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The Aurora kinase family is a well-characterized serine/threonine protein kinase family that regulates different processes of mitotic events. Although functions of animal and yeast Aurora kinases have been analyzed, plant aurora kinases were not identified and characterized. We identified three Aurora kinase orthologs in Arabidopsis thaliana and designated these as AtAUR1, AtAUR2, and AtAUR3. These AtAURs could phosphorylate serine 10 in histone H3, in vitro. Dynamic analyses of GFP-fused AtAUR proteins revealed that AtAUR1 and AtAUR2 localized at the nuclear membrane in interphase and located in mitotic spindles during cell division. AtAUR1 also localized in the cell plates. AtAUR3 showed dot-like distribution on condensed chromosomes at prophase and then localized at the metaphase plate. At late anaphase, AtAUR3 is evenly localized on chromosomes. The localization of AtAUR3 during mitosis is very similar to that of phosphorylated histone H3. Interestingly, an overexpression of AtAUR3 induces disassembly of spindle microtubules and alteration of orientation of cell division. Our results indicate that plant Aurora kinases have different characters from that of Aurora kinases of other eukaryotes.†These authors equally contributed to this work  相似文献   

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The endoplasmic reticulum (ER) undergoes significant reorganization between interphase and mitosis, but the underlying mechanisms are unknown [1]. Stromal interaction molecule 1 (STIM1) is an ER Ca(2+) sensor that activates store-operated Ca(2+) entry (SOCE) [2, 3] and also functions in ER morphogenesis through its interaction with the microtubule?+TIP protein end binding 1 (EB1) [4]. We previously demonstrated that phosphorylation of STIM1 during mitosis suppresses SOCE [5]. We now show that STIM1 phosphorylation is a major regulatory mechanism that excludes ER from the mitotic spindle. In mitotic HeLa cells, the ER forms concentric sheets largely excluded from the mitotic spindle. We show that STIM1 dissociates from EB1 in mitosis and localizes to the concentric ER sheets. However, a nonphosphorylatable STIM1 mutant (STIM1(10A)) colocalized extensively with EB1 and drove ER mislocalization by pulling ER tubules into the spindle. This effect was rescued by mutating the EB1 interaction site of STIM1(10A), demonstrating that aberrant association of STIM1(10A) with EB1 is responsible for the ER mislocalization. A STIM1 phosphomimetic exhibited significantly impaired?+TIP tracking in interphase but was ineffective at inhibiting SOCE, suggesting different mechanisms of regulation of these two STIM1 functions by phosphorylation. Thus, ER spindle exclusion and ER-dependent Ca(2+) signaling during mitosis require multimodal STIM1 regulation by phosphorylation.  相似文献   

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The inhibitory activity of Arabidopsis thaliana ICK1, a plant cyclin-dependent kinase inhibitor, has previously been characterised by its effect on plant cyclin-dependent kinase activity in vitro and its effect on growth in transgenic plants. Herein, we examine cyclin-dependent kinase-driven cell-cycle events, probed by testing the sensitivity of living cells to introduced ICK1 protein. The microinjection of ICK1 into individual Tradescantia virginiana stamen hair cells during late prophase and prometaphase resulted in a clear protein-specific increase in the metaphase transit time (time from nuclear envelope breakdown to the onset of anaphase) in a manner dependent on load and injection time. The results indicate a continuing role for cyclin-dependent kinases in mitotic progression and provide in vivo evidence at the cellular level that ICK1 can restrict growth in the plant by inhibiting cell division.  相似文献   

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Background

In Arabidopsis thaliana, the gene Tousled encodes a protein kinase of unknown function, but mutations in the gene lead to flowering and leaf morphology defects. We have recently cloned a mammalian Tousled-L ike K inase (TLK1B) and found that it phosphorylates specifically histone H3, in vitro and in vivo. We now report the effects that overexpression of a kinase-dead mutant of TLK1B mediates in a normal diploid cell line.

Results

Expression of a kinase-dead mutant resulted in reduction of phosphorylated histone H3, which could have consequences in mitotic segregation of chromosomes. When analyzed by FACS and microscopy, these cells displayed high chromosome number instability and aneuploidy. This phenomenon was accompanied by less condensed chromosomes at mitosis; failure of a number of chromosomes to align properly on the metaphase plate; failure of some chromosomes to attach to microtubules; and the occasional presentation of two bipolar spindles. We also used a different method (siRNA) to reduce the level of endogenous TLK1, but in this case, the main result was a strong block of cell cycle progression suggesting that TLK1 may also play a role in progression from G1. This block in S phase progression could also offer a different explanation of some of the later mitotic defects.

