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What relativistic theory can teach us about the origin of biological homochirality

Project description

A quantum perspective on molecular asymmetry

Life on Earth is built almost exclusively from molecules that exist in only one mirror-image form, a phenomenon known as homochirality. Why this asymmetry arose remains one of the deepest unsolved questions in science, with profound implications for understanding the origins of life. A promising hypothesis links this to the spin properties of electrons in chiral molecules. With the support of the Marie Skłodowska-Curie Actions programme, the RelCISS project aims to investigate the quantum mechanical basis of this process by developing advanced computational methods that combine relativistic electronic structure theory with molecular dynamics simulations. These tools will model how molecular geometry and electron spin interact, providing the first mechanistic explanation for the emergence of biological homochirality.

Objective

The origin of biological homochirality remains one of the most enduring open questions in science. The Sasselov group recently proposed a hypothesis based on the enantioselective crystallization of RNA precursors on magnetite surfaces, achieving chiral resolution in laboratory experiments. While these results provide compelling evidence, the underlying mechanism remains unknown. Sasselov suggested that the process is driven by chiral-induced spin selectivity (CISS), which refers to the ability of chiral molecules to spin-polarize transmitted electrons according to the molecular handedness. CISS requires three elements: molecular chirality, electron spin, and an interaction mechanism linking the two. An immediate candidate for mediating such interaction is spin-orbit coupling (SOC), a relativistic effect in which the electron spin interacts with the magnetic induction generated by its motion relative to the nuclei. However, state-of-the-art quantum chemistry methods fail to capture the interplay between molecular chirality and spin, and preliminary simulations based on electron dynamics in a static nuclear frame have been unsuccessful. This reflects both the limitations of current SOC treatments and the neglect of electron–nuclear angular momentum transfer in the Born–Oppenheimer approximation. To overcome these shortcomings, this project will combine relativistic electronic structure theory with non-adiabatic molecular dynamics. Specifically, we will develop GPU-accelerated relativistic electronic structure methods that are efficient enough for use in non-adiabatic simulations yet sufficiently accurate to capture CISS. These tools will be integrated with first-principles non-adiabatic dynamics codes to simulate the enantioselective crystallization, as proposed by the Sasselov group.

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HORIZON-TMA-MSCA-PF-EF - HORIZON TMA MSCA Postdoctoral Fellowships - European Fellowships

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Call for proposal

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(opens in new window) HORIZON-MSCA-2025-PF

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Coordinator

THE UNIVERSITY OF BIRMINGHAM
Net EU contribution

Net EU financial contribution. The sum of money that the participant receives, deducted by the EU contribution to its linked third party. It considers the distribution of the EU financial contribution between direct beneficiaries of the project and other types of participants, like third-party participants.

€ 260 347,92
Address
Edgbaston
B15 2TT Birmingham
United Kingdom

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Region
West Midlands (England) West Midlands Birmingham
Activity type
Higher or Secondary Education Establishments
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Total cost

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