STCH4/REIL2 Confers Cold Stress Tolerance in Arabidopsis by Promoting rRNA Processing and CBF Protein Translation

Yu, Hasi; Kong, Xiangfeng; Huang, Huan; Wu, Wenwu; Park, Junghoon; Yun, Dae‐Jin; Lee, Byeong-ha; Shi, Huazhong; Zhu, Jian Kang

doi:10.1016/j.celrep.2019.12.012

Cited by 58 publications

(64 citation statements)

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“…at 4°C or at 10°C, but not for growth at optimized 20°C temperature (Schmidt et al, 2013; Beine-Golovchuk et al, 2018). In agreement with these findings, identical T-DNA insertion mutants of reil2 were recently discovered in a screen for chilling sensitive Arabidopsis mutants (Yu et al 2020), namely reil2.1/ stch4-2 (GK_166C10) and reil2.2/ stch4-1 (SALK_040068). The reil1-1 reil2-1 double mutant has a more severe cold phenotype and all but stops development after germination at 10°C prior to the emergence of the first rosette leaf (Schmidt et al, 2013; Beine-Golovchuk et al, 2018).…”

Section: Introductionsupporting

confidence: 65%

“…Conserved functions of the Arabidopsis REIL proteins and new functions that evolved on the path towards multicellular embryophyte plants became apparent (Beine-Golovchuk et al, 2018). As was expected in analogy to yeast, FP-REIL1 and FP-REIL2 fusion proteins localize to the cytosol (Beine-Golovchuk et al, 2018; Yu et al, 2020) and the REIL1 protein appears to interact with ribosome complexes containing the 60S large ribosome subunit (LSU). Based on immunoprecipitation-mass spectrometry, REIL2 associates with the eukaryotic ribosome (Yu et al, 2020).…”

Section: Introductionmentioning

confidence: 52%

“…As was expected in analogy to yeast, FP-REIL1 and FP-REIL2 fusion proteins localize to the cytosol (Beine-Golovchuk et al, 2018; Yu et al, 2020) and the REIL1 protein appears to interact with ribosome complexes containing the 60S large ribosome subunit (LSU). Based on immunoprecipitation-mass spectrometry, REIL2 associates with the eukaryotic ribosome (Yu et al, 2020). Our current study locates REIL2 to the non-translating 60S fraction of Col-0 wild type.…”

Section: Introductionmentioning

confidence: 52%

“…Expression of amino-terminal FLUORESCENT PROTEIN (FP)-REIL fusion proteins driven by the UBIQUITIN10 promoter rescue the mutant phenotypes (Beine-Golovchuk et al, 2018). The two allelic reil2-1 and reil2-2 mutants are both growth retarded and form small spoon-shaped leaves at 10°C (Schmidt et al, 2013; Yu et al, 2020). This phenomenon reverted after shift from cold to optimal 20°C.…”

Section: Introductionmentioning

confidence: 99%

“…Ectopic overexpression of REIL2 under control of the 35S promoter conveyed enhanced chilling and freezing tolerance under mixotrophic in vitro conditions, i.e. in the presence half-strength Murashige and Skoog (MS) medium (Yu et al, 2020).…”

Section: Introductionmentioning

confidence: 99%

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Arabidopsis REI-LIKE proteins activate ribosome biogenesis during cold acclimation

