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15. Revealing chemistry-structure-function relationships in shark vertebrae across length scales.

Author

Raja Somu D, Fuentes M, Lou L, Agarwal A, Porter M, and Merk V

Subjects
Animals, Spectrum Analysis, Raman, Structure-Activity Relationship, Cartilage physiology, Cartilage chemistry, Cartilage metabolism, Elastic Modulus, Biomechanical Phenomena, Microscopy, Atomic Force, Sharks physiology, Sharks anatomy & histology, Spine physiology, Spine anatomy & histology, Spine metabolism
Abstract

Shark cartilage presents a complex material composed of collagen, proteoglycans, and bioapatite. In the present study, we explored the link between microstructure, chemical composition, and biomechanical function of shark vertebral cartilage using Polarized Light Microscopy (PLM), Atomic Force Microscopy (AFM), Confocal Raman Microspectroscopy, and Nanoindentation. Our investigation focused on vertebrae from Blacktip and Shortfin Mako sharks. As typical representatives of the orders Carcharhiniformes and Lamniformes, these species differ in preferred habitat, ecological role, and swimming style. We observed structural variations in mineral organization and collagen fiber arrangement using PLM and AFM. In both sharks, the highly calcified corpus calcarea shows a ridged morphology, while a chain-like network is present in the less mineralized intermedialia. Raman spectromicroscopy demonstrates a relative increase of glucosaminocycans (GAGs) with respect to collagen and a decrease in mineral-rich zones, underlining the role of GAGs in modulating bioapatite mineralization. Region-specific testing confirmed that intravertebral variations in mineral content and arrangement result in distinct nanomechanical properties. Local Young's moduli from mineralized regions exceeded bulk values by a factor of 10. Overall, this work provides profound insights into a flexible yet strong biocomposite, which is crucial for the extraordinary speed of cartilaginous fish in the worlds' oceans. STATEMENT OF SIGNIFICANCE: Shark cartilage is a morphologically complex material composed of collagen, sulfated proteoglycans, and calcium phosphate minerals. This study explores the link between microstructure, chemical composition, and biological mechanical function of shark vertebral cartilage at the micro- and nanometer scale in typical Carcharhiniform and Lamniform shark species, which represent different vertebral mineralization morphologies, swimming styles and speeds. By studying the intricacies of shark vertebrae, we hope to lay the foundation for biomimetic composite materials that harness lamellar reinforcement and tailored stiffness gradients, capable of dynamic and localized adjustments during movement., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.)

Published
2024
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16. Development of a Microfluidic Device for Exosome Isolation in Point-of-Care Settings.

Author

Ramnauth N, Neubarth E, Makler-Disatham A, Sher M, Soini S, Merk V, and Asghar W

Subjects
Humans, Point-of-Care Systems, Microfluidics, Exosomes, MicroRNAs, Neoplasms
Abstract

Exosomes have gained recognition in cancer diagnostics and therapeutics. However, most exosome isolation methods are time-consuming, costly, and require bulky equipment, rendering them unsuitable for point-of-care (POC) settings. Microfluidics can be the key to solving these challenges. Here, we present a double filtration microfluidic device that can rapidly isolate exosomes via size-exclusion principles in POC settings. The device can efficiently isolate exosomes from 50-100 µL of plasma within 50 min. The device was compared against an already established exosome isolation method, polyethylene glycol (PEG)-based precipitation. The findings showed that both methods yield comparable exosome sizes and purity; however, exosomes isolated from the device exhibited an earlier miRNA detection compared to exosomes obtained from the PEG-based isolation. A comparative analysis of exosomes collected from membrane filters with 15 nm and 30 nm pore sizes showed a similarity in exosome size and miRNA detection, with significantly increased sample purity. Finally, TEM images were taken to analyze how the developed devices and PEG-based isolation alter exosome morphology and to analyze exosome sizes. This developed microfluidic device is cost-efficient and time-efficient. Thus, it is ideal for use in low-resourced and POC settings to aid in cancer and disease diagnostics and therapeutics.

Published
2023
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17. A phenomenological and quantitative view on the degradation of positive electrodes from spent lithium-ion batteries in humid atmosphere.

