Christine Beveridge
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Australian scientist and plant physiologist
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Why Is Christine Beveridge Influential?
(Suggest an Edit or Addition)According to Wikipedia, Christine Beveridge is an Australian scientist and plant physiologist whose research focuses on the shoot architecture of plants, shrubs and trees. She is an Australian Research Council Laureate Fellow in the School of Biological Sciences at the University of Queensland, Director of the Australian Research Council Centre of Excellence for Plant Success in Nature and Agriculture, and affiliated professor at the Centre for Crop Science at the Queensland Alliance for Agriculture and Food Innovation.
Christine Beveridge's Published Works
Number of citations in a given year to any of this author's works
Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author
Published Works
- Strigolactone inhibition of shoot branching (2008) (1806)
- MAX4 and RMS1 are orthologous dioxygenase-like genes that regulate shoot branching in Arabidopsis and pea. (2003) (573)
- Sugar demand, not auxin, is the initial regulator of apical dominance (2014) (377)
- Strigolactone Acts Downstream of Auxin to Regulate Bud Outgrowth in Pea and Arabidopsis1[C][OA] (2009) (371)
- F-box protein MAX2 has dual roles in karrikin and strigolactone signaling in Arabidopsis thaliana (2011) (364)
- Interactions between Auxin and Strigolactone in Shoot Branching Control1[C][OA] (2009) (357)
- Antagonistic Action of Strigolactone and Cytokinin in Bud Outgrowth Control1[W] (2011) (346)
- Strigolactone signaling is required for auxin-dependent stimulation of secondary growth in plants (2011) (308)
- Branching Genes Are Conserved across Species. Genes Controlling a Novel Signal in Pea Are Coregulated by Other Long-Distance Signals1 (2006) (296)
- Diverse roles of strigolactones in plant development. (2013) (295)
- Roles for Auxin, Cytokinin, and Strigolactone in Regulating Shoot Branching1[C][W][OA] (2009) (286)
- Strigolactones Suppress Adventitious Rooting in Arabidopsis and Pea1[C][W][OA] (2012) (285)
- The Branching Gene RAMOSUS1 Mediates Interactions among Two Novel Signals and Auxin in Pea (2005) (278)
- Strigolactones: discovery of the elusive shoot branching hormone. (2009) (229)
- New genes in the strigolactone-related shoot branching pathway. (2010) (225)
- Mutational analysis of branching in pea. Evidence that Rms1 and Rms5 regulate the same novel signal. (2001) (200)
- Apical dominance (2017) (190)
- Apical Dominance and Shoot Branching. Divergent Opinions or Divergent Mechanisms?1 (2006) (182)
- Strigolactones Are Involved in Root Response to Low Phosphate Conditions in Arabidopsis[W][OA] (2012) (179)
- The shoot controls zeatin riboside export from pea roots. Evidence from the branching mutant rms4 (1997) (170)
- LATERAL BRANCHING OXIDOREDUCTASE acts in the final stages of strigolactone biosynthesis in Arabidopsis (2016) (170)
- The Arabidopsis Ortholog of Rice DWARF27 Acts Upstream of MAX1 in the Control of Plant Development by Strigolactones1[C][W][OA] (2012) (169)
- The rms1 Mutant of Pea Has Elevated Indole-3-Acetic Acid Levels and Reduced Root-Sap Zeatin Riboside Content but Increased Branching Controlled by Graft-Transmissible Signal(s) (1997) (167)
- Branching in Pea (Action of Genes Rms3 and Rms4) (1996) (164)
- Axillary bud outgrowth: sending a message. (2006) (163)
- Auxin inhibition of decapitation-induced branching is dependent on graft-transmissible signals regulated by genes Rms1 and Rms2. (2000) (160)
- An Update on the Signals Controlling Shoot Branching. (2019) (154)
- Strigolactones: the new class of branching hormones (2010) (150)
- Long-distance signaling and the control of branching in the rms1 mutant of pea. (2001) (149)
- Reevaluating concepts of apical dominance and the control of axillary bud outgrowth. (1999) (132)
- Auxin Dynamics after Decapitation Are Not Correlated with the Initial Growth of Axillary Buds1 (2005) (131)
- Long-distance signalling and a mutational analysis of branching in pea (2000) (129)
- Strigolactones Stimulate Internode Elongation Independently of Gibberellins1[C][W] (2013) (121)
- Feedback Regulation of Xylem Cytokinin Content Is Conserved in Pea and Arabidopsis1[C][OA] (2007) (109)
- Ready, steady, go! A sugar hit starts the race to shoot branching. (2015) (108)
- Trehalose 6‐phosphate is involved in triggering axillary bud outgrowth in garden pea (Pisum sativum L.) (2017) (102)
