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Peptides large linear

As discussed in Section II.A.l, primary structure is simply the order in which various amino acids are covalently linked (via peptide bonds) to create a large linear molecule, sometimes called the polypeptide chain. The primary structure also has an element of directionality, wherein the first amino acid is at the amino (NH2) terminus and the last is at the carboxy (COOH) terminus. [Pg.304]

Most reactions in cells are carried out by enzymes [1], In many instances the rates of enzyme-catalysed reactions are enhanced by a factor of a million. A significantly large fraction of all known enzymes are proteins which are made from twenty naturally occurring amino acids. The amino acids are linked by peptide bonds to fonn polypeptide chains. The primary sequence of a protein specifies the linear order in which the amino acids are linked. To carry out the catalytic activity the linear sequence has to fold to a well defined tliree-dimensional (3D) stmcture. In cells only a relatively small fraction of proteins require assistance from chaperones (helper proteins) [2]. Even in the complicated cellular environment most proteins fold spontaneously upon synthesis. The detennination of the 3D folded stmcture from the one-dimensional primary sequence is the most popular protein folding problem. [Pg.2642]

The amphipathic a-helical class of host defense peptides is the most abundant and most well-characterized class. Upon interaction with the hydrophobic membrane environment, the largely unstructured peptide adopts an amphipathic ct-helical conformation with one helical face containing the majority of the hydrophobic residues, the opposite containing a large proportion of the polar residues. These peptides are often short (<40 amino acids), devoid of cysteine residues, and found to be unstructured or linear in nonhydrophobic environments. Peptides found within this class include the antimicrobial peptide alamethicin, bee venom melittin, the magainins, and the human cathelicidin LL-37. ... [Pg.182]

The important difference between linear and cyclic peptides is the reduced conformational flexibility imposed by the cyclization. 14,151 Cyclic peptides have, therefore, been under intense investigation with respect to their conformational preferences 30,31 and their different turn motifs, e.g. reverse turns. 32 35 To differentiate between the structural influences of the numerous sequence elements the following special concepts have been described 161 (1) Global constraints are structural characteristics that restrict the whole molecule, e.g. the macrocyclic structure of the peptide framework and (2) local constraints comprise a large number of structure-inducing building blocks, such as proline, D-amino acids, and turn mimetics. [Pg.463]

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Linear peptides

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