Comparative analysis of the active sites of orthologous endolysins of the Escherichia lytic bacteriophages T5, RB43, and RB49.

The methods of solution NMR, circular dichroism (CD), and differential scanning calorimetry (DSC) were used to study two zinc-containing L-alanyl-D-glutamate peptidases - endolysins of the pseudo T-even myoviruses RB43 and RB49 (EndoRB43 and EndoRB49, respectively), which are orthologous to the EndoT5, which is a zinc-containing L-alanyl-D-glutamate peptidase of the T5 siphovirus. The spatial conservation of the Zn-binding sites for the enzymes EndoT5, EndoRB43, and EndoRB49 was established, and the key role of Zn ions in the stabilization of the spatial structures of these three peptidases was confirmed. We are showing here that the binding of the Zn ion in the active center of EndoRB49 peptidase causes conformational rearrangements similar to those observed in the EndoT5 peptidase upon binding of Zn and Ca ions and lead to the formation of a catalytically active form of the enzyme.

Evidence for the residual tertiary structure in the urea-unfolded form of bacteriophage T5 endolysin.

Using high-resolution NMR spectroscopy, we studied peculiarities of the unfolding process of the bacteriophage T5 endolysin (EndoT5) by strong denaturants. It was shown that in the absence of zinc ions this protein is mostly unfolded in the solution of 8 M urea or 6 M guanidine hydrochloride. However, in the presence of zinc ions EndoT5 unfolding can be achieved only in acidic solutions (at pH < 4.

Looking at microbial metabolism by high-resolution (2)H-NMR spectroscopy.

We analyzed the applicability of high-resolution (2)H-HMR spectroscopy for the analysis of microbe metabolism in samples of mitochondrion isolated from rat liver and from aqueous extracts of homogenates of rat liver and other organs and tissues in the presence of high D2O contents. Such analysis is possible due to the fast microbe adaptation to life in the heavy water. It is also shown that some enzymatic processes typical for the intact cells are preserved in the homogenized tissue preparations.