共查询到20条相似文献,搜索用时 31 毫秒
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Degradation of the auxin response factor ARF1 总被引:1,自引:0,他引:1
Auxin-mediated gene expression is largely controlled through a family of DNA-binding proteins known as auxin response factors (ARF). Previous studies on the role of proteolytic regulation in auxin signaling have focused on degradation of their interacting partner, the Aux/IAA proteins. Aux/IAA family members with domain II sequences are rapidly degraded, show auxin-enhanced degradation rates, and interact with the related F-box proteins TIR1 and AFB1-3, which indicates that they are ubiquitylated by a CUL1-dependent E3 ligase. To date, limited data have been generated regarding degradation of ARFs. Here, we focus on the degradation rate of one ARF family member, Arabidopsis thaliana ARF1, and find that the half-lives of N-terminally HA-tagged ARF1 and C-terminally luciferase-tagged ARF1 are both approximately 3–4 h. This half-life appears to be conferred by a component of the middle region (MR), and degradation of the luciferase fusion with the MR is more rapid when the fusion includes an additional nuclear localization signal. ARF1 degradation is proteasome-dependent and rates are not altered in a CUL1 mutant background, suggesting that this ARF is targeted for proteasomal degradation via an alternative set of machinery to that used for Aux/IAA degradation. Consistent with this, exogenous indole acetic acid does not affect the degradation of ARF1. Given increasing evidence that the relative ratio of Aux/IAAs to ARFs rather than the absolute quantity within the cell appears to be the mode through which auxin signaling is modulated, this half-life is likely to be biologically relevant. 相似文献
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Tissue-specific expression of stabilized SOLITARY-ROOT/IAA14 alters lateral root development in Arabidopsis 总被引:1,自引:0,他引:1
Fukaki H Nakao Y Okushima Y Theologis A Tasaka M 《The Plant journal : for cell and molecular biology》2005,44(3):382-395
Auxin is important for lateral root (LR) initiation and subsequent LR primordium development. However, the roles of tissue-specific auxin signaling in these processes are poorly understood. We analyzed transgenic Arabidopsis plants expressing the stabilized mutant INDOLE-3 ACETIC ACID 14 (IAA14)/SOLITARY-ROOT (mIAA14) protein as a repressor of the auxin response factors (ARFs), under the control of tissue-specific promoters. We showed that plants expressing the mIAA14-glucocorticoid receptor (GR) fusion protein under the control of the native IAA14 promoter had the solitary-root/iaa14 mutant phenotypes, including the lack of LR formation under dexamethasone (Dex) treatment, indicating that mIAA14-GR is functional in the presence of Dex. We then demonstrated that expression of mIAA14-GR under the control of the stele-specific SHORT-ROOT promoter suppressed LR formation, and showed that mIAA14-GR expression in the protoxylem-adjacent pericycle also blocked LR formation, indicating that the normal auxin response mediated by auxin/indole-3 acetic acid (Aux/IAA) signaling in the protoxylem pericycle is necessary for LR formation. In addition, we demonstrated that expression of mIAA14-GR under either the ARF7 or the ARF19 promoter also suppressed LR formation as in the arf7 arf19 double mutants, and that IAA14 interacted with ARF7 and ARF19 in yeasts. These results strongly suggest that mIAA14-GR directly inactivates ARF7/ARF19 functions, thereby blocking LR formation. Post-embryonic expression of mIAA14-GR under the SCARECROW promoter, which is expressed in the specific cell lineage during LR primordium formation, caused disorganized LR development. This indicates that normal auxin signaling in LR primordia, which involves the unknown ARFs and Aux/IAAs, is necessary for the establishment of LR primordium organization. Thus, our data show that tissue-specific expression of a stabilized Aux/IAA protein allows analysis of tissue-specific auxin responses in LR development by inactivating ARF functions. 相似文献
