Genome-Wide Identification and Expression Profiling of Cytokinin Oxidase/Dehydrogenase (CKX) Genes Reveal Likely Roles in Pod Development and Stress Responses in Oilseed Rape (Brassica napus L.)

Liu, Pu; Zhang, Chao; Zhang, Liyuan; Yang, Bo; Huang, Ling; Zhou, Xin-Tong; Lu, Kun; Li, Jiana

doi:10.3390/genes9030168

Cited by 46 publications

(39 citation statements)

References 70 publications

(71 reference statements)

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“…The other important component of CK metabolism is the CKX enzyme, which accounts for the irreversible inactivation of CKs by cleaving the side chain from CK molecules [46]. Genome-wide association studies have recently shed more light on the potential function of CKX members in plant species, with 13 CKX GFMs in maize [71], 11 CKX GFMs in rice [66], 12 CKX GFMs in apple [67], CKX GFMs in wheat (Triticum aestivum) [72] and 23 CKX GFMs in rapeseed (Brassica napus) [73]. Increasing lines of evidence suggest that CKX GFMs play important roles in various plant physiological and developmental modifications under drought stress [74][75][76] (Table 1).…”

Section: Response Of Ck Metabolic Genes To Droughtmentioning

confidence: 99%

Role and Regulation of Cytokinins in Plant Response to Drought Stress

Hải

Chuong

et al. 2020

Plants

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Cytokinins (CKs) are key phytohormones that not only regulate plant growth and development but also mediate plant tolerance to drought stress. Recent advances in genome-wide association studies coupled with in planta characterization have opened new avenues to investigate the drought-responsive expression of CK metabolic and signaling genes, as well as their functions in plant adaptation to drought. Under water deficit, CK signaling has evolved as an inter-cellular communication network which is essential to crosstalk with other types of phytohormones and their regulating pathways in mediating plant stress response. In this review, we revise the current understanding of CK involvement in drought stress tolerance. Particularly, a genetic framework for CK signaling and CK crosstalk with abscisic acid (ABA) in the precise monitoring of drought responses is proposed. In addition, the potential of endogenous CK alteration in crops towards developing drought-tolerant crops is also discussed.

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Section: Response Of Ck Metabolic Genes To Droughtmentioning

confidence: 99%

Role and Regulation of Cytokinins in Plant Response to Drought Stress

Hải

Chuong

et al. 2020

Plants

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“…In the genome of B. napus a large number of cytokinin metabolism and signalling genes was identified. Among others, there are 26 cytokinin-synthesizing IPT and 23 CKX genes , which are differentially expressed [37, 38] as compared to nine IPT and seven CKX genes in Arabidopsis. The fact that a large number of cytokinin genes have been retained in the Brassica genome suggests that the hormone exerts numerous distinct functions in this species.…”

Section: Introductionmentioning

confidence: 99%

Root enhancement in cytokinin-deficient oilseed rape causes leaf mineral enrichment, increases the chlorophyll concentration under nutrient limitation and enhances the phytoremediation capacity

et al. 2019

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Background Cytokinin is a negative regulator of root growth, and a reduction of the cytokinin content or signalling causes the formation a larger root system in model plants, improves their growth under drought and nutrient limitation and causes increased accumulation of elements in the shoot. Roots are an important but understudied target of plant breeding. Here we have therefore explored whether root enhancement by lowering the cytokinin content can also be achieved in oilseed rape ( Brassica napus L.) plants. Results Transgenic plants overexpressing the CKX2 gene of Arabidopsis thaliana encoding a cytokinin-degrading cytokinin oxidase/dehydrogenase showed higher CKX activity and a strongly reduced cytokinin content. Cytokinin deficiency led to the formation of a larger root system under different growth conditions, which was mainly due to an increased number of lateral and adventitious roots. In contrast, shoot growth was comparable to wild type, which caused an enhanced root-to-shoot ratio. Transgenic plants accumulated in their leaves higher concentrations of macro- and microelements including P, Ca, Mg, S, Zn, Cu, Mo and Mn. They formed more chlorophyll under Mg- and S-deficiency and accumulated a larger amount of Cd and Zn from contaminated medium and soil. Conclusions These findings demonstrate the usefulness of ectopic CKX gene expression to achieve root enhancement in oilseed rape and underpin the functional relevance of a larger root system. Furthermore, the lack of major developmental consequences on shoot growth in cytokinin-deficient oilseed rape indicates species-specific differences of CKX gene and/or cytokinin action. Electronic supplementary material The online version of this article (10.1186/s12870-019-1657-6) contains supplementary material, which is available to authorized users.

