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ouzounoglou1

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ouzounoglou1

The SBML for this model was obtained from the BioModels database (BioModels ID: BIOMD0000000559) Biomodels notes: Figure 7 of Supplementary material 5 (derived from Figure 5 of the reference publication) has been reproduced here. Dynamics of several alpha-synuclein conformations are simulated during 7 days (600000 seconds). JWS Online curation: This model was curated by reproducing the figures as described in the BioModels Notes. No additional changes were made.

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Manuscript information

In silico modeling of the effects of alpha-synuclein oligomerization on dopaminergic neuronal homeostasis.

  • Eleftherios Ouzounoglou
  • Dimitrios Kalamatianos
  • Evangelia Emmanouilidou
  • Maria Xilouri
  • Leonidas Stefanis
  • Kostas Vekrellis
  • Elias S Manolakos
BMC Syst Biol 2014; 8 : 54
Abstract
BACKGROUND: Alpha-synuclein (ASYN) is central in Parkinson's disease (PD) pathogenesis. Converging pieces of evidence suggest that the levels of ASYN expression play a critical role in both familial and sporadic Parkinson's disease. ASYN fibrils are the main component of inclusions called Lewy Bodies (LBs) which are found mainly in the surviving neurons of the substantia nigra. Despite the accumulated knowledge regarding the involvement of ASYN in molecular mechanisms underlying the development of PD, there is much information missing which prevents understanding the causes of the disease and how to stop its progression.
RESULTS: Using a Systems Biology approach, we develop a biomolecular reactions model that describes the intracellular ASYN dynamics in relation to overexpression, post-translational modification, oligomerization and degradation of the protein. Especially for the proteolysis of ASYN, the model takes into account the biological knowledge regarding the contribution of Chaperone Mediated Autophagy (CMA), macro-autophagic and proteasome pathways in the protein's degradation. Importantly, inhibitory phenomena, caused by ASYN, concerning CMA (more specifically the lysosomal-associated membrane protein 2a, abbreviated as Lamp2a receptor, which is the rate limiting step of CMA) and the proteasome are carefully modeled. The model is validated by simulation studies of known experimental overexpression data from SH-SY5Y cells and the unknown model parameters are estimated either computationally or by experimental fitting. The calibrated model is then tested under three hypothetical intervention scenarios and in all cases predicts increased cell viability that agrees with experimental evidence. The biomodel has been annotated and is made available in SBML format.
CONCLUSIONS: The mathematical model presented here successfully simulates the dynamic phenomena of ASYN overexpression and oligomerization and predicts the biological system's behavior in a number of scenarios not used for model calibration. It allows, for the first time, to qualitatively estimate the protein levels that are capable of deregulating proteolytic homeostasis. In addition, it can help form new hypotheses for intervention that could be tested experimentally.

Unit definitions 2

Unit definitions have no effect on the numerical analysis of the model. It remains the responsibility of the modeler to ensure the internal numerical consistency of the model. If units are provided, however, the consistency of the model units will be checked.

Name Definition
1.0 dimensionless
1.0 item

Compartments 3

Id Name Spatial dimensions Size
c1 Cytosol 3.0 1.0
c2 M/autophagy&OtherLysDegrPath 3.0 1.0
c3 Lysosome 3.0 1.0

