John R. Bagu scite author profile

Three different drying methods, critical-point drying (CPD), Peldri II, and hexamethyldisilazane (HMDS), were compared using representative animal (rat kidney, trachea, duodenum, lung, and red blood cells) and plant (leaves from ten species of monocotyledons and dicotyledons) specimens. All three drying methods produced identical results with animal specimens. Plant specimens showed signs of shrinkage regardless of which drying method was employed. The order of preservation quality from best to worst for leaves was CPD > Peldri II > HMDS, with the CPD method providing substantially better results in all but one case. Postfixation of leaves with osmium tetroxide resulted in poorer preservation in all instances. Peldri II caused complete extraction of leaf cuticular wax, while both both CPD and HMDS showed minimal extraction compared with samples air dried directly from acetone. These results indicate that HMDS provides a time-saving and inexpensive alternative to CPD for animal specimens. Plant specimens, particularly those containing cells with large central vacuoles, are adequately preserved only with the CPD method. In addition, postfixation with osmium should be avoided when processing plant specimens for scanning electron microscopy.

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Structure‐based thermodynamic analysis of the dissociation of protein phosphatase‐1 catalytic subunit and microcystin‐LR docked complexes

Lavigne

Bagu

Boyko

et al. 2000

Protein Science

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The relationship between the structure of a free ligand in solution and the structure of its bound form in a complex is of great importance to the understanding of the energetics and mechanism of molecular recognition and complex formation. In this study, we use a structure-based thermodynamic approach to study the dissociation of the complex between the toxin microcystin-LR (MLR) and the catalytic domain of protein phosphatase-1 (PP-1c) for which the crystal structure of the complex is known. We have calculated the thermodynamic parameters (enthalpy, entropy, heat capacity, and free energy) for the dissociation of the complex from its X-ray structure and found the calculated dissociation constant (4.0 x 10(-11)) to be in excellent agreement with the reported inhibitory constant (3.9 x 10(-11)). We have also calculated the thermodynamic parameters for the dissociation of 47 PP-1c:MLR complexes generated by docking an ensemble of NMR solution structures of MLR onto the crystal structure of PP-1c. In general, we observe that the lower the root-mean-square deviation (RMSD) of the docked complex (compared to the X-ray complex) the closer its free energy of dissociation (deltaGd(o)) is to that calculated from the X-ray complex. On the other hand, we note a significant scatter between the deltaGd(o) and the RMSD of the docked complexes. We have identified a group of seven docked complexes with deltaGd(o) values very close to the one calculated from the X-ray complex but with significantly dissimilar structures. The analysis of the corresponding enthalpy and entropy of dissociation shows a compensation effect suggesting that MLR molecules with significant structural variability can bind PP-1c and that substantial conformational flexibility in the PP-1c:MLR complex may exist in solution.

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A Molecular Basis for Different Interactions of Marine Toxins with Protein Phosphatase-1

Bagu¹,

Sykes

Craig

et al. 1997

Journal of Biological Chemistry

140

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Investigation of the Role of the Histidine–Aspartate Pair in the Human Exonuclease III-like Abasic Endonuclease, Ape1

Lowry

Hoyt

Khazi

et al. 2003

Journal of Molecular Biology

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John R. Bagu

Comparison of hexamethyldisilazane (HMDS), Peldri II, and critical‐point drying methods for scanning electron microscopy of biological specimens

Structure‐based thermodynamic analysis of the dissociation of protein phosphatase‐1 catalytic subunit and microcystin‐LR docked complexes

A Molecular Basis for Different Interactions of Marine Toxins with Protein Phosphatase-1

Investigation of the Role of the Histidine–Aspartate Pair in the Human Exonuclease III-like Abasic Endonuclease, Ape1

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