The small glycine‐rich RNA binding protein At GRP7 promotes floral transition in Arabidopsis thaliana
Summary The RNA binding protein At GRP7 is part of a circadian slave oscillator in Arabidopsis thaliana that negatively autoregulates its own mRNA, and affects the levels of other transcripts. Here, we identify a novel role for AtGRP7 as a flowering‐time gene. An atgrp7‐1 T‐DNA mutant flowers later...
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Published in | The Plant journal : for cell and molecular biology Vol. 56; no. 2; pp. 239 - 250 |
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Main Authors | , , , , , |
Format | Journal Article |
Language | English |
Published |
01.10.2008
|
Online Access | Get full text |
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Summary: | Summary
The RNA binding protein
At
GRP7 is part of a circadian slave oscillator in
Arabidopsis thaliana
that negatively autoregulates its own mRNA, and affects the levels of other transcripts. Here, we identify a novel role for
AtGRP7
as a flowering‐time gene. An
atgrp7‐1
T‐DNA mutant flowers later than wild‐type plants under both long and short days, and independent RNA interference lines with reduced levels of
At
GRP7, and the closely related
At
GRP8 protein, are also late flowering, particularly in short photoperiods. Consistent with the retention of a photoperiodic response, the transcript encoding the key photoperiodic regulator CONSTANS oscillates with a similar pattern in
atgrp7‐1
and wild‐type plants. In both the RNAi lines and in the
atgrp7‐1
mutant transcript levels for the floral repressor
FLC
are elevated. Conversely, in transgenic plants ectopically overexpressing
At
GRP7, the transition to flowering is accelerated mainly in short days, with a concomitant reduction in
FLC
abundance. The late‐flowering phenotype of the RNAi lines is suppressed by introducing the
flc‐3
loss‐of‐function mutation, suggesting that
At
GRP7 promotes floral transition, at least partly by downregulating
FLC
. Furthermore, vernalization overrides the late‐flowering phenotype. Retention of both the photoperiodic response and vernalization response are features of autonomous pathway mutants, suggesting that
At
GRP7 is a novel member of the autonomous pathway. |
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ISSN: | 0960-7412 1365-313X |
DOI: | 10.1111/j.1365-313X.2008.03591.x |