DNA-arrays (or DNA-chips or microarrays) are flat slabs of glass, silicon or plastic onto which thousands of multiple short single-stranded (ss) DNA sequences (corresponding to small regions of a genome) have been attached. After performing a mRNA extraction in induced and non-induced cells, the mRNA is again reverse transcribed, but here the reaction is tweaked, so that the emerging cDNA contains nucleotides marked with different fluorophores for controls and experiment. Targets will hybridize by base-pairing with those probes that resemble them the most. The array can then be stimulated by a laser and scanned for fluorescence at two different wavelengths (control and induced). The ratio or log-ratio between the two fluorescence intensities corresponds to the induction level.

A technique used to locate and isolate Fur sites via cloning. The genome of a target organism is digested with restriction enzymes, and ligated into high copy plasmids to create a plasmid library, which is then cloned into a cell line with a fur-repressed reporter. In cells where the introduced high copy plasmid contains a fur site, fur will be titrated away from it's binding site on the reporter (and throughout the genome), marking the colony. The cell can then be isolated, the plasmid extracted and sequenced for further study.

Machine learning methods can be used to predict TF-binding sites, often using additional sequence-derived information (e.g. predicted DNA curvature), partitioning classical PSSMs into submotifs or computing correlations among site positions. These methods can yield improved predictions, but their efficiency must be properly assessed.

DNA-arrays (or DNA-chips or microarrays) are flat slabs of glass, silicon or plastic onto which thousands of multiple short single-stranded (ss) DNA sequences (corresponding to small regions of a genome) have been attached. After performing a mRNA extraction in induced and non-induced cells, the mRNA is again reverse transcribed, but here the reaction is tweaked, so that the emerging cDNA contains nucleotides marked with different fluorophores for controls and experiment. Targets will hybridize by base-pairing with those probes that resemble them the most. The array can then be stimulated by a laser and scanned for fluorescence at two different wavelengths (control and induced). The ratio or log-ratio between the two fluorescence intensities corresponds to the induction level.

A technique used to locate and isolate Fur sites via cloning. The genome of a target organism is digested with restriction enzymes, and ligated into high copy plasmids to create a plasmid library, which is then cloned into a cell line with a fur-repressed reporter. In cells where the introduced high copy plasmid contains a fur site, fur will be titrated away from it's binding site on the reporter (and throughout the genome), marking the colony. The cell can then be isolated, the plasmid extracted and sequenced for further study.

Machine learning methods can be used to predict TF-binding sites, often using additional sequence-derived information (e.g. predicted DNA curvature), partitioning classical PSSMs into submotifs or computing correlations among site positions. These methods can yield improved predictions, but their efficiency must be properly assessed.

DNA-arrays (or DNA-chips or microarrays) are flat slabs of glass, silicon or plastic onto which thousands of multiple short single-stranded (ss) DNA sequences (corresponding to small regions of a genome) have been attached. After performing a mRNA extraction in induced and non-induced cells, the mRNA is again reverse transcribed, but here the reaction is tweaked, so that the emerging cDNA contains nucleotides marked with different fluorophores for controls and experiment. Targets will hybridize by base-pairing with those probes that resemble them the most. The array can then be stimulated by a laser and scanned for fluorescence at two different wavelengths (control and induced). The ratio or log-ratio between the two fluorescence intensities corresponds to the induction level.

A technique used to locate and isolate Fur sites via cloning. The genome of a target organism is digested with restriction enzymes, and ligated into high copy plasmids to create a plasmid library, which is then cloned into a cell line with a fur-repressed reporter. In cells where the introduced high copy plasmid contains a fur site, fur will be titrated away from it's binding site on the reporter (and throughout the genome), marking the colony. The cell can then be isolated, the plasmid extracted and sequenced for further study.

Machine learning methods can be used to predict TF-binding sites, often using additional sequence-derived information (e.g. predicted DNA curvature), partitioning classical PSSMs into submotifs or computing correlations among site positions. These methods can yield improved predictions, but their efficiency must be properly assessed.

DNA-arrays (or DNA-chips or microarrays) are flat slabs of glass, silicon or plastic onto which thousands of multiple short single-stranded (ss) DNA sequences (corresponding to small regions of a genome) have been attached. After performing a mRNA extraction in induced and non-induced cells, the mRNA is again reverse transcribed, but here the reaction is tweaked, so that the emerging cDNA contains nucleotides marked with different fluorophores for controls and experiment. Targets will hybridize by base-pairing with those probes that resemble them the most. The array can then be stimulated by a laser and scanned for fluorescence at two different wavelengths (control and induced). The ratio or log-ratio between the two fluorescence intensities corresponds to the induction level.

