Your search keyword '"Weiss, IM"' showing total 40 results

1. Oestradiol regulation of the components of the plasminogen-plasmin system in MDA-MB-231 human breast cancer cells stably expressing the oestrogen receptor

Author

Levenson, AS, primary, Kwaan, HC, additional, Svoboda, KM, additional, Weiss, IM, additional, Sakurai, S, additional, and Jordan, VC, additional

Published

1998

2. Modulating chitin synthesis in marine algae with iminosugars obtained by SmI 2 and FeCl 3 -mediated diastereoselective carbonyl ene reaction.

Author

Holzwarth M, Ludwig J, Bernz A, Claasen B, Majoul A, Reuter J, Zens A, Pawletta B, Bilitewski U, Weiss IM, and Laschat S

Subjects

Carbohydrates, Chitin chemistry, Iodides chemistry, Ferric Compounds, Samarium chemistry

Abstract

Strategies for synthesizing polyhydroxylated piperidines such as iminosugars have received broad attention. These substances are known to interact with carbohydrate related enzymes, glycosidases and glycosyltransferases, to which also the large enzyme families of chitin synthases and cellulose synthases belong. Many chemical and biological aspects of chitin synthases remain unexplored due to the fact that modulating substances are hardly available or expensive. Starting from enantiopure D- and L-amino acids, a series of iminosugars was prepared by a Lewis acid-catalyzed cyclization of amino acid-derived unsaturated aldehydes as key step. Therefore, different Lewis acids were tested. For samarium diiodide we observed a superior stereoselectivity in comparison to iron(III) chloride and methylaluminium dichloride. To increase water solubility for testing and measurement of enzyme activity, the cyclization products were further functionalized. We established a novel biological chitin synthesis test system which allows quantitative investigation of chitin synthesis in the chitin fiber producing diatom algae Thalassiosira in vivo under the light microscope. None of the compounds displayed cytotoxicity, but two of the four iminosugars increased the length of the chitin fibers produced. This is a strong indicator that these compounds mimic carbohydrates responsible for restarting chitin polymerization.

Published

2022

3. Mineralized scale patterns on the cell periphery of the chrysophyte Mallomonas determined by comparative 3D Cryo-FIB SEM data processing.

Author

Hörning M, Schertel A, Schneider R, Lemloh ML, Schweikert MR, and Weiss IM

Subjects

Chrysophyta physiology, Image Processing, Computer-Assisted, Microscopy, Electron, Scanning, Chrysophyta ultrastructure, Cryoelectron Microscopy, Imaging, Three-Dimensional

Abstract

Unicellular protists can biomineralize spatially complex and functional shells. A typical cell of the photosynthetic synurophyte Mallomonas is covered by about 60-100 silica scales. Their geometric arrangement, the so-called scale case, mainly depends on the species and on the cell cycle. In this study, the scale case of the synurophyte Mallomonas was preserved in aqueous suspension using high-pressure freezing (HPF). From this specimen, a three-dimensional (3D) data set spanning a volume of about 25.6 μm × 19.2 μm × 4.2 μm with a voxel size of 12.5 nm × 12.5 nm × 25.0 nm was collected by Cryo-FIB SEM in 3 h and 24 min. SEM imaging using In-lens SE detection allowed to clearly differentiate between mineralized, curved scales of less than 0.2 μm thickness and organic cellular ultrastructure or vitrified ice. The three-dimensional spatial orientations and shapes of a minimum set of scales (N = 13) were identified by visual inspection, and manually segmented. Manual and automated segmentation approaches were comparatively applied to one arbitrarily selected reference scale using the differences in grey level between scales and other constituents. Computational automated routines and principal component analysis of the experimentally extracted data created a realistic mathematical model based on the Fibonacci pattern theory. A complete in silico scale case of Mallomonas was reconstructed showing an optimized scale coverage on the cell surface, similarly as it was observed experimentally. The minimum time requirements from harvesting the living cells to the final scale case determination by Cryo-FIB SEM and computational image processing are discussed., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2020

4. Plant virus-based materials for biomedical applications: Trends and prospects.

Author

Eiben S, Koch C, Altintoprak K, Southan A, Tovar G, Laschat S, Weiss IM, and Wege C

Subjects

Animals, Humans, Hydrogels, Nanoparticles toxicity, Tissue Engineering, Plant Viruses

Abstract

Nanomaterials composed of plant viral components are finding their way into medical technology and health care, as they offer singular properties. Precisely shaped, tailored virus nanoparticles (VNPs) with multivalent protein surfaces are efficiently loaded with functional compounds such as contrast agents and drugs, and serve as carrier templates and targeting vehicles displaying e.g. peptides and synthetic molecules. Multiple modifications enable uses including vaccination, biosensing, tissue engineering, intravital delivery and theranostics. Novel concepts exploit self-organization capacities of viral building blocks into hierarchical 2D and 3D structures, and their conversion into biocompatible, biodegradable units. High yields of VNPs and proteins can be harvested from plants after a few days so that various products have reached or are close to commercialization. The article delineates potentials and limitations of biomedical plant VNP uses, integrating perspectives of chemistry, biomaterials sciences, molecular plant virology and process engineering., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2019

5. Thermal decomposition of the amino acids glycine, cysteine, aspartic acid, asparagine, glutamic acid, glutamine, arginine and histidine.

Author

Weiss IM, Muth C, Drumm R, and Kirchner HOK

Abstract

Background: The pathways of thermal instability of amino acids have been unknown. New mass spectrometric data allow unequivocal quantitative identification of the decomposition products., Results: Calorimetry, thermogravimetry and mass spectrometry were used to follow the thermal decomposition of the eight amino acids G, C, D, N, E, Q, R and H between 185 °C and 280 °C. Endothermic heats of decomposition between 72 and 151 kJ/mol are needed to form 12 to 70% volatile products. This process is neither melting nor sublimation. With exception of cysteine they emit mainly H 2 O, some NH 3 and no CO 2 . Cysteine produces CO 2 and little else. The reactions are described by polynomials, AA→ a NH 3 + b H 2 O+ c CO 2 + d H 2 S+ e residue, with integer or half integer coefficients. The solid monomolecular residues are rich in peptide bonds., Conclusions: Eight of the 20 standard amino acids decompose at well-defined, characteristic temperatures, in contrast to commonly accepted knowledge. Products of decomposition are simple. The novel quantitative results emphasize the impact of water and cyclic condensates with peptide bonds and put constraints on hypotheses of the origin, state and stability of amino acids in the range between 200 °C and 300 °C., Competing Interests: Not applicable.Not applicable.The authors declare that they have no competing interests.Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.

Published

2018

6. Aqueous ball milling of nacre constituents facilitates directional self-assembly of aragonite nanoparticles of the gastropod Haliotis glabra .

Author

Lemloh ML, Verch A, and Weiss IM

Subjects

Animals, Nanoparticles ultrastructure, Particle Size, Gastropoda chemistry, Nacre chemistry, Nanoparticles chemistry

Abstract

A ball-milling approach was developed to investigate the constituents of isolated nacre tablets of the gastropod Haliotis glabra in aqueous suspension without additional chemical additives. The obtained particle mixtures were characterized using X-ray crystallography as well as scanning and transmission electron microscopy. Aragonite nanoparticles retained their crystal structure even after 14 h of ball milling. The long-term stability of the particle mixtures varied as a function of the ball-milling duration. An increased milling time led to rod-like stable assemblies of aragonite nanoparticles. Selected area electron diffraction investigations revealed that the longitudinal axes in about one-third of these nanoparticle rods were oriented along the crystallographic c -axis of aragonite, indicating oriented attachment of the aragonite nanoparticles. These in vitro observations support the idea that a two-stage process, separated into crystallization of nanoparticles and oriented assembly of nanocrystals, could also occur in vivo ., (© 2017 The Author(s).)

