IFIBYNE   05513
INSTITUTO DE FISIOLOGIA, BIOLOGIA MOLECULAR Y NEUROCIENCIAS
Unidad Ejecutora - UE
congresos y reuniones científicas
Título:
TRANSIENT FREQUENCY PREFERENCE IN SIMPLE CELL SIGNALING MOTIFS
Autor/es:
ROCIO BALDERRAMA; JULIANA REVES SZEMERE; ALEJANDRA C VENTURA; CONSTANZA SANCHEZ DE LA VEGA
Lugar:
Washington
Reunión:
Conferencia; Computational Biology Conference; 2019
Institución organizadora:
Janelia Farms
Resumen:
In many biological contexts it is important to understand how the cellsignaling system responds to time-dependent inputs. Signaling pathwaysstimulated by inputs that change rapidly over time need to process a significantamount of information. How much information they are able to process per unit oftime is proportional to its bandwidth, which is determined by measuringthe system?s response to fluctuating signals at different frequencies. Thelarger the bandwidth of a pathway, the shorter its response time and the moreaccurately its response to a rapidly varying signal. The focus of the work presented here is to identify conditions for whichsimple signaling topologies can optimize a given response at certainintermediate input frequencies, where by optimizing we mean, forexample, maximizing the production or the level of activation of aprotein at these frequencies. We refer to this optimization as frequencyencoding. Resonance is typically measured in quasi steady-state (long lastingpulsatile signals). By using a combined computational and theoretical approach,we show that resonance can be obtained for pulsatile input signals that areactive for a short number of periods as compared with the time scale of thesignaling component processing that input,. We call this effect transient frequencypreference (TFP) since the systems weconsider do not exhibit resonance when using long lasting pulsatile signal. TFPalso emerges for the same signaling system, with the long lasting pulsatilesignal, provided that the downstream singling components are fast enough toread pre-steady-state information.