1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Brown, P.J. Mulvey, D. Potts, J.R. Tomley, F.M. Campbell, I.D. 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 C3 H7 N O2 S 121.158 y CYSTEINE 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 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.Struct.Funct.Genom. 1345-711X 4 227 10.1023/B:JSFG.0000016118.87333.03 15185963 Solution Structure of a Pan Module from the Apicomplexan Parasite Eimeria Tenella 2003 1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 CONSTRUCT INCLUDES 11 NON-NATIVE RESIDUES N-TERMINAL TO THR712 9233.349 MICRONEME PROTEIN 5 PRECURSOR RESIDUES 712-786 1 man polymer MIC-5, ETMIC5 no no DYKDDDDKVKLTCYQNGVSFTGGKAISEAKAASSQACQELCEKDAKCRFFTLASGKCSLFADDAALRPTKSDGAVSGNKR CILLED DYKDDDDKVKLTCYQNGVSFTGGKAISEAKAASSQACQELCEKDAKCRFFTLASGKCSLFADDAALRPTKSDGAVSGNKR CILLED 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 n n n n n n n HOUGHTON sample ETMIC5 IS A SECRETED PROTEIN FROM THE MICRONEME ORGANELLES 5802 EIMERIA TENELLA 511693 ESCHERICHIA COLI BL21 PFLAG-ATS repository Initial release Version format compliance Version format compliance 1 0 2002-10-17 1 1 2011-05-08 1 2 2011-07-13 SHEET DETERMINATION METHOD: AUTHOR PROVIDED. PDBE Y PDBE 2002-10-03 REL 11 NON-NATIVE RESIDUES N-TERMINAL TO THR712 STRUCTURE WAS DETERMINED USING HETERONUCLEAR NMR SPECTROSCOPY ON 15N-LABELLED 9TH PAN MODULE FROM ETMIC5. MODEL 1 HAS LOWEST ENERGY LOW ENERGY AND LEAST RESTRAINT VIOLATIONS 250 20 NOESY TOCSY COSY 1H-15N-NOESY-HSQC 1H-15N-TOCSY-HSQC HMQCJ 4.7 pH 303 K REFINEMENT DETAILS WILL BE PUBLISHED simulated annealing 1 0.8 MM IN 93% H2O/7% D2O OR 1.7 MM IN 99.9% D2O BRUNGER refinement X-PLOR3.8 structure solution XPLOR3.8 500 600 750 ASP 1 n 1 ASP 1 A TYR 2 n 2 TYR 2 A LYS 3 n 3 LYS 3 A ASP 4 n 4 ASP 4 A ASP 5 n 5 ASP 5 A ASP 6 n 6 ASP 6 A ASP 7 n 7 ASP 7 A LYS 8 n 8 LYS 8 A VAL 9 n 9 VAL 9 A LYS 10 n 10 LYS 10 A LEU 11 n 11 LEU 11 A THR 12 n 12 THR 12 A CYS 13 n 13 CYS 13 A TYR 14 n 14 TYR 14 A GLN 15 n 15 GLN 15 A ASN 16 n 16 ASN 16 A GLY 17 n 17 GLY 17 A VAL 18 n 18 VAL 18 A SER 19 n 19 SER 19 A PHE 20 n 20 PHE 20 A THR 21 n 21 THR 21 A GLY 22 n 22 GLY 22 A GLY 23 n 23 GLY 23 A LYS 24 n 24 LYS 24 A ALA 25 n 25 ALA 25 A ILE 26 n 26 ILE 26 A SER 27 n 27 SER 27 A GLU 28 n 28 GLU 28 A ALA 29 n 29 ALA 29 A LYS 30 n 30 LYS 30 A ALA 31 n 31 ALA 31 A ALA 32 n 32 ALA 32 A SER 33 n 33 SER 33 A SER 34 n 34 SER 34 A GLN 35 n 35 GLN 35 A ALA 36 n 36 ALA 36 A CYS 37 n 37 CYS 37 A GLN 38 n 38 GLN 38 A GLU 39 n 