# Ode does not solve the equations properly

I'm completely new with R and equation solving and stuff like that, yet I have a university task which involves differential equations and R, and I cannot do it properly at all...

```{r}
library(deSolve)
```

```{r}
model9 <- function(t, y, parms) {
with(as.list(y, parms), {
Ptbs1 <- 1/(1+(TALe/Kd1))
#Ptbs8 <- 1/(1+(TALe/Kd8))

dy    <- numeric(6)
dy[2] <- kon*RiboTALe.mRNA*theo-koff*RiboTALe.mRNAw
dy[3] <- b.tale*RiboTALe.mRNAw - gamma.protein*TALe
dy[4] <- a.gfp*Ptet*Ptbs1-gamma.mRNA*GFP.mRNA # CONSIDERAR PTBS8 LUEGO
# dy[4] <- a.gfp*Ptet*Ptbs8-gamma.mRNA*GFP.mRNA
dy[5] <- b.gfp*GFP.mRNA-gamma.protein*GFP.int-beta*GFP.int
dy[6] <- beta*GFP.int-gamma.lvatag*GFP

list(dy)})
}
```

# Incognitas

```{r}
y <- c(RiboTALe.mRNA = 0,
RiboTALe.mRNAw = 0,
GFP.mRNA = 0,
GFP.int = 0,
GFP = 0,
TALe = 0)
```

# Parametros

```{r}
Cotet <- (10*10^{-6}),
ntet  <- 1,
Kdtet <- (3.83*10^{-9}),

K1tet <- 350,
Kd1 <- 240*10^{-9},
Kd8 <- 1.3*10^{-9},
K2tet <- 160/(10*10^{-6}),

koff <- 0.3*10^{-9},
kon <- 1*10^{-3},

gamma.lvatag  <- 2*10^{-4},
gamma.mRNA <- 1.7*10^{-3},
gamma.protein <- 5.6*10^{-5},
a.gfp <- 0.03,
a.tale  <- 0.01,
b.gfp <- 0.06,
b.tale <- 0.02,
beta <- 6.7*10^{-4},
Ltet <- 25,
theo <- 0,
C2 <- (Cotet*(Ltet^ntet))/((Kdtet^ntet)+(Ltet^ntet)),
Cf2 <-  Cotet - C2,
Ptet <- K1tet/(1+K1tet+2*K2tet*Cf2+(K2tet^2)*(Cf2^2)) )
```

```{r}
times <- seq(from = 0, to = 3600, by = 1)
```

```{r}
out <- ode(y = y, times = times, func = model9, parms = parms)
```

```{r}
plot(out)
```

This is a modeling of a biological system involving different molecules, RNA, etc. The idea is that, when the parameter "theo" is equal to zero, there should be no variation of TALe, yet if you plot all of this, TALe increases.

On the other hand, if "theo" is more than 0, I get an error message:

Error in lsoda(y, times, func, parms, ...) : illegal input detected before taking any integration steps - see written message

The idea is to get the results as in here: http://2013.igem.org/Team:UC_Davis/Modeling, but I don't get what I am doing wrong.