<scp>TSV</scp>, a putative plastidic oxidoreductase, protects rice chloroplasts from cold stress during development by interacting with plastidic thioredoxin Z

Sun, Juan; Zheng, Tianhui; Yu, Jun; Wu, Tingting; Wang, Xinhua; Chen, Gaoming; Tian, Yunlu; Zhang, Huan; Wang, Yihua; Terzaghi, William; Wang, Chunming; Wan, Jianmin

doi:10.1111/nph.14482

Cited by 65 publications

(55 citation statements)

References 39 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…In rice, OsTRXz interacts with OsCHLI (subunit I of magnesium chelatase), which catalyzes the first committed step of chlorophyll biosynthesis (Zhang et al ). TCD5/TSV protects rice chloroplasts from cold stress by interacting with OsTRXz (Wang et al ; Sun et al ). In the current study, we found that OsTRXz interacts with OsFLN1 and HSA1/OsFLN2, regulating the transcription of PEP‐related genes and chloroplast biogenesis.…”

Section: Discussionmentioning

confidence: 99%

“…OsFLN1 and HSA1/OsFLN2 interact with OsTRXz in vitro and in vivo Thirty-five components were identified in the Arabidopsis and mustard TAC complex, and FLNs incorporated into the TACs complex by interacting with other components to regulate PEP-related gene expression in Arabidopsis (Reiss and Link 1985;Pfalz et al 2006;Arsova et al 2010;Gilkerson et al 2012;Huang et al 2013). Homologs of TCD5/TSV in Arabidopsis plastids have not been identified as components of TACs, but TCD5/TSV interacts with OsTRXz and enhances OsTRXz stability at low temperatures in rice (Wang et al 2016c;Sun et al 2017). This suggests that chloroplast biogenesis and development differ somewhat between dicotyledonous and monocotyledonous plants.…”

Section: Expression and Subcellular Location Of Osfln1mentioning

confidence: 99%

“…TCD5/Temperature‐Sensitive Virescent ( TSV ), in which the Arabidopsis TAC homolog has not been previously identified, encodes a putative oxidoreductase, and tsv plants display defective chloroplasts and are sensitive to cold stress. TSV interacts with OsTRXz and enhances OsTRXz stability under low temperatures (Wang et al ; Sun et al ). These results imply that chloroplast biogenesis differs to some extent between dicotyledonous and monocotyledonous plants.…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

FRUCTOKINASE‐LIKE PROTEIN 1 interacts with TRXz to regulate chloroplast development in rice

Zhang

Qiu

et al. 2018

JIPB

View full text Add to dashboard Cite

Chloroplast genes are transcribed by the plastid-encoded RNA polymerase (PEP) or nucleus-encoded RNA polymerase. FRUCTOKINASE-LIKE PROTEINS (FLNs) are phosphofructokinase-B (PfkB)-type carbohydrate kinases that act as part of the PEP complex; however, the molecular mechanisms underlying FLN activity in rice remain elusive. Previously, we identified and characterized a heat-stress sensitive albino (hsa1) mutant in rice. Map-based cloning revealed that HSA1 encodes a putative OsFLN2. Here, we further demonstrated that knockdown or knockout of the OsFLN1, a close homolog of HSA1/OsFLN2, considerably inhibits chloroplast biogenesis and the fln1 knockout mutants, created by clustered regularly interspaced short palindromic repeats (CRISPR) and CRISPR-associate protein 9, exhibit severe albino phenotype and seedling lethality. Moreover, OsFLN1 localizes to the chloroplast. Yeast two-hybrid, pull-down and bimolecular fluorescence complementation experiments revealed that OsFLN1 and HSA1/OsFLN2 interact with THIOREDOXINZ (OsTRXz) to regulate chloroplast development. In agreement with this, knockout of OsTRXz resulted in a similar albino and seedling lethality phenotype to that of the fln1 mutants. Quantitative reverse transcription polymerase chain reaction and immunoblot analysis revealed that the transcription and translation of PEP-dependent genes were strongly inhibited in fln1 and trxz mutants, indicating that loss of OsFLN1, HSA1/OsFLN2, or OsTRXz function perturbs the stability of the transcriptionally active chromosome complex and PEP activity. These results show that OsFLN1 and HSA1/OsFLN2 contribute to chloroplast biogenesis and plant growth.

show abstract

Section: Discussionmentioning

confidence: 99%

Section: Expression and Subcellular Location Of Osfln1mentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

FRUCTOKINASE‐LIKE PROTEIN 1 interacts with TRXz to regulate chloroplast development in rice

Zhang

Qiu

et al. 2018

JIPB

View full text Add to dashboard Cite

show abstract

“…Low‐temperature stress causes obvious damage to plants, including wilting, discoloration, drying of leaf edges, accelerated aging, incomplete ripening, and even death. Moreover, chlorotic leaves or albino phenotypes occur under cold‐stress conditions and the key genes, such as OsV4 ( Oryza sativa Virescent 4 ), TCD10 ( Thermo‐sensitive Chlorophyll‐deficient mutant 10 ), TCD11 ( Thermo‐sensitive Chlorophyll‐deficient mutant 11 ), TSV ( Thermo‐sensitive Virescent mutant ), and TSV3 ( Thermo‐sensitive Virescent mutant 3 ) are essential for chloroplast development at low temperatures in Arabidopsis (Gong et al ; Wu et al ; Sun et al ; Wang et al ; Lin et al ). Lateral roots are model tissues for studying the response to cold stress in Arabidopsis .…”

