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Chemical table file

From Wikipedia, the free encyclopedia

Chemical table file (CT file) is a family of text-based chemical file formats that describe molecules and chemical reactions. One format, for example, lists each atom in a molecule, the x-y-z coordinates of that atom, and the bonds among the atoms.

File formats

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There are several file formats in the family.

The formats were created by MDL Information Systems (MDL), which was acquired by Symyx Technologies then merged with Accelrys Corp., and now called BIOVIA, a subsidiary of Dassault Systemes of Dassault Group.[1]

The CT file is an open format. BIOVIA publishes its specification.[2] BIOVIA requires users to register to download the CT file format specifications.[3]

Molfile

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ctab
Filename extension
.mol
Internet media type
chemical/x-mdl-molfile
Type of formatchemical file format

An MDL Molfile is a file format for holding information about the atoms, bonds, connectivity and coordinates of a molecule.

The molfile consists of some header information, the Connection Table (CT) containing atom info, then bond connections and types, followed by sections for more complex information.

The molfile is sufficiently common that most, if not all, cheminformatics software systems/applications are able to read the format, though not always to the same degree. It is also supported by some computational software such as Mathematica.

The current de facto standard version is molfile V2000, although, more recently, the V3000 format has been circulating widely enough to present a potential compatibility issue for those applications that are not yet V3000-capable.

The contents of a Molfile of L-Alanine
L-Alanine
Title line (can be blank but line must exist) Header Block

(3 lines)

  ABCDEFGH09071717443D
Program / file timestamp line

(Name of source program and a file timestamp)

Exported
Comment line (can be blank but line must exist)
6 5 0 0 1 0 3 V2000
Counts line Connection table
-0.6622  0.5342 0.0000 C 0 0 2 0 0 0
 0.6622 -0.3000 0.0000 C 0 0 0 0 0 0
-0.7207  2.0817 0.0000 C 1 0 0 0 0 0
-1.8622 -0.3695 0.0000 N 0 3 0 0 0 0
 0.6220 -1.8037 0.0000 O 0 0 0 0 0 0
 1.9464  0.4244 0.0000 O 0 5 0
Atom block

(1 line for each atom): x, y, z (in angstroms), element, etc.

1 2 1 0 0 0 0
1 3 1 0 1 0 0
1 4 1 0 0 0 0
2 5 2 0 0 0 0
2 6 1 0 0 0 0
Bond block

(1 line for each bond): 1st atom, 2nd atom, type, etc.

M  CHG 2 4 1 6 -1
M  ISO 1 3 13
Properties block
M  END
END line

(NOTE: some programs don't like a blank line before M END)

END

Counts line block specification

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Value 6 5 0 0 0 1 V2000
Description number of atoms number of bonds number of atom list Chiral flag, 1 = chiral;

0 = not chiral

number of stext entries number of lines of

additional properties

mol version
Type [Generic] [Generic] [Query] [Generic] [ISIS/Desktop] [Generic]

Bond block specification

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The Bond Block is made up of bond lines, one line per bond, with the following format:

111 222 ttt sss xxx rrr ccc

where the values are described in the following table:

Field Meaning Values
111 first atom number
222 second atom number
ttt bond type 1= Single, 2 = Double, 3 = Triple, 4 = Aromatic,5 = Single or Double, 6 = Single or Aromatic, 7 = Double or Aromatic, 8 = Any
sss bond stereo For single bonds:

0 = not stereo; 1= up; 4=either, 6= down

For double bonds:

0= Use x-, y-, z-coords from atom block to determine cis or trans; 3=Cis or trans (either) double bond

xxx not used
rrr bond topology 0 = Either, 1 = Ring, 2 = Chain
ccc reacting center status 0 = unmarked, 1 = a center, -1 = not a center, Additional: 2 = no change, 4 = bond made/broken, 8 = bond order changes

12 = 4+8 (both made/broken and changes);

5 = (4 + 1), 9 = (8 + 1), and 13 = (12 + 1) are also possible

Extended Connection Table (V3000)

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The extended (V3000) molfile consists of a regular molfile “no structure” followed by a single molfile appendix that contains the body of the connection table (Ctab). The following figure shows both an alanine structure and the extended molfile corresponding to it.