Published

2017

7. Biogenic and Synthetic Peptides with Oppositely Charged Amino Acids as Binding Sites for Mineralization.

Author

Lemloh ML, Altintoprak K, Wege C, Weiss IM, and Rothenstein D

Abstract

Proteins regulate diverse biological processes by the specific interaction with, e.g., nucleic acids, proteins and inorganic molecules. The generation of inorganic hybrid materials, such as shell formation in mollusks, is a protein-controlled mineralization process. Moreover, inorganic-binding peptides are attractive for the bioinspired mineralization of non-natural inorganic functional materials for technical applications. However, it is still challenging to identify mineral-binding peptide motifs from biological systems as well as for technical systems. Here, three complementary approaches were combined to analyze protein motifs consisting of alternating positively and negatively charged amino acids: (i) the screening of natural biomineralization proteins; (ii) the selection of inorganic-binding peptides derived from phage display; and (iii) the mineralization of tobacco mosaic virus (TMV)-based templates. A respective peptide motif displayed on the TMV surface had a major impact on the SiO₂ mineralization. In addition, similar motifs were found in zinc oxide- and zirconia-binding peptides indicating a general binding feature. The comparative analysis presented here raises new questions regarding whether or not there is a common design principle based on acidic and basic amino acids for peptides interacting with minerals.

Published

2017

8. In vivo modified organic matrix for testing biomineralization-related protein functions in differentiated Dictyostelium on calcite.

Author

Eder M, Koch M, Muth C, Rutz A, and Weiss IM

Subjects

Dictyostelium chemistry, Egg Proteins metabolism, Extracellular Matrix metabolism, Lectins metabolism, Protozoan Proteins metabolism, Calcium Carbonate metabolism, Dictyostelium metabolism

Abstract

This work reports an in vivo approach for identifying the function of biomineralization-related proteins. Synthetic sequences of n16N, OC-17 and perlucin with signal peptides are produced in a novel Gateway expression system for Dictyostelium under the control of the [ecmB] promoter. A fast and easy scanning electron microscopic screening method was used to differentiate on the colony level between interplay effects of the proteins expressed in the extracellular matrix (ECM). Transformed Dictyostelium, which migrated as multicellular colonies on calcite crystals and left their ECM remnants on the surface were investigated also by energy-dispersive X-ray spectroscopy (EDX). Calcium minerals with and without phosphorous accumulated very frequently within the matrix of the Dictyostelium colonies when grown on calcite. Magnesium containing phosphorous granules were observed when colonies were exposed on silica. The absence of calcium EDX signals in these cases suggests that the external calcite crystals but not living cells represent the major source of calcium in the ECM. Several features of the system provide first evidence that each protein influences the properties of the matrix in a characteristic mode. Colonies transformed with perlucin produced a matrix with cracks on the length scale of a few microns throughout the matrix patch. For colonies with OC-17, almost no cracks were observed, regardless of the length scale. The non-transformed Dictyostelium (Ax3-Orf+) produced larger cracks. The strategy presented here develops the first step toward an efficient eukaryotic screening system for the combinatorial functionalization of materials by bioengineering in close analogy to natural biomineralization concepts., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published

2016

9. Datasets from a vapor diffusion mineral precipitation protocol for Dictyostelium stalks.

Author

Eder M, Muth C, and Weiss IM

Abstract

Datasets from a slow carbonate vapor diffusion and mineral precipitation protocol for Dictyostelium ECM and cellulose stalks show examples for composite materials obtained by an in vitro approach, which differs substantially from the in vivo approach reported in The Journal of Structural Biology, doi: 10.1016/j.jsb.2016.03.015 [1]. Methods for obtaining the datasets include bright field transmitted light microscopy, fluorescence microscopy, LC-PolScope birefringence microscopy, variable pressure scanning electron microscopy (VP-SEM/ESEM), and Raman imaging spectroscopy.

Published

2016

10. Real-time monitoring of calcium carbonate and cationic peptide deposition on carboxylate-SAM using a microfluidic SAW biosensor.

Author

Pohl A and Weiss IM

Abstract

A microfluidic biosensor with surface acoustic wave technology was used in this study to monitor the interaction of calcium carbonate with standard carboxylate self-assembled monolayer sensor chips. Different fluids, with and without biomolecular components, were investigated. The pH-dependent surface interactions of two bio-inspired cationic peptides, AS8 and ES9, which are similar to an extracellular domain of the chitin synthase involved in mollusc shell formation, were also investigated in a biological buffer system. A range of experimental conditions are described that are suitable to study non-covalent molecular interactions in the presence of ionic substances, such as, mineral precursors below the solubility equilibrium. The peptide ES9, equal to the mollusc chitin synthase epitope, is less sensitive to changes in pH than its counterpart AS8 with a penta-lysine core, which lacks the flanking acidic residues. This study demonstrates the extraordinary potential of microfluidic surface acoustic wave biosensors to significantly expand our experimental capabilities for studying the principles underlying biomineralization in vitro.

Published

2014

11. On the function of chitin synthase extracellular domains in biomineralization.

Author

Weiss IM, Lüke F, Eichner N, Guth C, and Clausen-Schaumann H

Subjects

Amino Acid Sequence, Animals, Calcium Carbonate chemistry, Chitin biosynthesis, Chitin chemistry, Dictyostelium genetics, Dictyostelium metabolism, Microscopy, Atomic Force, Molecular Sequence Data, Mollusca growth & development, Myosins metabolism, Animal Shells growth & development, Animal Shells metabolism, Chitin metabolism, Chitin Synthase metabolism, Mollusca metabolism

Abstract

Molluscs with various shell architectures evolved around 542-525 million years ago, as part of a larger phenomenon related to the diversification of metazoan phyla. Molluscs deposit minerals in a chitin matrix. The mollusc chitin is synthesized by transmembrane enzymes that contain several unique extracellular domains. Here we investigate the assembly mechanism of the chitin synthase Ar-CS1 via its extracellular domain ArCS1_E22. The corresponding transmembrane protein ArCS1_E22TM accumulates in membrane fractions of the expression host Dictyostelium discoideum. Soluble recombinant ArCS1_E22 proteins can be purified as monomers only at basic pH. According to confocal fluorescence microscopy experiments, immunolabeled ArCS1_E22 proteins adsorb preferably to aragonitic nacre platelets at pH 7.75. At pH 8.2 or pH 9.0 the fluorescence signal is less intense, indicating that protein-mineral interaction is reduced with increasing pH. Furthermore, ArCS1_E22 forms regular nanostructures on cationic substrates as revealed by atomic force microscopy (AFM) experiments on modified mica cleavage planes. These experiments suggest that the extracellular domain ArCS1_E22 is involved in regulating the multiple enzyme activities of Ar-CS1 such as chitin synthesis and myosin movements by interaction with mineral surfaces and eventually by protein assembly. The protein complexes could locally probe the status of mineralization according to pH unless ions and pCO2 are balanced with suitable buffer substances. Taking into account that the intact enzyme could act as a force sensor, the results presented here provide further evidence that shell formation is coordinated physiologically with precise adjustment of cellular activities to the structure, topography and stiffness at the mineralizing interface., (Copyright © 2013 Elsevier Inc. All rights reserved.)

