Induction of Dormancy in <i>Arabidopsis</i> Summer Annuals Requires Parallel Regulation of <i>DOG1</i> and Hormone Metabolism by Low Temperature and CBF Transcription Factors

Kendall, Sarah L.; Hellwege, Anja; Marriot, Poppy; Whalley, Celina M.; Graham, Ian A.; Penfield, Steven

doi:10.1105/tpc.111.087643

Cited by 218 publications

(288 citation statements)

References 52 publications

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“…Similarly, seeds of the Col ecotype matured at 158C were also reported to have decreased germination in response to cold stratification compared to those matured at higher temperatures (e.g. 208C) (Donohue et al, 2008;Kendall et al, 2011).…”

Section: Temperaturementioning

confidence: 99%

“…This takes the form of sensing the maternal environment (light, nitrate and temperature) (Sawhney et al, 1985;Alboresi et al, 2005;Kendall et al, 2011;Kendall and Penfield, 2012;Penfield and Springthorpe, 2012;He et al, 2014;Huang et al, 2014) and the environment of the soil seed bank (light, nitrate and temperature) (Footitt et al, 2011(Footitt et al, , 2013Finch-Savage and Footitt, 2012;Penfield and Springthorpe, 2012). This enables seeds to use environmental signals to determine the time and place of seed germination and subsequent seedling emergence (Baskin and Baskin, 1998;Finch-Savage and LeubnerMetzger, 2006;Footitt et al, 2011Footitt et al, , 2013Footitt et al, , 2014.…”

Section: Introductionmentioning

confidence: 99%

“…This enables seeds to use environmental signals to determine the time and place of seed germination and subsequent seedling emergence (Baskin and Baskin, 1998;Finch-Savage and LeubnerMetzger, 2006;Footitt et al, 2011Footitt et al, , 2013Footitt et al, , 2014. Within a species, the initial depth of primary dormancy is determined during seed development by ecotype genetics and the prevailing environment (Baskin and Baskin, 1998;Kendall et al, 2011;Donohue, 2014;He et al, 2014;Huang et al, 2014). If seeds are not exposed to suitable environmental signals for dormancy removal upon shedding, they enter the soil seed bank.…”

Section: Introductionmentioning

confidence: 99%

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Seed dormancy is a dynamic state: variable responses to pre- and post-shedding environmental signals in seeds of contrastingArabidopsisecotypes

2015

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Seeds have evolved to be highly efficient environmental sensors that respond not only to their prevailing environment, but also their environmental history, to regulate dormancy and the initiation of germination. In the present work we investigate the combined impact of a number of environmental signals (temperature, nitrate, light) during seed development on the mother plant, during post-shedding imbibition and during prolonged post-shedding exposure in both dry and imbibed states, simulating time in the soil seed bank. The differing response to these environments was observed in contrasting winter (Cvi, Ler) and summer (Bur) annual Arabidopsis ecotypes. Results presented show that environmental signals both pre-and post-shedding determine the depth of physiological dormancy and therefore the germination response to the ambient environment. The ecotype differences in seed response to ambient germination conditions are greatly enhanced by seed maturation in different environments. Further variation in response develops following shedding when seeds do not receive the full complement of environmental signals required for germination and enter the soil seed bank in either dry or imbibed states. Species seed dormancy characteristics cannot therefore be easily defined, as seed dormancy is a dynamic state subject to within-species adaptation to local environments.

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Section: Temperaturementioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Seed dormancy is a dynamic state: variable responses to pre- and post-shedding environmental signals in seeds of contrastingArabidopsisecotypes

2015

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“…For seed dormancy, analysis of Arabidopsis natural genetic variation has led to the cloning of AtDOG1 as the first specific seed dormancy gene (Bentsink et al, 2006) and has been shown to be important for local adaptation to different environments (Huang et al, 2010;Chiang et al, 2011;Footitt et al, 2011;Kendall et al, 2011;Kronholm et al, 2012). Homologs of the AtDOG1 gene are also known for the Brassicaceae species B. rapa (BrDOG1) and Lepidium sativum (Lesa-DOG1; Graeber et al, 2010).…”

mentioning

confidence: 99%

“…Recent work shows that the AtDOG1 protein accumulates during seed maturation and, unlike the transcript, remains stable throughout imbibition of Arabidopsis seeds . The mother plant environment, especially the ambient temperature during seed development, controls AtDOG1 gene expression during seed maturation as well as the seed dormancy status (Kendall et al, 2011;Nakabayashi et al, 2012).…”

mentioning

confidence: 99%

Spatiotemporal Seed Development Analysis Provides Insight into Primary Dormancy Induction and Evolution of theLepidium DELAY OF GERMINATION1Genes

et al. 2013

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Seed dormancy is a block to the completion of germination of an intact viable seed under favorable conditions and is an adaptive and agronomically important trait. Thus, elucidating conserved features of dormancy mechanisms is of great interest. The worldwide-distributed genus Lepidium (Brassicaceae) is well suited for cross-species comparisons investigating the origin of common or specific early-life-history traits. We show here that homologs of the seed dormancy-specific gene DELAY OF GERMINATION1 (DOG1) from Arabidopsis (Arabidopsis thaliana) are widespread in the genus Lepidium. The highly dormant Lepidium papillosum is a polyploid species and possesses multiple structurally diversified DOG1 genes (LepaDOG1), some being expressed in seeds. We used the largely elongated and well-structured infructescence of L. papillosum for studying primary dormancy induction during seed development and maturation with high temporal resolution. Using simultaneous germination assays and marker protein expression detection, we show that LepaDOG1 proteins are expressed in seeds during maturation prior to dormancy induction. Accumulation of LepaDOG1 takes place in seeds that gain premature germinability before and during the seed-filling stage and declines during the late maturation and desiccation phase when dormancy is induced. These analyses of the Lepidium DOG1 genes and their protein expression patterns highlight similarities and species-specific differences of primary dormancy induction mechanism(s) in the Brassicaceae.

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Dormancy in Plants

Soppe

Bentsink

2016

Encyclopedia of Life Sciences

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Advanced articleArticle Contents • Introduction • The Role of Dormancy in Plants under Natural and Agricultural Conditions • Dormancy Cycling • The Regulation of Dormancy th August 2016 Dormancy is a strategy of higher plants to survive adverse conditions by pausing growth and development, which can occur in different organs like seeds and buds. Dormancy is controlled both by genetic and environmental factors and most of our knowledge about its regulation has been obtained by studying seeds. Seed dormancy is an important adaptive trait in wild plants and has been under negative selection during domestication. The plant hormone abscisic acid has been shown to play a crucial role in the establishment and maintenance of dormancy, whereas gibberellins promote germination. Additional regulators include reactive oxygen species and epigenetic modifications. Large differences in seed dormancy have been found within species and the identification of the underlying genes revealed several novel genes that specifically regulate dormancy.

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Induction of Dormancy in Arabidopsis Summer Annuals Requires Parallel Regulation of DOG1 and Hormone Metabolism by Low Temperature and CBF Transcription Factors

Cited by 218 publications

References 52 publications

Seed dormancy is a dynamic state: variable responses to pre- and post-shedding environmental signals in seeds of contrastingArabidopsisecotypes

Seed dormancy is a dynamic state: variable responses to pre- and post-shedding environmental signals in seeds of contrastingArabidopsisecotypes

Spatiotemporal Seed Development Analysis Provides Insight into Primary Dormancy Induction and Evolution of theLepidium DELAY OF GERMINATION1Genes

Dormancy in Plants

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