Bacterial motility and clustering guided by microcontact printing.
Holz C., Opitz D., Mehlich J., Ravoo B.J., Maier B.
Research article (journal) | Peer reviewedAbstract
Type IV pili are bacterial nanomotors that mediate two opposing behaviors on surfaces, spreading and clustering. Here we show that the velocity of motile Neisseria gonorrhoeae depends quantitatively on the fluidity of the phospholipid membrane surface. Using microcontact printing, we confined the surface motility to nonfluid islands within a fluid lipid membrane. On an array of islands, the transition from spreading to clustering was analyzed in real time and at the single cell level, showing that it was triggered by the number of bacteria (7.5 +/- 0.3) for small islands and by the surface density (56 +/- 2%) when the size of the island exceeded 25 microm(2).
Details about the publication
Journal: Nano Letters (Nano Lett.)
Volume: 9
Issue: 12
Page range: 4553-4557
Status: Published
Release year: 2009 (31/12/2009)
Language in which the publication is written: English
DOI: 10.1021/nl903153c
Authors from the University of Münster
| Holz, Claudia | Institute for Molecular Cell Biology |
| Maier, Berenike | Institute for Molecular Cell Biology |
| Mehlich, Jan | Organic Chemistry Institute |
| Opitz, Dirk | Institute for Molecular Cell Biology |
| Ravoo, Bart Jan | Professur für Synthese Nanoskaliger Systeme (Prof. Ravoo) |