共查询到20条相似文献,搜索用时 51 毫秒
1.
Wang X Kota U He K Blackburn K Li J Goshe MB Huber SC Clouse SD 《Developmental cell》2008,15(2):220-235
Brassinosteroids (BRs) regulate plant development through a signal transduction pathway involving the BRI1 and BAK1 transmembrane receptor kinases. The detailed molecular mechanisms of phosphorylation, kinase activation, and oligomerization of the BRI1/BAK1 complex in response to BRs are uncertain. We demonstrate that BR-dependent activation of BRI1 precedes association with BAK1 in planta, and that BRI1 positively regulates BAK1 phosphorylation levels in vivo. BRI1 transphosphorylates BAK1 in vitro on specific kinase-domain residues critical for BAK1 function. BAK1 also transphosphorylates BRI1, thereby quantitatively increasing BRI1 kinase activity toward a specific substrate. We propose a sequential transphosphorylation model in which BRI1 controls signaling specificity by direct BR binding followed by substrate phosphorylation. The coreceptor BAK1 is then activated by BRI1-dependent transphosphorylation and subsequently enhances signaling output through reciprocal BRI1 transphosphorylation. This model suggests both conservation and distinct differences between the molecular mechanisms regulating phosphorylation-dependent kinase activation in plant and animal receptor kinases. 相似文献
2.
Brassinosteroids (BRs) regulate plant growth and development through a complex signal transduction pathway involving BRASSINOSTEROID INSENSITIVE 1 (BRI1), which is the BR receptor, and its co-receptor BRI1-ASSOCIATED KINASE 1 (BAK1). Both proteins are classified as Ser/Thr protein kinases. Recently, we reported that recombinant cytoplasmic domains (CD) of BRI1 and BAK1 also autophosphorylate on tyrosine residues and thus are dual-specificity kinases.1 Two sites of Tyr autophosphorylation were identified that appear to have different effects on BRI1 function. Tyr-831 in the juxtamembrane domain is not essential for kinase activity but has a regulatory role, with phosphorylation of Tyr-831 causing inhibition of growth and delay of flowering. In contrast, Tyr-956 is located in subdomain IV of the kinase domain and is essential for kinase activity, and we are speculating that the free hydroxyl group at this position is essential and thus phosphorylation of Tyr-956 would inhibit BRI1 kinase activity. Expression of BRI1(Y831F)-Flag in the weak allele bri1-5 rescued the dwarf phenotype but plants had rounder leaves, increased shoot biomass, and flowered earlier than plants expressing the BRI1(wild type)-Flag in the bri1-5 background. To further elaborate on earlier results, we present additional phenotypic analysis of transgenic Arabidopsis plants expressing BRI1(Y831F)-Flag or site-directed mutants of other Tyr residues within the kinase domain. The results highlight the unique role of Tyr-831 in regulation of BR signaling in vivo. Elucidating the molecular basis for increased biomass accumulation in plants expressing BRI1(Y831F)-Flag may have applications for agriculture.Key words: brassinosteroids, LRR-RLK, autophosphorylation, tyrosine phosphorylation, signal transduction 相似文献
3.
油菜素内酯(brassinosteroids,BRs)是一类重要的类固醇激素,参与调控植物生长发育的许多过程。结合应用遗传学、生物化学以及蛋白质组学等研究手段现已基本阐明了BR信号转导的主要过程。BRI1作为受体在细胞表面感知BR,BRI1抑制子BKI1从质膜上解离下来,使BRI1与其共受体BAK1结合。BRI1和BAK1通过顺序磷酸化将BR信号完全激活。活化的BRI1将BSK磷酸化激活,BSK活化BSU1,BSU1将BIN2去磷酸化使其失活,解除BIN2对BES1/BZR1的抑制功能。PP2A可以将BES1/BZR1去磷酸化激活,又可以将受体BRI1去磷酸化促使其降解。BR信号的传递最终使去磷酸化状态的BES1/BZR1在细胞内累积,激活BR信号通路下游的转录调控。 相似文献
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5.
