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The BioHYBRITE project aims to develop next-generation biomolecular systems using hybrid DNA, RNA, and protein technologies. It focuses on creating modular platforms for molecular sensing and actuation, training researchers in designing and characterizing smart nanodevices for future medical applications.
In recent years, we have witnessed the emergence of DNA nanotechnology that enables self-assembly of some of the largest and most complex functional molecular systems to date.
Simultaneously, RNA plays a pivotal role in nanomedical advancements, notably in the development of Covid-19 vaccines.
Moreover, utilising deep learning to address the protein prediction challenge paves the way for de novo protein design in the realm of protein nanotechnology.
BioHYBRITE is designed as an innovative and pi…
LUDWIG-MAXIMILIANS-UNIVERSITAET MUENCHEN
Partner organizations (coordinator is shown above), with normalized type and CORDIS activity type. Guests see up to 4 partners.
Germany, Muenchen
Type: University / higher education
Activity type: Higher or Secondary Education Establishments
SME: No
Germany, Dortmund
Type: University / higher education
Activity type: Higher or Secondary Education Establishments
SME: No
THE CHANCELLOR MASTERS AND SCHOLARS OF THE UNIVERSITY OF CAMBRIDGE
United Kingdom, Cambridge
Type: University / higher education
Activity type: Higher or Secondary Education Establishments
SME: No
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