0.015697 0.009063 0.000000 0.000000 0.018126 0.000000 0.000000 0.000000 0.012814 0.00000 0.00000 0.00000 Joint Center for Structural Genomics (JCSG) http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic 6 90.00 90.00 120.00 63.705 63.705 78.040 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 H10 N3 O2 1 156.162 y HISTIDINE L-peptide linking H2 O 18.015 WATER non-polymer 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 C5 H11 N O2 Se 196.106 n SELENOMETHIONINE 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 US Proteins PSFGEY 0867 0887-3585 56 404 408 10.1002/prot.20090 15211526 Crystal structure of a PIN (PilT N-terminus) domain (AF0591) from Archaeoglobus fulgidus at 1.90 A resolution 2004 10.2210/pdb1o4w/pdb pdb_00001o4w 100 1 flat mirror CCD 2003-04-17 ADSC QUANTUM 315 single crystal Si(111) bent monochromator MAD M x-ray 1 0.98397 1.0 0.97922 1.0 0.91837 1.0 0.97855 1.0 BL11-1 SSRL 0.98397, 0.97922, 0.91837, 0.97855 SYNCHROTRON SSRL BEAMLINE BL11-1 17142.221 PIN (PilT N-terminus) domain 1 man polymer 18.015 water 90 nat water no yes (MSE)GSDKIHHHHHH(MSE)EADRGRNNKVRCAVVDTNVL(MSE)YVYLNKADVVGQLREFGFSRFLITASVKRELEKL E(MSE)SLRGKEKVAARFALKLLEHFEVVETESEGDPSLIEAAEKYGCILITNDKELKRKAKQRGIPVGYLKEDKRVFVE LLD MGSDKIHHHHHHMEADRGRNNKVRCAVVDTNVLMYVYLNKADVVGQLREFGFSRFLITASVKRELEKLEMSLRGKEKVAA RFALKLLEHFEVVETESEGDPSLIEAAEKYGCILITNDKELKRKAKQRGIPVGYLKEDKRVFVELLD A 354418 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 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 Archaeoglobus Escherichia sample AF0591 2234 Archaeoglobus fulgidus 562 Escherichia coli Plasmid 1 3.04 59.23 VAPOR DIFFUSION,SITTING DROP,NANODROP 6.0 30% MPD, MES buffer pH 6.0, VAPOR DIFFUSION,SITTING DROP,NANODROP, temperature 277K 277 Joint Center for Structural Genomics JCSG PSI, Protein Structure Initiative database_2 struct_conn struct_ref_seq_dif repository Initial release Version format compliance Advisory Derived calculations Version format compliance Database references Derived calculations 1 0 2003-07-29 1 1 2008-04-26 1 2 2011-07-13 1 3 2023-01-25 _database_2.pdbx_DOI _database_2.pdbx_database_accession _struct_conn.pdbx_leaving_atom_flag _struct_ref_seq_dif.details BIOMOLECULE: 1 THIS ENTRY CONTAINS THE CRYSTALLOGRAPHIC ASYMMETRIC UNIT WHICH CONSISTS OF 1 CHAIN(S). SEE REMARK 350 FOR INFORMATION ON GENERATING THE BIOLOGICAL MOLECULE(S). THE BIOLOGICAL UNIT IS PROPOSED TO BE A DIMER AROUND THE CRYTALLOGRAPHIC 