SUMMARY
Soluble guanylyl cyclases are typically obligate heterodimers, composed of a single alpha and a single beta subunit. MsGC-β3, identified in the tobacco hornworm Manduca sexta, was the first example of a soluble guanylyl cyclase that exhibited enzyme activity without the need for coexpression with additional subunits. Subsequent studies have revealed that the mammalian β2 subunit also shares this property. Using a combination of gel filtration chromatography, coprecipitation and site-directed mutagenesis we show that, as predicted, MsGC-β3 forms active homodimers. We also demonstrate that MsGC-β3 is capable of forming heterodimers with the nitric oxide (NO)-sensitive guanylyl cyclase subunits MsGC-α1 and MsGC-β1. These heterodimers, however, show no enzyme activity and, like mammalian β2 subunits, act in a dominant negative manner when combined with the NO-sensitive subunits to disrupt their activation by NO. In addition,we show that the unique C-terminal domain of MsGC-β3 is not necessary for enzyme activity and might act as an auto-inhibitory domain.
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