scholarly article | Q13442814 |
P356 | DOI | 10.1016/0022-2836(91)90524-A |
P953 | full work available at URL | https://api.elsevier.com/content/article/PII:002228369190524A?httpAccept=text/plain |
https://api.elsevier.com/content/article/PII:002228369190524A?httpAccept=text/xml | ||
P698 | PubMed publication ID | 1848637 |
P2093 | author name string | A. Kolb | |
J. Plumbridge | |||
P2860 | cites work | 57 Sequencing end-labeled DNA with base-specific chemical cleavages | Q27860479 |
Three binding sites for AraC protein are required for autoregulation of araC in Escherichia coli | Q33559172 | ||
Alternative DNA loops regulate the arabinose operon in Escherichia coli | Q33634829 | ||
Dual mechanism of repression at a distance in the lac operon | Q33677987 | ||
Promoters largely determine the efficiency of repressor action | Q33678135 | ||
Interaction of spatially separated protein-DNA complexes for control of gene expression: operator conversions | Q33687331 | ||
In vivo DNA loops in araCBAD: size limits and helical repeat | Q33831140 | ||
Interaction site of Escherichia coli cyclic AMP receptor protein on DNA of galactose operon promoters | Q34036672 | ||
Regulation of genes coding for enzyme constituents of the bacterial phosphotransferase system | Q34116188 | ||
DNA looping in cellular repression of transcription of the galactose operon | Q34211054 | ||
A control element within a structural gene: The gal operon of Escherichia coli | Q34254293 | ||
The locus of sequence-directed and protein-induced DNA bending | Q34255559 | ||
Multipartite genetic control elements: communication by DNA loop | Q34517139 | ||
Cyclic AMP receptor protein interacts with lactose operator DNA | Q35699733 | ||
Action of CAP on the malT promoter in vitro | Q36333471 | ||
Phosphorylation of D-glucose in Escherichia coli mutants defective in glucosephosphotransferase, mannosephosphotransferase, and glucokinase | Q36763906 | ||
Bacterial gene regulation from distant DNA sites | Q38250254 | ||
Structure refined to 2Å of a nicked DNA octanucleotide complex with DNase I | Q38347613 | ||
DNA conformation and protein binding | Q38686686 | ||
DNA binding by proteins | Q39253593 | ||
Gene regulation by proteins acting nearby and at a distance | Q39504312 | ||
Induction of the nag regulon of Escherichia coli by N-acetylglucosamine and glucosamine: role of the cyclic AMP-catabolite activator protein complex in expression of the regulon | Q39945262 | ||
Cyclic AMP receptor protein: role in transcription activation | Q40176314 | ||
Purification and characterization of the deoR repressor of Escherichia coli. | Q40817056 | ||
RNA polymerase and gal repressor bind simultaneously and with DNA bending to the control region of the Escherichia coli galactose operon. | Q40817728 | ||
DNA supercoiling changes the spacing requirement of two lac operators for DNA loop formation with lac repressor. | Q41091317 | ||
Selection of DNA binding sites by regulatory proteins. II. The binding specificity of cyclic AMP receptor protein to recognition sites | Q41373606 | ||
Regulation of adenylate cyclase synthesis in Escherichia coli: nucleotide sequence of the control region. | Q41455060 | ||
Characterization of two mutations in the Escherichia coli galE gene inactivating the second galactose operator and comparative studies of repressor binding | Q41465828 | ||
The upstream operator of the Escherichia coli galactose operon is sufficient for repression of transcription initiated at the cyclic AMP-stimulated promoter. | Q42565465 | ||
DNA-protein recognition: demonstration of three genetically separated operator elements that are required for repression of the Escherichia coli deoCABD promoters by the DeoR repressor. | Q42572294 | ||
Sequence of the nagBACD operon in Escherichia coli K12 and pattern of transcription within the nag regulon | Q42644794 | ||
Control of amino sugar metabolism in Escherichia coli and isolation of mutants unable to degrade amino sugars | Q42952761 | ||
