Team:Fudan/Design Intention

Design intention

Design intention

Fangfei Ye YFF
I’m the art designer of our team, mainly responsible for graphic design. I think the best kind of design is to show the project faithfully.

Tian Huang HT
I’m the wiki designer of our team, mainly responsible for wiki design. I’d like to tell you the story behind the design.

How do I choose colors?

YFF: I use tuned orange, yellow and blue for the logo. First, they are bright colors, giving people a fresh and living feeling. Second, they represent three different cells. Third, these three colors were mixed with some grey to give a balanced effect. That means synthetic biology not only relies on biological experiments but also requires inputs from computer science, mathematics, sociology, etc.

Logo design

YFF: I design the logo to reflect the focus of our project: signaling across the membrane. I use three polygons to represent three cells, with two on the left providing signals to the cell on the right. I use curved corners on some regions to implicit where two adjacent cells contact. I use two bold arrow lines to emphasize the signals are transduced from the left to the right. I arrange the arrowheads with our project name to suggest the signals are integrated to generate the output. My design uses simple elements, with a hope to bring an intuitive impression to people.

Bio-Art display

(see our detailed page for Bio-Art Display)

YFF: I am also fully responsible for the Bio-Art Exhibition of Engagement and Public Education, which combines synthetic biology and art to engage the public in understanding synthetic biology and our projects.

In fact, Display is something difficult for me because I have few experience in this area. I would like to thank the designers of Team 2017 Fudan and Team 2017 iGEM Fudan-China for their help and advice, without whose help I couldn’t hold such a wonderful display. In order to make the exhibition look more attractive, I also specifically asked the friends who major in the exhibition design, they all gave me very helpful advice.

Considering for the benefit of the audience, there are actually a lot of humanized details in the exhibition. For example, we designed small note papers, on which the audience can write down their thoughts at any time throughout the display. In each exhibition area, there are always our team members present to help explain the project and also communicate with the audience. We also carefully designed the guide book, which provides a brief explanation of the contents of the exhibition to help the audience have a better understanding.

wiki design

HT: I made this wiki template for Team:Fudan based on Materialize.

    There are so many useful features you should notice on this wiki website:
  • On most sites, a page navigator is added on the right side of main content as a quick guide of the page; you can also find some related links in this navigator
  • The wiki performs perfectly on both large screen devices (such as laptops) and small ones (such as mobile phones)
  • The wiki is made to be print-friendly
  • Footer contains a sitemap of our wiki, making it easy to surf to anywhere
  • An abstract button can be found at the lower right corner of your screen, reminding readers of our projects

See the artworks here

File name Download
for_comments.pdf
banners.pdf
display_board.pdf
rolls.pdf
display_posters.pdf
display_overview.pdf
table_sets.pdf

Abstract

Contact-dependent signaling is critical for multicellular biological events, yet customizing contact-dependent signal transduction between cells remains challenging. Here we have developed the ENABLE toolbox, a complete set of transmembrane binary logic gates. Each gate consists of 3 layers: Receptor, Amplifier, and Combiner. We first optimized synthetic Notch receptors to enable cells to respond to different signals across the membrane reliably. These signals, individually amplified intracellularly by transcription, are further combined for computing. Our engineered zinc finger-based transcription factors perform binary computation and output designed products. In summary, we have combined spatially different signals in mammalian cells, and revealed new potentials for biological oscillators, tissue engineering, cancer treatments, bio-computing, etc. ENABLE is a toolbox for constructing contact-dependent signaling networks in mammals. The 3-layer design principle underlying ENABLE empowers any future development of transmembrane logic circuits, thus contributes a foundational advance to Synthetic Biology.