In this report we describe two robust procedures for oligonucleotide microarray preparation based on polymeric coatings. The proposed chemical approaches include: 1) a glass functionalisation step with appropriate silanes (gamma-aminopropyltriethoxysilane-APTES or 3-glycidoxypropyltrimethoxysilane-GOPS), 2) a coating step using polymers (poly-L-Lysine or poly(acrylic acid-co-acrylamide) copolymer) covalently bound to the modified glass and 3) a surface activation step to allow for the attachment of amino-modified oligonucleotides. Results obtained using these chemistries in oligo microarray preparation show: 1) an overall high loading capacity and availability to hybridisation against targets, 2) a good uniformity, 3) resistance to onsecutive probing/ stripping cycles, 4) stability to thermal cycles, 5) effectiveness in hybridisation-mediated mutation detection procedures and 6) the possibility to perform enzymatic reactions, such as ligation.
Two efficient polymeric chemical platforms for oligonucleotide microarray preparation / C. Consolandi, B. Castiglioni, R. Bordoni, E. Busti, C. Battaglia, L. Rossi Bernardi, G. De Bellis. - In: NUCLEOSIDES, NUCLEOTIDES & NUCLEIC ACIDS. - ISSN 1525-7770. - 21:8-9(2002), pp. 561-580.
Two efficient polymeric chemical platforms for oligonucleotide microarray preparation
C. ConsolandiPrimo
;R. Bordoni;C. Battaglia;L. Rossi Bernardi;
2002
Abstract
In this report we describe two robust procedures for oligonucleotide microarray preparation based on polymeric coatings. The proposed chemical approaches include: 1) a glass functionalisation step with appropriate silanes (gamma-aminopropyltriethoxysilane-APTES or 3-glycidoxypropyltrimethoxysilane-GOPS), 2) a coating step using polymers (poly-L-Lysine or poly(acrylic acid-co-acrylamide) copolymer) covalently bound to the modified glass and 3) a surface activation step to allow for the attachment of amino-modified oligonucleotides. Results obtained using these chemistries in oligo microarray preparation show: 1) an overall high loading capacity and availability to hybridisation against targets, 2) a good uniformity, 3) resistance to onsecutive probing/ stripping cycles, 4) stability to thermal cycles, 5) effectiveness in hybridisation-mediated mutation detection procedures and 6) the possibility to perform enzymatic reactions, such as ligation.
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