Published

2013

12. Peptide induced crystallization of calcium carbonate on wrinkle patterned substrate: implications for chitin formation in molluscs.

Author

Ghatak AS, Koch M, Guth C, and Weiss IM

Subjects

Amino Acid Sequence, Animals, Birefringence, Crystallization, Microscopy, Electron, Scanning, Minerals chemistry, Molecular Sequence Data, Mollusca drug effects, Peptides chemistry, Surface Properties, Calcium Carbonate chemistry, Chitin biosynthesis, Dimethylpolysiloxanes chemistry, Mollusca metabolism, Peptides pharmacology

Abstract

We here present the nucleation and growth of calcium carbonate under the influence of synthetic peptides on topographically patterned poly(dimethylsiloxane) (PDMS) substrates, which have a controlled density of defects between the wrinkles. Experiments with two lysine-rich peptides derived from the extracellular conserved domain E22 of the mollusc chitin synthase Ar-CS1, AKKKKKAS (AS8) and EEKKKKKES (ES9) on these substrates showed their influence on the calcium carbonate morphology. A transition from polycrystalline composites to single crystalline phases was achieved with the peptide AS8 by changing the pH of the buffer solution. We analyzed three different pH values as previous experiments showed that E22 interacts with aragonite biominerals more strongly at pH 7.75 than at pH 9.0. At any given pH, crystals appeared in characteristic morphologies only on wrinkled substrates, and did not occur on the flat, wrinkle-free PDMS substrate. These results suggest that these wrinkled substrates could be useful for controlling the morphologies of other mineral/peptide and mineral/protein composites. In nature, these templates are formed enzymatically by glycosyltransferases containing pH-sensitive epitopes, similar to the peptides investigated here. Our in vitro test systems may be useful to gain understanding of the formation of distinct 3D morphologies in mollusc shells in response to local pH shifts during the mineralization of organic templates.

Published

2013

13. Hierarchical super-structure identified by polarized light microscopy, electron microscopy and nanoindentation: Implications for the limits of biological control over the growth mode of abalone sea shells.

Author

Schneider AS, Heiland B, Peter NJ, Guth C, Arzt E, and Weiss IM

Abstract

Background: Mollusc shells are commonly investigated using high-resolution imaging techniques based on cryo-fixation. Less detailed information is available regarding the light-optical properties. Sea shells of Haliotis pulcherina were embedded for polishing in defined orientations in order to investigate the interface between prismatic calcite and nacreous aragonite by standard materialographic methods. A polished thin section of the interface was prepared with a defined thickness of 60 μm for quantitative birefringence analysis using polarized light and LC-PolScope microscopy. Scanning electron microscopy images were obtained for comparison. In order to study structural-mechanical relationships, nanoindentation experiments were performed., Results: Incident light microscopy revealed a super-structure in semi-transparent regions of the polished cross-section under a defined angle. This super-structure is not visible in transmitted birefringence analysis due to the blurred polarization of small nacre platelets and numerous organic interfaces. The relative orientation and homogeneity of calcite prisms was directly identified, some of them with their optical axes exactly normal to the imaging plane. Co-oriented "prism colonies" were identified by polarized light analyses. The nacreous super-structure was also visualized by secondary electron imaging under defined angles. The domains of the super-structure were interpreted to consist of crystallographically aligned platelet stacks. Nanoindentation experiments showed that mechanical properties changed with the same periodicity as the domain size., Conclusions: In this study, we have demonstrated that insights into the growth mechanisms of nacre can be obtained by conventional light-optical methods. For example, we observed super-structures formed by co-oriented nacre platelets as previously identified using X-ray Photo-electron Emission Microscopy (X-PEEM) [Gilbert et al., Journal of the American Chemical Society 2008, 130:17519-17527]. Polarized optical microscopy revealed unprecedented super-structures in the calcitic shell part. This bears, in principle, the potential for in vivo studies, which might be useful for investigating the growth modes of nacre and other shell types.

Published

2012

14. Functional expression of Ca²⁺ dependent mammalian transmembrane gap junction protein Cx43 in slime mold Dictyostelium discoideum.

Author

Kaufmann S, Weiss IM, Eckstein V, and Tanaka M

Subjects

Animals, Calcium metabolism, Cell Membrane metabolism, Connexin 43 genetics, Flow Cytometry, Fluorescent Dyes metabolism, Genetic Vectors, Green Fluorescent Proteins biosynthesis, Green Fluorescent Proteins genetics, Mice, Protein Biosynthesis, Recombinant Fusion Proteins biosynthesis, Recombinant Fusion Proteins genetics, Connexin 43 biosynthesis, Dictyostelium metabolism, Gap Junctions metabolism

Abstract

In this paper, we expressed murine gap junction protein Cx43 in Dictyostelium discoideum by introducing the specific vector pDXA. In the first step, the successful expression of Cx43 and Cx43-eGFP was verified by (a) Western blot (anti-Cx43, anti-GFP), (b) fluorescence microscopy (eGFP-Cx43 co-expression, Cx43 immunostaining), and (c) flow cytometry analysis (eGFP-Cx43 co-expression). Although the fluorescence signals from cells expressing Cx43-eGFP detected by fluorescence microscopy seem relatively low, analysis by flow cytometry demonstrated that more than 60% of cells expressed Cx43-eGFP. In order to evaluate the function of expressed Cx43 in D. discoideum, we examined the hemi-channel function of Cx43. In this series of experiments, the passive uptake of carboxyfluorescein was monitored using flow cytometric analysis. A significant number of the transfected cells showed a prominent dye uptake in the absence of Ca(2+). The dye uptake by transfected cells in the presence of Ca(2+) was even lower than the non-specific dye uptake by non-transformed Ax3 orf+ cells, confirming that Cx43 expressed in D. discoideum retains its Ca(2+)-dependent, specific gating function. The expression of gap junction proteins expressed in slime molds opens a possibility to the biological significance of intercellular communications in development and maintenance of multicellular organisms., (Copyright © 2012 Elsevier Inc. All rights reserved.)

Published

2012

15. GFP facilitates native purification of recombinant perlucin derivatives and delays the precipitation of calcium carbonate.

