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Biobarcodes: Antibodies and nanosensors

In this activity, learns explore antibodies and a nanomedical technology called Biobarcodes by assembling a jigsaw puzzle model.

DESCRIPTION

This cart demo is about Biobarcodes, a nanomedical technology that allows for massively parallel testing for disease diagnosis. Visitors learn about antibodies, how each antibody binds to a unique protein, and how biobarcoding uses nanoparticles, antibodies, DNA and magnetism to detect diseases earlier than we could detect before. Visitors assemble a jigsaw puzzle that models how Biobarcodes™ work.

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  • Museum educator demonstrates biobarcodes hands-on activity
  • Museum educator demonstrates biobarcodes hands-on activity

DESCRIPTION

This cart demo is about Biobarcodes, a nanomedical technology that allows for massively parallel testing for disease diagnosis. Visitors learn about antibodies, how each antibody binds to a unique protein, and how biobarcoding uses nanoparticles, antibodies, DNA and magnetism to detect diseases earlier than we could detect before. Visitors assemble a jigsaw puzzle that models how Biobarcodes™ work.

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TRAINING VIDEOS

OBJECTIVES

BIG IDEA

Medical labs use nanoparticles to identify microbes quickly and accurately.

LEARNING GOALS

  • be able to say that antibodies help us stay healthy, and that scientists use antibodies to detect viruses.

  • learn that nanoparticles let us detect things more quickly than before, and at much lower levels than before.

NANO CONTENT MAP

Scientists and engineers have formed the interdisciplinary field of nanotechnology by investigating properties and manipulating matter at the nanoscale.

Nanoscience, nanotechnology, and nanoengineering lead to new knowledge and innovations that weren't possible before.

Credits

YEAR CREATED
2008
OWNING INSTITUTION

Oregon Museum of Science and Industry

FUNDING

Developed for the NISE Network with funding from the National Science Foundation under Award Numbers 0532536 and 0940143. Any opinions, findings, and conclusions or recommendations expressed in this product are those of the authors and do not necessarily reflect the views of the Foundation.

PERMISSIONS

Creative Commons Attribution Non-Commercial Share Alike 3.0 United States (CC BY-NC-SA 3.0 US).
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DEVELOPMENT PROCESS

NISE Network products are developed through an iterative collaborative process that includes scientific review, peer review, and visitor evaluation in accordance with an inclusive audiences approach. Products are designed to be easily edited and adapted for different audiences under a Creative Commons Attribution Non-Commercial Share Alike license. To learn more, visit our Development Process page.