Won Byoung Chae Youn-Je Park Kyung Sun Lee Ill-Sup Nou Man-Ho Oh 《Genes & genomics.》2016,38(11):1111-1119
14-3-3 proteins are pSer/pThr-binding proteins that interact with a wide array of cellular ‘client’ proteins. The plant brassinosteroids (BRs) receptor, BRASSINOSTEROID INSENSITIVE 1 (BRI1), is a member of the large family of leucine-rich repeat receptor-like kinases (LRR-RLKs) that contain cytoplasmic protein kinase domains. At least two LRR-RLKs are involved in BR perception and signal transduction: BRI1 and BRI1-associated receptor kinase 1 (BAK1). We determined that several 14-3-3 proteins bind to BRI1-CD and are phosphorylated by BRI1, BAK1 and At3g21430 receptor kinases in vitro. Moreover, we observed14-3-3 s are phosphorylated on threonine residue(s) with BR-dependent manner. To reveal the function of 14-3-3 proteins interacting with LRR-RLKs, we treated tyrosine phosphatase (PTP1B) to the BRI1-CD recombinant protein, which is autophosphorylated on tyrosine residue(s). Tyrosine autophosphorylation signal was disappeared, suggesting that 14-3-3 proteins cannot protect BRI1 tyrosine phosphorylation from PTP1B phosphatase. Our study suggests that 14-3-3 proteins may be important for plant growth and development through BR signaling. 相似文献
6.
Hye Sup Yun Young Hee Bae Yun Ji Lee Soo Chul Chang Seong-Ki Kim Jianming Li Kyoung Hee Nam 《Molecules and cells》2009,27(2):183-190
The plasma membrane-localized BRASSINOSTEROID-INSENSITIVE1 (BRI1) and BRI1-ASSOCIATED KINASE1 (BAK1) are a well-known receptor
pair involved in brassinosteroids (BR) signaling in Arabidposis. The formation of a receptor complex in response to BRs and
the subsequent activation of cytoplasmic domain kinase activity share mechanistic characteristics with animal receptor kinases.
Here, we demonstrate that BRI1 and BAK1 are BR-dependently phosphorylated, and that phosphorylated forms of the two proteins
persist for different lengths of time. Mutations of either protein abolished phosphorylation of the counterpart protein, implying
transphosphorylation of the receptor kinases. To investigate the specific amino acids critical for formation of the receptor
complex and activation of BAK1 kinase activity, we expressed several versions of BAK1 in yeast and plants. L32E and L46E substitutions
resulted in a loss of binding of BAK1 to BRI1, and threonine T455 was essential for the kinase activity of BAK1 in yeast.
Transgenic bri1 mutant plants overexpressing BAK1(L46E) displayed reduced apical dominance and seed development. In addition, transgenic
wild type plants overexpressing BAK1(T455A) lost the phosphorylation activity normally exhibited in response to BL, leading
to semi-dwarfism. These results suggest that BAK1 is a critical component regulating the duration of BR efficacy, even though
it cannot directly bind BRs in plants. 相似文献
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8.
BAK1, an Arabidopsis LRR receptor-like protein kinase,interacts with BRI1 and modulates brassinosteroid signaling 总被引:34,自引:0,他引:34
Brassinosteroids regulate plant growth and development through a protein complex that includes the leucine-rich repeat receptor-like protein kinase (LRR-RLK) brassinosteroid-insensitive 1 (BRI1). Activation tagging was used to identify a dominant genetic suppressor of bri1, bak1-1D (bri1-associated receptor kinase 1-1Dominant), which encodes an LRR-RLK, distinct from BRI1. Overexpression of BAK1 results in elongated organ phenotypes, while a null allele of BAK1 displays a semidwarfed phenotype and has reduced sensitivity to brassinosteroids (BRs). BAK1 is a serine/threonine protein kinase, and BRI1 and BAK1 interact in vitro and in vivo. Expression of a dominant-negative mutant allele of BAK1 causes a severe dwarf phenotype, resembling the phenotype of null bri1 alleles. These results indicate BAK1 is a component of BR signaling. 相似文献
9.
