Nature Communications (Jun 2023)

Telomere DNA length regulation is influenced by seasonal temperature differences in short-lived but not in long-lived reef-building corals

  • Alice Rouan,
  • Melanie Pousse,
  • Nadir Djerbi,
  • Barbara Porro,
  • Guillaume Bourdin,
  • Quentin Carradec,
  • Benjamin CC. Hume,
  • Julie Poulain,
  • Julie Lê-Hoang,
  • Eric Armstrong,
  • Sylvain Agostini,
  • Guillem Salazar,
  • Hans-Joachim Ruscheweyh,
  • Jean-Marc Aury,
  • David A. Paz-García,
  • Ryan McMinds,
  • Marie-Josèphe Giraud-Panis,
  • Romane Deshuraud,
  • Alexandre Ottaviani,
  • Lycia Die Morini,
  • Camille Leone,
  • Lia Wurzer,
  • Jessica Tran,
  • Didier Zoccola,
  • Alexis Pey,
  • Clémentine Moulin,
  • Emilie Boissin,
  • Guillaume Iwankow,
  • Sarah Romac,
  • Colomban de Vargas,
  • Bernard Banaigs,
  • Emmanuel Boss,
  • Chris Bowler,
  • Eric Douville,
  • Michel Flores,
  • Stéphanie Reynaud,
  • Olivier P. Thomas,
  • Romain Troublé,
  • Rebecca Vega Thurber,
  • Serge Planes,
  • Denis Allemand,
  • Stephane Pesant,
  • Pierre E. Galand,
  • Patrick Wincker,
  • Shinichi Sunagawa,
  • Eric Röttinger,
  • Paola Furla,
  • Christian R. Voolstra,
  • Didier Forcioli,
  • Fabien Lombard,
  • Eric Gilson

DOI
https://doi.org/10.1038/s41467-023-38499-1
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 15

Abstract

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Abstract Telomeres are environment-sensitive regulators of health and aging. Here,we present telomere DNA length analysis of two reef-building coral genera revealing that the long- and short-term water thermal regime is a key driver of between-colony variation across the Pacific Ocean. Notably, there are differences between the two studied genera. The telomere DNA lengths of the short-lived, more stress-sensitive Pocillopora spp. colonies were largely determined by seasonal temperature variation, whereas those of the long-lived, more stress-resistant Porites spp. colonies were insensitive to seasonal patterns, but rather influenced by past thermal anomalies. These results reveal marked differences in telomere DNA length regulation between two evolutionary distant coral genera exhibiting specific life-history traits. We propose that environmentally regulated mechanisms of telomere maintenance are linked to organismal performances, a matter of paramount importance considering the effects of climate change on health.