Gibberellin Metabolism in Flowering Plants: An Update and Perspectives

He, Juan; Xin, Peiyong; Ma, Xiu-Wen; Chu, Jinfang; Wang, Guodong

doi:10.3389/fpls.2020.00532

Cited by 36 publications

(25 citation statements)

References 39 publications

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“…This process is affected by plant growth regulators, water, and temperature, among others [24][25][26][27]. The plant growth regulators are divided into ve classes, one of them being Gibberellin (GA), which is a diterpenoid compound, and the most active arti cially synthesized hormone [28,29]. A previous studies showed that the germination rate of Primula beesiana seeds under 15/5℃ treatment was less than 10%, but exogenous GA 3 signi cantly increased seed germination [30].…”

Section: Discussionmentioning

confidence: 99%

Exogenous Gibberellin Promotes the Germination of Phellodendron Chinense Schneid Seeds by Regulating the Expression of Phytohormone Related Genes and Anabolic Proteins

Sun

Zhang

Wang

et al. 2020

Preprint

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Background: Phellodendron chinense Schneid is an important Chinese herb that contains berberine, phellodendrine, palmatine, and medicinal compounds. The germination rate of Phellodendron chinense Schneid seeds is lower after storage, and the exogenous gibberellin3 (GA3) hormone promotes seed germination, but the mechanism is not cleared. Results: Exogenous GA3 hormone promoted germination of Phellodendron chinense Schneid seeds, elevated germination rates. It also increased the levels of activities of superoxide dismutase (SOD), peroxidase (POD), and catalase (CAT). Moreover, it enhanced the contents of berberine and endogenous GA3, and increased the expression levels of Pc(S)-GA2ox, Pc(S)-GA3ox, and Pc(S)-THBO. However, it reduced the expression level of Pc(S)-ABI5. Furthermore, exogenous GA3 up-regulated the protein levels of DNA guides RNA polymerase β'-subunits, Coffee coenzyme A oxymethyl transferase, and Histone H1. Conclusion: These findings indicated that exogenous GA3 promoted germination of Phellodendron chinense Schneid seeds by regulating the expression levels of phytohormone related genes and anabolic proteins.

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Section: Discussionmentioning

confidence: 99%

Exogenous Gibberellin Promotes the Germination of Phellodendron Chinense Schneid Seeds by Regulating the Expression of Phytohormone Related Genes and Anabolic Proteins

Sun

Zhang

Wang

et al. 2020

Preprint

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“…* P < 0.05; ** P < 0.01; *** P < 0.001. teffect of time (ZT12, ZT18), leffect of light (NL, LL), t*l, interaction of time and light. The narrow arrow from GA 19 to GA 20 represents the slow reaction rate and the dashed line represent a predicted, but unconfirmed, reaction in planta (He et al 2019(He et al , 2020. B.…”

Section: Supplemental Tablementioning

confidence: 99%

“…GA 12 is considered the common precursor to all GAs in plants and is further processed into a variety of forms by GIBBERELLIN 20-OXIDASEs (GA20ox) and a GIBERELLIN 13-OXIDASE (GA13ox). The final step to bioactive GA is catalyzed by GIBBERELLIN 3-BETA-DIOXYGENASE (GA3ox) (Hedden and Thomas 2012;He et al 2019;He et al 2020). In angiosperms, GA 4 , GA 1 , and GA 3 have been confirmed to bind the GIBBERELLIN INSENSTIVE DWARF1 (GID1) receptor (Ueguchi-Tanaka et al 2005;Yoshida et al 2018;Nakajima et al 2006).…”

