Related references
Note: Only part of the references are listed.Changes in the allocation of endogenous strigolactone improve plant biomass production on phosphate-poor soils
Guowei Liu et al.
NEW PHYTOLOGIST (2018)
Strigolactone-triggered stomatal closure requires hydrogen peroxide synthesis and nitric oxide production in an abscisic acid-independent manner
Shuo Lv et al.
NEW PHYTOLOGIST (2018)
Strigolactone biology: genes, functional genomics, epigenetics and applications
Abdullah Makhzoum et al.
CRITICAL REVIEWS IN BIOTECHNOLOGY (2017)
Insights into the formation of carlactone from in-depth analysis of the CCD8-catalyzed reactions
Mark Bruno et al.
FEBS LETTERS (2017)
The perception of strigolactones in vascular plants
Shelley Lumba et al.
NATURE CHEMICAL BIOLOGY (2017)
Recent advances in the synthesis of analogues of phytohormones strigolactones with ring-closing metathesis as a key step
Chiara Lombardi et al.
ORGANIC & BIOMOLECULAR CHEMISTRY (2017)
Mutation in sorghum LOW GERMINATION STIMULANT 1 alters strigolactones and causes Striga resistance
Daniel Gobena et al.
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA (2017)
Strigolactones in Plant Interactions with Beneficial and Detrimental Organisms: The Yin and Yang
Juan A. Lopez-Raez et al.
TRENDS IN PLANT SCIENCE (2017)
The karrikin receptor KAI2 promotes drought resistance in Arabidopsis thaliana
Weiqiang Li et al.
PLOS GENETICS (2017)
DWARF14, A Receptor Covalently Linked with the Active Form of Strigolactones, Undergoes Strigolactone-Dependent Degradation in Rice
Qingliang Hu et al.
FRONTIERS IN PLANT SCIENCE (2017)
IPA1 functions as a downstream transcription factor repressed by D53 in strigolactone signaling in rice
Xiaoguang Song et al.
CELL RESEARCH (2017)
Evolution of strigolactone receptors by gradual neo-functionalization of KAI2 paralogues
Rohan Bythell-Douglas et al.
BMC BIOLOGY (2017)
The role of biostimulants and bioeffectors as alleviators of abiotic stress in crop plants
Michael James Van Oosten et al.
CHEMICAL AND BIOLOGICAL TECHNOLOGIES IN AGRICULTURE (2017)
A new look at stress: abscisic acid patterns and dynamics at high-resolution
Alexander M. Jones
NEW PHYTOLOGIST (2016)
Arbuscular mycorrhizal symbiosis induces strigolactone biosynthesis under drought and improves drought tolerance in lettuce and tomato
Juan Manuel Ruiz-Lozano et al.
PLANT CELL AND ENVIRONMENT (2016)
Chemical manipulation of plant water use
Jonathan D. M. Helander et al.
BIOORGANIC & MEDICINAL CHEMISTRY (2016)
Strigolactone derivatives for potential crop enhancement applications
Claudio Screpanti et al.
BIOORGANIC & MEDICINAL CHEMISTRY LETTERS (2016)
The Response of the Root Proteome to the Synthetic Strigolactone GR24 in Arabidopsis
Alan Walton et al.
MOLECULAR & CELLULAR PROTEOMICS (2016)
DWARF14 is a non-canonical hormone receptor for strigolactone
Ruifeng Yao et al.
NATURE (2016)
An histidine covalent receptor and butenolide complex mediates strigolactone perception
Alexandre de Saint Germain et al.
NATURE CHEMICAL BIOLOGY (2016)
ORA47 (octadecanoid-responsive AP2/ERF-domain transcription factor 47) regulates jasmonic acid and abscisic acid biosynthesis and signaling through binding to a novel cis-element
Hsing-Yu Chen et al.
NEW PHYTOLOGIST (2016)
Low levels of strigolactones in roots as a component of the systemic signal of drought stress in tomato
Ivan Visentin et al.
NEW PHYTOLOGIST (2016)
Strigolactones and parasitic weed management 50 years after the discovery of the first natural strigolactone strigol: status and outlook
Claudio Screpanti et al.
PEST MANAGEMENT SCIENCE (2016)
Suicidal germination for parasitic weed control
Binne Zwanenburg et al.
PEST MANAGEMENT SCIENCE (2016)
Phloem Transport of the Receptor DWARF14 Protein Is Required for Full Function of Strigolactones
Hiromu Kameoka et al.
