Engineering l-asparaginase for spontaneous formation of calcium phosphate bioinspired microreactors

Alexandra Louka; Irina Matlahov; Stefano Giuntini; Linda Cerofolini; Andrea Cavallo; Serena Pillozzi; Enrico Ravera; Marco Fragai; Annarosa Arcangeli; Ayyalusamy Ramamoorthy; Gil Goobes; Claudio Luchinat

doi:https://doi.org/10.1039/c8cp00419f

Engineering l-asparaginase for spontaneous formation of calcium phosphate bioinspired microreactors

Alexandra Louka, Irina Matlahov, Stefano Giuntini, Linda Cerofolini, Andrea Cavallo, Serena Pillozzi, Enrico Ravera, Marco Fragai, Annarosa Arcangeli, Ayyalusamy Ramamoorthy, Gil Goobes, Claudio Luchinat

Department of Chemistry

Bar-Ilan University

Research output: Contribution to journal › Article › peer-review

Abstract

Active bioinspired materials are appealing biotechnological targets, and their study is gaining momentum. These materials, which comprise of an inorganic matrix and one or more biomolecules, are extremely variable and therefore may result difficult to characterize in their intimate structure. In this work we have prepared a hydroxyapatite-l-asparaginase composite, with the perspective of using it in acute leukemia treatment. We demonstrate that the use of electron microscopy and powder X-ray diffraction, combined with the atomic-resolution information coming from solid-state NMR, allows us to understand the topology of the material and how the different components interplay to obtain an active composite.

Original language	English
Pages (from-to)	12719-12726
Number of pages	8
Journal	Physical Chemistry Chemical Physics
Volume	20
Issue number	18
DOIs	https://doi.org/10.1039/c8cp00419f
State	Published - 9 May 2018

All Science Journal Classification (ASJC) codes

General Physics and Astronomy
Physical and Theoretical Chemistry

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https://doi.org/10.1039/c8cp00419f

Cite this

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title = "Engineering l-asparaginase for spontaneous formation of calcium phosphate bioinspired microreactors",

abstract = "Active bioinspired materials are appealing biotechnological targets, and their study is gaining momentum. These materials, which comprise of an inorganic matrix and one or more biomolecules, are extremely variable and therefore may result difficult to characterize in their intimate structure. In this work we have prepared a hydroxyapatite-l-asparaginase composite, with the perspective of using it in acute leukemia treatment. We demonstrate that the use of electron microscopy and powder X-ray diffraction, combined with the atomic-resolution information coming from solid-state NMR, allows us to understand the topology of the material and how the different components interplay to obtain an active composite.",

author = "Alexandra Louka and Irina Matlahov and Stefano Giuntini and Linda Cerofolini and Andrea Cavallo and Serena Pillozzi and Enrico Ravera and Marco Fragai and Annarosa Arcangeli and Ayyalusamy Ramamoorthy and Gil Goobes and Claudio Luchinat",

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AU - Louka, Alexandra

AU - Matlahov, Irina

AU - Giuntini, Stefano

AU - Cerofolini, Linda

AU - Cavallo, Andrea

AU - Pillozzi, Serena

AU - Ravera, Enrico

AU - Fragai, Marco

AU - Arcangeli, Annarosa

AU - Ramamoorthy, Ayyalusamy

AU - Goobes, Gil

AU - Luchinat, Claudio

PY - 2018/5/9

Y1 - 2018/5/9

N2 - Active bioinspired materials are appealing biotechnological targets, and their study is gaining momentum. These materials, which comprise of an inorganic matrix and one or more biomolecules, are extremely variable and therefore may result difficult to characterize in their intimate structure. In this work we have prepared a hydroxyapatite-l-asparaginase composite, with the perspective of using it in acute leukemia treatment. We demonstrate that the use of electron microscopy and powder X-ray diffraction, combined with the atomic-resolution information coming from solid-state NMR, allows us to understand the topology of the material and how the different components interplay to obtain an active composite.

AB - Active bioinspired materials are appealing biotechnological targets, and their study is gaining momentum. These materials, which comprise of an inorganic matrix and one or more biomolecules, are extremely variable and therefore may result difficult to characterize in their intimate structure. In this work we have prepared a hydroxyapatite-l-asparaginase composite, with the perspective of using it in acute leukemia treatment. We demonstrate that the use of electron microscopy and powder X-ray diffraction, combined with the atomic-resolution information coming from solid-state NMR, allows us to understand the topology of the material and how the different components interplay to obtain an active composite.

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JO - Physical Chemistry Chemical Physics

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Engineering l-asparaginase for spontaneous formation of calcium phosphate bioinspired microreactors

Abstract

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