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* <span style="color: LemonChiffon">Hypothesis: gene activity independently regulates direction of growth.</span> | * <span style="color: LemonChiffon">Hypothesis: gene activity independently regulates direction of growth.</span> | ||
* <span style="color: LemonChiffon">Formalised in the Growing Polarised Tissue Framework (cite). </span> | * <span style="color: LemonChiffon">Formalised in the Growing Polarised Tissue Framework (cite). </span> | ||
* <span style="color: LemonChiffon">Implemented ''GFtbox'' (cite) | * <span style="color: LemonChiffon">Implemented in ''GFtbox'' (cite) for developing ideas on growth and form.</span> | ||
* <span style="color: LemonChiffon">Start with a sheet of tissue (the canvas) with observed, or hypothetical patterns of growth factor activity. </span> | ** <span style="color: LemonChiffon">Start with a sheet of tissue (the canvas) with observed, or hypothetical patterns of growth factor activity. </span> | ||
* <span style="color: LemonChiffon">Grow the canvas in 3D under constraints of tissue continuity</span> | ** <span style="color: LemonChiffon">Grow the canvas in 3D under constraints of tissue continuity</span> | ||
* <span style="color: LemonChiffon">Compare with observed data quantitatively </span><p> | ** <span style="color: LemonChiffon">Compare with observed data quantitatively </span><p> | ||
<center> [[Software#Toolboxes for research|<span style="color:GreenYellow;">Downloads and more details on ''GFtbox''</span>]] </center> | <center> [[Software#Toolboxes for research|<span style="color:GreenYellow;">Downloads and more details on ''GFtbox''</span>]] </center> | ||
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* <span style="color: LemonChiffon">Produced by</span> | * <span style="color: LemonChiffon">Produced by</span> | ||
** <span style="color: LemonChiffon">CT X-ray scanners, MRI and PET.</span> | ** <span style="color: LemonChiffon">CT X-ray scanners, MRI and PET.</span> | ||
** <span style="color: LemonChiffon">Confocal microscopy and | ** <span style="color: LemonChiffon">Confocal microscopy and OPT (cite) used with fluorescent probes that monitor biological gene activity. </span> | ||
* <span style="color: LemonChiffon">'''VolViewer''' (cite) exploits powerful graphics processors.</span> | ** <span style="color: LemonChiffon">Huge amounts of data potentially make viewing slow, but...</span> | ||
* <span style="color: LemonChiffon">Implemented '''VolViewer''' (cite) which exploits powerful graphics processors.</span> | |||
* <span style="color: LemonChiffon">Works with [[Software#Toolboxes for research|<span style="color:GreenYellow;">BioformatsConverter</span>]] to read open and proprietary file formats </span> | * <span style="color: LemonChiffon">Works with [[Software#Toolboxes for research|<span style="color:GreenYellow;">BioformatsConverter</span>]] to read open and proprietary file formats </span> | ||
<center> [[Software#Toolboxes for research|<span style="color:GreenYellow;">Downloads and more details on ''VolViewer''</span>]] </center> | <center> [[Software#Toolboxes for research|<span style="color:GreenYellow;">Downloads and more details on ''VolViewer''</span>]] </center> | ||
Revision as of 10:58, 4 May 2011
Computational Biology
The aim is to understand how patterns of gene activity in biological organs influence the developing shape.|
<sgallery width="140" height="200" showarrows="false" showcarousel="false" showinfopane="false" timed="true" delay="2000"> LabelledCropped_GPT_Snapdragon_2010-000250-0001.png LabelledCropped_GPT_Snapdragon_2010-000340-0001.png LabelledCropped_GPT_Snapdragon_2010-000490-0001.png LabelledCropped_GPT_Snapdragon_2010-000570-0002.png LabelledCropped_GPT_Snapdragon_2010-000570-0003.png LabelledCropped_GPT_Snapdragon_2010-000570-0004.png LabelledCropped_GPT_Snapdragon_2010-000570-0005.png LabelledCropped_GPT_Snapdragon_2010-000570-0007.png LabelledCropped_GPT_Snapdragon_2010-000570-0006.png LabelledCropped_GPT_Snapdragon_2010-000570-0001.png </sgallery> |
Genes and growing shapes
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<sgallery width="140" height="200" showarrows="false" showcarousel="false" showinfopane="false" timed="true" delay="3000"> LabelledCropped GPT Snapdragon 2010-000570-0003 double.png LabelledCropped GPT Snapdragon 2010-000570-0002 triple.png LabelledCropped GPT Snapdragon 2010-000570-0001-Wildtype.png </sgallery> |
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<sgallery width="140" height="200" showarrows="false" showcarousel="false" showinfopane="false" timed="true" delay="1500"> Arabidopsis_Leaf_ATH8bbg.png Antirrhinum flower small1.jpg Antirrhinum flower small2.jpg Antirrhinum flower small3.jpg Anthers1.jpg MacroOPTIris1.jpg </sgallery> |
Working with 3D volume images
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<sgallery width="140" height="200" showarrows="false" showcarousel="false" showinfopane="false" timed="true" delay="4000"> Arabidopsis_Leaf_ATH8bbg.png </sgallery> |
Photos, Algorithms and Art
Tools and Demonstrations
About
The Bangham Lab is part of the UEA D’Arcy Thompson Centre for computational biology. --Andrew 09:50, 4 May 2011 (UTC)