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Isoleucine residues chymotrypsin

Fig. Z14. The activation of chymotrypsin via proteolytic cleavage, a) Chymotrypsinogen is transformed into the active forms of chymotrypsin n and a by trypsin and autoproteolysis, b) The N-terminal isoleucine residue Ile6 is particularly important for the activity of chymotrypsin. The positively charge NH2 group of llel6 interacts electrostatically with Aspl94 and stabilizes an active conformation of the catalytic center. After Stryer Biochemistry , with permission. Fig. Z14. The activation of chymotrypsin via proteolytic cleavage, a) Chymotrypsinogen is transformed into the active forms of chymotrypsin n and a by trypsin and autoproteolysis, b) The N-terminal isoleucine residue Ile6 is particularly important for the activity of chymotrypsin. The positively charge NH2 group of llel6 interacts electrostatically with Aspl94 and stabilizes an active conformation of the catalytic center. After Stryer Biochemistry , with permission.
Fig. 9 Correlation of (A) the second order rate constants (k2 = kcatIKM) and (B) the transition stabilization (pATS) with the hydrophobicity (it) of the substituent of the amino acid residue for the cleavage of /V-acetylamino acid methyl esters by a-chymotrypsin. The open symbols are for the points for two branched residues (valine and isoleucine). Data from Table A6.8. Fig. 9 Correlation of (A) the second order rate constants (k2 = kcatIKM) and (B) the transition stabilization (pATS) with the hydrophobicity (it) of the substituent of the amino acid residue for the cleavage of /V-acetylamino acid methyl esters by a-chymotrypsin. The open symbols are for the points for two branched residues (valine and isoleucine). Data from Table A6.8.
The few examples of chjnnotryptic hydrolysis of bonds formed by cysteic acid, glycine, isoleucine, serine, and valine suggest that cleavage at these residues is possible. There are not enough data available at this time to suggest a correlation between susceptibility of these bonds and the influence of neighboring basic residues. On the other hand, chymotrypsin would... [Pg.70]

Initial attempts to achieve an enzyme-catalyzed deprotection of the carboxy group of peptides centred around the use of the endopeptidases chymotrypsin, trypsin,and thermolysin.P l Thermolysin is a protease obtained from Bacillus thermoproteolyticus that hydrolyzes peptide bonds on the annino side of the hydrophobic amino acid residues (e.g., leucine, isoleucine, valine, phenylalanine). It cleaved the supporting tripeptide ester H-Leu-Gly-Gly-OEt from a protected undecapeptide (pH 7, rt). The octapeptide, thus obtained, is composed exclusively of hydrophilic annino acids. Due to the broad substrate specificity of thermolysin and the resulting possibility of unspecific peptide hydrolysis, this method is of limited application. [Pg.304]

Figure 37.1. Three-dimensional structure of a-chymotrypsin. Histidine-57, serine-195, and isoleucine-16 are shaded. The hydrophobic pocket lies to the right of histidine-57 and erine-196, where M is marked it is bounded by residues 1S4-191 and 214-227. Figure 37.1. Three-dimensional structure of a-chymotrypsin. Histidine-57, serine-195, and isoleucine-16 are shaded. The hydrophobic pocket lies to the right of histidine-57 and erine-196, where M is marked it is bounded by residues 1S4-191 and 214-227.
See other pages where Isoleucine residues chymotrypsin is mentioned: [Pg.183]    [Pg.237]    [Pg.205]    [Pg.93]    [Pg.105]    [Pg.611]    [Pg.156]    [Pg.429]    [Pg.611]    [Pg.281]    [Pg.182]    [Pg.770]    [Pg.183]    [Pg.47]   


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Chymotrypsin

Chymotrypsins

Isoleucin

Isoleucinate

Isoleucine

Isoleucine residues

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