2020
DOI: 10.1590/1678-4685-gmb-2019-0221
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YUCCA4 overexpression modulates auxin biosynthesis and transport and influences plant growth and development via crosstalk with abscisic acid in Arabidopsis thaliana

Abstract: Auxin regulates a plethora of events during plant growth and development, acting in concert with other phytohormones. YUCCA genes encode flavin monooxygenases that function in tryptophan-dependent auxin biosynthesis. To understand the contribution of the YUCCA4 (YUC4) gene on auxin homeostasis, plant growth and interaction with abscisic acid (ABA) signaling, 35S::YUC4 seedlings were generated, which showed elongated hypocotyls with hyponastic leaves and changes in root system architecture that correlate with e… Show more

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Cited by 25 publications
(18 citation statements)
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“…These data support the importance of auxin synthesized in the shoot apex and cotyledons and the indispensable role of auxin transport during clathrin‐mediated hypocotyl elongation. Similarly, inhibition of auxin transport reduces YUCCA overexpression‐induced hypocotyl elongation, supporting the function of auxin transport in this process (Munguia‐Rodriguez et al, 2020).…”
Section: Discussionmentioning
confidence: 76%
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“…These data support the importance of auxin synthesized in the shoot apex and cotyledons and the indispensable role of auxin transport during clathrin‐mediated hypocotyl elongation. Similarly, inhibition of auxin transport reduces YUCCA overexpression‐induced hypocotyl elongation, supporting the function of auxin transport in this process (Munguia‐Rodriguez et al, 2020).…”
Section: Discussionmentioning
confidence: 76%
“…Clathrin participates in numerous auxin‐regulated processes, including embryogenesis, root growth, and cell polarity and elongation (Chen et al, 2011; Kitakura et al, 2011; Mravec et al, 2011; Wang et al, 2013), which led us to focus on the function of auxin in clathrin‐mediated hypocotyl growth. Increased auxin biosynthesis and application of exogenous pro‐auxins enhance hypocotyl elongation (Smalle et al, 1997; Savaldi‐Goldstein et al, 2008; Challa et al, 2016; Munguia‐Rodriguez et al, 2020). Although transcription of the auxin biosynthesis‐related gene YUCCA8 increased, overall auxin content and TAA1 expression decreased in clc2‐1 clc3‐1 mutant hypocotyls compared to the wild type (Figure S2B).…”
Section: Discussionmentioning
confidence: 99%
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“…In addition, the loss of function mutant of AUXIN RESPONSE FACTOR 2 (ARF2) (arf2-101), an auxin transcription repressor that also acts as a negative regulator of ABA signaling, is hypersensitive to ABA and has shorter PRs, whereas the ARF2 OE has longer PRs than the mutant arf2-101, under ABA exogenous applications [143]. Furthermore, the OE of the auxin biosynthesis gene YUCCA 4 (YUC4) has shorter PRs than WT plants under ABA exogenous application [144] (Figure 2A and Table S2).…”
Section: Interaction Between Different Phytohormones and Exogenous Abmentioning
confidence: 99%
“…The relative intensities of Col-0, ABA and cyp707a1,3 represent the membrane intensities normalized to their original RFP intensities (post-conversion). -Rodriguez et al (2020) proved that excess auxin content may confer oversensitivity to root elongation induced by ABA; Thole et al (2014) had demonstrated that root elongation in both aux1 and pin2 is insensitive to ABA. These together demonstrated that ABA could affect root growth through modulating auxin transport, and is in line with our main conclusions that ABA regulates root growth trajectory via auxin transporter (PIN2; Figure 10).…”
Section: Discussionmentioning
confidence: 99%