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Biological applications of microfluidic gradient devices. Integrative Biology , , vol. Saadi W. Chemotaxis of metastatic breast cancer cells in parallel gradient microfluidic chambers. NSTI-Nanotech , , vol. Haessler U. An agarose-based microfluidic platform with a gradient buffer for 3D chemotaxis studies. Biomedical Microdevices , , vol. Fernandes J. Lab on a Chip , , vol. Lin F. A microfluidics-based method for analyzing leukocyte migration to chemoattractant gradients.

Methods in Enzymology, Tracy M. T cell chemotaxis in a simple microfluidic device. Generation of dynamic temporal and spatial concentration gradients using microfluidic devices. Irimia D. Microfluidic system for measuring neutrophil migratory responses to fast switches of chemical gradients. Neutrophil migration in opposing chemoattractant gradients using microfluidic chemotaxis devices.

Annals of Biomedical Engineering , , vol. Englert D. Investigation of bacterial chemotaxis in flowbased microfluidic devices. Nature Protocols , , vol. A parallel-gradient microfluidic chamber for quantitative analysis of breast cancer cell chemotaxis. Ricart B. Effective neutrophil chemotaxis is strongly influenced by mean IL-8 concentration. Biochemical and Biophysical Research Communications , , vol. Diao J. A three-channel microfluidic device for generating static linear gradients and its application to the quantitative analysis of bacterial chemotaxis.

Chung S. Cell migration into scaffolds under co-culture conditions in a microfluidic platform. Chen Z. In vitro model on glass surfaces for complex interactions between different types of cells. Langmuir , , vol. Abhyankar V. Characterization of a membrane-based gradient generator for use in cell-signaling studies. A microfluidic multi-injector for gradient generation. Huang C. Engineering microscale cellular niches for three-dimensional multicellular co-cultures.

Ambravaneswaran V. Directional decisions during neutrophil chemotaxis inside bifurcating channels. Rhoads D. Cell migration: developmental methods and protocols , Ed. Guan, Vol. Wells C. Analysis of cell migration using the Dunn chemotaxis chamber and time-lapse microscopy. Mandarino G. Chemotaxis under agarose utilizing human serum depleted of C-5 derived peptides. Journal of Immunological Methods , , vol. Analysis of microglial migration by a micropipette assay.

Mao H. A sensitive, versatile microfluidic assay for bacterial chemotaxis. Lanning L. Bacterial chemotaxis transverse to axial flow in a microfluidic channel. Biotechnology and Bioengineering , , vol.

Advances Electronics and Electron Physics. Vol. 39

Long T. Enhanced transverse migration of bacteria by chemotaxis in a porous T-sensor. Moore T. Robust spatial sensing of mating pheromone gradients by yeast cells. PLoS One , , vol. A gradient-generating microfluidic device for cell biology. Journal of Visualized Experiments , , v. Differentiation of neural progenitor cells in a microfluidic chip-generated cytokine gradient.

Advances in Imaging and Electron Physics, Volume - 1st Edition

Stem Cells , , v. Chang W. A polydimethylsiloxane—polycarbonate hybrid microfluidic device capable of generating perpendicular chemical and oxygen gradients for cell culture studies. Hung P. Continuous perfusion microfluidic cell culture array for high-throughput cell-based assays. Wang S. Experimental Cell Research , Human neural stem cell growth and differentiation in a gradient-generating microfluidic device.

Dertinger S. Gradients of substrate-bound laminin orient axonal specification of neurons. Paliwal S. MAPK-mediated bimodal gene expression and adaptive gradient sensing in yeast. Spatiotemporal micropatterning of cells on arbitrary substrates. Analytical Chemistry , , vol. Keenan T. Biomolecular gradients in cell culture systems. Kamholz A. Quantitative analysis of molecular interaction in a microfluidic channel: the T-sensor.

Applied and Environmental Microbiology , , vol. Cooksey G. A multi-purpose microfluidic perfusion system with combinatorial choice of inputs, mixtures, gradient patterns, and flow rates. Cheng S. A hydrogel-based microfluidic device for the studies of directed cell migration. Ahmed T. Nano Letters , , vol. Mendelson A. Competitive stem cell recruitment by multiple cytotactic cues. Law A. Continuous-flow capillary assay for measuring bacterial chemotaxis. Atencia J. Kim T. Generating steep, shear-free gradients of small molecules for cell culture. Biomedical Microdevices , Scherber C.