Species 90

Id Name Initial quantity Compartment Fixed
s1 DopModWTasyn5 8.0 c1 (Cytosol)
s107 WTasyn2merM/Adegr 0.0 c2 (M/autophagy&OtherLysDegrPath)
s108 WTasyn3merM/Adegr 0.0 c2 (M/autophagy&OtherLysDegrPath)
s109 WTasyn4merM/Adegrr 0.0 c2 (M/autophagy&OtherLysDegrPath)
s110 WTasyn5merM/Adegr 0.0 c2 (M/autophagy&OtherLysDegrPath)
s111 WTasyn6merM/Adegr 0.0 c2 (M/autophagy&OtherLysDegrPath)
s112 WTasyn7merM/Adegr 0.0 c2 (M/autophagy&OtherLysDegrPath)
s113 WTasyn8merM/Adegr 0.0 c2 (M/autophagy&OtherLysDegrPath)
s17 WTasyn 1650.0 c1 (Cytosol)
s18 WTasyn2 22.0 c1 (Cytosol)
s2 DopModWTasyn4 8.0 c1 (Cytosol)
s20 WTasyn3 8.0 c1 (Cytosol)
s200 Dopamine_degraded 0.0 c1 (Cytosol)
s21 DopModWTasyn6 8.0 c1 (Cytosol)
s211 WTasyn2merCMADegr 0.0 c3 (Lysosome)
s213 WTasynCMADegr 0.0 c3 (Lysosome)
s22 Dopamine 750.0 c1 (Cytosol)
s23 WTasyn5 8.0 c1 (Cytosol)
s24 WTasyn4 8.0 c1 (Cytosol)
s25 DopModWTasyn7 8.0 c1 (Cytosol)
s26 DopModWTasyn8 8.0 c1 (Cytosol)
s27 DopModWTasyn9 8.0 c1 (Cytosol)
s29 WTasyn9 8.0 c1 (Cytosol)
s3 SOURCE 1.0 c1 (Cytosol)
s30 WTasyn8 8.0 c1 (Cytosol)
s31 WTasyn7 8.0 c1 (Cytosol)
s32 WTasyn6 8.0 c1 (Cytosol)
s33 HigherWTasynSPC 0.0 c1 (Cytosol)
s35 Proteasome 1500.0 c1 (Cytosol)
s381 ProtWTasyn3 0.0 c1 (Cytosol)
s383 ProtWTasyn4 0.0 c1 (Cytosol)
s385 ProtWTasyn5 0.0 c1 (Cytosol)
s387 ProtWTasyn6 0.0 c1 (Cytosol)
s389 ProtWTasyn7 0.0 c1 (Cytosol)
s391 ProtWTasyn8 0.0 c1 (Cytosol)
s393 ProtWTasyn9 0.0 c1 (Cytosol)
s445 DopModWTasyn2merM/Adegr 0.0 c2 (M/autophagy&OtherLysDegrPath)
s446 DopModWTasyn3merM/Adegr 0.0 c2 (M/autophagy&OtherLysDegrPath)
s447 DopModWTasyn4merM/Adegr 0.0 c2 (M/autophagy&OtherLysDegrPath)
s448 DopModWTasyn6merM/Adegr 0.0 c2 (M/autophagy&OtherLysDegrPath)
s451 DopModWTasyn8merM/Adegr 0.0 c2 (M/autophagy&OtherLysDegrPath)
s473 ProtDopModWTasyn3 0.0 c1 (Cytosol)
s474 ProtDopModWTasyn4 0.0 c1 (Cytosol)
s475 ProtDopModWTasyn5 0.0 c1 (Cytosol)
s476 ProtDopModWTasyn6 0.0 c1 (Cytosol)
s477 ProtDopModWTasyn7 0.0 c1 (Cytosol)
