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Sequence motif - Overview | | Sequence motif - Overview: Encyclopedia II - Sequence motif - Overview | | When a sequence motif appears in the exon of a gene, it may encode the "structural motif" of a protein; that is a stereotypical element of the overall structure of the protein. Nevertheless, motifs need not be associated with a distinctive secondary structure. "Noncoding" sequences are not translated into proteins and nucleic acids with such motifs need not deviate from the typical shape (e.g. the "B-form" DNA double helix).
Outside of gene exons, there exist regulatory sequence motifs and motifs within the "junk," such as sate ...
See also:Sequence motif, Sequence motif - Overview, Sequence motif - Motif bioinformatics, Sequence motif - Motifs and consensus sequences, Sequence motif - Software, Sequence motif - Discovery through evolutionary conservation, Sequence motif - Pattern description notations, Sequence motif - Another scheme | | | Sequence motif, Sequence motif - Another scheme, Sequence motif - Discovery through evolutionary conservation, Sequence motif - Motif bioinformatics, Sequence motif - Motifs and consensus sequences, Sequence motif - Overview, Sequence motif - Pattern description notations, Sequence motif - Software | | |
| | | Sequence motif: Encyclopedia II - Sequence motif - Overview
Sequence motif - Overview
When a sequence motif appears in the exon of a gene, it may encode the "structural motif" of a protein; that is a stereotypical element of the overall structure of the protein. Nevertheless, motifs need not be associated with a distinctive secondary structure. "Noncoding" sequences are not translated into proteins and nucleic acids with such motifs need not deviate from the typical shape (e.g. the "B-form" DNA double helix).
Outside of gene exons, there exist regulatory sequence motifs and motifs within the "junk," such as satellite DNA. Some of these are believed to affect the shape of nucleic acids (see for example RNA self-splicing), but this is only sometimes the case. For example, many DNA binding proteins that have affinities for specific motifs only bind DNA in its double-helical form. They are able to recognize motifs through contact with the double helix's major or minor groove.
Short coding motifs, which appear to lack secondary structure, include those that label proteins for delivery to particular parts of a cell, or mark them for phosphorylation.
Within a sequence or database of sequences, researchers search and find motifs using computer-based techniques of sequence analysis, such as BLAST. Such techniques belong to the discipline of bioinformatics.
See also consensus sequence.
Other related archivesBLAST, DNA, DNA binding proteins, E. coli, IUPAC, Noncoding, PDB, amino acids, amino-acid, bioinformatics, biological, cell, consensus sequence, database, double helix, encode, exon, gene, genetic code, genetics, hidden Markov model, junk, label, nucleic acids, nucleotide, operon, overall structure, phosphorylation, protein, regular expressions, regulatory sequence, satellite DNA, secondary structure, sequence, sequence analysis, structural motif, translated, zinc finger
 Adapted from the Wikipedia article "Overview", under the G.N U Free Docmentation License. Please also see http://en.wikipedia.org/wiki |
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