Five-list-coloring graphs on surfaces III. One list of size one and one list of size two

Abstract

Let G be a plane graph with outer cycle C and let (L(v):v∈ V(G)) be a family of non-empty sets. By an L-coloring of G we mean a (proper) coloring φ of G such that φ(v)∈ L(v) for every vertex v of G. Thomassen proved that if v1,v2∈ V(C) are adjacent, L(v1) L(v2), |L(v)|3 for every v∈ V(C)-\v1,v2\ and |L(v)|5 for every v∈ V(G)-V(C), then G has an L-coloring. What happens when v1 and v2 are not adjacent? Then an L-coloring need not exist, but in the first paper of this series we have shown that it exists if |L(v1)|,|L(v2)|2. Here we characterize when an L-coloring exists if |L(v1)|1 and |L(v2)|2. This result is a lemma toward a more general theorem along the same lines, which we will use to prove that minimally non-L-colorable planar graphs with two precolored cycles of bounded length are of bounded size. The latter result has a number of applications which we pursue elsewhere.