Asymmetric aminocatalysis: a modern strategy for molecules, challenges and life

Pesciaioli, Fabio <1982>

19 April 2011

The studies conducted during my Phd thesis were focused on two different directions: 1. In one case we tried to face some long standing problems of the asymmetric aminocatalysis as the activation of encumbered carbonyl compounds and the control of the diastereoisomeric ratio in the diastero- and enantioselective construction of all carbon substituted quaternary stereocenters adjacent a tertiary one. In this section (Challenges) was described the asymmetric aziridination of ,-unsaturated ketones, the activation of ,-unsaturated -branched aldehydes and the Michael addition of oxindoles to enals and enones. For the activation via iminium ion formation of sterically demanding substrates, as ,-unsaturated ketones and ,-unsaturated -branched aldehydes, we exploited a chiral primary amine in order to overcome the problem of the iminium ion formation between the catalyst and encumbered carbonylic componds. For the control of diastereoisomeric ratio in the diastero- and enantioselective construction of all carbon substituted quaternary stereocenters adjacent a tertiary one we envisaged that a suitable strategy was the Michael addition to 3 substituted oxindoles to enals activated via LUMO-lowering catalysis. In this synthetic protocol we designed a new bifunctional catalyst with an amine moiety for activate the aldehyde and a tioureidic fragment for direct the approach of the oxindole. This part of the thesis (Challenges) could be considered pure basic research, where the solution of the synthetic problem was the goal itself of the research. 2. In the other hand (Molecules) we applied our knowledge about the carbonylic compounds activation and about cascade reaction to the synthesis of three new classes of spirooxindole in enantiopure form. The construction of libraries of these bioactive compounds represented a scientific bridge between medicinal chemistry or biology and the asymmetric catalysis.

CHIM/06 Chimica organica

Abiotic and prebiotic phosphorus chemistry

Micheletti, Gabriele <1977>

January 1900

The chief obstacle to understand the metabolic origin of life or RNA-based life is to identify a plausible mechanism for overcoming the clutter wrought by abiotic chemistry. Probably trough simple abiotic and then prebiotic reactions we could arrive to simple pre-RNA molecules. Here we report a possible preibiotic synthesis for heterocyclic compounds, and a self-assembling process of adenosine phosphates a constituent of RNA. In these processes we use a simple and prebiotic phosphorus cyclic compounds, as P4O10 and its derivatives. The processes are driven by the formation of hypercoordinated species that activate the processes by a factor of 106-8.

CHIM/06 Chimica organica

Nuovi processi catalitici per la sintesi di prodotti ad attività farmacologica

Tragni, Michele <1982>

20 April 2011

The transition metal-catalyzed allylic alkylation (Tsuji-Trost type reaction) is a powerful tool for C-C, C-N, and C-O bond formation, which has been widely applied to organic chemistry over the last decades. Typical substrates for this transformation are activated allylic compounds such as halides, esters, carbonates, carbamates, phosphates, and so on. However, use of these substrates is associated with the disadvantage of generating a stoichiometric amount of chemical waste. Furthermore, these starting materials have to be prepared in an extra step from the corresponding allylic alcohol. Thus, ideal substrates would be the allylic alcohols themselves, with water being the only byproduct in this case. However, the scarse propensity of the hydroxyl moiety to act as good leaving group has significantly limited their use so far. During the last decade significant efforts have been made in order to develop more atom-economical and environmentally-friendly allylic alkylation protocols by employing allylic alcohols directly. In this PhD dissertation two main projects addressing this topic are presented. “Project 1” deals with the development of new metal-catalyzed intramolecular Friedel-Crafts (FC) allylic alkylations of electron-rich (PAPER A), as well as challenging electron-poor arenes (PAPER B) with alcohols. In “Project 2”, gold(I)-catalyzed intramolecular and stereoselective allylic alkylation reactions are reported. In particular, a FC alkylation of indole-containing allylic alcohols is presented in PAPER C. While, an O-alkylation of aminol-containing allylic alcohols is reported in PAPER D. To the best of knowledge, these reports represent the first example of gold(I)-catalyzed stereoselective alkylations with alcohols.

CHIM/06 Chimica organica

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

Kumar, Dhruv <1982>

27 April 2012

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)).