Note that the “no structure” is flagged with the “V3000” instead of the “V2000” version stamp. There are two other changes to the header in addition to the version:

  • The number of appendix lines is always written as 999, regardless of how many there actually are. (All current readers will disregard the count and stop at M END.)
  • The “dimensional code” is maintained more explicitly. Thus “3D” really means 3D, although “2D” will be interpreted as 3D if any non-zero Z-coordinates are found.

Unlike the V2000 molfile, the V3000 extended Rgroup molfile has the same header format as a non-Rgroup molfile.

L-Alanine
Description Header block
GSMACCS-II07189510252D 1 0.00366 0.00000 0
Header with timestamp
Figure 1, J. Chem. Inf. Comput. Sci., Vol 32, No. 3., 1992
Comment line
0 0 0 0 0 999 V3000
V2000-compatibility line
M V30 BEGIN CTAB
Connection table
M V30 COUNTS 6 5 0 0 1
Counts line
M V30 BEGIN ATOM
M V30 1 C -0.6622 0.5342 0 0 CFG=2

M V30 2 C 0.6622 -0.3 0 0

M V30 3 C -0.7207 2.0817 0 0 MASS=13

M V30 4 N -1.8622 -0.3695 0 0 CHG=1

M V30 5 O 0.622 -1.8037 0 0

M V30 6 O 1.9464 0.4244 0 0 CHG=-1

M V30 END ATOM
Atom block
M V30 BEGIN BOND
M V30 1 1 1 2

M V30 2 1 1 3 CFG=1

M V30 3 1 1 4

M V30 4 2 2 5

M V30 5 1 2 6

M V30 END BOND
Bond block
M V30 END CTAB
M END

Counts line

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A counts line is required, and must be first. It specifies the number of atoms, bonds, 3D objects, and Sgroups. It also specifies whether or not the CHIRAL flag is set. Optionally, the counts line can specify molregno. This is only used when the regno exceeds 999999 (the limit of the format in the molfile header line). The format of the counts line is:

M V30 COUNTS na nb nsg n3d chiral
M V30 COUNTS na nb nsg n3d chiral [REGNO=regno]
M V30 COUNTS 6 5 0 0 1
number of atoms
number of bonds
number of Sgroups
number of 3D constrains
if 1 = molecule is chiral
molecule or model regno

SDF

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ctab
Filename extension
.sd, .sdf
Internet media type
chemical/x-mdl-sdfile
Type of formatchemical file format

SDF is one of a family of chemical-data file formats developed by MDL; it is intended especially for structural information. "SDF" stands for structure-data format, and SDF files actually wrap the molfile (MDL Molfile) format. Multiple records are delimited by lines consisting of four dollar signs ($$$$). A key feature of this format is its ability to include associated data.

Associated data items are denoted as follows:

>  <Unique_ID>
XCA3464366
 
>  <ClogP>
5.825

>  <Vendor>
Sigma

>  <Molecular Weight>
499.611

Multiple-line data items are also supported. The MDL SDF-format specification requires that a hard-carriage-return character be inserted if a single line of any text field exceeds 200 characters. This requirement is frequently violated in practice, as many SMILES and InChI strings exceed that length.

Other formats of the family

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There are other, less commonly used formats of the family:

  • RXNFile - for representing a single chemical reaction;
  • RDFile - for representing a list of records with associated data. Each record can contain chemical structures, reactions, textual and tabular data;
  • RGFile - for representing the Markush structures (deprecated, Molfile V3000 can represent Markush structures);
  • XDFile - for representing chemical information in XML format.

See also

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References

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  1. ^ Dalby, A.; Nourse, J. G.; Hounshell, W. D.; Gushurst, A. K. I.; Grier, D. L.; Leland, B. A.; Laufer, J. (1992). "Description of several chemical structure file formats used by computer programs developed at Molecular Design Limited". Journal of Chemical Information and Modeling. 32 (3): 244. doi:10.1021/ci00007a012.
  2. ^ "CT File Formats" (PDF). Biovia. August 2020. Archived (PDF) from the original on 2021-02-19. Retrieved 2021-02-19.
  3. ^ "Registration form". Biovia. 13 August 2020. Archived from the original on 2020-10-01. Retrieved 2021-02-19.
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