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141.
142.
Anne-Marie Lüchtenborg Vladimir Purvanov Bogdan?S. Melnik Simon Becker Vladimir?L. Katanaev 《Bioscience reports》2015,35(6)
Drosophila GoLoco motif-containing protein Pins is unusual in its highly efficient interaction with both GDP- and the GTP-loaded forms of the α-subunit of the heterotrimeric Go protein. We analysed the interactions of Gαo in its two nucleotide forms with GoLoco1–the first of the three GoLoco domains of Pins–and the possible structures of the resulting complexes, through combination of conventional fluorescence and FRET measurements as well as through molecular modelling. Our data suggest that the orientation of the GoLoco1 motif on Gαo significantly differs between the two nucleotide states of the latter. In other words, a rotation of the GoLoco1 peptide in respect with Gαo must accompany the nucleotide exchange in Gαo. The sterical hindrance requiring such a rotation probably contributes to the guanine nucleotide exchange inhibitor activity of GoLoco1 and Pins as a whole. Our data have important implications for the mechanisms of Pins regulation in the process of asymmetric cell divisions. 相似文献
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145.
Robbie J. Walczak Anthony Boiarski Michael Cohen Teri West Kristie Melnik John Shapiro Sadhana Sharma Mauro Ferrari 《NanoBioTechnology》2005,1(1):35-42
The fouling of components and the formation of a fibrotic tissue capsule around subcutaneously implanted medical devices are
two major obstacles in developing viable, long-term implantable drug delivery systems. NanoGATE is a subcutaneous implant
designed for constant-output passive diffusion of a drug of interest through a silicon nanopore membrane. To this end, we
have investigated the long-term in vivo biocompatibility of the NanoGATE implant in terms of the fouling of the nanopore membrane
and the formation of a fibrotic tissue capsule around the implant. We have also evaluated how these effects influence diffusion
of a lysozyme surrogate from the device once implanted within the vascular compartment of a Sprague-Dawley rat model. Using
several model biomolecules such as glucose, lysozyme, and albumin, our studies suggest that silicon nanopore membranes do
not foul when implanted subcutaneously for 6 mo. This study also reveals the tissue capsule that naturally forms around the
implant does not limit diffusion of molecules with molecular weights on the order of 14.4 kDa at therapeutic delivery rates
of tens of micrograms per day. This indicates that our NanoGATE implant should be completely functional in vivo, providing
constant release levels of a drug over an extended time period. Thus, by adjusting the release rate to fit the pharmacokinetic
clearance profile of the Sprague-Dawley rat, long-term steady-state blood plasma concentrations can be achieved. 相似文献
146.
O. V. Mingalev I. V. Mingalev H. V. Malova M. N. Melnik L. M. Zelenyi 《Plasma Physics Reports》2017,43(10):1004-1015
A system of kinetic equations describing relatively slow large-scale processes in collisionless magnetoplasma structures with a spatial resolution of about the characteristic gyroradius is derived. Plasma is assumed to be quasineutral, while the magnetic and electric fields are determined by the instantaneous distributions of the particle and current densities and the stress tensor of all plasma components in the longrange instantaneous interaction approximation. A special version of equations is derived for the case of magnetized electrons described by the Vlasov equation in the drift approximation. The obtained system of equations can be used to develop a global numerical kinetic model of the Earth’s magnetosphere with a spatial resolution of about 100 km, as well as local models of certain regions of the Earth’s magnetosphere with a higher resolution. 相似文献
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148.
Nikitina J Shutova T Melnik B Chernyshov S Marchenkov V Semisotnov G Klimov V Samuelsson G 《Photosynthesis research》2008,98(1-3):391-403
PsbO protein is an important constituent of the water-oxidizing complex, located on the lumenal side of photosystem II. We report here the efficient expression of the spinach PsbO in E. coli where the solubility depends entirely on the formation of the disulfide bond. The PsbO protein purified from a pET32 system that includes thioredoxin fusion is properly folded and functionally active. Urea unfolding experiments imply that the reduction of the single disulfide bridge decreases stability of the protein. Analysis of inter-residue contact density through the PsbO molecule shows that Cys51 is located in a cluster with high contact density. Reduction of the Cys28-Cys51 bond is proposed to perturb the packing interactions in this cluster and destabilize the protein as a whole. Taken together, our results give evidence that PsbO exists in solution as a compact highly ordered structure, provided that the disulfide bridge is not reduced. 相似文献
149.
Springer SK Woodin KS Berry V Boezio AA Cao L Clarkin K Harmange JC Hierl M Knop J Malmberg AB McDermott JS Nguyen HQ Waldon D Albrecht BK McDonough SI 《Bioorganic & medicinal chemistry letters》2008,18(20):5643-5647
The synthesis and structure-activity relationship of a series of carbamate potentiators of alpha4beta2 nAChR is reported herein. These compounds were highly selective for alpha4beta2 over other nAChR subtypes. In addition, compounds increased the response of alpha4beta2 nAChRs to acetylcholine, as measured with patch-clamp electrophysiology. 相似文献
150.
M Nakamura K Decker J Chosy K Comella K Melnik L Moore L C Lasky M Zborowski J J Chalmers 《Biotechnology progress》2001,17(6):1145-1155
We have developed a quadrupole magnetic flow sorter (QMS) to facilitate high-throughput binary cell separation. Optimized QMS operation requires the adjustment of three flow parameters based on the immunomagnetic characteristics of the target cell sample. To overcome the inefficiency of semiempirical operation/optimization of QMS flow parameters, a theoretical model of the QMS sorting process was developed. Application of this model requires measurement of the magnetophoretic mobility distribution of the cell sample by the cell tracking velocimetry (CTV) technique developed in our laboratory. In this work, the theoretical model was experimentally tested using breast carcinoma cells (HCC1954) overexpressing the HER-2/neu gene, and peripheral blood leukocytes (PBLs). The magnetophoretic mobility distribution of immunomagnetically labeled HCC1954 cells was measured using the CTV technique, and then theoretical predictions of sorting recoveries were calculated. Mean magnetophoretic mobilities of (1-3) x 10(-4) mm(3)/(T A s) were obtained depending on the labeling conditions. Labeled HCC1954 cells were mixed with unlabeled PBLs to form a "spiked" sample to be separated by the QMS. Fractional recoveries of cells for different flow parameters were examined and compared with theoretical predictions. Experimental results showed that the theoretical model accurately predicted fractional recoveries of HCC1954 cells. High-throughput (3.29 x 10(5) cells/s) separations with high recovery (0.89) of HCC1954 cells were achieved. 相似文献