s478 ProtDopModWTasyn8 0.0 c1 (Cytosol)
s479 ProtDopModWTasyn9 0.0 c1 (Cytosol)
s482 DopModWTasyn2merOnLamp 0.0 c3 (Lysosome)
s483 DopModWTasyn3merOnLamp 0.0 c3 (Lysosome)
s484 DopModWTasyn4merOnLamp 0.0 c3 (Lysosome)
s489 DopModWTasyn7merOnLamp 0.0 c3 (Lysosome)
s490 DopModWTasyn6merOnLamp 0.0 c3 (Lysosome)
s491 DopModWTasyn5merOnLamp 0.0 c3 (Lysosome)
s492 DopModWTasyn8merOnLamp 0.0 c3 (Lysosome)
s493 DopModWTasyn9merOnLamp 0.0 c3 (Lysosome)
s494 WTasyn3merOnLamp 0.0 c3 (Lysosome)
s495 WTasyn4merOnLamp 0.0 c3 (Lysosome)
s496 WTasyn5merOnLamp 0.0 c3 (Lysosome)
s498 WTasyn6merOnLamp 0.0 c3 (Lysosome)
s499 WTasyn7merOnLamp 0.0 c3 (Lysosome)
s5 DopModWTasyn3 8.0 c1 (Cytosol)
s500 WTasyn8merOnLamp 0.0 c3 (Lysosome)
s501 WTasyn9merOnLamp 0.0 c3 (Lysosome)
s502 ProtWTasynHigherSPC 0.0 c1 (Cytosol)
s51 Lamp2a 200.0 c3 (Lysosome)
s517 WTasyn4 0.0 c2 (M/autophagy&OtherLysDegrPath)
s518 WTasyn5 0.0 c2 (M/autophagy&OtherLysDegrPath)
s519 WTasyn6 0.0 c2 (M/autophagy&OtherLysDegrPath)
s52 WTasyn 0.0 c3 (Lysosome)
s520 WTasyn3 0.0 c2 (M/autophagy&OtherLysDegrPath)
s521 WTasyn2 0.0 c2 (M/autophagy&OtherLysDegrPath)
s522 WTasyn7 0.0 c2 (M/autophagy&OtherLysDegrPath)
s523 WTasyn8 0.0 c2 (M/autophagy&OtherLysDegrPath)
s524 DopModWTasyn7merM/Adegr 0.0 c2 (M/autophagy&OtherLysDegrPath)
s525 DopModWTasyn8 0.0 c2 (M/autophagy&OtherLysDegrPath)
s526 DopModWTasyn7 0.0 c2 (M/autophagy&OtherLysDegrPath)
s527 DopModWTasyn2 0.0 c2 (M/autophagy&OtherLysDegrPath)
s528 DopModWTasyn6 0.0 c2 (M/autophagy&OtherLysDegrPath)
s529 DopModWTasyn5 0.0 c2 (M/autophagy&OtherLysDegrPath)
s53 WTasyn2 0.0 c3 (Lysosome)
s530 DopModWTasyn4 0.0 c2 (M/autophagy&OtherLysDegrPath)
s531 DopModWTasyn3 0.0 c2 (M/autophagy&OtherLysDegrPath)
s533 WTasyn 0.0 c2 (M/autophagy&OtherLysDegrPath)
s535 DopModWTasyn 0.0 c2 (M/autophagy&OtherLysDegrPath)
s536 DopModWTasynOnLamp 0.0 c3 (Lysosome)
s6 DopModWTasyn2 0.0 c1 (Cytosol)
s7 DopModWTasyn 953.0 c1 (Cytosol)
s78 WTasyndegr 0.0 c3 (Lysosome)
s85 WTasyn2degr 0.0 c3 (Lysosome)

