2015
DOI: 10.1111/nph.13687
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50 years of Arabidopsis research: highlights and future directions

Abstract: Summary922I.Introduction and a brief survey of 54 033 Arabidopsis publications922II.Arabidopsis reverse genetics: paving the way for gene function studies922III.Arabidopsis stock centers925IV.Databases and online tools925V.Cell biology926VI.Development927VII.Hormones928VIII.The plant immune system and Arabidopsis research929IX.Signaling in response to abiotic stress930X.Pumps, channels, transporters and the like931XI.Cell walls, starch and lipids932XII.Epigenetics and epigenomics: from genotype to phenotype933… Show more

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Cited by 203 publications
(140 citation statements)
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References 316 publications
(361 reference statements)
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“…evolution | population history | self-compatibility | climate | migration T he plant Arabidopsis thaliana is the principal plant model species, and as such has been useful not only to examine basic biological mechanisms but also to elucidate evolutionary processes. The exceptional resources available in this species, including seed stocks collected from throughout Eurasia for over 75 y, have been a valuable tool for learning about the natural history of A. thaliana on this continent (1,2). Previous studies have shown that current variation in Eurasia is mainly a result of expansions and mixing from refugia in Iberia, Central Asia, and Italy/Balkans after the end of the last glacial period ∼10 kya (3)(4)(5)(6)(7)(8).…”
mentioning
confidence: 99%
“…evolution | population history | self-compatibility | climate | migration T he plant Arabidopsis thaliana is the principal plant model species, and as such has been useful not only to examine basic biological mechanisms but also to elucidate evolutionary processes. The exceptional resources available in this species, including seed stocks collected from throughout Eurasia for over 75 y, have been a valuable tool for learning about the natural history of A. thaliana on this continent (1,2). Previous studies have shown that current variation in Eurasia is mainly a result of expansions and mixing from refugia in Iberia, Central Asia, and Italy/Balkans after the end of the last glacial period ∼10 kya (3)(4)(5)(6)(7)(8).…”
mentioning
confidence: 99%
“…A complete understanding of the coordinated regulation of gene expression by histone modifications, however, is still lacking in plants. The role of epigenetic regulation in the abiotic stress response has gradually been elucidated, starting with McClintock (1984), who first recognized the relationship between epigenetics and stress Provart et al, 2016;Asensi-Fabado et al, 2017 Among histone modifications, the mode of action of histone acetylation is relatively well understood. The positively charged Lys residues within the N tails of histones are often targets for histone acetylation.…”
mentioning
confidence: 99%
“…A complete understanding of the coordinated regulation of gene expression by histone modifications, however, is still lacking in plants. The role of epigenetic regulation in the abiotic stress response has gradually been elucidated, starting with McClintock (1984), who first recognized the relationship between epigenetics and stress Provart et al, 2016; Asensi-Fabado et al, 2017).…”
mentioning
confidence: 99%
“…As the most developed model plant species (Koornneef & Meinke, 2010;Provart et al, 2016), Arabidopsis thaliana is typically the first choice for most proof-of-concept plant metabolic engineering studies. Arabidopsis is particularly useful for engineering studies on plant seed oils because it is an oilseed plant that accumulates approximately 37% of seed weight as triacylglycerol (Li, Beisson, Pollard, & Ohlrogge, 2006).…”
mentioning
confidence: 99%