Author

Langner T, Sieber T, Rietig A, Merk V, Pfeifer L, and Acker J

Abstract

The present study deals with the phenomenological observation of the corrosion of the positive electrode foil of lithium-ion batteries containing LiNi 0.6 Co 0.2 Mn 0.2 O 2 (NMC) as cathode material. Due to the presence of moisture, localized water accumulation is formed on the NMC surface. The water absorbed by the electrolyte reacts with the NMC under Li + /H + exchange and the resulting pH increase leads to dissolution of the carrier foil and characteristic salt-like blooms on the NMC surface. With the increase in the relative area occupied by the holes in the aluminum foil per time, a sufficiently suitable parameter was found with which to quantitatively determine the extent of corrosion. The degree of degradation depends on time and ambient humidity. It was shown that functional recycling with the water jet method is no longer applicable for degraded foils, since the mechanical stability of the foils decreases as corrosion progresses. Lithium, aluminum, sulfur and oxygen were detected in the blooms using SEM-EDX and Laser-Induced-Breakdown-Spectroscopy (LIBS). The underlying NMC layer was found to contain mainly aluminum and significantly lower lithium content than the non-degraded material. SEM and Raman microscopy analyses also showed that the active material is also locally degraded and therefore no longer suitable for functional recycling., (© 2023. The Author(s).)

Published
2023
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18. On stars and spikes: Resolving the skeletal morphology of planktonic Acantharia using synchrotron X-ray nanotomography and deep learning image segmentation.

Author

Raja Somu D, Cracchiolo T, Longo E, Greving I, and Merk V

Subjects
Animals, X-Rays, Minerals, Strontium, Synchrotrons, Deep Learning
Abstract

Acantharia (Acantharea) are wide-spread marine protozoa, presenting one of the rare examples of strontium sulfate mineralization in the biosphere. Their endoskeletons consist of 20 spicules arranged according to a unique geometric pattern named Müller's principle. Given the diverse mineral architecture of the Acantharia class, we set out to examine the complex three-dimensional skeletal morphology at the nanometer scale using synchrotron X-ray nanotomography, followed by image segmentation based on deep learning methods. The present study focuses on how the spicules emanate from the robust central junction in the orders Symphyacanthida and Arthracanthida, the geometry of lateral spicule wings as well as pockets of interspicular space, which may be involved in cell compartmentalization. Through these morphometric studies, we observed subtle deviations from the previously described spatial arrangement of the spicules. According to our data, spicule shapes are adjusted in opposite spicules as to accommodate the overall spicule arrangement. In all types examined, previously unknown interspicular interstices were found in areas where radial spicules meet, which could have implications for the crystal growth mechanism and overall endoskeletal integrity. A deeper understanding of the spiculogenesis in Acantharia can provide biomimetic routes towards complex inorganic shapes. STATEMENT OF SIGNIFICANCE: Morphogenesis, the origin and control of shape, provides an avenue towards tailored inorganic materials. In this work, we explored the intricate skeletal organization of planktonic Acantharia, which are amongst the few strontium sulfate biomineralizing organisms in nature. By using nanoscale X-ray imaging and deep learning image segmentation, we found deviations from previously described geometric patterns and undiscovered skeletal features. The bio-inspired synthesis of inorganic materials with complex shape has important ramifications for solid-state chemistry and nanotechnology., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.)

Published
2023
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19. Cross-section measurements of multilayer automotive paint samples using combined Raman spectroscopy and LIBS.

Author

Merk V, Werncke W, and Pfeifer L

Abstract

Multilayer automotive paint samples can be important evidence in forensic investigations but due to their inherent complexity it is a challenging task to analyze them. We herein present a method for a comprehensive chemical sample characterization based on the subsequent measurements of paint samples with Raman spectroscopy and laser induced breakdown spectroscopy (LIBS) at the same sampling points along the cross-sections of the paints. The method requires minimal sample preparation because the layers do not have to be separated. In combination with multivariate data analysis (namely k -means) the proposed method provides information both on the distribution of molecular compounds as well as elements which could then be used for the discrimination of different paints. Eight different samples were investigated and individual chemical profiles were found whereby a spatial resolution of close to 10 μm could be demonstrated. Investigation of different samples of the same origin showed similar profiles revealing the reproducibility of the proposed method. We therefore believe that our approach could be a good addition to the methods used so far for the analysis of paint samples.

