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

17-POS

Board 17

Hofmeister Anions Determine the Stability and Amyloid Self-Assembly of Lysozyme

Zuzana Gazova

1

, Slavomira Ponikova

1

, Andrea Antosova

1

, Erna Demjen

1

, Dagmar Sedlakova

1

,

Jozef Marek

1

, Rastislav Varhac

2

, Erik Sedlak

2,3

.

1

Institute of Experimental Physics, Slovak Academy of Sciences, Kosice, Slovakia,

2

P. J. Safarik

University, Kosice, Slovakia,

3

Centre for Interdisciplinary Biosciences, P. J. Safarik University,

Kosice, Slovakia.

Hofmeister series of ions ranks the relative influence of ions on physico-chemical behaviour of

biomacromolecules. We have explored an effect of various Hofmeister anions on stability and

amyloid self-assembly of hen egg white lysozyme in acidic pH. The kinetics of amyloid

fibrillization in the presence of anions suggest that neutralization of positive surface charge of

lysozyme due to interaction with anions accelerates lysozyme amyloid self-assembly. The

analysis of the conformational properties of formed fibrils has shown that lysozyme forms

typical elongated fibrils with high content of ß-sheet in presence of sodium chloride. On the

other hand, in the presence of both chaotropic perchlorate and kosmotropic sulfate anions the

fibrils form clusters with secondary structure of ß-turn. Moreover, the acceleration of fibril

formation is accompanied by decreased amount of the formed fibrils. Our study shows

Hofmeister effect of monovalent anions on: (i) lysozyme stability, (ii) ability to accelerate

nucleation phase of lysozyme fibrillization, (iii) amount, and (iv) conformational properties of

the formed fibrils.

This work was supported by research grants VEGA 1/0521/12, 2/0181/13, 2/0175/14, APVV

0526-11 and from CELIM (316310) funded by 7FP EU (REGPOT).