The recent developments of automated data collection and remote access technologies at synchrotron facility are highly remarkable. Here I describe our recent attempt to identify phosphates using their anomalous signals without visiting synchrotron facility. Crystals were screened using automated data collection with the X-ray at the wavelength of 1.0 Å. Then the solvent around the qualified crystals was removed by deep-UV laser ablation. The diffraction datasets were subsequently collected from the solvent-removed crystals using the X-ray at the wavelength of 2.7 Å. Anomalous Fourier map from the dataset collected with 2.7 Å X-ray was superposed on the electron density map calculated from the dataset collected with 1.0 Å X-ray. The two maps clearly indicated the positions of non-Carbon/Nitrogen/Oxygen atoms in the crystal. Our trial proved that considerable parts of the experiments in the synchrotron facility could be performed from the remote site.