2,4‐D‐induced parthenocarpy in pear is mediated by enhancement of GA<sub>4</sub> biosynthesis

Cong, Liu; Yue, Rongrong; Wang, Huibin; Liu, Jianlong; Zhai, Rui; Yang, Jie; Wu, Meng; Su, Min; Zhang, Haiqi; Yang, Chengquan; Xu, Lingfei; Wang, Zhigang

doi:10.1111/ppl.12835

Cited by 30 publications

(33 citation statements)

References 40 publications

(54 reference statements)

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“…Plant hormones play key roles in parthenocarpic fruit growth. Parthenocarpy can be induced by the exogenous application of plant hormones, such as gibberellins (GAs), auxins, and melatonin (Cong et al, 2018;Liu et al, 2018a;Liu et al, 2018b), as well as the regulation of endogenous hormone contents (Mesejo et al, 2010;Ding et al, 2013;Sugiyama et al, 2014;Niu et al, 2015). Application of GAs can be used for this purpose in many horticultural plants, such as apple (Watanabe et al, 2008), loquat (Aslmoshtaghi and Shahsavar, 2013) and pear (Liu et al, 2018b).…”

Section: Introductionmentioning

confidence: 99%

PbGA20ox2 Regulates Fruit Set and Induces Parthenocarpy by Enhancing GA4 Content

Wang

Liu

et al. 2020

Front. Plant Sci.

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Fruit set and development occur following successful fertilization. Parthenocarpy, a valuable trait in some self-incompatible species, produces seedless fruit without fertilization. Gibberellin (GA) is a crucial hormone in fruit-set regulation and development. While investigating the development of parthenocarpy in pear (Pyrus bretschneideri Rehd.), we determined that GA 20-oxidases (GA20ox) may play key roles in seedless pear fruit development. Sequence analysis revealed three PbGA20ox genes: PbGA20ox1, PbGA20ox2, and PbGA20ox3. We analyzed the expression patterns of candidate genes and found that PbGA20ox2 levels significantly changed in pollinated fruits. Tissue-specific expression assays revealed that PbGA20ox2 is highly expressed in young fruit and leaves. Subcellular localization assays showed it was located in the cytoplasm, nucleus, and plasma membrane. Overexpressed PbGA20ox2 tomato plants were taller and had longer hypocotyls and internodes, and the emasculated flowers produced parthenocarpic fruit. In pear, the transient overexpression of PbGA20ox2 promoted fruit development and delayed the drop of nonpollinated fruit. Furthermore, the fruit of PbGA20ox2-overexpressing tomato and transient PbGA20ox2overexpressing pear had increased GA 4 (but not GA 3 and GA 1 ) contents. This result provided evidence that PbGA20ox2 was necessary for GA 4 -dependent pear fruit development. Our study revealed that PbGA20ox2 altered the GA biosynthetic pathway and enhanced GA 4 synthesis, thereby promoting fruit set and parthenocarpic fruit development.

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Section: Introductionmentioning

confidence: 99%

PbGA20ox2 Regulates Fruit Set and Induces Parthenocarpy by Enhancing GA4 Content

Wang

Liu

et al. 2020

Front. Plant Sci.

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“…Phytohormones play important roles in young fruit development. Young pear fruits contain high level of auxin, and low level of ethylene [49]. Further functional analyses of PcERF003 and PcIAA13 may help to elucidate the links between the effects of auxin and ethylene on anthocyanin and/or PA accumulation in young developing pear fruit.…”

Section: Discussionmentioning

confidence: 99%

Transcriptomic and metabolomic analysis provides insights into anthocyanin and procyanidin accumulation in pear

et al. 2020

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Background: Pear is one of the most important fruit crops worldwide. Anthocyanins and procyanidins (PAs) are important secondary metabolites that affect the appearance and nutritive quality of pear. However, few studies have focused on the molecular mechanism underlying anthocyanin and PA accumulation in pear. Results: We conducted metabolome and transcriptome analyses to identify candidate genes involved in anthocyanin and PA accumulation in young fruits of the pear cultivar 'Clapp Favorite' (CF) and its red mutation cultivar 'Red Clapp Favorite' (RCF). Gene-metabolite correlation analyses revealed a 'core set' of 20 genes that were strongly correlated with 10 anthocyanin and seven PA metabolites. Of these, PcGSTF12 was confirmed to be involved in anthocyanin and PA accumulation by complementation of the tt19-7 Arabidopsis mutant. Interestingly, PcGSTF12 was found to be responsible for the accumulation of procyanidin A3, but not petunidin 3, 5-diglucoside, opposite to the function of AtGSTs in Arabidopsis. Transformation with PcGSTF12 greatly promoted or repressed genes involved in anthocyanin and PA biosynthesis, regulation, and transport. Electrophoretic mobility shift and luciferase reporter assays confirmed positive regulation of PcGSTF12 by PcMYB114. Conclusion: These findings identify a core set of genes for anthocyanin and PA accumulation in pear. Of these, PcGSTF12, was confirmed to be involved in anthocyanin and PA accumulation. Our results also identified an important anthocyanin and PA regulation node comprising two core genes, PcGSTF12 and PcMYB114. These results provide novel insights into anthocyanin and PA accumulation in pear and represent a valuable data set to guide future functional studies and pear breeding.