Author

Weber E, Guth C, and Weiss IM

Subjects

Animals, Biotechnology methods, Escherichia coli genetics, Escherichia coli metabolism, Gastropoda metabolism, Green Fluorescent Proteins genetics, Lectins chemistry, Lectins genetics, Recombinant Fusion Proteins genetics, Calcium Carbonate chemistry, Green Fluorescent Proteins metabolism, Lectins metabolism, Recombinant Fusion Proteins metabolism

Abstract

Insolubility is one of the possible functions of proteins involved in biomineralization, which often limits their native purification. This becomes a major problem especially when recombinant expression systems are required to obtain larger amounts. For example, the mollusc shell provides a rich source of unconventional proteins, which can interfere in manifold ways with different mineral phases and interfaces. Therefore, the relevance of such proteins for biotechnological processes is still in its infancy. Here we report a simple and reproducible purification procedure for a GFP-tagged lectin involved in biomineralization, originally isolated from mother-of-pearl in abalone shells. An optimization of E. coli host cell culture conditions was the key to obtain reasonable yields and high degrees of purity by using simple one-step affinity chromatography. We identified a dual functional role for the GFP domain when it became part of a mineralizing system in vitro. First, the GFP domain improved the solubility of an otherwise insoluble protein, in this case recombinant perlucin derivatives. Second, GFP inhibited calcium carbonate precipitation in a concentration dependent manner. This was demonstrated here using a simple bulk assay over a time period of 400 seconds. At concentrations of 2 µg/ml and higher, the inhibitory effect was observed predominantly for HCO(3) (-) as the first ionic interaction partner, but not necessarily for Ca(2+). The interference of GFP-tagged perlucin derivatives with the precipitation of calcium carbonate generated different types of GFP-fluorescent composite calcite crystals. GFP-tagging offers therefore a genetically tunable tool to gently modify mechanical and optical properties of synthetic biocomposite minerals.

Published

2012

16. Transmembrane myosin chitin synthase involved in mollusc shell formation produced in Dictyostelium is active.

Author

Schönitzer V, Eichner N, Clausen-Schaumann H, and Weiss IM

Subjects

Actins metabolism, Animals, Chitin biosynthesis, Chitin Synthase genetics, Dictyostelium genetics, Dictyostelium ultrastructure, Fluorescent Antibody Technique, Microscopy, Atomic Force, Myosins metabolism, Plasmids genetics, Recombinant Fusion Proteins genetics, Chitin Synthase biosynthesis, Cloning, Molecular methods, Dictyostelium metabolism, Gastropoda enzymology, Recombinant Fusion Proteins biosynthesis

Abstract

Several mollusc shells contain chitin, which is formed by a transmembrane myosin motor enzyme. This protein could be involved in sensing mechanical and structural changes of the forming, mineralizing extracellular matrix. Here we report the heterologous expression of the transmembrane myosin chitin synthase Ar-CS1 of the bivalve mollusc Atrina rigida (2286 amino acid residues, M.W. 264 kDa/monomer) in Dictyostelium discoideum, a model organism for myosin motor proteins. Confocal laser scanning immunofluorescence microscopy (CLSM), chitin binding GFP detection of chitin on cells and released to the cell culture medium, and a radiochemical activity assay of membrane extracts revealed expression and enzymatic activity of the mollusc chitin synthase in transgenic slime mold cells. First high-resolution atomic force microscopy (AFM) images of Ar-CS1 transformed cellulose synthase deficient D. discoideumdcsA(-) cell lines are shown., (Copyright © 2011 Elsevier Inc. All rights reserved.)

Published

2011

17. Plasticity of two structural proteins: alpha-collagen and beta-keratin.

Author

Weiss IM and Kirchner HO

Subjects

Animals, Biomechanical Phenomena, Bone and Bones chemistry, Bone and Bones metabolism, Collagen metabolism, Feathers chemistry, Feathers metabolism, Humans, beta-Keratins metabolism, Collagen chemistry, Mechanical Phenomena, beta-Keratins chemistry

Abstract

Although the microstructures of Type-I collagen in bone and F-keratin in avian feathers are very different, their plastic behaviour is similar. In both plasticity is thermally activated, with the activation enthalpy H=1.1 eV in bone and 1.75 eV in feather. The activation volumes are v=0.6 nm3 in bone and v=0.83 nm3 in feather. This indicates that the rate controlling process in both is the breaking of electrostatic bonds., (Copyright © 2011 Elsevier Ltd. All rights reserved.)

Published

2011

18. Calcium and silicon mineralization in land plants: transport, structure and function.

Author

Bauer P, Elbaum R, and Weiss IM

Subjects

Amino Acid Sequence, Biological Transport, Calcium Carbonate metabolism, Calcium Oxalate metabolism, Cell Wall ultrastructure, Microscopy, Electron, Scanning methods, Models, Biological, Phylogeny, Plant Structures metabolism, Plant Structures ultrastructure, Plants chemistry, Sequence Alignment, Calcium metabolism, Plants metabolism, Plants ultrastructure, Silicon metabolism

Abstract

Plant biomineralization involves calcium and silicon transport and mineralization. Respective analytical methods and case studies are listed. Calcium carbonate is deposited in cystoliths, calcium oxalate in idioblasts. Silicon is deposited in phytoliths. Biomineralization is a coordinated process., (Copyright © 2011 Elsevier Ireland Ltd. All rights reserved.)

Published

2011

19. The peacock's train (Pavo cristatus and Pavo cristatus mut. alba) II. The molecular parameters of feather keratin plasticity.

Author

Weiss IM, Schmitt KP, and Kirchner HO

Subjects

Animals, Biomechanical Phenomena, Keratins analysis, Static Electricity, Temperature, Feathers chemistry, Galliformes metabolism, Keratins chemistry, Tail

Abstract

Thermal activation analysis of plastic deformation of peacock tail feathers, by temperature changes and stress relaxation, gave for the keratin cortex an activation enthalpy of 1.78 ± 0.89 eV and an activation volume of 0.83 ± 0.13 nm³, for both the blue and the white subspecies. These values suggest that breaking of electrostatic bonds is responsible for plasticity in feather keratin. These might be bonds between keratin and nonkeratinous matrix or keratin-keratin cross-links. The mechanical properties of the rachis cortex are surprisingly uniform along the length of the feathers., (Copyright © 2011 Wiley-Liss, Inc., A Wiley Company.)

Published

2011

20. Biomaterials: metabolites empowering minerals.

Author

Weiss IM

Subjects

Animals, Biocompatible Materials chemistry, Biocompatible Materials metabolism, Calcium Carbonate chemistry, Decapoda physiology, Materials Testing, Minerals chemistry, Minerals metabolism, Phosphoenolpyruvate analysis, Phosphoenolpyruvate chemistry, Phosphoenolpyruvate metabolism, Publications trends, Research trends, Biocompatible Materials analysis, Minerals analysis

Published

2011

21. Keratin homogeneity in the tail feathers of Pavo cristatus and Pavo cristatus mut. alba.

Author

Pabisch S, Puchegger S, Kirchner HO, Weiss IM, and Peterlik H

Subjects

Animals, X-Ray Diffraction, Feathers chemistry, Galliformes metabolism, beta-Keratins chemistry

Abstract

The keratin structure in the cortex of peacocks' feathers is studied by X-ray diffraction along the feather, from the calamus to the tip. It changes considerably over the first 5 cm close to the calamus and remains constant for about 1m along the length of the feather. Close to the tip, the structure loses its high degree of order. We attribute the X-ray patterns to a shrinkage of a cylindrical arrangement of β-sheets, which is not fully formed initially. In the final structure, the crystalline beta-cores are fixed by the rest of the keratin molecule. The hydrophobic residues of the beta-core are locked into a zip-like arrangement. Structurally there is no difference between the blue and the white bird., (Copyright © 2010 Elsevier Inc. All rights reserved.)

Published

2010

22. The peacock's train (Pavo cristatus and Pavo cristatus mut. alba) I. structure, mechanics, and chemistry of the tail feather coverts.

