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  • * [[Walkthrough for lattices on vesicles| from densely packed spherical geometry on HIV viral capsides]] (~1 hour)
    7 KB (944 words) - 10:26, 6 September 2019
  • ...les [[Walkthrough for lattices on vesicles| from densely packed spherical geometry on HIV viral capsides]] (~1 hour)
    7 KB (984 words) - 13:31, 12 April 2018
  • ...atment of [[Walkthrough for lattices on vesicles| densely packed spherical geometry ]] (~1 hour)
    8 KB (1,246 words) - 12:51, 31 August 2017
  • ...les [[Walkthrough for lattices on vesicles| from densely packed spherical geometry ]] (~1 hour) <br />
    9 KB (1,391 words) - 15:19, 25 August 2020
  • ...les [[Walkthrough for lattices on vesicles| from densely packed spherical geometry on HIV viral capsides]] (~1 hour)
    13 KB (1,774 words) - 18:58, 26 January 2018
  • ...tore them in a ''single'' model. That's all you need to describe vesicular geometry. Additionally, the <tt>dipoleSet</tt> includes some tools for quickly extra
    18 KB (3,099 words) - 13:19, 18 August 2021
  • ...s to achieve this. A simple one is to create a model of the membrane/crown geometry, align our average to it (with <tt>dalign</tt>), and use the alignment para ...get a smoother appearance, and also a more accurate representation of the geometry.
    46 KB (7,267 words) - 11:09, 13 September 2021
  • ...s to achieve this. A simple one is to create a model of the membrane/crown geometry, align our average to it (with <tt>dalign</tt>), and use the alignment para ...get a smoother appearance, and also a more accurate representation of the geometry.
    47 KB (7,432 words) - 17:41, 3 September 2021
  • ...get a smoother appearance, and also a more accurate representation of the geometry.
    37 KB (5,792 words) - 19:30, 2 September 2019

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