Ivan Labat scite author profile

Signalling pathway activation analysis is a powerful approach for extracting biologically relevant features from large-scale transcriptomic and proteomic data. However, modern pathway-based methods often fail to provide stable pathway signatures of a specific phenotype or reliable disease biomarkers. In the present study, we introduce the in silico Pathway Activation Network Decomposition Analysis (iPANDA) as a scalable robust method for biomarker identification using gene expression data. The iPANDA method combines precalculated gene coexpression data with gene importance factors based on the degree of differential gene expression and pathway topology decomposition for obtaining pathway activation scores. Using Microarray Analysis Quality Control (MAQC) data sets and pretreatment data on Taxol-based neoadjuvant breast cancer therapy from multiple sources, we demonstrate that iPANDA provides significant noise reduction in transcriptomic data and identifies highly robust sets of biologically relevant pathway signatures. We successfully apply iPANDA for stratifying breast cancer patients according to their sensitivity to neoadjuvant therapy.

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Sequencing of megabase plus DNA by hybridization: Theory of the method

Drmanac¹,

Labat²,

Brukner³

et al. 1989

Genomics

330

118

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DNA Sequence Determination by Hybridization: a Strategy for Efficient Large-Scale Sequencing

Drmanac

Strezoska

et al. 1993

Science

217

104

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The concept of sequencing by hybridization (SBH) makes use of an array of all possible n-nucleotide oligomers (n-mers) to identify n-mers present in an unknown DNA sequence. Computational approaches can then be used to assemble the complete sequence. As a validation of this concept, the sequences of three DNA fragments, 343 base pairs in length, were determined with octamer oligonucleotides. Possible applications of SBH include physical mapping (ordering) of overlapping DNA clones, sequence checking, DNA fingerprinting comparisons of normal and disease-causing genes, and the identification of DNA fragments with particular sequence motifs in complementary DNA and genomic libraries. The SBH techniques may accelerate the mapping and sequencing phases of the human genome project.

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Design of efficient computational workflows for in silico drug repurposing

Vanhaelen

Mamoshina

Aliper

et al. 2017

Drug Discovery Today

137

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Accurate sequencing by hybridization for DNA diagnostics and individual genomics

Drmanac¹,

Kita²,

Labat³

et al. 1998

Nat Biotechnol

151

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Medical DNA diagnostics will increasingly rely on an accurate and inexpensive identification of mutations that affect the function of a gene. To validate diagnostic sequencing by hybridization (SBH), a number of p53 samples were analyzed with the complete set of 8192 noncomplementary 7-mer oligonucleotides. In four repeated, blind experiments we accurately sequenced 1.1 kb per each of 12 homozygote and heterozygote samples possessing base substitutions, insertions, and deletions. This SBH variant offers a high throughput platform to inexpensively sequence individual gene or pathogen genome samples within the clinical laboratory setting.

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Ivan Labat

In silico Pathway Activation Network Decomposition Analysis (iPANDA) as a method for biomarker development

Sequencing of megabase plus DNA by hybridization: Theory of the method

DNA Sequence Determination by Hybridization: a Strategy for Efficient Large-Scale Sequencing

Design of efficient computational workflows for in silico drug repurposing

Accurate sequencing by hybridization for DNA diagnostics and individual genomics

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