39 GLU 39 A LEU 40 n 40 LEU 40 A CYS 41 n 41 CYS 41 A GLU 42 n 42 GLU 42 A LYS 43 n 43 LYS 43 A ASP 44 n 44 ASP 44 A ALA 45 n 45 ALA 45 A LYS 46 n 46 LYS 46 A CYS 47 n 47 CYS 47 A ARG 48 n 48 ARG 48 A PHE 49 n 49 PHE 49 A PHE 50 n 50 PHE 50 A THR 51 n 51 THR 51 A LEU 52 n 52 LEU 52 A ALA 53 n 53 ALA 53 A SER 54 n 54 SER 54 A GLY 55 n 55 GLY 55 A LYS 56 n 56 LYS 56 A CYS 57 n 57 CYS 57 A SER 58 n 58 SER 58 A LEU 59 n 59 LEU 59 A PHE 60 n 60 PHE 60 A ALA 61 n 61 ALA 61 A ASP 62 n 62 ASP 62 A ASP 63 n 63 ASP 63 A ALA 64 n 64 ALA 64 A ALA 65 n 65 ALA 65 A LEU 66 n 66 LEU 66 A ARG 67 n 67 ARG 67 A PRO 68 n 68 PRO 68 A THR 69 n 69 THR 69 A LYS 70 n 70 LYS 70 A SER 71 n 71 SER 71 A ASP 72 n 72 ASP 72 A GLY 73 n 73 GLY 73 A ALA 74 n 74 ALA 74 A VAL 75 n 75 VAL 75 A SER 76 n 76 SER 76 A GLY 77 n 77 GLY 77 A ASN 78 n 78 ASN 78 A LYS 79 n 79 LYS 79 A ARG 80 n 80 ARG 80 A CYS 81 n 81 CYS 81 A ILE 82 n 82 ILE 82 A LEU 83 n 83 LEU 83 A LEU 84 n 84 LEU 84 A GLU 85 n 85 GLU 85 A ASP 86 n 86 ASP 86 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 A N GLN 15 A N GLN 15 A O SER 76 A O SER 76 A N VAL 75 A N VAL 75 A O LEU 52 A O LEU 52 A N THR 51 A N THR 51 A O SER 58 A O SER 58 A N LEU 59 A N LEU 59 A O SER 27 A O SER 27 1 A TYR 2 57.36 -166.72 1 A CYS 13 -160.58 51.61 1 A SER 19 -68.68 -169.35 1 A LYS 24 -114.91 55.55 1 A SER 27 -173.22 138.33 1 A ARG 48 -146.07 -44.67 1 A THR 51 -162.21 98.26 1 A ALA 53 -123.88 -159.06 1 A ALA 64 -144.06 -78.28 1 A PRO 68 -67.61 -179.10 1 A THR 69 -160.36 -33.88 1 A LEU 84 55.84 76.80 2 A TYR 2 -76.41 -168.17 2 A ASP 6 -79.94 -79.33 2 A CYS 13 -142.57 -4.28 2 A ASN 16 57.64 -91.45 2 A LYS 30 -58.14 93.58 2 A ARG 48 -143.48 -56.13 2 A LYS 56 -164.89 119.86 2 A ALA 61 -67.95 -91.51 2 A THR 69 -137.01 -67.86 2 A SER 71 -112.30 56.92 2 A ASP 72 -89.13 47.16 2 A LYS 79 -162.96 94.55 2 A LEU 84 57.44 -165.88 3 A ASP 4 -152.36 -31.17 3 A ASP 7 -153.08 -70.00 3 A CYS 13 -134.59 -32.10 3 A LYS 30 -59.76 89.96 3 A ARG 48 -149.61 -36.82 3 A SER 54 64.67 -3.10 3 A ALA 64 -136.62 -34.88 3 A ALA 65 -162.72 -5.93 3 A THR 69 -167.09 -42.99 3 A LYS 70 -163.82 -165.68 3 A SER 71 -104.54 -76.09 3 A ARG 80 -113.14 -80.56 3 A CYS 81 55.67 87.73 3 A LEU 83 -160.03 -27.84 4 A TYR 2 57.72 -168.24 4 A ASP 5 -102.10 -162.05 4 A ASP 6 -135.03 -32.11 4 A VAL 18 52.14 -177.54 4 A LYS 30 -60.29 95.90 4 A ARG 48 -143.57 -51.59 4 A ALA 53 -133.97 -159.82 4 A ALA 64 -133.76 -45.32 4 A ALA 65 -165.36 11.51 4 A LEU 66 -68.68 91.72 4 A PRO 68 -68.29 -178.85 4 A THR 69 -162.80 -39.04 