Coordinate File Description (PDB Format)

General Information

The following describes the minimum coordinate specification in PDB format that is required by the RCSB validation and deposition software. The PDB record formats for coordinate data are reproduced here for your convenience; however, the validation check and deposition may only require the specification of a few of these records. In many cases, a file with the following format is all that is required.

Each line is 80 columns wide and is terminated by an end-of-line indicator.
The first six columns of every line contain a "record name". This must be an exact match to one of the stated record names described in detail below.
The list of ATOM records in each polymer chain must be terminated by a TER record.
ATOM records for polymer atoms must include non-blank chain ID fields.
To use the automatic validation check, the coordinate file must include a complete CRYST1 record defining the unit cell and space group information.
If an alternate setting is being used for the space group symmetry then the orthogonal to fractional transformation must be specified in SCALE records.
Each file should terminate with a line containing only the word END.
If atom names or HETATM residue names are unrecognized in the dictionaries, validation results will not be optimal. Definitions for any new HETATM groups sent to deposit@deposit.rcsb.org will be included in our dictionaries.

Coordinate Record Descriptions

Record:
CRYST1

Contains: unit cell parameters, space group, and Z value

Notes:
If the structure was not determined by crystallographic means, simply defines a unit cube
(a = b =c = 1.0, alpha = beta = gamma = 90
degrees, space group = P 1, and Z = 1)
The Hermann-Mauguin space group symbol is given without parenthesis,
e.g., P 21 21 2 and using the full symbol, e.g., C 1 2 1 instead of C 2.
The screw axis is described as a two digit number.
For a rhombohedral space group in the hexagonal setting, the lattice type symbol used is H.
The Z value is the number of polymeric chains in a unit cell. In the case of heteropolymers,
Z is the number of occurrences of the most populous chain.
In the case of a polycrystalline fiber diffraction study,
CRYST1 and SCALE contain the normal unit cell data.
The unit cell parameters are used to calculate SCALE.

COLUMNS DATA TYPE CONTENTS -------------------------------------------------------------------------------- 1 - 6 Record name "CRYST1" 7 - 15 Real(9.3) a (Angstroms) 16 - 24 Real(9.3) b (Angstroms) 25 - 33 Real(9.3) c (Angstroms) 34 - 40 Real(7.2) alpha (degrees) 41 - 47 Real(7.2) beta (degrees) 48 - 54 Real(7.2) gamma (degrees) 56 - 66 LString Space group 67 - 70 Integer Z value Example: 1 2 3 4 5 6 7 1234567890123456789012345678901234567890123456789012345678901234567890 CRYST1 117.000 15.000 39.000 90.00 90.00 90.00 P 21 21 21 8

Record:
ORIGXn

Contains: the transformation from the orthogonal coordinates contained
in the database entry to the submitted coordinates

Notes: If the original submitted coordinates are Xsub, Ysub, Zsub and the orthogonal Angstroms coordinates
contained in the data entry are X, Y, Z, then:
Xsub = O11X + O12Y + O13Z + T1
Ysub = O21X + O22Y + O23Z + T2
Zsub = O31X + O32Y + O33Z + T3

COLUMNS DATA TYPE CONTENTS -------------------------------------------------------------------------------- 1 - 6 Record name "ORIGXn" (n=1, 2, or 3) 11 - 20 Real(10.6) o[n][1] 21 - 30 Real(10.6) o[n][2] 31 - 40 Real(10.6) o[n][3] 46 - 55 Real(10.5) t[n] Example: 1 2 3 4 5 6 7 1234567890123456789012345678901234567890123456789012345678901234567890 ORIGX1 0.963457 0.136613 0.230424 16.61000 ORIGX2 -0.158977 0.983924 0.081383 13.72000 ORIGX3 -0.215598 -0.115048 0.969683 37.65000

Record:
SCALEn

Contains: the transformation from the orthogonal coordinates contained in the entry to fractional
crystallographic coordinates

Notes:
If the orthogonal Angstroms coordinates are X, Y, Z, and the fractional
cell coordinates are xfrac, yfrac, zfrac, then:
xfrac = S11X + S12Y + S13Z + U1
yfrac = S21X + S22Y + S23Z + U2
zfrac = S31X + S32Y + S33Z + U3

For NMR and fiber diffraction submissions, SCALE is given as an identity
matrix with no translation.

