Peptide sequence: Difference between revisions
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== Sequence notation and applications== |
== Sequence notation and applications== |
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Many peptide sequences have been n [[sequence database]]s. These databases may use various notations to describe the peptide sequence. The full names of the amino acids are rarely given; instead, [[Amino_acid# |
Many peptide sequences have been n [[sequence database]]s. These databases may use various notations to describe the peptide sequence. The full names of the amino acids are rarely given; instead, [[Amino_acid#Table_of_standard_amino_acid_abbreviations_and_side_chain_properties|3-letter or 1-letter abbreviations]] are usually recorded for conciseness. |
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Several deductions can be made from the sequence itself. Long stretches of [[hydrophobic]] residues may indicate [[transmembrane helix|transmembrane helices]]. These helices may indicate the peptide is a [[cell receptor]]. Certain residues indicate a [[beta sheet]] area. If full-length protein sequence is available, it is possible to estimate the [[isoelectric point]] of the protein. Methods for determining the peptide sequence include deduction from [[DNA]] sequence, [[Edman degradation]], and [[mass spectrometry]]. |
Several deductions can be made from the sequence itself. Long stretches of [[hydrophobic]] residues may indicate [[transmembrane helix|transmembrane helices]]. These helices may indicate the peptide is a [[cell receptor]]. Certain residues indicate a [[beta sheet]] area. If full-length protein sequence is available, it is possible to estimate the [[isoelectric point]] of the protein. Methods for determining the peptide sequence include deduction from [[DNA]] sequence, [[Edman degradation]], and [[mass spectrometry]]. |
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Revision as of 11:04, 14 February 2009
Peptide sequence or amino acid sequence is the order in which amino acid residues, connected by peptide bonds, lie in the chain in peptides and proteins. The sequence is generally reported from the N-terminal end containing free amino group to the C-terminal end containing free carboxyl group. Peptide sequence is often called protein sequence if it represents the primary structure of a protein.
Sequence notation and applications
Many peptide sequences have been n sequence databases. These databases may use various notations to describe the peptide sequence. The full names of the amino acids are rarely given; instead, 3-letter or 1-letter abbreviations are usually recorded for conciseness.
Several deductions can be made from the sequence itself. Long stretches of hydrophobic residues may indicate transmembrane helices. These helices may indicate the peptide is a cell receptor. Certain residues indicate a beta sheet area. If full-length protein sequence is available, it is possible to estimate the isoelectric point of the protein. Methods for determining the peptide sequence include deduction from DNA sequence, Edman degradation, and mass spectrometry.
Techniques in sequence analysis can be applied to learn more about the peptide. These techniques generally consist of comparing the sequence to other sequences from sequence databases. Other sequences may have already been studied and determined to be significant. Findings about these sequences may be applicable to the sequence under investigation.