Author

Weiss IM and Kirchner HO

Subjects

Animals, Biomechanical Phenomena, Birds anatomy & histology, Feathers

Abstract

The feathers in the train of the peacock serve not for flying but for sexual display. They are long, slender beams loaded in bending by their own weight. An outer circular conical shell, the cortex, is filled by a closed foam of 7.6% relative density, the medulla, both of feather keratin. Outer diameter and thickness of the cortex decrease linearly from the body toward the tip. This self-similar geometry leads to a division of labor. The cortex (longitudinal Young's modulus 3.3 GPa, transverse modulus 1 GPa) provides 96% of the longitudinal strength and bending rigidity of the feather. The medulla (Young's modulus 10 MPa) provides 96% of the transverse compressive rigidity. Fracture stress of the cortex, both longitudinal and transverse, is 120 MPa., (Copyright © 2010 Wiley-Liss, Inc., A Wiley Company.)

Published

2010

23. Non-invasive LC-PolScope imaging of biominerals and cell wall anisotropy changes.

Author

Eder M, Lütz-Meindl U, and Weiss IM

Subjects

Actinidia chemistry, Actinidia metabolism, Anisotropy, Cell Wall metabolism, Dictyostelium chemistry, Dictyostelium metabolism, Gossypium chemistry, Gossypium metabolism, Calcium Oxalate chemistry, Cell Wall chemistry, Cellulose chemistry, Microscopy, Electron methods

Abstract

The formation of defined shapes by cells is one of the challenging questions in biology. Due to the anisotropy of cell walls and of certain biominerals, the LC-PolScope represents a promising tool for tracking dynamic structural changes in vivo non-invasively and, to some extent, quantitatively. A complex three-dimensional biogenic system, the in vitro precipitation of calcium oxalate induced by cellulose stalks produced by Dictyostelium discoideum, was analyzed. Although the retardance values and orientation of the crystals with respect to the stalk were quickly and easily detected, this study raised a number of issues that were addressed in this work. The effect of the refractive index of the embedding medium was examined by taking advantage of the homogeneous size and shape distribution of kiwifruit raphides, a biologically controlled calcium oxalate biomineral and of cotton (Gossypium) seed fibers. The retardance remained consistent when embedding these samples in media with increasing refractive indices from 1.33 to 1.42 or 1.47 for sucrose or glycerol gradients, respectively. The general applicability of LC-PolScope image processing for biominerals and cell wall formation during development in vivo was demonstrated in a particular group of green algae, the Desmidiaceae. Various organization levels of the cell wall were identified, thus confirming earlier findings based on electron microscopy and immunostaining investigations. It can be concluded that LC-PolScope microscopy is an attractive tool for studying dynamic ordering of biomolecules, such as plant cell walls, when additional parameters regarding the structure, composition, and refractive indices of the specimen are available.

Published

2010

24. Jewels in the pearl.

Author

Weiss IM

Subjects

Animals, Carrier Proteins chemistry, Calcium Carbonate chemistry, Carrier Proteins metabolism, Chitin chemistry, Pinctada chemistry

Published

2010

25. Native supported membranes on planar polymer supports and micro-particle supports.

Author

Tanaka M, Tutus M, Kaufmann S, Rossetti FF, Schneck E, and Weiss IM

Subjects

Animals, Erythrocytes, Humans, Models, Biological, Models, Theoretical, Sarcoplasmic Reticulum, Membranes, Artificial, Polymers chemistry

Abstract

To bridge soft biological materials and hard inorganic materials is an interdisciplinary scientific challenge. Despite of experimental difficulties, the deposition of native biological membranes on supports is a straightforward strategy. This review provides an overview of advances in the fabrication and characterization of native biological membranes on planar polymer supports and micro-particles.

Published

2009

26. Covalent modification of chitin with silk-derivatives acts as an amphiphilic self-organizing template in nacre biomineralisation.

Author

Weiss IM, Kaufmann S, Heiland B, and Tanaka M

Subjects

Animals, Microscopy, Confocal, Molecular Structure, Oligosaccharides chemistry, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Spectrophotometry, Infrared, Chitin chemistry, Mollusca chemistry, Peptides chemistry

Abstract

Molluscs have a well-deserved reputation for being expert mineralizers of various shell types such as nacre. Nacre is defined as regularly arranged layers and stacks of approximately 0.5 microm thick aragonite platelets that are extracellularly formed within a complex mixture of organic matrix. The control of species-specific layer thickness by the animal is still enigmatic. Despite the recent findings on the periodic layer-by-layer structures of chitin layers and silk-like protein layers in nacre-type biominerals, little is known about how the interface is defined between two different layers. In this paper, we demonstrate the presence of covalently attached, hydrophobic amino acid side chains in the chitin matrix in the bivalve mollusc Mytilus galloprovincialis by the combination of infrared spectroscopy and mass spectroscopy. The accumulation of the modified chitin matrix at the interface is quantified by the critical aggregate concentration of the purified chitin matrix, which is approximately an order of magnitude smaller than that of pure chitin. Our finding suggests an active role of such chemically modified chito-oligosaccharides in the creation of a defined interface and guidance of the periodic matrix textures, which would result in unique material properties of natural mollusc shells.

Published

2009

27. The structure of mollusc larval shells formed in the presence of the chitin synthase inhibitor Nikkomycin Z.

Author

Schönitzer V and Weiss IM

Subjects

Animal Structures, Animals, Chitin biosynthesis, Larva anatomy & histology, Larva growth & development, Larva ultrastructure, Microscopy, Electron, Scanning, Models, Biological, Aminoglycosides pharmacology, Chitin Synthase antagonists & inhibitors, Enzyme Inhibitors pharmacology, Mytilus anatomy & histology, Mytilus growth & development

Abstract

Background: Chitin self-assembly provides a dynamic extracellular biomineralization interface. The insoluble matrix of larval shells of the marine bivalve mollusc Mytilus galloprovincialis consists of chitinous material that is distributed and structured in relation to characteristic shell features. Mollusc shell chitin is synthesized via a complex transmembrane chitin synthase with an intracellular myosin motor domain., Results: Enzymatic mollusc chitin synthesis was investigated in vivo by using the small-molecule drug NikkomycinZ, a structural analogue to the sugar donor substrate UDP-N-acetyl-D-glucosamine (UDP-GlcNAc). The impact on mollusc shell formation was analyzed by binocular microscopy, polarized light video microscopy in vivo, and scanning electron microscopy data obtained from shell material formed in the presence of NikkomycinZ. The partial inhibition of chitin synthesis in vivo during larval development by NikkomycinZ (5 microM - 10 microM) dramatically alters the structure and thus the functionality of the larval shell at various growth fronts, such as the bivalve hinge and the shell's edges., Conclusion: Provided that NikkomycinZ mainly affects chitin synthesis in molluscs, the presented data suggest that the mollusc chitin synthase fulfils an important enzymatic role in the coordinated formation of larval bivalve shells. It can be speculated that chitin synthesis bears the potential to contribute via signal transduction pathways to the implementation of hierarchical patterns into chitin mineral-composites such as prismatic, nacre, and crossed-lamellar shell types.

