Yes, this is possible. (Notice that your question implicitly requires $k[G]$ to be an integral domain, otherwise you cannot take its fraction field.)

Let $k$ be a non-perfect field of characteristic $p$, and let $a \in k \setminus k^p$. Consider the 
algebraic group defined as a functor from $k$-algebras to groups via
$$ G(R) = \{(r,r') \in R^2 \mid r^p = a{r'}^p \} $$
for all $R \in k\mathrm{-alg}$.

Then $k[G] \cong k[t,t']/(t^p-a{t'}^p)$, which is a domain whose fraction field $k(a^{1/p})(t)$ is visibly not separable over $k$.