To effectively understand and treat complex diseases such as cancer, mathematical and statistical modeling is essential if one wants to represent and characterize the interactions among the different regulatory components that govern the underlying decision making process. Like in any other complex decision making networks, the regulatory power is not evenly distributed among its individual members, but rather concentrated in a few high power "commanders". In biology, such commanders are usually called masters or canalizing genes. Characterizing and detecting such genes are thus highly valuable for the treatment of cancer. Chapter II is devoted to this task, where we present a Bayesian framework to model pathway interactions and then study ...
Two models are proposed to describe interactions among genes, transcription factors, and signaling c...
Cancer research has been revolutionised by recent technological advances that allow scientists to pr...
Cancer is known to be a complex disease and its therapy is difficult. Much information is available ...
The aim of effective cancer treatment is to prolong the patients’ life while offering a reasonable q...
Cellular behavior is controlled through multivariate interactions between various biological molecul...
The investigation of vulnerable components in a signaling pathway can contribute to development of d...
Understanding the aspects of the cell functionality that account for disease or drug action mechani...
Cancer is a group of diseases characterized by abnormal cell growth. Old cells do not die and grow u...
This thesis presents the development and analysis of stochastic and deterministic models of cellular...
This limited review is intended as an introduction to the fast growing subject of mathematical model...
Cells are governed by complex and multi-layered gene regulatory networks, which orchestrate the deve...
The effects of randomness, an unavoidable feature of intracellular environments, are observed at hig...
Anomalous biological information processing plays a crucial role in the formation and spread of canc...
Signalling transduction pathways (STPs) are commonly hijacked by many cancers for their growth and m...
In recent years, interactions between mathematicians and biomedical researchers have increased due t...
Two models are proposed to describe interactions among genes, transcription factors, and signaling c...
Cancer research has been revolutionised by recent technological advances that allow scientists to pr...
Cancer is known to be a complex disease and its therapy is difficult. Much information is available ...
The aim of effective cancer treatment is to prolong the patients’ life while offering a reasonable q...
Cellular behavior is controlled through multivariate interactions between various biological molecul...
The investigation of vulnerable components in a signaling pathway can contribute to development of d...
Understanding the aspects of the cell functionality that account for disease or drug action mechani...
Cancer is a group of diseases characterized by abnormal cell growth. Old cells do not die and grow u...
This thesis presents the development and analysis of stochastic and deterministic models of cellular...
This limited review is intended as an introduction to the fast growing subject of mathematical model...
Cells are governed by complex and multi-layered gene regulatory networks, which orchestrate the deve...
The effects of randomness, an unavoidable feature of intracellular environments, are observed at hig...
Anomalous biological information processing plays a crucial role in the formation and spread of canc...
Signalling transduction pathways (STPs) are commonly hijacked by many cancers for their growth and m...
In recent years, interactions between mathematicians and biomedical researchers have increased due t...
Two models are proposed to describe interactions among genes, transcription factors, and signaling c...
Cancer research has been revolutionised by recent technological advances that allow scientists to pr...
Cancer is known to be a complex disease and its therapy is difficult. Much information is available ...