CHIM/06 Chimica organica

Development of Organocatalytic stereoselective SN1 type reactions

Guiteras Capdevila, Montserrat <1980>

12 April 2012

The proposal in my thesis has been the study of Stereoselective α-alkylation through SN1 type reaction. SN1 type reaction involves a stabilized and reactive carbocation intermediate By taking advantages of stability of particular carbocations, the use of carbocations in selective reactions has been important. In this work has been necessary to know the stability and reactivity of carbocations. And the work of Mayr group has helped to rationalize the behaviour and reactivity between the carbocations and nucleophiles by the use of Mayr’s scale of reactivity. The use of alcohols to performed the stable and reactive carbocations have been the key in my thesis. The direct nucleophilic substitution of alcohols has been a crucial scope in the field of organic synthesis, because offer a wide range of intermediates for the synthesis of natural products and pharmaceutics synthesis. In particular the catalytic nucleophilic direct substitution of alcohols represents a novel methodology for the preparation of a variety of derivatives, and water only as the sub-product in the reaction. The stereochemical control of the transformation C-H bond into stereogenic C-C bond adjacent to carbonyl functionalized has been studied for asymmetric catalysis. And the field of organocatalysis has introduced the use of small organic molecule as catalyst for stereoselective transformations. Merging these two concepts Organocatalysis and Mayr’s scale, my thesis has developed a new approach for the α-alkylation of aldehydes and ketones through SN1 type reaction. / La proposta della mia tesi è stato lo studio stereoselettiva di α-alchilazione attraverso la reazione di tipo SN1. SN1 reazione tipo comporta un stabilizzato e reattivo carbocatione intermedio Prendendo vantaggi della stabilità dei carbocationi particolari, l'uso di carbocationi in reazioni selettive è stato importante. In questo lavoro è stato necessario conoscere la stabilità e reattività dei carbocationi. E il lavoro di Mayr gruppo ha contribuito a razionalizzare il comportamento e reattività tra i carbocationi e nucleofili con l'uso della scala Mayr di reattività. L'uso di alcool ai eseguito i carbocationi stabili e reattive sono state la chiave nella mia tesi. La sostituzione nucleofila diretta di alcoli è stata portata cruciale nel campo della sintesi organica, poiché offrono un'ampia gamma di intermedi per la sintesi di prodotti naturali e di sintesi farmaceutica. In particolare il catalizzatore sostituzione nucleofila diretta di alcoli rappresenta una nuova metodologia per la preparazione di una varietà di derivati​​, e l'acqua come unico sottoprodotto nella reazione. Il controllo stereochimica del legame CH trasformazione in legame C-C stereogenico adiacente al carbonile funzionalizzata è stata studiata per la catalisi asimmetrica. E il campo dell'organocatalisi ha introdotto l'uso di piccola molecola organica come catalizzatore per trasformazioni stereoselettive. L'unione dell'organocatalisi questi due concetti e la scala Mayr, la mia tesi ha sviluppato un nuovo approccio per la α-alchilazione di aldeidi e chetoni, attraverso reazione di tipo SN1

CHIM/06 Chimica organica

Thiophene- Based Materials for Photovoltaic Applications

Olivelli, Pasquale <1981>

12 April 2012

Thiophene oligomers (OTs) and polymers (PTs) are currently attracting remarkable attention as organic materials showing semiconducting, fluorescent, nonlinear optical and liquid crystalline properties. All these properties can be fine-tuned through minor structural modifications. As a consequence, thiophene oligomers and polymers are among the most investigated compounds for applications in organic electronics, optoelectronics and thin film devices such as field effect transistors (FETs), light emitting diodes (LEDs) and photovoltaic devices (PVDs). Our research aims to explore the self-assembly features and the optical, electrical and photovoltaic properties of a class of thiophene based materials so far scarcely investigated, namely that of oligo- and polythiophenes head-to-head substituted with alkyl or S-alkyl chains. In particular, we synthesized these compounds in short reaction times, high yields, high purity and environmentally friendly procedures taking advantage of ultrasound (US) and microwave (MW) enabling technologies in Suzuki-Miyaura cross-couplings.