Epithelial cell guidance by self-generated EGF gradients. Choi E. Cho H. On-demand, competing gradient arrays for neutrophil chemotaxis. Jin B. Microfluidics platform for single-shot dose — response analysis of chloride channel-modulating compounds. Baker B.

All Publications

Microfluidics embedded within extracellular matrix to define vascular architectures and pattern diffusive gradients. A novel microfluidic platform with stable concentration gradient for on chip cell culture and screening assays. Sip C. Microfluidic transwell inserts for generation of tissue culture-friendly gradients in well plates. Plasma chromatography — a new dimension for gas chromatography and mass spectrometry.

Sciens , , vol. Gas Chromatograph Detector. PCP, inc Ion mobility spectrometer.

Advances in Imaging and Electron Physics, Volume 120

Coy S. Differential mobility spectrometry with nanospray ion sourse as a compact detector for small organics and inorganics. Ion Mobil. Hoiness H. Speciation effect of solvent chemistry on the abalysis of drugs and explosives by electrospray ion mobility mass spectrometry. Samokish V. V, Muradymov M. Nauchnoe Priborostroenie [Science Instrumentation], , vol. In Russ. Electrospray ion sourse with a dynamic liquid flow splitter. Rapid Commun. Arseniev A. Mass-spektrometriya [Mass Spectrometry], , vol. Investigation of electrospray stability with dynamic liquid flow splitter.

Kurnin I. Bradbery—Nilsen gate electrode potential switching modes optimizing the ion packet time width in an ion mobility spectrometer. Cox K. Conformer selection of protein ions by ion mobility in a triple quadrupole mass spectrometer. Mass Spectrom. Guevremont R. Wyttenbach T.

Advanced electron crystallography through model-based imaging

Karas M. Laser desorption ionization of proteins with molecular masses exceeding 10 daltons. Kirpekar F. Nucleic Acids Res.

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Fenn J. K, Wong S. Electrospray ionization for spectrometry of large biomolecules. Mechanism of coupling of oxidative phosphorylation and the membrane potential of mitochondria. Nature, , vol. Trendeleva T. Biochimiya [Biochemistry], , vol. Koryta I.

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Grinyus L. Rottenberg H. Membrane potential and surface potential in mitochondria: Uptake and binding of lipophilic cations. Muratsugu M.

Journal Publications

Determination of membrane potential of Escherichia coli with use of an electrode sensitive to tetraphenyl phosphonium. Kamo N. Membrane potential of mitochondria measured with electrode sensitive to tetraphenyl phosphonium and relationship between proton electrochemical potential and phosphorylation potential in steady state. Lolkema J. Biochimica et Biophysica Acta, , vol. The transmembrane electrical potential in Rhodopseudomonas sphaeroides determined from the distribution of tetraphenylphosphonium after correction for its binding to cell components.


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Breeuwer P. Assesment of the membrane potential, intracellular pH and respiration of bacteria employing fluorescence techniques. Patent USSR, no. Ostroumova O. Weiss L. The cell periphery. Cytology , , vol. Rubin A. Zlenko D. Komp'yuternye issledovaniya i modelirovanie [Computer researches and modeling], , vol. Ermakov Yu. Rossiyskiy chimicheskiy zhurnal [Russian chemical magazine], , vol. Brockman H. Dipole potential of lipid membranes.

Chemistry and Physics of Lipids, , vol. Frenkel' Ya. Gall L. Zeidel A. Slavnyi, Shreyder E. Moscow, Nauka Publ. Striganov A. Atomizdat Publ. Promotional sheet of electrodeless lamp VSB-2 plant "discharge", Vladikavkaz. Zhernovoy, S. Nonkonventyonal Technologies Review , , no. Zhernovoy A. Magnitnyy sposob izmereniya ter-modinamicheskoy temperatury [Magnetic way of measurement of thermodynamic temperature]. More information about this seller Contact this seller 8. More information about this seller Contact this seller 9.

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