Issue 2, 2013

Spot morphology of non-contact printed protein molecules on non-porous substrates with a range of hydrophobicities

Abstract

Non-contact inkjet printing technology is one of the most promising tools for producing microarrays. The quality of the microarray depends on the type of the substrate used for printing biomolecules. Various porous and non-porous substrates have been used in the past, but due to low production cost and easy availability, non-porous substrates like glass and plastic are preferred over porous substrates. On these non-porous substrates, obtaining spot uniformity and a high signal to noise ratio is a big challenge. In our research work, we have modified pristine glass slides using various silanes to produce a range of hydrophobic glass substrates. The hydrophobicities of the slides expressed in the contact angle (θ) of a sessile drop of water were 49°, 61°, 75°, 88° and 103°. Using a non-contact inkjet printer, microarrays of biotinylated biomolecules (BSA and IgG) were produced on these modified glass substrates, pristine (untreated) glass and also on HTA polystyrene slides. The uniformity of the spots, reflecting the distribution of the biomolecules in the spots, was analyzed and compared using confocal laser scanning microscopy (CLSM). The quality of the spots was superior on the glass slide with a contact angle of ∼75°. We also investigated the influence of the hydrophobicity of the substrate on a two-step, real diagnostic antibody assay. This nucleic acid microarray immunoassay (NAMIA) for the detection of Staphylococcus aureus showed that on highly hydrophilic (θ < 10°) and hydrophobic substrates (θ > 100°) the assay signal was low, whereas an excellent signal was obtained on the substrates with intermediate contact angles, θ ∼ 61° and θ ∼ 75°, respectively.

Graphical abstract: Spot morphology of non-contact printed protein molecules on non-porous substrates with a range of hydrophobicities

Article information

Article type
Paper
Submitted
11 Aug 2012
Accepted
30 Oct 2012
First published
31 Oct 2012

Analyst, 2013,138, 518-524

Spot morphology of non-contact printed protein molecules on non-porous substrates with a range of hydrophobicities

L. H. Mujawar, W. Norde and A. van Amerongen, Analyst, 2013, 138, 518 DOI: 10.1039/C2AN36104C

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