For the conventional receiver function (RF) analysis, waveforms of steeply impinging P-waves from tele-earthquakes are used to investigate the crust and upper mantle structures beneath seismic stations. In principle, regional deep events can also be used to calculate RFs as long as the ray parameters are in appropriate range similar to those from teleseismic events. Due to shorter epicentral distances, the regional body waves experience less geometrical spreading and attenuation along the paths of propagation. Therefore, regional events potentially could provide additional data for the RF analysis when available teleseismic events are limited. Based on our extensive tests, the results show that the RFs estimated using regional deep earthquakes are comparable to those from teleseismic events. We perform side-by-side comparisons of RFs calculated from different sets of data at a narrow azimuth range to avoid other complications. For the regional case, we select data from events deeper than 400 km with epicentral distances between 2° and 5° so that the incident angles are small and the P wave trains are sufficiently long for deconvolution. Using station MDJ and deep events in Japan Sea as examples, we successfully estimate the crustal thickness under northeast China to be 36~40 km, consistent with previous studies for this area. Moreover, we discover that there is about 0.4 s of time difference in PpPms-P between the regional and teleseismic RFs. We examine five possible scenarios and none of them are able to provide satisfying explanation to the observation. However, such differences in PpPms-P do not significantly influence the inversed seismic velocity model. Here the regional RF analysis is considered to efficiently determine seismic structure, as well as the results compiled from the teleseismic RF.