Your search keyword '"Staiano M"' showing total 3 results

1. Structural features of the glutamate-binding protein from Corynebacterium glutamicum

Author

Capo, A, Natalello, A, Marienhagen, J, Pennacchio, A, Camarca, A, Di Giovanni, S, Staiano, M, D'Auria, S, Varriale, A, Capo A., Natalello A., Marienhagen J., Pennacchio A., Camarca A., Di Giovanni S., Staiano M., D'Auria S., Varriale A., Capo, A, Natalello, A, Marienhagen, J, Pennacchio, A, Camarca, A, Di Giovanni, S, Staiano, M, D'Auria, S, Varriale, A, Capo A., Natalello A., Marienhagen J., Pennacchio A., Camarca A., Di Giovanni S., Staiano M., D'Auria S., and Varriale A.

Abstract

L-glutamate (Glu) is the major excitatory transmitter in mammalian brain. Inadequate concentration of Glu in the brain correlates to mood disorder. In industry, Glu is used as a flavour enhancer in food and in foodstuff processing. A high concentration of Glu has several effects on human health such as hypersensitive effects, headache and stomach pain. The presence of Glu in food can be detected by different analytical methods based on chromatography, or capillary electrophoresis or amperometric techniques. We have isolated and characterized a glutamate-binding protein (GluB) from the Gram-positive bacteria Corynebacterium glutamicum. Together with GluC protein, GluD protein and the cytoplasmic protein GluA, GluB permits the transport of Glu in/out of cell. In this study, we have investigated the binding features of GluB as well as the effect of temperature on its structure both in the absence and in the presence of Glu. The results have showed that GluB has a high affinity and selectivity versus Glu (nanomolar range) and the presence of the ligand induces a higher thermal stability of the protein structure.

Published

2020

2. A High Sensitivity Biosensor to detect the presence of perfluorinated compounds in environment

Author

Cennamo, N, Zeni, L, Tortora, P, Regonesi, M, Giusti, A, Staiano, M, D'Auria, S, Varriale, A, Regonesi, ME, Cennamo, N, Zeni, L, Tortora, P, Regonesi, M, Giusti, A, Staiano, M, D'Auria, S, Varriale, A, and Regonesi, ME

Abstract

A novel surface plasmon resonance (SPR) optical fiber biosensor, able to bind perfluorooctanoate and perfluorooctanesulfonate compounds, is presented. In the first step, an ad hoc antibody compound has been designed, produced and tested by ELISA, then, in the second step, the gold surface of a plastic optical fiber sensor has been derivatizated and functionalized with this new bio-receptor, able to bind target analytes with high affinity and selectivity. The experimental data have shown that the developed SPR optical fiber biosensor makes it possible to detect these compounds. One advantage of this approach stems from the possibility to monitor the perfluorinated compounds in the environment exploiting the remote sensing capability offered by the optical fibers. The measurements were performed in laboratory, also exploiting matrices mimicking the real environment. The limit of detection of the assay was 0.21 ppb, a value that is lower than the maximum residue limit fixed by the European Union regulations.

Published

2018

3. A High Sensitivity Biosensor to detect the presence of perfluorinated compounds in environment

Author

Cennamo, N, Zeni, L, Tortora, P, Regonesi, M, Giusti, A, Staiano, M, D'Auria, S, Varriale, A, Regonesi, ME, Cennamo, N, Zeni, L, Tortora, P, Regonesi, M, Giusti, A, Staiano, M, D'Auria, S, Varriale, A, and Regonesi, ME

Abstract

A novel surface plasmon resonance (SPR) optical fiber biosensor, able to bind perfluorooctanoate and perfluorooctanesulfonate compounds, is presented. In the first step, an ad hoc antibody compound has been designed, produced and tested by ELISA, then, in the second step, the gold surface of a plastic optical fiber sensor has been derivatizated and functionalized with this new bio-receptor, able to bind target analytes with high affinity and selectivity. The experimental data have shown that the developed SPR optical fiber biosensor makes it possible to detect these compounds. One advantage of this approach stems from the possibility to monitor the perfluorinated compounds in the environment exploiting the remote sensing capability offered by the optical fibers. The measurements were performed in laboratory, also exploiting matrices mimicking the real environment. The limit of detection of the assay was 0.21 ppb, a value that is lower than the maximum residue limit fixed by the European Union regulations.

Published

2018