Detlef Beckers scite author profile

This study focuses on the effects of the organic ligand 4-ethylresorcinol on the crystal structure of human insulin using powder X-ray crystallography. For this purpose, systematic crystallization experiments have been conducted in the presence of the organic ligand and zinc ions within the pH range 4.50-8.20, while observing crystallization behaviour around the isoelectric point of insulin. Highthroughput crystal screening was performed using a laboratory X-ray diffraction system. The most representative samples were selected for synchrotron X-ray diffraction measurements, which took place at the European Synchrotron Radiation Facility (ESRF) and the Swiss Light Source (SLS). Four different crystalline polymorphs have been identified. Among these, two new phases with monoclinic symmetry have been found, which are targets for the future development of microcrystalline insulin drugs.

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Novel crystalline phase and first-order phase transitions of human insulin complexed with two distinct phenol derivatives

Valmas

Magiouf

Fili

et al. 2015

Acta Cryst D Biol Crystallogr

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The primary focus of the present work is the study of the effects that two ligands and the crystallization pH have on the crystalline forms of human insulin. For this purpose, human insulin (HI) was co-crystallized with two distinct phenolic derivatives: the organic ligands meta-cresol (m-cresol) and 4-nitrophenol. The formation of polycrystalline precipitates was then followed by means of structural characterization of the individual specimens in terms of unit-cell symmetry and parameters. In both cases, two different polymorphs were identified via X-ray powder diffraction measurements, the first of hexagonal symmetry (R3 space group) at higher pH values and the second of monoclinic symmetry (space group P21) with unit-cell parameters a = 87.4282 (5), b = 70.5020 (3), c = 48.3180 (4) Å, β = 106.8958 (4)°, the latter of which to our knowledge has never been observed before.

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Revisiting the structure of a synthetic somatostatin analogue for peptide drug design

Fili

Valmas

Spiliopoulou

et al. 2019

Acta Crystallogr B Struct Sci Cryst Eng Mater

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Natural or artificially manufactured peptides attract scientific interest worldwide owing to their wide array of pharmaceutical and biological activities. X-ray structural studies are used to provide a precise extraction of information, which can be used to enable a better understanding of the function and physicochemical characteristics of peptides. Although it is vulnerable to disassociation, one of the most vital human peptide hormones, somatostatin, plays a regulatory role in the endocrine system as well as in the release of numerous secondary hormones. This study reports the successful crystallization and complete structural model of octreotide, a stable octapeptide analogue of somatostatin. Common obstacles in crystallographic studies arising from the intrinsic difficulties of obtaining a suitable single-crystal specimen were efficiently overcome as polycrystalline material was employed for synchrotron and laboratory X-ray powder diffraction (XPD) measurements. Data collection and preliminary analysis led to the identification of unit-cell symmetry [orthorhombic, P2 1 2 1 2 1 , a = 18.5453 (15), b = 30.1766 (25), c = 39.798 (4) Å ], a process which was later followed by complete structure characterization and refinement, underlying the efficacy of the suggested (XPD) approach.

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Powder diffraction studies on proteins: An overview of data collection approaches

Margiolaki

Wright²,

Fitch³

et al. 2007

Z. Kristallogr. Suppl.

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Abstract.Following the seminal work of Von Dreele, high quality powder X-ray diffraction studies on proteins are being established as a valuable complementary technique to singlecrystal measurements. Several studies using a variety of experiments approaches have been reported in the literature, including high-resolution studies employing parallel beam geometry and high intensity measurements using position sensitive detectors. The choice of the optimum instrumental configuration depends on a number of competing factors such as the amount of sample available, its radiation sensitivity, and the quality of the data required for data analysis, e.g. angular resolution, the extent of the data in d-spacing, or the number of patterns required to explore the protein's behaviour at different temperatures, or under different crystallisation conditions, etc. Here we discuss several advantages and disadvantages of different data collection methods followed for selected examples of small proteins.

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In situdetection of a novel lysozyme monoclinic crystal form upon controlled relative humidity variation

et al. 2018

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The effect of relative humidity (rH) on protein crystal structures, an area that has attracted high scientific interest during the past decade, is investigated in this study on hen egg‐white lysozyme (HEWL) polycrystalline precipitates via in situ laboratory X‐ray powder diffraction (XRPD) measurements. For this purpose, HEWL was crystallized at room temperature and pH 4.5, leading to a novel monoclinic HEWL phase which, to our knowledge, has not been reported before. Analysis of XRPD data collected upon rH variation revealed several structural modifications. These observations, on a well‐studied molecule like HEWL, underline not only the high impact of humidity levels on biological crystal structures, but also the significance of in‐house XRPD as an analytical tool in industrial drug development and its potential to provide information for enhancing manufacturing of pharmaceuticals.

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Detlef Beckers

Human insulin polymorphism upon ligand binding and pH variation: the case of 4-ethylresorcinol

Novel crystalline phase and first-order phase transitions of human insulin complexed with two distinct phenol derivatives

Revisiting the structure of a synthetic somatostatin analogue for peptide drug design

Powder diffraction studies on proteins: An overview of data collection approaches

In situdetection of a novel lysozyme monoclinic crystal form upon controlled relative humidity variation

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