Your search keyword '"P. Schwertler"' showing total 7 results

1. Potential of platinum-resensitization by Wnt signaling modulators as treatment approach for epithelial ovarian cancer

Author

Kaltofen, Till, Preinfalk, Valentina, Schwertler, Stephanie, Fraungruber, Patricia, Heidegger, Helene, Vilsmaier, Theresa, Vattai, Aurelia, Czogalla, Bastian, Mayr, Doris, Mahner, Sven, Jeschke, Udo, and Trillsch, Fabian

Published

2020

2. Molecular Dynamics of DNA–Protein Conjugates on Electrified Surfaces: Solutions to the Drift-Diffusion Equation

Author

Andreas Langer, Ulrich Rant, Wolfgang Kaiser, M. Svejda, and P. Schwertler

Subjects

Diffusion equation, Surface Properties, Entropy, Static Electricity, Nanotechnology, Molecular Dynamics Simulation, Diffusion, Molecular dynamics, Electricity, Electric field, Monolayer, Materials Chemistry, Molecule, Physical and Theoretical Chemistry, chemistry.chemical_classification, Quantitative Biology::Biomolecules, Oligonucleotide, Biomolecule, Proteins, DNA, Surfaces, Coatings and Films, Models, Chemical, chemistry, Drag, Chemical physics, Microelectrodes

Abstract

Self-assembled monolayers of charged polymers are an integral component of many state-of-the-art nanobiosensors. Electrical interactions between charged surfaces and charged biomolecules, adopting the roles of linkers or capture molecules, are not only crucial to the sensor performance but may also be exploited for novel sensing concepts based on electrically actuated interfaces. Here we introduce an analytical model describing the behavior of double-stranded DNA and proteins tethered to externally biased microelectrodes. Continuum electrostatic Poisson-Boltzmann models and the drift-diffusion (Smoluchowski) equation are used to calculate the steady state as well as the dynamic behavior of oligonucleotide rods in DC and AC electric fields. The model predicts the oligonucleotide orientation on the surface and calculates how the increased hydrodynamic drag caused by a protein bound to the DNA's distal end affects the molecular dynamics of the DNA-protein complex. The results of the model are compared to experiments with electrically switchable DNA layers, and very good agreement between theory and experiment is found. The hydrodynamic diameter of the bound protein can be analyzed from experimental data of the slowed motion of the DNA-protein conjugate with angstrom precision.

Published

2014

3. Antibody response to feline panleukopenia virus vaccination in cats with asymptomatic retrovirus infections: a pilot study.

Author

Bergmann, Michèle, Schwertler, Stephanie, Speck, Stephanie, Truyen, Uwe, and Hartmann, Katrin

Abstract

Objectives: Currently, there are only a few studies on how immunocompromised cats, such as cats infected with feline leukaemia virus (FeLV) and feline immunodeficiency virus (FIV), respond to vaccination. Therefore, this study measured feline panleukopenia virus (FPV) antibodies in retrovirus-infected cats within a period of 28 days after FPV vaccination, and compared the immune response to that of non-infected cats. Methods: Eight asymptomatic retrovirus-infected cats (four FeLV, four FIV), and non-infected age-matched control cats (n = 67) were vaccinated with a commercial FPV modified live virus (MLV). Pre- and post-vaccination antibody titres were measured by haemagglutination inhibition (HI) on days 0, 7 and 28. An HI titre ⩾1:40 was defined as protective. An adequate response to vaccination was defined as a four-fold titre increase or higher. Comparison of the immune response of retrovirus-infected and non-infected cats was performed. Results: Pre-vaccination FPV antibody titres ⩾1:40 were present in 100% (n = 8/8; 95% confidence interval [CI] 62.8–100) of retrovirus-infected and in 77.6% (n = 52/67; 95% CI 66.2–86.0) of non-infected cats. An adequate response to vaccination (titre increase ⩾four-fold) was seen in 1/8 retrovirus-infected cats (12.5%; 95% CI 0.1–49.2) compared with 22/67 non-infected cats (32.8%; 95% CI 22.8–44.8). In cats with high pre-vaccination titres (⩾1:160), a four-fold titre increase or higher was observed in 1/8 retrovirus infected cats (12.5%; 95% CI 0.1–49.2) compared with 4/42 non-infected cats (9.5%; 95% CI 3.2–22.6). None of the eight retrovirus-infected cats developed illness or vaccination side effects after vaccination with MLV against FPV within the 28 days. There were no significant differences between groups: for pre-vaccination titres; for at least four-fold titre increases following vaccination in either all cats or the cats with high pre-vaccination titres; and concerning adverse effects. Conclusions and relevance: All retrovirus-infected asymptomatic cats had pre-vaccination FPV antibodies indicating protection against panleukopenia. Response of retrovirus-infected cats to vaccination was similar to the response of non-infected cats. [ABSTRACT FROM AUTHOR]

Published

2019

4. Antibody response to feline panleukopenia virus vaccination in healthy adult cats.

Author

Bergmann, Michèle, Schwertler, Stephanie, Reese, Sven, Speck, Stephanie, Truyen, Uwe, and Hartmann, Katrin