Published
2022
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20. Effects of zinc and carnosine on aggregation kinetics of Amyloid-β40 peptide.

Author

Shen F, Regmi D, Islam M, Raja Somu D, Merk V, and Du D

Abstract

The accumulation and amyloid formation of amyloid-β (Aβ) peptides is closely associated with the pathology of Alzheimer's disease. The physiological environment wherein Aβ aggregation happens is crowded with a large variety of metal ions including Zn 2+ . In this study, we investigated the role of Zn 2+ in regulating the aggregation kinetics of Aβ40 peptide. Our results show that Zn 2+ can shift a typical single sigmoidal aggregation kinetics of Aβ40 to a biphasic aggregation process. Zn 2+ aids in initiating the rapid self-assembly of monomers to form oligomeric intermediates, which further grow into amyloid fibrils in the first aggregation phase. The presence of Zn 2+ also retards the appearance of the second aggregation phase in a concentration dependent manner. In addition, our results show that a natural dipeptide, carnosine, can greatly alleviate the effect of Zn 2+ on Aβ aggregation kinetics, most likely by coordinating with the metal ion to form chelates. These results suggest a potential in vivo protective effect of carnosine against the cytotoxicity of Aβ by suppressing Zn 2+ -induced rapid formation of Aβ oligomers., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2022 The Authors.)

Published
2022
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21. pH-Dependent Flavin Adenine Dinucleotide and Nicotinamide Adenine Dinucleotide Ultraviolet Resonance Raman (UVRR) Spectra at Intracellular Concentration.

Author

Merk V, Speiser E, Werncke W, Esser N, and Kneipp J

Subjects
Hydrogen-Ion Concentration, Light, Oxidation-Reduction, Flavin-Adenine Dinucleotide, NAD
Abstract

The ultraviolet resonance Raman spectra of the adenine-containing enzymatic redox cofactors nicotinamide adenine dinucleotide and flavin adenine dinucleotide in aqueous solution of physiological concentration are compared with the aim of distinguishing between them and their building block adenine in potential co-occurrence in biological materials. At an excitation wavelength of 266 nm, the spectra are dominated by the strong resonant contribution from adenine; nevertheless, bands assigned to vibrational modes of the nicotinamide and the flavin unit are found to appear at similar signal strength. Comparison of spectra measured at pH 7 with data obtained pH 10 and pH 3 shows characteristic changes when pH is increased or lowered, mainly due to deprotonation of the flavin and nicotinamide moieties, and protonation of the adenine, respectively.

Published
2021
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22. Immunosuppressive glucocorticoids at epithelial barriers in the regulation of anti-viral immune response.

Author

Merk VM and Brunner T

Subjects
Adrenal Glands, Humans, Immunity, Intestinal Mucosa pathology, Antiviral Agents, Glucocorticoids pharmacology
Abstract

The anti-inflammatory action of adrenal-derived glucocorticoids has been recognized since several decades. This knowledge has found broad application in the clinics and today synthetic glucocorticoids are widely used in the treatment of various inflammatory diseases. However, the use of synthetic glucocorticoids in the treatment of diseases associated with viral infections of epithelial surfaces, like the lung or the intestine, is still under debate and seems not as efficient as desired. Basic research on the anti-viral immune responses and on regulatory mechanisms in the prevention of immunopathological disorders, however, has led us back again to focus on endogenous glucocorticoid synthesis. It has become established that this synthesis is not restricted to the adrenal glands alone, but that numerous tissues also produce glucocorticoids in situ. Extra-adrenal derived glucocorticoids have the capacity to locally control and maintain immune homeostasis under steady-state and inflammatory conditions. Here, we discuss the current knowledge of extra-adrenal glucocorticoid synthesis in the lung and the intestine, and its role in the regulation of anti-viral immune responses., (Copyright © 2021 Elsevier Inc. All rights reserved.)

Published
2021
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23. Gold nanoisland substrates for SERS characterization of cultured cells.

