A high-throughput method to examine protein-nucleotide interactions identifies targets of the bacterial transcriptional regulatory protein fur

The Ferric uptake regulatory protein (Fur) is a transcriptional regulatory protein that functions to control gene transcription in response to iron in a number of pathogenic bacteria. In this study, we applied a label-free, quantitative and high-throughput analysis method, Interferometric Reflectanc...

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Veröffentlicht in:	PloS one 2014-05, Vol.9 (5), p.e96832-e96832
Hauptverfasser:	Yu, Chunxiao, Lopez, Carlos A, Hu, Han, Xia, Yu, Freedman, David S, Reddington, Alexander P, Daaboul, George G, Unlü, M Selim, Genco, Caroline Attardo
Format:	Artikel
Sprache:	eng
Schlagworte:	Bacteria Bacterial Proteins - metabolism Base Sequence Binding Bioinformatics Biology and Life Sciences Biomedical engineering Biosensing Techniques - methods Blood proteins Computer engineering Consensus Sequence Deoxyribonucleic acid DNA DNA microarrays DNA, Bacterial - genetics DNA, Bacterial - metabolism Gene expression Gene regulation Gene sequencing Genes Genetic aspects Genetic engineering Genome, Bacterial - genetics Genomes Genomics Gonorrhea Identification Infectious diseases Interferometry Iron Medicine Methods Neisseria Neisseria gonorrhoeae Neisseria gonorrhoeae - genetics Neisseria gonorrhoeae - metabolism Neisseria meningitidis Nucleotide sequence Protein Binding Proteins Reflectance Regulon - genetics Repressor Proteins - metabolism RNA Sensors Sexually transmitted diseases STD Substrate Specificity Target recognition Transcription Transcription (Genetics) Transcription factors
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creator	Yu, Chunxiao Lopez, Carlos A Hu, Han Xia, Yu Freedman, David S Reddington, Alexander P Daaboul, George G Unlü, M Selim Genco, Caroline Attardo
description	The Ferric uptake regulatory protein (Fur) is a transcriptional regulatory protein that functions to control gene transcription in response to iron in a number of pathogenic bacteria. In this study, we applied a label-free, quantitative and high-throughput analysis method, Interferometric Reflectance Imaging Sensor (IRIS), to rapidly characterize Fur-DNA interactions in vitro with predicted Fur binding sequences in the genome of Neisseria gonorrhoeae, the causative agent of the sexually transmitted disease gonorrhea. IRIS can easily be applied to examine multiple protein-protein, protein-nucleotide and nucleotide-nucleotide complexes simultaneously and demonstrated here that seventy percent of the predicted Fur boxes in promoter regions of iron-induced genes bound to Fur in vitro with a range of affinities as observed using this microarray screening technology. Combining binding data with mRNA expression levels in a gonococcal fur mutant strain allowed us to identify five new gonococcal genes under Fur-mediated direct regulation.
doi_str_mv	10.1371/journal.pone.0096832
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In this study, we applied a label-free, quantitative and high-throughput analysis method, Interferometric Reflectance Imaging Sensor (IRIS), to rapidly characterize Fur-DNA interactions in vitro with predicted Fur binding sequences in the genome of Neisseria gonorrhoeae, the causative agent of the sexually transmitted disease gonorrhea. IRIS can easily be applied to examine multiple protein-protein, protein-nucleotide and nucleotide-nucleotide complexes simultaneously and demonstrated here that seventy percent of the predicted Fur boxes in promoter regions of iron-induced genes bound to Fur in vitro with a range of affinities as observed using this microarray screening technology. Combining binding data with mRNA expression levels in a gonococcal fur mutant strain allowed us to identify five new gonococcal genes under Fur-mediated direct regulation.</description><identifier>ISSN: 1932-6203</identifier><identifier>EISSN: 1932-6203</identifier><identifier>DOI: 10.1371/journal.pone.0096832</identifier><identifier>PMID: 24811061</identifier><language>eng</language><publisher>United States: Public Library of Science</publisher><subject>Bacteria ; Bacterial Proteins - metabolism ; Base Sequence ; Binding ; Bioinformatics ; Biology and Life Sciences ; Biomedical engineering ; Biosensing Techniques - methods ; Blood proteins ; Computer engineering ; Consensus Sequence ; Deoxyribonucleic acid ; DNA ; DNA microarrays ; DNA, Bacterial - genetics ; DNA, Bacterial - metabolism ; Gene expression ; Gene regulation ; Gene sequencing ; Genes ; Genetic aspects ; Genetic engineering ; Genome, Bacterial - genetics ; Genomes ; Genomics ; Gonorrhea ; Identification ; Infectious diseases ; Interferometry ; Iron ; Medicine ; Methods ; Neisseria ; Neisseria gonorrhoeae ; Neisseria gonorrhoeae - genetics ; Neisseria gonorrhoeae - metabolism ; Neisseria meningitidis ; Nucleotide sequence ; Protein Binding ; Proteins ; Reflectance ; Regulon - genetics ; Repressor Proteins - metabolism ; RNA ; Sensors ; Sexually transmitted diseases ; STD ; Substrate Specificity ; Target recognition ; Transcription ; Transcription (Genetics) ; Transcription factors</subject><ispartof>PloS one, 2014-05, Vol.9 (5), p.e96832-e96832</ispartof><rights>COPYRIGHT 2014 Public Library of Science</rights><rights>2014 Yu et al. 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subjects	Bacteria Bacterial Proteins - metabolism Base Sequence Binding Bioinformatics Biology and Life Sciences Biomedical engineering Biosensing Techniques - methods Blood proteins Computer engineering Consensus Sequence Deoxyribonucleic acid DNA DNA microarrays DNA, Bacterial - genetics DNA, Bacterial - metabolism Gene expression Gene regulation Gene sequencing Genes Genetic aspects Genetic engineering Genome, Bacterial - genetics Genomes Genomics Gonorrhea Identification Infectious diseases Interferometry Iron Medicine Methods Neisseria Neisseria gonorrhoeae Neisseria gonorrhoeae - genetics Neisseria gonorrhoeae - metabolism Neisseria meningitidis Nucleotide sequence Protein Binding Proteins Reflectance Regulon - genetics Repressor Proteins - metabolism RNA Sensors Sexually transmitted diseases STD Substrate Specificity Target recognition Transcription Transcription (Genetics) Transcription factors
title	A high-throughput method to examine protein-nucleotide interactions identifies targets of the bacterial transcriptional regulatory protein fur
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