The urgent need for discovering new bioactive metabolites prompts exploring novel actinobacterial taxa by developing appropriate tools for their genome mining and rational genetic engineering. One promising source of new bioactive natural products is the genus Actinoplanes, a home to filamentous sporangia-forming actinobacteria producing many important specialized metabolites such as teicoplanin, ramoplanin, and acarbose. Here we describe the development of a gene expression system for a new Actinoplanes species, A. rectilineatus (NRRL B-16090), which is a potential producer of moenomycin-like antibiotics. We have determined the optimal conditions for spore formation in A. rectilineatus and a plasmid transfer procedure for its engineering via intergeneric E. coli-A. rectilineatus conjugation. The φC31- and pSG5-based vectors were successfully transferred into A. rectilineatus, but φBT1- and VWB-based vectors were not transferable. Finally, using the glucuronidase reporter system, we assessed the strength of several heterologous promoters for gene expression in A. rectilineatus.