TY  - GEN
A1  - Kunstmann, Ruth Sonja
A1  - Engström, Olof
A1  - Wehle, Marko
A1  - Widmalm, Göran
A1  - Santer, Mark
A1  - Barbirz, Stefanie
T1  - Increasing the affinity of an O-Antigen polysaccharide binding site in Shigella flexneri bacteriophage Sf6 tailspike protein
T2  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe
N2  - Broad and unspecific use of antibiotics accelerates spread of resistances. Sensitive and robust pathogen detection is thus important for a more targeted application. Bacteriophages contain a large repertoire of pathogen-binding proteins. These tailspike proteins (TSP) often bind surface glycans and represent a promising design platform for specific pathogen sensors. We analysed bacteriophage Sf6 TSP that recognizes the O-polysaccharide of dysentery-causing Shigella flexneri to develop variants with increased sensitivity for sensor applications. Ligand polyrhamnose backbone conformations were obtained from 2D H-1,H-1-trNOESY NMR utilizing methine-methine and methine-methyl correlations. They agreed well with conformations obtained from molecular dynamics (MD), validating the method for further predictions. In a set of mutants, MD predicted ligand flexibilities that were in good correlation with binding strength as confirmed on immobilized S. flexneri O-polysaccharide (PS) with surface plasmon resonance. In silico approaches combined with rapid screening on PS surfaces hence provide valuable strategies for TSP-based pathogen sensor design.
T3  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 1417 
KW  - carbohydrates
KW  - molecular dynamics simulations
KW  - NMR spectroscopy
KW  - protein-carbohydrate interactions
KW  - surface plasmon resonance
Y1  - 2020
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-519418
SN  - 1866-8372
IS  - 32
ER  - 
TY  - JOUR
A1  - Kunstmann, Ruth Sonja
A1  - Engström, Olof
A1  - Wehle, Marko
A1  - Widmalm, Göran
A1  - Santer, Mark
A1  - Barbirz, Stefanie
T1  - Increasing the affinity of an O-Antigen polysaccharide binding site in Shigella flexneri bacteriophage Sf6 tailspike protein
JF  - Chemistry – A European Journal
N2  - Broad and unspecific use of antibiotics accelerates spread of resistances. Sensitive and robust pathogen detection is thus important for a more targeted application. Bacteriophages contain a large repertoire of pathogen-binding proteins. These tailspike proteins (TSP) often bind surface glycans and represent a promising design platform for specific pathogen sensors. We analysed bacteriophage Sf6 TSP that recognizes the O-polysaccharide of dysentery-causing Shigella flexneri to develop variants with increased sensitivity for sensor applications. Ligand polyrhamnose backbone conformations were obtained from 2D H-1,H-1-trNOESY NMR utilizing methine-methine and methine-methyl correlations. They agreed well with conformations obtained from molecular dynamics (MD), validating the method for further predictions. In a set of mutants, MD predicted ligand flexibilities that were in good correlation with binding strength as confirmed on immobilized S. flexneri O-polysaccharide (PS) with surface plasmon resonance. In silico approaches combined with rapid screening on PS surfaces hence provide valuable strategies for TSP-based pathogen sensor design.
KW  - carbohydrates
KW  - molecular dynamics simulations
KW  - NMR spectroscopy
KW  - protein-carbohydrate interactions
KW  - surface plasmon resonance
Y1  - 2020
U6  - https://doi.org/10.1002/chem.202000495
SN  - 0947-6539
SN  - 1521-3765
VL  - 26
IS  - 32
SP  - 7263
EP  - 7273
PB  - Wiley-VCH
CY  - Weinheim
ER  - 
TY  - JOUR
A1  - Schimka, Selina
A1  - Santer, Svetlana
A1  - Mujkic-Ninnemann, Nina M.
A1  - Bleger, David
A1  - Hartmann, Laura
A1  - Wehle, Marko
A1  - Lipowsky, Reinhard
A1  - Santer, Mark
T1  - Photosensitive Peptidomimetic for Light-Controlled, Reversible DNA Compaction
JF  - Biomacromolecules : an interdisciplinary journal focused at the interface of polymer science and the biological sciences
N2  - Light-induced DNA compaction as part of nonviral gene delivery was investigated intensively in the past years, although the bridging between the artificial light switchable compacting.agents and biodompatible light insensitive compacting agents was not achieved until now. In this paper, we report on light-induced compaction and decompaction of DNA molecules in the presence of a new typeof agent, a multivalent cationic peptidomimetic molecule containing a photosensitive Azo-group as a branch (Azo-PM). Az-o-PM is synthesized using a solid-phase procedure during Which anrazoberizene unit is attached as a side chain to an Oligo(arnidoamine) backbone. We shoW, that within a-certain Tange,of concentrations and under illumination with light of appropriate-wavelengths, these cationic Molecules induce reversible DNA compaction/decompaction by photo-isomerization of the incorporated azobenzene unit between a hydrophobic trans- and 4 hydrophilic cis-conformation, as characterized by dynamic light scattering and AFM measurements. In contrast to other molecular Species used for invasive DNA compaction, such as-widely used azobenzene containing cationic surfactant (Azo-TAR, C-4-Azo-OCX-TMAB), the presented peptidomimetic agent appears to lead to different compleication/compaction mechanisms., An investigation of Ato-PM in close proximity to a DNA segment by means of a molecular dynamics simulation sustains a picture in which Azo-PM acts as a multivalent counterion, with its rather large cationic oligo(amidoamine) backbone dominating the interaction with the double helix, fine-tuned or assisted by the presence" andisomerization state of the Azo-moiety. However, due to its peptidomimetic backbone, Azo-PM should be far less toxic than photosensitive surfactants and might represent a starting point for a conscious design of photoswitchable, biocompatible vectors for gene delivery.
Y1  - 2016
U6  - https://doi.org/10.1021/acs.biomac.6b00052
SN  - 1525-7797
SN  - 1526-4602
VL  - 17
SP  - 1959
EP  - 1968
PB  - American Chemical Society
CY  - Washington
ER  - 
TY  - THES
A1  - Wehle, Marko
T1  - Entwicklung und Untersuchung eines Atomatischen Modells des Glykoseylphosphatidylinostol-Ankers
Y1  - 2012
CY  - Potsdam
ER  -