Your search keyword '"Voelter W"' showing total 10 results

1. Carbohydrate Composition of Carcinus aestuarii Hemocyanin

Author

Dolashka-Angelova, P., Beltramini, M., Dolashki, A., Salvato, B., Hristova, R., and Voelter, W.

Published

2001

2. A challenging insight on the structural unit 1 of molluscan Rapana venosa hemocyanin.

Author

Dolashka-Angelova P, Stevanovic S, Dolashki A, Devreese B, Tzvetkova B, Voelter W, Van Beeumen J, and Salvato B

Subjects

Amino Acid Sequence, Animals, Humans, Molecular Sequence Data, Molecular Weight, Structure-Activity Relationship, Hemocyanins chemistry, Mollusca enzymology, Urea chemistry

Abstract

Hemocyanins of mollusks are high molecular mass glycoproteins with a complex quaternary structure which still remains to be defined in detail for most of its species as far as number, spatial distribution and interactions of their structural units is concerned. In the present study, we isolated the functional units of the structural subunit RvH1 of Rapana venosa hemocyanin, combining enzymatic and non-enzymatic methods. Our results suggest that Hc's carbohydrate moieties play a basic role in the organization of the structural units, resulting from post-translational polymerization of the 50 kDa functional units and involving sugar moieties that link between them.

Published

2007

3. Structure-activity relationship of an alpha-toxin Bs-Tx28 from scorpion (Buthus sindicus) venom suggests a new alpha-toxin subfamily.

Author

Ali SA, Wang B, Alam M, Beck A, Stoeva S, Voelter W, Abbasi A, and Duszenko M

Subjects

Action Potentials, Amino Acid Sequence, Animals, Blattellidae, Circular Dichroism, Gastrointestinal Motility, In Vitro Techniques, Jejunum drug effects, Jejunum innervation, Jejunum physiology, Lethal Dose 50, Mesenteric Arteries innervation, Mice, Models, Molecular, Molecular Sequence Data, Neurotoxins toxicity, Phylogeny, Protein Conformation, Rats, Rats, Sprague-Dawley, Scorpion Venoms toxicity, Sequence Alignment, Sequence Homology, Amino Acid, Sodium Channel Blockers chemistry, Sodium Channel Blockers toxicity, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Structure-Activity Relationship, Tetrodotoxin chemistry, Tetrodotoxin metabolism, Neurotoxins chemistry, Scorpion Venoms chemistry

Abstract

Scorpion venoms are among the most widely known source of peptidyl neurotoxins used for callipering different ion channels, e.g., for Na(+), K(+), Ca(+) or Cl(-). An alpha-toxin (Bs-Tx28) has been purified from the venom of scorpion Buthus sindicus, a common yellow scorpion of Sindh, Pakistan. The primary structure of Bs-Tx28 was established using a combination of MALDI-TOF-MS, LC-ESI-MS, and automated Edman degradation analysis. Bs-Tx28 consists of 65 amino acid residues (7274.3+/-2Da), including eight cysteine residues, and shows very high sequence identity (82-94%) with other long-chain alpha-neurotoxins, active against receptor site-3 of mammalian (e.g., Lqq-IV and Lqh-IV from scorpions Leiurus sp.) and insect (e.g., BJalpha-IT and Od-1 from Buthotus judaicus and Odonthobuthus doriae, respectively) voltage-gated Na(+) channels. Multiple sequence alignment and phylogenetic analysis of Bs-Tx28 with other known alpha- and alpha-like toxins suggests the presence of a new and separate subfamily of scorpion alpha-toxins. Bs-Tx28 which is weakly active in both, mammals and insects (LD(50) 0.088 and 14.3microg/g, respectively), shows strong induction of the rat afferent nerve discharge in a dose-dependent fashion (EC(50)=0.01microg/mL) which was completely abolished in the presence of tetrodotoxin suggesting the binding of Bs-Tx28 to the TTX-sensitive Na(+)-channel. Three-dimensional structural features of Bs-Tx28, established by homology modeling, were compared with other known classical alpha-mammal (AaH-II), alpha-insect (Lqh-alphaIT), and alpha-like (BmK-M4) toxins and revealed subtle variations in the Nt-, Core-, and RT-CT-domains (functional domains) which constitute a "necklace-like" structure differing significantly in all alpha-toxin subfamilies. On the other hand, a high level of conservation has been observed in the conserved hydrophobic surface with the only substitution of W43 (Y43/42) and an additional hydrophobic character at position F40 (L40/A/V/G39), as compared to the other mentioned alpha-toxins. Despite major differences within the primary structure and activities of Bs-Tx28, it shares a common structural and functional motif (e.g., transRT-farCT) within the RT-CT domain which is characteristic of scorpion alpha-mammal toxins.