PLANT PHYSIOLOGY (2016)
LATERAL BRANCHING OXIDOREDUCTASE acts in the final stages of strigolactone biosynthesis in Arabidopsis
Philip B. Brewer et al.
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA (2016)
Evidence that KARRIKIN-INSENSITIVE2 (KAI2) Receptors may Perceive an Unknown Signal that is not Karrikin or Strigolactone
Caitlin E. Conn et al.
FRONTIERS IN PLANT SCIENCE (2016)
Strigolactones, a Novel Carotenoid-Derived Plant Hormone
Salim Al-Babili et al.
ANNUAL REVIEW OF PLANT BIOLOGY, VOL 66 (2015)
Asymmetric Localizations of the ABC Transporter PaPDR1 Trace Paths of Directional Strigolactone Transport
Joelle Sasse et al.
CURRENT BIOLOGY (2015)
Strigolactone biosynthesis and signaling in plant development
Mauricio Lopez-Obando et al.
DEVELOPMENT (2015)
Strigolactones are transported from roots to shoots, although not through the xylem
Xiaonan Xie et al.
JOURNAL OF PESTICIDE SCIENCE (2015)
SMAX1-LIKE/D53 Family Members Enable Distinct MAX2-Dependent Responses to Strigolactones and Karrikins in Arabidopsis
Ishwarya Soundappan et al.
PLANT CELL (2015)
Strigolactone Regulates Leaf Senescence in Concert with Ethylene in Arabidopsis
Hiroaki Ueda et al.
PLANT PHYSIOLOGY (2015)
Osmotic stress represses strigolactone biosynthesis in Lotus japonicus roots: exploring the interaction between strigolactones and ABA under abiotic stress
Junwei Liu et al.
PLANTA (2015)
Signalling and responses to strigolactones and karrikins
Steven M. Smith et al.
CURRENT OPINION IN PLANT BIOLOGY (2014)
New Strigolactone Analogs as Plant Hormones with Low Activities in the Rhizosphere
Francois-Didier Boyer et al.
MOLECULAR PLANT (2014)
Do strigolactones contribute to plant defence?
Rocio Torres-Vera et al.
MOLECULAR PLANT PATHOLOGY (2014)
Rice cytochrome P450 MAX1 homologs catalyze distinct steps in strigolactone biosynthesis
Yanxia Zhang et al.
NATURE CHEMICAL BIOLOGY (2014)
Strigolactone Promotes Degradation of DWARF14, an α/β Hydrolase Essential for Strigolactone Signaling in Arabidopsis
Florian Chevalier et al.
PLANT CELL (2014)
Regulation of Drought Tolerance by the F-Box Protein MAX2 in Arabidopsis1[C][W][OPEN]
Qingyun Bu et al.
PLANT PHYSIOLOGY (2014)
Strigolactone Hormones and Their Stereoisomers Signal through Two Related Receptor Proteins to Induce Different Physiological Responses in Arabidopsis
Adrian Scaffidi et al.
PLANT PHYSIOLOGY (2014)
Positive regulatory role of strigolactone in plant responses to drought and salt stress
Chien Van Ha et al.
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA (2014)
Carlactone is converted to carlactonoic acid by MAX1 in Arabidopsis and its methyl ester can directly interact with AtD14 in vitro
Satoko Abe et al.
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA (2014)
Carlactone is an endogenous biosynthetic precursor for strigolactones
Yoshiya Seto et al.
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA (2014)
Crystal structures of two phytohormone signal-transducing α/β hydrolases: karrikin-signaling KAI2 and strigolactone-signaling DWARF14
Li-Hua Zhao et al.
CELL RESEARCH (2013)
The Role of Strigolactones in Nutrient-Stress Responses in Plants
Marek Marzec et al.
INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES (2013)
Selective Mimics of Strigolactone Actions and Their Potential Use for Controlling Damage Caused by Root Parasitic Weeds
Kosuke Fukui et al.
MOLECULAR PLANT (2013)
Diverse Roles of Strigolactones in Plant Development
Philip B. Brewer et al.
MOLECULAR PLANT (2013)
DWARF 53 acts as a repressor of strigolactone signalling in rice
Liang Jiang et al.
NATURE (2013)
D14-SCFD3-dependent degradation of D53 regulates strigolactone signalling
Feng Zhou et al.
NATURE (2013)
Signaling role of Strigolactones at the interface between plants, (micro)organisms, and a changing environment
Junwei Liu et al.
