Complex cellular processes, such as phenotype decision making, are exceedingly difficult to analyze experimentally, due to the multiple-layer regulation of gene expression and the intercellular variability referred to as biological noise. Moreover, the heterogeneous experimental approaches used to investigate distinct macromolecular species, and their intrinsic differential time-scale dynamics, add further intricacy to the general picture of the physiological phenomenon. In this respect, a computational representation of the cellular functions of interest can be used to extract relevant information, being able to highlight meaningful active markers within the plethora of actors forming an active molecular network. The multiscale power of su...
Cells reside in highly dynamic environments to which they must adapt. Throughout its lifetime, an in...
In the last decades the advent of new experimental techniques has lead to a drastic increase of avai...
Despite being the object of intense study, embryonic development has been difficult to model due to ...
Complex cellular processes, such as phenotype decision making, are exceedingly difficult to analyze ...
Identification of regulatory molecules in signaling pathways is critical for understanding cellular ...
The study of complex biological processes has significantly benefited from recent technological adva...
Cell phenotypes are controlled by complex interactions between genes, proteins, and other molecules ...
Dynamic biological phenomena such as the development of immunity due to vaccination or the division ...
Motivation: Cell fate decisions have a strong stochastic component. The identification of the underl...
Rapid growth of single-cell transcriptomic data provides unprecedented opportunities for close scrut...
Single-cell technologies can readily measure the expression of thousands of molecular features from ...
Cellular regulation is governed by dense biomolecular networks consisting of proteins, nucleotides, ...
The concept of cell states is increasingly used to classify cellular behaviour in development, regen...
Cells with the same genome can exist in different phenotypes. and can change between distinct phenot...
Despite spectacular progress in biophysics, molecular biology and biochemistry our ability to predic...
Cells reside in highly dynamic environments to which they must adapt. Throughout its lifetime, an in...
In the last decades the advent of new experimental techniques has lead to a drastic increase of avai...
Despite being the object of intense study, embryonic development has been difficult to model due to ...
Complex cellular processes, such as phenotype decision making, are exceedingly difficult to analyze ...
Identification of regulatory molecules in signaling pathways is critical for understanding cellular ...
The study of complex biological processes has significantly benefited from recent technological adva...
Cell phenotypes are controlled by complex interactions between genes, proteins, and other molecules ...
Dynamic biological phenomena such as the development of immunity due to vaccination or the division ...
Motivation: Cell fate decisions have a strong stochastic component. The identification of the underl...
Rapid growth of single-cell transcriptomic data provides unprecedented opportunities for close scrut...
Single-cell technologies can readily measure the expression of thousands of molecular features from ...
Cellular regulation is governed by dense biomolecular networks consisting of proteins, nucleotides, ...
The concept of cell states is increasingly used to classify cellular behaviour in development, regen...
Cells with the same genome can exist in different phenotypes. and can change between distinct phenot...
Despite spectacular progress in biophysics, molecular biology and biochemistry our ability to predic...
Cells reside in highly dynamic environments to which they must adapt. Throughout its lifetime, an in...
In the last decades the advent of new experimental techniques has lead to a drastic increase of avai...
Despite being the object of intense study, embryonic development has been difficult to model due to ...