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Showing 1–12 of 12 results
Advanced filters: Author: Anthony Bishopp Clear advanced filters

  • The identification of the gene regulatory network that controls the formation of xylem — the major component of wood — opens up new avenues for manipulating plant biomass. See Article p.571

    • Anthony Bishopp
    • Malcolm J. Bennett
    News & Views
    Nature
    Volume: 517, P: 558-559

  • The tremendous gains in crop yields seen over the twentieth century were underpinned by fertilizer use and manipulation of the aboveground parts of the plant. To meet the food demands of the twenty-first century, plant scientists must turn their attention belowground.

    • Anthony Bishopp
    • Jonathan P. Lynch
    Comments & Opinion
    Nature Plants
    Volume: 1, P: 1-2

  • Genes encoding the class A auxin-response factor group of plant transcriptional activators reside in constitutively open chromatin, enabling their continual regulation by transcriptional repressors to modulate auxin signalling throughout development.

    • Jekaterina Truskina
    • Jingyi Han
    • Teva Vernoux
    Research
    Nature
    Volume: 589, P: 116-119

  • In the phloem of vascular plants, distinct cell types are arranged in precise positions to ensure effective loading, transport and unloading of photosynthates and signalling molecules. Feedback between transcription factors and mobile peptides triggers and controls the differentiation of phloem at the growing root tip.

    • George Janes
    • Anthony Bishopp
    News & Views
    Nature Plants
    Volume: 8, P: 733-734

  • The authors investigate the mechanisms behind floral arrest in Arabidopsis. Despite what was previously believed, they show that it is not a global process but a locally regulated mechanism, driven by the export of auxin from fertile fruits.

    • Alexander Ware
    • Catriona H. Walker
    • Tom Bennett
    Research
    Nature Plants
    Volume: 6, P: 699-707

  • Plant root hairs elongate in response to low soil phosphate. Here Bhosale et al. show that root hair elongation requires auxin synthesis mediated by TAA1, auxin transport by AUX1 in the lateral root cap and epidermis, and signaling via the auxin-inducible ARF19, RSL2 and RSL4 transcription factors.

    • Rahul Bhosale
    • Jitender Giri
    • Ranjan Swarup
    ResearchOpen Access
    Nature Communications
    Volume: 9, P: 1-9

  • The regularly spaced arrangement of plant organs around the stem known as phyllotaxis depends on auxin-based inhibitory fields; this study identifies another hormone-based inhibitory field downstream of auxin which is generated by movement of the cytokinin signalling inhibitor ARABIDOPSIS HISTIDINE PHOSPHOTRANSFER PROTEIN 6 and regulates the periodicity of organ production.

    • Fabrice Besnard
    • Yassin Refahi
    • Teva Vernoux
    Research
    Nature
    Volume: 505, P: 417-421