The Tetracycline Repressor—A Paradigm for a Biological Switch

Saenger, Wolfram; Orth, Peter; Kisker, Caroline; Hillen, Wolfgang; Hinrichs, Winfried

doi:10.1002/1521-3773(20000616)39:12<2042::aid-anie2042>3.0.co;2-c

Cited by 121 publications

(152 citation statements)

References 29 publications

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“…Antibiotic binding to TetR leads to a decrease in affinity of the protein for DNA that allows transcription of the genes that code for TetA, a membrane protein that exports the tetracyline out of the bacterial cell before it can attack its target, the ribosome, and TetR itself (2). The repressor protein is a homodimer in which each monomer is composed of a tetracycline binding/dimerization domain and a helix-turn-helix DNA binding domain (3).…”

mentioning

confidence: 99%

Regulating transcription regulators via allostery and flexibility

Beckett

2009

Proc. Natl. Acad. Sci. U.S.A.

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confidence: 99%

Regulating transcription regulators via allostery and flexibility

Beckett

2009

Proc. Natl. Acad. Sci. U.S.A.

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“…These binding properties are studied and used in design and synthesis of new antibacterial drugs also [9,10]. As a high number of pathogenic bacteria show resistance toward antibiotics, it is necessary to find new effective compounds and control the multidrug resistance of microbes [11,12]. Therefore much effort is put into modifying of antibiotics already in use, while new compounds are also synthesized.…”

Section: Introductionmentioning

confidence: 99%

Synthesis, physico-chemical characterization and bacteriostatic study of Pt complexes with substituted amine ligands

Holló

Szilágyi

Várhelyi

et al. 2016

J Therm Anal Calorim

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Three complexes of general formula PtCl 2 R 2 were synthesized, where R is the amine ligand with aromatic substituents. Coordination compounds [Pt(an) 2 Cl 2 ] (1), [Pt(pa) 2 Cl 2 ] (2) and [Pt(aph) 2 Cl 2 ] (3), where an is 2-aminonaphtalene, pa is 2-pyrimidinamine and aph is 4-anilinophenol, were characterized by on-line coupled TG/DTA-MS, powder XRD and spectroscopic techniques (FTIR, ESI-MS and NMR), and tested against selected Gram(+) and Gram(-) bacteria. The thermal data show that all three compounds contain lattice or absorbed water, and the stability of the anhydrous compounds in nitrogen decreases in the order 2 > 1 > 3. Above 200 °C, the complexes loose characteristic fragments of their ligands. The spectroscopic data are in accordance with the thermal properties of the samples and prove their composition. The compounds are more effective inhibitors of Gram(+) than Gram(−) bacteria.

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“…In all, at least 23 protein kinases are known to be phosphorylated by PDK1. We present the crystal structure [1] of PDK1 bound to a rationally developed low-molecular-weight activator [2] and describe the conformational changes induced by small compounds in the crystal and in solution using a fluorescencebased assay and deuterium exchange experiments. Our results indicate that the binding of the compound produces local changes at the target site, the PIF binding pocket, and also allosteric changes at the ATP binding site and the activation loop.…”

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confidence: 99%

“…Altogether, we present molecular details of the allosteric changes induced by small compounds that trigger the activation of PDK1 through mimicry of phosphorylationdependent conformational changes. [1,2]. To receive further structural information on membrane thickness and the change of it by drug incorporation Small Angle X-Ray Scattering (SAXS) profiles have been recorded.…”

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“…The "induced" complex (Tc-bound) is formed upon binding of Tc to TetR and causes the dissociation of TetR from tetO, so that the genes tetR (encoding TetR) and tetA (encoding antiporter TetA) responsible for Tc-resistance can be transcribed. The conformational switch between the two states has been characterized as a shift from a Tc-bound conformation with the DNA-binding domains locked in an orientation that is unfavourable for tetO binding to more flexible behaviour of the DNA-binding domains in the Tc-free state [1]. However, recently, several TetR mutants [2] and Tc peptide mimetics [3] have been identified that appear not to behave according to this "classical mechanism".…”

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Drug-stabilized and drug-free complexes of topo IV fromS. pneumoniaeshed light on the mechanisms of reversible DNA scission and selective drug resistance

Laponogov¹,

Pan²,

Veselkov³

et al. 2010

Acta Cryst Sect A

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Protein phosphorylation transduces a large set of intracellular signals. One mechanism by which phosphorylation mediates signal transduction is by prompting conformational changes in the target protein or interacting proteins. Previous work described an allosteric site mediating phosphorylationdependent activation of AGC protein kinases. The AGC kinase 3-phosphoinositide-dependent protein kinase 1 (PDK1) is activated by the docking of a phosphorylated motif from substrates. PDK1 is a central component of the growth factor and insulin signaling pathways. PDK1 is responsible for the stimulusdependent phosphorylation and activation of many AGC kinases like Akt/PKB, S6K, RSK and SGK. Thus, our studies on PDK1 are relevant both for the growth factor/cancer field (PDK1 is a validated drug target for cancer treatment) and for insulin/diabetes research. PDK1 is also required for the constitutive phosphorylation of the activation loop of other protein kinases, such as all 12 protein kinase C (PKC) isoforms and the protein kinase C-related protein kinases (PRKs). In all, at least 23 protein kinases are known to be phosphorylated by PDK1. We present the crystal structure [1] of PDK1 bound to a rationally developed low-molecular-weight activator [2] and describe the conformational changes induced by small compounds in the crystal and in solution using a fluorescencebased assay and deuterium exchange experiments. Our results indicate that the binding of the compound produces local changes at the target site, the PIF binding pocket, and also allosteric changes at the ATP binding site and the activation loop. Altogether, we present molecular details of the allosteric changes induced by small compounds that trigger the activation of PDK1 through mimicry of phosphorylationdependent conformational changes. The components were mixed in a wide capillary and left for 1 h at room temperature. The resulting complex was centrifuged into a narrow X-ray capillary. SAXS experiment was carried out with a Hecus SWAXS camera (Hecus X-Ray Systems GrazAustria). X-ray generator operating at 50 kV and 50 mA with Cu anode (λ= 1.54 Å) in q range of 0.008 -1.22 (Å -1 ). Measurements were made by a step -scanning procedure and in the fixed time mode, with a sampling time 300 s for each step. SAXS scans were also carried out from 15 to 55 o C by using an external temperature control unit causing temperature increasing in 2 o C to investigate thermal effects on the structure of drug incorporated and pure liposomes. In the result of these studies, the changing in the lamellar repeat distances of DPPC have been determined after the incorporation of three drug compounds. The observed increase in the bilayer thickness which may allow to PBS and drug compound locations was in the range of 12-15 Å. As known as, these interactions occur by four effective types of forces defined as van der Waals, electrostatic, hydration, and undulation forces between DPPC bilayers, and during the incorporation of drug molecule into the DPPC structure [3]. The possible 3-D ...

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The Tetracycline Repressor—A Paradigm for a Biological Switch

Cited by 121 publications

References 29 publications

Regulating transcription regulators via allostery and flexibility

Regulating transcription regulators via allostery and flexibility

Synthesis, physico-chemical characterization and bacteriostatic study of Pt complexes with substituted amine ligands

Drug-stabilized and drug-free complexes of topo IV fromS. pneumoniaeshed light on the mechanisms of reversible DNA scission and selective drug resistance

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