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Showing 1–12 of 12 results
Advanced filters: Author: Andrea Gallavotti Clear advanced filters

  • AUXIN RESPONSE FACTORS (ARFs) are a family of plant-specific transcriptional factors involved in auxin signaling. Here, the authors adapt DAP-seq technology to show the binding landscape of 14 maize ARFs and reveal class-specific binding properties and transcriptional coordination by ARFs from different classes.

    • Mary Galli
    • Arjun Khakhar
    • Andrea Gallavotti
    ResearchOpen Access
    Nature Communications
    Volume: 9, P: 1-14

  • Here, the authors describe a new method to study how some proteins work together to control gene activity. They show that certain protein pairs can recognize new DNA sequences that they can’t recognize individually and control a wider range of genes.

    • Miaomiao Li
    • Tao Yao
    • Shao-shan Carol Huang
    ResearchOpen Access
    Nature Communications
    Volume: 14, P: 1-19

  • The WUSCHEL transcription factor promotes plant stem cell proliferation. Here the authors show that the maize Bif3 mutant contains a duplication of the ZmWUS1 locus leading to cytokinin hypersensitivity and overproliferation at the shoot meristem demonstrating the role of WUSCHEL in maize and how structural variation can impact plant morphology.

    • Zongliang Chen
    • Wei Li
    • Andrea Gallavotti
    ResearchOpen Access
    Nature Communications
    Volume: 12, P: 1-12

  • Transcription factors are proteins that recognize and bind short, specific DNA sequences and regulate when, where and how genes are expressed in a cell. A recent large-scale study of transcription factor binding across multiple flowering plant species reveals conservation of cell-type-specific regulatory pathways as well as rewiring of ancient regulatory networks for lineage-specific phenotypes, including tolerance to stresses.

    • Mary Galli
    • Andrea Gallavotti
    News & Views
    Nature Plants
    Volume: 11, P: 1476-1478

  • Dramatically different mutant phenotypes usually reflect mutations in different genes, but this is not necessarily so, especially when microRNA regulation is involved. A beautiful example of this now comes from the discovery of the maize microRNA tasselseed4 and its target ids1/Tasselseed6, which uncovers a new facet in the control of inflorescence branching and sex determination in flowers.

    • Andrea Gallavotti
    • Robert J Schmidt
    News & Views
    Nature Genetics
    Volume: 39, P: 1425-1426

  • Long-range cis-regulatory elements play important roles in regulating agronomic traits, but they are largely uncharacterized in crops. This study provides genetic, epigenomic and functional molecular evidence to support their widespread existence in the maize genome.

    • William A. Ricci
    • Zefu Lu
    • Xiaoyu Zhang
    Research
    Nature Plants
    Volume: 5, P: 1237-1249

  • This Perspective reviews recent advances in crop transformation technologies that promise to lead to the widespread adoption of genome editing in crop species.

    • Zongliang Chen
    • Juan M. Debernardi
    • Andrea Gallavotti
    Reviews
    Nature Plants
    Volume: 8, P: 1343-1351