Open AccessSpecificity of molecular recognition in oligomerization of bacterial L-asparaginases
Author(s) -
Yuri V. Mezentsev,
A. A. Molnar,
Н. Н. Соколов,
V. B. Lisitsina,
Ivanov As,
A. I. Archakov,
M.A. Archakov
Publication year - 2012
Publication title -
biomeditsinskaya khimiya
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.192
H-Index - 15
eISSN - 2310-6972
pISSN - 2310-6905
DOI - 10.18097/pbmc20125801050
Subject(s) - asparaginase , protein subunit , avidity , point mutation , chemistry , enzyme , mutant , mutation , biochemistry , computational biology , biology , genetics , gene , antigen , lymphoblastic leukemia , leukemia
Bacterial L-asparaginases, which are widely used in the antitumor therapy, act only as homotetramers, because their active sites are located at the interface between the subunits of the enzyme. Since salt bridges substantially stabilize L-asparaginase tetramers, we have supposed that oligomerization of bacterial L-asparaginase is a high-avidity process. This assumption was proved by bioinformatic and biosensoric methods. It was shown, that a stable tetrameric complex can be formed only by the subunits of the same L-asparaginase. Using two mutants of L-asparaginase Helicobacter pylori it was shown that specificity of molecular recognition is significantly reduced even by single point mutation at the interface of high-homologous closely-related subunits.
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