A technique used to locate and isolate Fur sites via cloning. The genome of a target organism is digested with restriction enzymes, and ligated into high copy plasmids to create a plasmid library, which is then cloned into a cell line with a fur-repressed reporter. In cells where the introduced high copy plasmid contains a fur site, fur will be titrated away from it's binding site on the reporter (and throughout the genome), marking the colony. The cell can then be isolated, the plasmid extracted and sequenced for further study.

Machine learning methods can be used to predict TF-binding sites, often using additional sequence-derived information (e.g. predicted DNA curvature), partitioning classical PSSMs into submotifs or computing correlations among site positions. These methods can yield improved predictions, but their efficiency must be properly assessed.

DNA-arrays (or DNA-chips or microarrays) are flat slabs of glass, silicon or plastic onto which thousands of multiple short single-stranded (ss) DNA sequences (corresponding to small regions of a genome) have been attached. After performing a mRNA extraction in induced and non-induced cells, the mRNA is again reverse transcribed, but here the reaction is tweaked, so that the emerging cDNA contains nucleotides marked with different fluorophores for controls and experiment. Targets will hybridize by base-pairing with those probes that resemble them the most. The array can then be stimulated by a laser and scanned for fluorescence at two different wavelengths (control and induced). The ratio or log-ratio between the two fluorescence intensities corresponds to the induction level.

A technique used to locate and isolate Fur sites via cloning. The genome of a target organism is digested with restriction enzymes, and ligated into high copy plasmids to create a plasmid library, which is then cloned into a cell line with a fur-repressed reporter. In cells where the introduced high copy plasmid contains a fur site, fur will be titrated away from it's binding site on the reporter (and throughout the genome), marking the colony. The cell can then be isolated, the plasmid extracted and sequenced for further study.

Machine learning methods can be used to predict TF-binding sites, often using additional sequence-derived information (e.g. predicted DNA curvature), partitioning classical PSSMs into submotifs or computing correlations among site positions. These methods can yield improved predictions, but their efficiency must be properly assessed.

DNA-arrays (or DNA-chips or microarrays) are flat slabs of glass, silicon or plastic onto which thousands of multiple short single-stranded (ss) DNA sequences (corresponding to small regions of a genome) have been attached. After performing a mRNA extraction in induced and non-induced cells, the mRNA is again reverse transcribed, but here the reaction is tweaked, so that the emerging cDNA contains nucleotides marked with different fluorophores for controls and experiment. Targets will hybridize by base-pairing with those probes that resemble them the most. The array can then be stimulated by a laser and scanned for fluorescence at two different wavelengths (control and induced). The ratio or log-ratio between the two fluorescence intensities corresponds to the induction level.

A technique used to locate and isolate Fur sites via cloning. The genome of a target organism is digested with restriction enzymes, and ligated into high copy plasmids to create a plasmid library, which is then cloned into a cell line with a fur-repressed reporter. In cells where the introduced high copy plasmid contains a fur site, fur will be titrated away from it's binding site on the reporter (and throughout the genome), marking the colony. The cell can then be isolated, the plasmid extracted and sequenced for further study.

Machine learning methods can be used to predict TF-binding sites, often using additional sequence-derived information (e.g. predicted DNA curvature), partitioning classical PSSMs into submotifs or computing correlations among site positions. These methods can yield improved predictions, but their efficiency must be properly assessed.

DNA-arrays (or DNA-chips or microarrays) are flat slabs of glass, silicon or plastic onto which thousands of multiple short single-stranded (ss) DNA sequences (corresponding to small regions of a genome) have been attached. After performing a mRNA extraction in induced and non-induced cells, the mRNA is again reverse transcribed, but here the reaction is tweaked, so that the emerging cDNA contains nucleotides marked with different fluorophores for controls and experiment. Targets will hybridize by base-pairing with those probes that resemble them the most. The array can then be stimulated by a laser and scanned for fluorescence at two different wavelengths (control and induced). The ratio or log-ratio between the two fluorescence intensities corresponds to the induction level.