Published

2006

4. Amino acid sequence and glycosylation of functional unit RtH2-e from Rapana thomasiana (gastropod) hemocyanin.

Author

Stoeva S, Idakieva K, Betzel C, Genov N, and Voelter W

Subjects

Amino Acid Sequence, Animals, Carbohydrates chemistry, Glycosylation, Hemocyanins metabolism, Molecular Sequence Data, Monosaccharides chemistry, Protein Subunits, Sequence Analysis, Protein, Sequence Homology, Amino Acid, Glycopeptides chemistry, Hemocyanins chemistry, Mollusca chemistry

Abstract

The complete amino acid sequence of Rapana thomasiana hemocyanin functional unit RtH2-e was determined by direct sequencing and matrix-assisted laser desorption ionization mass spectrometry of peptides obtained by cleavage with EndoLysC proteinase, chymotrypsin, and trypsin. The single-polypeptide chain of RtH2-e consists of 413 amino acid residues and contains two consensus sequences NXS/T (positions 11-19 and 127-129), potential sites for N-glycosylation. Monosaccharide analysis of RtH2-e revealed a carbohydrate content of about 1.1% and the presence of xylose, fucose, mannose, and N-acetylglucosamine, demonstrating that only N-linked carbohydrate chains of high-mannose type seem to be present. On basis of the monosaccharide composition and MALDI-MS analysis of native and PNGase-F-treated chymotryptic glycopeptide fragment of RtH2-e the oligosaccharide Man(5)GlcNAc(2), attached to Asn(127), is suggested. Multiple sequence alignments with other molluscan hemocyanin e functional units revealed an identity of 63% to the cephalopod Octopus dofleini and of 69% to the gastropod Haliotis tuberculata. The present results are discussed in view of the recently determined X-ray structure of the functional unit g of the O. dofleini hemocyanin.

Published

2002

5. Primary structure, isoforms, and molecular modeling of a chitin-binding mistletoe lectin.

Author

Stoeva S, Franz M, Wacker R, Krauspenhaar R, Guthöhrlein E, Mikhailov A, Betzel C, and Voelter W

Subjects

Amino Acid Sequence, Chromatography, High Pressure Liquid, Dimerization, Mistletoe genetics, Models, Molecular, Molecular Sequence Data, Protein Isoforms chemistry, Protein Isoforms genetics, Protein Isoforms isolation & purification, Protein Isoforms metabolism, Protein Structure, Quaternary, Ribosome Inactivating Proteins, Type 2, Sequence Homology, Amino Acid, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Toxins, Biological genetics, Toxins, Biological isolation & purification, Chitin metabolism, Mistletoe chemistry, Plant Preparations, Plant Proteins, Plants, Medicinal, Toxins, Biological chemistry, Toxins, Biological metabolism

