Lotus japonicus karrikin receptors display divergent ligand-binding specificities and organ-dependent redundancy
Published 2020 View Full Article
- Home
- Publications
- Publication Search
- Publication Details
Title
Lotus japonicus karrikin receptors display divergent ligand-binding specificities and organ-dependent redundancy
Authors
Keywords
Arabidopsis thaliana, Hypocotyl, Legumes, Flowering plants, Tryptophan, Rice, Seed germination, Seedlings
Journal
PLoS Genetics
Volume 16, Issue 12, Pages e1009249
Publisher
Public Library of Science (PLoS)
Online
2020-12-29
DOI
10.1371/journal.pgen.1009249
References
Ask authors/readers for more resources
Related references
Note: Only part of the references are listed.- Strigolactone and Karrikin Signaling Pathways Elicit Ubiquitination and Proteolysis of SMXL2 to Regulate Hypocotyl Elongation in Arabidopsis thaliana
- (2020) Lei Wang et al. PLANT CELL
- Structure-Function Analysis of SMAX1 Reveals Domains that Mediate its Karrikin-Induced Proteolysis and Interaction with the Receptor KAI2
- (2020) Aashima Khosla et al. PLANT CELL
- The negative regulator SMAX1 controls mycorrhizal symbiosis and strigolactone biosynthesis in rice
- (2020) Jeongmin Choi et al. Nature Communications
- The karrikin signaling regulator SMAX1 controlsLotus japonicusroot and root hair development by suppressing ethylene biosynthesis
- (2020) Samy Carbonnel et al. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
- Impairment in karrikin but not strigolactone sensing enhances root skewing in Arabidopsis thaliana
- (2019) Stéphanie M. Swarbreck et al. PLANT JOURNAL
- Strigolactone perception and deactivation by a hydrolase receptor DWARF14
- (2019) Yoshiya Seto et al. Nature Communications
- Structural Basis of Karrikin and Non-natural Strigolactone Perception in Physcomitrella patens
- (2019) Marco Bürger et al. Cell Reports
- Quantification of karrikins in smoke water using ultra-high performance liquid chromatography–tandem mass spectrometry
- (2019) Jakub Hrdlička et al. Plant Methods
- SMAX1/SMXL2 regulate root and root hair development downstream of KAI2-mediated signalling in Arabidopsis
- (2019) José Antonio Villaécija-Aguilar et al. PLoS Genetics
- Contalactone, a contaminant formed during chemical synthesis of the strigolactone reference GR24 is also a strigolactone mimic
- (2019) Alexandre de Saint Germain et al. PHYTOCHEMISTRY
- MEGA X: Molecular Evolutionary Genetics Analysis across Computing Platforms
- (2018) Sudhir Kumar et al. MOLECULAR BIOLOGY AND EVOLUTION
- An allelic series at the KARRIKIN INSENSITIVE2 locus of Arabidopsis thaliana decouples ligand hydrolysis and receptor degradation from downstream signalling
- (2018) Jiaren Yao et al. PLANT JOURNAL
- Stability of strigolactone analog GR24 toward nucleophiles
- (2017) Rostislav Halouzka et al. PEST MANAGEMENT SCIENCE
- The karrikin receptor KAI2 promotes drought resistance in Arabidopsis thaliana
- (2017) Weiqiang Li et al. PLoS Genetics
- A CCaMK-CYCLOPS-DELLA Complex Activates Transcription of RAM1 to Regulate Arbuscule Branching
- (2016) Priya Pimprikar et al. CURRENT BIOLOGY
- W-IQ-TREE: a fast online phylogenetic tool for maximum likelihood analysis
- (2016) Jana Trifinopoulos et al. NUCLEIC ACIDS RESEARCH
- TheLORE1insertion mutant resource
- (2016) Anna Małolepszy et al. PLANT JOURNAL
- Expression of MAX2 under SCARECROW promoter enhances the strigolactone/MAX2 dependent response of Arabidopsis roots to low-phosphate conditions
- (2016) Ortal Madmon et al. PLANTA
- Structural basis of unique ligand specificity of KAI2-like protein from parasitic weed Striga hermonthica
- (2016) Yuqun Xu et al. Scientific Reports
- Strigolactones spatially influence lateral root development through the cytokinin signaling network
- (2015) Lingxiang Jiang et al. JOURNAL OF EXPERIMENTAL BOTANY
- Substrate-Induced Degradation of the α/β-Fold Hydrolase KARRIKIN INSENSITIVE2 Requires a Functional Catalytic Triad but Is Independent of MAX2
- (2015) Mark T. Waters et al. Molecular Plant
- ASelaginella moellendorffiiOrtholog of KARRIKIN INSENSITIVE2 Functions in Arabidopsis Development but Cannot Mediate Responses to Karrikins or Strigolactones
- (2015) Mark T. Waters et al. PLANT CELL
- SMAX1-LIKE/D53 Family Members Enable Distinct MAX2-Dependent Responses to Strigolactones and Karrikins in Arabidopsis
- (2015) Ishwarya Soundappan et al. PLANT CELL
- Strigolactone Signaling in Arabidopsis Regulates Shoot Development by Targeting D53-Like SMXL Repressor Proteins for Ubiquitination and Degradation
- (2015) Lei Wang et al. PLANT CELL
- Convergent evolution of strigolactone perception enabled host detection in parasitic plants
- (2015) C. E. Conn et al. SCIENCE
- Rice perception of symbiotic arbuscular mycorrhizal fungi requires the karrikin receptor complex
- (2015) C. Gutjahr et al. SCIENCE
- Structure-function analysis identifies highly sensitive strigolactone receptors in Striga
- (2015) S. Toh et al. SCIENCE
