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4. Automated preparation method for colloidal crystal arrays of monodisperse and binary colloid mixtures by contact printing with a pintool plotter.

Author

Burkert K, Neumann T, Wang J, Jonas U, Knoll W, and Ottleben H

Subjects
Automation, Crystallization, Equipment Design, Ligands, Materials Testing, Microscopy, Electron, Scanning, Particle Size, Proteins chemistry, Robotics, Surface Properties, Biosensing Techniques instrumentation, Colloids chemistry, Electrochemistry methods
Abstract

Photonic crystals and photonic band gap materials with periodic variation of the dielectric constant in the submicrometer range exhibit unique optical properties such as opalescence, optical stop bands, and photonic band gaps. As such, they represent attractive materials for the active elements in sensor arrays. Colloidal crystals, which are 3D gratings leading to Bragg diffraction, are one potential precursor of such optical materials. They have gained particular interest in many technological areas as a result of their specific properties and ease of fabrication. Although basic techniques for the preparation of regular patterns of colloidal crystals on structured substrates by self-assembly of mesoscopic particles are known, the efficient fabrication of colloidal crystal arrays by simple contact printing has not yet been reported. In this article, we present a spotting technique used to produce a microarray comprising up to 9600 single addressable sensor fields of colloidal crystal structures with dimensions down to 100 mum on a microfabricated substrate in different formats. Both monodisperse colloidal crystals and binary colloidal crystal systems were prepared by contact printing of polystyrene particles in aqueous suspension. The array morphology was characterized by optical light microscopy and scanning electron microscopy, which revealed regularly ordered crystalline structures for both systems. In the case of binary crystals, the influence of the concentration ratio of the large and small particles in the printing suspension on the obtained crystal structure was investigated. The optical properties of the colloidal crystal arrays were characterized by reflection spectroscopy. To examine the stop bands of the colloidal crystal arrays in a high-throughput fashion, an optical setup based on a CCD camera was realized that allowed the simultaneous readout of all of the reflection spectra of several thousand sensor fields per array in parallel. In agreement with Bragg's relation, the investigated arrays exhibited strong opalescence and stop bands in the expected wavelength range, confirming the successful formation of highly ordered colloidal crystals. Furthermore, a narrow distribution of wavelength-dependent stop bands across the sensor array was achieved, demonstrating the capability of producing highly reproducible crystal spots by the contact printing method with a pintool plotter.

Published
2007
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5. Large-scale protein expression for proteome research.

Author

Korf U, Kohl T, van der Zandt H, Zahn R, Schleeger S, Ueberle B, Wandschneider S, Bechtel S, Schnölzer M, Ottleben H, Wiemann S, and Poustka A

Subjects
Amino Acid Sequence, Chromatography, Affinity, DNA, Complementary, Escherichia coli Proteins genetics, Molecular Sequence Data, Open Reading Frames, Recombinant Fusion Proteins chemistry, Recombinant Fusion Proteins isolation & purification, Research, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Temperature, Proteome, Recombinant Fusion Proteins biosynthesis
Abstract

Access to pure and soluble recombinant proteins is essential for numerous applications in proteome research, such as the production of antibodies, structural characterization of proteins, and protein microarrays. Through the German cDNA Consortium we have access to more than 1500 ORFs encoding uncharacterized proteins. Preparing a large number of recombinant proteins calls for the careful refinement and re-evaluation of protein purification tools. The expression and purification strategy should result in mg quantities of protein that can be employed in microarray-based assays. In addition, the experimental set-up should be robust enough to allow both automated protein expression screening and the production of the proteins on a mg scale. These requirements are best fulfilled by a bacterial expression system such as Escherichia coli. To develop an efficient expression strategy, 75 different ORFs were transferred into suitable expression vectors using the Gateway cloning system. Four different fusion tags (E. coli transcription-termination anti-termination factor (NusA), hexahistidine tag (6xHis), maltose binding protein (MBP) and GST) were analyzed for their effect on yield of induced fusion protein and its solubility, as determined at two different induction temperatures. Affinity-purified fusion proteins were confirmed by MALDI-TOF MS.