2-FOLD AXIS. DIMERISATION IS MEDIATED BY AN EXPOSED 2-STRAND BETA SHEET COMPRISING THE HYDROPHILIC C-TERMINAL RESIDUES OF EACH SUBUNIT, THAT BRIDGES THE GLOBULAR DOMAINS OF EACH SUBUNIT. THIS IS CONSIDERED BIOLOGICALLY SIGNIFICANT BECAUSE OF IT LEADS TO CHAIN SWAPPING BETWEEN SUBUNITS. HELIX DETERMINATION METHOD: AUTHOR SHEET DETERMINATION METHOD: AUTHOR Y RCSB Y RCSB 2003-07-16 REL REL HOH water HOH 1 2 HOH HOH 136 A HOH 2 2 HOH HOH 137 A HOH 3 2 HOH HOH 138 A HOH 4 2 HOH HOH 139 A HOH 5 2 HOH HOH 140 A HOH 6 2 HOH HOH 141 A HOH 7 2 HOH HOH 142 A HOH 8 2 HOH HOH 143 A HOH 10 2 HOH HOH 144 A HOH 11 2 HOH HOH 145 A HOH 12 2 HOH HOH 146 A HOH 13 2 HOH HOH 147 A HOH 14 2 HOH HOH 148 A HOH 15 2 HOH HOH 149 A HOH 16 2 HOH HOH 150 A HOH 17 2 HOH HOH 151 A HOH 18 2 HOH HOH 152 A HOH 19 2 HOH HOH 153 A HOH 20 2 HOH HOH 154 A HOH 21 2 HOH HOH 155 A HOH 22 2 HOH HOH 156 A HOH 23 2 HOH HOH 157 A HOH 24 2 HOH HOH 158 A HOH 26 2 HOH HOH 159 A HOH 27 2 HOH HOH 160 A HOH 28 2 HOH HOH 161 A HOH 29 2 HOH HOH 162 A HOH 30 2 HOH HOH 163 A HOH 31 2 HOH HOH 164 A HOH 32 2 HOH HOH 165 A HOH 33 2 HOH HOH 166 A HOH 34 2 HOH HOH 167 A HOH 35 2 HOH HOH 168 A HOH 36 2 HOH HOH 169 A HOH 37 2 HOH HOH 170 A HOH 38 2 HOH HOH 171 A HOH 39 2 HOH HOH 172 A HOH 40 2 HOH HOH 173 A HOH 41 2 HOH HOH 174 A HOH 42 2 HOH HOH 175 A HOH 43 2 HOH HOH 176 A HOH 44 2 HOH HOH 177 A HOH 45 2 HOH HOH 178 A HOH 47 2 HOH HOH 179 A HOH 48 2 HOH HOH 180 A HOH 49 2 HOH HOH 181 A HOH 50 2 HOH HOH 182 A HOH 51 2 HOH HOH 183 A HOH 52 2 HOH HOH 184 A HOH 54 2 HOH HOH 185 A HOH 55 2 HOH HOH 186 A HOH 57 2 HOH HOH 187 A HOH 60 2 HOH HOH 188 A HOH 61 2 HOH HOH 189 A HOH 62 2 HOH HOH 190 A HOH 63 2 HOH HOH 191 A HOH 64 2 HOH HOH 192 A HOH 66 2 HOH HOH 193 A HOH 67 2 HOH HOH 194 A HOH 68 2 HOH HOH 195 A HOH 69 2 HOH HOH 196 A HOH 71 2 HOH HOH 197 A HOH 72 2 HOH HOH 198 A HOH 74 2 HOH HOH 199 A HOH 76 2 HOH HOH 200 A HOH 78 2 HOH HOH 201 A HOH 79 2 HOH HOH 202 A HOH 85 2 HOH HOH 203 A HOH 86 2 HOH HOH 204 A HOH 88 2 HOH HOH 205 A HOH 89 2 HOH HOH 206 A HOH 91 2 HOH HOH 207 A HOH 92 2 HOH HOH 208 A HOH 93 2 HOH HOH 209 A HOH 94 2 HOH HOH 210 A HOH 95 2 HOH HOH 211 A HOH 96 2 HOH HOH 212 A HOH 97 2 HOH HOH 213 A HOH 98 2 HOH HOH 214 A HOH 99 2 HOH HOH 215 A HOH 100 2 HOH HOH 216 A HOH 102 2 HOH HOH 217 A HOH 104 2 HOH HOH 218 A HOH 105 2 HOH HOH 219 A HOH 107 2 HOH HOH 220 A HOH 110 2 HOH HOH 221 A HOH 111 2 HOH HOH 222 A HOH 112 2 HOH HOH 223 A HOH 113 2 HOH HOH 224 A HOH 