A technique used to locate and isolate Fur sites via cloning. The genome of a target organism is digested with restriction enzymes, and ligated into high copy plasmids to create a plasmid library, which is then cloned into a cell line with a fur-repressed reporter. In cells where the introduced high copy plasmid contains a fur site, fur will be titrated away from it's binding site on the reporter (and throughout the genome), marking the colony. The cell can then be isolated, the plasmid extracted and sequenced for further study.

Machine learning methods can be used to predict TF-binding sites, often using additional sequence-derived information (e.g. predicted DNA curvature), partitioning classical PSSMs into submotifs or computing correlations among site positions. These methods can yield improved predictions, but their efficiency must be properly assessed.

DNA-arrays (or DNA-chips or microarrays) are flat slabs of glass, silicon or plastic onto which thousands of multiple short single-stranded (ss) DNA sequences (corresponding to small regions of a genome) have been attached. After performing a mRNA extraction in induced and non-induced cells, the mRNA is again reverse transcribed, but here the reaction is tweaked, so that the emerging cDNA contains nucleotides marked with different fluorophores for controls and experiment. Targets will hybridize by base-pairing with those probes that resemble them the most. The array can then be stimulated by a laser and scanned for fluorescence at two different wavelengths (control and induced). The ratio or log-ratio between the two fluorescence intensities corresponds to the induction level.

A technique used to locate and isolate Fur sites via cloning. The genome of a target organism is digested with restriction enzymes, and ligated into high copy plasmids to create a plasmid library, which is then cloned into a cell line with a fur-repressed reporter. In cells where the introduced high copy plasmid contains a fur site, fur will be titrated away from it's binding site on the reporter (and throughout the genome), marking the colony. The cell can then be isolated, the plasmid extracted and sequenced for further study.

Machine learning methods can be used to predict TF-binding sites, often using additional sequence-derived information (e.g. predicted DNA curvature), partitioning classical PSSMs into submotifs or computing correlations among site positions. These methods can yield improved predictions, but their efficiency must be properly assessed.

DNA-arrays (or DNA-chips or microarrays) are flat slabs of glass, silicon or plastic onto which thousands of multiple short single-stranded (ss) DNA sequences (corresponding to small regions of a genome) have been attached. After performing a mRNA extraction in induced and non-induced cells, the mRNA is again reverse transcribed, but here the reaction is tweaked, so that the emerging cDNA contains nucleotides marked with different fluorophores for controls and experiment. Targets will hybridize by base-pairing with those probes that resemble them the most. The array can then be stimulated by a laser and scanned for fluorescence at two different wavelengths (control and induced). The ratio or log-ratio between the two fluorescence intensities corresponds to the induction level.

A technique used to locate and isolate Fur sites via cloning. The genome of a target organism is digested with restriction enzymes, and ligated into high copy plasmids to create a plasmid library, which is then cloned into a cell line with a fur-repressed reporter. In cells where the introduced high copy plasmid contains a fur site, fur will be titrated away from it's binding site on the reporter (and throughout the genome), marking the colony. The cell can then be isolated, the plasmid extracted and sequenced for further study.

Machine learning methods can be used to predict TF-binding sites, often using additional sequence-derived information (e.g. predicted DNA curvature), partitioning classical PSSMs into submotifs or computing correlations among site positions. These methods can yield improved predictions, but their efficiency must be properly assessed.

DNA-arrays (or DNA-chips or microarrays) are flat slabs of glass, silicon or plastic onto which thousands of multiple short single-stranded (ss) DNA sequences (corresponding to small regions of a genome) have been attached. After performing a mRNA extraction in induced and non-induced cells, the mRNA is again reverse transcribed, but here the reaction is tweaked, so that the emerging cDNA contains nucleotides marked with different fluorophores for controls and experiment. Targets will hybridize by base-pairing with those probes that resemble them the most. The array can then be stimulated by a laser and scanned for fluorescence at two different wavelengths (control and induced). The ratio or log-ratio between the two fluorescence intensities corresponds to the induction level.

A technique used to locate and isolate Fur sites via cloning. The genome of a target organism is digested with restriction enzymes, and ligated into high copy plasmids to create a plasmid library, which is then cloned into a cell line with a fur-repressed reporter. In cells where the introduced high copy plasmid contains a fur site, fur will be titrated away from it's binding site on the reporter (and throughout the genome), marking the colony. The cell can then be isolated, the plasmid extracted and sequenced for further study.

