Invergo2014 - Phototransduction cascade in mouse rod cells

Model Identifier

BIOMD0000000578

Short description

This model is described in the article:

A comprehensive model of the phototransduction cascade in mouse rod cells.

Invergo BM, Dell'Orco D, Montanucci L, Koch KW, Bertranpetit J.

Mol Biosyst 2014 Jun; 10(6): 1481-1489

Abstract:

Vertebrate visual phototransduction is perhaps the most well-studied G-protein signaling pathway. A wealth of available biochemical and electrophysiological data has resulted in a rich history of mathematical modeling of the system. However, while the most comprehensive models have relied upon amphibian biochemical and electrophysiological data, modern research typically employs mammalian species, particularly mice, which exhibit significantly faster signaling dynamics. In this work, we present an adaptation of a previously published, comprehensive model of amphibian phototransduction that can produce quantitatively accurate simulations of the murine photoresponse. We demonstrate the ability of the model to predict responses to a wide range of stimuli and under a variety of mutant conditions. Finally, we employ the model to highlight a likely unknown mechanism related to the interaction between rhodopsin and rhodopsin kinase.

This model is hosted on BioModels Database and identified by: BIOMD0000000578.

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Format

SBML (L2V4)

Related Publication

A comprehensive model of the phototransduction cascade in mouse rod cells.
Brandon M Invergo, Daniele Dell'Orco, Ludovica Montanucci, Karl-Wilhelm Koch, Jaume Bertranpetit
Molecular bioSystems , 6/ 2014 , Volume 10 , Issue 6 , pages: 1481-1489 , PubMed ID: 24675755

Contributors

Submitter of the first revision: Brandon Invergo
Submitter of this revision: Lucian Smith
Curator: Lucian Smith
Modeller: Brandon Invergo

Metadata information

is (2 statements)

BioModels Database BIOMD0000000578
BioModels Database MODEL1501210000

isDescribedBy (1 statement)

PubMed 24675755

isDerivedFrom (1 statement)

PubMed 21843151

hasTaxon (1 statement)

Taxonomy Mus musculus

isVersionOf (1 statement)

Gene Ontology phototransduction

occursIn (1 statement)

FMA Rod cell

hasProperty (1 statement)

Mathematical Modelling Ontology Ordinary differential equation model

Curation status

Curated

Modelling approach(es)

ordinary differential equation model

Connected external resources

SBGN view in Newt Editor

Name	Description	Size	Actions
Model files (1)
BIOMD0000000578_url.xml	SBML L2V4 representation of Invergo2014 - Phototransduction cascade in mouse rod cells	147.03 KB	Preview \| Download
Additional files (14)
BIOMD0000000578-biopax2.owl	Auto-generated BioPAX (Level 2)	117.27 KB	Preview \| Download
BIOMD0000000578-biopax3.owl	Auto-generated BioPAX (Level 3)	215.86 KB	Preview \| Download
BIOMD0000000578-matlab.m	Auto-generated Matlab file.	34.81 KB	Preview \| Download
BIOMD0000000578-octave.m	Auto-generated Octave file.	34.81 KB	Preview \| Download
BIOMD0000000578.m	Auto-generated Octave file	34.81 KB	Preview \| Download
BIOMD0000000578.ode	Auto-generated ODE file for XPP.	29.37 KB	Preview \| Download
BIOMD0000000578.pdf	Auto-generated PDF file	612.20 KB	Preview \| Download
BIOMD0000000578.png	Auto-generated Reaction graph (PNG)	1.52 MB	Preview \| Download
BIOMD0000000578.svg	Auto-generated Reaction graph (SVG)	206.76 KB	Preview \| Download
BIOMD0000000578_url.sedml	CRBM auto-generated "template" SED-ML file.	152.31 KB	Preview \| Download
curation_image.png	Reproduced figure(s) from original curation.	27.00 KB	Preview \| Download
curation_notes.txt	Notes from original curation (describes curation_image).	1.11 KB	Preview \| Download
manifest.xml	Auto-generated manifest file for OMEX archives.	1.75 KB	Preview \| Download
metadata.rdf	Auto-generated annotation metadata file.	5.05 KB	Preview \| Download

