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Molecular and functional characterization of the SBP-box transcription factor SPL-CNR in tomato fruit ripening and cell death

Tongfei Lai, Xiaohong Wang, Bishun Ye, Mingfei Jin, Weiwei Chen, Ying Wang, Yingying Zhou, Andrew M. Blanks, Mei Gu, Pengcheng Zhang, Xinlian Zhang, Chunyang Li, Huizhong Wang, Yule Liu, Philippe Gallusci, Mahmut Tör, Yiguo Hong

2020Journal of Experimental Botany49 citationsDOIOpen Access PDF

Abstract

SlSPL-CNR, an SBP-box transcription factor (TF) gene residing at the epimutant Colourless non-ripening (Cnr) locus, is involved in tomato ripening. This epimutant provides a unique model to investigate the (epi)genetic basis of fruit ripening. Here we report that SlSPL-CNR is a nucleus-localized protein with a distinct monopartite nuclear localization signal (NLS). It consists of four consecutive residues ' 30KRKR33' at the N-terminus of the protein. Mutation of the NLS abolishes SlSPL-CNR's ability to localize in the nucleus. SlSPL-CNR comprises two zinc-finger motifs (ZFMs) within the C-terminal SBP-box domain. Both ZFMs contribute to zinc-binding activity. SlSPL-CNR can induce cell death in tomato and tobacco, dependent on its nuclear localization. However, the two ZFMs have differential impacts on SlSPL-CNR's induction of severe necrosis or mild necrotic ringspot. NLS and ZFM mutants cannot complement Cnr fruits to ripen. SlSPL-CNR interacts with SlSnRK1. Virus-induced SlSnRK1 silencing leads to reduction in expression of ripening-related genes and inhibits ripening in tomato. We conclude that SlSPL-CNR is a multifunctional protein that consists of a distinct monopartite NLS, binds to zinc, and interacts with SlSnRK1 to affect cell death and tomato fruit ripening.

Topics & Concepts

RipeningNuclear localization sequenceNLSZinc fingerTranscription factorCell biologyProgrammed cell deathGene silencingGeneBiologySubcellular localizationNucleusBiochemistryBotanyApoptosisPlant Gene Expression AnalysisPlant-Microbe Interactions and ImmunityPlant Virus Research Studies