Author

Milewska A, Zivanovic V, Merk V, Arnalds UB, Sigurjónsson ÓE, Kneipp J, and Leosson K

Abstract

We demonstrate a simple approach for fabricating cell-compatible SERS substrates, using repeated gold deposition and thermal annealing. The substrates exhibit SERS enhancement up to six orders of magnitude and high uniformity. We have carried out Raman imaging of fixed mesenchymal stromal cells cultured directly on the substrates. Results of viability assays confirm that the substrates are highly biocompatible and Raman imaging confirms that cell attachment to the substrates is sufficient to realize significant SERS enhancement of cellular components. Using the SERS substrates as an in vitro sensing platform allowed us to identify multiple characteristic molecular fingerprints of the cells, providing a promising avenue towards non-invasive chemical characterization of biological samples., Competing Interests: The authors declare that there are no conflicts of interest related to this article., (© 2019 Optical Society of America under the terms of the OSA Open Access Publishing Agreement.)

Published
2019
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24. Reverse-transcription quantitative PCR directly from cells without RNA extraction and without isothermal reverse-transcription: a 'zero-step' RT-qPCR protocol.

Author

Chovancova P, Merk V, Marx A, Leist M, and Kranaster R

Abstract

We describe an ultra-rapid and sensitive method to quantify gene expression levels in cultured cells. The procedure is based on reverse-transcription quantitative PCR (RT-qPCR) directly from cells, without RNA extraction and without an isothermal reverse-transcription step. Human neurons (Lund human mesencephalic cells) were lysed at different stages of differentiation, and the lysates were used directly as template for the combined RT-qPCR reaction. We detected a down-regulation of a proliferation marker and an up-regulation of neuronal dopaminergic genes expression. We were able to detect the reference gene target from as few as a single cell, demonstrating the application of the method for efficient amplification from small cell numbers. The data were fully in line with those obtained by the standard two-step RT-qPCR from the extracted total RNA. Our 'zero-step' RT-qPCR method proved to be simple and reliable with a total time from cell lysis to the end of the qPCR as short as 1.5 h. It is therefore particularly suitable for RT-qPCRs where large numbers of samples must be handled, or where data are required within short time., (© The Author 2017. Published by Oxford University Press.)

Published
2017
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25. Biomolecular environment, quantification, and intracellular interaction of multifunctional magnetic SERS nanoprobes.

Author

Büchner T, Drescher D, Merk V, Traub H, Guttmann P, Werner S, Jakubowski N, Schneider G, and Kneipp J

Abstract

Multifunctional composite nanoprobes consisting of iron oxide nanoparticles linked to silver and gold nanoparticles, Ag-Magnetite and Au-Magnetite, respectively, were introduced by endocytic uptake into cultured fibroblast cells. The cells containing the non-toxic nanoprobes were shown to be displaceable in an external magnetic field and can be manipulated in microfluidic channels. The distribution of the composite nanostructures that are contained in the endosomal system is discussed on the basis of surface-enhanced Raman scattering (SERS) mapping, quantitative laser ablation inductively coupled plasma mass spectrometry (LA-ICP-MS) micromapping, and cryo soft X-ray tomography (cryo soft-XRT). Cryo soft-XRT of intact, vitrified cells reveals that the composite nanoprobes form intra-endosomal aggregates. The nanoprobes provide SERS signals from the biomolecular composition of their surface in the endosomal environment. The SERS data indicate the high stability of the nanoprobes and of their plasmonic properties in the harsh environment of endosomes and lysosomes. The spectra point at the molecular composition at the surface of the Ag-Magnetite and Au-Magnetite nanostructures that is very similar to that of other composite structures, but different from the composition of pure silver and gold SERS nanoprobes used for intracellular investigations. As shown by the LA-ICP-MS data, the uptake efficiency of the magnetite composites is approximately two to three times higher than that of the pure gold and silver nanoparticles.

Published
2016
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26. Functional lignocellulosic materials prepared by ATRP from a wood scaffold.