5 A LYS 3 57.02 -166.40 5 A ASP 5 -162.65 -80.33 5 A ASP 6 -145.09 -32.40 5 A ASP 7 58.82 -91.30 5 A LYS 8 56.54 -165.29 5 A ASN 16 56.38 -164.17 5 A SER 27 -174.54 140.55 5 A LYS 30 -57.40 90.55 5 A ALA 61 -74.52 -78.30 5 A ASP 63 -149.29 -31.19 5 A ALA 64 59.68 16.37 5 A THR 69 -161.05 -36.48 5 A ASP 72 -115.83 68.30 5 A CYS 81 -160.15 77.42 5 A LEU 83 -148.57 21.42 6 A TYR 2 -69.87 -179.23 6 A ASP 6 -153.49 -32.22 6 A ASN 16 57.66 -168.99 6 A VAL 18 -171.46 148.46 6 A SER 19 -68.74 -164.00 6 A SER 27 -173.45 142.30 6 A LYS 30 -59.77 87.76 6 A ARG 48 -148.55 -40.11 6 A ALA 53 -128.77 -160.39 6 A ALA 61 -61.34 -79.68 6 A ALA 64 -96.64 -80.63 6 A ALA 65 -147.24 20.75 6 A THR 69 -169.89 -23.29 6 A LYS 70 -89.38 -157.92 6 A SER 71 -129.79 -155.89 6 A ARG 80 59.06 -92.78 6 A CYS 81 55.42 88.38 6 A LEU 84 56.84 85.11 7 A LYS 3 58.01 -168.08 7 A ASP 4 -107.89 -80.08 7 A ASP 5 -112.12 -166.14 7 A ASP 6 -130.76 -45.77 7 A ASP 7 54.85 82.97 7 A SER 19 -59.80 170.49 7 A LYS 30 -59.11 90.58 7 A ARG 48 -135.90 -53.33 7 A ALA 53 -127.08 -160.73 7 A ASP 63 51.68 -159.62 7 A ALA 65 -156.73 -37.99 7 A LEU 66 58.31 94.75 7 A PRO 68 -63.36 -172.69 7 A THR 69 -137.63 -99.41 7 A LYS 70 -176.62 -24.52 7 A SER 71 -49.77 98.92 7 A LYS 79 55.95 86.99 7 A CYS 81 -107.83 64.46 8 A TYR 2 55.04 -164.94 8 A LYS 3 58.06 -91.59 8 A ASP 5 -89.77 -78.18 8 A ASP 6 -103.60 -82.84 8 A THR 12 60.07 99.68 8 A TYR 14 -131.34 -84.77 8 A ASN 16 58.97 -89.78 8 A SER 19 -68.36 -169.30 8 A LYS 30 -58.27 90.36 8 A ARG 48 -151.24 -47.93 8 A THR 51 -161.14 98.83 8 A SER 54 64.49 -2.47 8 A ALA 61 -70.30 -84.26 8 A ALA 64 -151.36 17.64 8 A THR 69 -148.73 -73.09 8 A SER 71 -76.74 -79.56 8 A VAL 75 -170.00 144.54 8 A ARG 80 -124.68 -156.64 8 A CYS 81 57.27 72.60 8 A LEU 84 -140.41 -39.19 9 A ASP 4 -150.35 -78.56 9 A ASP 6 -108.06 -75.12 9 A LEU 11 -146.36 22.87 9 A ASN 16 55.19 -160.74 9 A LYS 30 -64.74 85.58 9 A ARG 48 -131.01 -38.00 9 A THR 51 -157.87 89.59 9 A ALA 53 -127.59 -160.28 9 A ALA 61 -79.24 -84.41 9 A ALA 64 -101.10 -77.90 9 A ALA 65 -161.11 28.68 9 A THR 69 -158.36 10.80 9 A LYS 70 64.77 121.96 9 A SER 71 -128.34 -164.10 9 A ARG 80 -98.96 32.00 9 A CYS 81 -144.88 33.00 10 A LYS 3 -113.43 -80.79 10 A ASP 6 -157.32 -65.46 10 A ASP 7 58.08 -167.01 10 A SER 27 -175.96 139.06 10 A ARG 48 -150.42 -41.73 10 A SER 54 66.00 -3.15 10 A LYS 56 -162.11 117.98 10 A ALA 61 -71.80 -159.65 10 A ASP 62 -66.44 90.27 10 A ALA 64 -162.49 11.92 10 A PRO 68 -69.29 -178.50 10 A THR 69 -162.72 -46.47 10 A LYS 70 -164.86 -161.46 