Estimating the number of available states for normal and tumor tissues in gene expression space

Augusto Gonzalez; Frank Quintela; Dario A. Leon; Maria Luisa Bringas-Vega; Pedro A. Valdes-Sosa

Biophysical Reports (Jun 2022)

Estimating the number of available states for normal and tumor tissues in gene expression space

Augusto Gonzalez,
Frank Quintela,
Dario A. Leon,
Maria Luisa Bringas-Vega,
Pedro A. Valdes-Sosa

Affiliations

Augusto Gonzalez: The Clinical Hospital Chengdu Brain Sciences Institute, University of Electronic Sciences and Technology of China (UESTC), Chengdu, People Republic of China; Institute of Cybernetics, Mathematics and Physics, Havana, Cuba
Frank Quintela: University of Modena & Reggio Emilia, Modena, Italy; Institute of Cybernetics, Mathematics and Physics, Havana, Cuba
Dario A. Leon: S3 Centre, Istituto Nanoscienze, CNR, Modena, Italy; Institute of Cybernetics, Mathematics and Physics, Havana, Cuba; Corresponding author
Maria Luisa Bringas-Vega: The Clinical Hospital Chengdu Brain Sciences Institute, University of Electronic Sciences and Technology of China (UESTC), Chengdu, People Republic of China; Cuban Neurosciences Center, Havana, Cuba
Pedro A. Valdes-Sosa: The Clinical Hospital Chengdu Brain Sciences Institute, University of Electronic Sciences and Technology of China (UESTC), Chengdu, People Republic of China; Cuban Neurosciences Center, Havana, Cuba; Corresponding author

Journal volume & issue: Vol. 2, no. 2
p. 100053

Abstract

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The topology of gene expression space for a set of 12 cancer types is studied by means of an entropy-like magnitude, which measures the volumes of the regions occupied by tumor and normal samples, i.e., the number of available states (genotypes) that can be classified as tumor-like or normal-like, respectively. Computations show that the number of available states is much greater for tumors than for normal tissues, suggesting the irreversibility of the progression to the tumor phase. The entropy is nearly constant for tumors, whereas it exhibits a higher variability in normal tissues, probably due to tissue differentiation. In addition, we show an interesting correlation between the fraction (tumor/normal) of available states and the overlap between the tumor and normal sample clouds, interpreted as a way of reducing the decay rate to the tumor phase in more ordered or structured tissues.

Published in Biophysical Reports

ISSN: 2667-0747 (Online)
Publisher: Elsevier
Country of publisher: United States
LCC subjects: Science: Physics; Science: Biology (General)
Website: https://www.cell.com/biophysreports

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