Abstract

From mistletoe Viscum album L. extracts three chitin-binding lectin isoforms, cbML1, cbML2, and cbML3, were isolated and their primary structure determined. All three cbML isoforms are composed of two protein chains of 48 or 49 amino acid residues, linked by an intermolecular disulfide bond. The sequence of each single cbML chain is characterized by a relatively high number of cysteine and glycine residues, 9 and 6, respectively, and contains four intramolecular disulfide bridges. On the basis of the combined interpretation of sequencing and MALDI MS data, the following results for the three cbML isoforms were obtained: the first one consists of two identical truncated polypeptide chains (1--48), the second is a heterodimer, containing one truncated (1--48) and one full-length chain (1--49), and the third is composed of two full length chains (1--49). The cbML sequence shows 55% identity to hevein, a single-chain chitin-binding protein of 43 amino acids, one of the most predominant proteins in natural rubber latex. On the basis of the NMR data on hevein from Hevea brasiliensis the three-dimensional structure of cbML3 was modelled. The 26 sequence changes between cbML3 and hevein were accommodated with only little perturbation in the main chain folding. A comparison of the primary structures of cbML3 and hevein is shown and the effects of the sequence changes are discussed. Differences have been identified in the loop region of the molecule and the potential interface region of cbML3 supporting the dimer formation. The high-affinity chitin-binding site seems to be highly conserved., (Copyright 2001 Academic Press.)

Published

2001

6. Purification, characterization, and primary structure of four depressant insect-selective neurotoxin analogs from scorpion (Buthus sindicus) venom.

Author

Ali SA, Stoeva S, Grossmann JG, Abbasi A, and Voelter W

Subjects

Amino Acid Sequence, Animals, Insect Proteins, Models, Molecular, Molecular Sequence Data, Neurotoxins chemistry, Neurotoxins toxicity, Protein Conformation, Sequence Homology, Amino Acid, Neurotoxins isolation & purification, Scorpion Venoms analysis, Scorpions chemistry

Abstract

Four depressant insect-selective neurotoxin analogs (termed Bs-dprIT1 to 4) from the venom of the scorpion Buthus sindicus were purified to homogeneity in a single step using reverse-phase HPLC. The molecular masses of the purified toxins were 6820.9, 6892.4, 6714.7, and 6657.1 Da, respectively, as determined by mass spectrometry. These long-chain neurotoxins were potent against insects with half lethal dose values of 67, 81, 103, and 78 ng/100 mg larva and 138, 160, 163, and 142 ng/100 mg cockroach, respectively, but were not lethal to mice even at the highest applied dose of 10 microg/20 g mouse. When injected into blowfly larvae (Sarcophaga falculata), Bs-dprIT1 to 4 induced classical manifestations of depressant toxins, i.e., a slow depressant flaccid paralysis. The primary structures of Bs-dprIT 1 to 4 revealed high sequence homology (60-75%) with other depressant insect toxins isolated from scorpion venoms. Despite the high sequence conservation, Bs-dprIT1 to 4 showed some remarkable features such as (i) the presence of methionine (Met(6) in Bs-dprIT1 and Met(24) in Bs-dprIT2 to 4) and histidine (His(53) and His(57) in Bs-dprIT1) residues, i.e., amino acid residues that are uncommon to this type of toxin; (ii) the substitution of two highly conserved tryptophan residues (Trp43 --> Ala and Trp53 --> His) in the sequence of Bs-dprIT1; and (iii) the occurrence of more positively charged amino acid residues at the C-terminal end than in other depressant insect toxins. Multiple sequence alignment, sequence analysis, sequence-based structure prediction, and 3D homology modeling studies revealed a protein fold and secondary structural elements similar to those of other scorpion toxins affecting sodium channel activation. The electrostatic potential calculated on the surface of the predicted 3D model of Bs-dprIT1 revealed a significant positive patch in the region of the toxin that is supposed to bind to the sodium channel., (Copyright 2001 Academic Press.)

Published

2001

7. Differences in the specificities of the highly alkalophilic proteinases Savinase and Esperase imposed by changes in the rigidity and geometry of the substrate binding sites.

