARG 28 28 28 N 18 15.59 1.90 110.20 125.79 A A A CB CA C LEU LEU LEU 34 34 34 N 18 3.95 0.50 120.30 124.25 A A A NE CZ NH1 ARG ARG ARG 39 39 39 N 1 A SER 5 -152.38 73.21 1 A ALA 7 -121.58 -66.32 1 A GLU 24 169.28 -62.76 1 A ARG 28 141.66 -53.52 1 A ILE 29 -76.36 -81.65 1 A SER 32 -117.90 -97.41 1 A SER 35 -87.03 -110.03 1 A ALA 36 70.23 -68.92 1 A GLU 44 175.10 -63.73 1 A LEU 53 -103.17 -128.48 1 A LYS 54 59.10 -113.97 1 A ILE 55 -92.18 -67.91 1 A ASP 56 -140.65 -87.18 2 A VAL 4 -128.94 -121.72 2 A ALA 7 -130.80 -56.67 2 A LYS 12 70.37 -76.00 2 A LEU 18 -98.72 46.10 2 A GLU 19 -117.51 52.18 2 A ASP 20 -171.27 -55.63 2 A ARG 23 -122.33 -60.35 2 A ILE 29 -100.72 -70.44 2 A LEU 53 -100.29 -68.64 2 A ILE 55 65.33 89.18 3 A VAL 4 -100.56 -148.00 3 A SER 6 -172.90 -70.41 3 A ALA 7 76.62 -33.45 3 A ILE 29 -68.05 -82.55 3 A GLN 31 54.14 74.18 3 A SER 32 71.95 153.54 3 A GLU 33 127.44 -42.01 3 A SER 35 -79.97 -110.49 3 A ALA 36 71.18 -66.48 3 A MET 38 -68.95 0.61 3 A ARG 39 -122.57 -63.37 3 A GLU 44 171.52 -69.46 3 A PHE 46 -91.37 -64.00 3 A LYS 54 55.92 -173.17 3 A ILE 55 -113.74 -79.17 3 A ASP 56 -87.83 -80.07 4 A ASP 3 177.22 146.70 4 A VAL 4 -114.94 -129.93 4 A ALA 7 -137.92 -44.39 4 A LYS 12 68.75 -76.44 4 A ILE 29 -78.49 -93.63 4 A LYS 30 56.35 2.87 4 A GLN 31 -161.23 -8.02 4 A GLU 33 69.06 -9.07 4 A SER 35 -161.02 105.57 4 A LYS 54 91.25 96.98 5 A ASP 3 71.25 -92.84 5 A VAL 4 -131.73 -60.92 5 A ALA 7 -101.81 -61.93 5 A LEU 18 -80.64 32.60 5 A GLU 19 -91.43 -66.02 5 A GLU 33 72.54 -23.78 5 A SER 35 -76.29 -112.13 5 A ALA 36 66.31 -64.60 5 A ARG 39 -135.07 -71.01 5 A GLN 47 114.31 -54.05 5 A LYS 52 -106.69 62.94 5 A LYS 54 -115.67 -80.49 5 A ASP 56 -151.23 -88.64 6 A ASP 3 61.91 -96.60 6 A VAL 4 -136.59 -131.12 6 A SER 6 61.57 60.43 6 A LEU 18 78.96 -29.46 6 A GLU 19 -91.14 -74.29 6 A GLU 24 171.83 -60.21 6 A ILE 29 -73.49 -85.96 6 A SER 32 80.22 136.62 6 A GLU 33 -74.41 24.01 6 A SER 35 -67.06 -160.03 6 A ALA 36 64.37 -53.16 6 A ASP 56 -142.61 -92.73 7 A LEU 25 -93.38 45.77 7 A ILE 26 -123.62 -54.46 7 A ARG 28 148.82 -63.61 7 A ILE 29 -74.22 -84.07 7 A GLU 33 69.30 -38.40 7 A SER 35 -94.19 -126.30 7 A ALA 36 62.31 -49.41 7 A GLU 40 151.04 -68.10 7 A GLU 44 174.02 -64.46 7 A GLN 47 126.72 -50.73 8 A VAL 4 -84.29 -76.78 8 A ILE 29 -81.22 -93.62 8 A LYS 30 56.46 -10.48 8 A GLN 31 -147.82 -88.33 8 A SER 32 -163.48 82.91 8 A GLU 33 34.65 32.02 8 A GLU 40 103.26 -61.61 8 A GLN 47 156.67 -61.30 8 A LEU 53 85.09 -83.45 8 A LYS 54 75.93 148.16 8 A ASP 56 -73.53 -81.19 9 A ASP 3 56.89 95.34 9 A VAL 4 -82.64 -83.56 9 A ASN 16 -81.76 -152.34 9 A THR 17 67.75 -87.20 9 A ILE 29 -71.77 -78.76 9 A SER 32 -137.73 -93.73 9 A SER 35 -84.26 -103.63 9 A ALA 36 74.78 -68.75 9 A GLU 44 161.01 -68.51 9 A GLN 47 157.30 -59.35 9 A ILE 55 73.87 99.69 9 A ASP 56 -73.17 -70.95 10 A VAL 4 -138.27 -113.29 10 A SER 6 -157.98 -62.83 10 A LEU 11 -135.53 -68.11 10 A PHE 14 -156.80 -52.55 10 A ILE 29 -72.73 -87.59 10 A LYS 30 52.31 15.21 10 A GLN 31 -149.81 -40.92 10 A GLU 33 78.33 -21.01 10 A SER 35 -86.59 -108.23 10 A ALA 36 68.88 -67.52 10 A GLN 47 161.34 -59.67 10 A LEU 53 -146.58 -36.12 10 A LYS 54 79.65 -79.52 10 A ILE 55 -133.86 -65.07 10 A ASP 56 -106.76 -90.64 11 A VAL 4 -107.29 -99.41 11 A ILE 29 -68.31 -79.70 11 A LYS 30 59.20 72.54 11 A GLN 31 76.37 -26.43 11 A GLU 33 68.27 -30.23 11 A SER 35 -83.34 -125.19 11 A ALA 36 66.47 -65.73 11 A GLU 40 159.05 -66.53 11 A LEU 53 -140.05 -42.10 11 A ILE 55 80.26 118.38 11 A ASP 56 76.29 -86.81 12 A ASP 3 72.62 -93.69 12 A VAL 4 -135.88 -146.61 12 A SER 6 67.12 68.71 12 A ALA 7 -150.46 -59.78 12 A PHE 14 -156.35 -57.11 12 A ILE 29 -71.29 -74.90 12 A GLU 33 78.93 -26.22 12 A GLU 44 164.37 -71.40 12 A PHE 46 -92.10 -62.91 12 A LYS 54 -137.44 -67.10 13 A VAL 4 -134.42 -48.72 13 A ALA 7 -91.18 -62.40 13 A ILE 29 -73.09 -73.91 13 A LYS 30 61.33 62.59 13 A ALA 36 112.46 -47.62 13 A ARG 39 -138.82 -56.73 13 A PHE 46 -148.00 -65.19 13 A LYS 52 -114.18 54.31 13 A ASP 56 -115.15 -93.37 14 A VAL 4 -117.89 -79.01 14 A ALA 7 -136.46 -74.29 14 A LEU 8 -100.52 55.38 14 A ASP 9 -106.13 53.15 14 A LEU 11 34.46 58.40 14 A ARG 28 153.82 -63.48 14 A ILE 29 -69.34 -84.84 14 A LYS 30 56.27 11.59 14 A GLN 31 -150.96 -44.91 14 A GLU 33 76.97 -18.17 14 A SER 35 -85.20 -120.28 14 A ALA 36 63.70 -47.42 14 A GLU 40 126.68 -62.63 14 A LEU 53 98.39 -65.82 14 A LYS 54 72.75 112.91 14 A ASP 56 -76.35 -76.09 15 A ILE 29 -76.63 -77.55 15 A GLU 33 82.20 -39.87 15 A SER 35 -81.95 -112.39 15 A ALA 36 67.05 -67.33 15 A LYS 54 -155.61 -61.77 15 A ASP 56 -96.79 -83.74 16 A ALA 7 83.73 -45.08 16 A LEU 8 -150.38 -68.31 16 A LYS 12 -119.33 58.55 16 A GLU 13 -177.43 -56.44 16 A LYS 30 -69.64 1.66 16 A GLN 47 158.25 -59.83 16 A LYS 52 -91.82 -67.69 16 A ASP 56 -78.96 -75.20 17 A ASP 3 -73.06 -76.41 17 A VAL 4 -148.64 -72.52 17 A ALA 7 -91.10 -60.45 17 A ARG 28 -167.15 -41.83 17 A GLU 33 69.69 -19.22 17 A ARG 39 -136.04 -53.88 17 A LYS 54 69.75 95.29 17 A ASP 56 -141.38 -93.61 18 A SER 5 69.36 -11.16 18 A SER 6 -161.42 57.47 18 A ALA 7 -171.27 -68.89 18 A PHE 14 -157.23 -53.18 18 A SER 35 -4.86 121.71 18 A LEU 53 89.40 -53.52 18 A LYS 54 75.17 84.66 18 A ILE 55 71.61 96.10 APOC-I HUMAN APOLIPOPROTEIN C-I, NMR, 18 STRUCTURES 1 Y N A LEU 8 A LEU 8 HELX_P A LEU 11 A LEU 11 1 1 4 A PHE 14 A PHE 14 HELX_P A ILE 29 A ILE 29 1 2 16 A LYS 37 A LYS 37 HELX_P A LYS 50 A LYS 50 1 3 14 APOLIPOPROTEIN APOLIPOPROTEIN, AMPHIPATHIC HELIX, LIPID ASSOCIATION, LCAT ACTIVATION APOC1_HUMAN UNP 1 1 P02654 MRLFLSLPVLVVVLSIVLEGPAPAQGTPDVSSALDKLKEFGNTLEDKARELISRIKQSELSAKMREWFSETFQKVKEKLK IDS 27 83 1IOJ 1 57 P02654 A 1 1 57 1 P 1