Cooperative binding of lambda repressors to sites separated by integral turns of the DNA helix | Q43484354 | ||
A complex nucleoprotein structure involved in activation of transcription of two divergent Escherichia coli promoters | Q44009462 | ||
DNA loops induced by cooperative binding of lambda repressor | Q44068391 | ||
Upstream operators enhance repression of the lac promoter | Q44758572 | ||
DNA looping and unlooping by AraC protein | Q46328820 | ||
Escherichia coli tryptophan repressor binds multiple sites within the aroH and trp operators | Q46607404 | ||
DNA supercoiling promotes formation of a bent repression loop in lac DNA. | Q46949013 | ||
CRP/cAMP- and CytR-regulated promoters in Escherichia coli K12: the cdd promoter | Q48285742 | ||
Nucleotide sequences of the Escherichia coli nagE and nagB genes: the structural genes for the N-acetylglucosamine transport protein of the bacterial phosphoenolpyruvate: sugar phosphotransferase system and for glucosamine-6-phosphate deaminase | Q48331627 | ||
E. coli integration host factor binds to specific sites in DNA | Q48385478 | ||
The interaction of E. coli IHF protein with its specific binding sites. | Q52065221 | ||
Gene fusions to the ptsM/pel locus of Escherichia coli. | Q52490951 | ||
Tandem DNA-bound cAMP-CRP complexes are required for transcriptional repression of the deoP2 promoter by the CytR repressor in Escherichia coli. | Q54317775 | ||
Stringent spacing requirements for transcription activation by CRP. | Q54709893 | ||
Interaction of the Escherichia coli Gal repressor protein with its DNA operators in vitro. | Q54714858 | ||
Scanning calorimetric study of the thermal unfolding of catabolite activator protein from Escherichia coli in the absence and presence of cyclic mononucleotides. | Q54745525 | ||
The integration host factor of Escherichia coli binds to bent DNA at the origin of replication of the plasmid pSC101. | Q54764277 | ||
Long-range cooperativity between gene regulatory sequences in a prokaryote. | Q54767443 | ||
The DNA binding domain and bending angle of E. coli CAP protein. | Q54771566 | ||
Co-operative interactions between the catabolite gene activator protein and the lac repressor at the lactose promoter | Q68471276 | ||
lac repressor forms stable loops in vitro with supercoiled wild-type lac DNA containing all three natural lac operators | Q68828027 | ||
Single and double loop formation when deoR repressor binds to its natural operator sites | Q69522054 | ||
Analysis of the nag regulon from Escherichia coli K12 and Klebsiella pneumoniae and of its regulation | Q69566669 | ||
DNA structural variations in the E. coli tyrT promoter | Q70212199 | ||
Specific destruction of the second lac operator decreases repression of the lac operon in Escherichia coli fivefold | Q70360369 | ||
Deletion analysis of the Escherichia coli ara PC and PBAD promoters | Q70403367 | ||
Structural specificities of five commonly used DNA nucleases | Q72386598 | ||
P433 | issue | 4 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | Escherichia coli | Q25419 |
structural biology | Q908902 | ||
regulatory sequence | Q3238407 | ||
Escherichia coli proteins | Q66764953 | ||
P304 | page(s) | 661-679 | |
P577 | publication date | 1991-02-01 | |
1991-02-20 | |||
P1433 | published in | Journal of Molecular Biology | Q925779 |
P1476 | title | CAP and Nag repressor binding to the regulatory regions of the nagE-B and manX genes of Escherichia coli | |
P478 | volume | 217 |
Q42492961 | An Lrp-like transcriptional regulator from the archaeon Pyrococcus furiosus is negatively autoregulated |
Q40933893 | Cell lines with reduced UDP-N-acetylhexosamine pool in the presence of ammonium |
Q40789107 | Co-ordinated regulation of amino sugar biosynthesis and degradation: the NagC repressor acts as both an activator and a repressor for the transcription of the glmUS operon and requires two separated NagC binding sites |
