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1. Conformational equilibria in monomeric alpha-synuclein at the single molecule level

Author

Sandal, Massimo, Valle, Francesco, Tessari, Isabella, Mammi, Stefano, Bergantino, Elisabetta, Musiani, Francesco, Brucale, Marco, Bubacco, Luigi, and Samori', Bruno

Subjects
Quantitative Biology - Biomolecules, Physics - Biological Physics, Quantitative Biology - Subcellular Processes
Abstract

Natively unstructured proteins defy the classical "one sequence-one structure" paradigm of protein science. Monomers of these proteins in pathological conditions can aggregate in the cell, a process that underlies socially relevant neurodegenerative diseases such as Alzheimer and Parkinson. A full comprehension of the formation and structure of the so-called misfolded intermediates from which the aggregated states ensue is still lacking. We characterized the folding and the conformational diversity of alpha-synuclein (aSyn), a natively unstructured protein involved in Parkinson disease, by mechanically stretching single molecules of this protein and recording their mechanical properties. These experiments permitted us to directly observe directly and quantify three main classes of conformations that, under in vitro physiological conditions, exist simultaneously in the aSyn sample, including disordered and "beta-like" structures. We found that this class of "beta-like" structures is directly related to aSyn aggregation. In fact, their relative abundance increases drastically in three different conditions known to promote the formation of aSyn fibrils: the presence of Cu2+, the occurrence of the pathogenic A30P mutation, and high ionic strength. We expect that a critical concentration of aSyn with a "beta-like" structure must be reached to trigger fibril formation. This critical concentration is therefore controlled by a chemical equilibrium. Novel pharmacological strategies can now be tailored to act upstream, before the aggregation process ensues, by targeting this equilibrium. To this end, Single Molecule Force Spectroscopy can be an effective tool to tailor and test new pharmacological agents., Comment: 37 pages, 9 figures (including supplementary material)

Published
2007

2. The Interplay between Chemistry and Mechanics in the Transduction of a Mechanical Signal into a Biochemical Function

Author

Valle, Francesco, Sandal, Massimo, and Samorí, Bruno

Subjects
Quantitative Biology - Biomolecules, Quantitative Biology - Molecular Networks
Abstract

There are many processes in biology in which mechanical forces are generated. Force-bearing networks can transduce locally developed mechanical signals very extensively over different parts of the cell or tissues. In this article we conduct an overview of this kind of mechanical transduction, focusing in particular on the multiple layers of complexity displayed by the mechanisms that control and trigger the conversion of a mechanical signal into a biochemical function. Single molecule methodologies, through their capability to introduce the force in studies of biological processes in which mechanical stresses are developed, are unveiling subtle intertwining mechanisms between chemistry and mechanics and in particular are revealing how chemistry can control mechanics. The possibility that chemistry interplays with mechanics should be always considered in biochemical studies., Comment: 50 pages, 18 figures

Published
2007
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6. Probing Italy: A Scanning Probe Microscopy Storyline

Author

Dinelli, Franco, primary, Brucale, Marco, additional, Valle, Francesco, additional, Ascoli, Cesare, additional, Samorì, Bruno, additional, Sartore, Marco, additional, Adami, Manuela, additional, Galletti, Riccardo, additional, Prato, Stefano, additional, Troian, Barbara, additional, and Albonetti, Cristiano, additional

Published
2023
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29. Interface Layering Phenomena in Capacitance Detection of DNA with Biochips

Author

Carrara, Sandro, Gürkaynak, Frank K., Guiducci, Carlotta, Stagni, Claudio, Benini, Luca, Leblebici, Yusuf, Samorì, Bruno, De Micheli, Giovanni, S. Carrara, F. Gürkaynak, C. Guiducci, C. Stagni, L. Benini, Y. Leblebici, B. Samorì, and G. De Micheli

Subjects
capacitance detection, ComputingMethodologies_PATTERNRECOGNITION, lcsh:Technology (General), lcsh:T1-995, DNA Biochip, ion layering, constant phase elements
Abstract

