1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Rosal, R. Pincus, M.R. Brandt-Rauf, P.W. Fine, R.L. Wang, H. http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic 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 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 43 1854 1861 10.1021/bi035718g 14967026 NMR solution structure of a peptide from the mdm-2 binding domain of the p53 protein that is selectively cytotoxic to cancer cells 2004 10.2210/pdb1q2f/pdb pdb_00001q2f 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 P53 MDM-2 BINDING DOMAIN FRAGMENT LINKED TO PENETRATIN FRAGMENT 4039.793 PNC27 P53 MDM-2 BINDING PEPTIDE, ANTENNAPEDIA HOMEODOMAIN PEPTIDE 1 syn polymer no no PPLSQETFSDLWKLLKKWKMRRNQFWVKVQRG PPLSQETFSDLWKLLKKWKMRRNQFWVKVQRG 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 database_2 pdbx_nmr_software pdbx_struct_assembly pdbx_struct_oper_list repository Initial release Version format compliance Version format compliance Data collection Database references Derived calculations 1 0 2004-03-16 1 1 2008-04-29 1 2 2011-07-13 1 3 2022-03-02 _database_2.pdbx_DOI _database_2.pdbx_database_accession _pdbx_nmr_software.name SEQUENCE A suitable database reference sequence could not be found by blast alignment for this protein at the time of processing. RCSB Y RCSB 2003-07-24 REL REL Synthesized sample The assignmnents were determined using 2D homonuclear techniques and confirmed by C13 heteronuclear methods structures with the lowest energy,target function 200 30 2D NOESY 2D TOCSY DQF-COSY 13C-HSQC 13C-HSQCTOCSY N. A. 7.0 ambient 310 K torsion angle dynamics simulated annealing 1 lowest energy 1 4.2 mM in 4:4:1 CDCl3:CD3OH:H2O mixed solvent system 3 4.2 mM in 4:4:1 CDCl3:CD3OH:H2O mixed solvent system Delaglio processing NMRPipe 2001 Johnson data analysis NMRView 5.0.4 Guentert structure solution DYANA 1.5 Guentert refinement DYANA 1.5 600 Varian INOVA PRO 1 n 1 PRO 1 A PRO 2 n 2 PRO 2 A LEU 3 n 3 LEU 3 A SER 4 n 4 SER 4 A GLN 5 n 5 GLN 5 A GLU 6 n 6 GLU 6 A THR 7 n 7 THR 7 A PHE 8 n 8 PHE 8 A SER 9 n 9 SER 9 A ASP 10 n 10 ASP 10 A LEU 11 n 11 LEU 11 A TRP 12 n 12 TRP 12 A LYS 13 n 13 LYS 13 A LEU 14 n 14 LEU 14 A LEU 15 n 15 LEU 15 A LYS 16 n 16 LYS 16 A LYS 17 n 17 LYS 17 A TRP 18 n 18 TRP 18 A LYS 19 n 19 LYS 19 A MET 20 n 20 MET 20 A ARG 21 n 21 ARG 21 A ARG 22 n 22 ARG 22 A ASN 23 n 23 ASN 23 A GLN 24 n 24 GLN 24 A PHE 25 n 25 PHE 25 A TRP 26 n 26 TRP 26 A VAL 27 n 27 VAL 27 A LYS 28 n 28 LYS 28 A VAL 29 n 29 VAL 29 A GLN 30 n 30 GLN 30 A ARG 31 n 31 ARG 