Q48203046 | Comparison of the sequences of the nagE operons from Klebsiella pneumoniae and Escherichia colt K12: Enhanced variability of the enzyme IIN-acetylglucosamine in regions connecting functional domains |
Q48040018 | Control of the expression of the manXYZ operon in Escherichia coli: Mlc is a negative regulator of the mannose PTS. |
Q39723059 | DNA bending and expression of the divergent nagE-B operons |
Q38659175 | DNA binding sites for the Mlc and NagC proteins: regulation of nagE, encoding the N-acetylglucosamine-specific transporter in Escherichia coli |
Q54647701 | DNA loop formation between Nag repressor molecules bound to its two operator sites is necessary for repression of the nag regulon of Escherichia coli in vivo. |
Q34406390 | DNA looping |
Q38071974 | DNA looping in prokaryotes: experimental and theoretical approaches |
Q33835110 | DNA looping-dependent autorepression of LEE1 P1 promoters by Ler in enteropathogenic Escherichia coli (EPEC). |
Q37059813 | Functions of the gene products of Escherichia coli. |
Q38363996 | Genome-wide analysis of deoxyadenosine methyltransferase-mediated control of gene expression in Escherichia coli |
Q35006557 | Genomic Analysis and Initial Characterization of the Chitinolytic System of Microbulbifer degradans Strain 2-40 |
Q39841236 | How to achieve constitutive expression of a gene within an inducible operon: the example of the nagC gene of Escherichia coli |
Q33521105 | Identification and dynamics of a beneficial mutation in a long-term evolution experiment with Escherichia coli |
Q38334770 | Identification of the CRP regulon using in vitro and in vivo transcriptional profiling |
Q37603737 | Integrated regulatory responses of fimB to N-acetylneuraminic (sialic) acid and GlcNAc in Escherichia coli K-12. |
Q33967274 | Long-term experimental evolution in Escherichia coli. IV. Targets of selection and the specificity of adaptation |
Q55450202 | N-Acetyl-glucosamine influences the biofilm formation of Escherichia coli. |
Q38339751 | Negative transcriptional regulation of a positive regulator: the expression of malT, encoding the transcriptional activator of the maltose regulon of Escherichia coli, is negatively controlled by Mlc. |
Q56899487 | New nucleotide sequence data on the EMBL File Server |
Q24634652 | Phosphoenolpyruvate:carbohydrate phosphotransferase systems of bacteria |
Q40693748 | Promoters responsive to DNA bending: a common theme in prokaryotic gene expression |
Q54586812 | Purification by Ni2+ affinity chromatography, and functional reconstitution of the transporter for N-acetylglucosamine of Escherichia coli. |
Q36802922 | Regulation of fim genes in uropathogenic Escherichia coli |
Q48080390 | Regulation of xylose utilization in Bacillus licheniformis: Xyl repressor-xyl-operator interaction studied by DNA modification protection and interference |
Q43407070 | Repression and induction of the nag regulon of Escherichia coll K-12: the roles of nagC and nagA in maintenance of the uninduced state |
Q54688587 | Restored DNA-binding of the cAMP-CRP activator complex reestablishes negative regulation by the CytR repressor in the deoP2 promoter in Escherichia coli. |
Q42057164 | Shedding light on bioluminescence regulation in Vibrio fischeri |
Q42646472 | Sugar transport by the marine chitinolytic bacterium Vibrio furnissii. Molecular cloning and analysis of the glucose and N-acetylglucosamine permeases |
Q42290753 | The NAG Sensor NagC Regulates LEE Gene Expression and Contributes to Gut Colonization by Escherichia coli O157:H7. |
Q28504066 | The glucose kinase gene of Streptomyces coelicolor A3(2): its nucleotide sequence, transcriptional analysis and role in glucose repression |
Q41973368 | The transcriptional factors MurR and catabolite activator protein regulate N-acetylmuramic acid catabolism in Escherichia coli |
Q35749309 | Two nucleotide second messengers regulate the production of the Vibrio cholerae colonization factor GbpA. |
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