A subset of plasma membrane-localized PP2C.D phosphatases negatively regulate SAUR-mediated cell expansion in Arabidopsis

Ren, Hong Yu; Park, Mee Yeon; Spartz, Angela; Wong, Jeh Haur; Gray, William M.

doi:10.1371/journal.pgen.1007455

Cited by 95 publications

(147 citation statements)

References 65 publications

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“…The SAUR26 subfamily proteins also connect with PP2C‐D that are major regulators in auxin‐regulated cell expansion (Ren et al ., ). SAUR26 and SAUR27 could physically interact with PP2C‐D5 and PP2C‐D6, as indicated by a series of protein–protein interaction assays (Figs c, S7b), and overexpressing these SAUR proteins leads to higher activity of PM H + ‐ATPase (Fig.…”

Section: Discussionmentioning

confidence: 97%

Natural variations of growth thermo‐responsiveness determined by SAUR26/27/28 proteins in Arabidopsis thaliana

et al. 2019

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Summary How diversity in growth thermo‐responsiveness is generated for local adaptation is a long‐standing biological question. We investigated molecular genetic basis of natural variations in thermo‐responsiveness of plant architecture in Arabidopsis thaliana. We measured the extent of rosette architecture at 22°C and 28°C in a set of 69 natural accessions and determined their thermo‐responsiveness of plant architecture. A genome‐wide association study was performed to identify major loci for variations in thermo‐responsiveness. The SAUR26 subfamily, a new subfamily of SAUR genes, was identified as a major locus for the thermo‐responsive architecture variations. The expression of SAUR26/27/28 is modulated by temperature and PIF4. Extensive natural polymorphisms in these genes affect their RNA expression levels and protein activities and influence the thermo‐responsiveness of plant architecture. In addition, the SAUR26 subfamily genes exhibit a high variation frequency and their variations are associated with the local temperature climate. This study reveals that the SAUR26 subfamily is a key variation for thermo‐responsive architecture and suggests a preference for generating diversity for local adaptation through signaling connectors.

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Section: Discussionmentioning

confidence: 97%

Natural variations of growth thermo‐responsiveness determined by SAUR26/27/28 proteins in Arabidopsis thaliana

et al. 2019

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“…PP2C.D family members that target AHA2 [74], effectively repressing their activity and leading to elevated AHA2 phosphorylation activation (Figure 3). For further reading in this area please see references [75][76][77]. Treatment of either light-grown or dark-grown seedlings with ABA results in inhibition of hypocotyl elongation [48].…”

Section: Auxin-aba Interactions In Cell Expansion and Hypocotyl Elongmentioning

confidence: 99%

Auxin-Abscisic Acid Interactions in Plant Growth and Development

2020

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Plant hormones regulate many aspects of plant growth, development, and response to biotic and abiotic stress. Much research has gone into our understanding of individual plant hormones, focusing primarily on their mechanisms of action and the processes that they regulate. However, recent research has begun to focus on a more complex problem; how various plant hormones work together to regulate growth and developmental processes. In this review, we focus on two phytohormones, abscisic acid (ABA) and auxin. We begin with brief overviews of the hormones individually, followed by in depth analyses of interactions between auxin and ABA, focusing on interactions in individual tissues and how these interactions are occurring where possible. Finally, we end with a brief discussion and future prospects for the field.

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“…D5 derivatives confer severe cell expansion defects and correspondingly cause constitutively low levels of PM H + -ATPase phosphorylation. It has been proven that PM H + -ATPase plays an important role in seed germination due to its role in supplying cell walls with the H + -ions necessary for cell elongation commencement in embryos, but the mechanism of PM H + -ATPase activation in germinating seeds has not been determined [34,35]. With regard to ET metabolism, high expression of the ERF1/2 gene is involved in fruit ripening, and overexpression of this gene has been found to be speci cally induced by glucose during germination and early seedling development in Arabidopsis plants [36].…”

Section: Plant Hormone Signal Transduction and Abc Transporters Fuctimentioning

confidence: 99%

Differentially expressed genes and phenotypic variation in florets among the isogenic Ogura-CMS, DGMS and inbred lines of broccoli

Li¹,

Liu²,

Fang³

et al. 2020

Preprint

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Background: Male sterility contributes strongly to hybrid seed purity and production in Brassica crops. To detect plant phenotypes and the gene expression patterns involved in bioprocess of an Ogura cytoplasmic male sterility line (Ogura-CMS), a dominant genic male sterility line (DGMS) and their maintainer line, we analyzed the transcriptomes of broccoli florets among the isogenic Ogura-CMS (T54C), DGMS (T54M) and inbred lines (T54S).Results: There were respectively 505, 585 and 469 upregulated genes, and 1109, 1073 and 543 downregulated genes in the comparison groups of T54C and T54M, T54C and T54S, and T54M and T54S. The head weight and head width showed stronger performance in the Ogura-CMS than the DGMS line or maintainer line. The Ogura-CMS line showed poorer performance in seed yield and seed germination than the DGMS line or maintainer line. The DGMS line had longer maturation and flowering periods than the Ogura-CMS and maintainer lines. The plant hormone genes, auxin (TIR1, GH3 and SAUR) and salicylic acid (SA) (NPR1), and adenosine triphosphate-binding cassette (ABC) transporters-related genes (ABCB1 and ATM) were highly up-regulated in T54C compared with T54M or T54S. The brassinosteroid upregulated gene CYCD3 related to the function of late-flowering and delaying senescence in plants, was detected in T54M over two seasons.Conclusions: Among the isogenic Ogura-CMS, DGMS and inbred lines of broccoli, the Ogura-CMS line showed strong performance in head yield than the DGMS line or the inbred line. The DGMS line had longer days to flowering than the Ogura-CMS and inbred lines. However, the inbred line presented a higher seed yield and seed germination rate than the DGMS or Ogura-CMS line. This study found that some potential plant hormone genes, auxin (TIR1, GH3 and SAUR) and SA (NPR1), and ABC transporters related genes (ABCB1 and ATM) might play a key role in regulation of the developmental trait in the Ogura-CMS line. The BR- upregulated gene CYCD3 may function in late-flowering and delaying senescence of broccoli consistent with the investigations conducted over two seasons. Our findings provided a possible explanation for physiological and developmental differences of broccoli among the Ogura-CMS, the DGMS and the inbred lines.

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A subset of plasma membrane-localized PP2C.D phosphatases negatively regulate SAUR-mediated cell expansion in Arabidopsis

Cited by 95 publications

References 65 publications

Natural variations of growth thermo‐responsiveness determined by SAUR26/27/28 proteins in Arabidopsis thaliana

Natural variations of growth thermo‐responsiveness determined by SAUR26/27/28 proteins in Arabidopsis thaliana

Auxin-Abscisic Acid Interactions in Plant Growth and Development

Differentially expressed genes and phenotypic variation in florets among the isogenic Ogura-CMS, DGMS and inbred lines of broccoli

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