Section: Introductionmentioning

confidence: 99%

Nocturnal gibberellin biosynthesis is carbon dependent and adjusts leaf expansion rates to variable conditions

et al. 2020

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Optimal plant growth performance requires that the presence and action of growth signals, such as gibberellins (GAs), are coordinated with the availability of photo-assimilates. Here, we studied the links between GA biosynthesis and carbon availability, and the subsequent effects on growth. We established that carbon availability, light and dark cues, and the circadian clock ensure the timing and magnitude of GA biosynthesis and that disruption of these factors results in reduced GA levels and expression of downstream genes. Carbon-dependent nighttime induction of gibberellin 3-beta-dioxygenase 1 (GA3ox1) was severely hampered when preceded by reduced daytime light availability, leading specifically to reduced bioactive GA4 levels, and coinciding with a decline in leaf expansion rate during the night. We attributed this decline in leaf expansion mostly to reduced photo-assimilates. However, plants in which GA limitation was alleviated had significantly improved leaf expansion, demonstrating the relevance of GAs in growth control under varying carbon availability. Carbon-dependent expression of upstream GA biosynthesis genes (Kaurene synthase and gibberellin 20 oxidase 1, GA20ox1) was not translated into metabolite changes within this short timeframe. We propose a model in which the extent of nighttime biosynthesis of bioactive GA4 by GA3ox1 is determined by nighttime consumption of starch reserves, thus providing day-to-day adjustments of GA responses.

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“…Floral transition is the prerequisite for plants to complete reproductive growth, which is regulated by both external environmental factors and internal genetic factors (He et al 2010). At present, a number of oral induction pathways, such as autonomous pathway (Wu et al 2020), photoperiod pathway (Song et al 2015), gibberellin (GA) pathway (He et al 2020), age pathway (Wang 2014) and ambient temperature pathway (Fornara et al 2010), have been identi ed in various plants. Numerous studies have indicated that these oral induction pathways are not separated but act synergistically to regulate plant owering.…”

Section: Introductionmentioning

confidence: 99%

Cloning, Characterization, and Overexpression in Arabidopsis to Determine the Function of SPL Genes from Woodland Strawberry (Fragaria Vesca)

Bai

Liang

et al. 2021

Preprint

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SQUAMOSA promoter binding protein-like (SPL) proteins is a class of plant specific transcription factors that play important roles during plant development. However, the majority of SPL genes in strawberry are functionally uncharacterized. In this study, three SPL genes, i.e. FvSPL1, FvSPL2, and FvSPL11 (FvSPL1/2/11), from woodland strawberry were cloned and characterized. Phylogenetic analysis with SPL genes from Arabidopsis, tomato and chrysanthemum indicated that FvSPL1/2/11 were clustered into the same group with those of miR156 target site located at the 3’-untranslated region (UTR). Further biochemical analysis indicated that FvSPL1 was exclusively localized in the nucleus. Electrophoretic mobility shift assay demonstrated FvSPL1 could specifically recognized the GTAC motif. Transcriptional activity analysis showed FvSPL1 was a transcriptional activator that could activate the expression of FvAP1 gene. Finally, all of the transgenic Arabidopsis that overexpression the three FvSPL genes were exhibited significantly early flowering phenotype. Taken together, our study indicated that FvSPL1/2/11 similar to their orthologs in Arabidopsis mainly functions in regulating plant flowering. These results enriched our understanding to the functions of SPL genes in strawberry and might be utilized for strawberry flowering time manipulation in the future.

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Gibberellin Metabolism in Flowering Plants: An Update and Perspectives

Cited by 36 publications

References 39 publications

Exogenous Gibberellin Promotes the Germination of Phellodendron Chinense Schneid Seeds by Regulating the Expression of Phytohormone Related Genes and Anabolic Proteins

Exogenous Gibberellin Promotes the Germination of Phellodendron Chinense Schneid Seeds by Regulating the Expression of Phytohormone Related Genes and Anabolic Proteins

Nocturnal gibberellin biosynthesis is carbon dependent and adjusts leaf expansion rates to variable conditions

Cloning, Characterization, and Overexpression in Arabidopsis to Determine the Function of SPL Genes from Woodland Strawberry (Fragaria Vesca)

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