Anna Franciosini scite author profile

The regulation of protein turnover by the ubiquitin proteasome system (UPS) is a major posttranslational mechanism in eukaryotes. One of the key components of the UPS, the COP9 signalosome (CSN), regulates 'cullin-ring' E3 ubiquitin ligases. In plants, CSN participates in diverse cellular and developmental processes, ranging from light signaling to cell cycle control. In this work, we isolated a new plant-specific CSN-interacting F-box protein, which we denominated CFK1 (COP9 INTERACTING F-BOX KELCH 1). We show that, in Arabidopsis thaliana, CFK1 is a component of a functional ubiquitin ligase complex. We also show that CFK1 stability is regulated by CSN and by proteasome-dependent proteolysis, and that light induces accumulation of the CFK1 transcript in the hypocotyl. Analysis of CFK1 knockdown, mutant, and overexpressing seedlings indicates that CFK1 promotes hypocotyl elongation by increasing cell size. Reduction of CSN levels enhances the short hypocotyl phenotype of CFK1-depleted seedlings, while complete loss of CSN activity suppresses the long-hypocotyl phenotype of CFK1-overexpressing seedlings. We propose that CFK1 (and its regulation by CSN) is a novel component of the cellular mechanisms controlling hypocotyl elongation.

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Molecular networks orchestrating plant cell growth

Franciosini

Rymen

Shibata

et al. 2017

Current Opinion in Plant Biology

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The COP9 SIGNALOSOME Is Required for Postembryonic Meristem Maintenance in Arabidopsis thaliana

Franciosini

Moubayidin

et al. 2015

Molecular Plant

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Cullin-RING E3 ligases (CRLs) regulate different aspects of plant development and are activated by modification of their cullin subunit with the ubiquitin-like protein NEDD8 (NEural precursor cell expressed Developmentally Down-regulated 8) (neddylation) and deactivated by NEDD8 removal (deneddylation). The constitutively photomorphogenic9 (COP9) signalosome (CSN) acts as a molecular switch of CRLs activity by reverting their neddylation status, but its contribution to embryonic and early seedling development remains poorly characterized. Here, we analyzed the phenotypic defects of csn mutants and monitored the cullin deneddylation/neddylation ratio during embryonic and early seedling development. We show that while csn mutants can complete embryogenesis (albeit at a slower pace than wild-type) and are able to germinate (albeit at a reduced rate), they progressively lose meristem activity upon germination until they become unable to sustain growth. We also show that the majority of cullin proteins are progressively neddylated during the late stages of seed maturation and become deneddylated upon seed germination. This developmentally regulated shift in the cullin neddylation status is absent in csn mutants. We conclude that the CSN and its cullin deneddylation activity are required to sustain postembryonic meristem function in Arabidopsis.

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Immunoprecipitation of Cullin-RING Ligases (CRLs) in Arabidopsis thaliana Seedlings

Franciosini

Serino

2016

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CRL (Cullin-RING ubiquitin ligase) is the major class of plant E3 ubiquitin ligases. Immunoprecipitation-based methods are useful techniques for revealing interactions among Cullin-RING Ligase (CRL) subunits or between CRLs and other proteins, as well as for detecting poly-ubiquitin modifications of the CRLs themselves. Here, we describe two immunoprecipitation (IP) procedures suitable for CRLs in Arabidopsis: a procedure for IP analysis of CRL subunits and their interactors and a second procedure for in vivo ubiquitination analysis of the CRLs. Both protocols can be divided into two major steps: (1) preparation of cell extracts without disruption of protein interactions and (2) affinity purification of the protein complexes and subsequent detection. We provide a thorough description of all the steps, as well as advice on how to choose proper buffers for these analyses. We also suggest a series of negative controls that can be used to verify the specificity of the procedure.

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Signaling: COP9 Signalosome

Franciosini

Serino

Deng

2014

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