COLUMNS DATA TYPE CONTENTS -------------------------------------------------------------------------------- 1 - 6 Record name "SCALEn" (n=1, 2, or 3) 11 - 20 Real(10.6) s[n][1] 21 - 30 Real(10.6) s[n][2] 31 - 40 Real(10.6) s[n][3] 46 - 55 Real(10.5) u[n] Example: 1 2 3 4 5 6 7 1234567890123456789012345678901234567890123456789012345678901234567890 SCALE1 0.019231 0.000000 0.000000 0.00000 SCALE2 0.000000 0.017065 0.000000 0.00000 SCALE3 0.000000 0.000000 0.016155 0.00000

Record:
MTRIXn

Contains: the transformations expressing non-crystallographic symmetry

Notes: The MTRIX transformations operate on the coordinates in the entry to yield
equivalent representations of the molecule in the same coordinate frame. One
trio of MTRIX records with a constant serial number is given for each
non-crystallographic symmetry operation defined.

COLUMNS DATA TYPE CONTENTS -------------------------------------------------------------------------------- 1 - 6 Record name "MTRIXn" (n=1, 2, or 3) 8 - 10 Integer Serial number 11 - 20 Real(10.6) m[n][1] 21 - 30 Real(10.6) m[n][2] 31 - 40 Real(10.6) m[n][3] 46 - 55 Real(10.5) v[n] 60 Integer 1 if coordinates for the related molecule are present; otherwise, blank. Example: 1 2 3 4 5 6 7 1234567890123456789012345678901234567890123456789012345678901234567890 MTRIX1 1 -1.000000 0.000000 -0.000000 0.00001 1 MTRIX2 1 -0.000000 1.000000 0.000000 0.00002 1 MTRIX3 1 0.000000 -0.000000 -1.000000 0.00002 1

Record:
TVECT

Contains: the translation vector which have infinite covalent connections

Notes: For structures not comprised of discrete molecules (e.g., infinite
polysaccharide chains), the entry contains a fragment which can be built into
the full structure by the simple translation vectors of TVECT records.

COLUMNS DATA TYPE CONTENTS -------------------------------------------------------------------------------- 1 - 6 Record name "TVECT " 8 - 10 Integer Serial number 11 - 20 Real(10.5) t[1] 21 - 30 Real(10.5) t[2] 31 - 40 Real(10.5) t[3] 41 - 70 String Text comment Example: 1 2 3 4 5 6 7 1234567890123456789012345678901234567890123456789012345678901234567890 TVECT 1 0.00000 0.00000 28.30000

Record:
MODEL

Contains: the model serial number when a single coordinate entry contains multiple structures

Notes:
Models are numbered sequentially beginning with 1.
If an entry contains more than 99,999 total atoms,
then it must be divided among multiple models.
Each MODEL must have a corresponding ENDMDL record.
In the case of an NMR entry the EXPDTA record states the number of model structures
that are present in the individual entry.

COLUMNS DATA TYPE CONTENTS ---------------------------------------------------------------------- 1 - 6 Record name "MODEL " 11 - 14 Integer Model serial number Example: 1 2 3 4 5 6 7 8 12345678901234567890123456789012345678901234567890123456789012345678901234567890 MODEL 1 ATOM 1 N ALA 1 11.104 6.134 -6.504 1.00 0.00 N ATOM 2 CA ALA 1 11.639 6.071 -5.147 1.00 0.00 C ... ... ATOM 293 1HG GLU 18 -14.861 -4.847 0.361 1.00 0.00 H ATOM 294 2HG GLU 18 -13.518 -3.769 0.084 1.00 0.00 H TER 295 GLU 18 ENDMDL MODEL 2 ATOM 1 N ALA 1 11.304 6.234 -6.104 1.00 0.00 N ATOM 2 CA ALA 1 11.239 6.371 -5.247 1.00 0.00 C ... ... ATOM 293 1HG GLU 18 -14.752 -4.948 0.461 1.00 0.00 H ATOM 294 2HG GLU 18 -13.630 -3.769 0.160 1.00 0.00 H TER 295 GLU 18 ENDMDL

Record:
ATOM

Contains: the atomic coordinates for standard residues and the occupancy and temperature factor for each atom

Notes:
ATOM records for proteins are listed from amino to carboxyl terminus.
Nucleic acid residues are listed from the 5' to the 3' terminus.
No ordering is specified for polysaccharides.
The list of ATOM records in a chain is terminated by a TER record.
If an atom is provided in more than one position, then a non-blank alternate
location indicator must be used. Within a residue, all atoms of a given
conformation are assigned the same alternate position indicator.
Additional atoms (modifying group) to side chains of standard residues are represented as a HET group
which is assigned its own residue name. The chainID, sequence
number, and insertion code assigned to the HET group is that of the
standard residue to which it is attached.
In some entries, the occupancy and temperature factor fields may be used for other quantities.
The segment identifier is a string of up to four (4) alphanumeric characters, left-justified, and may
include a space, e.g., CH86, A 1, NASE.