Conclusions

TLK1 has a function important for proper chromosome segregation and maintenance of diploid cells at mitosis in mammalian cells that could be mediated by reduced phosphorylation of histone H3 and condensation of chromosomes, although other explanations to the phenotype are possible.
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Proper microtubule organization is essential for cellular processes such as organelle positioning during interphase and spindle formation during mitosis. The fission yeast Schizosaccharomyces pombe presents a good model for understanding microtubule organization. We identify fission yeast ase1p, a member of the conserved ASE1/PRC1/MAP65 family of microtubule bundling proteins, which functions in organizing the spindle midzone during mitosis. Using fluorescence live cell imaging, we show that ase1p localizes to sites of microtubule overlaps associated with microtubule organizing centers at both interphase and mitosis. ase1Delta mutants fail to form overlapping antiparallel microtubule bundles, leading to interphase nuclear positioning defects, and premature mitotic spindle collapse. FRAP analysis revealed that interphase ase1p at overlapping microtubule minus ends is highly dynamic. In contrast, mitotic ase1p at microtubule plus ends at the spindle midzone is more stable. We propose that ase1p functions to organize microtubules into overlapping antiparallel bundles both in interphase and mitosis and that ase1p may be differentially regulated through the cell cycle.  相似文献   

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In Arabidopsis thaliana, the non-expresser pathogenesis-related (NPR) multigene family members NPR1, NPR3, and NPR4 are necessary for salicylic acid (SA) perception. NPR3 and NPR4 are the CUL3 E3-ligase substrate adaptors allowing for the ubiquitination and turnover of NPR1 by the 26s proteasome. Concurrently, roots treated with the SA agonist benzothiadiazole accumulate autophagic bodies via NPR1-dependent signal pathway. However, the mechanisms by which NPR3 and NPR4 regulate autophagy remain unclear. In the present study, using single, double, and triple npr1-, npr3-, and npr4-null mutants and wild-type plants, the following results were obtained: (1) leaf senescence progressed faster in npr3/npr4 mutants than in wild type, suggesting that NPR3 and NPR4 negatively regulated leaf senescence. Moreover, npr3/npr4 promoted the expression of pathogenesis-related 1 (PR1) gene and enhanced resistance in response to avirulent pathogen infections suppressing cell death. Still, all mutants had similar SA levels, suggesting that NPR3 and NPR4 positive regulation of cell death and disease resistance was not associated with SA levels; (2) the number of autophagosomes, ATG7, and ATG8a-phosphatidylethanolamine and the concentration of free green-fluorescence protein were lower in npr3/npr4 mutants than in wild-type plants, indicating that NPR3 and NPR4 affected the two ubiquitination-like conjugation systems during the autophagosome formation and degradation of autophagic bodies.  相似文献   

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Rae1 performs multiple functions in animal systems, acting in interphase as an mRNA export factor and during mitosis as a mitotic checkpoint and spindle assembly regulator. In this study we characterized multiple functions of Rae1 in plants. Virus-induced gene silencing of Nicotiana benthamiana Rae1 , NbRae1 , which encodes a protein with four WD40 repeats, resulted in growth arrest and abnormal leaf development. NbRae1 was mainly associated with the nuclear envelope during interphase, and NbRae1 deficiency caused accumulation of poly(A) RNA in the nuclei of leaf cells, suggesting defective mRNA export. In the shoot apex, depletion of NbRae1 led to reduced mitotic activities, accompanied by reduced cyclin-dependent kinase (CDK) activity and decreased expression of cyclin B1, CDKB1-1, and histones H3 and H4. The secondary growth of stem vasculature was also inhibited, indicating reduced cambial activities. Differentiated leaf cells of NbRae1 -silenced plants exhibited elevated ploidy levels. Immunolabeling in BY-2 cells showed that NbRae1 protein localized to mitotic microtubules and the cell plate-forming zone during mitosis, and recombinant NbRae1 directly bound to microtubules in vitro . Inhibition of NbRae1 expression in BY-2 cells using a β-estradiol-inducible RNAi system resulted in severe defects in spindle organization and chromosome alignment and segregation, which correlated with delays in cell cycle progression. Together, these results suggest that NbRae1 plays a dual role in mRNA export in interphase and in spindle assembly in mitosis.  相似文献   

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We recently demonstrated the biosynthesis of 24-ethylidene brassinosteroids in Arabidopsis thaliana. To determine the physiological role of biosynthesis of 24-ethylidene brassinosteroids, metabolism of 28-homodolichosterone as the end product of 24-ethylidene brassinosteroids biosynthesis was examined by a crude enzyme solution prepared from A. thaliana. In wild-type plants, dolichosterone and castasterone were identified as enzyme products on GC-MS analysis. In a mutant where DWARF1 was overexpressed (35S-DWF1), the conversion rate of 28-homodolichosterone to castasterone was significantly increased. These results indicate that conversion of 28-homodolichosterone to castasterone is mediated by dolichosterone in Arabidopsis. In the root growth assay, inhibitory activity was enhanced in the order of castasterone > dolichosterone > 28-homodolichosterone, demonstrating that conversion of 28-homodolichosterone to castasterone via dolichosterone is a biosynthetic reaction that increases BR activity in Arabidopsis. Compared to Arabidopsis grown under dark conditions, light-grown Arabidopsis showed up-regulated DWARF1 expression, resulting in an increased conversion rate of 28-homodolichosterone to castasterone, suggesting that light is an important regulatory factor for the biosynthetic connection of 24-ethylidene brassinosteroids and 24-methyl brassinosteroids in A. thaliana. Consequently, 24-ethylidene brassinosteroids biosynthesis to generate 28-homodolichosterone is a lightregulated alternative route for synthesis of the biologically-active BRs, castasterone and brassinolide in Arabidopsis plants.  相似文献   

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