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Query: UMLS:C0033036 (
APC
)
10,214
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The anaphase-promoting complex/cyclosome (
APC
/C) is a multisubunit ubiquitin ligase that regulates progression through the cell cycle by marking key cell division proteins for destruction. To ensure correct cell cycle progression, accurate timing of
APC
/C activity is important, which is obtained through its association with both activating and inhibitory subunits. However, although the
APC
/C is highly conserved among eukaryotes, no
APC
/C inhibitors are known in plants. Recently, we have identified ULTRAVIOLET-B-INSENSITIVE4 (UVI4) as a plant-specific component of the
APC
/C. Here, we demonstrate that UVI4 uses conserved
APC
/C interaction motifs to counteract the activity of the
CELL
CYCLE SWITCH52 A1 (CCS52A1) activator subunit, inhibiting the turnover of the A-type cyclin CYCA2;3. UVI4 is expressed in an S phase-dependent fashion, likely through the action of E2F transcription factors. Correspondingly, uvi4 mutant plants failed to accumulate CYCA2;3 during the S phase and prematurely exited the cell cycle, triggering the onset of the endocycle. We conclude that UVI4 regulates the temporal inactivation of
APC
/C during DNA replication, allowing CYCA2;3 to accumulate above the level required for entering mitosis, and thereby regulates the meristem size and plant growth rate.
...
PMID:Arabidopsis ULTRAVIOLET-B-INSENSITIVE4 maintains cell division activity by temporal inhibition of the anaphase-promoting complex/cyclosome. 2216 59
Organ growth is determined by a coordinated combination of cell proliferation and cell growth and differentiation. Endoreduplication is often coupled with cell growth and differentiation, but the genetic and molecular mechanisms that link endoreduplication with cell and organ growth are largely unknown. Here, we describe UBIQUITIN-SPECIFIC PROTEASE14 (UBP14), encoded by the DA3 gene, which functions as a negative regulator of endoreduplication. The Arabidopsis thaliana da3-1 mutant shows large cotyledons, leaves, and flowers with higher ploidy levels. UBP14 acts along with UV-B-INSENSITIVE4 (UVI4), an inhibitor of the anaphase-promoting complex/cyclosome (
APC
/C) ubiquitin ligase, to repress endoreduplication. Also, UBP14 functions antagonistically with
CELL
CYCLE SWITCH52 A1 (CCS52A1), an activator of
APC
/C, to regulate endoreduplication. UBP14 physically associates with UVI4 both in vitro and in vivo but does not directly interact with CCS52A1. Further results reveal that UBP14 influences the stability of cyclin A2;3 (CYCA2;3) and cyclin-dependent kinase B1;1 (CDKB1;1), two downstream components of the
APC
/C Thus, our findings show how endoreduplication is linked with cell and organ growth by revealing important genetic and molecular functions for the ubiquitin-specific protease UBP14 and for the key cell cycle regulators UVI4, CCS52A1, CYCA2;3, and CDKB1;1.
...
PMID:UBIQUITIN-SPECIFIC PROTEASE14 Interacts with ULTRAVIOLET-B INSENSITIVE4 to Regulate Endoreduplication and Cell and Organ Growth in Arabidopsis. 2709 60
The endocycle represents a modified mitotic cell cycle that in plants is often coupled to cell enlargement and differentiation. Endocycle onset is controlled by activity of the Anaphase Promoting Complex/Cyclosome (
APC
/C), a multisubunit E3 ubiquitin ligase targeting cell-cycle factors for destruction.
CELL
CYCLE SWITCH52 (CCS52) proteins represent rate-limiting activator subunits of the
APC
/C. In Arabidopsis (
Arabidopsis thaliana
), mutations in either
CCS52A1
or
CCS52A2
activators result in a delayed endocycle onset, whereas their overexpression triggers increased DNA ploidy levels. Here, the relative contribution of the
APC
/C
CCS52A1
and
APC
/C
CCS52A2
complexes to different developmental processes was studied through analysis of their negative regulators, being the ULTRAVIOLET-B-INSENSITIVE4 protein and the DP-E2F-Like1 transcriptional repressor, respectively. Our data illustrate cooperative activity of the
APC
/C
CCS52A1
and
APC
/C
CCS52A2
complexes during root and trichome development, but functional interdependency during leaf development. Furthermore, we found
APC
/C
CCS52A1
activity to control
CCS52A2
expression. We conclude that interdependency of CCS52A-controlled
APC
/C activity is controlled in a tissue-specific manner.
...
