OVERVIEW
Why do we need 3D control?
Life exists in three dimensions but oftentimes, life sciences research remains very flat. Our limitation to control precise behaviour in a 3D space, abstracts what we can do and distances us from in vivo. Having power ful tools in the 3D allows us to both study and control life with more accuracy.
Applications
The students came up with and developed the idea during brainstorming sessions in the firsts months of the competition, letting the project evolve throughout the summer. All of the designs, constructs and experiments were performed by the students of the 2017 Paris Bettencourt team.
Instructors and Advisors provided support, advice and feedback when needed. The team was hosted by the CRI lab inside of the Paris-Descartes University. If more than one person is listed, we highlighted the main person responsible
The students came up with and developed the idea during
brainstorming sessions in the firsts months of the competition, letting
the project evolve throughout the summer. All of the designs,
constructs and experiments were performed by the students of the
2017 Paris Bettencourt team.
Instructors and Advisors provided support, advice and the CRI lab inside of the Paris-Descartes University. If more than one person is listed, we highlighted the main person responsible
n, letting the project evolve throughout the summer. All of the designs,
constructs and experiments were performed by the students of the
2017 Paris Bettencourt team.
Instructors and Advisors provided support, advice and the CRI lab inside of the Paris-Descartes University.
If more than one person is listed, we highlighted the main person responsible
The students came up with and developed the idea during
brainstorming sessions in the firsts months of the competition, letting
the project evolve throughout the summer. All of the designs,
constructs and experiments were performed by the students of the
2017 Paris Bettencourt team.
Instructors and Advisors provided support, advice and feedback when needed. The team was hosted by
the CRI lab inside of the Paris-Descartes University.
If more than one person is listed, we highlighted the main person responsible
The students came up with and developed the idea during
brainstorming sessions in the firsts months of the competition, letting
the project evolve throughout the summer. All of the designs,
constructs and experiments were performed by the students of the
2017 Paris Bettencourt team.
Instructors and Advisors provided support, advice and the CRI lab inside of the Paris-Descartes University.
If more than one person is listed, we highlighted the main person responsible
n, letting
the project evolve throughout the summer. All of the designs,
constructs and experiments were performed by the students of the
2017 Paris Bettencourt team.
Instructors and Advisors provided support, advice and the CRI lab inside of the Paris-Descartes University.
If more than one person is listed, we highlighted the main person responsible
A Bacterial 3D printer
RNA is a light cost nucleotide material in the cell, We aim to recreate RNA agglomerations as formed in mammalian cells with triple repeat disorders, which show liquid phase separation, forming a organelle-like vesicle, where local concentrations of enzymes can be created.Optogenentic Control
RNA is a light cost nucleotide material in the cell, We aim to recreate RNA agglomerations as formed in mammalian cells with triple repeat disorders, which show liquid phase separation, forming a organelle-like vesicle, where local concentrations of enzymes can be created.Biomaterials
RNA is a light cost nucleotide material in the cell, We aim to recreate RNA agglomerations as formed in mammalian cells with triple repeat disorders, which show liquid phase separation, forming a organelle-like vesicle, where local concentrations of enzymes can be created.RNA organelle
RNA is a light cost nucleotide material in the cell, We aim to recreate RNA agglomerations as formed in mammalian cells with triple repeat disorders, which show liquid phase separation, forming a organelle-like vesicle, where local concentrations of enzymes can be created.