Cheong

Beine-Golovchuk

Górka

et al. 2020

Preprint

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29 30 WORD COUNT 31 18,932 32 2 TITLE 33 Arabidopsis REIL proteins activate ribosome biogenesis during cold acclimation 34 Running Title 35 REIL proteins activate ribosome biogenesis 36 Highlight of this study (summarizing sentence) (27 words) 37 REIL proteins affect paralog composition of eukaryotic ribosomes and suppress accumulation of 38 43S-preinitiation and pre-60S-maturation complexes, suggesting functions of ribosome 39 heterogeneity and biogenesis in plant cold acclimation. 40 Abstract (150 words) 41 Arabidopsis REIL proteins are cytosolic ribosomal 60S-biogenesis factors. After shift to 10°C, reil 42 mutants deplete and slowly replenish non-translating eukaryotic ribosome complexes of root 43 tissue, while tightly controlling the balance of non-translating 40S-and 60S-subunits. Reil 44 mutations compensate by hyper-accumulation of non-translating subunits at steady-state 45 temperature; after cold-shift, a KCl-sensitive 80S sub-fraction remains depleted. We infer that 46 Arabidopsis buffers fluctuating translation by pre-existing non-translating ribosomes before de 47 novo synthesis meets temperature-induced demands. Reil1 reil2 double mutants accumulate 43S-48 preinitiation and pre-60S-maturation complexes and have altered paralog composition of 49 ribosomal proteins in non-translating complexes. With few exceptions, e.g. RPL3B and RPL24C, 50 these changes are not under transcriptional control. Our study suggests requirement of de novo 51 synthesis of eukaryotic ribosomes for long-term cold acclimation, feedback control of NUC2 and 52 eIF3C2 transcription and links new proteins, AT1G03250, AT5G60530, to plant ribosome 53 biogenesis. We propose that Arabidopsis requires biosynthesis of specialized ribosomes for cold 54 acclimation. 55 Key words (6-10, in alphabetical order) 56 abiotic stress, Arabidopsis, cold acclimation, proteomics, REI-LIKE proteins, ribosome 57 biogenesis, roots, system analysis, transcriptomics 58 59 60 61The Arabidopsis thaliana Col-0 (Arabidopsis) REI1-LIKE (REIL) proteins, REIL1 62 (At4g31420) and REIL2 (At2g24500) are homologs of the yeast Rei1 (YBR267W) and the paralog 63 Reh1 (YLR387C) proteins. In yeast, both the Rei1 and Reh1 proteins function as ribosome 64 biogenesis factors that participate either in parallel or sequentially in the late ribosome biogenesis 65 step of cytoplasmic 60S ribosomal subunit maturation (Greber et al., 2012; Greber et al., 2016). 66 Aside from this function, these proteins are required to maintain growth at suboptimal or cold 67 temperatures. The ∆rei1 mutant is cold sensitive already at moderately suboptimal temperatures 68 of yeast. The ∆rei1 ∆reh1 double mutant is even more cold sensitive, while the yeast ∆reh1 69 mutation alone has no effect on growth in the cold (Iwase and Toh-e, 2004; Lebreton et al., 2006; 70 Parnell and Bass, 2009). Heterologous expression of Arabidopsis REIL1, but not of REIL2 partly 71 complements the cold sensitivity of the yeast ∆rei1 mutant (Schmidt et al., 2013). The Arabidopsis 72 REIL paralogs differ in st...

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Section: Introductionsupporting

confidence: 65%

Section: Introductionmentioning

confidence: 52%

Section: Introductionmentioning

confidence: 52%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

Arabidopsis REI-LIKE proteins activate ribosome biogenesis during cold acclimation

Cheong

Beine-Golovchuk

Górka

et al. 2020

Preprint

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Expand the Survival Limits of Crop Plants Under Cold Climate Region

Sareen

Joshi

2023

Global Climate Change and Plant Stress Management

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Orchestrating ribosomal RNA folding during ribosome assembly

2022

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Construction of the eukaryotic ribosome is a complex process in which a nascent ribosomal RNA (rRNA) emerging from RNA Polymerase I hierarchically folds into a native three-dimensional structure. Modular assembly of individual RNA domains through interactions with ribosomal proteins and a myriad of assembly factors permit efficient disentanglement of the error-prone RNA folding process. Following these dynamic events, long-range tertiary interactions are orchestrated to compact rRNA. A combination of genetic, biochemical, and structural studies is now providing clues into how a nascent rRNA is transformed into a functional ribosome with high precision. With this essay, we aim to draw attention to the poorly understood process of establishing correct RNA tertiary contacts during ribosome formation. K E Y W O R D Sco-transcriptional ribosome assembly, low temperature, modular rRNA compaction, RNA folding, RNA-binding proteins THE COMPLEX VERSATILE STRUCTURE OF RNALike DNA, the RNA polymer consists of basic units called nucleotides.

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STCH4/REIL2 Confers Cold Stress Tolerance in Arabidopsis by Promoting rRNA Processing and CBF Protein Translation

Cited by 58 publications

References 58 publications

Arabidopsis REI-LIKE proteins activate ribosome biogenesis during cold acclimation

Arabidopsis REI-LIKE proteins activate ribosome biogenesis during cold acclimation

Expand the Survival Limits of Crop Plants Under Cold Climate Region

Orchestrating ribosomal RNA folding during ribosome assembly

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