The brassinosteroid signal transduction pathway 总被引:7,自引:0,他引:7
10.
Jinhua Xu Xiaochao Wei Limin Yan Dan Liu Yuanyuan Ma Yu Guo Chune Peng Honggang Zhou Cheng Yang Zhiyong Lou W enqing Shui 《蛋白质与细胞》2013,4(10):771
11.
The leucine-rich-repeat receptor serine/threonine kinase, BRI1, is a cell-surface receptor for brassinosteroids (BRs), the steroid hormones of plants, yet its activation mechanism is unknown. Here, we report a unique autoregulatory mechanism of BRI1 activation. Removal of BRI1's C terminus leads to a hypersensitive receptor, indicated by suppression of dwarfism of BR-deficient and BR-perception mutants and by enhanced BR signaling as a result of elevated phosphorylation of BRI1. Several sites in the C-terminal region can be phosphorylated in vitro, and transgenic Arabidopsis expressing BRI1 mutated at these sites demonstrates an essential role of phosphorylation in BRI1 activation. BRI1 is a ligand-independent homo-oligomer, as evidenced by the transphosphorylation of BRI1 kinase in vitro, the dominant-negative effect of a kinase-inactive BRI1 in transgenic Arabidopsis, and coimmunoprecipitation experiments. Our results support a BRI1-activation model that involves inhibition of kinase activity by its C-terminal domain, which is relieved upon ligand binding to the extracellular domain. 相似文献
12.
Ruth Großeholz Anna Feldman‐Salit Friederike Wanke Sarina Schulze Nina Glckner Birgit Kemmerling Klaus Harter Ursula Kummer 《植物学报(英文版)》2020,62(4):456-469
Brassinosteroids (BR) are involved in the control of several developmental processes ranging from root elongation to senescence and adaptation to environmental cues. Thus, BR perception and signaling have to be precisely regulated. One regulator is BRI1‐associated kinase 1 (BAK1)‐interacting receptor‐like kinase 3 (BIR3). In the absence of BR, BIR3 forms complexes with BR insensitive 1 (BRI1) and BAK1. However, the biophysical and energetic requirements for complex formation in the absence of the ligand have yet to be determined. Using computational modeling, we simulated the potential complexes between the cytoplasmic domains of BAK1, BRI1 and BIR3. Our calculations and experimental data confirm the interaction of BIR3 with BAK1 and BRI1, with the BAK1 BIR3 interaction clearly favored. Furthermore, we demonstrate that BIR3 and BRI1 share the same interaction site with BAK1. This suggests a competition between BIR3 and BRI1 for binding to BAK1, which results in preferential binding of BIR3 to BAK1 in the absence of the ligand thereby preventing the active participation of BAK1 in BR signaling. Our model also suggests that BAK1 and BRI1 can interact even while BAK1 is in complex with BIR3 at an additional binding site of BAK1 that does not allow active BR signaling. 相似文献
13.
The Arabidopsis thaliana somatic embryogenesis receptor kinases (SERKs) consist of five members, SERK1 to SERK5, of the leucine-rich repeat receptor-like kinase subfamily II (LRR-RLK II). SERK3 was named BRI1-Associated Receptor Kinase 1 (BAK1) due to its direct interaction with the brassinosteroid (BR) receptor BRI1 in vivo, while SERK4 has also been designated as BAK1-Like 1 (BKK1) for its functionally redundant role with BAK1. Here we provide genetic and biochemical evidence to demonstrate that SERKs are absolutely required for early steps in BR signaling. Overexpression of four of the five SERKs-SERK1, SERK2, SERK3/BAK1, and SERK4/BKK1-suppressed the phenotypes of an intermediate BRI1 mutant, bri1-5. Overexpression of the kinase-dead versions of these four genes in the bri1-5 background, on the other hand, resulted in typical dominant negative phenotypes, resembling those of null BRI1 mutants. We isolated and generated single, double, triple, and quadruple mutants and analyzed their phenotypes in detail. While the quadruple mutant is embryo-lethal, the serk1 bak1 bkk1 triple null mutant exhibits an extreme de-etiolated phenotype similar to a null bri1 mutant. While overexpression of BRI1 can drastically increase hypocotyl growth of wild-type plants, overexpression of BRI1 does not alter hypocotyl growth of the serk1 bak1 bkk1 triple mutant. Biochemical analysis indicated that the phosphorylation level of BRI1 in serk1 bak1 bkk1 is incapable of sensing exogenously applied BR. As a result, the unphosphorylated level of BES1 has lost its sensitivity to the BR treatment in the triple mutant, indicating that the BR signaling pathway has been completely abolished in the triple mutant. These data clearly demonstrate that SERKs are essential to the early events of BR signaling. 相似文献
14.
