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Evolutionary conserved residues

Small tfbiquitin-like modifier represents a family of evolutionary conserved proteins that are distantly related in amino-acid sequence to ubiquitin, but share the same structural folding with ubiquitin proteins. SUMO proteins are covalently conjugated to protein substrates by an isopeptide bond through their carboxyl termini. SUMO addition to lysine residues of target proteins, termed SUMOylation, mediates post-transla-tional modification and requires a set of enzymes that are distinct from those that act on ubiquitin. SUMOylation regulates the activity of a variety of tar get proteins including transcription factors. [Pg.1162]

Caspases are a family of evolutionary conserved cysteine proteases that cleave their substrates after an aspartic acid residue within a defined consensus sequence (Alnemri et al, 1996). They play a cracial role in the apoptotic program, as most of the characteristic features observed in apoptosis are attributable to their action (Eamshaw et al, 1999). They are... [Pg.288]

However, recently it has proved possible to positively identify tryptophan radicals in cytochromec peroxidase[147] and tyrosine radicals in ribonucleotide reductase, prostaglandin H synthase and photosystem II of chloroplasts [148], This has been achieved by a combination of the techniques discussed already, but with the powerful, additional non-invasive tool of isotopic substitution. As deuterons (5=1) give different splitting than protons (S = 1/2), substituting different labelled amino-acid residues into the enzyme should reveal the nature of the radical-containing residue. This is easily achieved in an auxotrophic mutant that requires this amino acid to be supplied in the medium. The specific residue can then be identified by site-directed mutagenesis of the evolutionary conserved amino-acid residues [108,149-151]. [Pg.89]

A method for detecting conserved residues, called evolutionary tracing (ET), was developed by lichtarge et al. [45], Several groups have embarked on developing methods for detecting functional sites based on ET and related methods (see... [Pg.105]

Boucher, I., Fukamizo, T., Honda, Y., Willick, G.E., Neugebauer, W.A., and Brzezinski, R. 1995. Site-directed mutagenesis of evolutionary conserved carboxylic amino acids in the chitosanase from Streptomyces sp. N174 reveals two residues essential for catalysis. J. Biol. Chem. 270 31077-31082. [Pg.322]

Lesk and Chothia did find, however, that there is a striking preferential conservation of the hydrophobic character of the amino acids at the 59 buried positions, but that no such conservation occurs at positions exposed on the surface of the molecule. With a few exceptions on the surface, hydrophobic residues have replaced hydrophilic ones and vice versa. However, the case of sickle-cell hemoglobin, which is described below, shows that a charge balance must be preserved to avoid hydrophobic patches on the surface. In summary, the evolutionary divergence of these nine globins has been constrained primarily by an almost absolute conservation of the hydro-phobicity of the residues buried in the helix-to-helix and helix-to-heme contacts. [Pg.43]

The globin fold has been used to study evolutionary constraints for maintaining structure and function. Evolutionary divergence is primarily constrained by conservation of the hydrophobicity of buried residues. In contrast, neither conserved sequence nor size-compensatory mutations in the hydrophobic core are important. Proteins adapt to mutations in buried residues by small changes of overall structure that in the globins involve movements of entire helices relative to each other. [Pg.45]

The antibiotic activity of certain (3-lactams depends largely on their interaction with two different groups of bacterial enzymes. (3-Lactams, like the penicillins and cephalosporins, inhibit the DD-peptidases/transpeptidases that are responsible for the final step of bacterial cell wall biosynthesis.63 Unfortunately, they are themselves destroyed by the [3-lactamases,64 which thereby provide much of the resistance to these antibiotics. Class A, C, and D [3-lactamases and DD-peptidases all have a conserved serine residue in the active site whose hydroxyl group is the primary nucleophile that attacks the substrate carbonyl. Catalysis in both cases involves a double-displacement reaction with the transient formation of an acyl-enzyme intermediate. The major distinction between [3-lactamases and their evolutionary parents the DD-peptidase residues is the lifetime of the acyl-enzyme it is short in (3-lactamases and long in the DD-peptidases.65-67... [Pg.373]

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See also in sourсe #XX -- [ Pg.90 ]



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Conserved residues

Evolutionary conservation

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