Add to ORKGPost-translational modification of proteins plays a central role in cellular regulation but its study has been hampered by the exponential increase in substrate modification forms (“modforms”) with increasing numbers of sites. We consider here biochemical networks arising from post-translational modification under mass-action kinetics, allowing for multiple substrates, having different types of modification (phosphorylation, methylation, acetylation, etc.) on multiple sites, acted upon by multiple forward and reverse enzymes (in total number L), using general enzymatic mechanisms. These assumptions are substantially more general than in previous studies. We show that the steady-state modform concentrations constitute an algebraic variety th...
We introduce a general framework for biological systems, called MESSI systems, that describe Modific...
We will concentrate on biochemical reaction networks, of interest in systems biology, in particular ...
Biological systems are acknowledged to be robust to perturbations but a rigorous understanding of th...
Post-translational modification of proteins plays a central role in cellular regulation but its stud...
Posttranslational modification of proteins is key in transmission of signals in cells. Many signalin...
Post-transductional modifications tune the functions of proteins and regulate the collective dynamic...
AbstractReversible protein phosphorylation on multiple sites is a key regulatory mechanism in most c...
Biological catalysis is a complex chemical process that involves not only electronic reorganization ...
Flux balance (or constraint-based) analysis has been the mainstay for understanding metabolic networ...
Posttranslational protein modifications play a key role in regulating cellular processes. We present ...
Multisite modification is a basic way of conferring functionality to proteins and a key component of...
AbstractPosttranslational protein modifications play a key role in regulating cellular processes. We...
Living cells must communicate with the external environment, exchanging information in terms of mole...
Analysis of the dynamic and steady-state properties of biochemical networks hinges on information ab...
AbstractThe ability to characterize biological dynamics is important for understanding the integrate...
We introduce a general framework for biological systems, called MESSI systems, that describe Modific...
We will concentrate on biochemical reaction networks, of interest in systems biology, in particular ...
Biological systems are acknowledged to be robust to perturbations but a rigorous understanding of th...
Post-translational modification of proteins plays a central role in cellular regulation but its stud...
Posttranslational modification of proteins is key in transmission of signals in cells. Many signalin...
Post-transductional modifications tune the functions of proteins and regulate the collective dynamic...
AbstractReversible protein phosphorylation on multiple sites is a key regulatory mechanism in most c...
Biological catalysis is a complex chemical process that involves not only electronic reorganization ...
Flux balance (or constraint-based) analysis has been the mainstay for understanding metabolic networ...
Posttranslational protein modifications play a key role in regulating cellular processes. We present ...
Multisite modification is a basic way of conferring functionality to proteins and a key component of...
AbstractPosttranslational protein modifications play a key role in regulating cellular processes. We...
Living cells must communicate with the external environment, exchanging information in terms of mole...
Analysis of the dynamic and steady-state properties of biochemical networks hinges on information ab...
AbstractThe ability to characterize biological dynamics is important for understanding the integrate...
We introduce a general framework for biological systems, called MESSI systems, that describe Modific...
We will concentrate on biochemical reaction networks, of interest in systems biology, in particular ...
Biological systems are acknowledged to be robust to perturbations but a rigorous understanding of th...