PMID:Tissue-Specific Control of the Endocycle by the Anaphase Promoting Complex/Cyclosome Inhibitors UVI4 and DEL1. 2869 55
Seed storage proteins (SSPs) provide free amino acids and energy for the process of seed germination. Although degradation of SSPs by the aspartic proteases isolated from seeds has been documented in vitro, there is still no genetic evidence for involvement of aspartic proteases in seed germination. Here we report that the aspartic protease ASPG1 (ASPARTIC PROTEASE IN GUARD
CELL
1) plays an important role in the process of dormancy, viability and germination of Arabidopsis seeds. We show that aspg1-1 mutants have enhanced seed dormancy and reduced seed viability. A significant increase in expression of DELLA genes which act as repressors in the gibberellic acid signal transduction pathway were detected in aspg1-1 during seed germination. Seed germination of aspg1-1 mutants was more sensitive to treatment with paclobutrazol (
PAC
; a gibberellic acid biosynthesis inhibitor). In contrast, seed germination of ASPG1 overexpression (OE) transgenic lines showed resistant to
PAC
. The degradation of SSPs in germinating seeds was severely impaired in aspg1-1 mutants. Moreover, the development of aspg1-1 young seedlings was arrested when grown on the nutrient-free medium. Thus ASPG1 is important for seed dormancy, seed longevity and seed germination, and its function is associated with degradation of SSPs and regulation of gibberellic acid signaling in Arabidopsis.
...
PMID:Arabidopsis Aspartic Protease ASPG1 Affects Seed Dormancy, Seed Longevity and Seed Germination. 2964 52
Eukaryotic mRNAs frequently contain upstream open reading frames (uORFs), encoding small peptides that may control translation of the main ORF (mORF). Here, we report the characterization of a distinct bicistronic transcript in Arabidopsis. We analysed loss-of-function phenotypes of the inorganic polyphosphatase TRIPHOSPHATE TUNNEL METALLOENZYME 3 (AtTTM3), and found that catalytically inactive versions of the enzyme could fully complement embryo and growth-related phenotypes. We could rationalize these puzzling findings by characterizing a uORF in the AtTTM3 locus encoding
CELL
DIVISION CYCLE PROTEIN 26 (CDC26), an orthologue of the cell cycle regulator. We demonstrate that AtCDC26 is part of the plant anaphase promoting complex/cyclosome (
APC
/C), regulates accumulation of
APC
/C target proteins and controls cell division, growth and embryo development. AtCDC26 and AtTTM3 are translated from a single transcript conserved across the plant lineage. While there is no apparent biochemical connection between the two gene products, AtTTM3 coordinates AtCDC26 translation by recruiting the transcript into polysomes. Our work highlights that uORFs may encode functional proteins in plant genomes.
...
PMID:Concerted expression of a cell cycle regulator and a metabolic enzyme from a bicistronic transcript in plants. 3073 13
The anaphase promoting complex/cyclosome (
APC
/C) controls unidirectional progression through the cell cycle by marking key cell cycle proteins for proteasomal turnover. Its activity is temporally regulated by the docking of different activating subunits, known in plants as
CELL
DIVISION PROTEIN20 (CDC20) and
CELL
CYCLE SWITCH52 (CCS52). Despite the importance of the
APC
/C during cell proliferation, the number of identified targets in the plant cell cycle is limited. Here, we used the growth and meristem phenotypes of Arabidopsis (
Arabidopsis thaliana
) CCS52A2-deficient plants in a suppressor mutagenesis screen to identify
APC
/C
CCS52A2
substrates or regulators, resulting in the identification of a mutant cyclin
CYCA3;4
allele. CYCA3;4 deficiency partially rescues the
ccs52a2-1
phenotypes, whereas increased CYCA3;4 levels enhance the scored
ccs52a2-1
phenotypes. Furthermore, whereas the CYCA3;4 protein is promptly broken down after prophase in wild-type plants, it remains present in later stages of mitosis in
ccs52a2-1
mutant plants, marking it as a putative
APC
/C
CCS52A2
substrate. Strikingly, increased CYCA3;4 levels result in aberrant root meristem and stomatal divisions, mimicking phenotypes of plants with reduced RETINOBLASTOMA-RELATED PROTEIN1 (RBR1) activity. Correspondingly, RBR1 hyperphosphorylation was observed in CYCA3;4 gain-of-function plants. Our data thus demonstrate that an inability to timely destroy CYCA3;4 contributes to disorganized formative divisions, possibly in part caused by the inactivation of RBR1.
...
PMID:The Cyclin CYCA3;4 Is a Postprophase Target of the APC/C
CCS52A2
E3-Ligase Controlling Formative Cell Divisions in Arabidopsis. 3269 Jul 20
