Search

Your search keyword '"Dirk Bächle"' showing total 10 results
Start Over Author "Dirk Bächle"
10 results on '"Dirk Bächle"'

1. Substitution determination of Fmoc-substituted resins at different wavelengths

Author

Thomas Meier, Dirk Bächle, Günther Loidl, Stefan Eissler, Markus Kley, and Daniel Samson

Subjects
Pharmacology, 010405 organic chemistry, Organic Chemistry, Substitution (logic), Analytical chemistry, General Medicine, Molar absorptivity, 010402 general chemistry, 01 natural sciences, Biochemistry, 0104 chemical sciences, Adduct, chemistry.chemical_compound, chemistry, Structural Biology, Attenuation coefficient, Drug Discovery, Polymer chemistry, Peptide synthesis, Molecular Medicine, Piperidine, Absorption (chemistry), Spectroscopy, Molecular Biology
Abstract

In solid-phase peptide synthesis, the nominal batch size is calculated using the starting resin substitution and the mass of the starting resin. The starting resin substitution constitutes the basis for the calculation of a whole set of important process parameters, such as the number of amino acid derivative equivalents. For Fmoc-substituted resins, substitution determination is often performed by suspending the Fmoc-protected starting resin in 20% (v/v) piperidine in DMF to generate the dibenzofulvene–piperidine adduct that is quantified by ultraviolet–visible spectroscopy. The spectrometric measurement is performed at the maximum absorption wavelength of the dibenzofulvene–piperidine adduct, that is, at 301.0 nm. The recorded absorption value, the resin weight and the volume are entered into an equation derived from Lambert–Beer's law, together with the substance-specific molar absorption coefficient at 301.0 nm, in order to calculate the nominal substitution. To our knowledge, molar absorption coefficients between 7100 l mol−1 cm−1 and 8100 l mol−1 cm−1 have been reported for the dibenzofulvene–piperidine adduct at 301.0 nm. Depending on the applied value, the nominal batch size may differ up to 14%. In this publication, a determination of the molar absorption coefficients at 301.0 and 289.8 nm is reported. Furthermore, proof is given that by measuring the absorption at 289.8 nm the impact of wavelength accuracy is reduced. © 2017 The Authors Journal of Peptide Science published by European Peptide Society and John Wiley & Sons Ltd. StartCopText© 2017 The Authors Journal of Peptide Science published by European Peptide Society and John Wiley & Sons Ltd.

Published
2017

2. Substitution determination of Fmoc-substituted resins at different wavelengths

Author

Stefan, Eissler, Markus, Kley, Dirk, Bächle, Günther, Loidl, Thomas, Meier, and Daniel, Samson

Subjects
Composite Resins, Peptide Fragments, dibenzolfulvene‐piperidine adduct, SPPS, Piperidines, absorption coefficient, Fmoc, resin, substitution determination, Peptides, Solid-Phase Synthesis Techniques, Research Articles, N‐(9H‐Fluoren‐9‐ylmethyl)‐piperidine, Research Article
Abstract

In solid‐phase peptide synthesis, the nominal batch size is calculated using the starting resin substitution and the mass of the starting resin. The starting resin substitution constitutes the basis for the calculation of a whole set of important process parameters, such as the number of amino acid derivative equivalents. For Fmoc‐substituted resins, substitution determination is often performed by suspending the Fmoc‐protected starting resin in 20% (v/v) piperidine in DMF to generate the dibenzofulvene–piperidine adduct that is quantified by ultraviolet–visible spectroscopy. The spectrometric measurement is performed at the maximum absorption wavelength of the dibenzofulvene–piperidine adduct, that is, at 301.0 nm. The recorded absorption value, the resin weight and the volume are entered into an equation derived from Lambert–Beer's law, together with the substance‐specific molar absorption coefficient at 301.0 nm, in order to calculate the nominal substitution. To our knowledge, molar absorption coefficients between 7100 l mol−1 cm−1 and 8100 l mol−1 cm−1 have been reported for the dibenzofulvene–piperidine adduct at 301.0 nm. Depending on the applied value, the nominal batch size may differ up to 14%. In this publication, a determination of the molar absorption coefficients at 301.0 and 289.8 nm is reported. Furthermore, proof is given that by measuring the absorption at 289.8 nm the impact of wavelength accuracy is reduced. © 2017 The Authors Journal of Peptide Science published by European Peptide Society and John Wiley & Sons Ltd.