JOURNAL OF PLANT INTERACTIONS (2013)
Molecular mechanism of strigolactone perception by DWARF14
Hidemitsu Nakamura et al.
NATURE COMMUNICATIONS (2013)
Strigolactones: Destruction-Dependent Perception?
Steven M. Smith et al.
CURRENT BIOLOGY (2012)
DAD2 Is an α/β Hydrolase Likely to Be Involved in the Perception of the Plant Branching Hormone, Strigolactone
Cyril Hamiaux et al.
CURRENT BIOLOGY (2012)
Specialisation within the DWARF14 protein family confers distinct responses to karrikins and strigolactones in Arabidopsis
Mark T. Waters et al.
DEVELOPMENT (2012)
PrCYP707A1, an ABA catabolic gene, is a key component of Phelipanche ramosa seed germination in response to the strigolactone analogue GR24
Marc-Marie Lechat et al.
JOURNAL OF EXPERIMENTAL BOTANY (2012)
A petunia ABC protein controls strigolactone-dependent symbiotic signalling and branching
Tobias Kretzschmar et al.
NATURE (2012)
Thermoinhibition Uncovers a Role for Strigolactones in Arabidopsis Seed Germination
Shigeo Toh et al.
PLANT AND CELL PHYSIOLOGY (2012)
Agronomic, breeding, and biotechnological approaches to parasitic plant management through manipulation of germination stimulant levels in agricultural soils
M. Fernandez-Aparicio et al.
BOTANY (2011)
Signal integration in the control of shoot branching
Malgorzata A. Domagalska et al.
NATURE REVIEWS MOLECULAR CELL BIOLOGY (2011)
Strigolactones Are Transported through the Xylem and Play a Key Role in Shoot Architectural Response to Phosphate Deficiency in Nonarbuscular Mycorrhizal Host Arabidopsis
Wouter Kohlen et al.
PLANT PHYSIOLOGY (2011)
Does abscisic acid affect strigolactone biosynthesis?
Juan A. Lopez-Raez et al.
NEW PHYTOLOGIST (2010)
Strigolactones as Germination Stimulants for Root Parasitic Plants
Koichi Yoneyama et al.
PLANT AND CELL PHYSIOLOGY (2010)
Structural Requirements of Strigolactones for Hyphal Branching in AM Fungi
Kohki Akiyama et al.
PLANT AND CELL PHYSIOLOGY (2010)
SlCCD7 controls strigolactone biosynthesis, shoot branching and mycorrhiza-induced apocarotenoid formation in tomato
Jonathan T. Vogel et al.
PLANT JOURNAL (2010)
The ubiquitin-proteasome system regulates plant hormone signaling
Aaron Santner et al.
PLANT JOURNAL (2010)
Modeling Auxin-regulated Development
Pawel Krupinski et al.
COLD SPRING HARBOR PERSPECTIVES IN BIOLOGY (2010)
Total Synthesis of (±)-5-Deoxystrigol via Reductive Carbon-Carbon Bond Formation
Mitsuru Shoji et al.
JOURNAL OF ORGANIC CHEMISTRY (2009)
d14, a Strigolactone-Insensitive Mutant of Rice, Shows an Accelerated Outgrowth of Tillers
Tomotsugu Arite et al.
PLANT AND CELL PHYSIOLOGY (2009)
Observations on the current status of Orobanche and Striga problems worldwide
Chris Parker
PEST MANAGEMENT SCIENCE (2009)
Inhibition of shoot branching by new terpenoid plant hormones
Mikihisa Umehara et al.
NATURE (2008)
Strigolactone inhibition of shoot branching
Victoria Gomez-Roldan et al.
NATURE (2008)
A hydraulic signal in root-to-shoot signalling of water shortage
Alexander Christmann et al.
PLANT JOURNAL (2007)
Branching genes are conserved across species.: Genes controlling a novel signal in pea are coregulated by other long-distance signals
Xenie Johnson et al.
PLANT PHYSIOLOGY (2006)
Plant sesquiterpenes induce hyphal branching in arbuscular mycorrhizal fungi
K Akiyama et al.
NATURE (2005)
MAX4 and RMS1 are orthologous dioxygenase-like genes that regulate shoot branching in Arabidopsis and pea
K Sorefan et al.
GENES & DEVELOPMENT (2003)
Long-distance signaling and the control of branching in the rms1 mutant of peal
E Foo et al.
PLANT PHYSIOLOGY (2001)