James Tyrwhitt-Drake

Scientific Visualization Specialist

Contractor, Medical Science and Computing, Inc.

Bioinformatics and Computational Biosciences Branch (BCBB)

NIH/NIAID/OD/OSMO/OCICB

Building 31, 3B62

Bethesda, MD

240-593-7508

@NIAIDBioIT | @NIH3Dprint

 

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Hi James,

 

That's a great little resource, thanks very much! The structures I'm dealing with don't play nicely with the default surface parameters, so the grid size has done wonders.

 

Out of interest, what sort of size would you consider reasonable for printing of a large viral assembly if you were doing the printing? The models currently have about a million and a half atoms, and the STL files are coming out at a few GB at present (hence me wanting to optimise the shrinking and remeshing).

 

Thanks,

 

Joe

From: Tyrwhitt-Drake, James (NIH/NIAID) [C] <james.tyrwhitt-drake@nih.gov>
Sent: 22 September 2017 14:33:23
To: Hurt, Darrell (NIH/NIAID) [E]; Healey, Joe; David Bhella
Cc: NIH 3D Print Exchange; chimera-users@cgl.ucsf.edu
Subject: RE: [Chimera-users] STL File export size

Hi Joe and David

 

If you want to reduce the mesh density of a Chimera model before export, use the following two methods.  These are much more elegant than mesh reduction after export, which can introduce errors.  You can read our molecular 3D printing protocol in JoVE for detailed instructions of model generation and printing:

https://www.jove.com/video/55427/3d-printing-of-biomolecular-models-for-research-and-pedagogy

https://www.jove.com/files/ftp_upload/55427/Manuscript_Supplement_material.pdf

 

Ribbon models

• Open Tools>depiction>ribbon style editor
• Select the ‘cross section’ tab
• Change the ribbon cross section to something simpler.  You may draw a square, octagon or (a good balance) hexadecagon.  Drawing the shapes can be a little tricky, but the results are worth it!

 

 

Surfaces

• Instead of using the surface command from the menus, enter the following command in the command line” where ‘#0’ is the model number, and ‘0.5’ is the grid resolution in angstroms.  Higher grid values give less detailed meshes

• surf #0 grid 0.5

 

Regards,

 

 

 

Hi Joe and David,

 

I encourage you to consider the NIH 3D Print Exchange (cc’d) as a place to easily create 3D-printable models of proteins of any size or complexity. We use Chimera as part of our toolchain, so the models will look familiar to you. Check out the “Submit” function of the website to upload a PDB file and get a model in return. Or simply type in a PDB accession code for your model in the “Quick Submit” box to generate a model.

 

https://3dprint.nih.gov

 

Full disclosure: I lead the team that maintains the Exchange.

 

Cheers,

Darrell

 

-- 

Darrell Hurt, Ph.D.
Chief, Bioinformatics and Computational Biosciences Branch (BCBB)
OCICB/OSMO/OD/NIAID/NIH
 
5601 Fishers Lane, 4A50
North Bethesda, MD 20852

Office: 240-669-2741

Mobile: 301-758-3559

Web: BCBB Home Page
Twitter: @niaidbioit , @NIH3Dprint

 

Disclaimer: The information in this e-mail and any of its attachments is confidential and may contain sensitive information. It should not be used by anyone who is not the original intended recipient. If you have received this e-mail in error please inform the sender and delete it from your mailbox or any other storage devices. National Institute of Allergy and Infectious Diseases shall not accept liability for any statements made that are sender's own and not expressly made on behalf of the NIAID by one of its representatives.