Initial assignments 0

Initial assignments are expressions that are evaluated at time=0. It is not recommended to create initial assignments for all model entities. Restrict the use of initial assignments to cases where a value is expressed in terms of values or sizes of other model entities. Note that it is not permitted to have both an initial assignment and an assignment rule for a single model entity.

Definition
Reactions 136
Id Name Objective coefficient Reaction Equation and Kinetic Law Flux bounds
re1 WTasynSynthesis s3 > s17

c1 * k1 * s3
re10 4merForm s20 + s17 > s24

c1 * k_OligomerForm * s20 * s17
re100 WTasyn8merFormOnLamp s17 + s499 > s500

k_OligomerForm * s17 * s499
re101 WTasyn9merFormOnLamp s17 + s500 > s501

k_OligomerForm * s17 * s500
re102 ProtFree3merWT s381 > s35

c1 * k_ProtOligDegr * s381
re103 ProtFree4merWT s383 > s35

c1 * k_ProtOligDegr * s383
re104 ProtFree5merWT s385 > s35

c1 * k_ProtOligDegr * s385
re105 ProtFree6merWT s387 > s35

c1 * k_ProtOligDegr * s387
re106 ProtFree7merWT s389 > s35

c1 * k_ProtOligDegr * s389
re107 ProtFree8merWT s391 > s35

c1 * k_ProtOligDegr * s391
re108 ProtFree9merWT s393 > s35

c1 * k_ProtOligDegr * s393
re109 ProtFree3merDopWT s473 > s35

c1 * k_ProtOligDegr * s473
re11 3merProtBind s20 + s35 > s381

c1 * k_ProteasomeBind * s20 * s35
re110 ProtFree4merDopWT s474 > s35

c1 * k_ProtOligDegr * s474
re111 ProtFree5merDopWT s475 > s35

c1 * k_ProtOligDegr * s475
re112 ProtFree6merDopWT s476 > s35

c1 * k_ProtOligDegr * s476
re113 ProtFree7merDopWT s477 > s35

c1 * k_ProtOligDegr * s477
re114 ProtFree8merDopWT s478 > s35

c1 * k_ProtOligDegr * s478
re115 ProtFree9merDopWT s479 > s35

c1 * k_ProtOligDegr * s479
re116 WTasynHigherPSCprotInh s33 + s35 > s502

c1 * k_ProteasomeBind * s33 * s35
re117 DopMod9merDis s27 > s26 + s7

c1 * k_DisRate * s27
re118 DopMod8merDis s26 > s25 + s7

c1 * k_DisRate * s26
re119 DopMod7merDis s25 > s21 + s7

c1 * k_DisRate * s25
re12 AutophagosomeUptakeWTasyn4mer s24 > s517

k_OligAutophagUptake * s24
re120 DopMod6merDis s21 > s1 + s7

c1 * k_DisRate * s21
re121 DopMod4merDis s2 > s5 + s7

c1 * k_DisRate * s2
re122 DopMod5merDis s1 > s2 + s7

c1 * k_DisRate * s1
re123 DopMod3merDis s5 > s6 + s7

c1 * k_DisRate * s5
re124 DopMod2merDis s6 > {2.0}s7

c1 * k_DisRate * s6
re125 9merDis s29 > s17 + s30

c1 * k_DisRate * s29
re126 8merDis s30 > s31 + s17

c1 * k_DisRate * s30
re127 7merDis s31 > s32 + s17

c1 * k_DisRate * s31
re128 6merDis s32 > s17 + s23

c1 * k_DisRate * s32
re129 5merDis s23 > s24 + s17

c1 * k_DisRate * s23
re13 5merForm s24 + s17 > s23

c1 * k_OligomerForm * s24 * s17
re130 4merDis s24 > s20 + s17

c1 * k_DisRate * s24
re131 3merDis s20 > s18 + s17

c1 * k_DisRate * s20
re132 2merDis s18 > {2.0}s17

c1 * k_DisRate * s18
re133 AggregGrowth s33 + s17 > s33

c1 * k1 * s33 * s17
re134 AutophagosomeUptakeWTasyn s17 > s533

k_OligAutophagUptake * s17
