Amino acids polypeptide cleavage

Human TNF-a is initially synthesized as a 233 amino acid polypeptide that is anchored in the plasma membrane by a single membrane-spanning sequence. This TNF pro-peptide, which itself displays biological activity, is usually proteolytically processed by a specific extracellular metallo-protease. Proteolytic cleavage occurs between residues 76 (Ala) and 77 (Val), yielding the mature (soluble) 157 amino acid TNF-a polypeptide. Mature human TNF-a appears to be devoid of a carbohydrate component, and contains a single disulfide bond. 

TGF-a is initially synthesized as an integral membrane protein. Proteolytic cleavage releases the soluble growth faetor, which is a 50 amino acid polypeptide. This growth factor exhibits a high... 

Human immunodeficiency virus (HIV) is the etiological agent of acquired immune deficiency syndrome (AIDS). The replication of the HIV requires a viral aspartyl protease (HIV protease) to process the virally encoded gag and gag-pol polyproteins. These cleavage events release enzymes and structural proteins that are essential for the assembly of infectious viral particles. Inhibition of HIV protease activity in infected cells thus leads to the production of an immature, noninfectious virus. HIV protease (PR) differs from monomeric aspartyl proteases in that the active site is formed by the assembly of two 99 amino acid polypeptides into a functional homodimer. 

ENZYMATIC ANALYSIS WITH CARBOXYPEPTIDASES. Carboxypeptidases are enzymes that cleave amino acid residues from the C-termini of polypeptides in a successive fashion. Four carboxypeptidases are in general use A, B, C, and Y. Carboxypeptidase A (from bovine pancreas) works well in hydrolyzing the C-terminal peptide bond of all residues except proline, arginine, and lysine. The analogous enzyme from hog pancreas, carboxypeptidase B, is effective only when Arg or Lys are the C-terminal residues. Thus, a mixture of carboxypeptidases A and B liberates any C-terminal amino acid except proline. Carboxypeptidase C from citrus leaves and carboxypeptidase Y from yeast act on any C-terminal residue. Because the nature of the amino acid residue at the end often determines the rate at which it is cleaved and because these enzymes remove residues successively, care must be taken in interpreting results. Carboxypeptidase Y cleavage has been adapted to an automated protocol analogous to that used in Edman sequenators. 

The amino acid sequence may be such that enzymatic cleavage at different residues may give rise to identical fragments, thus reducing the number of discrete polypeptides expected. Examination of Table 5.7 shows that, in this case, fragments T7 and T13 are identical. 

As we have already seen zinc-finger peptides are well-studied polypeptide motifs that have found many applications in synthetic systems, mostly because of their abihty to bind metal ions and interact with oligonucleotides. In this context the report by lima and Crooke [44] of the hydrolytic cleavage by a zinc-finger peptide devoid of any metal ion is a surprising. The system they studied, a 30-amino acid sequence, is based on a catalytic mechanism very similar to that discussed above... 

While the first 20-30 residues of a peptide can readily be determined by the Edman method, most polypeptides contain several hundred amino acids. Consequently, most polypeptides must first be cleaved into smaller peptides prior to Edman sequencing. Cleavage also may be necessary to circumvent posttranslational modifications that render a protein s a-amino group blocked , or unreactive with the Edman reagent. 

Figure 12.5 Proteolytic cleavage of prothrombin by factor Xa, yielding active thrombin. Although prothrombin is a single-chain glycoprotein, thrombin consists of two polypeptides linked by what was originally the prothrombin intrachain disulfide bond. The smaller thrombin polypeptide fragment consists of 49 amino acid residues, and the large polypeptide chain contains 259 amino acids. The N-terminal fragment released from prothrombin contains 274 amino acid residues. Activation of prothrombin by Xa does not occur in free solution, but at the site of vascular damage...

As mentioned earlier, by far the largest number of zinc enzymes are involved in hydrolytic reactions, frequently associated with peptide bond cleavage. Carboxypeptidases and ther-molysins are, respectively, exopeptidases, which remove amino acids from the carboxyl terminus of proteins, and endopeptidases, which cleave peptide bonds in the interior of a polypeptide chain. However, they both have almost identical active sites (Figure 12.4) with two His and one Glu ligands to the Zn2+. It appears that the Glu residue can be bound in a mono- or bi-dentate manner. The two classes of enzymes are expected to follow similar reaction mechanisms. 

The NC-IUBMB classifies peptidases (EC 3.4) into exopeptidases (EC 3.4.11-19), which remove one or a few amino acids, and endopeptidases (proteinases, EC 3.4.21-99), which catalyze the cleavage of peptide bonds away from either end of the polypeptide chain (Fig. 2.1). Exopeptidases are further subdivided into enzymes that carry out hydrolysis at the N-terminus or the C-terminus (Figs. 2.1 and 2.2). Thus, aminopeptidases (EC 3.4.11) cleave a single amino acid from the N-terminus [3] those removing a dipep-... 

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