115 2 HOH HOH 225 A n 1 -11 A n 2 -10 A n 3 -9 A n 4 -8 A n 5 -7 A n 6 -6 A n 7 -5 A n 8 -4 A n 9 -3 A n 10 -2 A n 11 -1 A n 12 0 A n 13 1 A n 14 2 A n 15 3 A n 16 4 A n 17 5 A n 18 6 A n 19 7 A n 20 8 A n 21 9 A LYS 10 n 22 LYS 10 A VAL 11 n 23 VAL 11 A ARG 12 n 24 ARG 12 A CYS 13 n 25 CYS 13 A ALA 14 n 26 ALA 14 A VAL 15 n 27 VAL 15 A VAL 16 n 28 VAL 16 A ASP 17 n 29 ASP 17 A THR 18 n 30 THR 18 A ASN 19 n 31 ASN 19 A VAL 20 n 32 VAL 20 A LEU 21 n 33 LEU 21 A MSE 22 n 34 MSE 22 A TYR 23 n 35 TYR 23 A VAL 24 n 36 VAL 24 A TYR 25 n 37 TYR 25 A LEU 26 n 38 LEU 26 A ASN 27 n 39 ASN 27 A LYS 28 n 40 LYS 28 A ALA 29 n 41 ALA 29 A ASP 30 n 42 ASP 30 A VAL 31 n 43 VAL 31 A VAL 32 n 44 VAL 32 A GLY 33 n 45 GLY 33 A GLN 34 n 46 GLN 34 A LEU 35 n 47 LEU 35 A ARG 36 n 48 ARG 36 A GLU 37 n 49 GLU 37 A PHE 38 n 50 PHE 38 A GLY 39 n 51 GLY 39 A PHE 40 n 52 PHE 40 A SER 41 n 53 SER 41 A ARG 42 n 54 ARG 42 A PHE 43 n 55 PHE 43 A LEU 44 n 56 LEU 44 A ILE 45 n 57 ILE 45 A THR 46 n 58 THR 46 A ALA 47 n 59 ALA 47 A SER 48 n 60 SER 48 A VAL 49 n 61 VAL 49 A LYS 50 n 62 LYS 50 A ARG 51 n 63 ARG 51 A GLU 52 n 64 GLU 52 A LEU 53 n 65 LEU 53 A GLU 54 n 66 GLU 54 A LYS 55 n 67 LYS 55 A LEU 56 n 68 LEU 56 A GLU 57 n 69 GLU 57 A MSE 58 n 70 MSE 58 A SER 59 n 71 SER 59 A LEU 60 n 72 LEU 60 A ARG 61 n 73 ARG 61 A GLY 62 n 74 GLY 62 A LYS 63 n 75 LYS 63 A GLU 64 n 76 GLU 64 A LYS 65 n 77 LYS 65 A VAL 66 n 78 VAL 66 A ALA 67 n 79 ALA 67 A ALA 68 n 80 ALA 68 A ARG 69 n 81 ARG 69 A PHE 70 n 82 PHE 70 A ALA 71 n 83 ALA 71 A LEU 72 n 84 LEU 72 A LYS 73 n 85 LYS 73 A LEU 74 n 86 LEU 74 A LEU 75 n 87 LEU 75 A GLU 76 n 88 GLU 76 A HIS 77 n 89 HIS 77 A PHE 78 n 90 PHE 78 A GLU 79 n 91 GLU 79 A VAL 80 n 92 VAL 80 A VAL 81 n 93 VAL 81 A GLU 82 n 94 GLU 82 A THR 83 n 95 THR 83 A GLU 84 n 96 GLU 84 A SER 85 n 97 SER 85 A GLU 86 n 98 GLU 86 A GLY 87 n 99 GLY 87 A ASP 88 n 100 ASP 88 A PRO 89 n 101 PRO 89 A SER 90 n 102 SER 90 A LEU 91 n 103 LEU 91 A ILE 92 n 104 ILE 92 A GLU 93 n 105 GLU 93 A ALA 94 n 106 ALA 94 A ALA 95 n 107 ALA 95 A GLU 96 n 108 GLU 96 A LYS 97 n 109 LYS 97 A TYR 98 n 110 TYR 98 A GLY 99 n 111 GLY 99 A CYS 100 n 112 CYS 100 A ILE 101 n 113 ILE 101 A LEU 102 n 114 LEU 102 A ILE 103 n 115 ILE 103 A THR 104 n 116 THR 104 A ASN 105 n 117 ASN 105 A ASP 106 n 118 ASP 106 A LYS 107 n 119 LYS 107 A GLU 108 n 120 GLU 108 A LEU 109 n 121 LEU 109 A LYS 110 n 122 LYS 110 A ARG 111 n 123 ARG 111 A LYS 112 n 124 LYS 112 A ALA 113 n 125 ALA 