Reliable DNA detection is of great importance for the development of the Lab-on-chip technology. The effort of the most recent projects on this field is to integrate all necessary operations, such as sample preparation (mixing, PCR amplification) together with the sensor user for DNA detection. Among the different ways to sense the DNA hybridization, fluorescence based detection has been favored by the market. However, fluorescence based approaches require that the DNA targets are labeled by means of chromophores. As an alternative label-free DNA detection method, capacitance detection was recently proposed by different authors. While this effect has been successfully demonstrated by several groups, the model used for data analysis is far too simple to describe the real behavior of a DNA sensor. The aim of the present paper is to propose a different electrochemical model to describe DNA capacitance detection.

Published
2007

33. Electrochemical sensing strategies for the detection of interactions between biological macromolecules

Author

Zuccheri, Giampaolo, Samorì, Bruno, Onofri, Manuele <1983>, Zuccheri, Giampaolo, Samorì, Bruno, and Onofri, Manuele <1983>

Abstract

Electrochemical biosensors provide an attractive means to analyze the content of a biological sample due to the direct conversion of a biological event to an electronic signal, enabling the development of cheap, small, portable and simple devices, that allow multiplex and real-time detection. At the same time nanobiotechnology is drastically revolutionizing the biosensors development and different transduction strategies exploit concepts developed in these field to simplify the analysis operations for operators and end users, offering higher specificity, higher sensitivity, higher operational stability, integrated sample treatments and shorter analysis time. The aim of this PhD work has been the application of nanobiotechnological strategies to electrochemical biosensors for the detection of biological macromolecules. Specifically, one project was focused on the application of a DNA nanotechnology called hybridization chain reaction (HCR), to amplify the hybridization signal in an electrochemical DNA biosensor. Another project on which the research activity was focused concerns the development of an electrochemical biosensor based on a biological model membrane anchored to a solid surface (tBLM), for the recognition of interactions between the lipid membrane and different types of target molecules.

Published
2013

34. Studio e caratterizzazione di biosensori sviluppati su dispositivi inorganici ed organici

Author

Samorì, Bruno, Bonetti, Simone <1983>, Samorì, Bruno, and Bonetti, Simone <1983>

Abstract

L’attività di dottorato qui descritta ha riguardato inizialmente lo sviluppo di biosensori elettrochimici semplificati per la rilevazione di DNA e successivamente lo studio di dispositivi organici ad effetto di campo per la stimolazione e il rilevamento dell’attività bioelettrica di cellule neuronali. Il lavoro di ricerca riguardante il prima parte è stato focalizzato sulla fabbricazione e sulla caratterizzazione di un biosensore a due elettrodi per la rilevazione di DNA solubile , facilmente producibile a livello industriale. Tale sensore infatti, è in grado di leggere livelli diversi di correnti faradiche sulle superfici in oro degli elettrodi, a discrezione di un eventuale ibridizzazione del DNA da analizzare su di esse. I risultati ottenuti riguardo a questo biosensore sono :la paragonabilità dello stesso con i sensori standard a tre elettrodi basati sulla medesima metodica, la possibilità di effettuare due misure in parallelo di uno stesso campione o di 2 diversi campioni su di uno stesso di dispositivo e la buona applicabilità della chimica superficiale a base di tale biosensore a superfici create con tecnologie industriali. Successivamente a tali studi, mi sono focalizzato sull’utilizzo di dispositivi organici ad effetto campo (in particolare OTFT) per lo sviluppo di un biosensore capace di stimolare e registrare l’attività bioelettrica di cellule neuronali. Inizialmente sono state identificate le caratteristiche del materiale organico utilizzato e successivamente del dispositivo fabbricato pre e post esposizione all’ambiente fisiologico. Poi, sono stati effettuati esperimenti per osservare la capacità di stimolare e di leggere i segnali elettrogenici da parte dell’OTFT. I risultati ottenuti da tali studi sono che: il materiale organico ed il dispositivo mantengo le loro caratteristiche morfologiche e funzionali dopo l’esposizione per giorni all’ambiente fisiologico. Inoltre l’OFET in grado di stimolare il cambiamento delle tensioni di membrana cellulari e co, The activity of my PhD concerns both the development of an electrochemical biosensor for the detection of soluble DNA based on a two-electrode set-up, and the study of a bidirectional organic thin film transistor (OTFT) for the stimulation and the recording of the bioelectrical activity of the primary neurons. In the first case, my research was focused mainly on the fabrication of gold ultra-flat surfaces for the electrodes, and the comparison with surfaces coming from industrial fabrication methods. I developed the DNA two-electrode sensor and I demonstrated its reliability in correlation with results obtained with standard three-electrodes configuration. In the second part, instead, I studied the fabrication of the organic device with perylene diimide as organic material, monitoring its resistance in function of the physiological environment and the functionality of the OTFT as recorder and stimulator of the electrogenic activity of the dorsal root ganglion neurons.

