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Review
. 2022 Dec;31(23):6053-6068.
doi: 10.1111/mec.16117. Epub 2021 Aug 30.

Taking flight: An ecological, evolutionary and genomic perspective on bat telomeres

Megan L Power  1 Nicole M Foley  2 Gareth Jones  3 Emma C Teeling  1
Affiliations
Review

Taking flight: An ecological, evolutionary and genomic perspective on bat telomeres

Megan L Power et al. Mol Ecol. 2022 Dec.

Abstract

Over 20% of all living mammals are bats (order Chiroptera). Bats possess extraordinary adaptations including powered flight, laryngeal echolocation and a unique immune system that enables them to tolerate a diversity of viral infections without presenting clinical disease symptoms. They occupy multiple trophic niches and environments globally. Significant physiological and ecological diversity occurs across the order. Bats also exhibit extreme longevity given their body size with many species showing few signs of ageing. The molecular basis of this extended longevity has recently attracted attention. Telomere maintenance potentially underpins bats' extended healthspan, although functional studies are still required to validate the causative mechanisms. In this review, we detail the current knowledge on bat telomeres, telomerase expression, and how these relate to ecology, longevity and life-history strategies. Patterns of telomere shortening and telomerase expression vary across species, and comparative genomic analyses suggest that alternative telomere maintenance mechanisms evolved in the longest-lived bats. We discuss the unique challenges faced when working with populations of wild bats and highlight ways to advance the field including expanding long-term monitoring across species that display contrasting life-histories and occupy different environmental niches. We further review how new high quality, chromosome-level genome assemblies can enable us to uncover the molecular mechanisms governing telomere dynamics and how phylogenomic analyses can reveal the adaptive significance of telomere maintenance and variation in bats.

Keywords: bats; comparative genomics; life-history; telomerase; telomere dynamics.

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