113 A LYS 114 n 126 LYS 114 A GLN 115 n 127 GLN 115 A ARG 116 n 128 ARG 116 A GLY 117 n 129 GLY 117 A ILE 118 n 130 ILE 118 A PRO 119 n 131 PRO 119 A VAL 120 n 132 VAL 120 A GLY 121 n 133 GLY 121 A TYR 122 n 134 TYR 122 A LEU 123 n 135 LEU 123 A LYS 124 n 136 LYS 124 A GLU 125 n 137 GLU 125 A ASP 126 n 138 ASP 126 A LYS 127 n 139 LYS 127 A ARG 128 n 140 ARG 128 A VAL 129 n 141 VAL 129 A PHE 130 n 142 PHE 130 A VAL 131 n 143 VAL 131 A GLU 132 n 144 GLU 132 A LEU 133 n 145 LEU 133 A LEU 134 n 146 LEU 134 A n 147 135 A 4.5974 2.1167 -0.6487 4.2970 -0.2629 3.5207 0.0334 -0.2224 0.0734 0.1117 -0.0849 0.0989 -0.2143 -0.0942 0.0515 -0.0670 -0.0825 0.0478 -0.2584 -0.0177 -0.1765 refined 56.3132 47.7225 9.2870 X-RAY DIFFRACTION 0.3666 0.3073 -3.6367 0.6474 -0.9358 47.5234 0.2636 0.0196 -0.2699 0.2281 -0.5630 0.1617 -0.2894 1.5029 0.2993 0.0545 0.0914 -0.0245 0.0753 0.0303 -0.0388 refined 60.0962 54.7720 -16.8151 X-RAY DIFFRACTION A 10 A 22 A 122 A 134 X-RAY DIFFRACTION 1 ALL A 123 A 135 A 134 A 146 X-RAY DIFFRACTION 2 ALL author_and_software_defined_assembly PISA,PQS 2 dimeric 2330 -17 14090 A MSE 22 SELENOMETHIONINE A MSE 34 MET A MSE 58 SELENOMETHIONINE A MSE 70 MET 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 1.0000000000 0.0000000000 0.0000000000 0.0000000000 -1.0000000000 0.0000000000 0.0000000000 0.0000000000 -1.0000000000 5_674 x-y+1,-y+2,-z-1/3 crystal symmetry operation 0.0000000000 110.3402966962 -26.0133333333 A O VAL 81 A O VAL 93 A N ILE 45 A N ILE 57 A O LEU 44 A O LEU 56 A N ALA 14 A N ALA 26 A N VAL 15 A N VAL 27 A O ILE 103 A O ILE 115 A N GLU 132 A N GLU 144 A O GLY 121 A O GLY 133 1 A CE LYS 10 A CE LYS 22 1 Y 1 A NZ LYS 10 A NZ LYS 22 1 Y 1 A CD LYS 28 A CD LYS 40 1 Y 1 A CE LYS 28 A CE LYS 40 1 Y 1 A NZ LYS 28 A NZ LYS 40 1 Y 1 A CD LYS 73 A CD LYS 85 1 Y 1 A CE LYS 73 A CE LYS 85 1 Y 1 A NZ LYS 73 A NZ LYS 85 1 Y 1 A CG LYS 107 A CG LYS 119 1 Y 1 A CD LYS 107 A CD LYS 119 1 Y 1 A CE LYS 107 A CE LYS 119 1 Y 1 A NZ LYS 107 A NZ LYS 119 1 Y 1 A CG GLU 108 A CG GLU 120 1 Y 1 A CD GLU 108 A CD GLU 120 1 Y 1 A OE1 GLU 108 A OE1 GLU 120 1 Y 1 A OE2 GLU 108 A OE2 GLU 120 1 Y 1 A CD LYS 112 A CD LYS 124 1 Y 1 A CE LYS 112 A CE LYS 124 1 Y 1 A NZ LYS 112 A NZ LYS 124 1 Y 1 A CG LYS 114 A CG LYS 126 1 Y 1 A CD LYS 114 A CD LYS 126 1 Y 1 A CE LYS 114 A CE LYS 126 1 Y 1 A NZ LYS 114 A NZ LYS 126 1 Y 1 A CG GLN 115 A CG GLN 127 1 Y 1 A CD GLN 115 A CD GLN 127 1 Y 1 A OE1 GLN 115 A OE1 GLN 127 1 Y 