SKP1-SnRK protein kinase interactions mediate proteasomal binding of a plant SCF ubiquitin ligase

Farràs, Rosa; Ferrando, Alejandro; Jásik, Ján; Kleinow, Tatjana; Ökrész, László; Tiburcio, Antonio F.; Salchert, Klaus; Pozo, Juan C. del; Schell, Jeff; Koncz, Csaba

doi:10.1093/emboj/20.11.2742

Cited by 215 publications

(160 citation statements)

References 92 publications

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“…Recently a major contribution was brought by the work of Baena-González and collaborators using transient expression experiments and transgenic plants. Their data implicate the two Arabidopsis (Arabidopsis thaliana) SnRK1 kinases as central integrators of transcriptional networks in response to stress and energy signaling (Baena-González et al, 2007), thus reinforcing diverse previous reports (Nemeth et al, 1998;Farras et al, 2001;Bradford et al, 2003;Buitink et al, 2003;Hao et al, 2003;Thelander et al, 2004;Gissot et al, 2006;Radchuk et al, 2006).…”

supporting

confidence: 67%

β-Subunits of the SnRK1 Complexes Share a Common Ancestral Function Together with Expression and Function Specificities; Physical Interaction with Nitrate Reductase Specifically Occurs via AKINβ1-Subunit

et al. 2008

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The SNF1/AMPK/SnRK1 kinases are evolutionary conserved kinases involved in yeast, mammals, and plants in the control of energy balance. These heterotrimeric enzymes are composed of one a-type catalytic subunit and two g-and b-type regulatory subunits. In yeast it has been proposed that the b-type subunits regulate both the localization of the kinase complexes within the cell and the interaction of the kinases with their targets. In this work, we demonstrate that the three b-type subunits of Arabidopsis (Arabidopsis thaliana; AKINb1, AKINb2, and AKINb3) restore the growth phenotype of the yeast sip1Dsip2Dgal83D triple mutant, thus suggesting the conservation of an ancestral function. Expression analyses, using AKINb promoter:: b-glucuronidase transgenic lines, reveal different and specific patterns of expression for each subunit according to organs, developmental stages, and environmental conditions. Finally, our results show that the b-type subunits are involved in the specificity of interaction of the kinase with the cytosolic nitrate reductase. Together with previous cell-free phosphorylation data, they strongly support the proposal that nitrate reductase is a real target of SnRK1 in the physiological context. Altogether our data suggest the conservation of ancestral basic function(s) together with specialized functions for each b-type subunit in plants.

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supporting

confidence: 67%

β-Subunits of the SnRK1 Complexes Share a Common Ancestral Function Together with Expression and Function Specificities; Physical Interaction with Nitrate Reductase Specifically Occurs via AKINβ1-Subunit

et al. 2008

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“…This superfamily represents Ϸ2.7% of the predicted genes in Arabidopsis, making it one of the largest so far described in plants. (5,34,35), suggesting that nematodes and plants have evolved an extensive combinatorial system of SCF complexes beyond that used by these other eukaryotes.…”

Section: Discussionmentioning

confidence: 99%

The F-box subunit of the SCF E3 complex is encoded by a diverse superfamily of genes in Arabidopsis

Gagne

Downes²,

Shiu³

et al. 2002

Proc. Natl. Acad. Sci. U.S.A.

606

648

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The covalent attachment of ubiquitin is an important determinant for selective protein degradation by the 26S proteasome in plants and animals. The specificity of ubiquitination is often controlled by ubiquitin-protein ligases (or E3s), which facilitate the transfer of ubiquitin to appropriate targets. One ligase type, the SCF E3s are composed of four proteins, cullin1͞Cdc53, Rbx1͞Roc1͞Hrt1, Skp1, and an F-box protein. The F-box protein, which identifies the targets, binds to the Skp1 component of the complex through a degenerate N-terminal Ϸ60-aa motif called the F-box. Using published F-boxes as queries, we have identified 694 potential F-box genes in Arabidopsis, making this gene superfamily one of the largest currently known in plants. Most of the encoded proteins contain interaction domains C-terminal to the F-box that presumably participate in substrate recognition. The F-box proteins can be classified via a phylogenetic approach into five major families, which can be further organized into multiple subfamilies. Sequence diversity within the subfamilies suggests that many F-box proteins have distinct functions and͞or substrates. Representatives of all of the major families interact in yeast two-hybrid experiments with members of the Arabidopsis Skp family supporting their classification as F-box proteins. For some, a limited preference for Skps was observed, suggesting that a hierarchical organization of SCF complexes exists defined by distinct Skp͞F-box protein pairs. Collectively, the data shows that Arabidopsis has exploited the SCF complex and the ubiquitin͞26S proteasome pathway as a major route for cellular regulation and that a diverse array of SCF targets is likely present in plants.

