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Contributors: Prof. Michael J E Sternberg 


BiVi theme: Molecular

Prof Michael Sternberg introduces bio-visualisation in the Molecular theme from a user perspective at 1st BiVi in 2014. Created at: 1st BiVi Annual Meeting.

Keywords: Molecular

Resource type: Video

BiVi theme: Molecular https://tess.elixir-europe.org/materials/bivi-theme-molecular Prof Michael Sternberg introduces bio-visualisation in the Molecular theme from a user perspective at 1st BiVi in 2014. Created at: 1st BiVi Annual Meeting. Prof. Michael J E Sternberg Molecular 2017-02-01
BiVi theme: Molecular - Structural molecular graphics

Prof Michael Sternberg introduces the Molecular bio-visualsation session at 2nd BiVi in 2015. Created at: 2nd BiVi Annual Meeting.

Keywords: Molecular

Resource type: Slideshow

BiVi theme: Molecular - Structural molecular graphics https://tess.elixir-europe.org/materials/bivi-theme-molecular-structural-molecular-graphics Prof Michael Sternberg introduces the Molecular bio-visualsation session at 2nd BiVi in 2015. Created at: 2nd BiVi Annual Meeting. Prof. Michael J E Sternberg Molecular 2017-02-03
EzMol and BioBlox: From Resources for Protein Modelling to Educational Computer Games

In this talk Michael Sternberg of Imperial reports how their research on protein modelling has led to the development of computer games with a role in scientific education. At Imperial, Chris Reynolds has developed a web-based molecular graphics resource EzMol which is a simple-to-use display of...

Keywords: Molecular

Resource type: Video

EzMol and BioBlox: From Resources for Protein Modelling to Educational Computer Games https://tess.elixir-europe.org/materials/ezmol-and-bioblox-from-resources-for-protein-modelling-to-educational-computer-games In this talk Michael Sternberg of Imperial reports how their research on protein modelling has led to the development of computer games with a role in scientific education. At Imperial, Chris Reynolds has developed a web-based molecular graphics resource EzMol which is a simple-to-use display of protein structures. In collaboration with Frederic Fol Leymarie, William Latham and their team at Goldsmiths, we have developed the BioBlox suite of scientific-based computer games based around protein docking. BioBox3D is a serious crowd-sourced game for predicting protein/protein docking. BioBlox2D is a fun-to-play game with scientific content for phone/tablet inspired by the recognition between proteins and small molecules. Finally, BioBloxVR is a virtual reality environment for protein docking inspired by BioBlox3D. We are exploring the opportunities for EzMol and BioBlox as educational resources. The projects were supported by the BBSRC. Created at: 3rd BiVi Annual Meeting (2017). Prof. Michael J E Sternberg Molecular 2017-05-15