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Its goal is to present this information in a user-friendly manner to a broad scientific audience as a free, collaborative 3D-encyclopedia of proteins & other molecules.
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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
Mutations in Coronavirus Spike Protein

by Eric Martz
Black spots are mutations of concern in SARS-CoV-2 spike protein reported by UK scientists in December, 2020. RNA viruses mutate quickly so mutations are expected. These mutations may speed up contagion, but are unlikely to cause more severe COVID-19 and unlikely to reduce vaccine effectiveness. ACE2 binding residues. Animation shows priming via cleavage by furin.
>>> Visit this page >>>

About this image
Structure of Anticancer Ruthenium Half-Sandwich Complex Bound to Glycogen Synthase Kinase 3ß

G Atilla-Gocumen, L Di Costanzo, E Meggers. J Biol Inorg Chem. 2010 doi: 10.1007/s00775-010-0699-x
A crystal structure of an organometallic half-sandwich ruthenium complex bound to glycogen synthase kinase 3ß (GSK-3ß) reveals that the inhibitor binds to the ATP binding site via an induced fit mechanism utilizing several hydrogen bonds and hydrophobic interactions. Importantly, the metal is not involved in any direct interaction with the protein kinase but fulfills a purely structural role.

>>> Visit this I3DC complement >>>

About this image
Make Your Own Electrostatic Potential Maps

Positive (+) and Negative (-) charges on the surface of a protein molecule play crucial roles in its interactions with other molecules, and hence in its functions. Electrostatic potential maps coloring the surface of a protein molecule are a popular way to visualize the distribution of surface charges. Easy to use free software is available to to create these surface maps. Above is an integral membrane potassium channel protein. One of its 4 identical chains is removed so you can see the Negative (-) protein surface contacting the 3 K+ ions.

>>> See Examples and Get Instructions >>>

How to add content to Proteopedia

Video Guides

Who knows ...

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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