Expression and Purification of Yeast-derived GPCR, Gα and Gβγ Subunits for Structural and Dynamic Studies.

Abstract

In the last several years, as evidence of a surged number of GPCR-G complex structures, the expressions of GPCRs and G proteins for structural biology have achieved tremendous successes, mostly in insect and mammalian cell systems, resulting in more than 370 structures of over 70 GPCRs have been resolved. However, the challenge remains, particularly in the conformational transition and dynamics study area where a much higher quantity of the receptors and G proteins is required even in comparison to X-ray and cryo-EM (5 mg/ml, 3 μl/sample) when NMR spectroscopy (5 mg/ml, 250 μl /sample) is applied. As a result, the expression levels of the insect and mammalian systems are also difficult to meet this demand, not to mention the prohibitive cost of producing GPCRs and G proteins using these systems for a vast majority of laboratories. Therefore, exploration of an effective, affordable, and practical approach with broad applicability is demanded. Pichia pastoris expression system has shown its promise in the GPCR preparation with many merits that other eukaryotic expression systems can't compete with. GPCRs expressed in this system are inexpensive, easy-to-manipulate, and capable of isotopically labeling. Herein, we present related protocols recently developed and upgraded in our lab, including expressions and purifications of P. pastoris derived GPCR along with Gα and Gβγ proteins. We anticipate that these protocols will advance the conformational transition and dynamics studies of the GPCR and its complexes.