Difference between revisions of "Bioinformatics Example Meshes"

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(2D Example Meshes)
 
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Uniform and graded tetrahedral meshes capable to help identify the internal voids of the <b>COVID-19 spike glycoprotein. </b> The middle and right meshes are slices. Biological assembly data was retrieved from the molecule [https://www.rcsb.org/structure/6vxx 6vxx],  [https://www.rcsb.org/ Protein Data Bank].
 
Uniform and graded tetrahedral meshes capable to help identify the internal voids of the <b>COVID-19 spike glycoprotein. </b> The middle and right meshes are slices. Biological assembly data was retrieved from the molecule [https://www.rcsb.org/structure/6vxx 6vxx],  [https://www.rcsb.org/ Protein Data Bank].
 
=2D Example Meshes=
 
The directory containing the 2D input data is located in the 2D folder of [https://odu.box.com/s/9scj74ix4eulpvgc93sbwte1uvlde8b6 Bioninformatics_Data].
 
 
==COVID-19-23311==
 
* [https://odu.box.com/s/musv3zdpx6a76p282t2xn905rf0xlwty Input Image]
 
* Input image : Dimensions (2,460x2,460) with spacing (1x1)
 
* Uniform with Min-Edge = 20: 47,028 triangles
 
* Adaptive with Min-Edge = 20: 34,080 tetrahedra
 
 
<gallery mode="packed" heights=250px>
 
File:COVID-19-23311,uniform,e=20,suface.png
 
File:COVID-19-23311,uniform,e=20,triangulation.png
 
</gallery>
 
<gallery mode="packed" heights=250px>
 
File:COVID-19-23311,w=0.1,e=20,suface.png
 
File:COVID-19-23311,w=0.1,e=20,triangulation.png
 
</gallery>
 
 
Commands to generate meshes:
 
 
'''Uniform with Min-Edge = 20:''' [https://odu.box.com/s/dkv6271ky0cxvk4lio2bvw6jv9zw5iaf Output Mesh]
 
<pre>
 
docker run -v $(pwd):/data/ crtc_i2m tessellate2d --input ./Medical_Imaging_Data/2D/COVID-19-23311.tif --uniform --min-edge 20 --output ./COVID-19-23311,uniform,e=20.vtk
 
</pre>
 
 
'''Adaptive with Min-Edge = 20:''' [https://odu.box.com/s/jeqmz2c8dsssl8zujkywl2v3bjaby8gc Output Mesh]
 
<pre>
 
docker run -v $(pwd):/data/ crtc_i2m tessellate2d --input ./Medical_Imaging_Data/2D/COVID-19-23311.tif --min-edge 20 --output ./COVID-19-23311,w=0.1,e=20.vtk
 
</pre>
 
 
Meshes generated based on the image [https://phil.cdc.gov//PHIL_Images/23311/23311.tif 23311] retrieved from the [https://www.cdc.gov/media/subtopic/images.htm Centers for Disease Control and Prevention]. For the uniform mesh, the edge-size corresponds to 20 pixels. The adaptive was created by controlling the size of the elements based on the difference in the intensity of the pixels.
 
 
==COVID-19-23354==
 
* [https://odu.box.com/s/vwse25rtxemv27sf8vkzofupc4l5mnc7 Input Image]
 
* Input image : Dimensions (3,000x2,000) with spacing (1x1)
 
* Uniform with Min-Edge = 15: 82,981 triangles
 
* Adaptive with Min-Edge = 15: 67,920 triangles
 
 
<gallery mode="packed" heights=250px>
 
File:COVID-19-23354,uniform,e=15,suface.png
 
File:COVID-19-23354,uniform,e=15,triangulation.png
 
</gallery>
 
<gallery mode="packed" heights=250px>
 
File:COVID-19-23354,w=0.1,e=15,suface.png
 
File:COVID-19-23354,w=0.1,e=15,triangulation.png
 
</gallery>
 
 
Commands to generate meshes:
 
 
'''Uniform with Min-Edge = 15:''' [https://odu.box.com/s/g1ujcqm76q0oxa0cm9dderp9tf5hqubt Output Mesh]
 
<pre>
 
docker run -v $(pwd):/data/ crtc_i2m tessellate2d --input ./Medical_Imaging_Data/2D/COVID-19-23354.tif --uniform --min-edge 15 --output ./COVID-19-23354,uniform,e=15.vtk
 
</pre>
 
 
'''Adaptive with Min-Edge = 15:''' [https://odu.box.com/s/bf0w2cfh7ww8wsm45e9yfxahiwb1m864 Output Mesh]
 
<pre>
 
docker run -v $(pwd):/data/ crtc_i2m tessellate2d --input ./Medical_Imaging_Data/2D/COVID-19-23354.tif --min-edge 15 --output ./COVID-19-23354,w=0.1,e=15.vtk
 
</pre>
 
 
Meshes generated based on the image [https://phil.cdc.gov//PHIL_Images/23354/23354.tif 23354] retrieved from the [https://www.cdc.gov/media/subtopic/images.htm Centers for Disease Control and Prevention]. For the uniform mesh, the edge-size corresponds to 15 pixels. The adaptive was created by controlling the size of the elements based on the difference in the intensity of the pixels.
 

Latest revision as of 22:30, 23 July 2020

3D Example Meshes

The directory containing the 3D input data is located in the 3D folder of Bioninformatics_Data.