Published
2013

35. The effect of osmolytes on protein fold stability at the single-molecule level

Author

Samorì, Bruno, Aioanei, Daniel <1980>, Samorì, Bruno, and Aioanei, Daniel <1980>

Abstract

By pulling and releasing the tension on protein homomers with the Atomic Force Miscroscope (AFM) at different pulling speeds, dwell times and dwell distances, the observed force-response of the protein can be fitted with suitable theoretical models. In this respect we developed mathematical procedures and open-source computer codes for driving such experiments and fitting Bell’s model to experimental protein unfolding forces and protein folding frequencies. We applied the above techniques to the study of proteins GB1 (the B1 IgG-binding domain of protein G from Streptococcus) and I27 (a module of human cardiac titin) in aqueous solutions of protecting osmolytes such as dimethyl sulfoxide (DMSO), glycerol and trimethylamine N-oxide (TMAO). In order to get a molecular understanding of the experimental results we developed an Ising-like model for proteins that incorporates the osmophobic nature of their backbone. The model benefits from analytical thermodynamics and kinetics amenable to Monte-Carlo simulation. The prevailing view used to be that small protecting osmolytes bridge the separating beta-strands of proteins with mechanical resistance, presumably shifting the transition state to significantly higher distances that correlate with the molecular size of the osmolyte molecules. Our experiments showed instead that protecting osmolytes slow down protein unfolding and speed-up protein folding at physiological pH without shifting the protein transition state on the mechanical reaction coordinate. Together with the theoretical results of the Ising-model, our results lend support to the osmophobic theory according to which osmolyte stabilisation is a result of the preferential exclusion of the osmolyte molecules from the protein backbone. The results obtained during this thesis work have markedly improved our understanding of the strategy selected by Nature to strengthen protein stability in hostile environments, shifting the focus from hypothetical protein-osmolyte in

Published
2013

36. Atomic Force Microscopy Studies of the Amyloidogenic Processes of Intrinsically Unstructured Proteins related to Neurodegenerative Diseases

Author

Samorì, Bruno, Kumar, Dhruv <1982>, Samorì, Bruno, and Kumar, Dhruv <1982>

Abstract

Protein aggregation and formation of insoluble aggregates in central nervous system is the main cause of neurodegenerative disease. Parkinson’s disease is associated with the appearance of spherical masses of aggregated proteins inside nerve cells called Lewy bodies. α-Synuclein is the main component of Lewy bodies. In addition to α-synuclein, there are more than a hundred of other proteins co-localized in Lewy bodies: 14-3-3η protein is one of them. In order to increase our understanding on the aggregation mechanism of α-synuclein and to study the effect of 14-3-3η on it, I addressed the following questions. (i) How α-synuclein monomers pack each other during aggregation? (ii) Which is the role of 14-3-3η on α-synuclein packing during its aggregation? (iii) Which is the role of 14-3-3η on an aggregation of α-synuclein “seeded” by fragments of its fibrils? In order to answer these questions, I used different biophysical techniques (e.g., Atomic force microscope (AFM), Nuclear magnetic resonance (NMR), Surface plasmon resonance (SPR) and Fluorescence spectroscopy (FS)).

