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Often it is difficult to utilize the wealth of information found in 3D biomacromolecular structures. Proteopedia's goal is to present structure/function information on these molecules in a user-friendly manner to a broad scientific audience.
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<b>Proteopedia</b> presents this information in a user-friendly way as a '''collaborative & free 3D-encyclopedia of proteins & other biomolecules.'''
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<th style="padding: 10px;background-color: #33ff7b">Selected Pages</th>
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<th style="padding: 10px;background-color: #33ff7b">Selected Research Pages</th>
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<th style="padding: 10px;background-color: #f1b840">Journals</th>
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<th style="padding: 10px;background-color: #f1b840">In Journals</th>
<th style="padding: 10px;background-color: #79baff">Education</th>
<th style="padding: 10px;background-color: #79baff">Education</th>
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<td style="padding: 5px;"> {{Proteopedia:Featured SEL/{{#expr: {{#time:U}} mod {{Proteopedia:Number of SEL articles}}}}}}</td>
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<td>[[Proteopedia:About|About]]</td>
<td>[[Proteopedia:About|About]]</td>
<td>[[Special:Contact|Contact]]</td>
<td>[[Special:Contact|Contact]]</td>
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<td>[[Template:MainPageNews|Hot News]]</td>
<td>[[Proteopedia:Table of Contents|Table of Contents]]</td>
<td>[[Proteopedia:Table of Contents|Table of Contents]]</td>
<td>[[Proteopedia:Structure Index|Structure Index]]</td>
<td>[[Proteopedia:Structure Index|Structure Index]]</td>

Current revision

ISSN 2310-6301

As life is more than 2D, Proteopedia helps to bridge the gap between 3D structure & function of biomacromolecules

Proteopedia presents this information in a user-friendly way as a collaborative & free 3D-encyclopedia of proteins & other biomolecules.


Selected Research Pages In Journals Education
About this image
Bacteria float with nano-balloons.

ST Huber, D Terwiel, WH Evers, D Maresca, AJ Jakobi. Preprint 2022 doi: 10.1101/2022.05.08.489936
Many kinds of bacteria and archaea control their buoyancy to move to optimal positions in liquid environments. They do this by making nano-compartments called "gas vesicles", long "pipes" with closed ends filled with gases. In 2022, gas vesicle structure was solved, revealing self-assembling thin-walled cylinders of remarkable strength with gas-permeable pores and water-repelling (hydrophobic) interiors. Building on this structural knowledge, gas vesicles are being engineered to serve as biosensors that report via ultrasound.

>>> Visit I3DC Interactive Visualizations >>>

About this image
Structural flexibility of the periplasmic protein, FlgA, regulates flagellar P-ring assembly in Salmonella enterica.

H Matsunami, YH Yoon, VA Meshcheryakov, K Namba, FA Samatey. Scientific Reports 2016 doi: 10.1038/srep27399
A periplasmic flagellar chaperone protein, FlgA, is required for P-ring assembly in bacterial flagella of taxa such as Salmonella enterica or Escherichia coli. Here we present the open and closed crystal structures of FlgA from Salmonella enterica serovar Typhimurium, grown under different crystallization conditions. An intramolecular disulfide cross-linked form of FlgA caused a dominant negative effect on motility of the wild-type strain.

>>> Visit this I3DC complement >>>

About this image
Transport of Drugs & Nutrients

Above is a transmembrane protein that takes up, into your intestinal cells, orally consumed peptide nutrients and drugs. Its lumen-face (shown above) opens and binds peptide or drug, then closes, while its cytoplasmic face (opposite end from the above) opens to release its cargo into the intestinal cell, which passes it on into the blood circulation.

>>> See more animations and explanation >>>

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About Interactive 3D Complements - I3DCs

List of I3DCs

How to get an I3DC for your paper

Teaching strategies using Proteopedia

Examples of pages for teaching

How to add content to Proteopedia
About Contact Hot News Table of Contents Structure Index Help

Proteopedia Page Contributors and Editors (what is this?)

Joel L. Sussman, Jaime Prilusky

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