Seminars Archive

Laura Spagnolo

Abstract


Tuesday, September 11, 2001, 14:00
Seminar Room, ground floor, Building "T"
Sincrotrone Trieste, Basovizza
Stabilizing SH3 hydrophobic core mutants



Laura Spagnolo
(Structural Biology and Biocomputing Programme, EMBL-Heidelberg, Germany) ABSTRACT To understand protein evolution we need to know what are the structural constraints, if any, that could prevent a particular sequence to explore all the available sequence space compatible with a particular fold and function. To find if this is the case, we used an automatic protein design algorithm, Perla, to jump over barriers and explore core sequences not found in nature. We have found that divergent core sequences not explored by nature are compatible with the integrity and functionality of the _-spectrin SH3 domain. Since several of the designed core mutants were partly folded, a stabilizing point mutation was made on them to increase their stability, in order to study their structure, their folding properties and the tendency that these mutants have towards amyloid fiber formation. We mutated D48G in the type IIí _-turn of the SH3 distal loop. This mutation stabilizes significantly the protein through a local conformational change of the turn. The stabilized core mutants show very peculiar features. All of them fold much faster than the core mutants without this stabilizing mutation. For some of them, it was possible to determine the presence of a folding intermediate; in several cases, fiber formation occurred; a group of mutants shows properties which are typical of molten globules.