隐马尔可夫模型提取亮氨酸拉链图案

Nec Research & Development Pub Date : 1900-01-01 DOI:10.11234/GI1990.6.77

Yukiko Fujiwara, M. Asogawa, A. Konagaya

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引用次数: 5

摘要

本文描述了一种用隐马尔可夫模型(HMM)表示随机基序的方法，该模型由表示基序氨基酸变化的概率和基序的长度灵活性组成。为了高精度地表达随机基元，必须根据基元的特征获得最优HMM拓扑。为了从基序的未对齐序列中获得最优HMM拓扑，提出了一种迭代复制学习方法。它可以自动表示α-螺旋的亚族分支和周期拓扑。该方法通过逐个拆分合适的状态，逐步扩展一个小的全连接HMM。对亮氨酸拉链的几种分裂状态选择技术进行了实验。所得到的hmm包含亚族分支和依赖于必要的周期拓扑。实验结果表明，hmm在预测性能上比模式更强大。

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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Hidden Markov Model to extract leucine zipper motif

This paper describes a method to construct a stochastic motif represented by a Hidden Markov Model (HMM), which consists of probabilities representing the amino acid variations and the length flexibility of a motif. To express the stochastic motif with high accuracy, the optimal HMM topology must be obtained according to the motif's characteristic. To obtain the optimal HMM topology from unaligned sequences of a motif, the learning method, named the iterative duplication method, has been developed. It can automatically represent the subfamily branches and the periodic topology for α-helices. In this method, a small fully connected HMM is gradually expanded by splitting appropriate states one by one. The several techniques for splitting state selection are experimented for leucine zipper. The obtained HMMs contain the subfamily branches and the periodic topology relying on necessities. The experimental results show that the HMMs are more powerful than patterns in terms of prediction performance.

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Nec Research & Development

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