31 A GLY 32 n 32 GLY 32 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 1 A A H HD1 GLN TRP 24 26 1.32 1 A A O H GLN VAL 24 27 1.55 1 A A O N THR SER 7 9 1.98 2 A A H HD1 GLN TRP 24 26 1.33 2 A A O H GLN VAL 24 27 1.53 2 A A O N THR SER 7 9 1.98 3 A A H HD1 GLN TRP 24 26 1.31 3 A A O H GLN VAL 24 27 1.60 3 A A O N THR SER 7 9 1.99 4 A A H HD1 GLN TRP 24 26 1.31 4 A A O H GLN VAL 24 27 1.59 4 A A O N THR SER 7 9 1.99 5 A A H HD1 GLN TRP 24 26 1.32 5 A A O H GLN VAL 24 27 1.60 5 A A O N THR SER 7 9 2.02 6 A A H HD1 GLN TRP 24 26 1.32 6 A A O H GLN VAL 24 27 1.51 6 A A O N THR SER 7 9 1.97 7 A A H HD1 GLN TRP 24 26 1.31 7 A A O H GLN VAL 24 27 1.52 7 A A O N THR SER 7 9 2.09 8 A A H HD1 GLN TRP 24 26 1.27 8 A A O H GLN VAL 24 27 1.56 8 A A O N THR SER 7 9 2.00 9 A A H HD1 GLN TRP 24 26 1.31 9 A A O H GLN VAL 24 27 1.55 9 A A O N THR SER 7 9 1.93 10 A A H HD1 GLN TRP 24 26 1.30 10 A A O H ARG GLN 21 24 1.53 10 A A O N THR SER 7 9 1.93 11 A A H HD1 GLN TRP 24 26 1.32 11 A A O HG LEU SER 3 4 1.55 11 A A O H GLN VAL 24 27 1.58 11 A A O N THR SER 7 9 1.94 12 A A H HD1 GLN TRP 24 26 1.33 12 A A HG2 CZ PRO PHE 2 8 1.50 12 A A O H GLN VAL 24 27 1.55 12 A A O N THR SER 7 9 1.97 13 A A H HD1 GLN TRP 24 26 1.32 13 A A O H GLN VAL 24 27 1.57 13 A A O N THR SER 7 9 1.99 14 A A H HD1 GLN TRP 24 26 1.33 14 A A O H GLN VAL 24 27 1.55 14 A A O N THR SER 7 9 2.05 15 A A H HD1 GLN TRP 24 26 1.32 15 A A O H ARG GLN 21 24 1.57 15 A A O N THR SER 7 9 1.98 16 A A H HD1 GLN TRP 24 26 1.33 16 A A O H GLN VAL 24 27 1.53 16 A A O N THR SER 7 9 2.04 17 A A H HD1 GLN TRP 24 26 1.31 17 A A O H GLN VAL 24 27 1.60 17 A A O N THR SER 7 9 2.12 18 A A H HD1 GLN TRP 24 26 1.32 18 A A O H GLN VAL 24 27 1.55 18 A A O N THR SER 7 9 2.04 19 A A H HD1 GLN TRP 24 26 1.26 19 A A O H GLN VAL 24 27 1.59 19 A A O N THR SER 7 9 1.93 20 A A H HD1 GLN TRP 24 26 1.34 20 A A O H SER GLU 4 6 1.56 20 A A O N THR SER 7 9 1.94 21 A A H HD1 GLN TRP 24 26 1.29 21 A A O H GLN VAL 24 27 1.58 21 A A O N THR SER 7 9 2.00 22 A A HH2 HZ2 TRP TRP 18 26 1.30 22 A A O H TRP VAL 26 29 1.42 22 A A O N THR SER 7 9 1.99 22 A A O N TRP VAL 26 29 2.11 23 A A O H GLN VAL 24 27 1.46 23 A A O H TRP ARG 18 22 1.53 23 A A O N THR SER 7 9 2.02 24 A A HH2 HZ2 TRP TRP 18 26 1.31 24 A A O H TRP VAL 26 29 1.39 24 A A O N THR SER 7 9 1.98 24 A A O N TRP VAL 26 29 2.09 24 A A O N TRP LYS 26 28 2.19 25 A A O H TRP VAL 26 29 1.35 25 A A O N THR SER 7 9 2.00 25 A A O N TRP VAL 26 29 2.08 26 A A H HD1 GLN TRP 24 26 1.25 26 A A O H TRP ARG 18 22 1.50 26 A A O H GLN VAL 24 27 