Published
2005
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6. Custom chemical microarray production and affinity fingerprinting for the S1 pocket of factor VIIa.

Author

Dickopf S, Frank M, Junker HD, Maier S, Metz G, Ottleben H, Rau H, Schellhaas N, Schmidt K, Sekul R, Vanier C, Vetter D, Czech J, Lorenz M, Matter H, Schudok M, Schreuder H, Will DW, and Nestler HP

Subjects
Chemistry, Pharmaceutical, Combinatorial Chemistry Techniques, Factor VIIa chemistry, Ligands, Magnetic Resonance Spectroscopy, Models, Molecular, Molecular Weight, Organic Chemicals chemical synthesis, Protein Binding, Surface Plasmon Resonance, Drug Design, Factor VIIa antagonists & inhibitors, Factor VIIa metabolism, Organic Chemicals chemistry, Peptides chemical synthesis, Peptides chemistry, Protein Array Analysis
Abstract

The goal of this study was to explore the applicability of surface plasmon resonance (SPR)-based fragment screening to identify compounds that bind to factor VIIa (FVIIa). Based on pharmacophore models virtual screening approaches, we selected fragments anticipated to have a reasonable chance of binding to the S1-binding pocket of FVIIa and immobilized these compounds on microarrays. In affinity fingerprinting experiments, a number of compounds were identified to be specifically interacting with FVIIa and shown to fall into four structural classes. The results demonstrate that the chemical microarray technology platform using SPR detection generates unique chemobiological information that is useful for de novo discovery and lead development and allows the detection of weak interactions with ligands of low molecular weight.

Published
2004
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7. Targeting of the transcription factor Max during apoptosis: phosphorylation-regulated cleavage by caspase-5 at an unusual glutamic acid residue in position P1.

Author

Krippner-Heidenreich A, Talanian RV, Sekul R, Kraft R, Thole H, Ottleben H, and Lüscher B

Subjects
Amino Acid Chloromethyl Ketones pharmacology, Amino Acid Sequence, Amino Acid Substitution, Animals, Apoptosis drug effects, Basic Helix-Loop-Helix Leucine Zipper Transcription Factors, Basic-Leucine Zipper Transcription Factors, COS Cells, Caspase 7, Chlorocebus aethiops, Cysteine Proteinase Inhibitors pharmacology, DNA-Binding Proteins chemistry, Dimerization, Humans, Immunoglobulin M pharmacology, Jurkat Cells, Mutagenesis, Site-Directed, Peptide Fragments chemistry, Peptide Mapping, Phosphorylation, Recombinant Proteins chemistry, Recombinant Proteins metabolism, Substrate Specificity, Transcription Factors chemistry, Transcription Factors metabolism, Transfection, fas Receptor physiology, Apoptosis physiology, Caspases metabolism, DNA-Binding Proteins metabolism, Glutamic Acid
Abstract

Max is the central component of the Myc/Max/Mad network of transcription factors that regulate growth, differentiation and apoptosis. Whereas the Myc and Mad genes and proteins are highly regulated, Max expression is constitutive and no post-translational regulation is known. We have found that Max is targeted during Fas-induced apoptosis. Max is first dephosphorylated and subsequently cleaved by caspases. Two specific cleavage sites for caspases in Max were identified, one at IEVE(10) decreasing S and one at SAFD(135) decreasing G near the C-terminus, which are cleaved in vitro by caspase-5 and caspase-7 respectively. Mutational analysis indicates that both sites are also used in vivo. Thus Max represents the first caspase-5 substrate. The unusual cleavage after a glutamic acid residue is observed only with full-length, DNA-binding competent Max protein but not with corresponding peptides, suggesting that structural determinants might be important for this activity. Furthermore, cleavage by caspase-5 is inhibited by the protein kinase CK2-mediated phosphorylation of Max at Ser-11, a previously mapped phosphorylation site in vivo. These findings suggest that Fas-mediated dephosphorylation of Max is required for cleavage by caspase-5. The modifications that occur on Max in response to Fas signalling affect the DNA-binding activity of Max/Max homodimers. Taken together, our findings uncover three distinct processes, namely dephosphorylation and cleavage by caspase-5 and caspase-7, that target Max during Fas-mediated apoptosis, suggesting the regulation of the Myc/Max/Mad network through its central component.