COLUMNS DATA TYPE CONTENTS -------------------------------------------------------------------------------- 1 - 6 Record name "ATOM " 7 - 11 Integer Atom serial number. 13 - 16 Atom Atom name. 17 Character Alternate location indicator. 18 - 20 Residue name Residue name. 22 Character Chain identifier. 23 - 26 Integer Residue sequence number. 27 AChar Code for insertion of residues. 31 - 38 Real(8.3) Orthogonal coordinates for X in Angstroms. 39 - 46 Real(8.3) Orthogonal coordinates for Y in Angstroms. 47 - 54 Real(8.3) Orthogonal coordinates for Z in Angstroms. 55 - 60 Real(6.2) Occupancy. 61 - 66 Real(6.2) Temperature factor (Default = 0.0). 73 - 76 LString(4) Segment identifier, left-justified. 77 - 78 LString(2) Element symbol, right-justified. 79 - 80 LString(2) Charge on the atom. Example: 1 2 3 4 5 6 7 8 12345678901234567890123456789012345678901234567890123456789012345678901234567890 ATOM 145 N VAL A 25 32.433 16.336 57.540 1.00 11.92 A1 N ATOM 146 CA VAL A 25 31.132 16.439 58.160 1.00 11.85 A1 C ATOM 147 C VAL A 25 30.447 15.105 58.363 1.00 12.34 A1 C ATOM 148 O VAL A 25 29.520 15.059 59.174 1.00 15.65 A1 O ATOM 149 CB AVAL A 25 30.385 17.437 57.230 0.28 13.88 A1 C ATOM 150 CB BVAL A 25 30.166 17.399 57.373 0.72 15.41 A1 C ATOM 151 CG1AVAL A 25 28.870 17.401 57.336 0.28 12.64 A1 C ATOM 152 CG1BVAL A 25 30.805 18.788 57.449 0.72 15.11 A1 C ATOM 153 CG2AVAL A 25 30.835 18.826 57.661 0.28 13.58 A1 C ATOM 154 CG2BVAL A 25 29.909 16.996 55.922 0.72 13.25 A1 C

Record:
ANISOU

Contains: the anisotropic temperature factors

Notes:
Columns 7 - 27 and 73 - 80 are identical to the corresponding ATOM/HETATM record.
The anisotropic temperature factors (columns 29 - 70) are scaled by a factor of 10**4
(Angstroms**2) and are presented as integers.
The anisotropic temperature factors are stored in the same coordinate frame as the
atomic coordinate records.
ANISOU values are listed only if they have been provided by the depositor.

COLUMNS DATA TYPE CONTENTS ---------------------------------------------------------------------- 1 - 6 Record name "ANISOU" 7 - 11 Integer Atom serial number 13 - 16 Atom Atom name 17 Character Alternate location indicator 18 - 20 Residue name Residue name 22 Character Chain identifier 23 - 26 Integer Residue sequence number 27 AChar Insertion code 29 - 35 Integer u[1][1] 36 - 42 Integer u[2][2] 43 - 49 Integer u[3][3] 50 - 56 Integer u[1][2] 57 - 63 Integer u[1][3] 64 - 70 Integer u[2][3] 73 - 76 LString(4) Segment identifier, left-justified 77 - 78 LString(2) Element symbol, right-justified 79 - 80 LString(2) Charge on the atom Example: 1 2 3 4 5 6 7 8 12345678901234567890123456789012345678901234567890123456789012345678901234567890 ATOM 107 N GLY 13 12.681 37.302 -25.211 1.000 15.56 N ANISOU 107 N GLY 13 2406 1892 1614 198 519 -328 N ATOM 108 CA GLY 13 11.982 37.996 -26.241 1.000 16.92 C ANISOU 108 CA GLY 13 2748 2004 1679 -21 155 -419 C ATOM 109 C GLY 13 11.678 39.447 -26.008 1.000 15.73 C ANISOU 109 C GLY 13 2555 1955 1468 87 357 -109 C ATOM 110 O GLY 13 11.444 40.201 -26.971 1.000 20.93 O ANISOU 110 O GLY 13 3837 2505 1611 164 -121 189 O ATOM 111 N ASN 14 11.608 39.863 -24.755 1.000 13.68 N ANISOU 111 N ASN 14 2059 1674 1462 27 244 -96 N

Record:
TER

Contains: indicates the end of a list of ATOM/HETATM records for a chain

Notes:
The TER records occur in the coordinate section of the entry, and indicate
the last residue presented for each polypeptide and/or nucleic acid chain for
which there are coordinates. For proteins, the residue defined on the TER
record is the carboxy-terminal residue; for nucleic acids it is the
3'-terminal residue.
For a cyclic molecule, the choice of termini is arbitrary.
Terminal oxygen atoms are presented as OXT for proteins, and as O5T or O3T for nucleic acids.
The TER record has the same residue name, chain identifier, sequence number
and insertion code as the terminal residue. The serial number of the TER
record is one number greater than the serial number of the ATOM/HETATM
preceding the TER.
For chains with gaps due to disorder, it is recommended that the C-terminus
atoms be labeled O and OXT.
The residue name appearing on the TER record must be the same as the residue name
of the immediately preceding ATOM or non-water HETATM record.

