Jahandideh Samad, Hoseini Somayyeh, Jahandideh Mina, Hoseini Afsaneh, Disfani Fatemeh Miri
Department of Medical physics, Shiraz University of Medical Sciences, Shiraz, Iran.
J Theor Biol. 2009 Aug 7;259(3):517-22. doi: 10.1016/j.jtbi.2009.04.016. Epub 2009 May 3.
Due to the slightly success of protein secondary structure prediction using the various algorithmic and non-algorithmic techniques, similar techniques have been developed for predicting gamma-turns in proteins by Kaur and Raghava [2003. A neural-network based method for prediction of gamma-turns in proteins from multiple sequence alignment. Protein Sci. 12, 923-929]. However, the major limitation of previous methods was inability in predicting gamma-turn types. In a recent investigation we introduced a sequence based predictor model for predicting gamma-turn types in proteins [Jahandideh, S., Sabet Sarvestani, A., Abdolmaleki, P., Jahandideh, M., Barfeie, M, 2007a. gamma-turn types prediction in proteins using the support vector machines. J. Theor. Biol. 249, 785-790]. In the present work, in order to analyze the effect of sequence and structure in the formation of gamma-turn types and predicting gamma-turn types in proteins, we applied novel hybrid neural discriminant modeling procedure. As the result, this study clarified the efficiency of using the statistical model preprocessors in determining the effective parameters. Moreover, the optimal structure of neural network can be simplified by a preprocessor in the first stage of hybrid approach, thereby reducing the needed time for neural network training procedure in the second stage and the probability of overfitting occurrence decreased and a high precision and reliability obtained in this way.
由于使用各种算法和非算法技术进行蛋白质二级结构预测的成效有限,考尔和拉加瓦[2003年。一种基于神经网络的从多序列比对预测蛋白质中γ-转角的方法。《蛋白质科学》。12,923 - 929]开发了类似技术来预测蛋白质中的γ-转角。然而,先前方法的主要局限性在于无法预测γ-转角类型。在最近的一项研究中,我们引入了一种基于序列的预测模型来预测蛋白质中的γ-转角类型[贾汉迪德,S.,萨贝·萨尔韦斯塔尼,A.,阿卜杜勒马莱基,P.,贾汉迪德,M.,巴尔菲,M,2007a。使用支持向量机预测蛋白质中的γ-转角类型。《理论生物学杂志》。249,785 - 790]。在本工作中,为了分析序列和结构在γ-转角类型形成以及预测蛋白质中γ-转角类型方面的作用,我们应用了新颖的混合神经判别建模程序。结果,本研究阐明了使用统计模型预处理器确定有效参数的效率。此外,在混合方法的第一阶段,预处理器可以简化神经网络的最优结构,从而减少第二阶段神经网络训练过程所需的时间,降低过拟合发生的概率,并以此获得高精度和可靠性。
