2014
DOI: 10.1534/genetics.114.170100
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High-Resolution Specificity from DNA Sequencing Highlights Alternative Modes of Lac Repressor Binding

Abstract: Knowing the specificity of transcription factors is critical to understanding regulatory networks in cells. The lac repressoroperator system has been studied for many years, but not with high-throughput methods capable of determining specificity comprehensively. Details of its binding interaction and its selection of an asymmetric binding site have been controversial. We employed a new method to accurately determine relative binding affinities to thousands of sequences simultaneously, requiring only sequencing… Show more

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Cited by 51 publications
(81 citation statements)
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“…In this format, highamplitude positions contribute strongly to specificity, with bases above and below the center-line increasing and reducing affinity, respectively. reaction [51,53], in contrast to other techniques that may incur experimental or computational artefacts [55]. Using Spec-seq, we found no evidence of the asymmetric halfsite recognition previously observed for RstA using SELEX ( Figure 4C, lower).…”
Section: Specificity Determinants Include Sequence Preference Ancontrasting
confidence: 64%
See 1 more Smart Citation
“…In this format, highamplitude positions contribute strongly to specificity, with bases above and below the center-line increasing and reducing affinity, respectively. reaction [51,53], in contrast to other techniques that may incur experimental or computational artefacts [55]. Using Spec-seq, we found no evidence of the asymmetric halfsite recognition previously observed for RstA using SELEX ( Figure 4C, lower).…”
Section: Specificity Determinants Include Sequence Preference Ancontrasting
confidence: 64%
“…Bound and unbound DNA bands were extracted from lanes indicated with an asterisk, and relative free energies of binding to different DNA sequences were calculated by Spec-seq [45,53]. Energy logos depicting relative free energies for each nucleotide in the binding site [54] are located below their corresponding gel, with gray bars on the y-axis are normalized to a magnitude of +/-1 in units of ( -kT) across all logos.…”
Section: Specificity Determinants Include Sequence Preference Anmentioning
confidence: 99%
“…Unlike other members of this family, LacI is both tetrameric and capable of binding to a variety of semi‐symmetric operator sites that differ in the length of the central spacer sequence . Binding is achieved by an asymmetric arrangement of the two helix‐turn‐helix motifs within the dimeric DNA binding unit of the tetramer . Two features of LacI are required for this flexible recognition process: (i) the hinge helix, which recognizes and kinks the central region of the operator in a symmetric target site, and (ii) a YQ sequence at positions 17–18 in the N‐terminal DNA binding domain that recognizes sequences in the flanking regions of the operator DNA sequence .…”
Section: Discussionmentioning
confidence: 99%
“…SELEX has been adapted for characterizing the binding of TF pairs and complexes [41,43]. Spec-seq is similar to SELEX-seq but can accurately measure relative DNA binding affinities and is well suited for assessing the impacts of DNA sequence variants [44]. Genomic-context PBMs (gcPBMs) interrogate select 30- to 36-bp sequences and have elucidated the contributions of flanking genomic sequences to motif recognition [38].…”
Section: Methods To Identify Tf Binding Site Motifsmentioning
confidence: 99%