Author

Cabane E, Keplinger T, Künniger T, Merk V, and Burgert I

Subjects
Acrylamides chemistry, Acrylic Resins chemistry, Biocompatible Materials, Cell Wall chemistry, Materials Testing, Microscopy, Confocal, Polymers chemistry, Polystyrenes chemistry, Porosity, Spectroscopy, Fourier Transform Infrared, Spectrum Analysis, Raman, Surface Properties, Temperature, Lignin chemistry, Polymerization, Wood chemistry
Abstract

Wood, a natural and abundant source of organic polymers, has been used as a scaffold to develop novel wood-polymer hybrid materials. Through a two-step surface-initiated Atom Transfer Radical Polymerization (ATRP), the porous wood structure can be effectively modified with polymer chains of various nature. In the present study, polystyrene and poly(N-isopropylacrylamide) were used. As shown with various characterization techniques including confocal Raman microscopy, FTIR, and SEM/EDX, the native wood ultrastructure and features are retained and the polymer chains can be introduced deep within the wood, i.e. inside the wood cell walls. The physical properties of the new materials have been studied, and results indicate that the insertion of polymer chains inside the wood cell wall alters the intrinsic properties of wood to yield a hybrid composite material with new functionalities. This approach to the functionalization of wood could lead to the fabrication of a new class of interesting functional materials and promote innovative utilizations of the renewable resource wood.

Published
2016
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27. Surface-enhanced Raman spectroscopy for the analysis of smokeless gunpowders and macroscopic gunshot residues.

Author

López-López M, Merk V, García-Ruiz C, and Kneipp J

Subjects
Ethanol chemistry, Firearms classification, Reproducibility of Results, Sensitivity and Specificity, Specimen Handling methods, Textiles analysis, Explosive Agents analysis, Explosive Agents chemistry, Forensic Ballistics methods, Gold chemistry, Metal Nanoparticles chemistry, Spectrum Analysis, Raman methods
Abstract

Gunshot residues (GSR) result from the discharge of a firearm being a potential piece of evidence in criminal investigations. The macroscopic GSR particles are basically formed by burned and non-burned gunpowder. Motivated by the demand of trace analysis of these samples, in this paper, the use of surface-enhanced Raman scattering (SERS) was evaluated for the analysis of gunpowders and macroscopic GSR particles. Twenty-one different smokeless gunpowders were extracted with ethanol. SERS spectra were obtained from the diluted extracts using gold nanoaggregates and an excitation wavelength of 633 nm. They show mainly bands that could be assigned to the stabilizers diphenylamine and ethylcentralite present in the gunpowders. Then, macroscopic GSR particles obtained after firing two different ammunition cartridges on clothing were also measured using the same procedure. SERS allowed the detection of the particles collected with an aluminum stub from cloth targets without interferences from the adhesive carbon. The results demonstrate the great potential of SERS for the analysis of macroscopic GSR particles. Furthermore, they indicate that the grain-to-grain inhomogeneity of the gunpowders needs to be considered. Graphical Abstract SERS allows the detection of GSR particles collected with adhesive stubs from cloth targets using gold nanoaggregates and an excitation wavelength of 633 nm.

Published
2016
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28. Identification of aqueous pollen extracts using surface enhanced Raman scattering (SERS) and pattern recognition methods.

Author

Seifert S, Merk V, and Kneipp J

Subjects
Cluster Analysis, Gold chemistry, Metal Nanoparticles chemistry, Neural Networks, Computer, Principal Component Analysis, Pattern Recognition, Automated methods, Plant Extracts analysis, Pollen chemistry, Spectrum Analysis, Raman methods, Water chemistry
Abstract

Aqueous pollen extracts of varying taxonomic relations were analyzed with surface enhanced Raman scattering (SERS) by using gold nanoparticles in aqueous suspensions as SERS substrate. This enables a selective vibrational characterization of the pollen water soluble fraction (mostly cellular components) devoid of the spectral contributions from the insoluble sporopollenin outer layer. The spectra of the pollen extracts are species-specific, and the chemical fingerprints can be exploited to achieve a classification that can distinguish between different species of the same genus. In the simple experimental procedure, several thousands of spectra per species are generated. Using an artificial neural network (ANN), it is demonstrated that analysis of the intrinsic biochemical information of the pollen cells in the SERS data enables the identification of pollen from different plant species at high accuracy. The ANN extracts the taxonomically-relevant information from the data in spite of high intra-species spectral variation caused by signal fluctuations and preparation specifics. The results show that SERS can be used for the reliable characterization and identification of pollen samples. They have implications for improved investigation of pollen physiology and for allergy warning., (© 2015 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published
2016
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29. Hybrid wood materials with magnetic anisotropy dictated by the hierarchical cell structure.

