The D+ transfer reaction between OH- (X(1)Sigma(+)) and D-2, was studied with crossed molecular beam experiments and quantum chemical calculations at collision energies of 89 and 68 kJ/mol. The D- product ions were observed and measured for the first time in the crossed beam experiments. The center-of-mass (c.m.) flux distributions of the D-product ions exhibit significant asymmetry, and their maxima are close to the velocity and direction of the precursor D, beam. The data are consistent with a direct mechanism that occurs on a time scale significantly less than a rotational period of the transient complex formed by approaching reactants. The D1 transfer results primarily in the excitation of the H-O-D bending vibrational mode of the molecular product. The experimental observation is in agreement with theoretical results showing that, during the D1 transfer, the H-O-D bond angle changes significantly.