CHIM/06 Chimica organica

Synthesis and Supramolecular Architectures of Lipophilic Derivatives of Guanine / Sintesi e architetture supramolecolari di derivati lipofili della guanina

Perone, Rosaria Carmela <1985>

20 April 2012

Self-assembly relies on the association of pre-programmed building blocks through non-covalent interactions to give complex supramolecular architectures. Previous studies provided evidence for the unique self-assembly properties of semi-synthetic lipophilic guanosine derivatives which can sequestrate ions from an aqueous phase, carry them into an organic phase where they promote the generation of well-defined supramolecular assemblies. In the presence of cations lipophilic guanosines form columnar aggregates while in their absence they generate supramolecular ribbons. The aim of this thesis has been the synthesis of guanine derivatives, in particular N9-alkylated guanines and a guanosine functionalized as a perchlorotriphenylmetil moiety (Gace-a-HPTM) in order to observe their supramolecular behaviour in the absence of sugar (ribose or deoxyribose) and in the presence of a bulky and chiral substituent respectively. By using guanine instead of guanosine, while maintaining all the hydrogen bond acceptor and donor groups required for supramolecular aggregation, the steric hindrance to supramolecular aggregation is notably reduced because (i.e. guanines with groups in N9 different from sugar are expected to have a greatest conformational freedom even in presence of bulky groups in C8). Supramolecular self-assembly of these derivatives has been accomplished in solutions by NMR and CD spectroscopy and on surface by STM technique. In analogy with other guanosine derivatives, also N9-substituted guanines and GAceHPTM form either ribbon-like aggregates or cation-templated G-quartet based columnar structures. / L’auto-assemblaggio è descritto come il processo mediante il quale un sistema disordinato di componenti pre-esistenti forma una struttura supramolecolare, in conseguenza di specifiche interazioni deboli tra i componenti del sistema stesso. Studi precedenti, hanno evidenziato la capacità di auto-assemblaggio di derivati lipofili delle guanosine; tali composti sono capaci di estrarre degli ioni dalla fase acquosa e trasportarli in fase organica mediante la formazione di specifiche strutture supramolecolari. In presenza di cationi le guanosine lipofile formano aggregati colonnari mentre in loro assenza generano delle strutture nastriformi. Lo scopo principale della seguente tesi è stato la sintesi di derivati lipofili della guanine, in particolare di derivati della guanina alchilati in posizione N9 e di un derivato della guanosina funzionalizzato con un sostituente perclorotrifenilmetilico(PTM). Lo scopo principale era osservare in che modo l’assenza dello zucchero in un caso e la presenza di un sostituente chirale con un elevato ingombro sterico (GaceHPTM) nell’altro potessero influenzare il comportamento supramolecolare delle molecole sintetizzate. Utilizzando le guanine invece delle guanosine, non solo vengono conservati tutti i gruppi donatori e accettori di legami a idrogeno richiesti per l’aggregazione supramolecolare, ma viene ridotto l’ingombro sterico che in alcuni casi ostacola la formazione di aggregati (guanine con sostituenti in N9 diversi dallo zucchero possiediono una maggiore libertà conformazionale anche in presenza di un gruppo ingombrato in posizione C8 della guanosina). L’auto-assemblaggio di derivati lipofili della guanina è stato studiato in soluzione mediante spettroscopia NMR e dicroismo circolare mentre su superficie lo studio è stato effettuato mediante STM (scanning tunneling microscopy). Allo stesso modo dei derivati lipofili della guanosina, i seguenti derivati formano strutture nastriformi e colonnari variando le condizioni sperimentali.

CHIM/06 Chimica organica

Sulfanyl Radical Addition to Alkynes: Revisiting an Old Reaction to Enter the Novel Realms of Green Chemistry, Bioconjugation, and Material Chemistry

Monesi, Alessandro <1983>

12 April 2012

In the last decade considerable attention has been devoted to the rewarding use of Green Chemistry in various synthetic processes and applications. Green Chemistry is of special interest in the synthesis of expensive pharmaceutical products, where suitable adoption of “green” reagents and conditions is highly desirable. Our project especially focused in a search for new green radical processes which might also find useful applications in the industry. In particular, we have explored the possible adoption of green solvents in radical Thiol-Ene and Thiol-Yne coupling reactions, which to date have been normally performed in “ordinary” organic solvents such as benzene and toluene, with the primary aim of applying those coupling reactions to the construction of biological substrates. We have additionally tuned adequate reaction conditions which might enable achievement of highly functionalised materials and/or complex bioconjugation via homo/heterosequence. Furthermore, we have performed suitable theoretical studies to gain useful chemical information concerning mechanistic implications of the use of green solvents in the radical Thiol-Yne coupling reactions.

