Theoretical models: Difference between revisions
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''Homology models'', also called ''comparative models'', are obtained by folding a target protein sequence to fit an empirically-determined template model. The registration between residues in the target and template is determined by an amino acid sequence alignment. Errors or uncertainties in the sequence alignment result in errors or uncertainties in the homology model. Provided there is sufficient sequence identity between the target and template, the main chain in homology models is usually mostly correct. However, the positions of sidechains in homology models are usually incorrect. | ''Homology models'', also called ''comparative models'', are obtained by folding a target protein sequence to fit an empirically-determined template model. The registration between residues in the target and template is determined by an amino acid sequence alignment. Errors or uncertainties in the sequence alignment result in errors or uncertainties in the homology model. Provided there is sufficient sequence identity between the target and template, the main chain in homology models is usually mostly correct. However, the positions of sidechains in homology models are usually incorrect. | ||
Empirically-determined templates with adequate sequence identity are available for less than half of all protein sequences. One of the major goals of [[structural genomics]] is to increase the sequence diversity of the available empirically-determined structures that can be used as templates for homology modeling. | |||
[http://swissmodel.expasy.org/ SWISS-MODEL] provides a free, fully-automated homology modeling service. Using the ''Automated Mode'', you submit a protein sequence. When the [[PDB]] contains an empirically-determined structure with sufficient sequence identity with your target sequence, it will be used as a template. The resulting homology model will be constructed automatically. | |||
When no suitable template exists, the [http://targetdb.pdb.org Structural Genomics Target Database] should be searched with your sequence. In some cases, a sequence-similar protein has already been crystallized and diffracted, but the model may not have been completed, or the completed model may not yet have been deposited in the [[PDB]]. In such cases, it may be worthwhile to contact the team that has made the most progress on a closely related sequence. | |||
===Examples=== | |||
* [[Structure of E. coli DnaC helicase loader]] concerns a homology model. | |||
==Ab Initio Models== | ==Ab Initio Models== | ||
When there is no template with sufficient sequence identity to use for homology modeling, one can use ''ab initio'' or ''de novo'' folding theory to fold a protein sequence. Such theory has modest success for small protein chains (80 amino acids or less), but is generally unable to predict the fold for longer chains. | When there is no template with sufficient sequence identity to use for homology modeling, one can use ''ab initio'' or ''de novo'' folding theory to fold a protein sequence. Such theory has modest success for small protein chains (80 amino acids or less), but is generally unable to predict the fold for longer chains. | ||
Revision as of 01:18, 9 November 2009
This article needs to be improved, expanded, and more references need to be cited.
The term theoretical model refers to a molecular model obtained, wholly or in part, by the use of theory, such as homology modeling, energy minimization, molecular mechanics or molecular dynamics. Such theoretical models are distinguished from empirical models, which are usually obtained by X-ray crystallography or nuclear magnetic resonance (NMR).
The distinction between theoretical and empirical models is important because when theoretical models are compared with empirical models, the theoretical models often contain significant errors. In contrast, when the structure of a particular macromolecule is determined using empirical methods by different laboratories, or both by crystallography and NMR, the agreement is usually quite good.
Empirical ModelsEmpirical Models
Methods for judging the reliability and quality of empirical models are discussed at Quality assessment for molecular models.
Homology ModelsHomology Models
Homology models, also called comparative models, are obtained by folding a target protein sequence to fit an empirically-determined template model. The registration between residues in the target and template is determined by an amino acid sequence alignment. Errors or uncertainties in the sequence alignment result in errors or uncertainties in the homology model. Provided there is sufficient sequence identity between the target and template, the main chain in homology models is usually mostly correct. However, the positions of sidechains in homology models are usually incorrect.
Empirically-determined templates with adequate sequence identity are available for less than half of all protein sequences. One of the major goals of structural genomics is to increase the sequence diversity of the available empirically-determined structures that can be used as templates for homology modeling.
SWISS-MODEL provides a free, fully-automated homology modeling service. Using the Automated Mode, you submit a protein sequence. When the PDB contains an empirically-determined structure with sufficient sequence identity with your target sequence, it will be used as a template. The resulting homology model will be constructed automatically.
When no suitable template exists, the Structural Genomics Target Database should be searched with your sequence. In some cases, a sequence-similar protein has already been crystallized and diffracted, but the model may not have been completed, or the completed model may not yet have been deposited in the PDB. In such cases, it may be worthwhile to contact the team that has made the most progress on a closely related sequence.
ExamplesExamples
- Structure of E. coli DnaC helicase loader concerns a homology model.
Ab Initio ModelsAb Initio Models
When there is no template with sufficient sequence identity to use for homology modeling, one can use ab initio or de novo folding theory to fold a protein sequence. Such theory has modest success for small protein chains (80 amino acids or less), but is generally unable to predict the fold for longer chains.