Let $\mathbb{F}$ be a field, and $\mathbf{V}$ a possibly uncountably generated $\mathbb{F}$-vector space. Let $\mbox{End}_\mathbb{F}(\mathbf{V})$ be the endomorphism ring of $\mathbf{V}$. That the center $\mathbf{Z}(\mbox{End}_\mathbb{F}(\mathbf{V}))=\mathbb{F}$ implies that every maximal commutative subring $R\subset\mbox{End}_\mathbb{F}(\mathbf{V})$ contains $\mathbb{F}$. What can $R$ be? Motivated by finite dimensions I have the following (naive) conjectures. 1. All such subrings R are isomorphic. 2. Every choice of a basis $\mathbf{V}\simeq\mathbb{F}^I$ gives rise to a set of commuting $\mathbb{F}$-linear projectors $p_i(v)=v_i$, $i\in I$. The subring generated by $\{p_i\}_{i\in I}$ over $\mathbb{F}$ is a maximal commutative subring. 3. All maximal commutative subrings $R$ arise in this way. *Question:* Are all/some/any of these conjectures true? What would be a readable reference, i.e., free of abstract nonsense? Thank you.