Many relational representations of graphs aren't particularly efficient for all operations you might want to perform.

For example, if one wants the connected set of all nodes where edges satisfy a given predicate, starting from a given node, there's no natural way in SQL to express that. Likely you'll either do a query for edges with the predicate, and then have to exclude disconnected edges locally, or have a very verbose conversation with the database server following one set of links to the next in iterated queries.

Graphs aren't a general replacement for relational databases. RDBs deal primarily in sets (tables), while graphs are primarily interesting because of the "shape" of interconnections. With relational DBs you follow links of a predetermined depth (a fixed number of joins) between sets, with results progressively filtered and grouped, while graphs are usually navigated to arbitrary and recursively-defined depth (i.e. not a predetermined number of "joins"). You can abuse either to match the characteristics of the other, but they'll have different strengths.