Published
2012

38. Development of bionanotechnological strategies for signal enhancement in nucleic acids biosensors

Author

Samorì, Bruno, Vinelli, Alessandra <1982>, Samorì, Bruno, and Vinelli, Alessandra <1982>

Abstract

Nucleic acid biosensors represent a powerful tool for clinical and environmental pathogens detection. For applications such as point-of-care biosensing, it is fundamental to develop sensors that should be automatic, inexpensive, portable and require a professional skill of the user that should be as low as possible. With the goal of determining the presence of pathogens when present in very small amount, such as for the screening of pathogens in drinking water, an amplification step must be implemented. Often this type of determinations should be performed with simple, automatic and inexpensive hardware: the use of a chemical (or nanotechnological) isothermal solution would be desirable. My Ph.D. project focused on the study and on the testing of four isothermal reactions which can be used to amplify the nucleic acid analyte before the binding event on the surface sensor or to amplify the signal after that the hybridization event with the probe. Recombinase polymerase amplification (RPA) and ligation-mediated rolling circle amplification (L-RCA) were investigated as methods for DNA and RNA amplification. Hybridization chain reaction (HCR) and Terminal deoxynucleotidil transferase-mediated amplification were investigated as strategies to achieve the enhancement of the signal after the surface hybridization event between target and probe. In conclusion, it can be said that only a small subset of the biochemical strategies that are proved to work in solution towards the amplification of nucleic acids does truly work in the context of amplifying the signal of a detection system for pathogens. Amongst those tested during my Ph.D. activity, recombinase polymerase amplification seems the best candidate for a useful implementation in diagnostic or environmental applications.

Published
2011

39. Each one teaches one: characterizing active forms of proteins by single molecule force spectroscopy

Author

Samorì, Bruno, Sandal, Massimo <1981>, Samorì, Bruno, and Sandal, Massimo <1981>

Abstract

This Ph.D. candidate thesis collects the research work I conducted under the supervision of Prof.Bruno Samor´ı in 2005,2006 and 2007. Some parts of this work included in the Part III have been begun by myself during my undergraduate thesis in the same laboratory and then completed during the initial part of my Ph.D. thesis: the whole results have been included for the sake of understanding and completeness. During my graduate studies I worked on two very different protein systems. The theorical trait d’union between these studies, at the biological level, is the acknowledgement that protein biophysical and structural studies must, in many cases, take into account the dynamical states of protein conformational equilibria and of local physico-chemical conditions where the system studied actually performs its function. This is introducted in the introductory part in Chapter 2. Two different examples of this are presented: the structural significance deriving from the action of mechanical forces in vivo (Chapter 3) and the complexity of conformational equilibria in intrinsically unstructured proteins and amyloid formation (Chapter 4). My experimental work investigated both these examples by using in both cases the single molecule force spectroscopy technique (described in Chapter 5 and Chapter 6). The work conducted on angiostatin focused on the characterization of the relationships between the mechanochemical properties and the mechanism of action of the angiostatin protein, and most importantly their intertwining with the further layer of complexity due to disulfide redox equilibria (Part III). These studies were accompanied concurrently by the elaboration of a theorical model for a novel signalling pathway that may be relevant in the extracellular space, detailed in Chapter 7.2. The work conducted on -synuclein (Part IV) instead brought a whole new twist to the single molecule force spectroscopy methodology, applying it as a structural technique to elucidate the conf

Published
2008

50. Foreword

Author

Gion, Massimo, primary, Fassina, Giorgio, additional, and Samorì, Bruno, additional

Published
2009
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