Amela Prelić scite author profile

First, this paper provides a methodology for comparing and validating biclustering methods that includes a simple binary reference model. Although this model captures the essential features of most biclustering approaches, it is still simple enough to exactly determine all optimal groupings; to this end, we propose a fast divide-and-conquer algorithm (Bimax). Second, we evaluate the performance of five salient biclustering algorithms together with the reference model and a hierarchical clustering method on various synthetic and real datasets for Saccharomyces cerevisiae and Arabidopsis thaliana. The comparison reveals that (1) biclustering in general has advantages over a conventional hierarchical clustering approach, (2) there are considerable performance differences between the tested methods and (3) already the simple reference model delivers relevant patterns within all considered settings.

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BicAT: a biclustering analysis toolbox

Barkow¹,

Bleuler²,

Prelić³

et al. 2006

241

138

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Sparse graphical Gaussian modeling of the isoprenoid gene network in Arabidopsis thaliana

et al. 2004

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We present a novel graphical Gaussian modeling approach for reverse engineering of genetic regulatory networks with many genes and few observations. When applying our approach to infer a gene network for isoprenoid biosynthesis in Arabidopsis thaliana, we detect modules of closely connected genes and candidate genes for possible cross-talk between the isoprenoid pathways. Genes of downstream pathways also fit well into the network. We evaluate our approach in a simulation study and using the yeast galactose network.

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An EA framework for biclustering of gene expression data

Bleuler

Prelić

Zitzler

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Secrecy in Untrusted Networks

Bugliesi

Crafa

Prelić

et al. 2003

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Abstract. We investigate the protection of migrating agents against the untrusted sites they traverse. The resulting calculus provides a formal framework to reason about protection policies and security protocols over distributed, mobile infrastructures, and aims to stand to ambients as the spi calculus stands to π. We present a type system that separates trusted and untrusted data and code, while allowing safe interactions with untrusted sites. We prove that the type system enforces a privacy property, and show the expressiveness of the calculus via examples and an encoding of the spi calculus.

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Amela Prelić

A systematic comparison and evaluation of biclustering methods for gene expression data

BicAT: a biclustering analysis toolbox

Sparse graphical Gaussian modeling of the isoprenoid gene network in Arabidopsis thaliana

An EA framework for biclustering of gene expression data

Secrecy in Untrusted Networks

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