- Axillary Meristem Development. Budding Relationships between Networks Controlling Flowering, Branching, and Photoperiod Responsiveness1 (2003) (99)
- Dynamics of strigolactone function and shoot branching responses in Pisum sativum. (2013) (88)
- Common regulatory themes in meristem development and whole-plant homeostasis. (2007) (87)
- Mutational analysis of branching in pea (1999) (83)
- Strigolactone Inhibition of Branching Independent of Polar Auxin Transport1[OPEN] (2015) (73)
- Pea Has Its Tendrils in Branching Discoveries Spanning a Century from Auxin to Strigolactones1 (2009) (69)
- The gigas mutant in pea is deficient in the floral stimulus (1996) (66)
- Axillary bud outgrowth in herbaceous shoots: how do strigolactones fit into the picture? (2010) (58)
- Strigolactones positively regulate chilling tolerance in pea and in Arabidopsis. (2018) (54)
- Regulation of shoot branching in Arabidopsis by trehalose 6-phosphate. (2020) (53)
- Models of long-distance transport: how is carrier-dependent auxin transport regulated in the stem? (2012) (53)
- Where to from here? The mechanisms enabling the movement of first instar caterpillars on whole plants using Helicoverpa armigera (Hübner) (2008) (50)
- Sugar suppresses the auxin-induced strigolactone pathway to promote bud outgrowth. (2019) (47)
- Computational Modeling and Molecular Physiology Experiments Reveal New Insights into Shoot Branching in Pea[C][W] (2009) (46)
- Effects of nitrogen supply on xylem cytokinin delivery, transpiration and leaf expansion of pea genotypes differing in xylem-cytokinin concentration. (2004) (46)
- A phenol/chloroform-free method to extract nucleic acids from recalcitrant, woody tropical species for gene expression and sequencing (2019) (41)
- The ability of plants to produce strigolactones affects rhizosphere community composition of fungi but not bacteria (2019) (40)
- Conditional Auxin Response and Differential Cytokinin Profiles in Shoot Branching Mutants1[C][W][OPEN] (2014) (39)
- Inhibition of strigolactones promotes adventitious root formation (2012) (37)
- Initial Bud Outgrowth Occurs Independent of Auxin Flow from Out of Buds1[OPEN] (2018) (36)
- Pea rms6 mutants exhibit increased basal branching. (2002) (33)
- Update on Apical Dominance and Shoot Branching Apical Dominance and Shoot Branching. Divergent Opinions or Divergent Mechanisms? (2006) (32)
- Phloem Transport of the Receptor DWARF14 Protein Is Required for Full Function of Strigolactones1 (2016) (29)
- Juvenility and Vegetative Phase Transition in Tropical/Subtropical Tree Crops (2019) (28)
- Translation of Strigolactones from Plant Hormone to Agriculture: Achievements, Future Perspectives, and Challenges. (2020) (28)
- Adventitious root formation in Grevillea (Proteaceae), an Australian native species (2006) (26)
- Hydroxyl carlactone derivatives are predominant strigolactones in Arabidopsis (2020) (26)
- Xylem-borne cytokinins: still in search of a role? (2006) (25)
- Sucrose promotes stem branching through cytokinin. (2021) (25)
- De novo transcriptome assembly reveals high transcriptional complexity in Pisum sativum axillary buds and shows rapid changes in expression of diurnally regulated genes (2017) (23)
- HEXOKINASE1 signalling promotes shoot branching and interacts with cytokinin and strigolactone pathways. (2021) (22)
- Mutant dn Influences Dry Matter Distribution, Assimilate Partitioning and Flowering in Lathyrus odoratus L. (1992) (21)
- Computational analysis of flowering in pea (Pisum sativum). (2009) (20)
- Additional Signalling Compounds are Required to Orchestrate Plant Development (2003) (20)
- Sugar availability suppresses the auxin-induced strigolactone pathway to promote bud outgrowth (2019) (20)
- Sucrose promotes D53 accumulation and tillering in rice. (2021) (18)
- Proceedings of the 4th International Workshop on Functional-Structural Plant Models (2004) (18)
- The ups and downs of signalling between root and shoot. (2000) (17)
- Scion control of miRNA abundance and tree maturity in grafted avocado (2019) (14)
- Molecular dissection of the pea shoot apical meristem* (2009) (14)
- Apical wilting and petiole xylem vessel diameter of the rms2 branching mutant of pea are shoot controlled and independent of a long-distance signal regulating branching. (2008) (14)
- Integration of the SMXL/D53 strigolactone signalling repressors in the model of shoot branching regulation in Pisum sativum. (2021) (13)
- De novo transcriptome assembly and annotation for gene discovery in avocado, macadamia and mango (2020) (12)
- IPA1: a direct target of SL signaling (2017) (12)
- Strigolactones and the Coordinated Development of Shoot and Root (2013) (12)
