TsingHua Bauhinia Day
Paying our maximum effort to promote synthetic biology, iGEM and the project of our team, we hope to introduce the fun and potential in biology to everyone and bring new enthusiastic blood into the biology field in Taiwan, where bio-industry
is less popular than semiconductor industry.
TsingHua Bauhinia Day (campus fair) is the day when high school students from all over the country visit our campus to learn about all departments.
On May 12th, paying our maximum effort to promote synthetic biology, iGEM and the project of our team, we introduce the fun and potential in biology to high school students and hope to bring new enthusiastic blood into the biology field
in Taiwan, where bio-industry is less popular than semiconductor industry.
It was quite disappointed at first when very few students showed their interest in biology. However, as we vigorously presenting our project with passion, the fact that biologists can create plenty of fun experiments in labs attracted groups
of people to gather around. Our audiences on this day were not limited to students but parents and any relatives that came along, all of whom contributed to a survey we collected. With rising interest and curiosity in synthetic biology
and iGEM, many questions were raised (the most frequently asked questions are listed below) and, as a result, we successfully promoted iGEM, synthetic biology and gave publicity of BioWatcher and idea. While we collected public views toward
BioWatcher, we hope, in this way, to raise awareness of both public and individual health condition and appeal to them the importance of early diagnosis and early treatment.
1. What’s the significance of our project?
Soluble ligand-receptor interaction The existing known ligand-receptor interactions, such as notch signaling pathway, is only applicable on insoluble ligands. With our design on reporter cell, the receptors can detect both soluble and
insoluble ligands.
Wide application Before this system can be used in human, it can be applied widely in lab experiment animal models, such as zebrafish. The autonomous report system will be a convenient tool for scientists in qualitative measurements.
Customized detector The detection module on the reporter cell is nanobody, functional antibody variable domain fragment. The programmable nanobodies on the reporter cells can be customized into detecting specific ligands. The range
of application of this autonomous reporting system is simultaneously growing with the expansion of nanobody library. Reference: Pieter Deschaght, Ana Paula Vintém, Marc Logghe,Miguel Conde et al. Large Diversity of Functional Nanobodies
from a Camelid Immune Library Revealed by an Alternative Analysis of Next-Generation Sequencing Data(2017)
Non-invasiveness To increase convenience in blood test for all users, we establish a non-invasive biofactor measurement system with the help of autonomous reporter cells and bioluminescence-detecting smartwatches. In this case, the
blood test can be taken more frequently and easily at home, which will increase health awareness and transform the catchphrase-- “early diagnosis early treatment” into live.
Bioluminescence >>drug delivery The induced pathway can be interchangeable. At the moment, BioWatcher is designed to output autonomous bioluminescence signal. The system can be altered into therapeutic application when the bioluminescence
signal is changed into drug delivery. With boundless creativeness, the application diversity of this system is limitless.
2. Is the design of BioWatcher better than the current blood test?
Yes! Current blood test is the most direct approach for everyone to learn about his/her bodily health. However, it’s rarely performed due to its several drawbacks, invasiveness, time-consuming procedure and the fact that it can only be carried out with
the help of medical professions. Although new smart wearable devices attempt to deal with these problems by offering noninvasive measurement and instant report, what the trackers can tell the users, such as heart rate, steps taken and
calories burned, are not direct and useful indicators for early-stage diagnosis.
BioWatcher aims to overcome the disadvantages of both blood test and current smart wearables and combine the advantages of both: using noninvasive measurement wearables providing instant report to directly assessing disease indicators.
3. Are we sure that this system can be used in humans?
Not until the experiment can successfully prove feasibility will we be able to give a confirmed answer. However, even at the worst scenario--failing to apply this system in humans-- this design can be widely apply on other experiment animal model. BioWatcher
is going to be a great help to scientists and bring them immense convenience and efficiency in lab.
We are very grateful for all the questions asked that once again examine and improve BioWatcher.
