Abstract
Phototropins (phot1 and phot2) are plasma membrane-associated receptor kinases that respond specifically to blue and UV wavelengths. In addition to a C-terminal Ser/Thr kinase domain, phototropins contain two N-terminal chromophore binding LOV domains that function as photoswitches to regulate a wide range of enzymatic activities in prokaryotes and eukaryotes. Through domain swapping, we show that the photochemical properties of Arabidopsis thaliana phot1 rely on interactions between LOV1 and LOV2, which are facilitated by their intervening linker sequence. Functional analysis of domain-swap proteins supports a mechanism whereby LOV2 acts as a dark-state repressor of phot1 activity both in vitro and in vivo. Moreover, we find a photoactive role for LOV1 in arresting chloroplast accumulation at high light intensities. Unlike LOV2, LOV1 cannot operate as a dark-state repressor, resulting in constitutive receptor autophosphorylation and accelerated internalization from the plasma membrane. Coexpression of active and inactive forms of phot1 demonstrates that autophosphorylation can occur intermolecularly, independent of LOV1, via light-dependent receptor dimerization in vivo. Indeed, transphosphorylation is sufficient to promote phot1 internalization through a clathrin-dependent endocytic pathway triggered primarily by phosphorylation of Ser-851 within the kinase activation loop. The mechanistic implications of these findings in regard to light-driven receptor activation and trafficking are discussed.
Highlights
Higher plants possess at least four different classes of photoreceptor proteins: the phytochromes (Bae and Choi, 2008), cryptochromes (Li and Yang, 2007), phototropins (Christie, 2007), and members of the Zeitlupe (ZTL) family (Demarsy and Fankhauser, 2009)
The resulting proteins, designated 2xLOV1 and 2xLOV2 (Figure 1B), were purified by affinity chromatography (Figure 1C) and their spectral properties assessed by UV-visible absorbance and circular dichroism (CD) spectroscopy
Minor differences in secondary structure were detected by CD spectroscopy for 2xLOV1 and 2xLOV2 relative to the wild type
Summary
Higher plants possess at least four different classes of photoreceptor proteins: the phytochromes (Bae and Choi, 2008), cryptochromes (Li and Yang, 2007), phototropins (Christie, 2007), and members of the Zeitlupe (ZTL) family (Demarsy and Fankhauser, 2009). Flavincysteinyl adduct formation induces subsequent protein conformational changes (Corchnoy et al, 2003; Harper et al, 2003) that, in turn, trigger activation of the C-terminal kinase domain resulting in receptor autophosphorylation (Christie, 2007), a prerequisite for phototropin signaling (Inoue et al, 2008a). The mechanistic basis and biological significance of this partial light-induced internalization is not fully understood but may represent a mode of phototropin signaling (Kong and Nagatani, 2008; Wan et al, 2008) or receptor desensitization (Christie, 2007)
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