The EAL-BLUF fragment from Magnetococcus marinus BldP1 (EB1) light-dependently hydrolyzes c-di-GMP. Herein, the photoreaction of the BLUF domain of EB1 (eBLUF) is studied. It is found for the first time that a monomeric BLUF domain forms a dimer upon illumination and its dark recovery is very slow. The dimer of light- and dark-state protomers (LD-dimer) is much more stable than that of two light-state protomers (LL-dimer), and the dark recovery of the LD-dimer is approximately 20 times slower than that of the LL-dimer, which is suitable for optogenetic tools. The secondary structure of the L-monomer is different from those of the D-monomer and the LD-dimer. The transient grating measurements reveal that this conformational change occurs simultaneously with dimerization. Although the W91A mutant exhibits a spectral red shift, it forms a heterodimer with the L-monomer of wild-type eBLUF with similar stability to the LD-dimer. This suggests that the conformation of the dimerization site of W91A is similar to that of the dark state (dark-mimic mutant); that is, the light-induced structural changes in the chromophore cavity are not transferred to the other part of the protein. The selective photoinduced dimerization of eBLUF is potentially useful to control interprotein interactions between two different effector domains bound to these proteins.