ISSN:
1573-4943
Keywords:
N-terminal
;
transamination
;
imine reduction
Source:
Springer Online Journal Archives 1860-2000
Topics:
Chemistry and Pharmacology
Notes:
Abstract The first efforts to modify the terminal α-amino groups of proteins without reaction of the ɛ-amino groups of lysine residues made use of their lower pK values. A pH below 7 favors modification of weaker bases, since the stronger bases, although more reactive, are protected to an even greater extent by protonation. Unfortunately, this approach only favors modification of terminal over side-chain amino groups to a limited extent. N-Terminal serine and threonine residues may be selectively acylated on the amino group by an acyl transfer reaction after a peptide has been selectively acylated on its hydroxyl groups. This approach is severely limited by the need for the peptide to be stable to the acidic and anhydrous conditions necessary for selective O-acylation, and to the alkaline conditions necessary for removing the remaining O-acyl groups. Terminal serine and threonine residues may also be selectively oxidized by periodate, since this reaction is a thousand-fold faster than other oxidations of periodate, e.g., of 1,2-diols or disulfides. Further, it forms glyoxyloyl groups, which may be converted into terminal glycine residues by transamination. The last observation provided the basis for the one general modification of N-terminal residues, namely their conversion into 2-oxoacyl groups by reaction of the α-amino group with glyoxylate, a reaction catalysed by a bivalent cation, e.g., Cu2+, and a base, e.g., acetate. Participation of the neighboring peptide bond in the reaction ensures specificity of the reaction for the N-terminus. Scission of the N-terminal residue is possible after such a transamination; hence residues may be removed from the N-terminus under nondenaturing conditions. Other exploitations of transamination may be developed.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1007/BF01024840
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