Microscopic evaluation of aqueous two-phase system emulsion characteristics enables rapid determination of critical polymer concentrations for solution micropatterning

Mackenzie Ruthven; Kristin Robin Ko; Rishima Agarwal; John P. Frampton

doi:10.1039/c7an00255f

Microscopic evaluation of aqueous two-phase system emulsion characteristics enables rapid determination of critical polymer concentrations for solution micropatterning

Mackenzie Ruthven, Kristin Robin Ko, Rishima Agarwal, John P. Frampton

Medicine

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17 Citas (Scopus)

Resumen

Aqueous two-phase systems have emerged as valuable tools for microscale analysis of cell growth and many other biotechnology applications. The most critical step in developing an aqueous two-phase system for a specific application is identifying the critical concentrations at which the polymer solutions phase-separate. Current techniques for determining these critical concentrations rely on laborious methods, highly specialized assays or computational methods that make this step difficult for non-specialists. To overcome these limitations, we present a simplified assay that uses only readily accessible laboratory instruments and consumables (e.g., multichannel micropipettes, 96-well plates and a simple compound microscope) to determine the critical concentrations of aqueous two-phase system-forming polymers. We demonstrate that formulations selected from phase diagrams that describe these critical concentrations can be applied for solution micropatterning of cells.

Idioma original	English
Páginas (desde-hasta)	1938-1945
Número de páginas	8
Publicación	Analyst
Volumen	142
N.º	11
DOI	https://doi.org/10.1039/c7an00255f
Estado	Published - jun. 7 2017

Nota bibliográfica

Funding Information:
MR, KRK and RA contributed equally to this work. KRK wishes to acknowledge scholarships from the Canadian Institutes of Health Research (CGS), Nova Scotia Health Research Foundation (Scotia Scholar), and the Nova Scotia Provincial Government (NSGS). RA wishes to acknowledge scholarships from the Canadian Institutes of Health Research (CGS) and the Dalhousie University Faculty of Engineering (Exxon Mobile Canada Ltd). This work was supported by funds from the Canada Research Chairs Program, Canada Foundation for Innovation (Project #33533) and the Natural Science and Engineering Research Council of Canada (RGPIN-2016-04298).

Publisher Copyright:
© The Royal Society of Chemistry 2017.

ASJC Scopus Subject Areas

Analytical Chemistry
Biochemistry
Environmental Chemistry
Spectroscopy
Electrochemistry

PubMed: MeSH publication types

Journal Article

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Microscopic evaluation of aqueous two-phase system emulsion characteristics enables rapid determination of critical polymer concentrations for solution micropatterning. / Ruthven, Mackenzie; Ko, Kristin Robin; Agarwal, Rishima et al.
En: Analyst, Vol. 142, N.º 11, 07.06.2017, p. 1938-1945.

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

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abstract = "Aqueous two-phase systems have emerged as valuable tools for microscale analysis of cell growth and many other biotechnology applications. The most critical step in developing an aqueous two-phase system for a specific application is identifying the critical concentrations at which the polymer solutions phase-separate. Current techniques for determining these critical concentrations rely on laborious methods, highly specialized assays or computational methods that make this step difficult for non-specialists. To overcome these limitations, we present a simplified assay that uses only readily accessible laboratory instruments and consumables (e.g., multichannel micropipettes, 96-well plates and a simple compound microscope) to determine the critical concentrations of aqueous two-phase system-forming polymers. We demonstrate that formulations selected from phase diagrams that describe these critical concentrations can be applied for solution micropatterning of cells.",

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Microscopic evaluation of aqueous two-phase system emulsion characteristics enables rapid determination of critical polymer concentrations for solution micropatterning

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ASJC Scopus Subject Areas

PubMed: MeSH publication types

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