Painted flowers: <i>Eluta</i> generates pigment patterning in <i>Antirrhinum</i>

Moss, Sarah M. A.; Zhou, Yanfei; Butelli, Eugenio; Waite, Chethi N.; Yeh, Shin‐Mei; Cordiner, Sarah B.; Harris, Nilangani N.; Copsey, Lucy; Schwinn, Kathy E.; Davies, Kevin M.; Hudson, Andrew; Martin, Cathie; Albert, Nick W.

doi:10.1111/nph.19866

New Phytologist

2024

DOI: 10.1111/nph.19866

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Painted flowers: Eluta generates pigment patterning in Antirrhinum

Sarah M. A. Moss,

Yanfei Zhou,

Eugenio Butelli

et al.

Abstract: Summary In the early 1900s, Erwin Baur established Antirrhinum majus as a model system, identifying and characterising numerous flower colour variants. This included Picturatum/Eluta, which restricts the accumulation of magenta anthocyanin pigments, forming bullseye markings on the flower face. We identified the gene underlying the Eluta locus by transposon‐tagging, using an Antirrhinum line that spontaneously lost the nonsuppressive el phenotype. A candidate MYB repressor gene at this locus contained a CACTA … Show more

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Evolution and development of complex floral displays

Khojayori,

Ponraj,

Buch

et al. 2024

Development

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Flowering plants – angiosperms – display an astounding diversity of floral features, which have evolved in response to animal pollination and have resulted in the most species-rich plant clade. Combinations of macroscale (e.g. colour, symmetry, organ number) and microscale (e.g. cell type, tissue patterning) features often lead to highly elaborate floral displays. Most studies have focused on model species with simple floral displays to uncover the genetic and evolutionary mechanisms involved in flower evolution, yet few studies have focused on complex floral displays. Here, we review current knowledge on the development and evolution of complex floral displays. We review gene regulatory networks involved in four developmental pathways contributing to overall floral display (inflorescence architecture, organ identity, flower symmetry and flower colour) in classical plant models. We then discuss how evolutionary modification of one or more of these pathways has resulted in the production of a range of complex floral displays. Finally, we explore modular systems in which multiple pathways have been modified simultaneously, generating the most elaborate floral displays.

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Evolution and development of complex floral displays

Khojayori,

Ponraj,

Buch

et al. 2024

Development

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Painted flowers: Eluta generates pigment patterning in Antirrhinum

Cited by 1 publication

References 65 publications

Evolution and development of complex floral displays

Evolution and development of complex floral displays

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