DOI: 10.18174/511001
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Evolutionary analysis of a billion years of auxin biology

Abstract: Archaeplastida presumably originated more than a billion years ago with the acquisition of a plastid or chloroplast through the endosymbiosis of Cyanobacteria (Delwiche et al., 1995). The monophyletic Archaeplastida is comprised of three main groups of organisms: Rhodophyta (red algae), Glaucophyta and Viridiplantae (green algae and land plants; Fig. 2; Kenrick and Crane, 1997). In nature, glaucophytes are not as diverse and species-rich as red algae or the land plants (Delaux et al., 2012a). Viridiplantae are… Show more

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Cited by 2 publications
(3 citation statements)
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References 166 publications
(218 reference statements)
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“…Accordingly, recent biochemical analysis shows that a Proto‐C‐ARF from Chlorokybus atmophyticus has a DNA‐binding specificity that differs from land plants A and B, and that has been maintained in class‐C ARFs along evolution (Martin‐Arevalillo et al , 2019). Presence of Proto‐C ARFs is common along the streptophyte algae with no specific pattern of appearance or retention, while Proto A/B‐ARFs have been found mainly in the ZCC clade (Martin‐Arevalillo et al , 2019; Mutte, 2020). These observations indicate that an ancestral Proto‐C ARF could have duplicated and possibly acquired new functions in the common ancestor of the ZCC algal clade and the land plants (Fig 2; Martin‐Arevalillo et al , 2019).…”
Section: Giant Steps…mentioning
confidence: 99%
“…Accordingly, recent biochemical analysis shows that a Proto‐C‐ARF from Chlorokybus atmophyticus has a DNA‐binding specificity that differs from land plants A and B, and that has been maintained in class‐C ARFs along evolution (Martin‐Arevalillo et al , 2019). Presence of Proto‐C ARFs is common along the streptophyte algae with no specific pattern of appearance or retention, while Proto A/B‐ARFs have been found mainly in the ZCC clade (Martin‐Arevalillo et al , 2019; Mutte, 2020). These observations indicate that an ancestral Proto‐C ARF could have duplicated and possibly acquired new functions in the common ancestor of the ZCC algal clade and the land plants (Fig 2; Martin‐Arevalillo et al , 2019).…”
Section: Giant Steps…mentioning
confidence: 99%
“…Members regulate plant root development, as reviewed by Olatunji et al (2017) . TAA proteins likely originated during chlorophyte evolution ( Mutte, 2020 ), whereas the origin of YUCs is unclear. An ancient divergence into the clades YUC and sYUC occurred during charophyte evolution, while the sYUC clade disappeared in Arabidopsis ( Mutte, 2020 ).…”
Section: Comparative Genomics and Transcriptomics To Get Insights Into Lycophyte Root Developmentmentioning
confidence: 99%
“…TAA proteins likely originated during chlorophyte evolution ( Mutte, 2020 ), whereas the origin of YUCs is unclear. An ancient divergence into the clades YUC and sYUC occurred during charophyte evolution, while the sYUC clade disappeared in Arabidopsis ( Mutte, 2020 ). Furthermore, YUC genes belong to a deeply conserved auxin-dependent gene set with similar regulation patterns shared by all land plants ( Mutte et al, 2018 ).…”
Section: Comparative Genomics and Transcriptomics To Get Insights Into Lycophyte Root Developmentmentioning
confidence: 99%