By Kritin Karkare
COSMOS students use electrical circuits to model genetic mechanisms in biological systems.
Week 2 of COSMOS is wrapped up, and this week I
am joined by two students from clusters 7 and 8: Synthetic Biology, and Tissue
Engineering and Regenerative Medicine, respectively. Read on for their thoughts
on the program, and my experience so far as a cluster assistant!
The following are interviews with Joyita
Bhattacharjee from Cluster 8: Tissue Engineering and Regenerative Medicine, and
Lea Twicken and Julia Picker from Cluster 7: Synthetic Biology.
Why did you choose your cluster?
Joyita: I chose the cluster
because I was very interested in biology. I'm very interested in regenerative
medicine because that's a huge field right now and a lot of people are in need
of it because of sports injuries, etc.
Lea: I went to a talk by J.
Craig Venter, a synthetic biologist famous for sequencing the human genome and
creating synthetic bacterial DNA. He came to a school in our district. My
science teacher also suggested I check out summer science stuff so I looked
into it.
Julia: My aunt sent me a link
to COSMOS. I saw synthetic biology and thought it would be perfect because my
friend and I were working on this club in school for genetic engineering and
medicine—I really wanted to learn about
this stuff since it sounded like something fun to do.
Cluster 7 students visit the J. Craig Venter Institute to hear about synthetic biology research. |
What have you worked on so far, and what is your final project?
Joyita: So far we've learned culturing, making dilution— basic
laboratory procedures. My project is seeing if inserting an extracellular matrix (ECM) prevents cells from dying due to hydrogen peroxide damage.
How did you get interested in biology?
Lea: When I was in middle school I thought I hated biology. I had a really bad biology teacher in 7th grade that made it all about memorization. I thought I really liked physics since my dad did physics. We had a required science fair project every year, and every single year, I ended up doing a biology topic-- I thought it was interesting. By eighth grade I did this project where I grew bacteria in my kitchen. Growing it in the kitchen was a terrible idea, but I was like that seems really cool.
Julia: For me it's a funny story. In middle school we did Punnett squares. We did a lab where you have to make a baby with your partner. You have a bag of genes and then you combine them together and then draw it. This genetics unit made me like biology. I could get a sense for why I am the way I am with biology, or maybe it was my vain middle school foolishness.
Any favorite memories so far?
Joyita: Recently
we went on a field trip to BioMatrix and they showed us a bio printer. I
thought that was pretty cool because we saw the bio printer print out a
scaffold just using cartilage.
What do you like about your cluster?
Joyita: Everything
is very hands on and the stuff we learn is very high level, so I feel like it's
a very good bonding ground because everyone has to work together to get
the homework done or explain the concepts to each other. It's definitely a good
learning experience.
Cluster Assistant Thoughts
This is my second year helping with Cluster 7,
and do you know what the hardest thing for me still is? Science communication!
For those of you in outreach, you know that translating dense college research
into sizeable chunks for high school, middle school, and elementary school
students is hard. I’ve tried explaining my own major— bioinformatics— to
elementary school students, and I struggle figuring out how to talk about
coding and biology without producing confused looks on their faces within
thirty seconds.
The same line of
thinking applies to COSMOS. In our Synthetic Biology cluster, many students
have only taken one year of high school biology, yet through the program we
need to expose them to electrical circuit design, recombinant DNA techniques,
and more. My role as a TA is to translate the research-heavy facts into topics
the students can explore and learn more about.
Cluster 7 students prepare an agarose gel electrophoresis to determine fragment sizes of DNA. |
An integral part of the COSMOS curriculum is science communication. It is a skill relatively unseen in high school (and undergraduate!) curriculums and for the students to practice it now, will be a boon to their future as potential scientists and engineers. During weeks 1 and 2, they wrote essays on different ethical considerations for synthetic biology applications, such as bioterrorism, designer babies, GMOs and more. In addition, teams start preparing their projects to present the final two days of COSMOS. It is exciting that in just four weeks, they get so much exposure and a glimpse of the work that researchers do on a daily basis.
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