Annalisa De Angelis scite author profile

A full label-free morphological and biochemical characterization is desirable to select spermatozoa during preparation for artificial insemination. In order to study these fundamental parameters, we take advantage of two attractive techniques: digital holography (DH) and Raman spectroscopy (RS). DH presents new opportunities for studying morphological aspect of cells and tissues non-invasively, quantitatively and without the need for staining or tagging, while RS is a very specific technique allowing the biochemical analysis of cellular components with a spatial resolution in the sub-micrometer range. In this paper, morphological and biochemical bovine sperm cell alterations were studied using these techniques. In addition, a complementary DH and RS study was performed to identify X- and Y-chromosome-bearing sperm cells. We demonstrate that the two techniques together are a powerful and highly efficient tool elucidating some important criterions for sperm morphological selection and sex-identification, overcoming many of the limitations associated with existing protocols.

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Simultaneous Holographic Microscopy and Raman Spectroscopy Monitoring of Human Spermatozoa Photodegradation

Ferrara

Angelis

Luca

et al. 2016

IEEE J. Select. Topics Quantum Electron.

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Effect of Polymer Chain Density on Protein–Polymer Conjugate Conformation

et al. 2019

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Many biomedical applications employ covalent attachment to synthetic polymers to enhance the efficiency of proteins or other therapeutically active molecules. We report here the impact of polymer conjugation on the structural and thermal stability of a protein model, the bovine serum albumin, using a variable number of linear biodegradable polyphosphoesters, which were covalently tethered to the protein. We observed that BSA’s secondary structure measured by circular dichroism is independent of the conjugation. Small-angle neutron scattering, however, reveals a change from ellipsoid to globular shape of the whole complex arising from a slight compaction of the protein core and an increase of the polymer’s radius of gyration as a function of the grafting polymer density. In particular, we highlight a gradual change of the polymer conformation around the protein and elongation of the semimajor dimension of the ellipsoidal protein. Our results will contribute to the description of biophysical characteristics of a new class of biologically relevant protein–polymer conjugates.

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