re135 M/autophagyWTasyn1Degr s533 > s107

c2 * k_M_autophagyDegr * s533
re136 DopModAutophagosomeUptake s7 > s535

k_OligAutophagUptake * s7
re137 M/autophagyDopModWTasyn1Degr s535 > s445

c2 * k_M_autophagyDegr * s535
re14 4merProtBind s24 + s35 > s383

c1 * k_ProteasomeBind * s24 * s35
re15 AutophagosomeUptakeWTasyn5mer s23 > s518

k_OligAutophagUptake * s23
re16 6merForm s23 + s17 > s32

c1 * k_OligomerForm * s23 * s17
re17 5merProtBind s23 + s35 > s385

c1 * k_ProteasomeBind * s23 * s35
re18 WTasyn5merBindOnLamp s23 + s51 > s496

k_WTOligBindOnLamp * s23 * s51
re19 AutophagosomeUptakeWTasyn6mer s32 > s519

k_OligAutophagUptake * s32
re2 DopProduction s3 > s22

c1 * k1 * s3
re20 7merForm s32 + s17 > s31

c1 * k_OligomerForm * s32 * s17
re21 6merProtBind s32 + s35 > s387

c1 * k_ProteasomeBind * s32 * s35
re22 AutophagosomeUptakeWTasyn7mer s31 > s522

k_OligAutophagUptake * s31
re23 8merForm s31 + s17 > s30

c1 * k_OligomerForm * s31 * s17
re24 7merProtBind s31 + s35 > s389

c1 * k_ProteasomeBind * s31 * s35
re25 WTasyn7merBindOnLamp s31 + s51 > s499

k_WTOligBindOnLamp * s31 * s51
re26 AutophagosomeUptakeWTasyn8mer s30 > s523

k_OligAutophagUptake * s30
re27 9merForm s30 + s17 > s29

c1 * k_OligomerForm * s30 * s17
re28 8merProtBind s30 + s35 > s391

c1 * k_ProteasomeBind * s30 * s35
re29 9merProtBind s29 + s35 > s393

c1 * k_ProteasomeBind * s29 * s35
re3 2merForm {2.0}s17 > s18

c1 * k_2merForm * pow(s17, 2)
re30 WTasyn9merBindOnLamp s29 + s51 > s501

k_WTOligBindOnLamp * s29 * s51
re31 DopamineDegr s22 > s200

c1 * k1 * s22
re32 DopMod2merForm {2.0}s7 > s6

c1 * k_2merForm * pow(s7, 2)
re33 DopWTasyn2merFormOnLamp s7 + s536 > s482

k_2merForm * s7 * s536
re34 DopWTasyn7merFormOnLamp s7 + s490 > s489

k_OligomerForm * s7 * s490
re35 DopWTasyn8merFormOnLamp s7 + s489 > s492

k_OligomerForm * s7 * s489
re36 DopWTasyn9merFormOnLamp s7 + s492 > s493

k_OligomerForm * s7 * s492
re37 WTasynLysosUptake s78 > s51 + s52

c3 * k1 * s78
re38 WTasyn2LysosUptake s85 > s51 + s53

c3 * k1 * s85
re4 WTasynDopModification s17 + s22 > s7

c1 * k1 * s17 * s22
re40 M/autophagyWTasyn4Degr s517 > s109

c2 * k_M_autophagyDegr * s517
re41 M/autophagyWTasyn8Degr s523 > s113

c2 * k_M_autophagyDegr * s523
re42 M/autophagyWTasyn3Degr s520 > s108

c2 * k_M_autophagyDegr * s520
re43 M/autophagyWTasyn2Degr s521 > s107

c2 * k_M_autophagyDegr * s521
re44 M/autophagyWTasyn7Degr s522 > s112

c2 * k_M_autophagyDegr * s522
re45 M/autophagyWTasyn5Degr s518 > s110

c2 * k_M_autophagyDegr * s518
re46 M/autophagyWTasyn6Degr s519 > s111

c2 * k_M_autophagyDegr * s519
re47 AggregForm s29 + s17 > s33

c1 * k_OligomerForm * s29 * s17
re48 DopModAutophagosomeUptake2mer s6 > s527

k_OligAutophagUptake * s6
re49 DopMod3merForm s6 + s7 > s5

c1 * k_OligomerForm * s6 * s7
re5 WTasynLampBind s17 + s51 > s78

k_WTasyn1_2merBindOnLamp * s17 * s51
re50 DopModAutophagosomeUptake3mer s5 > s531