10 A SER 71 -105.84 -80.41 10 A CYS 81 55.95 85.44 10 A LEU 84 -148.71 -66.57 11 A ASP 5 -145.02 -79.59 11 A THR 12 57.35 -170.27 11 A GLN 15 -161.95 94.81 11 A ASN 16 -69.68 83.81 11 A VAL 18 63.92 158.43 11 A ALA 25 -54.61 109.48 11 A SER 27 -171.73 149.94 11 A ARG 48 -154.23 -58.90 11 A SER 54 66.42 -3.15 11 A ALA 61 -81.16 -153.55 11 A ASP 62 -64.33 91.07 11 A ALA 64 -156.55 10.59 11 A LYS 70 64.91 121.47 11 A CYS 81 -154.59 89.61 12 A TYR 2 40.52 -160.48 12 A LYS 3 -125.17 -83.45 12 A ASP 4 -152.11 -79.67 12 A ASP 6 -140.15 -79.42 12 A LEU 11 -143.15 -72.83 12 A ASN 16 56.49 -166.80 12 A ALA 25 -59.12 106.56 12 A SER 27 -177.06 140.33 12 A LYS 30 -59.10 93.79 12 A ALA 45 -142.61 14.67 12 A SER 54 64.24 -2.40 12 A ALA 61 -67.83 -87.82 12 A ASP 62 -151.29 80.88 12 A ALA 65 -170.11 2.40 12 A THR 69 -151.03 -44.97 12 A SER 71 -104.70 73.63 12 A ASN 78 -140.04 -10.68 12 A LYS 79 56.15 83.90 12 A ARG 80 -142.29 19.64 12 A CYS 81 -115.96 54.04 12 A LEU 83 -123.44 -83.29 12 A LEU 84 -161.95 -3.65 13 A LYS 3 57.85 -169.01 13 A ASP 4 -161.31 -36.37 13 A ASP 6 -91.28 -79.72 13 A LYS 8 56.84 -165.50 13 A LEU 11 -159.92 -31.57 13 A GLN 15 72.90 -26.10 13 A ASN 16 56.59 -92.16 13 A SER 19 -68.44 -179.37 13 A SER 27 -170.99 141.16 13 A LYS 30 -58.00 90.21 13 A ARG 48 -133.35 -41.28 13 A ALA 53 -126.33 -161.22 13 A ALA 61 -68.65 -161.62 13 A ASP 62 -61.65 95.07 13 A ALA 64 -166.70 15.18 13 A THR 69 -142.10 -78.76 13 A LYS 70 -170.45 122.42 13 A ASP 72 -146.27 14.13 13 A LYS 79 58.79 96.16 13 A ARG 80 58.79 91.04 13 A CYS 81 -111.38 68.48 14 A LYS 3 43.78 -160.45 14 A ASP 4 -144.47 -19.64 14 A ASP 7 55.85 77.13 14 A VAL 18 64.93 150.91 14 A LYS 30 -62.50 94.18 14 A ARG 48 -160.29 -38.98 14 A LYS 56 -163.23 118.93 14 A ALA 65 -164.24 7.15 14 A PRO 68 -69.26 -174.99 14 A THR 69 -134.31 -75.83 14 A LYS 70 -170.89 -30.69 14 A SER 71 -62.88 99.18 14 A LEU 84 -145.99 -37.39 15 A ASP 4 58.75 -90.05 15 A ASP 5 -111.65 -81.39 15 A ASP 6 -147.35 -80.70 15 A CYS 13 -71.07 -76.52 15 A GLN 15 -172.63 -41.05 15 A VAL 18 47.77 -169.44 15 A LYS 30 -59.40 89.42 15 A ARG 48 -147.92 -59.37 15 A THR 51 -160.01 94.80 15 A LYS 56 -164.23 119.44 15 A ALA 61 -74.60 -89.27 15 A ASN 78 -119.09 -78.95 15 A LYS 79 -165.97 -72.01 16 A LYS 3 57.48 -166.91 16 A ASP 5 61.94 171.77 16 A ASP 6 -133.83 -38.58 16 A LYS 8 -104.61 -78.37 16 A CYS 13 56.54 -163.54 16 A TYR 14 -115.15 -83.42 16 A LYS 30 -60.59 94.89 16 A ARG 48 -131.98 -38.95 16 A ALA 53 -128.52 -160.36 16 A LYS 56 -172.27 122.95 16 A ALA 61 -64.32 -92.67 