Grzegorz Jezierski scite author profile

Molecular dynamics (MD) simulations of fully hydrated bilayers in the liquid-crystalline state made of 1-palmitoyl-2-oleoyl-phosphatidylcholine (POPC) or 1-palmitoyl-2-elaidoyl-phosphatidylcholine (PEPC) were carried out to investigate the effect of the incorporation of a double bond in the phosphatidylcholine (PC) beta-chain (cis or trans) on the membrane/water interface. The bilayers reached thermal equilibrium after 3 and 1 ns of MD simulations, respectively, and productive runs were carried out for 3 ns for each bilayer. As reference systems, the 1,2-dimyristoyl-phosphatidylcholine (DMPC) bilayer (M. Pasenkiewicz-Gierula, Y. Takaoka, H. Miyagawa, K. Kitamura, and A. Kusumi, 1999, Biophys. J. 76:1228-1240) and DMPC-cholesterol (Chol) bilayer containing 22 mol % Chol (M. Pasenkiewicz-Gierula, T. Róg, K. Kitamura, A. and Kusumi, 2000, Biophys. J. 78:1376-1389) were used. The study shows that at the interface of POPC, PEPC, and DMPC-Chol bilayers, average numbers of PC-water and PC-PC interactions are similar and, respectively, greater and smaller than in the DMPC bilayer. The average area/PC in mono-unsaturated bilayers is approximately 4 A(2) larger than in the DMPC bilayer; nevertheless, a strong correlation was found between a single molecular area (SMA) of a PC and the number of interactions this PC makes; i.e., PCs (either saturated or unsaturated) with the same SMA form similar numbers of intermolecular links. The numbers and corresponding SMAs are distributed about averages pertinent to each bilayer. No significant difference between cis and trans bonds was found.

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DnaK/DnaJ chaperone system reactivates endogenous E coli thermostable FBP aldolase in vivo and in vitro; the effect is enhanced by GroE heat shock proteins

Kȩdzierska

Jezierski²,

Taylor³

2001

Cell Stress Chaper

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Thermally aggregated, endogenous proteins in Escherichia coli cells form the S fraction, which is separable by sucrose density gradient centrifugation. To date, relatively little is known about the mechanisms of elimination of the heat-aggregated proteins from E. coli cells and the composition of the S fraction. We have identified several proteins of the S fraction using 2D-gel electrophoresis and microsequencing. A thermostable II class fructose-1,6-bisphosphate aldolase (Fda protein) appeared to be one of numerous proteins of the S fraction. Fda was purified from E. coli overproducer strain and used as a model substrate for investigation of the role of Hsps in prevention and repair of thermal denaturation of proteins both in vivo and in vitro. We found that the heat inactivation of Fda was reversible and that its reactivation in vivo and in vitro required mainly the assistance of the DnaK/DnaJ chaperone system. The dnaK756 and dnaJ259 mutations had a negative effect on the reactivation of thermally inactivated Fda. Moreover, we showed that the reactivation process in vitro was enhanced when GroEL/GroES were added together with DnaK/DnaJ. GroEL/GroES alone were inefficient in the resolubilization or reactivation of the heat-aggregated Fda. It is supposed that the denaturation of the thermostable Fda in vivo results rather from a temporary and transient deficit of Hsps than from the direct heat effect.

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Electronic coupling between base pair dimers of LNA:DNA oligomers

Ivanova

Jezierski

Rösch

2008

Phys. Chem. Chem. Phys.

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We calculated ab initio electronic coupling elements between neighboring base-pair dimers in a set of LNA:DNA oligomers with different numbers of locked nucleotides and compared them by averaging the values over ensembles of snapshots from molecular dynamics trajectories. Averaging was based on coupling elements for various ensembles comprising of 33,000 structures. The known pronounced variations of coupling elements on the nanosecond timescale due to thermal fluctuations of the DNA structure were confirmed. We found significant differences in electronic coupling at the dimer level between a non-modified DNA:DNA duplex and the corresponding duplex containing one fully LNA-substituted strand. We rationalized these differences by very dissimilar overlap in the pi-stack as a consequence of the LNA-modified system approximating an A-DNA-type helix. The calculated coupling elements for the non-modified reference duplex were similar to those of standard B-DNA and those for the fully modified oligomer resembled the matrix elements estimated for standard A-DNA.

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Structure of Rhodamine 6G−DNA Complexes from Molecular Dynamics Simulations

et al. 2007

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Chromophore-DNA complexes are useful for understanding charge transport along pi-stacks once their structural properties have been clarified. We studied two rhodamine 6G semicapping complexes with 15-mer B-DNA duplexes to determine the preferred orientation of the dye with respect to the neighboring base pair. For each of these systems, two distinct chromophore alignments were identified and quantified in terms of base-step parameters. The obtained geometries agree well with those derived from an NMR structure refinement of similar complexes. Cross-correlation analysis of the base-step parameters shows that slide and twist are highly interdependent during the structural transition from one conformation to the other.

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The effect of the Glu342Lys mutation in alpha1-antitrypsin on its structure, studied by molecular modelling methods.

Jezierski¹,

Pasenkiewicz-Gierula²

2001

Acta Biochim Pol

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The structure of native alpha1-antitrypsin, the most abundant protease inhibitor in human plasma, is characterised primarily by a reactive loop containing the centre of proteinase inhibition, and a beta-sheet composed of five strands. Mobility of the reactive loop is confined as a result of electrostatic interactions between side chains of Glu342 and Lys290, both located at the junction of the reactive loop and the beta structure. The most common mutation in the protein, resulting in its inactivation, is Glu342-->Lys, named the Z mutation. The main goal of this work was to investigate the influence of the Z mutation on the structure of alpha1-antitrypsin. Commonly used molecular modelling methods have been applied in a comparative study of two protein models: the wild type and the Z mutant. The results indicate that the Z mutation introduces local instabilities in the region of the reactive loop. Moreover, even parts of the protein located far apart from the mutation region are affected. The Z mutation causes a relative change in the total energy of about 3%. Relatively small root mean square differences between the optimised structures of the wild type and the Z mutant, together with detailed analysis of 'conformational searching' process, lead to the hypothesis that the Z mutation principally induces a change in the dynamics of alpha1-antitrypsin.

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