Biological Unit
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Published macromolecular structure data files ([[Atomic coordinate files]], often in the [[PDB file format]]) contain the [[Asymmetric Unit]], which may be identical with the biological unit, or only a portion of it, or may contain multiple biological units. When publishing a macromolecular structure, the authors may elect to specify the biological unit. In the [[PDB file format]], this is done in REMARK 350. | Published macromolecular structure data files ([[Atomic coordinate files]], often in the [[PDB file format]]) contain the [[Asymmetric Unit]], which may be identical with the biological unit, or only a portion of it, or may contain multiple biological units. When publishing a macromolecular structure, the authors may elect to specify the biological unit. In the [[PDB file format]], this is done in REMARK 350. | ||
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==How To Show The Biological Unit In Proteopedia== | ==How To Show The Biological Unit In Proteopedia== | ||
Revision as of 17:58, 30 September 2012
The Biological Unit, also called the Biological Assembly, is the quaternary structure that is believed to be the functional form of a macromolecule. Often it is not the structure contained in the published PDB file, which is called the asymmetric unit. Therefore it is important to visualize the biological unit in order best to relate function to structure.
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Definition
The Biological Unit, also called the Biological Assembly, is the quaternary structure of a protein that is believed to be the functional form of the molecule. It can be a single chain, or a quaternary assembly of multiple identical or non-identical chains. For example, the biological unit of hemoglobin includes two alpha chains and two beta chains, making it a tetrameric α2β2 structure. When a biological unit contains multiple chains that have co-evolved to bind to each other, it may also be referred to as a specific oligomer.
Of course, what is the functional form (biological unit) under one set of conditions may change under a different set of conditions, so there may be more than one functional form (biological unit) that includes a given protein chain. For example, phosphorylation or dephosphorylation by protein kinases or phosphatases often change the affinities between proteins, and hence their quaternary assemblies.
Published macromolecular structure data files (Atomic coordinate files, often in the PDB file format) contain the Asymmetric Unit, which may be identical with the biological unit, or only a portion of it, or may contain multiple biological units. When publishing a macromolecular structure, the authors may elect to specify the biological unit. In the PDB file format, this is done in REMARK 350.
Model | Chains in asymmetric unit | Chains in biological unit | |
2 | 1 </td></tr> </table>How To Show The Biological Unit In Proteopedia
Sources of Biological Unit ModelsREMARK 350 in the PDB File HeaderBiological units may be specified in REMARK 350 of the PDB file format. In some cases, more than one putative biological unit is specified, and downloadable from the Protein Data Bank. Biological units specified by the author(s) are distinguished from those predicted by software. An example is 3fad, which is explained in Looking at Structures: Introduction to Biological Assemblies and the PDB Archive. The following servers generate biological unit models from REMARK 350: MakeMultimer
RCSB
As for author-specified biological assemblies, sometimes the specific oligomers were not known at the time the asymmetric unit was published. Also, some authors may have failed to specify the biological unit even when it was known. Rarely, the specified biological units might be incorrect. For all these reasons, it is advisable to consult other sources in addition to REMARK 350. Protein Interfaces, Surfaces and Assemblies Server (PISA)The Protein Interfaces, Surfaces and Assemblies Server (PISA) at the European Bioinformatics Institute uses improved methods to predict the biological unit or probable quaternary assembly, compared to its predecessor PQS (see next section). These servers examine the contacts that occur in macromolecular crystals used in X-ray crystallography. They attempt to discriminate between crystal contacts (artifacts of crystallization) and contacts between chains that have co-evolved to maintain specific oligomeric binding. Probable Quaternary Structure Server (PQS)The Probable Quaternary Structure Server (PQS) at the European Bioinformatics Institute examines the inter-chain contacts within protein crystals, and makes an educated guess (using published methods) about which contacts represent co-evolved specific oligomeric contacts, and which are artifacts of crystallization. It was usually correct, but not always. It returns models for what it deduces to be the biological units. There are many possible relationships between the asymmetric unit and the biological units returned by PQS. Examples are given in the discussion of PQS at ProteinExplorer.Org. Updates to PQS stopped in August, 2009. In 2010 it is being phased out in favor of PISA (see above). See Also
Web Sites
Literature CitationsLiterature citations will be found at the respective servers linked above. |
