Yun Lin scite author profile

We report the use of modified RNA, in which the 2'-OH group of pyrimidines is replaced by a 2'-amino (2'-NH2) group to identify high affinity ligands specific for human neutrophil elastase (HNE) by in vitro selection. Compared to unmodified RNA the 2'-NH2-modified RNA ligands show enhanced stability in human serum and urine. Use of RNase Ti cleavage data in the presence of K+ and Li+ ions suggests that the modified RNA ligands selected for HNE form an intermolecular G-quartet structure.

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Staining of cell surface human CD4 with 2'-F-pyrimidine-containing RNA aptamers for flow cytometry

Davis

Abrams

Lin³

et al. 1998

134

116

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We have used recombinant human CD4 presented on beads as an affinity matrix to screen a 2'-F-pyrimidine-containing RNA library with a complexity of approximately 10(14) molecules. Affinity-selected aptamers bind recombinant CD4 with low nanomolar equilibrium dissociation constants. These high-affinity aptamers conjugated to different fluorophores such as fluorescein and phycoerythrin were used to stain cells, expressing human CD4 on cell surface, for analysis by flow cytometry. Aptamers, conjugated to fluorophores, stained mouse T cells that express human CD4 on the surface, but not the control mouse T cells lacking human CD4. The control cells, however, do express mouse CD4 whose extracellular domain has 55% sequence identity to the human form. These human CD4-specific aptamers selectively stained CD4(+) T cells in a preparation of human peripheral blood mononuclear cells. These results and others suggest that aptamers are emerging as a versatile class of molecules that can be used for various diagnostic applications performed under different formats or platforms.

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Use of a High Affinity DNA Ligand in Flow Cytometry

Davis

Abrams

Lin

et al. 1996

Nucleic Acids Research

162

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To investigate the feasibility of using oligonucleotides in flow cytometry we describe a model system consisting of human neutrophil elastase (HNE) coated on 3.3 micro beads and a high affinity DNA ligand for HNE isolated by in vitro selection (SELEX). In this system the fluoresceinated DNA ligand was equally effective as an anti- HNE antibody in detecting HNE on beads. The location on and the chemistry of attachment of fluorescein to the DNA ligand is critical for the sensitivity of detection. DNA constructs in which fluorescein was conjugated via an ethylene glycol tether to either the 5'-end or near the 3'-end gave much higher signals than did probes with fluorescein directly conjugated to either end. Second-step staining with strepavidin-conjugated phycoerythrin was accomplished using a biotinylated DNA ligand in the initial staining of HNE beads. These data suggest that instead of, or in addition to, antibodies high affinity oligonucleotide probes can be useful in diagnostic applications based on flow cytometry.

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Peptide conjugation to an in vitro-selected DNA ligand improves enzyme inhibition.

Lin

Padmapriya

Morden

et al. 1995

Proc. Natl. Acad. Sci. U.S.A.

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Inhibition of multiple thermostable DNA polymerases by a heterodimeric aptamer

Lin

Jayasena

1997

Journal of Molecular Biology

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Yun Lin

Modified RNA sequence pools forin vitroselection

Staining of cell surface human CD4 with 2'-F-pyrimidine-containing RNA aptamers for flow cytometry

Use of a High Affinity DNA Ligand in Flow Cytometry

Peptide conjugation to an in vitro-selected DNA ligand improves enzyme inhibition.

Inhibition of multiple thermostable DNA polymerases by a heterodimeric aptamer

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