Irene Bonacini scite author profile

Several studies have shown that heterogeneous agents are able to reduce required starting protein concentration and induction time for crystallization. However, in many cases, the molecular mechanism by which heterogeneous agents promote the nucleation is still unclear, although examples of epitaxial crystallization have been reported. Here, a set of focused crystallization trials, together with a review of the literature data, point out that the process of heterogeneous nucleation can be described by a nonclassical mechanism. We suppose that due to concentration fluctuations, unstable prenucleation aggregates homogeneously form in solution in conditions of low supersaturation, when the chemistry of solution favors this event. Then heterogeneous substrates stabilize prenucleation clusters by nonspecific interactions and trigger the nucleation event. This concept applied to proteins, but also to any colloidal system where the ordered assembly is governed by weak interactions, highlights the importance of the chemistry of the solution as a key parameter to achieve nucleation, even in the presence of heterogeneous nucleants.

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New Frontiers in Application of FTIR Microscopy for Characterization of Cultural Heritage Materials

Prati

Sciutto

Bonacini

et al. 2016

Top Curr Chem (Z)

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We present an overview of recent advances in the application of Fourier Transform Infrared (FTIR) microscopy for analysis of complex, multicomponent, and multilayer samples such as those typically encountered in the field of heritage materials. This technique is particularly useful since it allows identification and localization of both organic and inorganic (if IR active) compounds. New improvements have been possible thanks to the introduction of ad hoc sample preparation methods to obtain either thin or cross sections that allow both avoidance of contamination from organic embedding resin and improvement of the quality of the acquired spectra. Moreover, integrated use of spectra registered in the near-infrared (NIR) and mid-infrared (MIR) regions allows better comprehension of cross section composition. Data interpretation has been improved thanks to the development of chemometric methods for elaboration of hyperspectral data. A new and very promising field is the development of enhanced FTIR methods for detection of trace components in microextracts. These systems, allowing detection of extractable organic compounds from about 0.1 mg of sample, will be extremely useful in the future for analysis of natural and synthetic colorants, varnishes extracted, for instance, from cotton swabs used during cleaning of paintings, and organic residues on archeological remains.

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Analyses of trace amounts of dyes with a new enhanced sensitivity FTIR spectroscopic technique: MU-ATR (metal underlayer ATR spectroscopy)

Prati

Milošević²,

Sciutto

et al. 2016

Analytica Chimica Acta

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Skin lipid structure controls water permeability in snake molts

Torri¹,

Mangoni²,

Teta³

et al. 2014

Journal of Structural Biology

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FT-NIR microscopy: An advanced spectroscopic approach for the characterisation of paint cross-sections

Sciutto

Prati

Bonacini

et al. 2014

Microchemical Journal

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Irene Bonacini

Heterogeneous Crystallization of Proteins: Is it a Prenucleation Clusters Mediated Process?

New Frontiers in Application of FTIR Microscopy for Characterization of Cultural Heritage Materials

Analyses of trace amounts of dyes with a new enhanced sensitivity FTIR spectroscopic technique: MU-ATR (metal underlayer ATR spectroscopy)

Skin lipid structure controls water permeability in snake molts

FT-NIR microscopy: An advanced spectroscopic approach for the characterisation of paint cross-sections

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