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<b>As life is more than 2D</b>, Proteopedia helps to bridge the gap between 3D structure & function of biomacromolecules
<b>As life is more than 2D</b>, Proteopedia helps to bridge the gap between 3D structure & function of biomacromolecules
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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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Revision as of 12:08, 21 October 2018

ISSN 2310-6301

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

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.


Selected Pages Art on Science Journals Education

Lifecycle of SARS-CoV-2

What happens if a SARS-CoV-2 coronavirus enters your lung? This molecular animation visualises how the virus particle can take over the host cell and turns it into a virus factory. Eventually, the host cell produces so many viral particles that it dies and releases numerous new virus particles. >>> Visit this page >>>

About this image
Molecular Sculpture

by Eric Martz
A historical review on sculptures and physical models of macromolecules.

>>> 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
You Are What You Eat!

Above is an integral membrane protein that takes up, into your intestinal cells, orally consumed peptide nutrients and drugs. Its lumen-face (top) opens and binds peptide or drug (small solid object in the center), then closes, while its cytoplasmic face (bottom) opens to release its cargo into the intestinal cell, which passes it on to the blood circulation.

>>> See more animations and explanation >>>

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List of Art on Science pages

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 Table of Contents Structure Index Help

Proteopedia Page Contributors and Editors (what is this?)

Joel L. Sussman, Jaime Prilusky

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