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. 2023 Jun;32(11):2898-2912.
doi: 10.1111/mec.16907. Epub 2023 Mar 14.

The evolution of early-life telomere length, pace-of-life and telomere-chromosome length dynamics in birds

Michael Le Pepke  1 Thor Harald Ringsby  1 Dan T A Eisenberg  2   3   4
Affiliations

The evolution of early-life telomere length, pace-of-life and telomere-chromosome length dynamics in birds

Michael Le Pepke et al. Mol Ecol. 2023 Jun.

Abstract
in English, Danish

Telomeres, the short DNA sequences that protect chromosome ends, are an ancient molecular structure, which is highly conserved across most eukaryotes. Species differ in their telomere lengths, but the causes of this variation are not well understood. Here, we demonstrate that mean early-life telomere length is an evolutionary labile trait across 57 bird species (representing 35 families in 12 orders) with the greatest trait diversity found among passerines. Among these species, telomeres are significantly shorter in fast-lived than in slow-lived species, suggesting that telomere length may have evolved to mediate trade-offs between physiological requirements underlying the diversity of pace-of-life strategies in birds. This association was attenuated when excluding studies that may include interstitial telomeres in the estimation of mean telomere length. Curiously, within some species, larger individual chromosome size predicts longer telomere lengths on that chromosome, leading to the hypothesis that telomere length also covaries with chromosome length across species. We show that longer mean chromosome length or genome size tends to be associated with longer mean early-life telomere length (measured across all chromosomes) within a phylogenetic framework constituting up to 31 bird species. These associations were strengthened when excluding highly influential outliers. However, sensitivity analyses suggested that they were susceptible to sample size effects and not robust to the exclusion of studies that may include interstitial telomeres. Combined, our analyses generalize patterns previously found within a few species and provide potential adaptive explanations for the 10-fold variation in telomere lengths observed among birds.

Telomerer, de korte DNA-sekvenser der beskytter kromosomenderne, er en urgammel molekylaer struktur, som er faelles for de fleste eukaryoter. Laengden af telomererne varierer mellem arter, men årsagerne til denne variation er ikke tilstraekkeligt undersøgt. I dette studie demonstrerer vi, hvordan den gennemsnitlige telomerlaengde i starten af livet er et evolutionaert labilt traek på tvaers af 57 fuglearter (der repraesenterer 35 familier i 12 ordener), hvor den største diversitet i telomerlaengder findes blandt spurvefuglene. Blandt disse arter er telomererne vaesentligt kortere hos hurtigtlevende end hos langsomtlevende arter, hvilket tyder på, at telomerlaengden kan have udviklet sig til at formidle afvejninger mellem de fysiologiske krav, der ligger til grund for mangfoldigheden af livshistoriestrategier hos fugle. Denne sammenhaeng blev dog svaekket, når man ekskluderede studier, der potentielt kan inkludere interstitielle telomerer i estimeringen af gennemsnitlig telomerlaengde. Besynderligt nok, så er der inden for nogle arter observeret en positiv sammenhaeng mellem kromosomstørrelse og telomerlaengde på det pågaeldende kromosom, hvilket har ført til hypotesen om, at telomerlaengde også kovarierer med kromosomlaengde på tvaers af arter. Her viser vi, at laengere gennemsnitlig kromosomlaengde eller genomstørrelse har en tendens til at vaere associeret med laengere gennemsnitlig telomerlaengde i starten af livet (målt på tvaers af alle kromosomer) inden for en fylogenetisk ramme bestående af op til 31 fuglearter. Disse sammenhaenge blev styrket, når man ekskluderede meget indflydelsesrige afvigere. Imidlertid antydede sensitivitetsanalyser, at de var afhaengige af artsudsnittet, og at de ikke var robuste over for udelukkelse af studier, der kan inkludere interstitielle telomerer. Samlet set generaliserer vores analyser mønstre, der tidligere kun er fundet inden for nogle få arter, og de yder potentielle adaptive forklaringer på den 10-foldige variation i telomerlaengder, som kan observeres blandt fugle.

Keywords: c-value; genome size; life-history; phylogenetic comparative analysis; telomere biology; trade-offs.

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References

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