Maskless fabrication of light-directed oligonucleotide microarrays using a digital micromirror array

Maskless fabrication of light-directed oligonucleotide microarrays using a digital micromirror array

Oligonucleotide microarrays, also called "DNA chips," are currently made by a light-directed chemistry that requires a large number of photolithographic masks for each chip. Here we describe a maskless array synthesizer (MAS) that replaces the chrome masks with virtual masks generated on a...

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Bibliographic Details
Published in:Nature biotechnology Vol. 17; no. 10; pp. 974 - 978
Main Authors: Sussman, Michael R, Singh-Gasson, Sangeet, Green, Roland D, Yue, Yongjian, Nelson, Clark, Blattner, Fred, Cerrina, Franco
Format: Journal Article
Language:English
Published: New York, NY Nature 01-10-1999
Subjects:
Base Sequence
Biological and medical sciences
Diverse techniques
Fundamental and applied biological sciences. Psychology
Light
Molecular and cellular biology
Nucleic Acid Hybridization
Oligonucleotides - chemistry
Photochemistry
DNA synthesis
Computer aided manufacturing
Ultraviolet irradiation
Lithography
DNA chip
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Summary:Oligonucleotide microarrays, also called "DNA chips," are currently made by a light-directed chemistry that requires a large number of photolithographic masks for each chip. Here we describe a maskless array synthesizer (MAS) that replaces the chrome masks with virtual masks generated on a computer, which are relayed to a digital micromirror array. A 1:1 reflective imaging system forms an ultraviolet image of the virtual mask on the active surface of the glass substrate, which is mounted in a flow cell reaction chamber connected to a DNA synthesizer. Programmed chemical coupling cycles follow light exposure, and these steps are repeated with different virtual masks to grow desired oligonucleotides in a selected pattern. This instrument has been used to synthesize oligonucleotide microarrays containing more than 76,000 features measuring 16 microm 2. The oligonucleotides were synthesized at high repetitive yield and, after hybridization, could readily discriminate single-base pair mismatches. The MAS is adaptable to the fabrication of DNA chips containing probes for thousands of genes, as well as any other solid-phase combinatorial chemistry to be performed in high-density microarrays.
Bibliography:ObjectType-Article-2
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ISSN:1087-0156
1546-1696
DOI:10.1038/13664