Jie Wang Jianjun Jiang Jue Wang Lei Chen Shi-Long Fan Jia-Wei Wu Xuelu Wang Zhi-Xin Wang 《Cell research》2014,24(11):1328-1341
Brassinosteroids (BRs) are essential steroid hormones that have crucial roles in plant growth and development. BRs are perceived by the cell-surface receptor-like kinase brassinosteroid insensitive 1 (BRI1). In the absence of BRs, the cytosolic kinase domain (KD) of BRI1 is inhibited by its auto-inhibitory carboxyl terminus, as well as by interacting with an inhibitor protein, BRI1 kinase inhibitor 1 (BKI1). How BR binding to the extracellular domain of BRI1 leads to activation of the KD and dissociation of BKI1 into the cytosol remains unclear. Here we report the crystal structure of BRI1 KD in complex with the interacting peptide derived from BKI1. We also provide biochemical evidence that BRI1-associated kinase 1 (BAK1) plays an essential role in initiating BR signaling. Steroid-dependent heterodimerization of BRI1 and BAK1 ectodomains brings their cytoplasmic KDs in the right orientation for competing with BKI1 and transphosphorylation. 相似文献
15.
BRASSINOSTEROID-INSENSITIVE 1 (BRI1) encodes a putative Leucine-rich repeat receptor kinase in Arabidopsis that has been shown by genetic and molecular analysis to be a critical component of brassinosteroid signal transduction. In this study we examined some of the biochemical properties of the BRI1 kinase domain (BRI1-KD) in vitro, which might be important predictors of in vivo function. Recombinant BRI1-KD autophosphorylated on serine (Ser) and threonine (Thr) residues with p-Ser predominating. Matrix-assisted laser desorption/ionization mass spectrometry identified a minimum of 12 sites of autophosphorylation in the cytoplasmic domain of BRI1, including five in the juxtamembrane region (N-terminal to the catalytic KD), five in the KD (one each in sub-domains I and VIa and three in sub-domain VIII), and two in the carboxy terminal region. Five of the sites were uniquely identified (Ser-838, Thr-842, Thr-846, Ser-858, and Thr-872), whereas seven were localized on short peptides but remain ambiguous due to multiple Ser and/or Thr residues within these peptides. The inability of an active BRI1-KD to transphosphorylate an inactive mutant KD suggests that the mechanism of autophosphorylation is intramolecular. It is interesting that recombinant BRI1-KD was also found to phosphorylate certain synthetic peptides in vitro. To identify possible structural elements required for substrate recognition by BRI1-KD, a series of synthetic peptides were evaluated, indicating that optimum phosphorylation of the peptide required R or K residues at P - 3, P - 4, and P + 5 (relative to the phosphorylated Ser at P = 0). 相似文献
16.