COLUMNS DATA TYPE CONTENTS -------------------------------------------------------------------------------- 1 - 6 Record name "TER " 7 - 11 Integer Serial number 18 - 20 Residue name Residue name 22 Character Chain identifier 23 - 26 Integer Residue sequence number 27 AChar Insertion code Example: 1 2 3 4 5 6 7 8 12345678901234567890123456789012345678901234567890123456789012345678901234567890 ATOM 4150 H ALA A 431 8.674 16.036 12.858 1.00 0.00 H TER 4151 ALA A 431 ATOM 1403 O PRO P 22 12.701 33.564 15.827 1.09 18.03 O ATOM 1404 CB PRO P 22 13.512 32.617 18.642 1.09 9.32 C ATOM 1405 CG PRO P 22 12.828 33.382 19.740 1.09 12.23 C ATOM 1406 CD PRO P 22 12.324 34.603 18.985 1.09 11.47 C HETATM 1407 CA BLE P 1 14.625 32.240 14.151 1.09 16.76 C HETATM 1408 CB BLE P 1 15.610 33.091 13.297 1.09 16.56 C HETATM 1409 CG BLE P 1 15.558 34.629 13.373 1.09 14.27 C HETATM 1410 CD1 BLE P 1 16.601 35.208 12.440 1.09 14.75 C HETATM 1411 CD2 BLE P 1 14.209 35.160 12.930 1.09 15.60 C HETATM 1412 N BLE P 1 14.777 32.703 15.531 1.09 14.79 N HETATM 1413 B BLE P 1 14.921 30.655 14.194 1.09 15.56 B HETATM 1414 O1 BLE P 1 14.852 30.178 12.832 1.09 16.10 O HETATM 1415 O2 BLE P 1 13.775 30.147 14.862 1.09 20.95 O TER 1416 BLE P 1

Record:
HETATM

Contains: the atomic coordinate records for atoms within "non-standard"
groups. These records are used for water molecules and atoms presented in HET
groups.

Notes:
Insertion codes, segment id, and element naming are fully described in the
ATOM section of this document.
Disordered solvents may be represented by the residue name DIS.
No ordering is specified for polysaccharides.

HETATM records must have corresponding HET, HETNAM, FORMUL
and CONECT records, except for waters.

COLUMNS DATA TYPE CONTENTS -------------------------------------------------------------------------------- 1 - 6 Record name "HETATM" 7 - 11 Integer Atom serial number. 13 - 16 Atom Atom name 17 Character Alternate location indicator 18 - 20 Residue name Residue name 22 Character Chain identifier 23 - 26 Integer Residue sequence number 27 AChar Code for insertion of residues 31 - 38 Real(8.3) Orthogonal coordinates for X 39 - 46 Real(8.3) Orthogonal coordinates for Y 47 - 54 Real(8.3) Orthogonal coordinates for Z 55 - 60 Real(6.2) Occupancy 61 - 66 Real(6.2) Temperature factor 73 - 76 LString(4) Segment identifier, left-justified 77 - 78 LString(2) Element symbol, right-justified 79 - 80 LString(2) Charge on the atom Example: 1 2 3 4 5 6 7 8 12345678901234567890123456789012345678901234567890123456789012345678901234567890 HETATM 1357 MG MG 168 4.669 34.118 19.123 1.00 3.16 MG2+ HETATM 3835 FE HEM 1 17.140 3.115 15.066 1.00 14.14 FE3+

Record:
ENDMDL

Contains: these records are paired with MODEL records to group individual structures found in a coordinate entry

Notes:
MODEL/ENDMDL records are used only when more than one structure
is presented in the entry, or if there are more than 99,999 atoms.
Every MODEL record has an associated ENDMDL record.

COLUMNS DATA TYPE CONTENTS ------------------------------------------------------------------ 1 - 6 Record name "ENDMDL" Example: 1 2 3 4 5 6 7 8 12345678901234567890123456789012345678901234567890123456789012345678901234567890 ... ... ATOM 14550 1HG GLU 122 -14.364 14.787 -14.258 1.00 0.00 H ATOM 14551 2HG GLU 122 -13.794 13.738 -12.961 1.00 0.00 H TER 14552 GLU 122 ENDMDL MODEL 9 ATOM 14553 N SER 1 -28.280 1.567 12.004 1.00 0.00 N ATOM 14554 CA SER 1 -27.749 0.392 11.256 1.00 0.00 C ... ... ATOM 16369 1HG GLU 122 -3.757 18.546 -8.439 1.00 0.00 H ATOM 16370 2HG GLU 122 -3.066 17.166 -7.584 1.00 0.00 H TER 16371 GLU 122 ENDMDL MODEL 10 ATOM 16372 N SER 1 -22.285 7.041 10.003 1.00 0.00 N ATOM 16373 CA SER 1 -23.026 6.872 8.720 1.00 0.00 C ... ... ATOM 18188 1HG GLU 122 -1.467 18.282 -17.144 1.00 0.00 H ATOM 18189 2HG GLU 122 -2.711 18.067 -15.913 1.00 0.00 H TER 18190 GLU 122 ENDMDL

