Christie McCollum scite author profile

We describe a method for cloning nucleic acid molecules onto the surfaces of 5-m microbeads rather than in biological hosts. A unique tag sequence is attached to each molecule, and the tagged library is amplified. Unique tagging of the molecules is achieved by sampling a small fraction (1%) of a very large repertoire of tag sequences. The resulting library is hybridized to microbeads that each carry Ϸ10 6 strands complementary to one of the tags. About 10 5 copies of each molecule are collected on each microbead. Because such clones are segregated on microbeads, they can be operated on simultaneously and then assayed separately. To demonstrate the utility of this approach, we show how to label and extract microbeads bearing clones differentially expressed between two libraries by using a fluorescence-activated cell sorter (FACS). Because no prior information about the cloned molecules is required, this process is obviously useful where sequence databases are incomplete or nonexistent. More importantly, the process also permits the isolation of clones that are expressed only in given tissues or that are differentially expressed between normal and diseased states. Such clones then may be spotted on much more cost-effective, tissue-or disease-directed, low-density planar microarrays.DNA analysis ͉ gene expression ͉ parallel cloning ͉ fluid microarray

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An optimized polystyrene support for rapid, efficient oligonucleotide synthesis

McCollum¹,

Andrus²

1991

Tetrahedron Letters

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Fast oligonucleotide deprotection phosphoramidite chemistry for DNA synthesis

Vu¹,

McCollum²,

Jacobson³

et al. 1990

Tetrahedron Letters

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Chemical synthesis of RNA using fast oligonucleotide deprotection chemistry

Vinayak¹,

Anderson²,

McCollum³

et al. 1992

Nucl Acids Res

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The exocyclic amine protecting groups in oligonucleotide synthesis which require 8-16 hours at 55 degrees C for deprotection in ammonia have been replaced with more labile base protecting groups (dimethylformamidine for adenine and guanine and isobutyryl for cytosine). Using these fast oligonucleotide deprotecting groups which require 2-3 hours at 55 degrees C for complete deprotection, a new set of cyanoethyl phosphoramidite ribonucleoside monomers and supports has been developed. Ribozymes and substrate RNAs which were synthesized with these phosphoramidites were assayed and were found to have full catalytic (biological) activity.

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ChemInform Abstract: Fluorescent Dye Phosphoramidite Labelling of Oligonucleotides.

Theisen¹,

McCollum²,

Upadhya³

et al. 1993

ChemInform

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