Functional RNA microarrays for high-throughput screening of antiprotein aptamers
High-throughput methods for generating aptamer microarrays are described. As a proof-of-principle, the microarrays were used to screen the affinity and specificity of a pool of robotically selected antilysozyme RNA aptamers. Aptamers were transcribed in vitro in reactions supplemented with biotinyl-...
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Published in | Analytical biochemistry Vol. 338; no. 1; pp. 113 - 123 |
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Main Authors | , , , , , , |
Format | Journal Article |
Language | English |
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Elsevier Inc
01.03.2005
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Abstract | High-throughput methods for generating aptamer microarrays are described. As a proof-of-principle, the microarrays were used to screen the affinity and specificity of a pool of robotically selected antilysozyme RNA aptamers. Aptamers were transcribed
in vitro in reactions supplemented with biotinyl-guanosine 5′-monophosphate, which led to the specific addition of a 5′ biotin moiety, and then spotted on streptavidin-coated microarray slides. The aptamers captured target protein in a dose-dependent manner, with linear signal response ranges that covered seven orders of magnitude and a lower limit of detection of 1
pg/mL (70
fM). Aptamers on the microarray retained their specificity for target protein in the presence of a 10,000-fold (w/w) excess of T-4 cell lysate protein. The RNA aptamer microarrays performed comparably to current antibody microarrays and within the clinically relevant ranges of many disease biomarkers. These methods should also prove useful for generating other functional RNA microarrays, including arrays for genomic noncoding RNAs that bind proteins. Integrating RNA aptamer microarray production with the maturing technology for automated in vitro selection of antiprotein aptamers should result in the high-throughput production of proteome chips. |
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AbstractList | High-throughput methods for generating aptamer microarrays are described. As a proof-of-principle, the microarrays were used to screen the affinity and specificity of a pool of robotically selected antilysozyme RNA aptamers. Aptamers were transcribed in vitro in reactions supplemented with biotinyl-guanosine 5'-monophosphate, which led to the specific addition of a 5' biotin moiety, and then spotted on streptavidin-coated microarray slides. The aptamers captured target protein in a dose-dependent manner, with linear signal response ranges that covered seven orders of magnitude and a lower limit of detection of 1 pg/mL (70 fM). Aptamers on the microarray retained their specificity for target protein in the presence of a 10,000-fold (w/w) excess of T-4 cell lysate protein. The RNA aptamer microarrays performed comparably to current antibody microarrays and within the clinically relevant ranges of many disease biomarkers. These methods should also prove useful for generating other functional RNA microarrays, including arrays for genomic noncoding RNAs that bind proteins. Integrating RNA aptamer microarray production with the maturing technology for automated in vitro selection of antiprotein aptamers should result in the high-throughput production of proteome chips. High-throughput methods for generating aptamer microarrays are described. As a proof-of-principle, the microarrays were used to screen the affinity and specificity of a pool of robotically selected antilysozyme RNA aptamers. Aptamers were transcribed in vitro in reactions supplemented with biotinyl-guanosine 5′-monophosphate, which led to the specific addition of a 5′ biotin moiety, and then spotted on streptavidin-coated microarray slides. The aptamers captured target protein in a dose-dependent manner, with linear signal response ranges that covered seven orders of magnitude and a lower limit of detection of 1 pg/mL (70 fM). Aptamers on the microarray retained their specificity for target protein in the presence of a 10,000-fold (w/w) excess of T-4 cell lysate protein. The RNA aptamer microarrays performed comparably to current antibody microarrays and within the clinically relevant ranges of many disease biomarkers. These methods should also prove useful for generating other functional RNA microarrays, including arrays for genomic noncoding RNAs that bind proteins. Integrating RNA aptamer microarray production with the maturing technology for automated in vitro selection of antiprotein aptamers should result in the high-throughput production of proteome chips. |
Author | Levy, Matthew Wan, Christine Lee, Jennifer F. Collett, James R. Hood, Allysia J. Cho, Eun Jeong Ellington, Andrew D. |
Author_xml | – sequence: 1 givenname: James R. surname: Collett fullname: Collett, James R. – sequence: 2 givenname: Eun Jeong surname: Cho fullname: Cho, Eun Jeong – sequence: 3 givenname: Jennifer F. surname: Lee fullname: Lee, Jennifer F. – sequence: 4 givenname: Matthew surname: Levy fullname: Levy, Matthew – sequence: 5 givenname: Allysia J. surname: Hood fullname: Hood, Allysia J. – sequence: 6 givenname: Christine surname: Wan fullname: Wan, Christine – sequence: 7 givenname: Andrew D. surname: Ellington fullname: Ellington, Andrew D. email: andy.ellington@mail.utexas.edu |
BackLink | https://www.ncbi.nlm.nih.gov/pubmed/15707941$$D View this record in MEDLINE/PubMed |
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Keywords | RNA aptamer High-throughput screening Microarray Functional RNA Protein detection Proteomics |
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Snippet | High-throughput methods for generating aptamer microarrays are described. As a proof-of-principle, the microarrays were used to screen the affinity and... |
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SubjectTerms | Base Sequence Biosensing Techniques Biotinylation Functional RNA High-throughput screening Microarray Microarray Analysis - methods Muramidase - immunology Protein detection Proteomics RNA - chemistry RNA aptamer RNA-Binding Proteins - isolation & purification Transcription, Genetic |
Title | Functional RNA microarrays for high-throughput screening of antiprotein aptamers |
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