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Polymers and Self Assembly: From Biology to Nanomaterials Poster Session I

30-POS

Board 30

Phalloidin Binds to MREB from Leptospira Interrogans

Szilvia Barko

1,2

, Emoke Bodis

1,2

, David Szatmari

1

, Robert C. Robinson

3,4

,

Miklos Nyitrai

1,2,5

.

1

University of Pecs, Medical School, Pecs, Hungary,

2

János Szentágothai Research Center, Pecs,

Hungary,

3

Institute of Molecular and Cell Biology, A*STAR, Singapore, Singapore,

4

Yong Loo

Lin School of Medicine, National University of Singapore, Singapore, Singapore,

5

MTA-PTE

Nuclear-Mitochondrial Interactions Research Group, Pecs, Hungary.

MreB is a bacterial actin-like protein, which is a key player in the maintenance of cell shape and

essential coordinator of the cell-wall synthesis. Although its sequence identity is low in

comparison to eukaryotic actin, crystallography studies have shown that MreB and actin share a

similar three-dimensional structure with conserved nucleotide-binding elements. The exact

distribution of MreB in a bacterial cell remains uncertain due to potential mislocalization of the

fluorescently tagged protein. Biochemical analyses have been confined mostly to T. maritima,

B.subtilis, and E.coli MreBs, although the sequences and functions of MreBs can vary

dramatically within a single species. One possible explanation for the limited number of

described MreBs is the complicated purification of soluble functional protein. In our work we

have purified and characterised MreB from Leptospira interrogans using denaturing purification

protocol, which solved the previously mentioned problems in preparation. This MreB may carry

novel structural and biochemical properties attributed to the special corkscrew shaped cell-type

of Spirochetes. Here we show that MreB of L. interrogans is able to polymerise in vitro with

association rates that depend on ionic strength and buffer conditions rather than the presence of

nucleotides. Its cysteines can be labelled with Alexa 488 maleimide and the fluorescence

intensity of the fluorophore changes during polymerisation. Surprisingly, it was found that L.

interrogans MreB can be labelled also with fluorophore conjugated phalloidin. So far phalloidin

binding has only been reported for actin. The observed MreB polymers are indistinguishable

from that labelled with Alexa maleimide. Binding of phalloidin did not alter the biochemical

properties of MreB. We envisage that the phalloidin staining of Leptospira interrogans MreB will

provide a powerful experimental tool for the in vivo characterisation of the localisation and

function of this important actin-like protein.