Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
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Gene/Protein
Disease
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Target Concepts:
Gene/Protein
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Query: UNIPROT:Q8IWL1 (
SPA2
)
55
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The COP1/SPA complex acts as an
E3 ubiquitin ligase
to repress photomorphogenesis by targeting activators of the light response for degradation. Genetic analysis has shown that the four members of the SPA gene family (SPA1-SPA4) have overlapping but distinct functions. In particular, SPA1 and
SPA2
differ in that SPA1 encodes a potent repressor in light- and dark-grown seedlings, but
SPA2
fully loses its function when seedlings are exposed to light, indicating that
SPA2
function is hyper-inactivated by light. Here, we have used chimeric SPA1/
SPA2
constructs to show that the distinct functions of SPA1 and
SPA2
genes in light-grown seedlings are due to the SPA protein sequences and independent of the SPA promoter sequences. Biochemical analysis of SPA1 and
SPA2
protein levels shows that light exposure leads to rapid proteasomal degradation of
SPA2
, and, more weakly, of SPA1, but not of COP1. This suggests that light inactivates the COP1/SPA complex partly by reducing SPA protein levels. Although
SPA2
was more strongly degraded than SPA1, this was not the sole reason for the lack of
SPA2
function in the light. We found that the
SPA2
protein is inherently incapable of repressing photomorphogenesis in light-grown seedlings. The data therefore indicate that light inactivates the function of
SPA2
through a post-translational mechanism that eliminates the activity of the remaining
SPA2
protein in the cell.
...
PMID:Light exposure of Arabidopsis seedlings causes rapid de-stabilization as well as selective post-translational inactivation of the repressor of photomorphogenesis SPA2. 2123 48
The Arabidopsis COP1/SPA
E3 ubiquitin ligase
is a key negative regulator that represses light signaling in darkness by targeting transcription factors involved in the light response for degradation. The COP1/SPA complex consists of COP1 and members of the four-member SPA protein family (SPA1-SPA4). Genetic analysis indicated that COP1/
SPA2
function is particularly strongly repressed by light when compared to complexes carrying the other three SPAs, thereby promoting a light response after exposure of plants to extremely low light. Here, we show that the
SPA2
protein is degraded within 5-15 min after exposure of dark-grown seedlings to a pulse of light. Phytochrome photoreceptors are required for the rapid degradation of
SPA2
in red, far-red and also in blue light, whereas cryptochromes are not involved in the rapid, blue light-induced reduction in
SPA2
protein levels. These results uncover a photoreceptor-specific mechanism of light-induced inhibition of COP1/
SPA2
function. Phytochrome A (phyA) is required for the severe blue light responsiveness of spa triple mutants expressing only
SPA2
, thus confirming the important role of phyA in downregulating
SPA2
function in blue light. In blue light,
SPA2
forms a complex with cryptochrome 1 (cry1), but not with cryptochrome 2 (cry2) in vivo, indicating that the lack of a rapid blue light response of the
SPA2
protein is only in part caused by a failure to interact with cryptochromes. Since SPA1 interacts with both cry1 and cry2, these results provide first molecular evidence that the light-regulation of different SPA proteins diverged during evolution.
SPA2
degradation in the light requires COP1 and the COP1-interacting coiled-coil domain of
SPA2
, supporting that
SPA2
is ubiquitinated by COP1. We propose that light perceived by phytochromes causes a switch in the ubiquitination activity of COP1/
SPA2
from ubiquitinating downstream substrates to ubiquitinating
SPA2
, which subsequently causes a repression of COP1/
SPA2
function.
...
PMID:Photoreceptor Specificity in the Light-Induced and COP1-Mediated Rapid Degradation of the Repressor of Photomorphogenesis SPA2 in Arabidopsis. 2636 89