1.60 26 A A O N THR SER 7 9 2.14 27 A A H HD1 GLN TRP 24 26 1.25 27 A A O H THR SER 7 9 1.46 27 A A O H PHE ASP 8 10 1.54 27 A A O N THR SER 7 9 1.69 28 A A O N THR SER 7 9 2.00 29 A A O H TRP VAL 26 29 1.52 29 A A O N THR SER 7 9 1.98 29 A A O N TRP VAL 26 29 2.15 30 A A O H TRP VAL 26 29 1.50 30 A A O N THR SER 7 9 1.97 30 A A O N TRP VAL 26 29 2.13 1 A PRO 2 -72.43 -162.21 1 A SER 4 58.53 113.81 1 A GLN 5 88.06 -37.51 1 A THR 7 -93.63 -94.77 1 A PHE 8 10.12 -64.20 1 A LYS 17 -165.06 -36.42 1 A ARG 22 -64.35 15.90 1 A ASN 23 -144.83 14.45 1 A GLN 24 -169.32 -99.22 1 A PHE 25 -34.92 -38.86 1 A VAL 29 -46.14 -16.69 1 A ARG 31 28.80 88.61 2 A LEU 3 85.96 0.37 2 A SER 4 76.51 137.43 2 A GLN 5 89.18 -36.69 2 A THR 7 -93.97 -94.71 2 A PHE 8 10.15 -64.15 2 A LEU 11 -66.69 -70.58 2 A LYS 17 -165.10 -37.14 2 A ARG 22 -65.63 17.53 2 A ASN 23 -144.15 13.32 2 A GLN 24 -170.70 -98.62 2 A PHE 25 -33.85 -39.79 2 A VAL 29 -46.25 -16.67 2 A ARG 31 28.82 -95.99 3 A PRO 2 -72.41 -162.06 3 A SER 4 64.64 122.29 3 A GLN 5 78.19 -49.06 3 A THR 7 -95.52 -96.25 3 A PHE 8 9.29 -64.34 3 A LYS 17 -165.59 -23.16 3 A ARG 22 -65.72 19.89 3 A ASN 23 -147.85 16.07 3 A GLN 24 -166.35 -101.45 3 A VAL 29 -46.49 -16.39 3 A ARG 31 28.54 80.43 4 A PRO 2 -72.39 -163.94 4 A SER 4 171.93 119.79 4 A GLN 5 172.70 -52.62 4 A THR 7 -86.14 -92.32 4 A PHE 8 8.24 -63.60 4 A LYS 16 -69.39 12.76 4 A LYS 17 -164.64 -22.36 4 A ARG 22 -65.22 17.84 4 A ASN 23 -146.76 16.24 4 A GLN 24 -164.83 -102.02 4 A ARG 31 -23.58 -58.96 5 A LEU 3 80.72 4.35 5 A SER 4 -142.71 -146.48 5 A GLN 5 170.42 -43.00 5 A GLU 6 -32.08 -74.31 5 A THR 7 -85.49 -91.34 5 A PHE 8 5.56 -62.78 5 A LYS 17 -164.50 -22.23 5 A ARG 22 -66.16 19.99 5 A ASN 23 -147.89 16.19 5 A GLN 24 -166.24 -101.44 5 A VAL 29 -46.46 -16.43 5 A ARG 31 28.70 83.85 6 A SER 4 74.74 112.48 6 A GLN 5 172.21 -54.13 6 A THR 7 -85.52 -93.30 6 A PHE 8 9.45 -63.26 6 A LEU 11 -66.82 -71.75 6 A LYS 17 -167.14 -37.62 6 A ARG 22 -62.84 16.29 6 A ASN 23 -140.04 14.23 6 A GLN 24 -175.62 -98.25 6 A PHE 25 -32.41 -39.13 6 A VAL 29 -46.51 -16.35 6 A ARG 31 29.18 83.33 7 A LEU 3 33.38 52.55 7 A SER 4 -145.02 14.76 7 A GLN 5 87.37 -17.00 7 A THR 7 -97.96 -92.83 7 A PHE 8 2.10 -63.44 7 A LYS 17 -164.46 -36.72 7 A ARG 22 -62.14 16.22 7 A ASN 23 -140.27 14.54 7 A GLN 24 -175.41 -98.69 7 A PHE 25 -32.55 -38.90 7 A VAL 29 -46.47 -16.43 7 A ARG 31 29.11 87.50 8 A LEU 3 88.80 -9.45 8 A SER 4 76.09 129.94 8 A GLN 5 88.59 -36.59 8 A THR 7 -93.64 -94.28 8 A PHE 8 9.01 -64.32 8 A LYS 17 -170.93 -33.45 8 A ARG 22 -63.43 11.94 8 A