Background: Reverse engineering gene networks and identifying regulatory interactions are integral to understanding cellular decision making processes. Advancement in high throughput experimental techniques has initiated innovative data driven analysis of gene regulatory networks. However, inherent noise associated with biological systems requires numerous experimental replicates for reliable conclusions. Furthermore, evidence of robust algorithms directly exploiting basic biological traits are few. Such algorithms are expected to be efficient in their performance and robust in their prediction.Results: We have developed a network identification algorithm to accurately infer both the topology and strength of regulatory interactions from tim...
Reverse engineering of biochemical networks remains an important open challenge in computational sys...
Background: The evolution of high throughput technologies that measure gene expression levels has cr...
To understand how the components of a complex system like the biological cell interact and regulate ...
Background\ud Reverse engineering gene networks and identifying regulatory interactions are integral...
BackgroundReverse engineering gene networks and identifying regulatory interactions are integral to ...
Motivation: Modern experimental techniques for time course measurement of gene expression enable the...
Identification of the regulatory structures in genetic networks and the formulation of mechanistic m...
Abstract Background A reverse engineering of gene regulatory network with large number of genes and ...
peer reviewedOne of the pressing open problems of computational systems biology is the elucidation o...
AbstractIn this paper, we propose a methodology for making sense of large, multiple time-series data...
Motivation: Genome-wide fitness is an emerging type of high-throughput biological data generated for...
Numerous methods have been developed for inferring gene regulatory networks from expression data, ho...
AbstractInferring regulatory networks in genetic systems and metabolic pathways is one of the most i...
Experimental innovations starting in the 1990’s leading to the advent of high-throughput experiments...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
Reverse engineering of biochemical networks remains an important open challenge in computational sys...
Background: The evolution of high throughput technologies that measure gene expression levels has cr...
To understand how the components of a complex system like the biological cell interact and regulate ...
Background\ud Reverse engineering gene networks and identifying regulatory interactions are integral...
BackgroundReverse engineering gene networks and identifying regulatory interactions are integral to ...
Motivation: Modern experimental techniques for time course measurement of gene expression enable the...
Identification of the regulatory structures in genetic networks and the formulation of mechanistic m...
Abstract Background A reverse engineering of gene regulatory network with large number of genes and ...
peer reviewedOne of the pressing open problems of computational systems biology is the elucidation o...
AbstractIn this paper, we propose a methodology for making sense of large, multiple time-series data...
Motivation: Genome-wide fitness is an emerging type of high-throughput biological data generated for...
Numerous methods have been developed for inferring gene regulatory networks from expression data, ho...
AbstractInferring regulatory networks in genetic systems and metabolic pathways is one of the most i...
Experimental innovations starting in the 1990’s leading to the advent of high-throughput experiments...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
Reverse engineering of biochemical networks remains an important open challenge in computational sys...
Background: The evolution of high throughput technologies that measure gene expression levels has cr...
To understand how the components of a complex system like the biological cell interact and regulate ...