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“…In tomato, CPPU-induced parthenocarpy is partly dependent on enhanced gibberellin and auxin biosynthesis and the application of PAC can significantly decrease gibberellin content 30 . Our previous studies have indicated that GA 4+7 , 2,4-dichlorophenoxyacetic acid (2,4-D), and melatonin (MT) can all induce parthenocarpy, which in pear is dependent on gibberellin 12,24,35 . To investigate whether gibberellin also plays a key role in CPPU-induced parthenocarpy in pear, we sprayed CPPU supplemented with PAC (a gibberellin synthesis inhibitor) on bagged 'Dangshansu' pear flowers.…”

Section: Discussionmentioning

confidence: 99%

“…Auxin was the first phytohormone discovered to induce parthenocarpy in plants 7,8 . Previous studies have indicated that an ectopic supply of auxin or auxin-like substances can induce parthenocarpy in strawberry 9 , tomato 10 , pear 11,12 , and eggplant 13 . In addition, changes in auxin biosynthesis and signaling pathways have been shown to induce parthenocarpic fruit set and fruit development.…”

Section: Introductionmentioning

confidence: 99%

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CPPU may induce gibberellin-independent parthenocarpy associated with PbRR9 in ‘Dangshansu’ pear

Cong

Liu

et al. 2020

Hortic Res

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Parthenocarpy is a valuable trait in self-incompatible plants, such as pear. N-(2-chloro-4-pyridyl)-N'-phenylurea (CPPU), a synthetic cytokinin analog, can induce parthenocarpy in pear (Pyrus spp.), but the mechanism of induction is unclear. To investigate the role of gibberellin in CPPU-induced parthenocarpy in pear, CPPU supplemented with paclobutrazol (PAC) was sprayed onto 'Dangshansu' pear. We found that the fruit set rate of pear treated with CPPU supplemented with PAC was identical to that in a CPPU-alone treatment group. In regard to cell development, CPPU mainly promoted hypanthium cell division and expansion, and PAC application had no influence on CPPU-induced cell development. RNA sequencing revealed that gibberellin 20 oxidase and gibberellin 3 oxidase genes were not differentially expressed following CPPU treatment. According to the analysis of fruit phytohormone content, the CPPU treatments did not induce gibberellin biosynthesis. These results suggest that CPPU-induced parthenocarpy may be gibberellin independent in 'Dangshansu' pear. After CPPU treatment, the indole acetic acid (IAA) content in fruit was significantly increased, and the abscisic acid (ABA) content was significantly decreased. Similarly, RNA sequencing revealed that many genes involved in the auxin and ABA pathways were significantly differentially expressed in the CPPU treatment groups; among them, indole-3-pyruvate monooxygenase (YUCCA) was significantly upregulated and 9-cis-epoxycarotenoid dioxygenase (NCED) was significantly downregulated. IAA and ABA may thus play important roles in CPPU-induced parthenocarpy. PbTwo-component response regulator9 (PbRR9), PbYUCCA4, and PbNCED6 were then selected to further elucidate the mechanism of CPPU-induced parthenocarpy. A yeast one-hybrid assay indicated that PbRR9 can combine with the PbYUCCA4 and PbNCED6 promoters. Dual luciferase assays revealed that PbRR9 can promote and repress the activities of the PbYUCCA4 and PbNCED6 promoters, respectively. After the transient expression of PbRR9 in fruits, PbYUCCA4 expression was significantly upregulated, and PbNCED6 expression was significantly downregulated. This study uncovered a CPPU-induced parthenocarpy mechanism that is different from that in tomato. CPPU may upregulate PbYUCCA4 and downregulate PbNCED6 by upregulating PbRR9, thereby increasing IAA content and decreasing ABA content to ultimately induce parthenocarpy in 'Dangshansu' pear. However, because only a single time point was used and because 'botanical' and 'accessory' fruits have different structures, this conclusion is still preliminary.

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2,4‐D‐induced parthenocarpy in pear is mediated by enhancement of GA₄ biosynthesis

Cited by 30 publications

References 40 publications

PbGA20ox2 Regulates Fruit Set and Induces Parthenocarpy by Enhancing GA4 Content

PbGA20ox2 Regulates Fruit Set and Induces Parthenocarpy by Enhancing GA4 Content

Transcriptomic and metabolomic analysis provides insights into anthocyanin and procyanidin accumulation in pear

CPPU may induce gibberellin-independent parthenocarpy associated with PbRR9 in ‘Dangshansu’ pear

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2,4‐D‐induced parthenocarpy in pear is mediated by enhancement of GA4 biosynthesis

Cited by 30 publications

References 40 publications

PbGA20ox2 Regulates Fruit Set and Induces Parthenocarpy by Enhancing GA4 Content

PbGA20ox2 Regulates Fruit Set and Induces Parthenocarpy by Enhancing GA4 Content

Transcriptomic and metabolomic analysis provides insights into anthocyanin and procyanidin accumulation in pear

CPPU may induce gibberellin-independent parthenocarpy associated with PbRR9 in ‘Dangshansu’ pear

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2,4‐D‐induced parthenocarpy in pear is mediated by enhancement of GA₄ biosynthesis