DNA在虚拟可视化和三维基因组结构的探索

International Conference on Computer Graphics, Virtual Reality, Visualisation and Interaction in Africa Pub Date : 2004-11-03 DOI:10.1145/1029949.1029955

J. Hérisson, Pierre-Emmanuel Gros, N. Férey, Olivier Magneau, R. Gherbi

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引用次数: 15

摘要

在本文中，我们讨论了虚拟现实和科学模拟为巨大基因组序列的3D建模和沉浸式可视化提供的潜力。提出了在三维数据建模和结构化方面的进一步工作。在生物信息学中，DNA序列通常以线性形式表示。然而，它们也具有潜在的适合基因组分析的三维结构。这种三维结构的表现使生物学家能够以一种互动的方式在不同层次上观察和分析基因组:从基因到染色体。我们开发了一个强大的软件平台，为序列分析提供了一个新的视角:ADN-Viewer。然而，一条具有4000万个碱基对的经典真核染色体需要大约6gb的3D数据。为了实时管理这些海量数据，我们设计了各种场景管理算法和沉浸式人机交互，方便用户进行数据探索。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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DNA in Virtuo visualization and exploration of 3D genomic structures

In this paper, we address the potential offered by Virtual Reality and scientific simulation for 3D modeling and immersive visualization of huge genomic sequences. Advanced work on 3D data modeling and structuring is proposed. In Bioinformatics, DNA sequences are often represented within linear format. However, they also have a three-dimensional structure potentially suitable for genomic analysis. The representation of such 3D structure allows biologists to observe and analyze genomes in an interactive way at different levels: from gene to chromosome. We developed a powerful software platform that provides a new point of view for sequences analysis: ADN-Viewer. Nevertheless, a classical eukaryotic chromosome of 40 million base pairs requires about 6 Gbytes of 3D data. In order to manage these huge masses of data in real-time, we designed various scene management algorithms and immersive human-computer interaction for user-friendly data exploration.

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International Conference on Computer Graphics, Virtual Reality, Visualisation and Interaction in Africa

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