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Literature DB >> 30936248

Pinstatic Acid Promotes Auxin Transport by Inhibiting PIN Internalization.

Akihiro Oochi¹, Jakub Hajny^2,3, Kosuke Fukui¹, Yukio Nakao¹, Michelle Gallei², Mussa Quareshy⁴, Koji Takahashi^5,6, Toshinori Kinoshita^5,6, Sigurd Ramans Harborough⁷, Stefan Kepinski⁷, Hiroyuki Kasahara^8,9, Richard Napier⁴, Jiří Friml², Ken-Ichiro Hayashi¹⁰.

Abstract

Polar auxin transport plays a pivotal role in plant growth and development. PIN-FORMED (PIN) auxin efflux carriers regulate directional auxin movement by establishing local auxin maxima, minima, and gradients that drive multiple developmental processes and responses to environmental signals. Auxin has been proposed to modulate its own transport by regulating subcellular PIN trafficking via processes such as clathrin-mediated PIN endocytosis and constitutive recycling. Here, we further investigated the mechanisms by which auxin affects PIN trafficking by screening auxin analogs and identified pinstatic acid (PISA) as a positive modulator of polar auxin transport in Arabidopsis (Arabidopsis thaliana). PISA had an auxin-like effect on hypocotyl elongation and adventitious root formation via positive regulation of auxin transport. PISA did not activate SCFTIR1/AFB signaling and yet induced PIN accumulation at the cell surface by inhibiting PIN internalization from the plasma membrane. This work demonstrates PISA to be a promising chemical tool to dissect the regulatory mechanisms behind subcellular PIN trafficking and auxin transport.

Entities: Chemical Gene Species

Year: 2019 PMID： 30936248 PMCID： PMC6548234 DOI： 10.1104/pp.19.00201

Source DB: PubMed Journal: Plant Physiol ISSN： 0032-0889 Impact factor: 8.340

55 in total

1. Alkoxy-auxins are selective inhibitors of auxin transport mediated by PIN, ABCB, and AUX1 transporters.

Authors: Etsuko Tsuda; Haibing Yang; Takeshi Nishimura; Yukiko Uehara; Tatsuya Sakai; Masahiko Furutani; Tomokazu Koshiba; Masakazu Hirose; Hiroshi Nozaki; Angus S Murphy; Ken-ichiro Hayashi
Journal: J Biol Chem Date: 2010-11-17 Impact factor: 5.157

2. ADP-ribosylation factor machinery mediates endocytosis in plant cells.

Authors: Satoshi Naramoto; Jürgen Kleine-Vehn; Stéphanie Robert; Masaru Fujimoto; Tomoko Dainobu; Tomasz Paciorek; Takashi Ueda; Akihiko Nakano; Marc C E Van Montagu; Hiroo Fukuda; Jirí Friml
Journal: Proc Natl Acad Sci U S A Date: 2010-11-30 Impact factor: 11.205

3. ARF7 and ARF19 regulate lateral root formation via direct activation of LBD/ASL genes in Arabidopsis.

Authors: Yoko Okushima; Hidehiro Fukaki; Makoto Onoda; Athanasios Theologis; Masao Tasaka
Journal: Plant Cell Date: 2007-01-26 Impact factor: 11.277

4. Intracellular trafficking and proteolysis of the Arabidopsis auxin-efflux facilitator PIN2 are involved in root gravitropism.

Authors: Lindy Abas; René Benjamins; Nenad Malenica; Tomasz Paciorek; Justyna Wiśniewska; Justyna Wirniewska; Jeanette C Moulinier-Anzola; Tobias Sieberer; Jirí Friml; Christian Luschnig
Journal: Nat Cell Biol Date: 2006-02-19 Impact factor: 28.824

5. Clathrin mediates endocytosis and polar distribution of PIN auxin transporters in Arabidopsis.

Authors: Saeko Kitakura; Steffen Vanneste; Stéphanie Robert; Christian Löfke; Thomas Teichmann; Hirokazu Tanaka; Jirí Friml
Journal: Plant Cell Date: 2011-05-06 Impact factor: 11.277

6. Rational design of an auxin antagonist of the SCF(TIR1) auxin receptor complex.

Authors: Ken-ichiro Hayashi; Joshua Neve; Masakazu Hirose; Atsuhito Kuboki; Yukihisa Shimada; Stefan Kepinski; Hiroshi Nozaki
Journal: ACS Chem Biol Date: 2012-01-24 Impact factor: 5.100

Review 7. Auxin biosynthesis and storage forms.

Authors: David A Korasick; Tara A Enders; Lucia C Strader
Journal: J Exp Bot Date: 2013-04-11 Impact factor: 6.992

8. Salicylic acid interferes with clathrin-mediated endocytic protein trafficking.

Authors: Yunlong Du; Ricardo Tejos; Martina Beck; Ellie Himschoot; Hongjiang Li; Silke Robatzek; Steffen Vanneste; Jirí Friml
Journal: Proc Natl Acad Sci U S A Date: 2013-04-23 Impact factor: 11.205

Review 9. Current aspects of auxin biosynthesis in plants.

Authors: Hiroyuki Kasahara
Journal: Biosci Biotechnol Biochem Date: 2015-09-12 Impact factor: 2.043

10. The PINOID protein kinase regulates organ development in Arabidopsis by enhancing polar auxin transport.

Authors: R Benjamins; A Quint; D Weijers; P Hooykaas; R Offringa
Journal: Development Date: 2001-10 Impact factor: 6.868

5 in total

1. Pinstatic Acid as a Dissection Tool-Kit for Transcriptional and Nontranscriptional Auxin Responses.

Authors: Magdalena M Julkowska
Journal: Plant Physiol Date: 2019-06 Impact factor: 8.340

2. Chemical inhibition of the auxin inactivation pathway uncovers the roles of metabolic turnover in auxin homeostasis.

Authors: Kosuke Fukui; Kazushi Arai; Yuka Tanaka; Yuki Aoi; Vandna Kukshal; Joseph M Jez; Martin F Kubes; Richard Napier; Yunde Zhao; Hiroyuki Kasahara; Ken-Ichiro Hayashi
Journal: Proc Natl Acad Sci U S A Date: 2022-08-01 Impact factor: 12.779

Review 3. Fluorescent biosensors illuminating plant hormone research.

Authors: Martin Balcerowicz; Kartika N Shetty; Alexander M Jones
Journal: Plant Physiol Date: 2021-10-05 Impact factor: 8.005

4. Systematic analysis of specific and nonspecific auxin effects on endocytosis and trafficking.

Authors: Madhumitha Narasimhan; Michelle Gallei; Shutang Tan; Alexander Johnson; Inge Verstraeten; Lanxin Li; Lesia Rodriguez; Huibin Han; Ellie Himschoot; Ren Wang; Steffen Vanneste; Judit Sánchez-Simarro; Fernando Aniento; Maciek Adamowski; Jiří Friml
Journal: Plant Physiol Date: 2021-06-11 Impact factor: 8.005

Review 5. New Wine in an Old Bottle: Utilizing Chemical Genetics to Dissect Apical Hook Development.

Authors: Yalikunjiang Aizezi; Yinpeng Xie; Hongwei Guo; Kai Jiang
Journal: Life (Basel) Date: 2022-08-22

5 in total