1 A NE2 GLN 115 A NE2 GLN 127 1 Y 1 A NE ARG 116 A NE ARG 128 1 Y 1 A CZ ARG 116 A CZ ARG 128 1 Y 1 A NH1 ARG 116 A NH1 ARG 128 1 Y 1 A NH2 ARG 116 A NH2 ARG 128 1 Y 1 A MSE -11 A MSE 1 1 Y 1 A GLY -10 A GLY 2 1 Y 1 A SER -9 A SER 3 1 Y 1 A ASP -8 A ASP 4 1 Y 1 A LYS -7 A LYS 5 1 Y 1 A ILE -6 A ILE 6 1 Y 1 A HIS -5 A HIS 7 1 Y 1 A HIS -4 A HIS 8 1 Y 1 A HIS -3 A HIS 9 1 Y 1 A HIS -2 A HIS 10 1 Y 1 A HIS -1 A HIS 11 1 Y 1 A HIS 0 A HIS 12 1 Y 1 A MSE 1 A MSE 13 1 Y 1 A GLU 2 A GLU 14 1 Y 1 A ALA 3 A ALA 15 1 Y 1 A ASP 4 A ASP 16 1 Y 1 A ARG 5 A ARG 17 1 Y 1 A GLY 6 A GLY 18 1 Y 1 A ARG 7 A ARG 19 1 Y 1 A ASN 8 A ASN 20 1 Y 1 A ASN 9 A ASN 21 1 Y 1 A ASP 135 A ASP 147 1 Y 41.843 1.05 0.52 0.00 1.05 0.00 -1.57 0.965 0.932 1. The 9-sigma difference density peak on the crystallographic 2-fold axis between residues 126 and 128 was left unmodeled, but could indicate a metal ion. 2. The 2 TLS groups correspond to globular and tail portions of protein respectively. 3. Hydrogens have been added in the riding positions. 0.23508 0.18843 0.19059 1.90 31.86 728 14131 4.9 99.87 6.521 0.094 RANDOM LIKELY RESIDUAL 1 ISOTROPIC THROUGHOUT MAD 0.121 0.125 0.80 0.80 1.40 MAXIMUM LIKELIHOOD BABINET MODEL WITH MASK 1.90 31.86 90 1064 0 0 974 0.018 0.022 998 0.001 0.020 965 1.225 1.984 1345 0.758 3.000 2223 5.088 5.000 124 36.230 23.488 43 13.390 15.000 187 15.595 15.000 8 0.076 0.200 159 0.004 0.020 1090 0.001 0.020 206 0.207 0.200 176 0.158 0.200 900 0.081 0.200 605 0.146 0.200 58 0.199 0.200 6 0.213 0.200 47 0.118 0.200 7 0.768 1.500 621 1.454 2.000 998 2.797 3.000 377 4.391 4.500 347 0.319 0.284 1.949 63 1002 20 5.92 48.07 1.900 31.86 1O4W 14860 14860 0.05 1 25.3 8.8 99.9 1.90 1.95 2.3 1058 0.638 1 4.9 99.9 data reduction MOSFLM data scaling SCALA 4.2) phasing SOLVE model building RESOLVE refinement REFMAC 5.1.9999 data scaling CCP4 (SCALA) phasing RESOLVE CRYSTAL STRUCTURE OF a PIN (PILT N-TERMINUS) DOMAIN CONTAINING PROTEIN (AF0591) FROM ARCHAEOGLOBUS FULGIDUS AT 1.90 A RESOLUTION 1 N N 2 N N THE BIOLOGICAL UNIT IS PROPOSED TO BE A DIMER AROUND THE CRYTALLOGRAPHIC 2-FOLD AXIS. DIMERISATION IS MEDIATED BY AN EXPOSED 2-STRAND BETA SHEET COMPRISING THE HYDROPHILIC C-TERMINAL RESIDUES OF EACH SUBUNIT, THAT BRIDGES THE GLOBULAR DOMAINS OF EACH SUBUNIT. THIS IS CONSIDERED BIOLOGICALLY SIGNIFICANT BECAUSE OF IT LEADS TO CHAIN SWAPPING BETWEEN SUBUNITS. GENERATING THE BIOMOLECULE COORDINATES FOR A COMPLETE MULTIMER REPRESENTING