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In the validation, ''molecules'' are used as an umbrella term for ''ligands and non-standard residues''. Therefore, all properties of ligands and non-standard residues are valid for molecules as well (PDB entry of origin, residue annotation, residue identifier, number of heavy atoms, properties assigned after the validation, etc.). Moreover, a single occurrence of a ligand or non-standard residue is also a ''molecule''.
It is essential to note that
'''ValidatorDB ''' contains validation results for all ligands and non-standard residues containing ''7 or more heavy atoms''. These are denoted as ''molecules relevant for validation'', or simply ''molecules''. The reason '''ValidatorDB ''' focuses on these types of molecules is that they exhibit high diversity and nontriviality in their structure.
We use the term ''model'' to refer to a particular structure that is known to be correct. This structure will then be used as reference in the validation process. A model is identified by its residue annotation (3-letter code). The origin of the models used by
'''ValidatorDB ''' is the wwPDB Chemical Component Dictionary (wwPDB CCD)<ref name="Sen_2014"/>.
The term ''motif'' is used here as a fragment of a biomacromolecule, biomacromolecular complex or ligand, made up ofone or more residues or parts of residues. Specifically, the term ''input motif'' refers to the individual molecule being validated, together with its surroundings (i.e., atoms from neighboring residues, within two bonds of any atom of the validated molecule). Each ''input motif
'' in '''ValidatorDB''' is assigned a unique motif identifier based on its PDB entry of origin. On the other hand, the term ''validated motif'' (or ''validated molecule'') refers strictly to the subset of atoms in the ''input motif'' which were successfully mapped to atoms in the ''model''.