- Detection of Parasitic Plant Suicide Germination Compounds Using a High-Throughput Arabidopsis HTL/KAI2 Strigolactone Perception System
- (2014) Shigeo Toh et al. CHEMISTRY & BIOLOGY
- From lateral root density to nodule number, the strigolactone analogue GR24 shapes the root architecture of Medicago truncatula
- (2014) Carolien De Cuyper et al. JOURNAL OF EXPERIMENTAL BOTANY
- Strigolactone Hormones and Their Stereoisomers Signal through Two Related Receptor Proteins to Induce Different Physiological Responses in Arabidopsis
- (2014) A. Scaffidi et al. PLANT PHYSIOLOGY
- A Modular Plasmid Assembly Kit for Multigene Expression, Gene Silencing and Silencing Rescue in Plants
- (2014) Andreas Binder et al. PLoS One
- Carlactone is converted to carlactonoic acid by MAX1 inArabidopsisand its methyl ester can directly interact with AtD14 in vitro
- (2014) Satoko Abe et al. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
- Crystal structures of two phytohormone signal-transducing α/β hydrolases: karrikin-signaling KAI2 and strigolactone-signaling DWARF14
- (2013) Li-Hua Zhao et al. CELL RESEARCH
- Structures of D14 and D14L in the strigolactone and karrikin signaling pathways
- (2013) Megumi Kagiyama et al. GENES TO CELLS
- DWARF 53 acts as a repressor of strigolactone signalling in rice
- (2013) Liang Jiang et al. NATURE
- D14–SCFD3-dependent degradation of D53 regulates strigolactone signalling
- (2013) Feng Zhou et al. NATURE
- Smoke-derived karrikin perception by the / -hydrolase KAI2 from Arabidopsis
- (2013) Y. Guo et al. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
- Regulation of Seed Germination and Seedling Growth by Chemical Signals from Burning Vegetation
- (2012) David C. Nelson et al. Annual Review of Plant Biology
- DAD2 Is an α/β Hydrolase Likely to Be Involved in the Perception of the Plant Branching Hormone, Strigolactone
- (2012) Cyril Hamiaux et al. CURRENT BIOLOGY
- Specialisation within the DWARF14 protein family confers distinct responses to karrikins and strigolactones in Arabidopsis
- (2012) M. T. Waters et al. DEVELOPMENT
- Strigolactones Are Involved in Root Response to Low Phosphate Conditions in Arabidopsis
- (2012) E. Mayzlish-Gati et al. PLANT PHYSIOLOGY
- Genome-wide LORE1 retrotransposon mutagenesis and high-throughput insertion detection in Lotus japonicus
- (2011) Dorian Fabian Urbański et al. PLANT JOURNAL
- Establishment of a Lotus japonicus gene tagging population using the exon-targeting endogenous retrotransposon LORE1
- (2011) Eigo Fukai et al. PLANT JOURNAL
- F-box protein MAX2 has dual roles in karrikin and strigolactone signaling in Arabidopsis thaliana
- (2011) D. C. Nelson et al. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
- Strigolactone signaling is required for auxin-dependent stimulation of secondary growth in plants
- (2011) J. Agusti et al. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
- Strigolactones are positive regulators of light-harvesting genes in tomato
- (2010) Einav Mayzlish-Gati et al. JOURNAL OF EXPERIMENTAL BOTANY
- HYPOSENSITIVE TO LIGHT, an Alpha/Beta Fold Protein, Acts Downstream of ELONGATED HYPOCOTYL 5 to Regulate Seedling De-Etiolation
- (2010) Xiao-Dong Sun et al. Molecular Plant
- Physiological Effects of the Synthetic Strigolactone Analog GR24 on Root System Architecture in Arabidopsis: Another Belowground Role for Strigolactones?
- (2010) C. Ruyter-Spira et al. PLANT PHYSIOLOGY
- Karrikins enhance light responses during germination and seedling development in Arabidopsis thaliana
- (2010) D. C. Nelson et al. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
- Efficient synthesis of karrikinolide via Cu(II)-catalyzed lactonization
- (2010) Kazumasa Matsuo et al. TETRAHEDRON
- Feedback-Regulation of Strigolactone Biosynthetic Genes and Strigolactone-Regulated Genes in Arabidopsis
- (2009) Kiyoshi MASHIGUCHI et al. BIOSCIENCE BIOTECHNOLOGY AND BIOCHEMISTRY
- Inhibition of shoot branching by new terpenoid plant hormones
- (2008) Mikihisa Umehara et al. NATURE
- Strigolactone inhibition of shoot branching
- (2008) Victoria Gomez-Roldan et al. NATURE
- Tomato strigolactones are derived from carotenoids and their biosynthesis is promoted by phosphate starvation
- (2008) Juan Antonio López-Ráez et al. NEW PHYTOLOGIST
- Combination of Novel Green Fluorescent Protein Mutant TSapphire and DsRed Variant mOrange to Set Up a Versatile in Planta FRET-FLIM Assay
- (2008) V. Bayle et al. PLANT PHYSIOLOGY
- Karrikins Discovered in Smoke Trigger Arabidopsis Seed Germination by a Mechanism Requiring Gibberellic Acid Synthesis and Light
- (2008) D. C. Nelson et al. PLANT PHYSIOLOGY
Create your own webinar
Interested in hosting your own webinar? Check the schedule and propose your idea to the Peeref Content Team.
Create NowAsk a Question. Answer a Question.
Quickly pose questions to the entire community. Debate answers and get clarity on the most important issues facing researchers.
Get Started