# 5.16. PQR topology parser¶

Read atoms with charges from a PQR file (as written by PDB2PQR). No connectivity is deduced.

Note

The file format is described in MDAnalysis.coordinates.PQR.

## 5.16.1. Classes¶

class MDAnalysis.topology.PQRParser.PQRParser(filename)[source]

Parse atom information from PQR file filename.

Creates a MDAnalysis Topology with the following attributes
• Atomids
• Atomnames
• Charges
• RecordTypes (ATOM/HETATM)
• Resids
• Resnames
• Segids
Guesses the following:
• atomtypes (if not present, Gromacs generated PQR files have these)
• masses

Changed in version 0.9.0: Read chainID from a PQR file and use it as segid (before we always used ‘SYSTEM’ as the new segid).

Changed in version 0.16.1: Now reads insertion codes and splits into new residues around these

Changed in version 0.18.0: Added parsing of Record types Can now read PQR files from Gromacs, these provide atom type as last column but don’t have segids

close()

Close the trajectory file.

convert_forces_from_native(force, inplace=True)

Conversion of forces array force from native to base units

Parameters: force (array_like) – Forces to transform inplace (bool (optional)) – Whether to modify the array inplace, overwriting previous data

Note

By default, the input force is modified in place and also returned. In-place operations improve performance because allocating new arrays is avoided.

New in version 0.7.7.

convert_forces_to_native(force, inplace=True)

Conversion of force array force from base to native units.

Parameters: force (array_like) – Forces to transform inplace (bool (optional)) – Whether to modify the array inplace, overwriting previous data

Note

By default, the input force is modified in place and also returned. In-place operations improve performance because allocating new arrays is avoided.

New in version 0.7.7.

convert_pos_from_native(x, inplace=True)

Conversion of coordinate array x from native units to base units.

Parameters: x (array_like) – Positions to transform inplace (bool (optional)) – Whether to modify the array inplace, overwriting previous data

Note

By default, the input x is modified in place and also returned. In-place operations improve performance because allocating new arrays is avoided.

Changed in version 0.7.5: Keyword inplace can be set to False so that a modified copy is returned unless no conversion takes place, in which case the reference to the unmodified x is returned.

convert_pos_to_native(x, inplace=True)

Conversion of coordinate array x from base units to native units.

Parameters: x (array_like) – Positions to transform inplace (bool (optional)) – Whether to modify the array inplace, overwriting previous data

Note

By default, the input x is modified in place and also returned. In-place operations improve performance because allocating new arrays is avoided.

Changed in version 0.7.5: Keyword inplace can be set to False so that a modified copy is returned unless no conversion takes place, in which case the reference to the unmodified x is returned.

convert_time_from_native(t, inplace=True)

Convert time t from native units to base units.

Parameters: t (array_like) – Time values to transform inplace (bool (optional)) – Whether to modify the array inplace, overwriting previous data

Note

By default, the input t is modified in place and also returned (although note that scalar values t are passed by value in Python and hence an in-place modification has no effect on the caller.) In-place operations improve performance because allocating new arrays is avoided.

Changed in version 0.7.5: Keyword inplace can be set to False so that a modified copy is returned unless no conversion takes place, in which case the reference to the unmodified x is returned.

convert_time_to_native(t, inplace=True)

Convert time t from base units to native units.

Parameters: t (array_like) – Time values to transform inplace (bool, optional) – Whether to modify the array inplace, overwriting previous data

Note

By default, the input t is modified in place and also returned. (Also note that scalar values t are passed by value in Python and hence an in-place modification has no effect on the caller.)

Changed in version 0.7.5: Keyword inplace can be set to False so that a modified copy is returned unless no conversion takes place, in which case the reference to the unmodified x is returned.

convert_velocities_from_native(v, inplace=True)

Conversion of velocities array v from native to base units

Parameters: v (array_like) – Velocities to transform inplace (bool (optional)) – Whether to modify the array inplace, overwriting previous data

Note

By default, the input v is modified in place and also returned. In-place operations improve performance because allocating new arrays is avoided.

New in version 0.7.5.

convert_velocities_to_native(v, inplace=True)

Conversion of coordinate array v from base to native units

Parameters: v (array_like) – Velocities to transform inplace (bool (optional)) – Whether to modify the array inplace, overwriting previous data

Note

By default, the input v is modified in place and also returned. In-place operations improve performance because allocating new arrays is avoided.

New in version 0.7.5.

static guess_flavour(line)[source]

Guess which variant of PQR format this line is

Parameters: line (str) – entire line of PQR file starting with ATOM/HETATM flavour (str) – ORIGINAL / GROMACS / NO_CHAINID .. versionadded:: 0.18.0
parse(**kwargs)[source]

Parse atom information from PQR file filename.

Returns: A MDAnalysis Topology object