Published

2007

28. Quantitative in vitro biopolymerization to chitin in native chitosomal membranes supported by silica microparticles.

Author

Kaufmann S, Weiss IM, and Tanaka M

Subjects

Amino Acid Sequence, Chitin Synthase chemistry, Chitin Synthase metabolism, Membranes, Artificial, Microscopy, Confocal, Molecular Sequence Data, Particle Size, Saccharomyces cerevisiae chemistry, Saccharomyces cerevisiae metabolism, Chitin biosynthesis, Chitin chemistry, Silicon Dioxide chemistry

Abstract

To investigate the unknown physical mechanisms of chitin biosynthesis quantitatively, we designed a quantitative in vitro biopolymerization assay by deposition of native chitosomal membranes from Saccharomyces cerevisiae onto solid silica microparticles of a defined size (ø = 3 microm). The homogeneous coating of particle surfaces with native chitosomal membranes observed by confocal microscopy agrees well with the surface coverage calculated by the phosphate analysis. The amount of the synthesized chitin polymers is determined by radioactive assays, which demonstrate that chitin synthase in particle-supported membranes retains its specific enzymatic activity. In comparison to planar substrates, particle supports of defined size (and thus surface area) enable us to amplify the signals from immobilized proteins owing to the much larger surface area and to the capability of concentrating the sample to any given sample volume. Moreover, the large density of particle supports offers unique advantages over purified chitosomes in the quick separation of particle-supported membranes and materials in bulk within 1 min. This allows for the termination of the polymerization reaction without the disruption of the whole membranes, and thus the chitin polymers released in bulk can quantitatively be extracted. The obtained results demonstrate that the native biological membranes on particle supports can be utilized as a new in vitro biopolymerization assay to study the function of transmembrane enzyme complexes.

Published

2007

29. Emergency department patient characteristics: Potential impact on emergency medicine residency programs in the Netherlands.

Author

Elshove-Bolk J, Mencl F, van Rijswijck BT, Weiss IM, Simons MP, and van Vugt AB

Subjects

Adolescent, Adult, Age Distribution, Aged, Aged, 80 and over, Child, Child, Preschool, Curriculum, Health Services Research, Hospital Mortality, Hospitals, Urban statistics & numerical data, Humans, Infant, Infant, Newborn, Intubation, Intratracheal statistics & numerical data, Middle Aged, Models, Educational, Needs Assessment, Netherlands epidemiology, Patient Acceptance of Health Care statistics & numerical data, Patient Admission statistics & numerical data, Referral and Consultation statistics & numerical data, Resuscitation statistics & numerical data, Thoracostomy statistics & numerical data, Trauma Centers statistics & numerical data, Education, Medical, Graduate organization & administration, Emergency Medicine education, Emergency Medicine statistics & numerical data, Emergency Service, Hospital statistics & numerical data, Internship and Residency organization & administration

Abstract

Objectives: We set out to study emergency department patient characteristics at a busy level-2 trauma center, to gain insight into the practise of emergency medicine, which is not yet recognized as a specialty in the Netherlands., Methods: From May 27 to July 4 2001, the following data were recorded from the charts of all patients presenting to the emergency department: age, time and form of presentation, diagnostics, treatment, disposition and the single best diagnosis (International Classification of Disease-10 classification)., Results: The majority (84%) of the 5234 patients (134/day) patients seen were self-referred and treated by the emergency department physician. The remaining 16% were referred, usually by their general practitioner, directly to a specialty service, which saw them in the emergency department. Self-referred patients tended to be younger (average 33 years), with minor trauma, and infrequently required diagnostics (37%), treatment (49%) or admission (4%). The referred patients were older (average 50 years), with 41% needing admission. Only 16% of all patients were under 16 years of age. In all, there were five deaths (referred patients), 12 resuscitations, seven intubations, seven chest tube insertions and no lumbar punctures performed during the study period., Conclusion: The acuity of self-referred patients seen by the emergency physicians is low, with little diagnostic testing and few interventions and resuscitations, even in a busy center. This has both training and practise implications and it may be inappropriate to take an emergency medicine practise model or curriculum from another country based on its emergency department population.

Published

2006

30. The chitin synthase involved in marine bivalve mollusk shell formation contains a myosin domain.

Author

Weiss IM, Schönitzer V, Eichner N, and Sumper M

Subjects

Animals, Cloning, Molecular, Extracellular Matrix enzymology, Extracellular Matrix metabolism, Larva, Molecular Motor Proteins, Mytilus, Protein Structure, Tertiary, Chitin Synthase chemistry, Mollusca enzymology, Myosins chemistry

Abstract

Chitin is a key component in mollusk nacre formation. However, the enzyme complex responsible for chitin deposition in the mollusk shell remained unknown. We cloned and characterized the chitin synthase of the marine bivalve mollusk Atrina rigida. We present here the first chitin synthase sequence from invertebrates containing an unconventional myosin motor head domain. We further show that a homologous gene for chitin synthase is expressed in the shell forming tissue of larval Mytilus galloprovincialis even in early embryonic stages. The new data presented here are the first clear-cut indication for a functional role of cytoskeletal forces in the precisely controlled mineral deposition process of mollusk shell biogenesis.

Published

2006

31. The distribution of chitin in larval shells of the bivalve mollusk Mytilus galloprovincialis.

Author

Weiss IM and Schönitzer V

Subjects

Animals, Green Fluorescent Proteins analysis, Larva chemistry, Mytilus cytology, Recombinant Fusion Proteins analysis, Chitin analysis, Mytilus chemistry, Mytilus growth & development

Abstract

The insoluble matrix of larval shells of the marine bivalve mollusk Mytilus galloprovincialis is investigated by confocal laser scanning microscopy using a GFP fusion protein with a chitin-binding domain for labeling of chitinous structures. We show that chitinous material is present in the larval shell, presumably as a chitin-protein complex. We further show that the structure of the chitinous material changes with the development of the larvae. We conclude from the presence of characteristic chitinous structures in certain shell regions that chitin fulfills an important function in the formation and functionality of larval bivalve shells.

Published

2006

32. Mollusc larval shell formation: amorphous calcium carbonate is a precursor phase for aragonite.

Author

Weiss IM, Tuross N, Addadi L, and Weiner S

Subjects

Animals, Larva anatomy & histology, Larva ultrastructure, Mollusca anatomy & histology, Mollusca ultrastructure, Spectrum Analysis, Raman, Calcium Carbonate metabolism, Larva chemistry, Larva growth & development, Mollusca chemistry, Mollusca growth & development

Abstract

The larval shells of the marine bivalves Mercenaria mercenaria and Crassostrea gigas are investigated by polarized light microscopy, infrared spectroscopy, Raman imaging spectroscopy, and scanning electron microscopy. Both species contain similar shell ultrastructures. We show that larval shells contain amorphous calcium carbonate (ACC), in addition to aragonite. The aragonite is much less crystalline than non-biogenic aragonite. We further show that the initially deposited mineral phase is predominantly ACC that subsequently partially transforms into aragonite. The postset juvenile shell, as well as the adult shell of Mercenaria also contains aragonite that is less crystalline than non-biogenic aragonite. We conclude that ACC fulfills an important function in mollusc larval shell formation. It is conceivable that ACC may also be involved in adult shell formation.

Published

2002

33. Perlustrin, a Haliotis laevigata (abalone) nacre protein, is homologous to the insulin-like growth factor binding protein N-terminal module of vertebrates.