Author

Georgieva DN, Stoeva S, Voelter W, Genov N, and Betzel C

Subjects

Alkalies, Amino Acid Substitution physiology, Aniline Compounds chemistry, Bacillus, Binding Sites physiology, Catalysis, Computer Simulation, Endopeptidases, Insulin chemistry, Models, Molecular, Oxidation-Reduction, Peptides chemistry, Protein Subunits, Structure-Activity Relationship, Substrate Specificity physiology, Serine Endopeptidases chemistry

Abstract

Savinase and Esperase are closely related highly alkalophilic proteinases produced by Bacillus lentus. They are suitable couple for investigating the structural basis of proteinase specificity due to the identity of the catalytic and the differences in the substrate binding sites. Two of the substitutions in these sites are very important: T129P and G131P. The two prolines provide an extra rigidity of the Savinase-binding site. The substitutions S166N and Q191T in the S1 recognition loop change the binding geometry of the substrate P1 residue. The geometry of S1 in Esperase is more favorable for binding and catalysis in comparison to that in Savinase. Differences in P3 specificity are probably created by the substitution V104L, which influences the conformation of S3. Leu in position 104 is more favorable for the binding of Phe to S4 than Val. The lower affinity and catalytic efficiency as well as more narrow proteolytic specificity of Savinase in comparison to those of Esperase are explained with the extra rigidity and unfavorable changes in geometry of the substrate binding site of the first enzyme.

Published

2001

8. Isolation, structural, and functional characterization of an apoptosis-inducing L-amino acid oxidase from leaf-nosed viper (Eristocophis macmahoni) snake venom.

Author

Ali SA, Stoeva S, Abbasi A, Alam JM, Kayed R, Faigle M, Neumeister B, and Voelter W

Subjects

Amino Acid Oxidoreductases isolation & purification, Amino Acid Sequence, Animals, Cell Line, Cell Nucleus ultrastructure, Chromatography, High Pressure Liquid, DNA Fragmentation, Edema chemically induced, Hemolysis drug effects, Hemorrhage chemically induced, Humans, L-Amino Acid Oxidase, Mice, Molecular Sequence Data, Platelet Aggregation drug effects, Protein Structure, Secondary, Sequence Homology, Amino Acid, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Structure-Activity Relationship, Amino Acid Oxidoreductases chemistry, Amino Acid Oxidoreductases pharmacology, Apoptosis drug effects, Viper Venoms enzymology

Abstract

The enzyme L-amino acid oxidase (LAO) from the leaf-nosed viper (Eristocophis macmahoni) snake venom was purified to homogeneity in a single step using high performance liquid chromatography on a Nucleosil 7C18 reverse phase column. The molecular mass of the purified enzyme was 58734.0 Da, as determined by matrix-assisted laser desorption/ionization mass spectrometry. The N-terminal amino acid sequence (ADDKNPLEEAFREADYEVFLEIAKNGL) and the chemical composition of the purified LNV-LAO shows close structural homology with other L-amino acid oxidases isolated from different snake venoms. The secondary structural contents analysis of LAO, established by means of circular dichroism, revealed ca. 49% alpha-helix, 19% beta-sheet, 10% beta-turn, and 22% random coil structure. The purified LNV-LAO not only retained its specific enzymatic activity (73.46 U/mg), determined against L-leucine as a substrate, but also exhibited potent haemolytic (1-10 microg/ml), edema- (MED 4.8 microg/ml) and human platelet aggregation-inducing (ED50 33 microg/ml) properties. Unlike other haemorrhagic snake venom L-amino acid oxidases, the LNV-LAO does not produce haemorrhage. In addition to these local effects, the purified LNV-LAO showed apoptosis-inducing activity in the MM6 cell culture assay. After 18 h treatment with 25-100 microg/ml of LAO, the typical DNA fragmentation pattern of apoptotic cells was observed by means of fluorescent microscopy and agarose gel electrophoresis.

