INVESTIGADORES
NOLAN Maria Veronica
congresos y reuniones científicas
Título:
SOLUBLE LIKE STRUCTURE-FUNCTION OF beta;-GAL DESORBED FROM INCLUSION BODIES
Autor/es:
FLORES, SANDRA; NOLAN, MARÍA VERÓNICA; PERILLO, MARÍA ANGÉLICA; JULIETA MARÍA SÁNCHEZ
Lugar:
Buenos Aires
Reunión:
Congreso; Reunion Conjunta de Sociedades de Biociencias 2017; 2017
Institución organizadora:
Sociedad Argentina de Biofisica
Resumen:
Bacterial inclusión bodies (IBs) are mesoscopic protein aggregates commonly observed in transformedbacteria, primarily formed by recombinant proteins.Historically, IBs have been considered a hurdle for the production of soluble protein species, and many genetic and process-based strategies have been developed to minimize their formation.However, recent research has described the use of IBs as functional materials usefull as reusable catalysts, drug delivery systems, and functional topographies in tissue engineering [1]. We have proved that β-galactosidase(β-Gal) IBs (IBsβ-Gal) can befound in an amyloidal form which holds in non-amyloidal functional proteins with some particular stability properties. Also, we havedemostrated that β-Galdesorbesspontenously from IBs in low osmotic pressure media (achieve by successive dilutions). In this work we study the structure/function relationship of the desorbed β-Gal (β-GalD). By means of intrinsic fluorescence, infrared spectroscopy (IR) and enzymatic activity experiments we have got evidence that β-GalD retains the structural/functional properties of the soluble protein. Furthermore, by means of IR and DLS experimentsin real time, we have foundthat while β-GalDis spontaneously released from the aggregates a reorganization of IBs occurs.This results demonstrate that the IBsisolation and the concomitant dilution steps of this sample is a simple and a propermethodology to obtain active protein.Hence, the nature of the recombinant protein and the conditions for IBs formation and isolation determine the success of the desorption of the protein in a soluble-like conformation.1.Rinas, U., et al., Bacterial Inclusion Bodies: Discovering Their Better Half.Trends in BiochemicalSciences, 2017.