Da-Hai Yang Christian Hettenhausen Ian T Baldwin Jianqiang Wu 《Plant signaling & behavior》2011,6(9):1322-1324
Almost a decade ago BRI1-associated kinase 1 (BAK1) was identified as a co-receptor of brassinosteroid (BR) insensitive 1 (BRI1), the receptor for BRs, which plays an essential role in transducing BR signaling to regulate plant development. BAK1 is also critical in resistance to various pathogens. BAK1 rapidly binds to certain receptors for pathogen/microbe-associated molecular patterns (PAMPs/MAMPs) after the perception of pathogen elicitors and is required for the full elicitation of pathogen-induced defense responses, such as the activation of the mitogen-activated protein kinase 6 (MPK6) and production of reactive oxygen species. Thus, BAK1 functions in both BR signaling and PAMP-triggered immunity (PTI). Recently BAK1 was also found to play an important role in mediating defense responses against an insect herbivore (Manduca sexta) of Nicotiana attenuata. In this interaction, BAK1 positively modulates wound- or herbivore feeding-induced accumulation of jasmonic acid (JA) and JA-isoleucine (JA-Ile). This mini-review summarizes recent advances in our understanding of the functions of BAK1 in resistance to pathogens and herbivores.Key words: BAK1, defense, herbivore, immunity, insect, jasmonate, pathogen, wounding 相似文献
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18.
Brassinosteroids (BRs) are a major group of plant hormones that regulate plant growth and development. BRI1, a protein localized to the plasma membrane, functions as a BR receptor and it has been proposed that its kinase activity has an essential role in BR-regulated plant growth and development. Here we report the isolation and molecular characterization of a new allele of bri1, bri1-301, which shows moderate morphological phenotypes and a reduced response to BRs under normal growth conditions. Sequence analysis identified a two-base alteration from GG to AT, resulting in a conversion of 989G to 989I in the BRI1 kinase domain. An in vitro assay of kinase activity showed that bri1-301 has no detectable autophosphorylation activity or phosphorylation activity towards the BRI1 substrates TTL and BAK1. Furthermore, our results suggest that bri1-301, even with extremely impaired kinase activity, still retains partial function in regulating plant growth and development, which raises the question of whether BRI1 kinase activity is essential for BR-mediated growth and development in higher plants. 相似文献
19.
Rumyana Karlova Sjef Boeren Walter van Dongen Mark Kwaaitaal Jose Aker Jacques Vervoort Sacco de Vries Professor 《Proteomics》2009,9(2):368-379
The Arabidopsis thaliana somatic embryogenesis receptor‐like kinase (SERK) family consists of five leucine‐rich repeat receptor‐like kinases (LRR‐RLKs) with diverse functions such as brassinosteroid insensitive 1 (BRI1)‐mediated brassinosteroid perception, development and innate immunity. The autophosphorylation activity of the kinase domains of the five SERK proteins was compared and the phosphorylated residues were identified by LC‐MS/MS. Differences in autophosphorylation that ranged from high activity of SERK1, intermediate activities for SERK2 and SERK3 to low activity for SERK5 were noted. In the SERK1 kinase the C‐terminally located residue Ser‐562 controls full autophosphorylation activity. Activation loop phosphorylation, including that of residue Thr‐462 previously shown to be required for SERK1 kinase activity, was not affected. In vivo SERK1 phosphorylation was induced by brassinosteroids. Immunoprecipitation of CFP‐tagged SERK1 from plant extracts followed by MS/MS identified Ser‐303, Thr‐337, Thr‐459, Thr‐462, Thr‐463, Thr‐468, and Ser‐612 or Thr‐613 or Tyr‐614 as in vivo phosphorylation sites of SERK1. Transphosphorylation of SERK1 by the kinase domain of the main brassinosteroid receptor BRI1 occurred only on Ser‐299 and Thr‐462. This suggests both intra‐ and intermolecular control of SERK1 kinase activity. Conversely, BRI1 was transphosphorylated by the kinase domain of SERK1 on Ser‐887. BRI1 kinase activity was not required for interaction with the SERK1 receptor in a pull down assay. 相似文献
20.
Identification and Functional Analysis of Tomato BRI1 and BAK1 Receptor Kinase Phosphorylation Sites
Vikramjit S. Bajwa Xiaofeng Wang R. Kevin Blackburn Michael B. Goshe Srijeet K. Mitra Elisabeth L. Williams Gerard J. Bishop Sergei Krasnyanski George Allen Steven C. Huber Steven D. Clouse 《Plant physiology》2013,163(1):30-42