Let $G$ be a finite group, $p$ a prime number, and $k$ an algebraically closed field of characteristic $p$.  Then we can consider the cohomological variety of $G$, namely the maximal spectrum $V_G$ of the graded algebra $H^\bullet(G,k)=\operatorname{Ext}^\bullet_{k[G]}(k,k)$.  By the Quillen stratification, this space has a stratification by quotients of the cohomological varieties of elementary abelian subgroups $E$ of $G$ (where an elementary abelian subgroup is one of the form $(\mathbb{Z}/p\mathbb{Z})^n$).  To be precise, for an elementary abelian subgroup $E$, one has a map $V_E/W_E\to V_G$, where $W_E=N_G(E)/C_G(E)$.  These maps are inseparable isogenies away from the locus cutting out smaller subgroups $E'$ of $E$, and together they give our stratification.

Now my $\textbf{question}$ is: if the Sylow $p$-subgroup $P$ of $G$ is itself elementary abelian, then do we obtain that $V_G$ is simply $V_P/W_P$?  

Clearly this will be true on an dense open locus; further it holds in the case when $P$ is normal by the Lyndon-Hochschild-Serre spectral sequence.  But I'm not clear about the general case.