16 A THR 69 -149.03 -63.40 16 A SER 71 -107.13 55.60 16 A VAL 75 -170.01 141.83 16 A ARG 80 -92.14 32.65 17 A LYS 3 58.86 -170.60 17 A ASP 4 -81.95 -79.78 17 A ASP 5 -142.73 -32.27 17 A ASP 6 -161.94 -78.49 17 A ASP 7 -155.82 -65.56 17 A VAL 18 46.95 -168.18 17 A SER 27 -173.57 148.95 17 A ARG 48 -140.74 -39.34 17 A ALA 53 -122.76 -157.91 17 A LYS 56 -163.19 118.09 17 A ALA 64 -144.56 -80.43 17 A THR 69 -161.70 -57.32 17 A SER 71 -88.57 -86.90 17 A ASP 72 56.90 -91.36 17 A LYS 79 60.34 98.68 17 A LEU 83 -155.67 -35.49 17 A LEU 84 58.54 -90.89 18 A ASP 5 59.31 -89.77 18 A ASP 6 -120.59 -81.97 18 A LYS 8 -83.47 -76.77 18 A LEU 11 56.09 82.06 18 A ASN 16 -89.05 35.32 18 A VAL 18 45.61 -165.65 18 A ARG 48 -153.44 -77.23 18 A THR 51 -160.93 100.62 18 A ALA 53 -131.28 -159.35 18 A ALA 61 -103.58 -83.11 18 A ALA 65 -173.11 -4.65 18 A THR 69 -162.47 -24.45 18 A SER 71 -110.77 -157.49 18 A GLU 85 -74.32 -81.84 19 A ASP 4 -140.61 -79.71 19 A ASP 5 -141.94 -80.66 19 A LYS 8 -77.35 -79.71 19 A GLN 15 -144.73 -8.41 19 A ASN 16 56.09 -93.10 19 A SER 19 -68.65 -163.16 19 A ARG 48 -160.43 -53.63 19 A ALA 53 -122.74 -159.59 19 A LYS 56 -162.04 118.39 19 A ALA 61 -81.41 -76.01 19 A ALA 64 -81.55 -72.63 19 A ALA 65 -149.91 15.18 19 A PRO 68 -69.35 -177.86 19 A THR 69 -166.72 -83.41 19 A LYS 70 -175.40 137.90 19 A ASP 72 -149.33 25.30 19 A LYS 79 -154.10 89.97 19 A CYS 81 -105.13 65.56 20 A ASP 5 -114.00 -83.16 20 A ASP 6 -147.59 -35.19 20 A CYS 13 -149.71 -0.51 20 A GLN 15 59.44 -90.12 20 A ASN 16 -57.42 101.63 20 A VAL 18 66.17 145.02 20 A SER 27 -172.05 148.87 20 A LYS 30 -114.42 56.53 20 A ARG 48 -146.28 -57.34 20 A ALA 53 -128.74 -160.26 20 A LYS 56 -166.81 119.75 20 A ALA 61 -90.64 -157.06 20 A ASP 62 -62.63 95.07 20 A ALA 64 -164.53 7.86 20 A THR 69 -164.16 -55.76 MICRONEME PROTEIN 5 PRECURSOR Solution structure of a PAN module from Eimeria tenella 1 N N A SER 33 A SER 33 HELX_P A ASP 44 A ASP 44 1 1 12 disulf 2.030 A CYS 13 A SG CYS 13 1_555 A CYS 81 A SG CYS 81 1_555 disulf 2.031 A CYS 37 A SG CYS 37 1_555 A CYS 57 A SG CYS 57 1_555 disulf 2.029 A CYS 41 A SG CYS 41 1_555 A CYS 47 A SG CYS 47 1_555 ADHESIN ADHESIN, PAN MODULE, EIMERIA TENELLA 1HKY PDB 1 1HKY Q9U966 UNP 1 Q9U966 1 11 1HKY 1 11 1HKY A 1 1 11 712 786 1HKY 12 86 Q9U966 A 2 12 86 5 anti-parallel anti-parallel anti-parallel anti-parallel A GLN 15 A GLN 15 A ASN 16 A ASN 16 A VAL 75 A VAL 75 A SER 76 A SER 76 A THR 51 A THR 51 A LEU 52 A LEU 52 A CYS 57 A CYS 57 A LEU 59 A LEU 59 A SER 27 A SER 27 A ALA 29 A ALA 29 1 P 1