Abstract
Rho of Plants (ROP) G-proteins are key components of cell polarization processes in plant development. The barley (Hordeum vulgare) ROP protein RACB is a susceptibility factor in the interaction of barley with the barley powdery mildew fungus Blumeria graminis f. sp. hordei (Bgh). RACB also drives polar cell development, and this function might be coopted during the formation of fungal haustoria in barley epidermal cells. To understand RACB signaling during the interaction of barley with Bgh, we searched for potential downstream interactors of RACB. Here, we show that ROP INTERACTIVE PARTNER b (RIPb; synonym: INTERACTOR OF CONSTITUTIVE ACTIVE ROP b) directly interacts with RACB in yeast and in planta. Overexpression of RIPb supports the susceptibility of barley to Bgh RIPb further interacts with itself at microtubules. However, the interaction with activated RACB largely takes place at the plasma membrane. Both RIPb and RACB are recruited to the site of fungal attack around the neck of developing haustoria, suggesting locally enhanced ROP activity. We further assigned different functions to different domains of the RIPb protein. The N-terminal coiled-coil CC1 domain is required for microtubule localization, while the C-terminal coiled-coil CC2 domain is sufficient to interact with RACB and to fulfill a function in susceptibility at the plasma membrane. Hence, RIPb appears to be localized at microtubules and is then recruited by activated RACB for a function at the plasma membrane during formation of the haustorial complex.
Highlights
The interaction of plants with powdery mildew fungi is a model for the biology of cell-autonomous responses to fungal parasites (Dörmann et al, 2014)
While activation is mediated by Guanosin Nucleotide Exchange Factors (GEF) enabling the exchange of GDP to GTP, inactivation is facilitated by GTPase Activating Proteins (GAP) which activate the intrinsic GTPase function of the Gprotein, leading to GTP hydrolysis
Identification of Interactors of Constitutive Active ROPs (ICRs)/ROP Interactive Partners (RIPs) proteins in barley Previous studies have shown that ICR/RIP proteins are a class of proteins with little sequence similarity (Li et al, 2008)
Summary
The interaction of plants with powdery mildew fungi is a model for the biology of cell-autonomous responses to fungal parasites (Dörmann et al, 2014). ROP2 is involved in pavement cell lobe interdigitation by interacting with RIC4 for actin assembly in lobes and at the same time inhibiting RIC1 which organizes microtubules together with katanin KTN1 downstream of ROP6 (Fu et al, 2005; Lin et al, 2013) In these pathways, RIC proteins are considered scaffolds for connecting activated ROPs with downstream effector proteins in G-protein signaling. RIP1/ICR1 seems to be able to interact with different ROP proteins and was found to interact downstream with SEC3a of the exocyst complex and thereby possibly controlling the localization of the auxin transporter PIN1 (Lavy et al, 2007; Hazak et al, 2010; Hazak et al, 2014)
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