A general modeling and visualization tool for comparing different members of a group: application to studying tau-mediated regulation of microtubule dynamics

A general modeling and visualization tool for comparing different members of a group: application to studying tau-mediated regulation of microtubule dynamics

<p>Abstract</p> <p>Background</p> <p>Innumerable biological investigations require comparing collections of molecules, cells or organisms to one another with respect to one or more of their properties. Almost all of these comparisons are performed manually, which can be...

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Main Authors: Wilson Leslie, Gaylord Michelle, LeBoeuf Adria, Levy Sasha, Bhattacharya Arnab, Singh Ambuj K, Feinstein Stuart C
Format: Article
Language:English
Published: BMC 2008-08-01
Series:BMC Bioinformatics
Online Access:http://www.biomedcentral.com/1471-2105/9/339
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spelling doaj-73fce14164cb4718ae60167a22b8da5c2020-11-25T00:13:28ZengBMCBMC Bioinformatics1471-21052008-08-019133910.1186/1471-2105-9-339A general modeling and visualization tool for comparing different members of a group: application to studying tau-mediated regulation of microtubule dynamicsWilson LeslieGaylord MichelleLeBoeuf AdriaLevy SashaBhattacharya ArnabSingh Ambuj KFeinstein Stuart C<p>Abstract</p> <p>Background</p> <p>Innumerable biological investigations require comparing collections of molecules, cells or organisms to one another with respect to one or more of their properties. Almost all of these comparisons are performed manually, which can be susceptible to inadvertent bias as well as miss subtle effects. The development and application of computer-assisted analytical and interpretive tools could help address these issues and thereby dramatically improve these investigations.</p> <p>Results</p> <p>We have developed novel computer-assisted analytical and interpretive tools and applied them to recent studies examining the ability of 3-repeat and 4-repeat tau to regulate the dynamic behavior of microtubules in vitro. More specifically, we have developed an automated and objective method to define growth, shortening and attenuation events from real time videos of dynamic microtubules, and demonstrated its validity by comparing it to manually assessed data. Additionally, we have used the same data to develop a general strategy of building different models of interest, computing appropriate dissimilarity functions to compare them, and embedding them on a two-dimensional plot for visualization and easy comparison. Application of these methods to assess microtubule growth rates and growth rate distributions established the validity of the embedding procedure and revealed non-linearity in the relationship between the tau:tubulin molar ratio and growth rate distribution.</p> <p>Conclusion</p> <p>This work addresses the need of the biological community for rigorously quantitative and generally applicable computational tools for comparative studies. The two-dimensional embedding method retains the inherent structure of the data, and yet markedly simplifies comparison between models and parameters of different samples. Most notably, even in cases where numerous parameters exist by which to compare the different samples, our embedding procedure provides a generally applicable computational strategy to detect subtle relationships between different molecules or conditions that might otherwise escape manual analyses.</p> http://www.biomedcentral.com/1471-2105/9/339
collection DOAJ
language English
format Article
sources DOAJ
author Wilson Leslie
Gaylord Michelle
LeBoeuf Adria
Levy Sasha
Bhattacharya Arnab
Singh Ambuj K
Feinstein Stuart C
spellingShingle Wilson Leslie
Gaylord Michelle
LeBoeuf Adria
Levy Sasha
Bhattacharya Arnab
Singh Ambuj K
Feinstein Stuart C
A general modeling and visualization tool for comparing different members of a group: application to studying tau-mediated regulation of microtubule dynamics
BMC Bioinformatics
author_facet Wilson Leslie
Gaylord Michelle
LeBoeuf Adria
Levy Sasha
Bhattacharya Arnab
Singh Ambuj K
Feinstein Stuart C
author_sort Wilson Leslie
title A general modeling and visualization tool for comparing different members of a group: application to studying tau-mediated regulation of microtubule dynamics
title_short A general modeling and visualization tool for comparing different members of a group: application to studying tau-mediated regulation of microtubule dynamics
title_full A general modeling and visualization tool for comparing different members of a group: application to studying tau-mediated regulation of microtubule dynamics
title_fullStr A general modeling and visualization tool for comparing different members of a group: application to studying tau-mediated regulation of microtubule dynamics
title_full_unstemmed A general modeling and visualization tool for comparing different members of a group: application to studying tau-mediated regulation of microtubule dynamics
title_sort general modeling and visualization tool for comparing different members of a group: application to studying tau-mediated regulation of microtubule dynamics
publisher BMC
series BMC Bioinformatics
issn 1471-2105
publishDate 2008-08-01
description <p>Abstract</p> <p>Background</p> <p>Innumerable biological investigations require comparing collections of molecules, cells or organisms to one another with respect to one or more of their properties. Almost all of these comparisons are performed manually, which can be susceptible to inadvertent bias as well as miss subtle effects. The development and application of computer-assisted analytical and interpretive tools could help address these issues and thereby dramatically improve these investigations.</p> <p>Results</p> <p>We have developed novel computer-assisted analytical and interpretive tools and applied them to recent studies examining the ability of 3-repeat and 4-repeat tau to regulate the dynamic behavior of microtubules in vitro. More specifically, we have developed an automated and objective method to define growth, shortening and attenuation events from real time videos of dynamic microtubules, and demonstrated its validity by comparing it to manually assessed data. Additionally, we have used the same data to develop a general strategy of building different models of interest, computing appropriate dissimilarity functions to compare them, and embedding them on a two-dimensional plot for visualization and easy comparison. Application of these methods to assess microtubule growth rates and growth rate distributions established the validity of the embedding procedure and revealed non-linearity in the relationship between the tau:tubulin molar ratio and growth rate distribution.</p> <p>Conclusion</p> <p>This work addresses the need of the biological community for rigorously quantitative and generally applicable computational tools for comparative studies. The two-dimensional embedding method retains the inherent structure of the data, and yet markedly simplifies comparison between models and parameters of different samples. Most notably, even in cases where numerous parameters exist by which to compare the different samples, our embedding procedure provides a generally applicable computational strategy to detect subtle relationships between different molecules or conditions that might otherwise escape manual analyses.</p>
url http://www.biomedcentral.com/1471-2105/9/339
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