k_OligAutophagUptake * s5
re51 DopMod4merForm s5 + s7 > s2

c1 * k_OligomerForm * s5 * s7
re52 DopMod3merProtBind s5 + s35 > s473

c1 * k_ProteasomeBind * s5 * s35
re53 DopModAutophagosomeUptake4mer s2 > s530

k_OligAutophagUptake * s2
re54 DopMod5merForm s2 + s7 > s1

c1 * k_OligomerForm * s2 * s7
re55 DopMod4merProtBind s2 + s35 > s474

c1 * k_ProteasomeBind * s2 * s35
re56 DopModAutophagosomeUptake5mer s1 > s529

k_OligAutophagUptake * s1
re57 DopMod6merForm s1 + s7 > s21

c1 * k_OligomerForm * s1 * s7
re58 DopMod5merProtBind s1 + s35 > s475

c1 * k_ProteasomeBind * s1 * s35
re59 DopModAutophagosomeUptake6mer s21 > s528

k_OligAutophagUptake * s21
re6 AutophagosomeUptakeWTasyn2mer s18 > s521

k_OligAutophagUptake * s18
re60 DopMod7merForm s21 + s7 > s25

c1 * k_OligomerForm * s21 * s7
re61 DopMod6merProtBind s21 + s35 > s476

c1 * k_ProteasomeBind * s21 * s35
re62 DopModAutophagosomeUptake7mer s25 > s526

k_OligAutophagUptake * s25
re63 DopMod8merForm s25 + s7 > s26

c1 * k_OligomerForm * s25 * s7
re64 DopMod7merProtBind s25 + s35 > s477

c1 * k_ProteasomeBind * s25 * s35
re65 DopModAutophagosomeUptake8mer s26 > s525

k_OligAutophagUptake * s26
re66 DopMod9merForm s26 + s7 > s27

c1 * k_OligomerForm * s26 * s7
re67 DopMod8merProtBind s26 + s35 > s478

c1 * k_ProteasomeBind * s26 * s35
re68 DopMod9merProtBind s27 + s35 > s479

c1 * k_ProteasomeBind * s27 * s35
re69 WTasyn2merCMADegr s53 > s211

c3 * k1 * s53
re7 3merForm s18 + s17 > s20

c1 * k_OligomerForm * s18 * s17
re70 WTasyn1merCMADegr s52 > s213

c3 * k1 * s52
re71 LampFree9merWT s501 > s29 + s51

k_LampFreeWTasyn * s501
re72 DopWTasyn3merFormOnLamp s482 + s7 > s483

k_OligomerForm * s482 * s7
re73 DopWTasyn4merFormOnLamp s483 + s7 > s484

k_OligomerForm * s483 * s7
re74 DopWTasyn5merFormOnLamp s484 + s7 > s491

k_OligomerForm * s484 * s7
re75 DopWTasyn6merFormOnLamp s491 + s7 > s490

k_OligomerForm * s491 * s7
re76 LampFree3merWT s494 > s20 + s51

k_LampFreeWTasyn * s494
re77 LampFree4merWT s495 > s24 + s51

k_LampFreeWTasyn * s495
re78 LampFree5merWT s496 > s23 + s51

k_LampFreeWTasyn * s496
re79 LampFree6merWT s498 > s32 + s51

k_LampFreeWTasyn * s498
re8 WTasyn2LampBind s18 + s51 > s85

k_WTasyn1_2merBindOnLamp * s18 * s51
re80 LampFree7merWT s499 > s31 + s51

k_LampFreeWTasyn * s499
re81 LampFree8merWT s500 > s30 + s51

k_LampFreeWTasyn * s500
re82 WTasyn8merBindOnLamp s500 + s30 > s51

k_WTOligBindOnLamp * s500 * s30
re83 WTasyn3merBindOnLamp s51 + s20 > s494

k_WTOligBindOnLamp * s51 * s20
re84 WTasyn4merBindOnLamp s51 + s24 > s495

k_WTOligBindOnLamp * s51 * s24
