MS2DB: An Algorithmic Approach to Determine Disulfide Linkage Patterns

19th IEEE Symposium on Computer-Based Medical Systems (CBMS'06) Pub Date : 2006-06-22 DOI:10.1109/CBMS.2006.119

Timothy Lee, Rahul Singh, T. Yen, B. Macher

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引用次数: 3

Abstract

Determining the number and location of disulfide bonds within a protein provide valuable insight into the protein's three-dimensional structure. Purely computational methods that predict the bonded cysteine pairings given a protein's primary structure have limitations in both prediction correctness and the number of bonds that can be predicted. Our approach utilizes tandem mass spectrometric (MS/MS) experimental procedures that produce spectra of protein fragments joined by a disulfide bond. This allows the limitations in correctness and scaling to be overcome. The algorithmic problem then becomes how to match a theoretical mass space of all possible bonded fragments against the MS/MS data. In our algorithm, which we call the indexed approach, the regions of the mass space that contain masses comparable to the MS/MS spectrum masses are located before the match is determined. We have developed a software package, MS2DB, which implements this approach. A performance study shows that the indexed approach determines disulfide bond linkage patterns both correctly and efficiently

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MS2DB:确定二硫键模式的算法方法

确定蛋白质中二硫键的数量和位置，为了解蛋白质的三维结构提供了有价值的见解。根据蛋白质的一级结构预测结合的半胱氨酸配对的纯计算方法在预测的正确性和可以预测的键的数量上都有局限性。我们的方法利用串联质谱(MS/MS)实验程序，产生由二硫键连接的蛋白质片段的光谱。这可以克服正确性和可伸缩性方面的限制。然后，算法问题就变成了如何将所有可能粘合碎片的理论质量空间与MS/MS数据相匹配。在我们的算法中，我们称之为索引方法，在确定匹配之前，质量空间中包含与MS/MS谱质量相当的质量的区域被定位。我们开发了一个软件包MS2DB来实现这种方法。性能研究表明，索引方法确定二硫键连接模式是正确和有效的

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19th IEEE Symposium on Computer-Based Medical Systems (CBMS'06)

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