Machine learning methods can be used to predict TF-binding sites, often using additional sequence-derived information (e.g. predicted DNA curvature), partitioning classical PSSMs into submotifs or computing correlations among site positions. These methods can yield improved predictions, but their efficiency must be properly assessed.

DNA-arrays (or DNA-chips or microarrays) are flat slabs of glass, silicon or plastic onto which thousands of multiple short single-stranded (ss) DNA sequences (corresponding to small regions of a genome) have been attached. After performing a mRNA extraction in induced and non-induced cells, the mRNA is again reverse transcribed, but here the reaction is tweaked, so that the emerging cDNA contains nucleotides marked with different fluorophores for controls and experiment. Targets will hybridize by base-pairing with those probes that resemble them the most. The array can then be stimulated by a laser and scanned for fluorescence at two different wavelengths (control and induced). The ratio or log-ratio between the two fluorescence intensities corresponds to the induction level.

A technique used to locate and isolate Fur sites via cloning. The genome of a target organism is digested with restriction enzymes, and ligated into high copy plasmids to create a plasmid library, which is then cloned into a cell line with a fur-repressed reporter. In cells where the introduced high copy plasmid contains a fur site, fur will be titrated away from it's binding site on the reporter (and throughout the genome), marking the colony. The cell can then be isolated, the plasmid extracted and sequenced for further study.

Machine learning methods can be used to predict TF-binding sites, often using additional sequence-derived information (e.g. predicted DNA curvature), partitioning classical PSSMs into submotifs or computing correlations among site positions. These methods can yield improved predictions, but their efficiency must be properly assessed.

DNA-arrays (or DNA-chips or microarrays) are flat slabs of glass, silicon or plastic onto which thousands of multiple short single-stranded (ss) DNA sequences (corresponding to small regions of a genome) have been attached. After performing a mRNA extraction in induced and non-induced cells, the mRNA is again reverse transcribed, but here the reaction is tweaked, so that the emerging cDNA contains nucleotides marked with different fluorophores for controls and experiment. Targets will hybridize by base-pairing with those probes that resemble them the most. The array can then be stimulated by a laser and scanned for fluorescence at two different wavelengths (control and induced). The ratio or log-ratio between the two fluorescence intensities corresponds to the induction level.

A technique used to locate and isolate Fur sites via cloning. The genome of a target organism is digested with restriction enzymes, and ligated into high copy plasmids to create a plasmid library, which is then cloned into a cell line with a fur-repressed reporter. In cells where the introduced high copy plasmid contains a fur site, fur will be titrated away from it's binding site on the reporter (and throughout the genome), marking the colony. The cell can then be isolated, the plasmid extracted and sequenced for further study.

Machine learning methods can be used to predict TF-binding sites, often using additional sequence-derived information (e.g. predicted DNA curvature), partitioning classical PSSMs into submotifs or computing correlations among site positions. These methods can yield improved predictions, but their efficiency must be properly assessed.

DNA-arrays (or DNA-chips or microarrays) are flat slabs of glass, silicon or plastic onto which thousands of multiple short single-stranded (ss) DNA sequences (corresponding to small regions of a genome) have been attached. After performing a mRNA extraction in induced and non-induced cells, the mRNA is again reverse transcribed, but here the reaction is tweaked, so that the emerging cDNA contains nucleotides marked with different fluorophores for controls and experiment. Targets will hybridize by base-pairing with those probes that resemble them the most. The array can then be stimulated by a laser and scanned for fluorescence at two different wavelengths (control and induced). The ratio or log-ratio between the two fluorescence intensities corresponds to the induction level.

A technique used to locate and isolate Fur sites via cloning. The genome of a target organism is digested with restriction enzymes, and ligated into high copy plasmids to create a plasmid library, which is then cloned into a cell line with a fur-repressed reporter. In cells where the introduced high copy plasmid contains a fur site, fur will be titrated away from it's binding site on the reporter (and throughout the genome), marking the colony. The cell can then be isolated, the plasmid extracted and sequenced for further study.

Machine learning methods can be used to predict TF-binding sites, often using additional sequence-derived information (e.g. predicted DNA curvature), partitioning classical PSSMs into submotifs or computing correlations among site positions. These methods can yield improved predictions, but their efficiency must be properly assessed.