COVID-19-Main-Protease-6y2e

  • Input Image
  • Input image : Dimensions (284x303x344) with spacing (0.2226907x0.2226907x0.2226907)
  • Uniform with Delta = 0.3: 2,509,202 tetrahedra
  • COVID-19-Main-Protease-6y2e,d=0.5.png
  • COVID-19-Main-Protease-6y2e,d=0.5,clip.png
  • COVID-19-Main-Protease-6y2e,d=0.5,label=1.png
  • COVID-19-Main-Protease-6y2e,d=0.5,label=2.png

Commands to generate meshes:

Uniform with Delta = 0.3: Output Mesh 

docker run -v $(pwd):/data/ crtc_i2m tessellate3d --input ./Medical_Imaging_Data/3D/COVID-19-Main-Protease-6y2e.nrrd --delta 0.3 --output ./COVID-19-Main-Protease-6y2e,d=0.3.vtk

Uniform tetrahedral mesh capable to help identify the internal voids of the COVID-19 Main Protease. Biological assembly data was retrieved from the molecule 6y2e, Protein Data Bank.

COVID-19-NSP-15-Endoribonuclease-6vww

  • [Input Image]
  • Input image : Dimensions (303x297x337) with spacing (0.3445713x0.3445713x0.3445713)
  • Uniform with Delta = 0.5: 2,310,215 tetrahedra
  • COVID-19-NSP-15-Endoribonuclease-6vww,d=0.3.png
  • COVID-19-NSP-15-Endoribonuclease-6vww,d=0.3,clip.png
  • COVID-19-NSP-15-Endoribonuclease-6vww,d=0.3,label=1.png
  • COVID-19-NSP-15-Endoribonuclease-6vww,d=0.3,label=2.png
  • COVID-19-NSP-15-Endoribonuclease-6vww,d=0.3,label=3.png

Commands to generate meshes:

Uniform with Delta = 0.5: Output Mesh 

docker run -v $(pwd):/data/ crtc_i2m tessellate3d --input ./Medical_Imaging_Data/3D/COVID-19-NSP-15-Endoribonuclease-6vww.nrrd --delta 0.5 --output ./COVID-19-NSP-15-Endoribonuclease-6vww,d=0.5.vtk

Uniform tetrahedral mesh capable to help identify the internal voids of the COVID-19 NSP15 Endoribonuclease. Biological assembly data was retrieved from the molecule 6vww, Protein Data Bank.

COVID-19-Spike-Glycoprotein-6vxx

  • Input Image
  • Input image : Dimensions (281x380x302) with spacing (0.427871x0.427871x0.427871)
  • Uniform with Delta = 0.5: 3,260,055 tetrahedra
  • COVID-19-Spike-Glycoprotein-6vxx,d=5.png
  • COVID-19-Spike-Glycoprotein-6vxx,d=5,zoom.png
  • COVID-19-Spike-Glycoprotein-6vxx,d=5,label=1.png
  • COVID-19-Spike-Glycoprotein-6vxx,d=5,label=2.png
  • COVID-19-Spike-Glycoprotein-6vxx,d=5,label=3.png

Commands to generate meshes:

Uniform with Delta = 0.5: Output Mesh 

docker run -v $(pwd):/data/ crtc_i2m tessellate3d --input ./Medical_Imaging_Data/3D/COVID-19-Spike-Glycoprotein-6vxx.nrrd --delta 0.5 --output ./COVID-19-Spike-Glycoprotein-6vxx,d=5.vtk

Uniform tetrahedral mesh capable to help identify the internal voids of the COVID-19 spike glycoprotein. Biological assembly data was retrieved from the molecule 6vxx, Protein Data Bank.

COVID-19-Spike-Glycoprotein-6vsb

  • Input Image
  • Input image : Dimensions (220x223x314) with spacing (0.551042x0.551042x0.551042)
  • Uniform with Delta = 0.4: 5,731,833 tetrahedra
  • Graded with Delta = 0.4: 3,794,223 tetrahedra
  • COVID-19-Spike-Glycoprotein-6vsb,d=0.4.png
  • COVID-19-Spike-Glycoprotein-6vsb,d=0.4,clip.png
  • COVID-19-Spike-Glycoprotein-6vsb,d=0.4,graded.png
  • COVID-19-Spike-Glycoprotein-6vsb,d=0.4,graded,clip.png

Commands to generate meshes:

Uniform with Delta = 0.4: Output Mesh 

docker run -v $(pwd):/data/ crtc_i2m tessellate3d --input ./Medical_Imaging_Data/3D/COVID-19-Spike-Glycoprotein-6vsb.nrrd --delta 0.4 --output ./COVID-19-Spike-Glycoprotein-6vsb,d=0.4.vtk

Graded with Delta = 0.4: Output Mesh 

docker run -v $(pwd):/data/ crtc_i2m tessellate3d --input ./Medical_Imaging_Data/3D/COVID-19-Spike-Glycoprotein-6vsb.nrrd --delta 0.4 --volume-grading --output ./COVID-19-Spike-Glycoprotein-6vsb,d=0.4,graded.vtk

Uniform and graded tetrahedral meshes capable to help identify the internal voids of the COVID-19 spike glycoprotein. The middle and right meshes are slices. Biological assembly data was retrieved from the molecule 6vxx, Protein Data Bank.

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