Zelulen banan-banako atxikipena lortzeko “Microcontact Printing” teknikaren garapena
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Abstract
Lan honetan, kuantifikazio digitalaren bidez zelula-proteina interakzioak neurtzeko teknika zehatza eta azkarra azaltzen da. Horretarako, “Microcontact Printing (µCP)” deritzon “patterning” edo egituraketa teknikaz baliatuz, zelulen banan-banako atxikipena induzitzeko proteina-patroi optimizatua sortu da. Patroia atxikipen gune independienteak diren proteina irlez osatuta dago, sare bat osatuz, eta zelula-proteina interakzioak okupazio portzentai eran kuantitatiboki adieraziz. Lan honetan lortutako jakintzak terapia zelularretan eta medikuntza pertsonalizatuan eragina izatea du helburu.
In this paper, we report an accurate and rapid method to make digital quantifications of cell-proteininteractions. We use a patterning technique called “Microcontact Printing (µCP)” to form a proteinpattern which creates an array optimised to promote single cell adhesion. Thanks to this array withindependent adhesion sites, cell-protein interactions can be quantitatively measured as occupationpercentage. The knowledge gained from this work aims to make an impact in cellular therapies andpersonalised medicine.
In this paper, we report an accurate and rapid method to make digital quantifications of cell-proteininteractions. We use a patterning technique called “Microcontact Printing (µCP)” to form a proteinpattern which creates an array optimised to promote single cell adhesion. Thanks to this array withindependent adhesion sites, cell-protein interactions can be quantitatively measured as occupationpercentage. The knowledge gained from this work aims to make an impact in cellular therapies andpersonalised medicine.
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zelula-proteina, patterning, Microcontact Printing, banako zelula, okupazio portzentai., cell-protein, patterning, Microcontact-Printing, single-cell, occupation percentage.