DNA-arrays (or DNA-chips or microarrays) are flat slabs of glass, silicon or plastic onto which thousands of multiple short single-stranded (ss) DNA sequences (corresponding to small regions of a genome) have been attached. After performing a mRNA extraction in induced and non-induced cells, the mRNA is again reverse transcribed, but here the reaction is tweaked, so that the emerging cDNA contains nucleotides marked with different fluorophores for controls and experiment. Targets will hybridize by base-pairing with those probes that resemble them the most. The array can then be stimulated by a laser and scanned for fluorescence at two different wavelengths (control and induced). The ratio or log-ratio between the two fluorescence intensities corresponds to the induction level.

A technique used to locate and isolate Fur sites via cloning. The genome of a target organism is digested with restriction enzymes, and ligated into high copy plasmids to create a plasmid library, which is then cloned into a cell line with a fur-repressed reporter. In cells where the introduced high copy plasmid contains a fur site, fur will be titrated away from it's binding site on the reporter (and throughout the genome), marking the colony. The cell can then be isolated, the plasmid extracted and sequenced for further study.

Machine learning methods can be used to predict TF-binding sites, often using additional sequence-derived information (e.g. predicted DNA curvature), partitioning classical PSSMs into submotifs or computing correlations among site positions. These methods can yield improved predictions, but their efficiency must be properly assessed.

DNA-arrays (or DNA-chips or microarrays) are flat slabs of glass, silicon or plastic onto which thousands of multiple short single-stranded (ss) DNA sequences (corresponding to small regions of a genome) have been attached. After performing a mRNA extraction in induced and non-induced cells, the mRNA is again reverse transcribed, but here the reaction is tweaked, so that the emerging cDNA contains nucleotides marked with different fluorophores for controls and experiment. Targets will hybridize by base-pairing with those probes that resemble them the most. The array can then be stimulated by a laser and scanned for fluorescence at two different wavelengths (control and induced). The ratio or log-ratio between the two fluorescence intensities corresponds to the induction level.

A technique used to locate and isolate Fur sites via cloning. The genome of a target organism is digested with restriction enzymes, and ligated into high copy plasmids to create a plasmid library, which is then cloned into a cell line with a fur-repressed reporter. In cells where the introduced high copy plasmid contains a fur site, fur will be titrated away from it's binding site on the reporter (and throughout the genome), marking the colony. The cell can then be isolated, the plasmid extracted and sequenced for further study.

Machine learning methods can be used to predict TF-binding sites, often using additional sequence-derived information (e.g. predicted DNA curvature), partitioning classical PSSMs into submotifs or computing correlations among site positions. These methods can yield improved predictions, but their efficiency must be properly assessed.

DNA-arrays (or DNA-chips or microarrays) are flat slabs of glass, silicon or plastic onto which thousands of multiple short single-stranded (ss) DNA sequences (corresponding to small regions of a genome) have been attached. After performing a mRNA extraction in induced and non-induced cells, the mRNA is again reverse transcribed, but here the reaction is tweaked, so that the emerging cDNA contains nucleotides marked with different fluorophores for controls and experiment. Targets will hybridize by base-pairing with those probes that resemble them the most. The array can then be stimulated by a laser and scanned for fluorescence at two different wavelengths (control and induced). The ratio or log-ratio between the two fluorescence intensities corresponds to the induction level.

A technique used to locate and isolate Fur sites via cloning. The genome of a target organism is digested with restriction enzymes, and ligated into high copy plasmids to create a plasmid library, which is then cloned into a cell line with a fur-repressed reporter. In cells where the introduced high copy plasmid contains a fur site, fur will be titrated away from it's binding site on the reporter (and throughout the genome), marking the colony. The cell can then be isolated, the plasmid extracted and sequenced for further study.

Machine learning methods can be used to predict TF-binding sites, often using additional sequence-derived information (e.g. predicted DNA curvature), partitioning classical PSSMs into submotifs or computing correlations among site positions. These methods can yield improved predictions, but their efficiency must be properly assessed.

DNA-arrays (or DNA-chips or microarrays) are flat slabs of glass, silicon or plastic onto which thousands of multiple short single-stranded (ss) DNA sequences (corresponding to small regions of a genome) have been attached. After performing a mRNA extraction in induced and non-induced cells, the mRNA is again reverse transcribed, but here the reaction is tweaked, so that the emerging cDNA contains nucleotides marked with different fluorophores for controls and experiment. Targets will hybridize by base-pairing with those probes that resemble them the most. The array can then be stimulated by a laser and scanned for fluorescence at two different wavelengths (control and induced). The ratio or log-ratio between the two fluorescence intensities corresponds to the induction level.

