ExPASy sequence alignment

The ExPASy server (www.expasy.chl is one of the most useful servers, where almost any bioinforma tic tool can be found, together with useful links to other websites such as NCBI or EBI. The several access databases are descriptive, easy to follow, and up to date. Protein data bank searches with SwissProt or Trembl, as well as sequence alignments using either SimAlign (for two sequences) or ClustalW (for more than two protein sequences) can be started from ExPASy, to name just a few of the possibilities available. Access is also given to the Roche Applied Science Biochemical pathways where either keyword searches for particular enzymes or for metabolites can be performed, or entire metabolic pathways or sections thereof can be visualized. Proteomics evaluation is also available on ExPASy, which features free 2D-PAGE software called Melanie. 

There are different classes of protein sequence databases. Primary and secondary databases are used to address different aspects of sequence analysis. Composite databases amalgamate a variety of different primary sources to facilitate sequence searching efficiently. The primary structure (amino acid sequence) of a protein is stored in primary databases as linear alphabets that represent the constituent residues. The secondary structure of a protein corresponding to region of local regularity (e.g., a-helices, /1-strands, and turns), which in sequence alignments are often apparent as conserved motifs, is stored in secondary databases as patterns. The tertiary structure of a protein derived from the packing of its secondary structural elements which may form folds and domains is stored in structure databases as sets of atomic coordinates. Some of the most important protein sequence databases are PIR (Protein Information Resource), SWISS-PROT (at EBI and ExPASy), MIPS (Munich Information Center for Protein Sequences), JIPID (Japanese International Protein Sequence Database), and TrEMBL (at EBI). ... 

Figure 11,4. ExPASy Proteomic tools. ExPASy server provides various tools for proteomic analysis which can be accessed from ExPASy Proteomic tools. These tools (locals or hyperlinks) include Protein identification and characterization, Translation from DNA sequences to protein sequences. Similarity searches, Pattern and profile searches, Post-translational modification prediction, Primary structure analysis, Secondary structure prediction, Tertiary structure inference, Transmembrane region detection, and Sequence alignment.

Sequence alignment and homology modeling. Sequence alignment and homology modeling were done using Ebi (www.ebi.ac.uk) and WISS-PROT (http //swissmodel.expasy.org/) servers. 

The aim of the fust dimension breadth is to reveal sequence-function relationships by comparing protein sequences by sequence similarity. Simple bioinformatic algorithms can be used to compare a pair of related proteins or for sequence similarity searches e.g., BLAST (Basic Local Alignment Search Tool). Improved algorithms allow multiple alignments of larger number of proteins and extraction of consensus sequence pattern and sequence profiles or structural templates, which can be related to some functions, see e.g., under http //www. expasy.ch/tools/ similarity. 

A current version of the chemokine alignment is shown in Fig. 2. Full listings of the known chemokines can be found at the Kumamoto University site (http Wcytokine.medic.kumamoto-u.ac.jp CFC CK chemokine.html). An earlier version of the figure is available at the Chemokine Information Source at http www.expasy.ch cgi-bin chemokineTop.pl where there is an automated search within Swissprot for new names deposited for the existing sequences. 

Before one aligns protein sequences, it is prudent to inspect the target and template sequences because one often finds the sequence of the template structure to be different from that obtained by ExPASy. These differences... 

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