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“…At2g13690 was first annotated as interacting with the WD protein PRL1, a protein that has pleiotropic effects on Arabidopsis hormone and sugar responses and development (58). PRL1 interacts with SNF1 protein kinases and with the SCF components ASK1 and CUL1 and a 26 S proteasome subunit (13), suggesting that PRL1 has a central role in Ub-mediated events. At5g55000, which is unique in the superfamily because it contains C-terminal pentapeptide repeats (Fig.…”

Section: Discussionmentioning

confidence: 99%

“…The only apparent exception is the VHL E3 complex where potential orthologs of the Elongin B and C and SOCS box proteins are not evident. Remarkably Arabidopsis encodes almost 700 F-box proteins, 21 SKPs (designated ASKs in Arabidopsis), and two CUL1 orthologs (CUL1 and -2a), indicating that a large array of SCF E3s is assembled in plants (11,13). Sequence and/or functional orthologs of yeast CUL4 and APC2 that should associate with the DDB1/DET1/COP1 and the APC E3 complexes, respectively, are evident in various plant genomes, indicating that these E3 types are present as well (9,12).…”

mentioning

confidence: 99%

Cullins 3a and 3b Assemble with Members of the Broad Complex/Tramtrack/Bric-a-Brac (BTB) Protein Family to Form Essential Ubiquitin-Protein Ligases (E3s) in Arabidopsis

Gingerich

Gagne

Salter

et al. 2005

Journal of Biological Chemistry

155

180

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Selective modification of proteins by ubiquitination is directed by diverse families of ubiquitin-protein ligases (or E3s). A large collection of E3s use Cullins (CULs) as scaffolds to form multisubunit E3 complexes in which the CUL binds a target recognition subcomplex and the RBX1 docking protein, which delivers the activated ubiquitin moiety. Arabidopsis and rice contain a large collection of CUL isoforms, indicating that multiple CUL-based E3s exist in plants. Here we show that Arabidopsis CUL3a and CUL3b associate with RBX1 and members of the broad complex/tramtrack/bric-a-brac (BTB) protein family to form BTB E3s. Eighty genes encoding BTB domain-containing proteins were identified in the Arabidopsis genome, indicating that a diverse array of BTB E3s is possible. In addition to the BTB domain, the encoded proteins also contain various other interaction motifs that likely serve as target recognition elements. DNA microarray analyses show that BTB genes are expressed widely in the plant and that tissue-specific and isoform-specific patterns exist. Arabidopsis defective in both CUL3a and CUL3b are embryo-lethal, indicating that BTB E3s are essential for plant development.

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SKP1-SnRK protein kinase interactions mediate proteasomal binding of a plant SCF ubiquitin ligase

Cited by 215 publications

References 92 publications

β-Subunits of the SnRK1 Complexes Share a Common Ancestral Function Together with Expression and Function Specificities; Physical Interaction with Nitrate Reductase Specifically Occurs via AKINβ1-Subunit

β-Subunits of the SnRK1 Complexes Share a Common Ancestral Function Together with Expression and Function Specificities; Physical Interaction with Nitrate Reductase Specifically Occurs via AKINβ1-Subunit

The F-box subunit of the SCF E3 complex is encoded by a diverse superfamily of genes in Arabidopsis

Cullins 3a and 3b Assemble with Members of the Broad Complex/Tramtrack/Bric-a-Brac (BTB) Protein Family to Form Essential Ubiquitin-Protein Ligases (E3s) in Arabidopsis

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