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A graph-theoretic modeling on GO space for biological interpretation of gene clusters Bioinformatics Unit, ISTECH Inc. Cancer Metastasis Research Center, Yonsei University College of Medicine Sung Geun Lee, Jung Uk Hur and Yang Seok Kim 報告人:張家榮 Introduction Gene Ontology (GO) – Clusters of microarray data – Each cluster has some genes Extracts GO terms for a gene cluster – Controlled vocabulary of various genomic databases about diverse species Each gene has several corresponding GO terms Purpose – To discover the meaning of each cluster Metric structure of GO tree Lowest common ancestor Given a non-empty subset U, v is a common ancestor of U if every node in U is on a subtree having v as the root and v0 is an LCA of U if v0 is greater than or equal to the level of w for any common ancestor w of U. Lowest common ancestor Principal distance Each level has its own weight – – – W: IH -> R+ W(i) > W(i+1) For example: W(k)=150-10(k-1) Where w0 is LCA of v1 and v2 Principal distance 40 30 20 10 0 Multiset Mathematically, the following three sets {1}, {1, 1}, {1, 1, 1} are equal in the set notation. Yet, we want to take the number of occurrences of elements into account. Such set is called as a multiset. MaxPd and AverPd given a multiset G ={v1, v2, . . . , vn} MaxPd and AverPd MaxPd – – give the comprehensive biological meanings of a gene cluster Not flexible but informs us of the existence of some functional outliers AverPd – – Signifies the most frequent GO codes More than one Algorithmic approach (1) c[i,j] is j’st GO code of i’st gene We consider ordered GO codes g[m] where 1≤m≤α α is a constant related to the input data α≤Ω , Ω is the total number of GO code Algorithmic approach (2) MaxPd is used to find LCA of C Complexity : 3αn min MaxPd 40 40 30 40 30 20 20 10 0 40 Algorithmic approach (3) AverPd is used to find an optimal GO code g[m0] such that the average distance between g[m0] and each gene in C is smaller than that of any g[m] Complexity : 3αn AverPd Discussion Other algorithms consider GO term frequencies or compare specific GO termrelated gene groups In our modeling, the topological property of GO hierarchy is used. Utility Biological assessment of the clustering results of DNA microarray data Coupled with any clustering technique to predict the functional category of the unknown genes Not only DNA microarray data, but also any kinds of group analysis with any ontology having an identical structure with GO Another approach The length of GO code is about logα Take one number of GO code each time pseudo-code: for 1≤k≤ logα cluster C by the kth number break if no cluster above n delete clusters under n end MaxPd Complexity Worst case : O( nlogα) Best case : O (n) Alternate – Change the break time to cluster it in detail disadvantage Cannot obtain information not contained in GO such as disease-related genes GO terms on the same level have different level information GO hierarchy is dynamic and flexible