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Record:	CRYST1
Contains:	unit cell parameters, space group, and Z value
Notes:	If the structure was not determined by crystallographic means, simply defines a unit cube (a = b =c = 1.0, alpha = beta = gamma = 90 degrees, space group = P 1, and Z = 1) The Hermann-Mauguin space group symbol is given without parenthesis, e.g., P 21 21 2 and using the full symbol, e.g., C 1 2 1 instead of C 2. The screw axis is described as a two digit number. For a rhombohedral space group in the hexagonal setting, the lattice type symbol used is H. The Z value is the number of polymeric chains in a unit cell. In the case of heteropolymers, Z is the number of occurrences of the most populous chain. In the case of a polycrystalline fiber diffraction study, CRYST1 and SCALE contain the normal unit cell data. The unit cell parameters are used to calculate SCALE.
COLUMNS DATA TYPE CONTENTS -------------------------------------------------------------------------------- 1 - 6 Record name "CRYST1" 7 - 15 Real(9.3) a (Angstroms) 16 - 24 Real(9.3) b (Angstroms) 25 - 33 Real(9.3) c (Angstroms) 34 - 40 Real(7.2) alpha (degrees) 41 - 47 Real(7.2) beta (degrees) 48 - 54 Real(7.2) gamma (degrees) 56 - 66 LString Space group 67 - 70 Integer Z value Example: 1 2 3 4 5 6 7 1234567890123456789012345678901234567890123456789012345678901234567890 CRYST1 117.000 15.000 39.000 90.00 90.00 90.00 P 21 21 21 8
Record:	ORIGXn
Contains:	the transformation from the orthogonal coordinates contained in the database entry to the submitted coordinates
Notes:	If the original submitted coordinates are Xsub, Ysub, Zsub and the orthogonal Angstroms coordinates contained in the data entry are X, Y, Z, then: Xsub = O11X + O12Y + O13Z + T1 Ysub = O21X + O22Y + O23Z + T2 Zsub = O31X + O32Y + O33Z + T3
COLUMNS DATA TYPE CONTENTS -------------------------------------------------------------------------------- 1 - 6 Record name "ORIGXn" (n=1, 2, or 3) 11 - 20 Real(10.6) o[n][1] 21 - 30 Real(10.6) o[n][2] 31 - 40 Real(10.6) o[n][3] 46 - 55 Real(10.5) t[n] Example: 1 2 3 4 5 6 7 1234567890123456789012345678901234567890123456789012345678901234567890 ORIGX1 0.963457 0.136613 0.230424 16.61000 ORIGX2 -0.158977 0.983924 0.081383 13.72000 ORIGX3 -0.215598 -0.115048 0.969683 37.65000
Record:	SCALEn
Contains:	the transformation from the orthogonal coordinates contained in the entry to fractional crystallographic coordinates
Notes:	If the orthogonal Angstroms coordinates are X, Y, Z, and the fractional cell coordinates are xfrac, yfrac, zfrac, then: xfrac = S11X + S12Y + S13Z + U1 yfrac = S21X + S22Y + S23Z + U2 zfrac = S31X + S32Y + S33Z + U3 For NMR and fiber diffraction submissions, SCALE is given as an identity matrix with no translation.
COLUMNS DATA TYPE CONTENTS -------------------------------------------------------------------------------- 1 - 6 Record name "SCALEn" (n=1, 2, or 3) 11 - 20 Real(10.6) s[n][1] 21 - 30 Real(10.6) s[n][2] 31 - 40 Real(10.6) s[n][3] 46 - 55 Real(10.5) u[n] Example: 1 2 3 4 5 6 7 1234567890123456789012345678901234567890123456789012345678901234567890 SCALE1 0.019231 0.000000 0.000000 0.00000 SCALE2 0.000000 0.017065 0.000000 0.00000 SCALE3 0.000000 0.000000 0.016155 0.00000
Record:	MTRIXn
Contains:	the transformations expressing non-crystallographic symmetry
Notes:	The MTRIX transformations operate on the coordinates in the entry to yield equivalent representations of the molecule in the same coordinate frame. One trio of MTRIX records with a constant serial number is given for each non-crystallographic symmetry operation defined.
