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Four-dimensional self-assembly from peptides and DNA

Description du projet

Des systèmes d’auto-assemblage peptide-ADN

La plupart des structures présentes dans les systèmes vivants sont dynamiques et contribuent aux processus remarquables de la biologie cellulaire. Bien que les scientifiques aient tenté de résumer ces propriétés, les systèmes synthétiques auto-assemblés sont principalement statiques. Pour résoudre ce problème, le projet PepDNA-4D, financé par l’UE, combinera des molécules présentant des capacités d’auto-assemblage complémentaires. Les chercheurs utiliseront des peptides capables de former des structures secondaires et de l’ADN disposant d’une capacité inhérente à s’hybrider avec d’autres acides nucléiques. L’interaction directe entre des peptides polymérisés et des squelettes d’ADN aboutira à des nanostructures très inhabituelles qui seront visualisées par microscopie électronique.

Objectif

Structural organisation in living systems is both dynamic (varies with time), and emergent (more than the sum of its parts). Different blends of these aspects can be said to contribute to all the uniquely impressive processes of cellular biology. In contrast, synthetic self-assembled chemical systems rarely express each of these properties, being largely based on single self-assembly systems (e.g. DNA hybridisation or metal coordination), and static (i.e. observed at its thermodynamic minimum). This Fellowship will combine the Fellow's skills in chemoenzymatic peptide synthesis with those of the Supervisor in combining complementary self-assembly systems to obtain emergent superstructures. These studies will result in the first instances of dynamic and emergent self-assembly in synthetic chemical systems.
To achieve this aim, we will perform chemoenzymatic polymerisation of peptides from the end of DNA backbones. Both units are capable of their own self-assembly - DNA through hybridisation, and peptides via secondary structures. In any 'static' snapshot of the system, the indirect interplay of DNA and peptide assembly will lead to highly unusual nanostructures. However, this work will go beyond, to measure the type and extent of self-assembly during the enzymatic polymerisation process using cutting edge techniques such as liquid-cell electron microscopy. The resultant systems will recapitulate the properties of living matter in these respects.
In the course of these studies, the Fellow's professional skills will be honed through mentorship, the practice of taking a leading role in research, and through training courses offered by the Host Institution. At the end of the Fellowship, he will be ideally placed to assume an independent academic position.

Régime de financement

MSCA-IF-EF-ST - Standard EF

Coordinateur

UNIVERSITY OF KENT
Contribution nette de l'UE
€ 224 933,76
Adresse
THE REGISTRY CANTERBURY
CT2 7NZ Canterbury, Kent
Royaume-Uni

Voir sur la carte

Région
South East (England) Kent East Kent
Type d’activité
Higher or Secondary Education Establishments
Liens
Coût total
€ 224 933,76