Author

Merk V, Chanana M, Gierlinger N, Hirt AM, and Burgert I

Subjects
Microscopy, Electron, Transmission, Powder Diffraction, Spectrum Analysis, Raman, Wood ultrastructure, Anisotropy, Ferric Compounds chemistry, Magnetite Nanoparticles chemistry, Wood chemistry
Abstract

Anisotropic and hierarchical structures are bound in nature and highly desired in engineered materials, due to their outstanding functions and performance. Mimicking such natural features with synthetic materials and methods has been a highly active area of research in the last decades. Unlike these methods, we use the native biomaterial wood, with its intrinsic anisotropy and hierarchy as a directional scaffold for the incorporation of magnetic nanoparticles inside the wood material. Nanocrystalline iron oxide particles were synthesized in situ via coprecipitation of ferric and ferrous ions within the interconnected pore network of bulk wood. Imaging with low-vacuum and cryogenic electron microscopy as well as spectral Raman mapping revealed layered nanosize particles firmly attached to the inner surface of the wood cell walls. The mineralogy of iron oxide was identified by XRD powder diffraction and Raman spectroscopy as a mixture of the spinel phases magnetite and maghemite. The intrinsic structural architecture of native wood entails a three-dimensional assembly of the colloidal iron oxide which results in direction-dependent magnetic features of the wood-mineral hybrid material. This superinduced magnetic anisotropy, as quantified by direction-dependent magnetic hysteresis loops and low-field susceptibility tensors, allows for directional lift, drag, alignment, (re)orientation, and actuation, and opens up novel applications of the natural resource wood.

Published
2014
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30. Interaction of colloidal nanoparticles with their local environment: the (ionic) nanoenvironment around nanoparticles is different from bulk and determines the physico-chemical properties of the nanoparticles.

Author

Pfeiffer C, Rehbock C, Hühn D, Carrillo-Carrion C, de Aberasturi DJ, Merk V, Barcikowski S, and Parak WJ

Subjects
Colloids chemistry, Ions chemistry, Metal Nanoparticles chemistry, Nanotechnology, Surface Properties, Models, Theoretical, Nanoparticles chemistry
Abstract

The physico-chemical properties of colloidal nanoparticles (NPs) are influenced by their local environment, as, in turn, the local environment influences the physico-chemical properties of the NPs. In other words, the local environment around NPs has a profound impact on the NPs, and it is different from bulk due to interaction with the NP surface. So far, this important effect has not been addressed in a comprehensive way in the literature. The vicinity of NPs can be sensitively influenced by local ions and ligands, with effects already occurring at extremely low concentrations. NPs in the Hückel regime are more sensitive to fluctuations in the ionic environment, because of a larger Debye length. The local ion concentration hereby affects the colloidal stability of the NPs, as it is different from bulk owing to Debye Hückel screening caused by the charge of the NPs. This can have subtle effects, now caused by the environment to the performance of the NP, such as for example a buffering effect caused by surface reaction on ultrapure ligand-free nanogold, a size quenching effect in the presence of specific ions and a significant impact on fluorophore-labelled NPs acting as ion sensors. Thus, the aim of this review is to clarify and give an unifying view of the complex interplay between the NP's surface with their nanoenvironment.

Published
2014
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31. In situ non-DLVO stabilization of surfactant-free, plasmonic gold nanoparticles: effect of Hofmeister's anions.

Author

Merk V, Rehbock C, Becker F, Hagemann U, Nienhaus H, and Barcikowski S

Subjects
Adsorption, Anions chemistry, Gold chemistry, Metal Nanoparticles chemistry, Surface-Active Agents chemistry
Abstract