COLUMNS DATA TYPE CONTENTS -------------------------------------------------------------------------------- 1 - 6 Record name "MTRIXn" (n=1, 2, or 3) 8 - 10 Integer Serial number 11 - 20 Real(10.6) m[n][1] 21 - 30 Real(10.6) m[n][2] 31 - 40 Real(10.6) m[n][3] 46 - 55 Real(10.5) v[n] 60 Integer 1 if coordinates for the related molecule are present; otherwise, blank. Example: 1 2 3 4 5 6 7 1234567890123456789012345678901234567890123456789012345678901234567890 MTRIX1 1 -1.000000 0.000000 -0.000000 0.00001 1 MTRIX2 1 -0.000000 1.000000 0.000000 0.00002 1 MTRIX3 1 0.000000 -0.000000 -1.000000 0.00002 1
Record:	TVECT
Contains:	the translation vector which have infinite covalent connections
Notes:	For structures not comprised of discrete molecules (e.g., infinite polysaccharide chains), the entry contains a fragment which can be built into the full structure by the simple translation vectors of TVECT records.
COLUMNS DATA TYPE CONTENTS -------------------------------------------------------------------------------- 1 - 6 Record name "TVECT " 8 - 10 Integer Serial number 11 - 20 Real(10.5) t[1] 21 - 30 Real(10.5) t[2] 31 - 40 Real(10.5) t[3] 41 - 70 String Text comment Example: 1 2 3 4 5 6 7 1234567890123456789012345678901234567890123456789012345678901234567890 TVECT 1 0.00000 0.00000 28.30000
Record:	MODEL
Contains:	the model serial number when a single coordinate entry contains multiple structures
Notes:	Models are numbered sequentially beginning with 1. If an entry contains more than 99,999 total atoms, then it must be divided among multiple models. Each MODEL must have a corresponding ENDMDL record. In the case of an NMR entry the EXPDTA record states the number of model structures that are present in the individual entry.
COLUMNS DATA TYPE CONTENTS ---------------------------------------------------------------------- 1 - 6 Record name "MODEL " 11 - 14 Integer Model serial number Example: 1 2 3 4 5 6 7 8 12345678901234567890123456789012345678901234567890123456789012345678901234567890 MODEL 1 ATOM 1 N ALA 1 11.104 6.134 -6.504 1.00 0.00 N ATOM 2 CA ALA 1 11.639 6.071 -5.147 1.00 0.00 C ... ... ATOM 293 1HG GLU 18 -14.861 -4.847 0.361 1.00 0.00 H ATOM 294 2HG GLU 18 -13.518 -3.769 0.084 1.00 0.00 H TER 295 GLU 18 ENDMDL MODEL 2 ATOM 1 N ALA 1 11.304 6.234 -6.104 1.00 0.00 N ATOM 2 CA ALA 1 11.239 6.371 -5.247 1.00 0.00 C ... ... ATOM 293 1HG GLU 18 -14.752 -4.948 0.461 1.00 0.00 H ATOM 294 2HG GLU 18 -13.630 -3.769 0.160 1.00 0.00 H TER 295 GLU 18 ENDMDL
Record:	ATOM
Contains:	the atomic coordinates for standard residues and the occupancy and temperature factor for each atom
Notes:	ATOM records for proteins are listed from amino to carboxyl terminus. Nucleic acid residues are listed from the 5' to the 3' terminus. No ordering is specified for polysaccharides. The list of ATOM records in a chain is terminated by a TER record. If an atom is provided in more than one position, then a non-blank alternate location indicator must be used. Within a residue, all atoms of a given conformation are assigned the same alternate position indicator. Additional atoms (modifying group) to side chains of standard residues are represented as a HET group which is assigned its own residue name. The chainID, sequence number, and insertion code assigned to the HET group is that of the standard residue to which it is attached. In some entries, the occupancy and temperature factor fields may be used for other quantities. The segment identifier is a string of up to four (4) alphanumeric characters, left-justified, and may include a space, e.g., CH86, A 1, NASE.