Published

2000

9. Hemocyanin subunit organization of the gastropod Rapana thomasiana.

Author

Gebauer W, Stoeva S, Voelter W, Dainese E, Salvato B, Beltramini M, and Markl J

Subjects

Amino Acid Sequence, Animals, Hemocyanins genetics, Hemocyanins isolation & purification, Immunochemistry, Immunoelectrophoresis, Two-Dimensional, Molecular Sequence Data, Mollusca genetics, Pancreatic Elastase, Peptide Fragments chemistry, Peptide Fragments genetics, Peptide Fragments isolation & purification, Protein Isoforms chemistry, Protein Isoforms genetics, Protein Isoforms isolation & purification, Protein Structure, Quaternary, Hemocyanins chemistry, Mollusca chemistry

Abstract

RtH1 and RtH2, the two hemocyanin isoforms of the prosobranch gastropod Rapana thomasiana, have been purified by anion-exchange chromatography and studied by SDS-PAGE and immunoelectrophoresis. Both subunit types are built up of eight functional units (FUs). Under reducing conditions subunit RtH2 splits into two fragments, RtH2-a-f and RtH2-gh, suggesting the presence of a disulfide bridge between FU2-f and FU2-g. By proteolytic cleavage of the subunits into three-, two-, and single-FU fragments, purification of fragments by HPLC, N-terminal sequencing of the peptides, and crossed-line immunoelectrophoresis, FUs-a-h of RtH2 and FU-a, FU-d, FU-e, and FU-f of RtH1 were identified and correlated to the eight-FUs pattern of immunoelectrophoresis. FU-a, FU-e, and FU-f of RtH1 and RtH2 are very closely related immunologically. RtH1 and RtH2 both correspond immunologically to KLH2, one of the two hemocyanin isoforms of the prosobranch gastropod Megathura crenulata., (Copyright 1999 Academic Press.)

Published

1999

10. Thymosin beta 4Xen: a new thymosin beta 4-like peptide in oocytes of Xenopus laevis.

Author

Hannappel E, Kalbacher H, and Voelter W

Subjects

Amino Acid Sequence, Amino Acids analysis, Animals, Chromatography, High Pressure Liquid, Female, Glycine analysis, Isoelectric Point, Molecular Sequence Data, Peptide Fragments analysis, Threonine analysis, Thymosin analysis, Tissue Distribution, Trypsin metabolism, Xenopus laevis, Oocytes analysis, Thymosin analogs & derivatives

Abstract

Two new thymosin beta 4-like peptides have been detected in ovaries of Xenopus laevis and Rana esculenta. Previously, it was reported that thymosin beta 4 can be found in various species, from mammals to amphibians, e.g., in X. laevis [S. Erickson-Viitanen, S. Ruggieri, P. Natalini, and B.L. Horecker (1983) Arch. Biochem. Biophys. 221, 570-576]. However, oocytes and spleen from R. esculenta contain no thymosin beta 4 but a similar peptide without methionine. The peptide from R. esculenta elutes from a reversed-phase column about 5 min later than thymosin beta 4. The peptide from X. laevis, referred to as thymosin beta 4Xen, can hardly be distinguished from thymosin beta 4 by its retention time on HPLC, by amino acid analysis, its isoelectric point, or tryptic fingerprinting. Amino acid analyses of the tryptic fragments, however, have revealed that thymosin beta 4 and beta 4Xen are different. The amino acid sequence of thymosin beta 4Xen is reported. Thymosin beta 4 and beta 4Xen differ in the amino acid residues at positions 15, 40, and 41. At position 15 serine is replaced by alanine and at 41-42 the sequence is Thr-Ser instead of Ala-Gly. Depending on their size, defolliculated oocytes contain between 2.7 and 52.6 ng thymosin beta 4Xen which is comparable to the amount of histones in oocytes.

Published

1988