Jana Klose scite author profile

Arginine- and tryptophan-rich motifs have been identified in antimicrobial peptides with various secondary structures. We synthesized a set of linear hexapeptides derived from the sequence AcRRWWRF-NH(2) by substitution of tryptophan (W) by tyrosine (Y) or naphthylalanine (Nal) and by replacement of arginine (R) by lysine (K) to investigate the role of cationic charge and aromatic residues in membrane activity and selectivity. A second set of corresponding head-to-tail cyclic analogues was prepared to analyze the role of conformational constraints. The biological activity of the linear peptides followed the order Nal- >> W- > Y-containing compounds and slightly decreased upon R-K substitution. A pronounced activity-improving and bacterial selectivity-enhancing effect was found upon cyclization of the R- and W-bearing parent peptide, whereas the activity-modifying effect of cyclization of Y- and Nal-containing peptides was low. The analysis of the driving forces of peptide interaction with model membranes showed that the activities correlated with the partition coefficients and the depths of peptide insertion into neutral and negatively charged lipid bilayers. Spectroscopic studies, RP-HPLC, and titration calorimetry implied that the combination of cationic and aromatic amino acid composition and conformational rigidity afforded a membrane-active, amphipathic structure with a highly charged face opposed by a cluster of aromatic side chains. However, threshold values of low and high hydrophobicity seemed to exist beyond which the activity-enhancing effect of cyclization was negligible. The results suggest that cyclization of small peptides of an appropriate amino acid composition may serve as a promising strategy in the design of antimicrobial peptides.

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Synthesis of Biologically Active Peptide Nucleic Acid−Peptide Conjugates by Sortase-Mediated Ligation

Pritz

et al. 2007

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Sortase A is a transpeptidase that cleaves at a pentapeptide-motif and subsequently transfers the acyl component to a nucleophile containing N-terminal oligoglycines. We investigate the reaction conditions of the sortase-mediated ligation and demonstrate a useful application by the synthesis of a peptide nucleic acid-cell-penetrating peptide chimera, the reaction equilibrium of which can be shifted in favor of the product by dialyzing out the low molecular weight byproduct. The synthesized conjugate exhibits dose-dependent antisense activity.

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Lipid‐induced filamentous growth in Ustilago maydis

Klose

Sá

Kronstad³

2004

Molecular Microbiology

105

103

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SummaryThe phytopathogenic fungus Ustilago maydis is obligately dependent on infection of maize to complete the sexual phase of its life cycle. Mating interactions between haploid, budding cells establish an infectious filamentous cell type that invades the host, induces large tumours and eventually forms large masses of black spores. The ability to switch from budding to filamentous growth is therefore critical for infection and completion of the life cycle, although the signals that influence the transition have not been identified from the host or the environment. We have found that growth in the presence of lipids promotes a filamentous phenotype that resembles the infectious cell type found in planta . In addition, the ability of the fungus to respond to lipids is dependent on both the cAMP signalling pathway and a Ras/MAPK pathway; these pathways are known to regulate mating, filamentous growth and pathogenesis in U. maydis . Overall, these results lead us to hypothesize that lipids may represent one of the signals that promote and maintain the filamentous growth of the fungus in the host environment.

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Jana Klose

Insights from the genome of the biotrophic fungal plant pathogen Ustilago maydis

Cyclization Increases the Antimicrobial Activity and Selectivity of Arginine- and Tryptophan-Containing Hexapeptides

Synthesis of Biologically Active Peptide Nucleic Acid−Peptide Conjugates by Sortase-Mediated Ligation

Lipid‐induced filamentous growth in Ustilago maydis

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