Modern high-throughput techniques offer immense opportunities to investigate whole-systems behavior, such as those underlying human diseases. However, the complexity of the data presents challenges in interpretation, and new avenues are needed to address the complexity of both diseases and data. Constraint-based modeling is one formalism applied in systems biology. It relies on a genome-scale reconstruction that captures extensive biochemical knowledge regarding an organism. The human genome-scale metabolic reconstruction is increasingly used to understand normal cellular and disease states because metabolism is an important factor in many human diseases. The application of human genome-scale reconstruction ranges from mere querying of the ...
Despite significant advances in constraint-based modelling, a methodology for modelling dynamic mult...
Omic data analysis is steadily growing as a driver of basic and applied molecular biology research. ...
Mathematical and computational models play an essential role in understanding the cellular metabolis...
Modern high-throughput techniques offer immense opportunities to investigate whole-systems behavior,...
Metabolism is crucial to cell growth and proliferation. Deficiency or alterations in metabolic funct...
peer reviewedDysfunction in energy metabolism-including in pathways localized to the mitochondria-ha...
Constraint-based (CB) metabolic models provide a mathematical framework and scaffold for in silico c...
Understanding the genotype-phenotype relationship is at the core of the life sciences. For the latte...
Altered metabolism is linked to the appearance of various human diseases and a better understanding ...
The arising prevalence of metabolic diseases calls for a holistic approach for analysis of the under...
Recent efforts have allowed the development of genome-scale metabolic models for several organisms, ...
Metabolism is the process by which cells and organisms obtain nutrients and energy to perform their ...
Mathematical and computational models play an essential role in understanding the cellular metabolis...
Metabolism is broadly defined as the sum of biochemical reactions within cells that are involved in ...
Omic data analysis is steadily growing as a driver of basic and applied molecular biology research. ...
Despite significant advances in constraint-based modelling, a methodology for modelling dynamic mult...
Omic data analysis is steadily growing as a driver of basic and applied molecular biology research. ...
Mathematical and computational models play an essential role in understanding the cellular metabolis...
Modern high-throughput techniques offer immense opportunities to investigate whole-systems behavior,...
Metabolism is crucial to cell growth and proliferation. Deficiency or alterations in metabolic funct...
peer reviewedDysfunction in energy metabolism-including in pathways localized to the mitochondria-ha...
Constraint-based (CB) metabolic models provide a mathematical framework and scaffold for in silico c...
Understanding the genotype-phenotype relationship is at the core of the life sciences. For the latte...
Altered metabolism is linked to the appearance of various human diseases and a better understanding ...
The arising prevalence of metabolic diseases calls for a holistic approach for analysis of the under...
Recent efforts have allowed the development of genome-scale metabolic models for several organisms, ...
Metabolism is the process by which cells and organisms obtain nutrients and energy to perform their ...
Mathematical and computational models play an essential role in understanding the cellular metabolis...
Metabolism is broadly defined as the sum of biochemical reactions within cells that are involved in ...
Omic data analysis is steadily growing as a driver of basic and applied molecular biology research. ...
Despite significant advances in constraint-based modelling, a methodology for modelling dynamic mult...
Omic data analysis is steadily growing as a driver of basic and applied molecular biology research. ...
Mathematical and computational models play an essential role in understanding the cellular metabolis...