COLUMNS DATA TYPE CONTENTS -------------------------------------------------------------------------------- 1 - 6 Record name "ATOM " 7 - 11 Integer Atom serial number. 13 - 16 Atom Atom name. 17 Character Alternate location indicator. 18 - 20 Residue name Residue name. 22 Character Chain identifier. 23 - 26 Integer Residue sequence number. 27 AChar Code for insertion of residues. 31 - 38 Real(8.3) Orthogonal coordinates for X in Angstroms. 39 - 46 Real(8.3) Orthogonal coordinates for Y in Angstroms. 47 - 54 Real(8.3) Orthogonal coordinates for Z in Angstroms. 55 - 60 Real(6.2) Occupancy. 61 - 66 Real(6.2) Temperature factor (Default = 0.0). 73 - 76 LString(4) Segment identifier, left-justified. 77 - 78 LString(2) Element symbol, right-justified. 79 - 80 LString(2) Charge on the atom. Example: 1 2 3 4 5 6 7 8 12345678901234567890123456789012345678901234567890123456789012345678901234567890 ATOM 145 N VAL A 25 32.433 16.336 57.540 1.00 11.92 A1 N ATOM 146 CA VAL A 25 31.132 16.439 58.160 1.00 11.85 A1 C ATOM 147 C VAL A 25 30.447 15.105 58.363 1.00 12.34 A1 C ATOM 148 O VAL A 25 29.520 15.059 59.174 1.00 15.65 A1 O ATOM 149 CB AVAL A 25 30.385 17.437 57.230 0.28 13.88 A1 C ATOM 150 CB BVAL A 25 30.166 17.399 57.373 0.72 15.41 A1 C ATOM 151 CG1AVAL A 25 28.870 17.401 57.336 0.28 12.64 A1 C ATOM 152 CG1BVAL A 25 30.805 18.788 57.449 0.72 15.11 A1 C ATOM 153 CG2AVAL A 25 30.835 18.826 57.661 0.28 13.58 A1 C ATOM 154 CG2BVAL A 25 29.909 16.996 55.922 0.72 13.25 A1 C
Record:	ANISOU
Contains:	the anisotropic temperature factors
Notes:	Columns 7 - 27 and 73 - 80 are identical to the corresponding ATOM/HETATM record. The anisotropic temperature factors (columns 29 - 70) are scaled by a factor of 104 (Angstroms2) and are presented as integers. The anisotropic temperature factors are stored in the same coordinate frame as the atomic coordinate records. ANISOU values are listed only if they have been provided by the depositor.
COLUMNS DATA TYPE CONTENTS ---------------------------------------------------------------------- 1 - 6 Record name "ANISOU" 7 - 11 Integer Atom serial number 13 - 16 Atom Atom name 17 Character Alternate location indicator 18 - 20 Residue name Residue name 22 Character Chain identifier 23 - 26 Integer Residue sequence number 27 AChar Insertion code 29 - 35 Integer u[1][1] 36 - 42 Integer u[2][2] 43 - 49 Integer u[3][3] 50 - 56 Integer u[1][2] 57 - 63 Integer u[1][3] 64 - 70 Integer u[2][3] 73 - 76 LString(4) Segment identifier, left-justified 77 - 78 LString(2) Element symbol, right-justified 79 - 80 LString(2) Charge on the atom Example: 1 2 3 4 5 6 7 8 12345678901234567890123456789012345678901234567890123456789012345678901234567890 ATOM 107 N GLY 13 12.681 37.302 -25.211 1.000 15.56 N ANISOU 107 N GLY 13 2406 1892 1614 198 519 -328 N ATOM 108 CA GLY 13 11.982 37.996 -26.241 1.000 16.92 C ANISOU 108 CA GLY 13 2748 2004 1679 -21 155 -419 C ATOM 109 C GLY 13 11.678 39.447 -26.008 1.000 15.73 C ANISOU 109 C GLY 13 2555 1955 1468 87 357 -109 C ATOM 110 O GLY 13 11.444 40.201 -26.971 1.000 20.93 O ANISOU 110 O GLY 13 3837 2505 1611 164 -121 189 O ATOM 111 N ASN 14 11.608 39.863 -24.755 1.000 13.68 N ANISOU 111 N ASN 14 2059 1674 1462 27 244 -96 N
Record:	TER
Contains:	indicates the end of a list of ATOM/HETATM records for a chain
Notes:	The TER records occur in the coordinate section of the entry, and indicate the last residue presented for each polypeptide and/or nucleic acid chain for which there are coordinates. For proteins, the residue defined on the TER record is the carboxy-terminal residue; for nucleic acids it is the 3'-terminal residue. For a cyclic molecule, the choice of termini is arbitrary. Terminal oxygen atoms are presented as OXT for proteins, and as O5T or O3T for nucleic acids. The TER record has the same residue name, chain identifier, sequence number and insertion code as the terminal residue. The serial number of the TER record is one number greater than the serial number of the ATOM/HETATM preceding the TER. For chains with gaps due to disorder, it is recommended that the C-terminus atoms be labeled O and OXT. The residue name appearing on the TER record must be the same as the residue name of the immediately preceding ATOM or non-water HETATM record.
