Ina Dix scite author profile

SummaryLysR-type transcriptional regulators (LTTRs) constitute the largest family of regulators in prokaryotes. The full-length structures of the LTTR TsaR from Comamonas testosteroni T-2 and its complex with the natural inducer para-toluensulfonate have been characterized by X-ray diffraction. Both ligand-free and complexed forms reveal a dramatically different quaternary structure from that of CbnR from Ralstonia eutropha, or a putative LysR-type regulator from Pseudomonas aeruginosa, the only other determined full-length structures of tetrameric LTTRs. Although all three show a head-to-head tetrameric ring, TsaR displays an open conformation, whereas CbnR and PA01-PR present additional contacts in opposing C-terminal domains that close the ring. Such large differences may be due to a broader structural versatility than previously assumed or either, reflect the intrinsic flexibility of tetrameric LTTRs. On the grounds of the sliding dimer hypothesis of LTTR activation, we propose a structural model in which the closed structures could reflect the conformation of a ligand-free LTTR, whereas inducer binding would bring about local changes to disrupt the interface linking the two compact C-terminal domains. This could lead to a TsaR-like, open structure, where the pairs of recognition helices are closer to each other by more than 10 Å.

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Design and Development of a Cyclic Decapeptide Scaffold with Suitable Properties for Bioavailability and Oral Exposure

Fouché

Schäfer

Berghausen

et al. 2016

ChemMedChem

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Permeability and oral bioavailability of macrocyclic peptides still represent difficult challenges in drug discovery. Despite the recognized potential of macrocyclic peptides as therapeutics, their use is still restricted to extracellular targets and intravenous administration. Indeed, macrocyclic peptides generally suffer from limited proteolytic stability, high clearance, and poor membrane permeability, and this leads to the absence of systemic exposure after oral administration. To overcome these limitations, we started to investigate the development of a general cyclic decapeptide scaffold that possesses ideal features for cell permeability and oral exposure. On the basis of a rigid hairpin structure, the scaffold design aimed to decrease the overall polarity of the compound, thereby limiting the energetic cost of NH desolvation and the entropy penalty during cell penetration. The results of this study also demonstrate the importance of rigidity for the β-turn design regarding clearance. To stabilize the scaffold in the desired β-hairpin conformation, the introduction of d-proline at the i+1 turn position proved to be beneficial for both permeability and clearance. As a result, cyclopeptide decamers with unprecedented high values for oral bioavailability and exposure are reported herein. NMR spectroscopy conformation and dynamic analysis confirmed, for selected examples, the rigidity of the scaffold and the presence of transannular hydrogen bonds in polar and apolar environments. Furthermore, we showed, for one compound, that its transition from a polar environment to an apolar one was accompanied by an increased molecular motion, revealing an entropy contribution to membrane permeation.

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4,15-Diamino[2.2]paracyclophane, a Reusable Template for Topochemical Reaction Control in Solution

et al. 2002

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An efficient synthesis of [2.2]paracyclophane-4,15-dicarboxylic acid (11) from [2.2]paracyclophane (8) has been developed. The diacid was converted via the diazide 14 into the 4,15-diisocyanato[2.2]paracyclophane (15), a versatile intermediate that could be transformed into many new pseudogeminally substituted derivatives of 8. For example, treatment of 15 with alcohols provided the carbamates 16 and 17. On treatment of 15 with diisopropylamine, the urea 18 was obtained, whereas reduction with lithium aluminium hydride afforded the cyclic urea 20. Hydrolysis of 15 furnished the

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MP2 and DFT Calculations on Circulenes and an Attempt to Prepare the Second Lowest Benzolog, [4]Circulene

Christoph

Grunenberg

Hopf

et al. 2008

Chemistry A European J

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MP2 and DFT calculations have been carried out for [n]circulenes for n=3 to 20 in order to predict the strain energy and topology of these cyclically condensed aromatic systems. To synthesise [4]circulene (2), 1,5,7,8-tetrakis(bromomethyl)biphenylene (14) was prepared from the corresponding tetramethyl derivative (8) and subjected to various dehalogenation reactions; all attempts to obtain [2.2]biphenylenophane (7) as a precursor for 2 by this route failed. Treatment of 14 with sodium sulfide furnished the thiaphanes 16 and 17, thermal and photochemical desulfurization of which also failed to provide 7. In a second approach [2.2]paracyclophane was converted to the pseudo-geminal dithiol 23, which was subsequently bridged to the thiaphanes 22 and 24. On flash vacuum pyrolysis at 800 degrees C these were converted exclusively into phenanthrene (30). An approach to dehydrochlorinate the commercial product PARYLENE C to the tetrahydro[4]circulene 7 led only to polymerisation. The X-ray structures of the intermediates 8, 14, 17, 23, 24, 26, and 35 are reported.

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Crystallographic characterization and identification of a minor isomer of C84 fullerene

et al. 2008

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Ina Dix

Structural studies on the full‐length LysR‐type regulator TsaR from Comamonas testosteroni T‐2 reveal a novel open conformation of the tetrameric LTTR fold

Design and Development of a Cyclic Decapeptide Scaffold with Suitable Properties for Bioavailability and Oral Exposure

4,15-Diamino[2.2]paracyclophane, a Reusable Template for Topochemical Reaction Control in Solution

MP2 and DFT Calculations on Circulenes and an Attempt to Prepare the Second Lowest Benzolog, [4]Circulene

Crystallographic characterization and identification of a minor isomer of C84 fullerene

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