In the Human Practice (HP) part, we seamlessly intergraded with our project, to do the HP for the project and to design / redesign the project for the HP. Briefly, inspired by the creativity and enthusiasm of non-biologists through interviews, we sought to find a solution to engage more general public to advance synthetic biology in an interactive way.

We invented MagicBlock, a platform that integrates controlling software, robotic hardware and quorum sensing bacteria as basic blocks to build gene circuits.

To put our platform into practice and obtain feedback for further improvement, we held two workshops to introduce the basic idea of synthetic biology and MagicBlock, and then guided participants to use MagicBlock to design their own bio-products.

Fascinatingly, we received various thought-provoking designs using MagicBlock elements, such as water pollution alarm, synthetic music, and bacteria painting panel, all originated from non-biologists, which potentially will inspire future research. Also, we received valuable feedback suggestions from participants and experts to improve our MagicBlock. We imagine a future of synthetic biology empowered by a more broad population and our MagicBlock should contribute to it a platform.

Background investigation

We interviewed people of different ages and occupations. We have found that many people are very enthusiastic and imaginative about bio-designs, yet have little knowledge in synthetic biology and little lab experience. We highlighted a few interesting interviews blew. Besides, we also have sent out questionnaire for broader audience. Their opinions are listed in the Background section.

‘We love designing bio-products.’

‘ But we have no lab experience, and know little about synthetic biology.’

‘What can we do?’

Design of MagicBlock

To lower the bar of synthetic biology and bio-design, we wanted to invent a lab free bio-design platform for general people, the MagicBlock. This is a cloud platform that integrates controlling software, robotic hardware and quorum sensing bacteria as basic blocks to build gene circuits. These bacteria blocks will serve input and output of a gene circuit, and will be connected with QS signals by our liquid handling robot. Therefore, we ‘translated’ the synthetic biology language into engineering language, which is more accessible to the public. We imagine that using the software, designers can design their products like programming through the internet, and then the robot will work autonomously to build the gene circuits for a bio-product. For details, please visit the Design of MagicBlock section.

Future

Overall, the participants were surprised and attracted by Magicblock and showed their great support. We will keep their advice in mind and keep improving our project in the future. We believe that the Magicblock will one day help more people realize their synthetic biology dreams.