<scp>ERF</scp>109 of trifoliate orange (<i>Poncirus trifoliata</i> (L.) Raf.) contributes to cold tolerance by directly regulating expression of <i>Prx1</i> involved in antioxidative process

Wang, Min; Dai, Wen-Shan; Du, Juan; Ming, Ruhong; Dahro, Bachar; Liu, Jihong

doi:10.1111/pbi.13056

Cited by 91 publications

(55 citation statements)

References 68 publications

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“…Moreover, some other ERF genes were demonstrated to function in cold tolerance [71]. For instance, PtrERF109 of trifoliate orange ( Poncirus trifoliata ) directly bound to the promoter of a peroxidase- (POD-) encoding gene PtrPrx1 to modulate ROS homoeostasis, thus playing a positive role in response to cold stress [72].…”

Section: Resultsmentioning

confidence: 99%

A Transcriptomic Analysis Reveals Diverse Regulatory Networks That Respond to Cold Stress in Strawberry (Fragaria×ananassa)

Zhang

Lin

et al. 2019

International Journal of Genomics

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Strawberry is often subjected to cold stress in temperate regions when insulation measures are not strictly applied in protected cultivation. Cold stress adversely influences plant growth and development by triggering a massive change to the transcriptome. To provide the potential strategies in improving strawberry cold tolerance and give a glimpse into the understanding of the complex cold signaling pathways in plants, this study identified attractive candidate genes and revealed diverse regulatory networks that responded to cold stress in strawberry (Fragaria×ananassa) by a transcriptomic analysis. Totally, there were 2397 differentially expressed genes (DEGs) under cold stress treatment (T1) vs. normal treatment (CK). Of these, 1180 DEGs were upregulated, while 1217 DEGs were downregulated. Functional enrichment analysis showed that DEGs were significantly (adjusted P value < 0.05) overrepresented in six pathways including plant hormone signal transduction, flavonoid biosynthesis, mitogen-activated protein kinase (MAPK) signaling, starch and sucrose metabolism, circadian rhythm, and alpha-linolenic acid metabolism. The cold signaling initiated expression of downstream cold-responsive (COR) genes with cis-acting element ABRE or CRT/DRE in the ABA-independent or ABA-dependent pathway to impel plant defense against the stress. Strikingly, GIGANTEA (gene id 101308922), two-component response regulator-like PRR95 (gene id 101295449), and ethylene-responsive transcription factor ERF105-like (gene id 101295082) were dramatically induced under low-temperature treatment, indicating that they played an important role in response to cold stress in strawberry.

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Section: Resultsmentioning

confidence: 99%

A Transcriptomic Analysis Reveals Diverse Regulatory Networks That Respond to Cold Stress in Strawberry (Fragaria×ananassa)

Zhang

Lin

et al. 2019

International Journal of Genomics

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“…The control vector (35S:GFP) and fusion construct (35S:PtHB13-GFP) were transformed into Agrobacterium tumefaciens GV3101. Then the fusion construct and control were transformed into tobacco leaves, as described previously [44].…”

Section: Subcellular Localization Analysismentioning

confidence: 99%

“…For transient gene expression analysis, the effector and reporter constructs were co-transformed into tobacco leaf cells. Transformation and detection of LUC activity were performed as previously described [44]. The transformed tobacco leaf cells were detected by using the Dual-Luciferase ® Reporter Assay System (Promega (Beijing) Biotech Co., Ltd., Beijing, China).…”

Section: Dual Luciferase Reporter Assaymentioning

confidence: 99%

HD-ZIP I Transcription Factor (PtHB13) Negatively Regulates Citrus Flowering through Binding to FLOWERING LOCUS C Promoter

