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PolyQ length-based molecular encoding of vocalization frequency in FOXP2

Serena Vaglietti, Veronica Villeri, Marco Dell’Oca, Chiara Marchetti, Federico Cesano, Francesca Rizzo, Dave Miller, Louis LaPierre, Ilaria Pelassa, Francisco J. Monje, Luca Colnaghi, Mirella Ghirardi, Ferdinando Fiumara

2023iScience13 citationsDOIOpen Access PDF

Abstract

length ratio quantitatively encodes vocalization frequency ranges, from the infrasonic to the ultrasonic, displaying striking convergent evolution patterns. Thus, species emitting ultrasonic vocalizations converge with bats in having a low ratio, whereas species vocalizing in the low-frequency/infrasonic range converge with elephants and whales, which have higher ratios. Similar, taxon-specific patterns were observed for the FOXP2-related protein FOXP1. At the molecular level, we observed that the FOXP2 polyQ tracts form coiled coils, assembling into condensates and fibrils, and drive liquid-liquid phase separation (LLPS). By integrating evolutionary and molecular analyses, we found that polyQ length variation related to vocalization frequency impacts FOXP2 structure, LLPS, and transcriptional activity, thus defining a novel form of polyQ length-based molecular encoding of vocalization frequency.

Topics & Concepts

FOXP2BiologyEvolutionary biologyRange (aeronautics)GeneTranscription factorGeneticsMaterials scienceComposite materialBat Biology and Ecology StudiesPlant Molecular Biology ResearchRNA and protein synthesis mechanisms
PolyQ length-based molecular encoding of vocalization frequency in FOXP2 | Litcius