Published
2017

4. Carbohydrate mimics promote functional recovery after peripheral nerve repair

Author

Marcel Dihné, Norbert Sewald, Jiankun Liu, Dirk Bächle, Melitta Schachner, Olga Simova, Ali Mehanna, Andrey Irintchev, and Gabriele Loers

Subjects
Neurite, Cell Survival, Carbohydrates, Epitope, Natural killer cell, Epitopes, Mice, CD57 Antigens, Glycomimetic, In vivo, medicine, Animals, Peripheral Nerves, Muscle, Skeletal, Motor Neurons, biology, business.industry, Molecular Mimicry, Axons, In vitro, Nerve Regeneration, medicine.anatomical_structure, Neurology, Synapses, biology.protein, Neurology (clinical), business, Neuroscience, Reinnervation, Neurotrophin
Abstract

Objective: The outcome of peripheral nerve repair is often unsatisfactory, and efficient therapies are not available. We tested the therapeutic potential of functional mimics of the human natural killer cell glycan (3-sulfoglucuronyl beta 1-3 galactoside) (HNK-1) epitope, a carbohydrate indicated to favor specificity of motor reinnervation in mice. Methods: We applied a linear HNK-1 mimic peptide, scrambled peptide, or vehicle substances in polyethylene cuffs used to reconstruct the severed femoral nerves of adult mice. We used video-based motion analysis and morphological and tracing techniques to monitor the outcome of nerve repair. Results: After glycomimetic application, quadriceps muscle function recovered to 93% of normal within 3 months. Restoration of function was less complete (71-76%) in control groups. Better functional recovery was associated with larger motoneuron somata, better axonal myelination in the quadriceps nerve, and enhanced precision of target reinnervation. Lesion-induced death of motoneurons was reduced by 20 to 25%. The glycomimetic enhanced survival and neurite outgrowth of both mouse and human motoneurons in vitro by 30 to 75%. Application of a novel cyclic glycomimetic also enhanced functional recovery in vivo. Interpretation: The improved outcome of nerve repair after glycomimetic application may be attributed to neurotrophic effects. Our results hold promise for therapeutic use in humans.

Published
2006

5. Why Structurally Different Cyclic Peptides Can Be Glycomimetics of the HNK-1 Carbohydrate Antigen

Author

Anirban Bhunia, Subramanian Vivekanandan, Thomas Eckert, Monika Burg-Roderfeld, Rainer Wechselberger, Julija Romanuka, Dirk Bächle, Andrei V. Kornilov, Claus-Wilhelm von der Lieth, Jesús Jiménez-Barbero, Nikolay E. Nifantiev, Melitta Schachner, Norbert Sewald, Thomas Lütteke, Hans-Joachim Gabius, and Hans-Christian Siebert

Subjects
Glycan, Magnetic Resonance Spectroscopy, animal structures, Stereochemistry, Amino Acid Motifs, Molecular Sequence Data, Carbohydrates, Peptide, Molecular Dynamics Simulation, Peptides, Cyclic, Biochemistry, Catalysis, Mice, Colloid and Surface Chemistry, Protein structure, Glycomimetic, Carbohydrate Conformation, Animals, Humans, Dimethyl Sulfoxide, Amino Acid Sequence, Trisaccharide, Antigens, Peptide sequence, chemistry.chemical_classification, Binding Sites, biology, Molecular Mimicry, Computational Biology, Water, General Chemistry, Cyclic peptide, Protein Structure, Tertiary, Killer Cells, Natural, Uronic Acids, chemistry, embryonic structures, biology.protein, Carbohydrate Metabolism, Laminin, Carbohydrate conformation
Abstract

