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The similarities between game design and nanotechnology.

Description of simulation game spore and how it takes place over many different scales

Discussion of project Earth Primer that takes simulation and packages them in various forms

What is nanotechnology?

How to make useful tools out of nature’s building blocks

Why to take DNA out of the cell and use it as a building block

How to use DNA for nanotechnology

Explaining science to others

Inspiring others to collaborate with each other

New tool that involves simulation and what happens in a research lab

Subject of gel electrophoresis such as how it’s used to solve crimes with DNA

Connecting molecules in sample tube with gels

Band patterns which are different molecules with different characteristics which cause them to migrate differently

The difficulties in interpreting gels

How to get the same band with a different molecule

Running gels is like baking which relates to chemistry

Troubleshooting in science is how you get answers which is why it’s incorporated into this new tool.

Simulations bring invisible phenomena to life with simultaneous linked views

Streamline problems with gels to create a working mental model which creates faster results

What additional elements can affect the particles running inside the gel with experiments in the lab?

Is the simulation model tied to empirical data or a made-up model that approximates it?

What is the timetable for curing diseases through DNA?

Description:

Explore the intersection of game design and nanotechnology in this 30-minute conference talk from the InterPlanetary Festival 2018. Dive into the world of computational tools that introduce innovative ways to play and think, focusing on the collaboration between biophysicist Shawn Douglas and designer Chaim Gingold. Learn about their project Gelbox, a simulation and visualization tool for teaching Gel Electrophoresis, and discover how it evolved from earlier work in transforming laboratory practices and designing interactive simulations. Gain insights into nanotechnology, DNA as a building block, and the complexities of gel electrophoresis. Understand how simulations can bring invisible phenomena to life and streamline problem-solving in scientific research. Explore the challenges of interpreting gels, the importance of troubleshooting in science, and the potential future applications of DNA technology in curing diseases.

Computational Tools for Biology: Sandboxes to Think and Play With

Santa Fe Institute

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#Engineering #Nanotechnology #Science #Biology #Molecular Biology #Programming #Game Development #Game Design #Physics #Biophysics

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