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. 2025 Mar;245(5):2255-2267.
doi: 10.1111/nph.20348. Epub 2024 Dec 19.

The genetic architecture of floral trait divergence between hummingbird- and self-pollinated monkeyflower (Mimulus) species

Hongfei Chen  1   2 Colette S Berg  3 Matthew Samuli  3 V Alex Sotola  4 Andrea L Sweigart  4 Yao-Wu Yuan  1 Lila Fishman  3
Affiliations

The genetic architecture of floral trait divergence between hummingbird- and self-pollinated monkeyflower (Mimulus) species

Hongfei Chen et al. New Phytol. 2025 Mar.

Abstract

Pollination syndromes are a key component of flowering plant diversification, prompting questions about the architecture of single traits and genetic coordination among traits. Here, we investigate the genetics of extreme floral divergence between naturally hybridizing monkeyflowers, Mimulus parishii (self-pollinated) and M. cardinalis (hummingbird-pollinated). We mapped quantitative trait loci (QTLs) for 18 pigment, pollinator reward/handling, and dimensional traits in parallel sets of F2 hybrids plus recombinant inbred lines and generated nearly isogenic lines (NILs) for two dimensional traits, pistil length and corolla size. Our multi-population approach revealed a highly polygenic basis (n = 190 QTLs total) for pollination syndrome divergence, capturing minor QTLs even for pigment traits with leading major loci. There was significant QTL overlap within pigment and dimensional categories. Nectar volume QTLs clustered with those for floral dimensions, suggesting a partially shared module. The NILs refined two pistil length QTLs, only one of which has tightly correlated effects on other dimensional traits. An overall polygenic architecture of floral divergence is partially coordinated by genetic modules formed by linkage (pigments) and likely pleiotropy (dimensions plus nectar). This work illuminates pollinator syndrome diversification in a model radiation and generates a robust framework for molecular and ecological genomics.

Keywords: Erythranthe; QTL mapping; floral evolution; genetic architecture; modularity; pigment; pollination syndrome; polygenic trait.

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