二维凝胶电泳图像的两步迭代配准

2007 IEEE International Conference on Research, Innovation and Vision for the Future Pub Date : 2007-03-05 DOI:10.1109/RIVF.2007.369168

Minh-Tuan T. Hoang, H. T. Huynh, Nguyen H. Vo, Yonggwan Won, Jung-Ja Kim

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引用次数: 1

摘要

2d凝胶电泳(2D-GE)是蛋白质组学研究中分离蛋白质样品的核心技术。2D-GE图像通常包含数百个应该通过图像处理技术检测到的蛋白质点。通过比较健康人和患者的两种样品来确定缺失的蛋白质，有助于开发药物或疾病控制。这个匹配过程是一项费力的工作，需要由计算机自动完成，尽可能减少用户的干预。本文提出了一种二维ge图像中蛋白质斑点的两步迭代配准算法。该算法估计对应标记之间的几何差异，并迭代移动匹配凝胶中的斑点点，以更接近其在参考凝胶中的对应点。每个点的移动量受点到所有地标的欧氏距离的影响。定义了单步匹配的优缺点;然后讨论了两步迭代配准算法的动机和结果。

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Two-Step Iterative Registration for 2D-Gel Electrophoresis Images

2D-gel electrophoresis (2D-GE) is a central technique for separation of protein samples in proteomic research. A 2D-GE image usually contains hundreds of protein spots that should be detected by an image processing technique. Identifying the missing proteins by comparison of two samples such as from healthy person and patient can be helpful in developing medicine or disease control. This matching process is a laborious work that needs to be automatically done by computers with less user intervention as much as possible. In this paper, we propose a two-step iterative registration algorithm for protein spots in 2D-GE images. The algorithm estimates the geometrical differences between the corresponding landmarks and iteratively moves the spot points in the matched gel in order to be closer to its correspondence in the reference gel. The amount of movement of each spot is affected by the Euclidian distances from the spot to all landmarks. The single-step matching is defined with its pros and cons; then the motivation to a two-step iterative registration algorithm and its results are discussed.

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2007 IEEE International Conference on Research, Innovation and Vision for the Future

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