Optical bound states in the continuum (BICs), realizing full suppression of radiative losses, have been utilized to realize strong light confinement and optical modes with high a Q-factor. Lasing actions with narrow linewidths based on BIC modes have been demonstrated in the NIR and the visible ranges, but BIC-based lasers in the UV region have not been reported. As UV light sources are essential in various fields, strategies to design compact UV lasers based on high-Q modes is desirable. Here, we demonstrate the first BIC-based UV laser by designing a 1-D periodic resist structure on top of a GaN film. The fabricated laser is having a single-mode lasing with a small FWHM of 0.10 nm and a beam divergence of 1.5 degree. The lasing action can be achieved with a small structure with a side length of only 8 μm. Also, wavelength control of the lasing is achieved by varying the period and temperature. This work provides a new strategy to design compact UV lasers with high performance.