THE KNOWN BIOLOGICALLY SIGNIFICANT OLIGOMERIZATION STATE OF THE MOLECULE CAN BE GENERATED BY APPLYING BIOMT TRANSFORMATIONS GIVEN BELOW. BOTH NON-CRYSTALLOGRAPHIC AND CRYSTALLOGRAPHIC OPERATIONS ARE GIVEN. APPLY THE FOLLOWING TO CHAINS: A, W BIOMT1 1 1.000000 0.000000 0.000000 0.00000 BIOMT2 1 0.000000 1.000000 0.000000 0.00000 BIOMT3 1 0.000000 0.000000 1.000000 0.00000 BIOMT1 2 1.000000 0.000000 0.000000 0.00000 BIOMT2 2 0.000000 -1.000000 0.000000 110.69801 BIOMT3 2 0.000000 0.000000 -1.000000 -26.13300 A ASP 17 A ASP 29 HELX_P A LYS 28 A LYS 40 1 1 12 A ASP 30 A ASP 42 HELX_P A PHE 38 A PHE 50 1 2 9 A ALA 47 A ALA 59 HELX_P A LEU 60 A LEU 72 1 3 14 A LYS 63 A LYS 75 HELX_P A GLU 76 A GLU 88 1 4 14 A GLY 87 A GLY 99 HELX_P A GLY 99 A GLY 111 1 5 13 A ASP 106 A ASP 118 HELX_P A ARG 116 A ARG 128 1 6 11 disulf 2.113 A CYS 13 A SG CYS 25 1_555 A CYS 100 A SG CYS 112 1_555 covale 1.330 both A LEU 21 A C LEU 33 1_555 A MSE 22 A N MSE 34 1_555 covale 1.328 both A MSE 22 A C MSE 34 1_555 A TYR 23 A N TYR 35 1_555 covale 1.329 both A GLU 57 A C GLU 69 1_555 A MSE 58 A N MSE 70 1_555 covale 1.330 both A MSE 58 A C MSE 70 1_555 A SER 59 A N SER 71 1_555 TRANSLATION PIN (PILT N-TERMINUS) DOMAIN, STRUCTURAL GENOMICS, JOINT CENTER FOR STRUCTURAL GENOMICS, JCSG, PROTEIN STRUCTURE INITIATIVE, PSI, TRANSLATION O29664_ARCFU UNP 1 1 O29664 MEADRGRNNKVRCAVVDTNVLMYVYLNKADVVGQLREFGFSRFLITASVKRELEKLEMSLRGKEKVAARFALKLLEHFEV VETESEGDPSLIEAAEKYGCILITNDKELKRKAKQRGIPVGYLKEDKRVFVELLD 1 135 1O4W 1 135 O29664 A 1 13 147 1 expression tag MSE -11 1O4W A O29664 UNP 1 1 expression tag GLY -10 1O4W A O29664 UNP 2 1 expression tag SER -9 1O4W A O29664 UNP 3 1 expression tag ASP -8 1O4W A O29664 UNP 4 1 expression tag LYS -7 1O4W A O29664 UNP 5 1 expression tag ILE -6 1O4W A O29664 UNP 6 1 expression tag HIS -5 1O4W A O29664 UNP 7 1 expression tag HIS -4 1O4W A O29664 UNP 8 1 expression tag HIS -3 1O4W A O29664 UNP 9 1 expression tag HIS -2 1O4W A O29664 UNP 10 1 expression tag HIS -1 1O4W A O29664 UNP 11 1 expression tag HIS 0 1O4W A O29664 UNP 12 1 MET modified residue MSE 1 1O4W A O29664 UNP 1 13 1 MET modified residue MSE 22 1O4W A O29664 UNP 22 34 1 MET modified residue MSE 58 1O4W A O29664 UNP 58 70 5 parallel parallel parallel parallel A GLU 79 A GLU 91 A VAL 81 A VAL 93 A PHE 40 A PHE 52 A THR 46 A THR 58 A ARG 12 A ARG 24 A VAL 16 A VAL 28 A ILE 101 A ILE 113 A ILE 103 A ILE 115 A VAL 120 A VAL 132 A GLU 132 A GLU 144 152 P 31 2 1