Monitoring genomic sequences during SELEX using high-throughput sequencing: neutral SELEX.

BACKGROUND: SELEX is a well established in vitro selection tool to analyze the structure of ligand-binding nucleic acid sequences called aptamers. Genomic SELEX transforms SELEX into a tool to discover novel, genomically encoded RNA or DNA sequences binding a ligand of interest, called genomic aptam...

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Main Authors: Bob Zimmermann, Tanja Gesell, Doris Chen, Christina Lorenz, Renée Schroeder
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2010-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC2820082?pdf=render
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spelling doaj-1cf9d5863f194ef4ad60dcbb09e66ae42020-11-25T01:12:34ZengPublic Library of Science (PLoS)PLoS ONE1932-62032010-01-0152e916910.1371/journal.pone.0009169Monitoring genomic sequences during SELEX using high-throughput sequencing: neutral SELEX.Bob ZimmermannTanja GesellDoris ChenChristina LorenzRenée SchroederBACKGROUND: SELEX is a well established in vitro selection tool to analyze the structure of ligand-binding nucleic acid sequences called aptamers. Genomic SELEX transforms SELEX into a tool to discover novel, genomically encoded RNA or DNA sequences binding a ligand of interest, called genomic aptamers. Concerns have been raised regarding requirements imposed on RNA sequences undergoing SELEX selection. METHODOLOGY/PRINCIPAL FINDINGS: To evaluate SELEX and assess the extent of these effects, we designed and performed a Neutral SELEX experiment omitting the selection step, such that the sequences are under the sole selective pressure of SELEX's amplification steps. Using high-throughput sequencing, we obtained thousands of full-length sequences from the initial genomic library and the pools after each of the 10 rounds of Neutral SELEX. We compared these to sequences obtained from a Genomic SELEX experiment deriving from the same initial library, but screening for RNAs binding with high affinity to the E. coli regulator protein Hfq. With each round of Neutral SELEX, sequences became less stable and changed in nucleotide content, but no sequences were enriched. In contrast, we detected substantial enrichment in the Hfq-selected set with enriched sequences having structural stability similar to the neutral sequences but with significantly different nucleotide selection. CONCLUSIONS/SIGNIFICANCE: Our data indicate that positive selection in SELEX acts independently of the neutral selective requirements imposed on the sequences. We conclude that Genomic SELEX, when combined with high-throughput sequencing of positively and neutrally selected pools, as well as the gnomic library, is a powerful method to identify genomic aptamers.http://europepmc.org/articles/PMC2820082?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Bob Zimmermann
Tanja Gesell
Doris Chen
Christina Lorenz
Renée Schroeder
spellingShingle Bob Zimmermann
Tanja Gesell
Doris Chen
Christina Lorenz
Renée Schroeder
Monitoring genomic sequences during SELEX using high-throughput sequencing: neutral SELEX.
PLoS ONE
author_facet Bob Zimmermann
Tanja Gesell
Doris Chen
Christina Lorenz
Renée Schroeder
author_sort Bob Zimmermann
title Monitoring genomic sequences during SELEX using high-throughput sequencing: neutral SELEX.
title_short Monitoring genomic sequences during SELEX using high-throughput sequencing: neutral SELEX.
title_full Monitoring genomic sequences during SELEX using high-throughput sequencing: neutral SELEX.
title_fullStr Monitoring genomic sequences during SELEX using high-throughput sequencing: neutral SELEX.
title_full_unstemmed Monitoring genomic sequences during SELEX using high-throughput sequencing: neutral SELEX.
title_sort monitoring genomic sequences during selex using high-throughput sequencing: neutral selex.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2010-01-01
description BACKGROUND: SELEX is a well established in vitro selection tool to analyze the structure of ligand-binding nucleic acid sequences called aptamers. Genomic SELEX transforms SELEX into a tool to discover novel, genomically encoded RNA or DNA sequences binding a ligand of interest, called genomic aptamers. Concerns have been raised regarding requirements imposed on RNA sequences undergoing SELEX selection. METHODOLOGY/PRINCIPAL FINDINGS: To evaluate SELEX and assess the extent of these effects, we designed and performed a Neutral SELEX experiment omitting the selection step, such that the sequences are under the sole selective pressure of SELEX's amplification steps. Using high-throughput sequencing, we obtained thousands of full-length sequences from the initial genomic library and the pools after each of the 10 rounds of Neutral SELEX. We compared these to sequences obtained from a Genomic SELEX experiment deriving from the same initial library, but screening for RNAs binding with high affinity to the E. coli regulator protein Hfq. With each round of Neutral SELEX, sequences became less stable and changed in nucleotide content, but no sequences were enriched. In contrast, we detected substantial enrichment in the Hfq-selected set with enriched sequences having structural stability similar to the neutral sequences but with significantly different nucleotide selection. CONCLUSIONS/SIGNIFICANCE: Our data indicate that positive selection in SELEX acts independently of the neutral selective requirements imposed on the sequences. We conclude that Genomic SELEX, when combined with high-throughput sequencing of positively and neutrally selected pools, as well as the gnomic library, is a powerful method to identify genomic aptamers.
url http://europepmc.org/articles/PMC2820082?pdf=render
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