The title says it all.

A Yoneda structure in a 2-category, as defined in [SW], is given by a coherent choice of a 1-cell $y_A : A \to PA$ such that

1. $\text{Lan}_{y_A}F\dashv \text{Lan}_F {y_A}$ for each $F :A\to B$;
2. $F(-)\cong \text{Lift}_{B(F-,=)}y_A$;
3. $\text{Lan}_yy\cong 1_{PA}$ (read as: ``the Yoneda embedding is *dense*'');
4. $\text{Lan}_{y_AF}y\circ \text{Lan}_Gy_A \cong \text{Lan}_{GF}y_A \; (\cong \text{Lan}_G\text{Lan}_F y_A)$.

Of course, the validity of these statements in $\bf CAT$ is a consequence of your favourite way to compute pointwise Kan extensions.

I am wondering if the 2-category of prederivators, i.e. strict functors in $[{\bf Cat}°,{\bf CAT}]$, with pseudonatural transformations and modifications as 1- and 2-cells, has a Yoneda structure.

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[SW] : Street, Ross, and Robert Walters. "Yoneda structures on 2-categories." Journal of Algebra 50.2 (1978): 350-379.