The cyclic peptides c-(LSETTl) and c-(RTLPFS) are of potential clinical interest--they stimulate neurite outgrowth in a way that is similar to the effects of the HNK-1 (human natural killer cell-1) antigenic carbohydrate chains, which are terminated by 3'-sulfated glucuronic acid attached to an N-acetyllactosamine unit. To investigate the structure-activity relationships of the ability of the cyclic peptides to mimic HNK-1 carbohydrates, conformational analysis and examination of hydrophobic and hydrophilic patterns were performed and compared with the characteristics of a synthetic HNK-1 trisaccharide derivative. Data obtained demonstrate that both the trisaccharide and the glycomimetic peptide c-(LSETTl) exhibit a similar relationship between their hydrophobic moieties and their negatively charged sites. However, the second cyclic glycomimetic peptide investigated here, c-(RTLPFS), has a positively charged group as a potential contact point due to its Arg residue. Therefore, we studied the amino acid composition of all known receptor structures in the Protein Data Bank that are in contact with uronic acid and/or sulfated glycans. Interactions of the HNK-1 trisaccharide, c-(LSETTl), and c-(RTLPFS) with a laminin fragment involved in HNK-1 carbohydrate binding (i.e., the 21mer peptide: KGVSSRSYVGCIKNLEISRST) were also analyzed. Because the structure of the HNK-1-binding laminin domain is not available in the Protein Data Bank, we used the HNK-1-binding 21mer peptide fragment of laminin for the construction of a model receptor that enabled us to compare the molecular interplay of the HNK-1 trisaccharide and the two cyclopeptides c-(LSETTl) and c-(RTLPFS) with a reliable receptor structure in considerable detail.

Published
2010

6. Glycomimetic cyclic peptides stimulate neurite outgrowth

Author

Melitta Schachner, Gabriele Loers, Eckhart W. Guthöhrlein, Norbert Sewald, and Dirk Bächle

Subjects
Models, Molecular, Magnetic Resonance Spectroscopy, Neurite, neurochemistry, Molecular Sequence Data, Carbohydrates, Molecular Conformation, Oligosaccharides, Neuroactive substances, Peptides, Cyclic, Catalysis, Mice, CD57 Antigens, Glycomimetic, Neurites, Bioorganic chemistry, Animals, Humans, Amino Acids, bioorganic chemistry, chemistry.chemical_classification, Motor Neurons, Chemistry, Molecular Mimicry, General Chemistry, Surface Plasmon Resonance, Cyclic peptide, Biochemistry, neuroactive substances, Carbohydrate Sequence, glycomimetics, peptides
Published
2006

7. An improved method for the solution cyclization of peptides under pseudo-high dilution conditions

Author

Norbert Sewald, Dirk Bächle, Ulf Strijowski, and Miroslav Malesevic

Subjects
Bioengineering, Peptide, Improved method, Complex Mixtures, coupling reactions, chemistry, Peptides, Cyclic, Applied Microbiology and Biotechnology, pseudo-high dilution, Coupling reaction, peptides, solution cyclizations, Bioorganic chemistry, Organic chemistry, chemistry.chemical_classification, Syringe driver, Chemistry, Microchemistry, General Medicine, Combinatorial chemistry, bioorganic, Dilution, Solutions, Solvent, Ring size, Cross-Linking Reagents, Multiprotein Complexes, Biotechnology
Abstract

Depending on the ring size, the cyclization of peptides often is accompanied by dimerization or cyclodimerization. Hence, these macrocyclizations have to be performed under high dilution conditions. Efficient cyclization of peptides in solution with a minimum amount of solvent succeeds, when a dual syringe pump is used to simultaneously add the linear peptide precursor and a coupling reagent from two separate syringes. (C) 2004 Elsevier B.V. All rights reserved.

Published
2004

Catalog

Books, media, physical & digital resources
See catalog results