The temperature dependences of the current-voltage characteristics of a sample of triangular DNA origami deposited in a 100nm gap between platinum electrodes are measured using a probe station. Below 240K, the sample shows high impedance, similar to that of the substrate. Near room temperature the current shows exponential behavior with respect to the inverse of temperature. Sweep times of 1s do not yield a steady state; however sweep times of 450s for the bias voltage secure a steady state. The thermionic emission and hopping conduction models yield similar barriers of ∼0.7eV at low voltages. For high voltages, the hopping conduction mechanism yields a barrier of 0.9eV and the thermionic emission yields 1.1eV. The experimental data set suggests that the dominant conduction mechanism is hopping in the range 280-320K. The results are consistent with theoretical and experimental estimates of the barrier for related molecules.