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“…Previous studies have predicted the location of Brassica rapa ssp. Pekinensis BrCKX3 protein in chloroplasts and secretory pathways [ 74 ], while in Brassica napus L. BnCKX3 was predicted to be in the vacuole [ 77 ], and confirmed to be vacuole-based in Arabidopsis [ 4 ]. However, the over-production of vacuole-located AtCKXs (AtCKX1 and AtCKX3) is known to cause severe traits associated with cytokinin deficiency in Arabidopsis [ 4 ], highlighting the potential importance of BrCKX3 in regulating cytokinin homeostasis and cytokinin sink dynamics at an intracellular level.…”

Section: Discussionmentioning

confidence: 99%

Targeting Cytokinin Homeostasis in Rapid Cycling Brassica rapa with Plant Growth Regulators INCYDE and TD-K

Voorthuizen

Nisler

Song

et al. 2020

Plants

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Modifying the cytokinin content in plants is a means of improving plant productivity. Here, we report the development and biological activity of compound TD-K (1-(furan-2-ylmethyl)-3-(1,2,3-thiadiazol-5-yl)urea)which is related to thidiazuron. TD-K—which exhibited extremely high antisenescence activity in the wheat leaf bioassay—and INCYDE (2-chloro-6-(3-methoxyphenyl)aminopurine)—a plant growth regulator reported to inhibit cytokinin oxidase/dehydrogenase (CKX), an enzyme involved in the degradation of the plant hormone cytokinin—were selected for investigation of their effects on the model plant Rapid Cycling Brassica rapa (RCBr). We monitored the expression of BrCKX and isopentenyl transferase (BrIPT), which codes for the key cytokinin biosynthesis enzyme, in developing leaves following INCYDE and TD-K application. Growth room experiments revealed that INCYDE increased RCBr seed yield per plant, but only when applied multiple times and when grown in 5 mM KNO3. Expression in control leaves showed transient, high levels of expression of BrCKX and BrIPT at true leaf appearance. Following INCYDE application, there was a rapid and strong upregulation of BrCKX3, and a transient downregulation of BrIPT1 and BrIPT3. Interestingly, the upregulation of BrCKX3 persisted in a milder form throughout the course of the experiment (16 days). TD-K also upregulated BrCKX3. However, in contrast to INCYDE, this effect disappeared after two days. These results suggest that both compounds (CKX inhibitor and cytokinin TD-K) influenced cytokinin homeostasis in RCBr leaves, but with different mechanisms.

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Genome-Wide Identification and Expression Profiling of Cytokinin Oxidase/Dehydrogenase (CKX) Genes Reveal Likely Roles in Pod Development and Stress Responses in Oilseed Rape (Brassica napus L.)

Cited by 46 publications

References 70 publications

Role and Regulation of Cytokinins in Plant Response to Drought Stress

Role and Regulation of Cytokinins in Plant Response to Drought Stress

Root enhancement in cytokinin-deficient oilseed rape causes leaf mineral enrichment, increases the chlorophyll concentration under nutrient limitation and enhances the phytoremediation capacity

Targeting Cytokinin Homeostasis in Rapid Cycling Brassica rapa with Plant Growth Regulators INCYDE and TD-K

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