Specific ion effects ranking in the Hofmeister sequence are ubiquitous in biochemical, industrial, and atmospheric processes. In this experimental study specific ion effects inexplicable by the classical DLVO theory have been investigated at curved water-metal interfaces of gold nanoparticles synthesized by a laser ablation process in liquid in the absence of any organic stabilizers. Notably, ion-specific differences in colloidal stability occurred in the Hückel regime at extraordinarily low salinities below 50 μM, and indications of a direct influence of ion-specific effects on the nanoparticle formation process are found. UV-vis, zeta potential, and XPS measurements help to elucidate coagulation properties, electrokinetic potential, and the oxidation state of pristine gold nanoparticles. The results clearly demonstrate that stabilization of ligand-free gold nanoparticles scales proportionally with polarizability and antiproportionally with hydration of anions located at defined positions in a direct Hofmeister sequence of anions. These specific ion effects might be due to the adsorption of chaotropic anions (Br(-), SCN(-), or I(-)) at the gold/water interface, leading to repulsive interactions between the partially oxidized gold particles during the nanoparticle formation process. On the other hand, kosmotropic anions (F(-) or SO4(2-)) seem to destabilize the gold colloid, whereas Cl(-) and NO3(-) give rise to an intermediate stability. Quantification of surface charge density indicated that particle stabilization is dominated by ion adsorption and not by surface oxidation. Fundamental insights into specific ion effects on ligand-free aqueous gold nanoparticles beyond purely electrostatic interactions are of paramount importance in biomedical or catalytic applications, since colloidal stability appears to depend greatly on the type of salt rather than on the amount.

Published
2014
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32. Renewable and functional wood materials by grafting polymerization within cell walls.

Author

Cabane E, Keplinger T, Merk V, Hass P, and Burgert I

Subjects
Hydrogen-Ion Concentration, Wettability, Biopolymers chemistry, Cell Wall chemistry, Polymerization, Wood chemistry
Abstract

A "grafting-from" polymerization approach within and at the complex and heterogeneous macromolecular assembly of wood cell walls is shown. The approach allows for the implementation of novel functionalities in renewable and functional wood-based materials. The native wood structure is retained and used as a hierarchical multiscale framework for a modular two-step polymerization process. The versatility and potential of the approach is shown by a polymerization of either hydrophobic or hydrophilic and pH-responsive monomers in the wood structure. Characterization of the modified wood reveals the presence of polymer in the cell wall, and the new properties of these wood materials are discussed., (© 2014 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published
2014
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33. Size control of laser-fabricated surfactant-free gold nanoparticles with highly diluted electrolytes and their subsequent bioconjugation.

Author

Rehbock C, Merk V, Gamrad L, Streubel R, and Barcikowski S

Subjects
Animals, Cattle, Drug Stability, Osmolar Concentration, Surface-Active Agents chemistry, Electrolytes chemistry, Gold chemistry, Lasers, Metal Nanoparticles chemistry, Nanotechnology methods, Particle Size, Serum Albumin, Bovine chemistry
Abstract

Size control of laser-fabricated surfactant-free gold nanoparticles is a challenging endeavor. In this work, we show that size control can be achieved by adding ions with low salinity during synthesis. In addition, this approach offers the opportunity to fundamentally study ion interactions with bare nanoparticle surfaces and can help to elucidate the nanoparticle formation mechanism. The studies were carried out in a flow-through reactor and in the presence of NaCl, NaBr and sodium phosphate buffer at minimal ionic strengths. A significant size quenching effect at ionic strengths from 1-50 μM was found, which allowed surfactant-free nanoparticle size control with average diameters of 6-30 nm. This effect went along with low polydispersity and minimal aggregation tendencies and was confirmed by UV-vis spectroscopy, TEM, SEM and analytical disk centrifugation. Our findings indicate that size quenching originates from an anionic electrostatic stabilization depending on the nanoparticle surface area, which may be caused by specific ion adsorption. By subsequent delayed bioconjugation in liquid-flow using bovine serum albumin as a stabilizing agent, nano-bioconjugates with good stability in cell culture media were obtained, which are applicable in toxicology and cell biology.

Published
2013
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34. Novel markers in zero-hour kidney biopsies indicate graft quality and clinical outcome.