Yin

Sun

et al. 2020

Plants

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For floral induction in adult citrus, low temperature is one of the most important environmental factors. FLOWERING LOCUS C (FLC) plays a very important role in low-temperature-induced Arabidopsis flowering by repressed FLC expression under exposure to prolonged low-temperature conditions. However, little is known about the FLC regulation mechanism in perennial woody plants such as citrus. In this study, the functions of citrus FLC homolog (PtFLC) were investigated by ectopic expression in Arabidopsis. Transcription factor of homeodomain leucine zipper I (HD-ZIP I) as an upstream regulator of PtFLC was identified by yeast one-hybrid screen to regulate its transcription. The HD-ZIP I transcription factor was highly homologous to Arabidopsis ATHB13 and thus was named PtHB13. Ectopically expressed PtHB13 inhibited flowering in transgenic Arabidopsis. Furthermore, the expression of PtFLC and PtHB13 showed a seasonal change during the floral induction period and was also affected by low temperature. Thus, we propose that PtHB13 binds to PtFLC promoter to regulate its activity during the citrus floral induction process.

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“…Therefore, CBF-independent pathways are also critical for cold signaling regulation (Park et al, 2015). In P. trifoliata, a few genes have been well characterized and involved in cold tolerance, including bHLH (Huang et al, 2013), PRP (Peng et al, 2015), ICE1 (Huang et al, 2015) and ERF109 (Wang et al, 2018b). A previous transcriptome study revealed differentially expressed P. trifoliata genes (DEGs) in response to cold stresses at three time points (6, 24 and 72 h) after cold treatment (Wang et al, 2015).…”

Section: Introductionmentioning

confidence: 99%

A chromosome‐scale reference genome of trifoliate orange (Poncirus trifoliata) provides insights into disease resistance, cold tolerance and genome evolution in Citrus

Peng

Bredeson

et al. 2020

The Plant Journal

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SUMMARY Trifoliate orange (Poncirus trifoliata), a deciduous close relative of evergreen Citrus, has important traits for citrus production, including tolerance/resistance to citrus greening disease (Huanglongbing, HLB) and other major diseases, and cold tolerance. It has been one of the most important rootstocks, and one of the most valuable sources of resistance and tolerance genes for citrus. Here we present a high‐quality, chromosome‐scale genome assembly of P. trifoliata. The 264.9‐Mb assembly contains nine chromosomal pseudomolecules with 25 538 protein‐coding genes, covering 97.2% of the estimated gene space. Comparative analyses of P. trifoliata and nine Citrus genomes revealed 605 species‐specific genes and six rapidly evolving gene families in the P. trifoliata genome. Poncirus trifoliata has evolved specific adaptation in the C‐repeat/DREB binding factor (CBF)‐dependent and CBF‐independent cold signaling pathways to tolerate cold. We identified candidate genes within quantitative trait loci for HLB tolerance, and at the loci for resistance to citrus tristeza virus and citrus nematode. Genetic diversity analysis of Poncirus accessions and Poncirus/Citrus hybrids shows a narrow genetic base in the US germplasm collection, and points to the importance of collecting and preserving more natural genetic variation. Two phenotypically divergent Poncirus accessions are found to be clonally related, supporting a previous conjecture that dwarf Flying Dragon originated as a mutant of a non‐dwarfing type. The high‐quality genome reveals features and evolutionary insights of Poncirus, and it will serve as a valuable resource for genetic, genomic and molecular research and manipulation in citrus.

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ERF109 of trifoliate orange (Poncirus trifoliata (L.) Raf.) contributes to cold tolerance by directly regulating expression of Prx1 involved in antioxidative process

Cited by 91 publications

References 68 publications

A Transcriptomic Analysis Reveals Diverse Regulatory Networks That Respond to Cold Stress in Strawberry (Fragaria×ananassa)

A Transcriptomic Analysis Reveals Diverse Regulatory Networks That Respond to Cold Stress in Strawberry (Fragaria×ananassa)

HD-ZIP I Transcription Factor (PtHB13) Negatively Regulates Citrus Flowering through Binding to FLOWERING LOCUS C Promoter

A chromosome‐scale reference genome of trifoliate orange (Poncirus trifoliata) provides insights into disease resistance, cold tolerance and genome evolution in Citrus

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