CHIM/06 Chimica organica

Sviluppo dei materiali innovativi e studio della loro interazione con sistemi biologici e biomimetici / Development of innovative materials and study of their interactions with biological and biomimetic systems.

Malferrari, Danilo <1979>

14 May 2012

Nell’ambito della Chimica Sostenibile e dell’applicazione dei suoi principi per la salvaguardia dell’ambiente, il progetto di dottorato ha riguardato lo sviluppo di materiali innovativi e lo studio della loro interazione con sistemi biologici e biomimetici. In particolare l’attività si è focalizzata sulla sintesi di liquidi ionici ed indagini delle interazioni con membrane cellulari e sull’utilizzo ed isolamento di molecole da fonti rinnovabili. I liquidi ionici sono sali organici liquidi a temperature inferiori ai 100 °C; sono considerati promettenti solventi a ridotta tossicità, ma vanno chiarite a pieno le modalità di interazione con i sistemi biologici ed i meccanismi di tossicità. A questo scopo è stata impiegata una batteria di test bio-chimici, con saggi di fluorescenza e colorimetrici, che hanno permesso di discriminare le diverse tipologie di interazioni con varie strutture di membrana. Le informazioni raccolte sono servite per progettare sostanze meno dannose per le strutture cellulari, al fine di scegliere le funzionalità molecolari che consentano ai liquidi ionici di mantenere la loro attività ma di essere meno dannosi per l’ambiente. Per quanto riguarda l’utilizzo ed isolamento di molecole da fonte rinnovabili, si è utilizzata la tecnica della pirolisi per l’ottenimento di starting materials ed il loro impiego nella sintesi di chemicals in alternativa a composti derivanti da fonti fossili. La pirolisi tradizionale della cellulosa fornisce una molecola interessante, per semplicità denominata LAC, in quantità insufficienti ad un uso applicativo. Nell’ambito delle ricerche svolte è stato scoperto che la pirolisi condotta in presenza di catalizzatori meso-strutturati (MCM-41) drogati con metalli di transizione, fornisce buone quantità di LAC. LAC si è dimostrato promettente sia per la produzione di nuove molecole con possibili applicazioni nella chimica fine e farmaceutica, che come monomero per nuovi polimeri (copolimero ed omopolimero). / In the context of Green Chemistry and in line with the application of its principles for the protection of the environment, this project deals with the development of innovative materials and with the study of their interaction with biological and biomimetic systems. The activity was mainly based on: ionic liquid synthesis and study of their interaction with cellular membranes and with the usage and isolation of molecules from renewable bioresources. Ionic liquids are organic salts that are liquid at temperatures below 100 °C, they are considered solvents with low toxicity if compared to traditional solvents, but their action towards biological systems have to be clarified. A battery of bio-chemical test, based on fluorescence and colorimetric assays, has permitted to differentiate the mechanisms of action on cellular systems. The recorded informations have been used to project substances that are less dangerous for cellular structures and to select the molecular functionalities that are useful to maintain their activity and to be less harmful for the environment. The second topic has been the exploitation of pyrolysis for the obtainment of starting materials from renewable resources and their usage in the synthesis of fine chemicals. Pyrolysis of cellulose produces insufficient quantities of an interesting molecule - from an applicative point of view - named LAC for simplicity. In our research it has been uncovered that pyrolysis conducted with mesoporous catalysts (MCM-41) doped with transition metals like tin, can furnish appreciable quantities of LAC. LAC is a promising molecule for the production of new molecule with applications as fine chemicals or pharmaceuticals, and also as monomers for the production of polymers (homopolymers and copolymers).

CHIM/06 Chimica organica

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

Aioanei, Daniel <1980>

22 April 2013

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 interactions to the more general mechanism based on the osmophobicity of the protein backbone.

CHIM/06 Chimica organica