GLN 24 -171.03 -99.88 8 A VAL 29 -45.78 -17.12 8 A ARG 31 28.70 88.68 9 A PRO 2 -72.41 -164.51 9 A SER 4 -133.18 -146.57 9 A GLN 5 171.19 -45.59 9 A GLU 6 -31.18 -70.38 9 A THR 7 -88.31 -95.53 9 A PHE 8 8.77 -60.64 9 A LYS 17 -165.20 -37.30 9 A MET 20 -33.82 -39.99 9 A ARG 22 -69.91 18.78 9 A ASN 23 -142.36 13.50 9 A GLN 24 -169.88 -100.01 9 A VAL 29 -46.10 -16.80 9 A ARG 31 28.02 -95.46 10 A LEU 3 46.17 24.33 10 A SER 4 154.74 114.71 10 A GLN 5 171.34 -54.85 10 A THR 7 -87.94 -96.00 10 A PHE 8 11.42 -62.48 10 A LEU 11 -72.55 -77.42 10 A LYS 17 -166.30 -37.26 10 A ARG 22 -56.14 10.61 10 A ASN 23 -141.18 12.62 10 A GLN 24 -168.86 -96.97 10 A PHE 25 -38.50 -37.40 10 A VAL 29 -44.90 -17.85 10 A ARG 31 29.03 88.16 11 A PRO 2 -72.41 -162.38 11 A SER 4 58.10 115.30 11 A GLN 5 87.93 -41.74 11 A THR 7 -95.04 -97.46 11 A PHE 8 12.06 -63.78 11 A LYS 17 -165.90 -36.58 11 A ARG 22 -63.52 16.25 11 A ASN 23 -145.90 14.92 11 A GLN 24 -168.75 -99.47 11 A PHE 25 -35.26 -35.58 11 A VAL 29 -46.99 -16.01 11 A ARG 31 30.05 86.68 12 A PRO 2 -72.34 -162.67 12 A LEU 3 -56.12 -90.75 12 A SER 4 173.43 94.90 12 A GLN 5 86.81 -46.91 12 A THR 7 -90.63 -94.16 12 A PHE 8 10.95 -64.18 12 A LYS 17 -164.67 -38.19 12 A ARG 22 -61.22 14.25 12 A ASN 23 -145.76 13.69 12 A GLN 24 -169.80 -97.80 12 A PHE 25 -34.99 -37.37 12 A VAL 29 -46.12 -17.33 12 A ARG 31 27.28 -139.87 13 A SER 4 157.11 157.69 13 A GLN 5 91.36 -30.84 13 A THR 7 -89.93 -91.40 13 A PHE 8 9.25 -64.29 13 A LYS 17 -165.09 -36.86 13 A ARG 22 -65.80 17.37 13 A ASN 23 -145.68 14.43 13 A GLN 24 -169.58 -98.96 13 A PHE 25 -34.55 -37.89 13 A VAL 29 -46.88 -16.08 13 A ARG 31 29.58 87.28 14 A PRO 2 -72.37 -165.54 14 A GLN 5 -148.43 -45.05 14 A THR 7 -98.23 -96.22 14 A PHE 8 2.68 -62.06 14 A LEU 11 -66.76 -70.41 14 A LYS 17 -165.14 -36.79 14 A ARG 22 -65.39 17.96 14 A ASN 23 -145.41 13.98 14 A GLN 24 -169.86 -99.03 14 A VAL 29 -46.24 -16.53 14 A ARG 31 28.83 88.50 15 A PRO 2 -72.35 -162.55 15 A SER 4 77.54 115.74 15 A GLN 5 87.95 -38.32 15 A THR 7 -93.65 -95.19 15 A PHE 8 10.36 -64.22 15 A LEU 11 -66.52 -71.04 15 A LYS 17 -166.52 -37.18 15 A ARG 22 -57.24 11.45 15 A ASN 23 -143.39 13.81 15 A GLN 24 -168.54 -97.87 15 A PHE 25 -37.16 -35.98 15 A VAL 27 -34.15 -38.77 15 A ARG 31 -24.14 -53.22 16 A PRO 2 -72.40 -163.94 16 A LEU 3 -105.67 -69.48 16 A GLN 5 82.70 -24.15 16 A GLU 6 -32.92 -70.31 16 A THR 7 -91.21 -92.45 16 A PHE 8 4.66 -62.91 16 A LEU 11 -67.15 -70.19 16 A LYS 16 -68.25 14.80 16 A LYS 17 -169.29 -34.37 16 A ARG 22 -65.25 16.39 16 A ASN 23 -143.27 13.28 16 A GLN 24 -170.32 -98.88 16 A VAL 29 -49.84 -14.22 16 A ARG 31 -23.45 103.19 17 A PRO 2 -72.38 -165.71 17 A GLN 5 -120.43 -50.86 17 A GLU 6 -29.12 -66.44 17 A THR 7 -93.64 -90.08 17 A PHE 8 -0.92 -62.05 17 A LYS 17 -165.19 -22.87 17 A ARG 22 -65.80 19.94 17 A ASN 23 -147.92 16.20 17 A GLN 24 -166.06 -101.60 17 A VAL 29 -46.58 -16.07 17 A ARG 31 27.78 82.22 18 A PRO 2 -72.37 -163.83 18 A LEU 3 -106.18 -67.49 18 A GLN 5 82.20 -24.37 18 A THR 7 -91.16 -93.09 18 A PHE 8 4.69 -63.01 18 A LEU 11 -60.03 -74.53 18 A LYS 17 -164.71 -36.47 18 A ARG 22 -64.16 16.31 18 A ASN 23 -144.96 14.38 18 A GLN 24 -169.27 -99.31 18 A PHE 25 -34.87 -38.39 18 A VAL 29 -46.43 -16.49 18 A ARG 31 28.73 78.41 19 A LEU 3 88.19 -3.00 19 A SER 4 77.34 135.39 19 A GLN 5 88.32 -41.47 19 A THR 7 -96.32 -98.35 19 A PHE 8 12.68 -63.50 19 A LEU 11 -69.59 -79.84 19 A LYS 17 -165.04 -36.47 19 A ARG 22 -65.01 20.59 19 A ASN 23 -144.16 15.78 19 A GLN 24 -168.69 -102.21 19 A VAL 29 -46.66 -16.21 19 A ARG 31 26.75 86.75 20 A LEU 3 78.98 -2.31 20 A SER 4 -122.40 -150.20 20 A GLN 5 67.79 -58.23 20 A THR 7 -89.71 -97.14 20 A PHE 8 11.85 -63.34 20 A LEU 11 -66.51 -71.16 20 A LYS 17 -165.81 -28.72 20 A ARG 22 -65.25 14.69 20 A ASN 23 -148.72 16.03 20 A GLN 24 -164.85 -98.54 20 A PHE 25 -38.17 -38.12 20 A VAL 29 -46.61 -16.26 20 A ARG 31 28.38 74.55 21 A LEU 3 86.15 -9.77 21 A SER 4 77.79 129.07 21 A GLN 5 88.72 -35.84 21 A THR 7 -93.62 -94.02 21 A PHE 8 9.08 -64.35 21 A LEU 11 -60.27 -75.22 21 A LYS 16 -68.45 12.15 21 A LYS 17 -164.33 -19.35 21 A ARG 22 -68.85 20.69 21 A ASN 23 -145.46 15.77 21 A GLN 24 -166.21 -102.02 21 A VAL 29 -46.38 -16.53 21 A ARG 31 28.70 79.37 22 A SER 4 -108.66 -145.62 22 A GLN 5 87.04 -29.32 22 A THR 7 -88.93 -93.13 22 A PHE 8 8.24 -63.66 22 A LYS 16 -69.40 13.20 22 A LYS 17 -166.65 -32.84 22 A MET 20 -32.77 -37.46 22 A ARG 22 -78.46 23.04 22 A ASN 23 -145.96 17.37 22 A GLN 24 -141.96 -103.18 22 A TRP 26 -84.16 -71.53 22 A VAL 27 -24.49 -37.19 22 A ARG 31 33.56 87.97 23 A SER 4 -147.00 -146.59 23 A GLN 5 171.40 -44.22 23 A GLU 6 -32.48 -75.10 23 A THR 7 -84.70 -91.70 23 A PHE 8 6.04 -63.12 23 A LYS 16 -63.77 12.72 23 A LYS 17 -167.23 -18.97 23 A ASN 23 -144.43 16.19 23 A GLN 24 -172.17 -100.15 23 A PHE 25 -29.14 -45.64 23 A VAL 29 -46.57 -16.45 23 A ARG 31 26.60 -95.36 24 A PRO 2 -72.41 -161.12 24 A SER 4 63.85 121.48 24 A GLN 5 78.11 -49.10 24 A THR 7 -95.59 -96.73 24 A PHE 8 10.33 -64.31 24 A LYS 17 -167.15 -20.00 24 A MET 20 -31.35 -39.34 24 A ARG 22 -76.70 23.74 24 A ASN 23 -148.06 17.76 24 A GLN 24 -142.82 -103.00 24 