Sorting points into neighborhoods (SPIN): data analysis and visualization by ordering distance matrices

doi:10.1093/bioinformatics/bti329

Bioinformatics Advance Access originally published online on February 18, 2005
Bioinformatics 2005 21(10):2301-2308; doi:10.1093/bioinformatics/bti329

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Sorting points into neighborhoods (SPIN): data analysis and visualization by ordering distance matrices

D. Tsafrir ¹^,*, I. Tsafrir ¹, L. Ein-Dor ¹, O. Zuk ¹, D.A. Notterman ² and E. Domany ¹

¹Department of Complex Systems, Weizmann Institute of Science Rehovot 76100, Israel
²Department of Pediatrics and Molecular Genetics, UMDNJ-Robert Wood Johnson Medical School New Brunswick, NJ 08903, USA

^*To whom correspondence should be addressed.

Summary: We introduce a novel unsupervised approach for theorganization and visualization of multidimensional data. Atthe heart of the method is a presentation of the full pairwisedistance matrix of the data points, viewed in pseudocolor. Theordering of points is iteratively permuted in search of a linearordering, which can be used to study embedded shapes. Severalexamples indicate how the shapes of certain structures in thedata (elongated, circular and compact) manifest themselves visuallyin our permuted distance matrix. It is important to identifythe elongated objects since they are often associated with aset of hidden variables, underlying continuous variation inthe data. The problem of determining an optimal linear orderingis shown to be NP-Complete, and therefore an iterative searchalgorithm with O(n³) step-complexity is suggested. By usingsorting points into neighborhoods, i.e. SPIN to analyze coloncancer expression data we were able to address the serious problemof sample heterogeneity, which hinders identification of metastasisrelated genes in our data. Our methodology brings to light thecontinuous variation of heterogeneity—starting with homogeneoustumor samples and gradually increasing the amount of anothertissue. Ordering the samples according to their degree of contaminationby unrelated tissue allows the separation of genes associatedwith irrelevant contamination from those related to cancer progression.

Availability: Software package will be available for academicusers upon request.

Contact: fedafna{at}wisemail.weizmann.ac.il

Supplementary information: http://www.weizmann.ac.il/physics/complex/compphys/spin

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