We discuss the electronic Raman spectra of kx+iky and sinkx+isinky pairing states, which have been proposed as candidate for the spin-triplet superconducting state of Sr 2 RuO 4 . The contribution from the order parameter collective mode is taken into account. The order parameter collective mode is coupled to the B1g and B2g channels of the Raman response. We present numerical results of the B1g and B2g Raman spectra including both of the collective mode and quasi-particle contributions. The structure of the spectra is sensitive to the anisotropy of the energy gap. When the gap is isotropic, as in the case of the kx+iky state, the B1g and B2g spectra are the same, but the anisotropic gap of the sinkx+isinky state leads to substantial difference between them.