2020
DOI: 10.3390/plants9060705
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Auxin: Hormonal Signal Required for Seed Development and Dormancy

Abstract: The production of viable seeds is a key event in the life cycle of higher plants. Historically, abscisic acid (ABA) and gibberellin (GAs) were considered the main hormones that regulate seed formation. However, auxin has recently emerged as an essential player that modulates, in conjunction with ABA, different cellular processes involved in seed development as well as the induction, regulation and maintenance of primary dormancy (PD). This review examines and discusses the key role of auxin as a signaling mole… Show more

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Cited by 61 publications
(59 citation statements)
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References 121 publications
(225 reference statements)
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“…ABA and gibberellins are essential determinants of seed development and dormancy ( Carrera-Castaño et al , 2020 ). A recent publication also highlighted a direct role of auxin in seed dormancy ( Matilla, 2020 ). In addition, crosstalk between IAA and ABA in seed development and germination has been reported to occur on both the transcriptional and the metabolic level ( Chauffour et al , 2019 ; He et al , 2020 ).…”
Section: Discussionmentioning
confidence: 99%
“…ABA and gibberellins are essential determinants of seed development and dormancy ( Carrera-Castaño et al , 2020 ). A recent publication also highlighted a direct role of auxin in seed dormancy ( Matilla, 2020 ). In addition, crosstalk between IAA and ABA in seed development and germination has been reported to occur on both the transcriptional and the metabolic level ( Chauffour et al , 2019 ; He et al , 2020 ).…”
Section: Discussionmentioning
confidence: 99%
“…In this context, the IAM connection with gibberellin signaling through the recently reported repression of GNC and CGA1 transcription factors, both DELLAs downstream effectors is particularly noteworthy [71]. Furthermore, the recently reported direct role of auxin in seed dormancy [89], as well as the transcriptional and metabolic crosstalk between IAA and ABA in seed development and germination [90,91], have led to propose an additional crosstalk connecting AMI1/IAM contents and ABA-related processes, with prosperous seedling development and germination. As demonstrated by the Arabidopsis germination rate reduction in response to IAM application, deficient AMI1 activity most probably enhances ABA production, and later results in aberrant embryo and seed size [61].…”
Section: The Ami1 Connection: Iam-aba Crosstalk In Stress Responsesmentioning
confidence: 96%
“…Thus, it was demonstrated, for the first time at the molecular level, a role for auxin in PD through stimulation of ABA signaling, identifying auxin as a dormancy promotor [ 24 ]. Matilla (2020) [ 25 ] carries out here an in-depth review of the participation of auxin in embryogenesis, PD, and germination. The dynamic of expression and localization (i.e., proembryo, hypophysis, and suspensor) of several key genes for the biosynthesis and transport of auxins in the globular phase was carefully checked (Figure 1 of the review).…”
Section: Auxins and Seed Dormancymentioning
confidence: 99%