A TRP 26 -83.07 -73.80 24 A VAL 27 -22.67 -38.60 24 A VAL 29 -47.47 -15.11 24 A ARG 31 31.40 85.75 25 A PRO 2 -72.36 -161.97 25 A LEU 3 -155.97 61.34 25 A SER 4 -173.37 22.64 25 A GLN 5 177.18 -42.91 25 A THR 7 -91.41 -93.63 25 A PHE 8 6.77 -62.92 25 A LEU 11 -67.66 -70.32 25 A LYS 16 -69.98 11.61 25 A LYS 17 -164.78 -36.13 25 A ARG 22 -77.87 29.99 25 A ASN 23 -146.91 16.99 25 A GLN 24 -144.02 -106.48 25 A TRP 26 -83.55 -74.22 25 A VAL 27 -22.74 -39.39 25 A ARG 31 -23.87 -55.37 26 A PRO 2 -72.31 -154.13 26 A LEU 3 -157.82 44.92 26 A GLN 5 82.63 -10.82 26 A THR 7 -95.39 -89.53 26 A PHE 8 -0.09 -63.48 26 A LYS 17 -163.24 -35.35 26 A LYS 19 -39.32 -35.53 26 A ARG 22 -64.65 12.95 26 A GLN 24 -165.24 -100.12 26 A VAL 29 -45.10 -17.71 26 A ARG 31 28.42 -95.90 27 A SER 4 57.73 116.54 27 A GLN 5 171.18 -56.30 27 A GLU 6 -34.69 -76.55 27 A THR 7 -79.70 -93.20 27 A PHE 8 13.15 -51.12 27 A SER 9 -68.27 54.88 27 A ASP 10 153.65 -32.73 27 A LEU 11 -81.91 -73.48 27 A LYS 17 -172.01 -23.73 27 A ARG 22 -62.28 20.22 27 A ASN 23 -144.74 15.55 27 A GLN 24 -168.27 -101.56 27 A VAL 29 -46.07 -16.81 27 A ARG 31 26.20 -94.83 28 A PRO 2 -72.38 -164.23 28 A SER 4 -135.07 -146.12 28 A GLN 5 170.82 -43.63 28 A GLU 6 -32.20 -73.65 28 A THR 7 -85.82 -92.62 28 A PHE 8 6.94 -62.73 28 A LEU 11 -66.09 -72.00 28 A LYS 17 -166.60 -35.46 28 A ARG 22 -71.95 26.61 28 A ASN 23 -162.54 24.75 28 A GLN 24 -176.21 -42.75 28 A VAL 29 -46.54 -16.44 28 A ARG 31 28.39 86.16 29 A PRO 2 -72.46 -162.02 29 A SER 4 87.47 141.57 29 A GLN 5 89.28 -35.49 29 A THR 7 -90.72 -93.35 29 A PHE 8 9.99 -64.24 29 A LYS 16 -66.35 14.32 29 A LYS 17 -168.98 -20.15 29 A MET 20 -32.31 -39.41 29 A ASN 23 -147.31 17.61 29 A GLN 24 -140.22 -103.71 29 A VAL 27 -30.67 -33.90 29 A VAL 29 -42.81 -19.34 29 A ARG 31 28.60 -95.97 30 A SER 4 -174.86 117.82 30 A GLN 5 173.60 -53.45 30 A THR 7 -86.86 -93.78 30 A PHE 8 9.59 -63.38 30 A LEU 11 -66.85 -71.93 30 A LYS 16 -66.18 13.78 30 A LYS 17 -168.17 -19.83 30 A ARG 22 -78.43 23.94 30 A ASN 23 -149.88 17.96 30 A GLN 24 -142.46 -102.91 30 A VAL 27 -29.62 -34.27 30 A VAL 29 -42.45 -19.64 30 A ARG 31 28.19 82.97 NMR SOLUTION STRUCTURE OF A PEPTIDE FROM THE MDM-2 BINDING DOMAIN OF THE P53 PROTEIN THAT IS SELECTIVELY CYTOTOXIC TO CANCER CELLS 1 N N A ASP 10 A ASP 10 HELX_P A LEU 15 A LEU 15 1 1 6 A TRP 18 A TRP 18 HELX_P A ASN 23 A ASN 23 1 2 6 A GLN 24 A GLN 24 HELX_P A ARG 31 A ARG 31 1 3 8 ANTITUMOR PROTEIN p53 Protein, mdm-2 Binding Domain, Penetratin, Antitumor, ANTITUMOR PROTEIN 1Q2F PDB 1 1Q2F 1 32 1Q2F 1 32 1Q2F A 1 1 32