Model originally submitted by : Brandon Invergo
Submitted: Jan 21, 2015 12:09:32 PM
Last Modified: Aug 21, 2024 11:17:00 PM

Revisions

Version: 3
- Submitted on: Aug 21, 2024 11:17:00 PM
- Submitted by: Lucian Smith
- With comment: CRBM-sponsored manual and automated updates.
Version: 2
- Submitted on: Aug 6, 2015 5:36:26 PM
- Submitted by: Brandon Invergo
- With comment: Current version of Invergo2014 - Phototransduction cascade in mouse rod cells
Version: 1
- Submitted on: Jan 21, 2015 12:09:32 PM
- Submitted by: Brandon Invergo
- With comment: Original import of Invergo2014_Mammalian_Rod_Phototransduction

(*) You might be seeing discontinuous revisions as only public revisions are displayed here. Any private revisions of this model will only be shown to the submitter and their collaborators.

Legends
: Variable used inside SBML models

Species	Initial Concentration/Amount
Arr	1260760.0 mol
Ga GTP a PDE a Ga GTP	0.0 mol
PDE	2000000.0 mol
R	9.81525E7 mol
R1	0.0 mol
R3 RKpre	0.0 mol

Reactions	Rate	Parameters
Arr + R1 => R1_Arr	kA1_1ArrR1-kA2*R1_Arr	kA1_1 = 0.0; kA2 = 0.026
Arr + R3 => R3_Arr	kA1_3ArrR3-kA2*R3_Arr	kA1_3 = 0.0; kA2 = 0.026
R1_Arr => Arr + Ops	kA3*R1_Arr	kA3 = 1.1651
Ga_GTP_a_PDE_a_Ga_GTP + RGS => RGS_Ga_GTP_a_PDE_a_Ga_GTP	kRGS1RGSGa_GTP_a_PDE_a_Ga_GTP	kRGS1 = 4.8182E-5
Ga_GTP + PDE => PDE_Ga_GTP	kP1PDEGa_GTP-kP1_rev*PDE_Ga_GTP	kP1_rev = 0.0; kP1 = 0.05497
RGS_PDE_a_Ga_GTP => Ga_GDP + PDE + RGS	kRGS2*RGS_PDE_a_Ga_GTP	kRGS2 = 98.0
R => R0	stimulus*R/Rtot	stimulus = 0.0; Rtot = 1.0E8
R1 + RK => R1_RKpre	kRK1_1RKR1-kRK2*R1_RKpre	kRK2 = 250.0; kRK1_1 = 0.0
R3 + RK => R3_RKpre	kRK1_3RKR3-kRK2*R3_RKpre	kRK1_3 = 0.0; kRK2 = 250.0
R5_Arr => Arr + Ops	kA3*R5_Arr	kA3 = 1.1651

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Curator's comment:
(added: 06 Aug 2015, 17:32:09, updated: 06 Aug 2015, 17:32:09)

Figure 1 of the corresponding publication is reproduced. Figure 1 shows a series of simulations (red traces) that are overlaid with each other. Each simulation represents the response to a light stimulus of increasing intensity. The stimulus is controlled by the following parameters: flashDel = 0.03;flashDur = 0.02;flashMag = 0.731, 2.064, 6.536, 16.942, 53.75, 190.92, 604.58, 1990.9 All three parameters must be set to define the stimulus (a 0.02s-long flash of light that occurs 0.03s after the start of the simulation (to correctly simulate the original experiment) and that has an intensity ranging from 0.731 to 1990.9 R*/s). So, flashMag is the parameter that is varied to produce the series of responses. The output state is deltaJ. There is a minor issue in the SBML implementation of the model, the systems goes to numerical instability beyond certain values of flashMag (>909.22) with 0.03s delay (flashDel=0.03). So, except for the plot that correspond to flashMag=1990.9, all the other plots are reproduced. Copasi v4.15 (Build 95) was used for simulation, and gnuplot was used generate the figure.