G protein-coupled receptors (GPCRs) belong to the most diverse group of membrane receptors with a conserved structure of seven transmembrane (TM) α-helices connected by intracellular and extracellular loops. Intracellular loop 3 (ICL3) connects TM5 and TM6, the two helices shown to play significant roles in receptor activation. Herein, we investigate the activation and signaling of the β1 adrenergic receptor (β1AR) using mass spectrometry (MS) with a particular focus on the ICL3 loop. First, using native MS, we measure the extent of receptor coupling to an engineered Gαs subunit (mini Gs) and show preferential coupling to β1AR with an intact ICL3 (β1AR_ICL3) compared to the truncated β1AR. Next, using hydrogen-deuterium exchange (HDX)-MS, we show how helix 5 of mini Gs reports on the extent of receptor activation in the presence of a range of agonists. Then, exploring a range of solution conditions and using comparative HDX, we note additional HDX protection when ICL3 is present, implying that mini Gs helix 5 presents a different binding conformation to the surface of β1AR_ICL3, a conclusion supported by MD simulation. Considering when this conformatonal change occurs we used time-resolved HDX and employed two functional assays to measure GDP release and cAMP production, with and without ICL3. We found that ICL3 exerts its effect on Gs through enhanced cAMP production but does not affect GDP release. Together, our study uncovers potential roles of ICL3 in fine-tuning GPCR activation through subtle changes in the binding pose of helix 5, only after nucleotide release from Gs.