Artículo
Parameter regions that give rise to 2b2 nc + 1 positive steady states in the n-site phosphorylation system
Giaroli, Magalí Paola
; Rischter, Rick; Pérez Millán, Mercedes Soledad
; Dickenstein, Alicia Marcela
Fecha de publicación:
08/2019
Editorial:
American Institute of Mathematical Sciences
Revista:
Mathematical Biosciences And Engineering
ISSN:
1547-1063
Idioma:
Inglés
Tipo de recurso:
Artículo publicado
Clasificación temática:
Resumen
The distributive sequential n-site phosphorylation/dephosphorylation system is an important building block in networks of chemical reactions arising in molecular biology, which has been intensively studied. In the nice paper of Wang and Sontag (2008) it is shown that for certain choices of the reaction rate constants and total conservation constants, the system can have 2b 2 n c + 1 positive steady states (that is, n + 1 positive steady states for n even and n positive steady states for n odd). In this paper we give open parameter regions in the space of reaction rate constants and total conservation constants that ensure these number of positive steady states, while assuming in the modeling that roughly only 4 1 of the intermediates occur in the reaction mechanism. This result is based on the general framework developed by Bihan, Dickenstein, and Giaroli (2018), which can be applied to other networks. We also describe how to implement these tools to search for multistationarity regions in a computer algebra system and present some computer aided results.
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Articulos(IMAS)
Articulos de INSTITUTO DE INVESTIGACIONES MATEMATICAS "LUIS A. SANTALO"
Articulos de INSTITUTO DE INVESTIGACIONES MATEMATICAS "LUIS A. SANTALO"
Citación
Giaroli, Magalí Paola; Rischter, Rick; Pérez Millán, Mercedes Soledad; Dickenstein, Alicia Marcela; Parameter regions that give rise to 2b2 nc + 1 positive steady states in the n-site phosphorylation system; American Institute of Mathematical Sciences; Mathematical Biosciences And Engineering; 16; 6; 8-2019; 7589-7615
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