Abstract

Objectives According to prior studies, between 25.0% and 92.8% of adult cats have antibodies against feline panleukopenia virus (FPV) and thus are likely protected against FPV infection. It is, however, unknown how healthy adult cats with different antibody titres react to FPV vaccination in the field. Therefore, the aim of the study was to measure antibody titres in healthy adult cats within a period of 28 days after vaccination against FPV and to evaluate factors that are associated with a lack of adequate response to vaccination. Methods One hundred and twelve healthy adult cats were vaccinated with a vaccine against FPV, feline herpesvirus and feline calicivirus. Antibodies against FPV were determined before vaccination (day 0), on day 7 and day 28 after vaccination by haemagglutination inhibition (HI). A HI titre ⩾1:40 was defined as protective. An adequate response to vaccination was defined as a four-fold titre increase. Uni- and multivariate statistical analysis was used to determine factors associated with an adequate response. Results Pre-vaccination antibody titres of ⩾1:40 were present in 64.3% (72/112; 95% confidence interval [CI] 55.1–72.6). Only 47.3% (53/112; 95% CI 37.8–57.0) of cats had an adequate response to vaccination. Factors associated with an adequate response to vaccination were lack of previous vaccination (odds ratio [OR] 15.58; 95% CI 1.4–179.1; P = 0.035), lack of antibodies (⩾1:40) prior to vaccination (OR 23.10; 95% CI 5.4–98.8; P <0.001) and breed (domestic shorthair cats; OR 7.40; 95% CI 1.4–38.4; P = 0.017). Conclusions and relevance As none of the cats with high pre-vaccination antibody titres (⩾1:160) had an at least four-fold increase in FPV antibody titres, measurement of antibodies rather than regular revaccinations should be performed. Thus, evaluation of FPV antibody titre in cats with previous vaccinations against FPV are recommended prior to revaccination. [ABSTRACT FROM AUTHOR]

Published

2018

5. MolecularDynamics of DNA–Protein Conjugateson Electrified Surfaces: Solutions to the Drift-Diffusion Equation.

Author

Langer, A., Kaiser, W., Svejda, M., Schwertler, P., and Rant, U.

Published

2014

6. Faecal shedding of parvovirus deoxyribonucleic acid following modified live feline panleucopenia virus vaccination in healthy cats

Author

Bergmann, Michèle, Schwertler, Stephanie, Speck, Stephanie, Truyen, Uwe, Reese, Sven, and Hartmann, Katrin

Abstract

Positive canine parvovirus (CPV) faecal test results have been reported in dogs after modified live virus (MLV) vaccination. Thus, the aim was to investigate feline panleucopenia virus (FPV) shedding in recently vaccinated, adult, clinically healthy cats and to assess related factors. Forty cats were vaccinated with an FPV MLV vaccine. Faeces of cats were tested for presence of parvovirus DNA on days 7, 14, 21 and 28 by quantitative real‐time PCR; DNA‐positive samples were subjected to partial VP2 gene sequencing. Virus isolation was performed whenever sufficient amounts of faeces were available. Serum antibody titres were measured by haemagglutination inhibition on days 0, 7 and 28. Overall, 30.0 per cent (12/40; 95% CI 18.0 to 45.6) of cats shed parvovirus DNA. Sequencing revealed FPV vaccine virus DNA in three cats, FPV field virus DNA in four cats and CPV field virus DNA in one cat. Shedding was significantly associated with lack of prevaccination antibody titres (40) (P=0.016; OR: 6.44; 95% CI 1.44 to 28.89) and with postvaccination titre increases (fourfold) (P=0.029; OR: 5.00; 95% CI 1.17 to 21.39). Shedding of field or vaccine virus DNA seems to be common in healthy cats which can be a concern in shelters and catteries. Diagnostic tools should be developed to facilitate differentiation of vaccine and field virus shedding.

Published

2019

7. Molecular dynamics of DNA-protein conjugates on electrified surfaces: solutions to the drift-diffusion equation.

Author

Langer A, Kaiser W, Svejda M, Schwertler P, and Rant U

Subjects

DNA metabolism, Diffusion, Electricity, Entropy, Microelectrodes, Models, Chemical, Proteins metabolism, Static Electricity, Surface Properties, DNA chemistry, Molecular Dynamics Simulation, Proteins chemistry

Abstract

Self-assembled monolayers of charged polymers are an integral component of many state-of-the-art nanobiosensors. Electrical interactions between charged surfaces and charged biomolecules, adopting the roles of linkers or capture molecules, are not only crucial to the sensor performance but may also be exploited for novel sensing concepts based on electrically actuated interfaces. Here we introduce an analytical model describing the behavior of double-stranded DNA and proteins tethered to externally biased microelectrodes. Continuum electrostatic Poisson-Boltzmann models and the drift-diffusion (Smoluchowski) equation are used to calculate the steady state as well as the dynamic behavior of oligonucleotide rods in DC and AC electric fields. The model predicts the oligonucleotide orientation on the surface and calculates how the increased hydrodynamic drag caused by a protein bound to the DNA's distal end affects the molecular dynamics of the DNA-protein complex. The results of the model are compared to experiments with electrically switchable DNA layers, and very good agreement between theory and experiment is found. The hydrodynamic diameter of the bound protein can be analyzed from experimental data of the slowed motion of the DNA-protein conjugate with angstrom precision.

Published

2014