A technique used to locate and isolate Fur sites via cloning. The genome of a target organism is digested with restriction enzymes, and ligated into high copy plasmids to create a plasmid library, which is then cloned into a cell line with a fur-repressed reporter. In cells where the introduced high copy plasmid contains a fur site, fur will be titrated away from it's binding site on the reporter (and throughout the genome), marking the colony. The cell can then be isolated, the plasmid extracted and sequenced for further study.

Machine learning methods can be used to predict TF-binding sites, often using additional sequence-derived information (e.g. predicted DNA curvature), partitioning classical PSSMs into submotifs or computing correlations among site positions. These methods can yield improved predictions, but their efficiency must be properly assessed.

DNA-arrays (or DNA-chips or microarrays) are flat slabs of glass, silicon or plastic onto which thousands of multiple short single-stranded (ss) DNA sequences (corresponding to small regions of a genome) have been attached. After performing a mRNA extraction in induced and non-induced cells, the mRNA is again reverse transcribed, but here the reaction is tweaked, so that the emerging cDNA contains nucleotides marked with different fluorophores for controls and experiment. Targets will hybridize by base-pairing with those probes that resemble them the most. The array can then be stimulated by a laser and scanned for fluorescence at two different wavelengths (control and induced). The ratio or log-ratio between the two fluorescence intensities corresponds to the induction level.

A technique used to locate and isolate Fur sites via cloning. The genome of a target organism is digested with restriction enzymes, and ligated into high copy plasmids to create a plasmid library, which is then cloned into a cell line with a fur-repressed reporter. In cells where the introduced high copy plasmid contains a fur site, fur will be titrated away from it's binding site on the reporter (and throughout the genome), marking the colony. The cell can then be isolated, the plasmid extracted and sequenced for further study.

Machine learning methods can be used to predict TF-binding sites, often using additional sequence-derived information (e.g. predicted DNA curvature), partitioning classical PSSMs into submotifs or computing correlations among site positions. These methods can yield improved predictions, but their efficiency must be properly assessed.

DNA-arrays (or DNA-chips or microarrays) are flat slabs of glass, silicon or plastic onto which thousands of multiple short single-stranded (ss) DNA sequences (corresponding to small regions of a genome) have been attached. After performing a mRNA extraction in induced and non-induced cells, the mRNA is again reverse transcribed, but here the reaction is tweaked, so that the emerging cDNA contains nucleotides marked with different fluorophores for controls and experiment. Targets will hybridize by base-pairing with those probes that resemble them the most. The array can then be stimulated by a laser and scanned for fluorescence at two different wavelengths (control and induced). The ratio or log-ratio between the two fluorescence intensities corresponds to the induction level.

A technique used to locate and isolate Fur sites via cloning. The genome of a target organism is digested with restriction enzymes, and ligated into high copy plasmids to create a plasmid library, which is then cloned into a cell line with a fur-repressed reporter. In cells where the introduced high copy plasmid contains a fur site, fur will be titrated away from it's binding site on the reporter (and throughout the genome), marking the colony. The cell can then be isolated, the plasmid extracted and sequenced for further study.

Machine learning methods can be used to predict TF-binding sites, often using additional sequence-derived information (e.g. predicted DNA curvature), partitioning classical PSSMs into submotifs or computing correlations among site positions. These methods can yield improved predictions, but their efficiency must be properly assessed.

DNA-arrays (or DNA-chips or microarrays) are flat slabs of glass, silicon or plastic onto which thousands of multiple short single-stranded (ss) DNA sequences (corresponding to small regions of a genome) have been attached. After performing a mRNA extraction in induced and non-induced cells, the mRNA is again reverse transcribed, but here the reaction is tweaked, so that the emerging cDNA contains nucleotides marked with different fluorophores for controls and experiment. Targets will hybridize by base-pairing with those probes that resemble them the most. The array can then be stimulated by a laser and scanned for fluorescence at two different wavelengths (control and induced). The ratio or log-ratio between the two fluorescence intensities corresponds to the induction level.

A technique used to locate and isolate Fur sites via cloning. The genome of a target organism is digested with restriction enzymes, and ligated into high copy plasmids to create a plasmid library, which is then cloned into a cell line with a fur-repressed reporter. In cells where the introduced high copy plasmid contains a fur site, fur will be titrated away from it's binding site on the reporter (and throughout the genome), marking the colony. The cell can then be isolated, the plasmid extracted and sequenced for further study.

