Rootstock–scion exchanging mRNAs participate in the pathways of amino acid and fatty acid metabolism in cucumber under early chilling stress

Liu, Wenqian; Wang, Qing; Zhang, Ruoyan; Liu, Mengshuang; Wang, Cuicui; Liu, Zixi; Xiang, Chenggang; Lü, Xiaohong; Zhang, Xiaojing; Li, Xiaojun; Wang, Tao; Gao, Lihong; Zhang, Wenna

doi:10.1093/hr/uhac031

Cited by 15 publications

(15 citation statements)

References 92 publications

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“…These signals also play a vital role in vegetable grafting, where overexpression of SlNCED1 in grafted tomato rootstocks promotes ABA generation and translocation to scion leaves, thus increasing salt tolerance [ 29 ]. Similarly, in grafted peppers, salt-tolerant rootstock enhances H 2 O 2 level in scion leaves to activate antioxidant capacity, as well as ABA production to promote leaf stomata closure, thereby improving its salt tolerance [ 27 ]. Cucumber grafts also benefit from pumpkin rootstock CmoNAC1 , which binds to CmoRBOHD1 and CmoNCED6 promoters, resulting in increased production and transport of H 2 O 2 and ABA to cucumber scions, promoting leaf stomatal closure and salt stress resistance [ 34 , 45 , 46 ].…”

Section: Discussionmentioning

confidence: 99%

“…This aspect of the investigation provides a comprehensive understanding beyond previous studies conducted in tobacco [ 44 ] and tomato [ 17 ]. Furthermore, the study uncovered that CmoDREB2A interacts with CmoNAC1 in promoting the production of H 2 O 2 and ABA signals in pumpkin rootstock, offering deeper insights compared to the studies conducted on grafted tomatoes [ 29 ] and grafted peppers [ 27 ]. Concurrently, the study advances the current understanding of CmoNAC1’s role in regulating H 2 O 2 and ABA signaling of grafted cucumbers [ 34 ].…”

Section: Discussionmentioning

confidence: 99%

“…Grafting cucumber onto pumpkin rootstock has proven effective in improving its salt tolerance. Furthermore, both cucumber and pumpkin possess highly developed vascular tissues, making them suitable subjects for studying grafting signal transduction [ 26 , 27 ]. The key mechanisms through which grafting improves plant salt tolerance include: (i) upregulation of genes involved in H 2 O 2 and ABA synthesis in rootstock to facilitate the synthesis and transport of root signals to the shoot [ 28 , 29 ]; (ii) induction of mobile mRNA movement to the shoot [ 30 ]; (iii) restriction of Na + transport to the scion [ 31 ] and enhancement of K + absorption [ 32 ]; and (iv) increased activity of antioxidant enzymes and elevated proline content in the scion [ 33 , 34 ].…”

Section: Introductionmentioning

confidence: 99%

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Pumpkin CmoDREB2A enhances salt tolerance of grafted cucumber through interaction with CmoNAC1 to regulate H2O2 and ABA signaling and K+/Na+ homeostasis

Peng,

Cui,

Wang

et al. 2024

Horticulture Research

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Pumpkin CmoNAC1 enhances salt tolerance in grafted cucumbers. However, the potential interactions with other proteins that may co-regulate salt tolerance alongside CmoNAC1 have yet to be explored. In this study, we identified pumpkin CmoDREB2A as a pivotal transcription factor that interacts synergistically with CmoNAC1 in the co-regulation of salt tolerance. Both transcription factors were observed to bind to each other's promoters, forming a positive regulatory loop of their transcription. Knockout of CmoDREB2A in the root resulted in reduced salt tolerance in grafted cucumbers, whereas overexpression demonstrated the opposite effect. Multiple assays in our study provided evidence of the protein interaction between CmoDREB2A and CmoNAC1. Exploiting this interaction, CmoDREB2A facilitated the binding of CmoNAC1 to the promoters of CmoRBOHD1, CmoNCED6, CmoAKT1;2, and CmoHKT1;1, inducing H2O2 and ABA synthesis and increasing the K+/Na+ ratio in grafted cucumbers under salt stress. Additionally, CmoNAC1 also promoted the binding of CmoDREB2A to CmoHAK5;1/CmoHAK5;2 promoters, further contributing to the K+/Na+ homeostasis. In summary, these findings reveal a crucial mechanism of CmoNAC1 and CmoDREB2A forming a complex enhancing salt tolerance in grafted cucumbers.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Pumpkin CmoDREB2A enhances salt tolerance of grafted cucumber through interaction with CmoNAC1 to regulate H2O2 and ABA signaling and K+/Na+ homeostasis