Section: Trade‐off Between Plant Development and Defense During Adaptmentioning

confidence: 99%

Cold signaling in plants: Insights into mechanisms and regulation

Guo

Liu

Chong

2018

JIPB

451

272

View full text Add to dashboard Cite

To survive under cold temperatures plants must be able to perceive a cold signal and transduce it into downstream components that induce appropriate defense mechanisms. In addition to inducing adaptive defenses, such as the production of osmotic factors to prevent freezing and the reprogramming of transcriptional pathways, cold temperatures induce changes in plant growth and development which can affect the plant life cycle. In this review, we summarize recent progress in characterizing cold-related genes and the pathways that allow transduction of the cold signal in plants, focusing primarily on studies in Arabidopsis thaliana and rice (Oryza sativa). We summarize cold perception and signal transduction from the plasma membrane to the nucleus, which involves cold sensors, calcium signals, calcium-binding proteins, mitogen-activated protein kinase cascades, and the C-repeat binding factor/dehydration-responsive element binding pathways, as well as trehalose metabolism. Finally, we describe the balance between plant organogenesis and cold tolerance mechanisms in rice. This review encapsulates the known cold signaling factors in plants and provides perspectives for ongoing cold signaling research.

show abstract

“…2008). OsTRXz interacts with TSV to protect chloroplast development under cold stress (Sun et al . 2017).…”

Section: Discussionmentioning

confidence: 99%

WSL5, a pentatricopeptide repeat protein, is essential for chloroplast biogenesis in rice under cold stress

Liu

Lan

Huang

et al. 2017

Preprint

View full text Add to dashboard Cite

Abstact 23Chloroplasts play an essential role in plant growth and development, and cold has a great effect 24 on chloroplast development. Although many genes or regulators involved in chloroplast 25 biogenesis and development have been isolated and characterized, identification of novel 26 components associated with cold is still lacking. In this study, we reported the functional 27 characterization of white stripe leaf 5 (wsl5) mutant in rice. The mutant developed white-striped 28 leaves during early leaf development and was albinic when planted under cold stress. Genetic and 29 molecular analysis revealed that WSL5 encodes a novel chloroplast-targeted pentatricopeptide 30 repeat protein. RNA-seq analysis showed that expression of nuclear-encoded photosynthetic 31 genes in the mutant was significantly repressed, and expression of many chloroplast-encoded 32 genes was also significantly changed. Notably, the WSL5 mutation caused defects in editing of 33 rpl2 and atpA, and in splicing of rpl2 and rps12. Chloroplast ribosome biogenesis was impaired 34 under cold stress. We propose that WSL5 is required for normal chloroplast development in rice 35 under cold stress. 36 37Key words: chloroplast biogenesis, cold stress, Oryza sativa, RNA-seq, RNA splicing, WSL5. 38 39 All rights reserved. No reuse allowed without permission.(which was not peer-reviewed) is the author/funder, who has granted bioRxiv a license to display the preprint in perpetuity.The copyright holder for this preprint . http://dx.doi.org/10.1101/239905 doi: bioRxiv preprint first posted online Dec. 26, 2017; Introduction 40Cold is an important environmental factor affecting chloroplast development and growth in juvenile 41 plants and sudden low-temperature periods that often occur during early seedling development in 42 spring can directly affect production (Kusumi and Iba, 2014). Rice seedlings are susceptible to cold 43 stress with an impact that ultimately affects grain yield (Liu et al. 2013). Therefore, cold stress is a 44 common problem that affects grain production, and rice varieties with increased cold tolerance are 45 preferred (Zhao et al. 2017). Many studies have suggested that plants can regulate early chloroplast 46 development under cold stress. In certain virescent mutants the chlorophyll content in young leaves is 47 low, but gradually increases to normal levels as they develop (Yoo et al. 2009). Temperature-sensitive 48 virescent mutants were used to study mechanisms regulating chloroplast development in seedlings 49 under cold stress conditions, and many genes were identified, such as V3, St1, OsV4, TCD9 and TSV 50 (Yoo et al. 2009; Gong et al. 2014; Jiang et al. 2014; Sun et al. 2017). However, the mechanisms of 51 chloroplast development in rice seedlings under cold stress remain poorly understood. 52Chloroplasts are essential for photosynthesis and have crucial roles in plant development and growth 53 by fixation of CO 2 and biosynthesis of carbon skeletons as well as other physiological processes (Jarvis 54and López-Juez...

show abstract

TSV, a putative plastidic oxidoreductase, protects rice chloroplasts from cold stress during development by interacting with plastidic thioredoxin Z

Cited by 65 publications

References 39 publications

FRUCTOKINASE‐LIKE PROTEIN 1 interacts with TRXz to regulate chloroplast development in rice

FRUCTOKINASE‐LIKE PROTEIN 1 interacts with TRXz to regulate chloroplast development in rice

Cold signaling in plants: Insights into mechanisms and regulation

WSL5, a pentatricopeptide repeat protein, is essential for chloroplast biogenesis in rice under cold stress

Contact Info

Product

Resources

About