Author

Weiss IM, Göhring W, Fritz M, and Mann K

Subjects

Amino Acid Sequence, Animals, Binding Sites, Conserved Sequence, Cysteine, Extracellular Matrix Proteins isolation & purification, Extracellular Matrix Proteins metabolism, Insulin chemistry, Insulin metabolism, Insulin-Like Growth Factor Binding Protein 4 chemistry, Insulin-Like Growth Factor Binding Protein 4 metabolism, Insulin-Like Growth Factor I metabolism, Insulin-Like Growth Factor II metabolism, Kinetics, Mammals, Molecular Sequence Data, Vertebrates, Extracellular Matrix Proteins chemistry, Insulin-Like Growth Factor Binding Proteins chemistry, Mollusca

Abstract

The 84-amino-acid-long sequence of perlustrin showed homology of the abalone nacre protein to the N-terminal domain of mammalian insulin-like growth factor binding proteins (IGFBPs). Despite the evolutionary distance between mollusks and mammals, the sequence identity was 40% including 12 conserved cysteines. However, the residues which were suggested recently to bind IGF-II in a complex with IGFBP-5 were conserved only partially. Nevertheless, perlustrin bound human IGFs with K(D) approximately 10(-7) M. This was the same affinity range as measured before for the interaction of isolated IGFBP-5 N-terminal domains with IGFs. Moreover, perlustrin bound bovine insulin with only approximately two- to sevenfold lower affinity than IGFs. Sequence similarity and growth factor binding identified perlustrin unequivocally as a member of the IGFBP family, the first found in an invertebrate biomineral. Nacre is known to contain proteinaceous factors which promote bone formation in vitro and in vivo. Bone contains IGFBPs which influence bone metabolism in many ways by modulating either IGF effects or IGF independently. Thus, perlustrin may provide a first clue at the molecular level to what these two phylogenetically rather distant biomineralization systems have in common., (Copyright 2001 Academic Press.)

Published

2001

34. The amino-acid sequence of the abalone (Haliotis laevigata) nacre protein perlucin. Detection of a functional C-type lectin domain with galactose/mannose specificity.

Author

Mann K, Weiss IM, André S, Gabius HJ, and Fritz M

Subjects

Amino Acid Sequence, Animals, Calcium Chloride pharmacology, Glycoproteins chemistry, Glycoproteins metabolism, Kinetics, Lectins isolation & purification, Lectins metabolism, Molecular Sequence Data, Peptide Fragments chemistry, Sequence Alignment, Sequence Homology, Amino Acid, Sodium Chloride pharmacology, Galactose, Lectins chemistry, Mannose, Mollusca chemistry

Abstract

Perlucin isolated from abalone nacre consists of 155 amino acids including a glycosylated asparagine. The sequence of the first 130 amino acids shows a high similarity to the C-type carbohydrate-recognition domains of asialoglycoprotein receptors and other members of the group of C-type lectins but also a weaker similarity to related proteins without carbohydrate-binding activity. This C-type module is followed by a short C-terminal domain containing two almost identical sequence repeats with a length of 10 amino acids. Solid phase assays show a divalent metal ion-dependent binding of perlucin to (neo)glycoproteins containing D-galactose or D-mannose/D-glucose indicating that perlucin is a functional C-type lectin with broad carbohydrate-binding specificity. Our results also indicate that it may be difficult to predict carbohydrate-binding specificity and the occurrence of alternative binding configurations by amino-acid sequence comparisons and homology modeling.

Published

2000

35. Purification and characterization of perlucin and perlustrin, two new proteins from the shell of the mollusc Haliotis laevigata.

Author

Weiss IM, Kaufmann S, Mann K, and Fritz M

Subjects

Amino Acid Sequence, Animals, Calcium-Binding Proteins chemistry, Chromatography, High Pressure Liquid, Chromatography, Ion Exchange, Extracellular Matrix Proteins isolation & purification, Lectins isolation & purification, Lithostathine, Molecular Sequence Data, Mollusca cytology, Mollusca ultrastructure, Sequence Alignment, Sequence Homology, Amino Acid, Calcium Carbonate, Extracellular Matrix Proteins chemistry, Lectins chemistry, Mollusca chemistry, Nerve Tissue Proteins

Abstract

Two new proteins, named perlucin and perlustrin, with M(r) 17,000 and 13,000, respectively, were isolated from the shell of the mollusc Halotis laevigata (abalone) by ion-exchange chromatography and reversed-phase HPLC after demineralization of the shell in 10% acetic acid. The sequence of the first 32 amino acids of perlucin indicated that this protein belonged to a heterogeneous group of proteins consisting of a single C-type lectin domain. Perlucin increased the precipitation of CaCO(3) from a saturated solution, indicating that it may promote the nucleation and/or the growth of CaCO(3) crystals. With pancreatic stone protein (lithostathine) and the eggshell protein ovocleidin 17, this is the third C-type lectin domain protein isolated from CaCO(3) biominerals. This indicates that this type of protein performs an important but at present unrecognized function in biomineralization. Perlustrin was a minor component of the protein mixture and the sequence of the first 33 amino acids indicated a certain similarity to part of the much larger nacre protein lustrin A., (Copyright 2000 Academic Press.)

Published

2000

36. Imaging microtubules and kinesin decorated microtubules using tapping mode atomic force microscopy in fluids.

Author

Kacher CM, Weiss IM, Stewart RJ, Schmidt CF, Hansma PK, Radmacher M, and Fritz M

Subjects

Animals, Brain ultrastructure, Indicators and Reagents, Lipid Bilayers, Microscopy, Atomic Force methods, Solutions, Swine, Water, Kinesins ultrastructure, Microtubules ultrastructure

Abstract

The atomic force microscope has been used to investigate microtubules and kinesin decorated microtubules in aqueous solution adsorbed onto a solid substrate. The netto negatively charged microtubules did not adsorb to negatively charged solid surfaces but to glass covalently coated with the highly positively charged silane trimethoxysilylpropyldiethylenetriamine (DETA) or a lipid bilayer of 1,2-dipalmitoyl-3-dimethylammoniumpropane. Using electron beam deposited tips for microtubules adsorbed on DETA, single protofilaments could be observed showing that the resolution is up to 5 nm. Under conditions where the silane coated surfaces are hydrophobic, microtubules opened, presumably at the seam, whose stability is lower than that of the bonds between the other protofilaments. This led to a "sheet" with a width of about 100 nm firmly attached to the surface. Microtubules decorated with a stoichiometric low amount of kinesin molecules in the presence of the non-hydrolyzable ATP-analog 5'-adenylylimidodiphosphate could also be adsorbed onto silane-coated glass. Imaging was very stable and the molecules did not show any scan-induced deformation even after hundreds of scans with a scan frequency of 100 Hz.