- Strigolactone signaling is required for auxin-dependent stimulation of secondary growth in plants (vol 108, pg 20242, 2011) (2012) (12)
- Strigolactones (2011) (11)
- Order of merit. (2007) (10)
- Rational Design of Novel Fluorescent Enzyme Biosensors for Direct Detection of Strigolactones. (2020) (10)
- Modelling selection response in plant-breeding programs using crop models as mechanistic gene-to-phenotype (CGM-G2P) multi-trait link functions (2020) (10)
- Adaptive divergence in shoot gravitropism creates hybrid sterility in an Australian wildflower (2019) (10)
- Strigolactones stimulate internode elongation (2013) (9)
- A Rapid Method for Quantifying RNA and Phytohormones From a Small Amount of Plant Tissue (2020) (9)
- Mutations at several loci suppress vegetative axillary meristem initiation in pea (2002) (8)
- Hormone physiology of pea mutants prevented from flowering by mutations gi or veg1. (2001) (7)
- ROOTING, QUANTIFICATION OF INDOLE-3-ACETIC ACID AND INDOLE-3-BUTYRIC ACID, AND IBA TRANSPORT IN GREVILLEA (2009) (5)
- Hormonal regulation of the BRC1-dependent strigolactone transcriptome involved in shoot branching responses (2020) (4)
- Propagation of Grevillea (2003) (4)
- Rational design of novel fluorescent enzyme biosensors for direct detection of strigolactones (2020) (4)
- Divergence in hormone signalling links local adaptation and hybrid failure (2019) (4)
- Investigations into the emergent properties of gene-to-phenotype networks across cycles of selection: A case study of shoot branching in plants (2022) (3)
- Divergence in hormone signaling drives local adaptation and intrinsic reproductive isolation (2020) (2)
- Ancestral sequence reconstruction of the CYP711 family reveals functional divergence in strigolactone biosynthetic enzymes associated with gene duplication events in monocot grasses (2022) (2)
- The role of trehalose 6-phosphate in shoot branching – local and non-local effects on axillary bud outgrowth in arabidopsis rosettes (2020) (2)
- Sucrose represses the expression of the strigolactone signalling gene D3/RMS4/MAX2 to promote tillering (2020) (2)
- Authorship and research higher degree training: Empowering students (2007) (2)
- Bud outgrowth of different sugarcane genotypes. (2004) (2)
- Sucrose promotes etiolated stem branching through activation of cytokinin accumulation followed by vacuolar invertase activity (2020) (1)
- Microrna regulation of avocado adventitious rooting for clonal rootstock propagation (2015) (1)
- A recessive branching mutant in pea with altered auxin homeostasis (1996) (1)
- Proceedings of the 4th International Workshop on Functional-Structural Plant Models, Montpellier France (2004) (1)
- Highlighting the commercial potential of RMS6 and RMS7 (2003) (1)
- Hypothesis-driven computational modelling of the shoot branching control network in pea (2007) (1)
- Thinking laterally about long-distance signaling (2002) (0)
- Adding a fifth gene to the ramosus branching model (1999) (0)
- De novo transcriptome assembly reveals high transcriptional complexity in Pisum sativum axillary buds and shows rapid changes in expression of diurnally regulated genes (2017) (0)
- Mutational analysis of branching in pea (Poster) (2001) (0)
- 143: Comparison of multiple myeloma patients treated with autologous stem cell transplant having received Thal Dex or VAD (2007) (0)
- Uptake and transport of indole-3-butyric acid in cuttings of Grevillea and Australian native species (2004) (0)
- Strigolactone-dependent gene regulation requires chromatin remodeling (2023) (0)
- Hypothesis driven modeling of long-distance signaling and plant development (2004) (0)
- Corrigendum: Models of long-distance transport: how is carrier-dependent auxin transport regulated in the stem? (2014) (0)
- Computational models for inquiry learning in biology (2007) (0)
- Strigolactones and plant development (2011) (0)
- Hypothesis driven modelling of long-distance signalling and plant development (2004) (0)
- Learnings from a century of apical dominance research. (2023) (0)
- Effects of ABA deficiency in the wilty pea (Pisum sativum L.) (2001) (0)
- The control of branching in pea: A triple signals crosstalk (2004) (0)
- RMS5 and RMS1 interact to control a novel graft-tansmissible signal(s) involved in the regulation of branching in pea (2000) (0)
- The rms 7 Mutant of Pea Has Elevated Indole-3-Acetic Acid Levels and Reduced Root-Sap Zeatin Riboside Content but (2002) (0)
- Characterisation of the genetic and hormonal controls of plants branching (2004) (0)