re85 WTasyn6merBindOnLamp s51 + s32 > s498

k_WTOligBindOnLamp * s51 * s32
re86 DopModWTasynCMAInhibition s51 + s7 > s536

k_DopModWTasynLampBind * s51 * s7
re87 M/autophagyDopModWTasyn4Degr s530 > s447

c2 * k_M_autophagyDegr * s530
re88 M/autophagyDopModWTasyn3Degr s531 > s446

c2 * k_M_autophagyDegr * s531
re89 M/autophagyDopModWTasyn2Degr s527 > s445

c2 * k_M_autophagyDegr * s527
re9 AutophagosomeUptakeWTasyn3mer s20 > s520

k_OligAutophagUptake * s20
re90 M/autophagyDopModWTasyn5Degr s529 > s448

c2 * k_M_autophagyDegr * s529
re91 M/autophagyDopModWTasyn6Degr s528 > s524

c2 * k_M_autophagyDegr * s528
re92 M/autophagyDopModWTasyn7Degr s526 > s524

c2 * k_M_autophagyDegr * s526
re93 M/autophagyDopModWTasyn8Degr s525 > s451

c2 * k_M_autophagyDegr * s525
re94 WTasyn2merFormOnLamp s17 + s78 > s85

k_2merForm * s17 * s78
re95 WTasyn3merFormOnLamp s17 + s85 > s494

k_OligomerForm * s17 * s85
re96 WTasyn4merFormOnLamp s17 + s494 > s495

k_OligomerForm * s17 * s494
re97 WTasyn5merFormOnLamp s17 + s495 > s496

k_OligomerForm * s17 * s495
re98 WTasyn6merFormOnLamp s496 + s17 > s498

k_OligomerForm * s496 * s17
re99 WTasyn7merFormOnLamp s498 + s17 > s499

k_OligomerForm * s498 * s17

Parameters 9   14

Global parameters

Id Value
Total_Cytosolic_WTASYN_Dimer 22.0
Total_Cytosolic_WTASYN_Monomer 2603.0
Total_Cytosolic_WTASYN_Oligomers 112.0
k_2merForm 0.000000001462941015
k_DisRate 0.0000004999533748
k_DopModWTasynLampBind 0.0000000076715997
k_LampFreeWTasyn 0.0003044571674
k_M_autophagyDegr 0.1
k_OligAutophagUptake 0.0000000239034347
k_OligomerForm 0.00000003350497192
k_ProtOligDegr 0.000370096
k_ProteasomeBind 0.000000003424693672
k_WTOligBindOnLamp 0.000004
k_WTasyn1_2merBindOnLamp 0.0000006865455081

Local parameters

Id Value Reaction
k1 0.00999558 re37 (WTasynLysosUptake)
k1 0.00995312 re38 (WTasyn2LysosUptake)
k1 0.1 re69 (WTasyn2merCMADegr)
k1 0.1 re70 (WTasyn1merCMADegr)
k1 0.000000490556 re133 (AggregGrowth)
k1 0.0294219 re1 (WTasynSynthesis)
k1 0.0791823 re2 (DopProduction)
k1 0.000000674768 re4 (WTasynDopModification)
k1 0.00679501 re31 (DopamineDegr)

Rules 0   0   3

Assignment rules

Definition
Total_Cytosolic_WTASYN_Oligomers = s5 * c1 + s2 * c1 + s1 * c1 + s21 * c1 + s25 * c1 + s26 * c1 + s27 * c1 + s20 * c1 + s24 * c1 + s23 * c1 + s32 * c1 + s31 * c1 + s30 * c1 + s29 * c1
Total_Cytosolic_WTASYN_Monomer = s17 * c1 + s7 * c1
Total_Cytosolic_WTASYN_Dimer = s6 * c1 + s18 * c1

Rate rules

Definition

Algebraic rules

Definition

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Trigger Assignments