Sandra S. Flores scite author profile

We have developed a simple, robust, and fully transversal approach for the a-la-carte fabrication of functional multimeric nanoparticles with potential biomedical applications, validated here by a set of diverse and unrelated polypeptides. The proposed concept is based on the controlled coordination between Zn 2+ ions and His residues in His-tagged proteins. This approach results in a spontaneous and reproducible protein assembly as nanoscale oligomers that keep the original functionalities of the protein building blocks. The assembly of these materials is not linked to particular polypeptide features, and it is based on an environmentally friendly and sustainable approach. The resulting nanoparticles, with dimensions ranging between 10 and 15 nm, are regular in size, are architecturally stable, are fully functional, and serve as intermediates in a more complex assembly process, resulting in the formation of microscale protein materials. Since most of the recombinant proteins produced by biochemical and biotechnological industries and intended for biomedical research are His-tagged, the green biofabrication procedure proposed here can be straightforwardly applied to a huge spectrum of protein species for their conversion into their respective nanostructured formats.

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Superactive β-galactosidase inclusion bodies

Flores

Nolan

Perillo

et al. 2019

Colloids and Surfaces B: Biointerfaces

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His-tag β-galactosidase supramolecular performance

Flores

Clop

Barra

et al. 2022

Biophysical Chemistry

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Advantages and Disadvantages of His-Tagged Beta-Galactosidase

Flores

Clop

Barra

et al. 2020

Preprint

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β-Galactosidase is one of the most important biotechnological enzyme used in the dairy industry, pharmacology and in molecular biology. In our laboratory we have overexpressed a recombinant β-galactosidase in Escherichia coli (E. coli). This enzyme differs from its native version (β-GalWT) in that 6 histidine residues have been added to the carboxyl terminus in the primary sequence (β-GalHis), which allows its purification by immobilized metal affinity chromatography (IMAC). In this work we compared the functionality and structure of both proteins and evaluated their catalytic behavior on the kinetics of lactose hydrolysis. We observed a significant reduction in the enzymatic activity of β-GalHis with respect to β-GalWT. Although, both enzymes showed a similar catalytic profile as a function of temperature, β-GalHis presented a higher resistance to the thermal inactivation and evidenced greater half-life time compared to β-GalWT. At room temperature, β-GalHis showed a fluorescence spectrum compatible with a partially unstructured protein however, it exhibited a lower tendency to the thermal-induced unfolding with respect to β-GalWT. Analytical ultracentrifugation experiments demonstrated that the population of β-GalHis molecules exhibited a higher proportion of monomers and a lower proportion of tetrameric species with respect to the His-tag free protein. The impairment of tetramerization may would explain the negative effect of the presence of His-tag on the enzymatic activity. In addition, the present results, analyzed in the context of the available literature, suggest that the effect of the His-tag is protein-specific.

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Sandra S. Flores

Biofabrication of functional protein nanoparticles through simple His-tag engineering

Superactive β-galactosidase inclusion bodies

His-tag β-galactosidase supramolecular performance

Advantages and Disadvantages of His-Tagged Beta-Galactosidase

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