- Different plasticity of bud outgrowth at cauline and rosette nodes in Arabidopsis thaliana (2021) (0)
- MicroRNA control of flowering and annual crop cycle in tropical/subtropical horticultural trees (2018) (0)
- Integrative plant physiology: Dealing with plant development as the outcome of an integrated, coordinated and dynamic regulatory network (2001) (0)
- Scion control of miRNA abundance and tree maturity in grafted avocado (2019) (0)
- Auxin-independent effects of apical dominance induce changes in phytohormones correlated with bud outgrowth. (2023) (0)
- A mutational analysis of branching in pea identifies roles for novel long-distance signals (2000) (0)
- New theories on cytokinin homeostasis and apical dominance. III. Rms5 and a model for branching in pea (1997) (0)
- Photoperiod response, auxin and the regulation of pea architecture (1999) (0)
- Update on Meristem Function Axillary Meristem Development . Budding Relationships between Networks Controlling Flowering , Branching , and Photoperiod Responsiveness 1 (2003) (0)
- Genetic and hormonal control of bud outgrowth (2004) (0)
- Sucrose interacts with auxin in the burst of axillary buds (2016) (0)
- Shoot regulation of xylem sap cytokinin levels in pea (2001) (0)
- Evidence for indirect auxin action in the supression of axillary bud outgrowth (2000) (0)
- Mutational and molecular analysis of branching in pea (2001) (0)
- Long distance signalling in ramosus mutants of pea (1999) (0)
- De novo transcriptome assembly and annotation for gene discovery in avocado, macadamia and mango (2020) (0)
- RMS5 and RMS1 interact to control a novel graft-transmissible signal(s) involved in the regulation of branching in pea (Pisum sativum L.) (2000) (0)
- Avocado micropropagation: growth in leaps and bounds for a clonal rootstock propagation solution (2019) (0)
- Process for treatment of a superior plant in order to control its growth and architecture (2008) (0)
- HEXOKINASE1 interferes with cytokinin synthesis and strigolactone perception during sugar-induced shoot branching (2020) (0)
- Novel signals and IAA cross-talk (2004) (0)
- Acknowledgment of Plant Physiology Reviewers (2014) (0)
- Extraction and Quantification of Plant Hormones and RNA from Pea Axillary Buds. (2022) (0)
- Molecular characterisation of shoot branching control in pea (2002) (0)
- 2017 Reviewer Thank You (2018) (0)
- Identification of new potential downstream transcriptional targets of the strigolactone pathway including glucosinolate biosynthesis (2023) (0)
- Characterisation of the Genetic and Hormone controls of Branching in Petunia (2004) (0)
- Development of axillary shoot meristems, both vegetative and repoructive (2003) (0)
- Foreword to 'Legume Genomics and Genetics'. (2006) (0)
- Regulation of shoot meristem identity prior to flowering (2004) (0)
- 92: Outcomes associated with age in patients with malignant lymphoma receiving autologous stem cell transplant (2007) (0)
- Control of shoot branching in plants (2010) (0)
- 2009 Reviewer Thank You (2010) (0)
- Breaking and Flowering: The Budding Story of Macadamia (2020) (0)
- Proceedings of the 4th International workshop on functional-structural plant models (FSPM), abstracts of papers and posters, 7-11 June 2004, Montpellier, France (2004) (0)
- The control of phase transition in the vegetative Apical meristem of garden pea (2002) (0)
- Plant NGS data (2014) (0)
- Molecular physiology of branching in pea (2001) (0)
- Modelling physiological regulation of bud burst by sucrose and auxin (2016) (0)
- Auxin comes too little too late (2004) (0)
- Suppressors of the pea branching ramosus mutants (2007) (0)
- Endogenous levels of indole-3acetic acid and indloe-3butyric acid and rooting of Grevillea sp., an Austalian native species (2006) (0)
- Characterisation of the Genetic Controls of Branching in Petunia (2005) (0)
- RMS1, A primary auxin response gene that regulates a novel long-distance branching signal (2003) (0)
- Using the auxin responsive gene, GH3, to study the role of auxin in branching control (1999) (0)
- A phenol/chloroform-free method to extract nucleic acids from recalcitrant, woody tropical species for gene expression and sequencing (2019) (0)
- Auxin-independent effects of apical dominance induce temporal changes in phytohormones (2022) (0)
- Molecular physiology of branching in pea-focus on RMSI, a gene controlling a novel branching signal (2001) (0)
- Cytokinins may also be synthesised in shoot: evidence from the branching mutant rms4 (1999) (0)
- The role of PsMAX1 in the RMS branching network in pea (2006) (0)
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