Studies on the membrane interactions of the cyclotides kalata B1 and kalata B6 on model membrane systems by surface plasmon resonance
Copyright policy )Studies on the membrane interactions of the cyclotides kalata B1 and kalata B6 on model membrane systems by surface plasmon resonance
In this study we have demonstrated the interactions of kalata B1 and its naturally occurring analogue kalata B6 with five model lipid membranes and have analyzed the binding kinetics using surface plasmon resonance. Two kalata peptides showed a higher affinity for the phosphatidylethanolamine-containing membranes, indicating that the peptides would bind selectively to bacterial membranes. Also we have optimized the procedure for the immobilization of five liposome mixtures and have shown that the procedure provides reproducible levels of immobilized liposomes and could be used to screen the selective binding of putative antimicrobial peptides to model mammalian or microbial phospholipid membranes.
- University of Queensland Australia
- University of Queensland Australia
- Monash University Australia
- University of Queensland Australia
- Monash University, Clayton campus Australia
Biochemistry & Molecular Biology, 250302 Biological and Medical Chemistry, Plant Cyclotides, Cyclotides, kalata B1 and B6, Biochemical Research Methods, C1, Phospholipids, 780105 Biological sciences, Structural Motif, Phosphatidylethanolamines, Chemistry, Analytical, Proteins, Membranes, Artificial, Analytical, Binding, Surface Plasmon Resonance, 540, Chemistry, Kinetics, Liposomes, Cyclic Cystine Knot, lipid membrane, surface plasmon resonance, Antimicrobial Peptides
Biochemistry & Molecular Biology, 250302 Biological and Medical Chemistry, Plant Cyclotides, Cyclotides, kalata B1 and B6, Biochemical Research Methods, C1, Phospholipids, 780105 Biological sciences, Structural Motif, Phosphatidylethanolamines, Chemistry, Analytical, Proteins, Membranes, Artificial, Analytical, Binding, Surface Plasmon Resonance, 540, Chemistry, Kinetics, Liposomes, Cyclic Cystine Knot, lipid membrane, surface plasmon resonance, Antimicrobial Peptides
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