Machine learning methods can be used to predict TF-binding sites, often using additional sequence-derived information (e.g. predicted DNA curvature), partitioning classical PSSMs into submotifs or computing correlations among site positions. These methods can yield improved predictions, but their efficiency must be properly assessed.

DNA-arrays (or DNA-chips or microarrays) are flat slabs of glass, silicon or plastic onto which thousands of multiple short single-stranded (ss) DNA sequences (corresponding to small regions of a genome) have been attached. After performing a mRNA extraction in induced and non-induced cells, the mRNA is again reverse transcribed, but here the reaction is tweaked, so that the emerging cDNA contains nucleotides marked with different fluorophores for controls and experiment. Targets will hybridize by base-pairing with those probes that resemble them the most. The array can then be stimulated by a laser and scanned for fluorescence at two different wavelengths (control and induced). The ratio or log-ratio between the two fluorescence intensities corresponds to the induction level.

A technique used to locate and isolate Fur sites via cloning. The genome of a target organism is digested with restriction enzymes, and ligated into high copy plasmids to create a plasmid library, which is then cloned into a cell line with a fur-repressed reporter. In cells where the introduced high copy plasmid contains a fur site, fur will be titrated away from it's binding site on the reporter (and throughout the genome), marking the colony. The cell can then be isolated, the plasmid extracted and sequenced for further study.

Machine learning methods can be used to predict TF-binding sites, often using additional sequence-derived information (e.g. predicted DNA curvature), partitioning classical PSSMs into submotifs or computing correlations among site positions. These methods can yield improved predictions, but their efficiency must be properly assessed.

DNA-arrays (or DNA-chips or microarrays) are flat slabs of glass, silicon or plastic onto which thousands of multiple short single-stranded (ss) DNA sequences (corresponding to small regions of a genome) have been attached. After performing a mRNA extraction in induced and non-induced cells, the mRNA is again reverse transcribed, but here the reaction is tweaked, so that the emerging cDNA contains nucleotides marked with different fluorophores for controls and experiment. Targets will hybridize by base-pairing with those probes that resemble them the most. The array can then be stimulated by a laser and scanned for fluorescence at two different wavelengths (control and induced). The ratio or log-ratio between the two fluorescence intensities corresponds to the induction level.

A technique used to locate and isolate Fur sites via cloning. The genome of a target organism is digested with restriction enzymes, and ligated into high copy plasmids to create a plasmid library, which is then cloned into a cell line with a fur-repressed reporter. In cells where the introduced high copy plasmid contains a fur site, fur will be titrated away from it's binding site on the reporter (and throughout the genome), marking the colony. The cell can then be isolated, the plasmid extracted and sequenced for further study.

Machine learning methods can be used to predict TF-binding sites, often using additional sequence-derived information (e.g. predicted DNA curvature), partitioning classical PSSMs into submotifs or computing correlations among site positions. These methods can yield improved predictions, but their efficiency must be properly assessed.

DNA-arrays (or DNA-chips or microarrays) are flat slabs of glass, silicon or plastic onto which thousands of multiple short single-stranded (ss) DNA sequences (corresponding to small regions of a genome) have been attached. After performing a mRNA extraction in induced and non-induced cells, the mRNA is again reverse transcribed, but here the reaction is tweaked, so that the emerging cDNA contains nucleotides marked with different fluorophores for controls and experiment. Targets will hybridize by base-pairing with those probes that resemble them the most. The array can then be stimulated by a laser and scanned for fluorescence at two different wavelengths (control and induced). The ratio or log-ratio between the two fluorescence intensities corresponds to the induction level.

A technique used to locate and isolate Fur sites via cloning. The genome of a target organism is digested with restriction enzymes, and ligated into high copy plasmids to create a plasmid library, which is then cloned into a cell line with a fur-repressed reporter. In cells where the introduced high copy plasmid contains a fur site, fur will be titrated away from it's binding site on the reporter (and throughout the genome), marking the colony. The cell can then be isolated, the plasmid extracted and sequenced for further study.

Machine learning methods can be used to predict TF-binding sites, often using additional sequence-derived information (e.g. predicted DNA curvature), partitioning classical PSSMs into submotifs or computing correlations among site positions. These methods can yield improved predictions, but their efficiency must be properly assessed.