SEARCH TEXT protein structures

EMBL Nucleotide Sequence Database. SWISS-PROT consists of core sequence data with minimal redundancy, citation and extensive annotations including protein function, post-translational modifications, domain sites, protein structural information, diseases associated with protein deficiencies and variants. SWISS-PROT and TrEMBL are available at EBI site, http //www.ebi.ac.uk/swissprot/, and ExPASy site, http //www.expasy.ch/sprot/. From the SWISS-PROT and TrEMBL page of ExPASy site, click Full text search (under Access to SWISS-PROT and TrEMBL) to open the search page (Figure 11.3). Enter the keyword string (use Boolean expression if required), check SWISS-PROT box, and click the Submit button. Select the desired entry from the returned list to view the annotated sequence data in Swiss-Prot format. An output in the fasta format can be requested. Links to BLAST, feature table, some ExPASy proteomic tools (e.g., Compute pI/Mw, ProtParam, ProfileScan, ProtScale, PeptideMass, ScanProsite), and structure (SWISS-MODEL) are provided on the page. 

Public annotations Homology searching Protein structure homology Functional prediction Pattern matching Text mining... 

It can be difficult if not impossible to find the domain structure of a protein of interest from the primary literature. The sequence may contain many common domains, but these are usually not apparent from searches of literature. Articles defining new domains may include the protein, but only in an alignment figure, which are not searchable. Perhaps, with the advent of online access to articles, the full text including figures may become searchable. Fortunately there have been several attempts to make this hidden information available in away that can be easily searched. These resources, called domain family databases, are exemplified by Prosite, Pfam, Prints, and SMART. These databases gather information from the literature about common domains and make it searchable in a variety of ways. They usually allow a researcher to look at the domain organization of proteins in the sequence database that have been precalculated and also provide a way to search new sequences... 

The common atomic coordinate files for 3D structure in biochemistry is PDB format. The pdb files of polysaccharides, proteins, and nucleic acids can be retrieved from the Protein Data Bank at RCSB (http //www.rcsb.org/pdb/). On the home page (Figure 4.15), enter PDB ID (check the box query by PDB id only ) or keywords (check the box match exact word ) and click Find a structure button. Alternatively, initiate search/retrieval by selecting SearchLite. On the query page, enter the keyword (e.g., the name of ligand or biomacromolecule) and click Search button. Select the desired entry from the list of hits to access Summary information of the selected molecule. From the Summary information, select Download/Display file and then PDB Text and PDB noncompression format to retrieve the pdb file. In order to display 3D structure online, choose View structure followed by selecting one of 3D display options. The display can be saved in. jpg or. gif image format. 

Crystal structures are stored in formatted text files called "PDB" files. These files can be freely downloaded from the RCSB Protein Data Bank at http //www.pdb.org. Information on how to search and navigate the PDB is available on the PDB home page. 

Figure 16 Using the Materials module of Mercury packing feature search to identity the correct docking pose in the binding cavity of serine protease factor Xa. (a) The stacking interaction between the Ugand and the protein for docking poses A and B (see text), (b) The histogram displays the low RMSD matches of the two docking poses and compares them with the pose in the protein-ligand crystal structure.

This section provides data on specific transcripts and proteins, including which protein is encoded by which transcript, transcript exon structure, protein domains, and subcellular localization. Expression pattern data (including Northern and Western blot data as well as in situ hybridization and antibody staining data) are presented both in a tabulated form using a controlled vocabulary format and in a detailed free-text format. An image-based expression pattern search tool, which can access data captured in the controlled vocabulary format, is being developed. 

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