Published

2000

37. Erythroid cell-specific mRNA stability elements in the alpha 2-globin 3' nontranslated region.

Author

Weiss IM and Liebhaber SA

Subjects

Animals, Base Sequence, DNA Primers genetics, Drug Stability, Humans, Leukemia, Erythroblastic, Acute genetics, Leukemia, Erythroblastic, Acute metabolism, Mice, Models, Biological, Molecular Sequence Data, Mutagenesis, Site-Directed, Mutation, Protein Biosynthesis, Tumor Cells, Cultured, Erythrocytes metabolism, Globins genetics, RNA, Messenger genetics, RNA, Messenger metabolism

Abstract

Very little is known about the mechanisms mediating longevities of mRNAs. As a means of identifying potential cis- and trans-acting elements which stabilize an individual mRNA, naturally occurring mutations that decreased stability of the normally long-lived globin mRNA were analyzed. Our previous studies demonstrated that a subset of mutations which allowed the translating ribosome to read through into the alpha 2-globin 3' nontranslated region (NTR) targeted the mutant mRNAs for accelerated turnover in erythroid cells but not in several nonerythroid cell lines (I. M. Weiss and S. A. Liebhaber, Mol. Cell. Biol. 14:8123-8132, 1994). These results suggested that translational readthrough interfered with some feature of the alpha 2-globin 3' NTR required for message stability in erythroid cells. To define the cis-acting sequences which comprise this erythroid cell-specific stability determinant, scanning mutagenesis was performed on the alpha 2-globin 3' NTR, and the stability of each mutant mRNA was examined during transient expression. Three cytidine-rich regions which are required for longevity of the alpha 2-globin mRNA were identified. However, in contrast to the readthrough mutations, base substitutions in these elements destabilize the message through a translation-independent mechanism. To account for these results, we propose that the cis-acting elements form a complex or determinant in the normal alpha 2-globin mRNA which protects the message from degradation in erythroid cells. Disruption of this determinant, by translational readthrough or because mutations in an element prevent or inhibit its formation, targets the message for accelerated turnover in these cells.

Published

1995

38. Detection and characterization of a 3' untranslated region ribonucleoprotein complex associated with human alpha-globin mRNA stability.

Author

Wang X, Kiledjian M, Weiss IM, and Liebhaber SA

Subjects

Animals, Base Sequence, Cell Line, Cell Nucleus metabolism, Chromatography, Affinity, DNA Primers, Fibroblasts, Globins genetics, Growth Hormone biosynthesis, Growth Hormone genetics, Humans, Leukemia, Erythroblastic, Acute, Mice, Molecular Sequence Data, Mutagenesis, Site-Directed, Oligonucleotide Probes, Point Mutation, Poly C metabolism, Polymerase Chain Reaction, Protein Biosynthesis, RNA, Messenger isolation & purification, RNA-Binding Proteins isolation & purification, Ribonucleoproteins isolation & purification, Templates, Genetic, Transfection, Globins biosynthesis, RNA, Messenger chemistry, RNA, Messenger metabolism, RNA-Binding Proteins metabolism, Ribonucleoproteins metabolism

Abstract

The highly stable nature of globin mRNA is of central importance to erythroid cell differentiation. We have previously identified cytidine-rich (C-rich) segments in the human alpha-globin mRNA 3' untranslated region (alpha-3'UTR) which are critical in the maintenance of mRNA stability in transfected erythroid cells. In the present studies, we have detected trans-acting factors which interact with these cis elements to mediate this stabilizing function. A sequence-specific ribonucleoprotein (RNP) complex is assembled after incubation of the alpha-3'UTR with a variety of cytosolic extracts. This so-called alpha-complex is sequence specific and is not formed on the 3'UTR of either beta-globin or growth hormone mRNAs. Furthermore, base substitutions within the C-rich stretches which destabilize alpha-globin mRNA in vivo result in a parallel disruption of the alpha-complex in vitro. Competition studies with a series of homoribopolymers reveals a striking sensitivity of alpha-complex formation to poly(C), suggesting the presence of a poly(C)-binding activity within the alpha-complex. Three predominant proteins are isolated by alpha-3'UTR affinity chromatography. One of these binds directly to poly(C). This cytosolic poly(C)-binding protein is distinct from previously described nuclear poly(C)-binding heterogeneous nuclear RNPs and is necessary but not sufficient for alpha-complex formation. These data suggest that a messenger RNP complex formed by interaction of defined segments within the alpha-3'UTR with a limited number of cytosolic proteins, including a potentially novel poly(C)-binding protein, is of functional importance in establishing high-level stability of alpha-globin mRNA.

Published

1995

39. Erythroid cell-specific determinants of alpha-globin mRNA stability.

Author

Weiss IM and Liebhaber SA

Subjects

Animals, Base Sequence, DNA Primers chemistry, In Vitro Techniques, Mice, Molecular Sequence Data, Protein Biosynthesis, Ribosomes metabolism, Tumor Cells, Cultured, Erythroid Precursor Cells metabolism, Globins genetics, Hemoglobins, Abnormal genetics, RNA, Messenger metabolism

Abstract

Although globin mRNAs are considered prototypes of highly stable messages, the mechanisms responsible for their longevity remain largely undefined. As an initial step in identifying potential cis-acting elements or structures which contribute to their stability, we analyzed the defect in expression of a naturally occurring alpha 2-globin mutant, alpha Constant Spring (CS). The CS mutation is a single-base change in the translation termination codon (UAA-->CAA) that allows the ribosome to read through into the 3' nontranslated region (NTR). The presence of CS mRNA in transcriptionally active erythroid precursors and its absence (relative to normal alpha-globin mRNA) in the more differentiated transcriptionally silent erythrocytes suggest that this mutation disrupts some feature of the alpha-globin mRNA required for its stability. Using a transient transfection system, we demonstrate that in murine erythroleukemia cells the CS mRNA is unstable compared with the normal alpha 2-globin mRNA. The analyses of several other naturally occurring and site-directed mutant alpha-globin genes in murine erythroleukemia cells indicate that entry of a translating ribosome into the 3' NTR targets the message for accelerated degradation in erythroid cells. In contrast, both the CS and alpha 2-globin mRNAs are stable in several nonerythroid cell lines. These results suggest that translational readthrough disrupts a determinant associated with the alpha 2-globin 3' NTR which is required for mRNA stability in erythroid cells.

Published

1994

40. Cartilage-specific 5' end of chick alpha 2(I) collagen mRNAs.

Author

Bennett VD, Weiss IM, and Adams SL

Subjects

Animals, Base Sequence, Bone and Bones analysis, Cartilage metabolism, Cells, Cultured, Chick Embryo, DNA biosynthesis, Exons, Nucleic Acid Hybridization, Poly A analysis, Poly A metabolism, RNA analysis, RNA Probes, Ribonuclease T1, Ribonuclease, Pancreatic, Transcription, Genetic, Cartilage analysis, Collagen genetics, RNA, Messenger genetics

Abstract

Chondrocytes grown in suspension contain both type I and type II collagen mRNAs, yet synthesize only type II collagen. The inability of chondrocytes to synthesize the alpha 2 subunit of type I collagen, alpha 2(I), results from a severely reduced translation elongation rate (Bennett, V.D., and Adams, S.L. (1987) J. Biol. Chem. 262, 14806-14814). Furthermore, the alpha 2(I) collagen mRNAs from chondrocytes are translated inefficiently in vitro and appear slightly smaller than those from other cells (Focht, R.J., and Adams, S.L. (1984) Mol. Cell. Biol. 4, 1843-1852). These observations suggest that the reduced translation elongation rate may be due to an intrinsic property of the mRNAs. In this report we demonstrate that the alpha 2(I) collagen mRNAs from suspended chondrocytes are 120 bases shorter than those from other cells, and that the first 94 bases of the chondrocyte mRNAs differ from the corresponding region of the calvaria mRNAs. The unique 5' end of the chondrocyte alpha 2(I) collagen mRNAs accounts for their smaller size and may be responsible for the translation elongation defect. Interestingly, the alpha 2(I) collagen mRNAs from chondrocytes grown in monolayer, rather than in suspension, no longer display the cartilage-specific 5' end, suggesting that cell shape and/or adhesion may modulate the structure of the 5' end of the chondrocyte alpha 2(I) collagen mRNAs.

Published

1989