COLUMNS DATA TYPE CONTENTS -------------------------------------------------------------------------------- 1 - 6 Record name "TER " 7 - 11 Integer Serial number 18 - 20 Residue name Residue name 22 Character Chain identifier 23 - 26 Integer Residue sequence number 27 AChar Insertion code Example: 1 2 3 4 5 6 7 8 12345678901234567890123456789012345678901234567890123456789012345678901234567890 ATOM 4150 H ALA A 431 8.674 16.036 12.858 1.00 0.00 H TER 4151 ALA A 431 ATOM 1403 O PRO P 22 12.701 33.564 15.827 1.09 18.03 O ATOM 1404 CB PRO P 22 13.512 32.617 18.642 1.09 9.32 C ATOM 1405 CG PRO P 22 12.828 33.382 19.740 1.09 12.23 C ATOM 1406 CD PRO P 22 12.324 34.603 18.985 1.09 11.47 C HETATM 1407 CA BLE P 1 14.625 32.240 14.151 1.09 16.76 C HETATM 1408 CB BLE P 1 15.610 33.091 13.297 1.09 16.56 C HETATM 1409 CG BLE P 1 15.558 34.629 13.373 1.09 14.27 C HETATM 1410 CD1 BLE P 1 16.601 35.208 12.440 1.09 14.75 C HETATM 1411 CD2 BLE P 1 14.209 35.160 12.930 1.09 15.60 C HETATM 1412 N BLE P 1 14.777 32.703 15.531 1.09 14.79 N HETATM 1413 B BLE P 1 14.921 30.655 14.194 1.09 15.56 B HETATM 1414 O1 BLE P 1 14.852 30.178 12.832 1.09 16.10 O HETATM 1415 O2 BLE P 1 13.775 30.147 14.862 1.09 20.95 O TER 1416 BLE P 1
Record:	HETATM
Contains:	the atomic coordinate records for atoms within "non-standard" groups. These records are used for water molecules and atoms presented in HET groups.
Notes:	Insertion codes, segment id, and element naming are fully described in the ATOM section of this document. Disordered solvents may be represented by the residue name DIS. No ordering is specified for polysaccharides. HETATM records must have corresponding HET, HETNAM, FORMUL and CONECT records, except for waters.
COLUMNS DATA TYPE CONTENTS -------------------------------------------------------------------------------- 1 - 6 Record name "HETATM" 7 - 11 Integer Atom serial number. 13 - 16 Atom Atom name 17 Character Alternate location indicator 18 - 20 Residue name Residue name 22 Character Chain identifier 23 - 26 Integer Residue sequence number 27 AChar Code for insertion of residues 31 - 38 Real(8.3) Orthogonal coordinates for X 39 - 46 Real(8.3) Orthogonal coordinates for Y 47 - 54 Real(8.3) Orthogonal coordinates for Z 55 - 60 Real(6.2) Occupancy 61 - 66 Real(6.2) Temperature factor 73 - 76 LString(4) Segment identifier, left-justified 77 - 78 LString(2) Element symbol, right-justified 79 - 80 LString(2) Charge on the atom Example: 1 2 3 4 5 6 7 8 12345678901234567890123456789012345678901234567890123456789012345678901234567890 HETATM 1357 MG MG 168 4.669 34.118 19.123 1.00 3.16 MG2+ HETATM 3835 FE HEM 1 17.140 3.115 15.066 1.00 14.14 FE3+
Record:	ENDMDL
Contains:	these records are paired with MODEL records to group individual structures found in a coordinate entry
Notes:	MODEL/ENDMDL records are used only when more than one structure is presented in the entry, or if there are more than 99,999 atoms. Every MODEL record has an associated ENDMDL record.
COLUMNS DATA TYPE CONTENTS ------------------------------------------------------------------ 1 - 6 Record name "ENDMDL" Example: 1 2 3 4 5 6 7 8 12345678901234567890123456789012345678901234567890123456789012345678901234567890 ... ... ATOM 14550 1HG GLU 122 -14.364 14.787 -14.258 1.00 0.00 H ATOM 14551 2HG GLU 122 -13.794 13.738 -12.961 1.00 0.00 H TER 14552 GLU 122 ENDMDL MODEL 9 ATOM 14553 N SER 1 -28.280 1.567 12.004 1.00 0.00 N ATOM 14554 CA SER 1 -27.749 0.392 11.256 1.00 0.00 C ... ... ATOM 16369 1HG GLU 122 -3.757 18.546 -8.439 1.00 0.00 H ATOM 16370 2HG GLU 122 -3.066 17.166 -7.584 1.00 0.00 H TER 16371 GLU 122 ENDMDL MODEL 10 ATOM 16372 N SER 1 -22.285 7.041 10.003 1.00 0.00 N ATOM 16373 CA SER 1 -23.026 6.872 8.720 1.00 0.00 C ... ... ATOM 18188 1HG GLU 122 -1.467 18.282 -17.144 1.00 0.00 H ATOM 18189 2HG GLU 122 -2.711 18.067 -15.913 1.00 0.00 H TER 18190 GLU 122 ENDMDL