Introduction
We developed a mathematical model to understand the relationship between the enzymes in our genetic constructs and their immediate microenvironment a priori. Using the MATLAB numerical solver ode23 and kinetic information from in vitro experiments found in literature (Table 1 and 2), we modeled the bioluminescence reaction network as an isolated system under steady state conditions and acquired preliminary light emission results for our different genetic constructs.
Chemical Reaction Network
The microbial Lux system can be interpreted as a two-component module, the aldehyde synthesis pathway and the light production pathway, coupled by an aldehyde and fatty acid.
Figure 1. The reactions in the aldehyde synthesis pathway are tightly coupled by the LuxCDE genes given the 1:1 ratio amongst substrate and product15.
In the aldehyde synthesis pathway (Fig. 1), the transferase (LuxD) first cleaves acyl-ACP and forms a fatty acid (RCOOH), via hydrolysis, which is subsequently activated by the synthetase subunit (LuxE) and reversibly transferred to the reductase subunit (LuxC) before being reduced with NADPH to an aldehyde (RCHO)5,8,18,19,20. The fatty acid activation process in the synthetase subunit occurs at very low levels in the absence of reductase15. However, when the synthetase and reductase subunits are co-expressed with luciferase, the system proceeds to emit light in the absence of transferase16; albeit at lower levels.
Figure 2. The light production pathway is controlled by an enzyme complex luciferase (LuxA+LuxB, we used a LuxA+B fusion protein for enhanced luminescence23) and its immediate microenvironment (molecular oxygen, aldehyde, and reduced flavin concentrations).
In effort to parallel our in vivo experiments, the light production network (Fig. 2) was extended to incorporate alternate reactions, such as aldehyde inhibition and the autoxidation of reduced flavin.
In the absence of RCHO, the reduced enzyme-oxygen adduct complex (intermediate II) dissociates and shifts the light producing pathway to the dark pathway4,7,12,11,17. Under conditions in which the aldehyde concentration is high and the reduced flavin concentration insufficient, the aldehyde binds to luciferase prior to reduced flavin or to luciferase-bound hyrdroperoxyflavin and inhibits the system1,2. Further light emission is limited by the autoxidation of reduced flavin and the slow dissociation of the aldehyde from the aldehyde-luciferase complex10 in addition to the release of fatty acid from peroxyhemiacetal (LuxAB-FMNH2O2-RCHO)11,13. The presence of functional luciferase, which governs light production, is therefore determined controlled by the presence of specific cofactors.
Modeling
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LIST OF ASSUMPTIONS
SYSTEM OF EQUATIONS
Induction Curves and Parameter Sensitivity
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FIGURES
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Model Reduction
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SYSTEM OF EQUATIONS
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Velocity Equations
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EQUATIONS
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EQUATIONS
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Results
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Future Directions
Parameter Table
Rate Constant | Value | Reference |
---|---|---|
k1 | unknown | |
k2 | unknown | |
k3 | unknown | |
k4 | unknown | |
k5 | unknown | |
k6 | unknown | |
k7 | 21.2 s-1 | (14) |
k8 | 10 s-1 | (9) |
k9 | 6.0*105 M-1s-1 | (12) |
k10 | 4.6 s-1 | (12) |
k11 | 2.4*106 M-1s-1 | (12) |
k12 | 0.1 s-1 | (12) |
k13 | 1.2*105 M-1s-1 | (12) |
k14 | 0.1 s-1 | (12) |
k15 | 9.5 s-1 | (12) |
k16 | 0.5 s-1 | (12) |
k17 | 3*103 M-1s-1 | (2) |
k18 | 0.06 s-1 | (2) |
k19 | 1.9*10-3 s-1 | (3) |
k20 | 1*105 M-1s-1 | (12) |
k21 | 40 s-1 | (12) |
Enzyme Table
Enzyme | Parameter | Value |
---|---|---|
lux AB | VmaxluxAB | 71.58 |
r22 | 0.62 | |
k41 | 0.22 | |
k42 | 81.5 | |
k43 | 72.2 | |
lux EC | VmaxluxEC | 198.93 |
r44 | 0.04 | |
k61 | 90.9 | |
k62 | 95.3 | |
k63 | 24.35 | |
k64 | 76.5 | |
frp | Vmaxfrp | 51.8 |
r12 | 1 | |
k31 | 0.72 | |
k32 | 49.5 | |
lux D | VmaxluxD | 45.8 |
r33 | unknown | |
k51 | 0.37 | |
k52 | unknown |
Cofactor Table
Chemical Species | Concentration (uM) | Reference |
---|---|---|
NADPH | 560 | (6) |
ATP | 1310 | (6) |
O2 | 550 | (27) |
H2O | 500 | unknown |
H+ | 300 | unknown |
Scripts
Link to Enzyme Kinetics Scripts
References
REFERENCES