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Shucai Wang 《Phyton》2023,92(4):1153-1160
Light is an environmental signaling, whereas Aux/IAA proteins and Auxin Response Factors (ARFs) are regulators of auxin signalling. Aux/IAA proteins are unstable, and their degradation dependents on 26S ubiquitin-proteasome and is promoted by Auxin. Auxin binds directly to a SCF-type ubiquitin-protein ligase, TIR1, facilitates the interaction between Aux/IAA proteins and TIR1, and then the degradation of Aux/IAA proteins. A few studies have reported that some ARFs are also unstable proteins, and their degradation is also mediated by 26S proteasome. In this study, by using of antibodies recognizing endogenous ARF7 proteins, we found that protein stability of ARF7 was affected by light. By expressing MYC tagged ARF activators in protoplasts, we found that degradation of ARF7 was inhibited by 26 proteasome inhibitors. In addition, at least ARF5 and ARF19 were also unstable proteins, and degradation of ARF5 via 26S proteasome was further confirmed by using stable transformed plants overexpressing ARF5 with a GUS tag. 相似文献
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John William Chandler 《Plant, cell & environment》2016,39(5):1014-1028
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MASSUGU2 encodes Aux/IAA19, an auxin-regulated protein that functions together with the transcriptional activator NPH4/ARF7 to regulate differential growth responses of hypocotyl and formation of lateral roots in Arabidopsis thaliana 总被引:4,自引:0,他引:4 下载免费PDF全文
Tatematsu K Kumagai S Muto H Sato A Watahiki MK Harper RM Liscum E Yamamoto KT 《The Plant cell》2004,16(2):379-393
We have isolated a dominant, auxin-insensitive mutant of Arabidopsis thaliana, massugu2 (msg2), that displays neither hypocotyl gravitropism nor phototropism, fails to maintain an apical hook as an etiolated seedling, and is defective in lateral root formation. Yet other aspects of growth and development of msg2 plants are almost normal. These characteristics of msg2 are similar to those of another auxin-insensitive mutant, non-phototropic hypocotyl4 (nph4), which is a loss-of-function mutant of AUXIN RESPONSE FACTOR7 (ARF7) (Harper et al., 2000). Map-based cloning of the MSG2 locus reveals that all four mutant alleles result in amino acid substitutions in the conserved domain II of an Auxin/Indole-3-Acetic Acid protein, IAA19. Interestingly, auxin inducibility of MSG2/IAA19 gene expression is reduced by 65% in nph4/arf7. Moreover, MSG2/IAA19 protein binds to the C-terminal domain of NPH4/ARF7 in a Saccharomyces cerevisiae (yeast) two-hybrid assay and to the whole latter protein in vitro by pull-down assay. These results suggest that MSG2/IAA19 and NPH4/ARF7 may constitute a negative feedback loop to regulate differential growth responses of hypocotyls and lateral root formation. 相似文献
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The Arabidopsis transcription factor MYB77 modulates auxin signal transduction 总被引:6,自引:0,他引:6 下载免费PDF全文
Shin R Burch AY Huppert KA Tiwari SB Murphy AS Guilfoyle TJ Schachtman DP 《The Plant cell》2007,19(8):2440-2453
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Auxin-responsive gene expression: genes,promoters and regulatory factors 总被引:36,自引:0,他引:36
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通过SSH法获得了一个与不定根形成相关的差异表达的cDNA片段,其推导的氨基酸序列与拟南芥的生长素反应因子(ARF)类蛋白具有较大的同源性,因此将它命名为MiARF。用所设计的基因特异引物进行3′RACE扩增获得包含完整读码框架(ORF)的MiARF1(GenBank登录号为AY255705)和MiARF2(GenBank登录号为AY300808)。MiARF1全长为3272bp,其中,ORF含2523bp,5′非翻译区(5′UTR)含285bp, 3′非翻译区(3′UTR)含464bp。由该序列所推导的氨基酸序列与拟南芥ARF2(BAB10162)的ID值为64%, E值为0,在DNA结合区域(DBD)、III和IV区域的同源性更高,ID值均大于80%。MiARF2cDNA全长为1474bp,其中ORF含981bp,5′非翻译区含285bp, 3′非翻译区含208bp,由该序列所推导的氨基酸序列与拟南芥ARF2(BAB10162)的ID值为84%,E值为e-151。 MiARF2仅具有DBD保守区并与MiARF1的基本相同,但缺乏III和IV区域。Virtural Northern 杂交表明:MiARF2在生根的组织中表达水平高, 而在非生根的组织中未见表达;MiARF1在生根及非生根的组织中均有表达。 相似文献