Author

Kotsch K, Kunert K, Merk V, Reutzel-Selke A, Pascher A, Fritzsche F, Tullius SG, and Pratschke J

Subjects
Adult, Antigens, CD genetics, Biopsy, Cadaver, Chemokine CCL19 genetics, Chemokine CCL21 genetics, Delayed Graft Function immunology, Delayed Graft Function pathology, Gene Expression Regulation, Humans, Intercellular Adhesion Molecule-1 genetics, Interleukin-15 genetics, Kidney immunology, Kidney Transplantation immunology, Living Donors, Proteasome Endopeptidase Complex genetics, RNA, Messenger genetics, Reoperation, Tissue Donors, Transplantation, Homologous, Treatment Outcome, Kidney pathology, Kidney Transplantation physiology
Abstract

Background: In renal transplantation, allograft biopsies provide valuable diagnostic information indicating adverse allograft outcome posttransplantation. To uncover novel candidate markers characteristic of subtle inflammation and immune activation present during the intraoperative period, we investigated messenger RNA (mRNA) gene expression profiles in renal zero biopsies., Methods: Transcription profiles from deceased donors (n=63) and living donors (n=26) were investigated for inflammation-associated markers in zero-hour biopsies by real-time reverse-transcriptase polymerase chain reaction., Results: We observed a significant induction of the chemokine receptor 7 ligands [C-C motif] ligand 19/21 in the deceased donor group (P<0.001). Additionally, along with the induction of the activation marker CD69 (P<0.01), we further detected significant elevated mRNA levels of the inducible immunoproteasome subunits PSMB8, PSMB9, and PSMB10 (P<0.001, respectively). Candidate markers were further tested for posttransplantation clinical outcomes showing the potential to predict the development of delayed graft function, acute rejection, and renal function after 6 months. For instance, by combining mRNA gene expression profiles with clinical patient data, the analysis revealed high sensitivity (95%) and specificity (84%, area under the curve=0.93) for the prediction of acute rejection., Conclusions: Zero-hour biopsies of renal allografts may provide useful information on subclinical pathological changes in the grafted kidney. The identification of CCL19/21 or PSMB8/9/10 makes these molecules particularly suitable as potential candidate targets for therapeutic interventions.

Published
2010
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35. Potent early immune response after kidney transplantation in patients of the European senior transplant program.

Author

Pratschke J, Merk V, Reutzel-Selke A, Pascher A, Denecke C, Lun A, Said A, Schönemann C, Ulrich F, Reinke P, Frei U, Neuhaus P, and Tullius SG

Subjects
Adult, Age Factors, Aged, Berlin, Female, Flow Cytometry, Germany, Glucocorticoids therapeutic use, Graft Rejection drug therapy, Graft Rejection epidemiology, Graft Survival immunology, Humans, Immunosuppressive Agents therapeutic use, Interferon-gamma blood, Interleukins blood, Male, Methylprednisolone therapeutic use, Middle Aged, Tissue Donors, Transplantation Immunology, Transplantation, Homologous, Tumor Necrosis Factor-alpha blood, Kidney Transplantation immunology
Abstract

Background: The increasing age of organ donors and the transplantation of older recipients have become clinical practice. Age-adapted immunosuppressive protocols considering these changes are currently not established. This study analyzed the age-dependent immune response after human kidney transplantation., Methods: One hundred renal allograft recipients were prospectively evaluated from 2004 to 2005. Patients older than 65 years of the European Senior Program receiving kidneys from donors older than 65 years were compared with recipients younger than 65 years receiving kidneys from donors younger than 65 years. Age-dependent modifications of the immune response were evaluated before transplantation and 7 days and 6 months after grafting by flow cytometry analysis of lymphocyte surface markers in peripheral blood. The cytokine pattern was determined by Cytometric Bead Array, T-cell alloreactivity by enzyme-linked immunospot analysis., Results: There were no differences between the groups regarding patient survival, graft survival, and function at 6 months after transplantation. Before transplantation, 7 days and 6 months thereafter recipients older than 65 years demonstrated significantly elevated numbers of memory T-cells while counts for naive T-cells were significantly reduced. Numbers of activated cytotoxic cells were elevated with increasing age before and 7 days after transplantation. T-cell alloreactivity was more pronounced in older recipients at all time points. Seven days after transplantation tumor necrosis factor-alpha (TNF-alpha) levels were significantly higher, whereas TNF-alpha and interleukin-10 (IL-10) concentrations were significantly reduced after 6 months in older recipients., Conclusions: Our data demonstrate an initially pronounced immune response in elderly recipients receiving grafts from elderly donors. This observation supports the concept of a donor and recipient age-adapted immunosuppression.

Published
2009
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