Published
2001
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8. An NMR study of the interaction of 15N-labelled bradykinin with an antibody mimic of the bradykinin B2 receptor.

Author

Ottleben H, Haasemann M, Ramachandran R, Görlach M, Müller-Esterl W, and Brown LR

Subjects
Amino Acid Sequence, Animals, Antibodies, Monoclonal metabolism, Base Sequence, Binding Sites, Bradykinin chemistry, Bradykinin genetics, DNA Primers genetics, Humans, Immunoglobulin Fab Fragments metabolism, In Vitro Techniques, Magnetic Resonance Spectroscopy, Mice, Nitrogen Isotopes, Protein Binding, Protein Conformation, Receptor, Bradykinin B2, Receptors, Bradykinin chemistry, Receptors, Bradykinin immunology, Recombinant Fusion Proteins chemistry, Recombinant Fusion Proteins immunology, Recombinant Fusion Proteins metabolism, Bradykinin metabolism, Receptors, Bradykinin metabolism
Abstract

An isotope-edited NMR study of the peptide hormone bradykinin (RPPGFSPFR) bound to the Fab fragment of a monoclonal antibody against bradykinin (MBK3) is reported. MBK3 was previously shown to provide a binding site model of the B2 bradykinin receptor [Haasemann, M., Buschko, J., Faussner, A., Roscher, A. A., Hoebeke, J., Burch, R. M. & Muller-Esterl, W. (1991) Anti-idiotypic antibodies bearing the internal image of a bradykinin epitope, J. Immunol. 147, 3882-3892]. Bradykinin was obtained in a uniformly 15N-labelled form using recombinant expression of a fusion protein consisting of the glutathione-binding domain of glutathione S-transferase fused to residues 354-375 of the high-molecular-mass kininogen from which bradykinin was released by proteolytic digestion with its natural protease plasma kallikrein. Bradykinin forms a complex with the Fab fragment of MBK3 which exchanges slowly on the NMR time scale. The 15N and 1H resonances of the tightly bound residues of bradykinin show appreciable changes in chemical shift with respect to the free form, while the 15N and 1H linewidths indicate that the hydrodynamic behaviour of bound bradykinin is dominated by the high-molecular-mass Fab fragment. The NMR data indicate that essentially the entire nonapeptide is involved in binding. The kinetics of the ligand-exchange process, together with resonance assignments obtained via exchange spectroscopy. indicate that bradykinin binds to MBK3 only in the all-trans conformation at all three Xaa-Pro amide bonds. NH-NH NOE connectivities suggest that bradykinin is bound in an extended conformation. The spectroscopic data obtained from this study are compared to recently proposed computational models of the conformation of bradykinin bound to the B2 receptor.

Published
1997
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9. NMR investigations of recombinant 15N/13C/2H-labeled bradykinin bound to a Fab mimic of the B2 receptor.

Author

Ottleben H, Haasemann M, Ramachandran R, Müller-Esterl W, and Brown LR

Subjects
Carbon Isotopes, Deuterium, Isotope Labeling, Nitrogen Isotopes, Receptor, Bradykinin B2, Bradykinin metabolism, Immunoglobulin Fab Fragments metabolism, Nuclear Magnetic Resonance, Biomolecular methods, Receptors, Bradykinin metabolism
Abstract

NMR spectroscopy has been used to obtain structural information on the bioactive conformation of the nonapeptide hormone bradykinin (Arg-Pro-Pro-Gly-Ser-Pro-Phe-Arg, BK) bound to the Fab-fragment of an antibody that mimics the hormone binding site of the natural bradykinin B2-receptor. Using 15N or 15N,13C, 60% 2H isotope labelled bradykinin, complete 1H, 13C and 15N assignments for bradykinin bound to the Fab-fragment have been obtained. Preliminary interpretation of 15N edited NOE spectra indicates that the conformation of bradykinin bound to the model receptor differs substantially from previous computer models of the bioactive conformation of bradykinin.

Published
1997

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