Peng,

Cui,

Wang

et al. 2024

Horticulture Research

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“…Grafting is a commonly used method in agriculture, which can improve the ability of plants to withstand external diseases and insect pests [ 47 ]. According to recent research reports, grafting can be used as an effective way to study plant molecular communication signals and the exchange of genetic material, Liu et al (2022) analyzed the metabolic mechanism of pumpkin rootstock mRNA signaling involved in regulating the cold tolerance of grafted cucumber [ 48 ]. Here, in the initial experiments, we measured the gland density and gossypol content after grafting.…”

Section: Discussionmentioning

confidence: 99%

Transcriptome analysis reveals the effect of grafting on gossypol biosynthesis and gland formation in cotton

Teng

Yang

et al. 2023

BMC Plant Biol

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Background Gossypol is a unique secondary metabolite and sesquiterpene in cotton, which is mainly synthesized in the root system of cotton and exhibits many biological activities. Previous research found that grafting affected the density of pigment glands and the gossypol content in cotton. Results This study performed a transcriptome analysis on cotton rootstocks and scions of four grafting methods. The gene expression of mutual grafting and self-grafting was compared to explore the potential genes involved in gossypol biosynthesis. A total of six differentially expressed enzymes were found in the main pathway of gossypol synthesis-sesquiterpene and triterpene biosynthesis (map00909): lupeol synthase (LUP1, EC:5.4.99.41), beta-amyrin synthase (LUP2, EC:5.4.99.39), squalene monooxygenase (SQLE, EC:1.14.14.17), squalene synthase (FDFT1, EC:2.5.1.21), (-)-germacrene D synthase (GERD, EC:4.2.3.75), ( +)-delta-cadinene synthase (CADS, EC:4.2.3.13). By comparing the results of the gossypol content and the density of the pigment gland, we speculated that these six enzymes might affect the biosynthesis of gossypol. It was verified by qRT-PCR analysis that grafting could influence gene expression of scion and stock. After suppressing the expression of the LUP1, FDFT1, and CAD genes by VIGS technology, the gossypol content in plants was significantly down-regulated. Conclusions These results indicate the potential molecular mechanism of gossypol synthesis during the grafting process and provide a theoretical foundation for further research on gossypol biosynthesis.

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“…The long-distance transport of mobile mRNAs between rootstock and scion also plays a significant role in regulating the traits of grafted plants (Liu et al 2022 ), but it has always been a challenge to identify mobile mRNAs between rootstock and scion in apple. To address this problem, the authors develop a bioinformatics tool called “RNAGlass” that integrates genomic and transcriptome data to accurately and effectively identify mobile mRNAs between rootstock and scion based on the assembled high-quality reference genome of the cultivated variety “Fuji”.…”

mentioning

confidence: 99%

Unveiling rootstock-induced dwarfing from comparative genomic analysis

Zhao,

Sun,

2024

Mol Horticulture

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Rootstock–scion exchanging mRNAs participate in the pathways of amino acid and fatty acid metabolism in cucumber under early chilling stress

Cited by 15 publications

References 92 publications

Pumpkin CmoDREB2A enhances salt tolerance of grafted cucumber through interaction with CmoNAC1 to regulate H2O2 and ABA signaling and K+/Na+ homeostasis

Pumpkin CmoDREB2A enhances salt tolerance of grafted cucumber through interaction with CmoNAC1 to regulate H2O2 and ABA signaling and K+/Na+ homeostasis

Transcriptome analysis reveals the effect of grafting on gossypol biosynthesis and gland formation in cotton

Unveiling rootstock-induced dwarfing from comparative genomic analysis

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