Clock gene variation is associated with breeding phenology and maybe under directional selection in the migratory barn swallow.

In diverse taxa, photoperiodic responses that cause seasonal physiological and behavioural shifts are controlled by genes, including the vertebrate Clock orthologues, that encode for circadian oscillator mechanisms. While the genetic network behind circadian rhythms is well described, relatively few...

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Main Authors: Manuela Caprioli, Roberto Ambrosini, Giuseppe Boncoraglio, Emanuele Gatti, Andrea Romano, Maria Romano, Diego Rubolini, Luca Gianfranceschi, Nicola Saino
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2012-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC3323641?pdf=render
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spelling doaj-65dba132521f4bb58c6a922cdc04c9042020-11-25T02:30:15ZengPublic Library of Science (PLoS)PLoS ONE1932-62032012-01-0174e3514010.1371/journal.pone.0035140Clock gene variation is associated with breeding phenology and maybe under directional selection in the migratory barn swallow.Manuela CaprioliRoberto AmbrosiniGiuseppe BoncoraglioEmanuele GattiAndrea RomanoMaria RomanoDiego RuboliniLuca GianfranceschiNicola SainoIn diverse taxa, photoperiodic responses that cause seasonal physiological and behavioural shifts are controlled by genes, including the vertebrate Clock orthologues, that encode for circadian oscillator mechanisms. While the genetic network behind circadian rhythms is well described, relatively few reports exist of the phenological consequences of and selection on Clock genes in the wild. Here, we investigated variation in breeding phenology in relation to Clock genetic diversity in a long-distance migratory bird, the barn swallow (Hirundo rustica).In a sample of 922 adult barn swallows from a single population breeding in Italy we found one very common (Q(7)) and three rare (Q(5), Q(6), Q(8)) length variants of a functionally significant polyglutamine repeat. Rare (2.9%) Q(7)/Q(8) heterozygous females, but not males, bred significantly later than common (91.5%) Q(7)/Q(7) females, consistent with the expectation that 'long' alleles cause late breeding, as observed in a resident population of another bird species. Because breeding date depends on arrival date from migration, present results suggest that the association between breeding date and Clock might be mediated by migration phenology. In addition, fecundity selection appears to be operating against Q(7)/Q(8) because late migrating/breeding swallows have fewer clutches per season, and late breeding has additional negative selection effects via reduced offspring longevity. Genotype frequencies varied marginally non-significantly with age, as Q(7)/Q(8) frequency showed a 4-fold reduction in old individuals. This result suggests negative viability selection against Q(7)/Q(8), possibly mediated by costs of late breeding.This is the first study of migratory birds showing an association between breeding phenology and Clock genotype and suggesting that negative selection occurs on a phenologically deviant genotype. Low polymorphism at Clock may constrain microevolutionary phenological response to changing climate, and may thus contribute to the decline of barn swallow populations.http://europepmc.org/articles/PMC3323641?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Manuela Caprioli
Roberto Ambrosini
Giuseppe Boncoraglio
Emanuele Gatti
Andrea Romano
Maria Romano
Diego Rubolini
Luca Gianfranceschi
Nicola Saino
spellingShingle Manuela Caprioli
Roberto Ambrosini
Giuseppe Boncoraglio
Emanuele Gatti
Andrea Romano
Maria Romano
Diego Rubolini
Luca Gianfranceschi
Nicola Saino
Clock gene variation is associated with breeding phenology and maybe under directional selection in the migratory barn swallow.
PLoS ONE
author_facet Manuela Caprioli
Roberto Ambrosini
Giuseppe Boncoraglio
Emanuele Gatti
Andrea Romano
Maria Romano
Diego Rubolini
Luca Gianfranceschi
Nicola Saino
author_sort Manuela Caprioli
title Clock gene variation is associated with breeding phenology and maybe under directional selection in the migratory barn swallow.
title_short Clock gene variation is associated with breeding phenology and maybe under directional selection in the migratory barn swallow.
title_full Clock gene variation is associated with breeding phenology and maybe under directional selection in the migratory barn swallow.
title_fullStr Clock gene variation is associated with breeding phenology and maybe under directional selection in the migratory barn swallow.
title_full_unstemmed Clock gene variation is associated with breeding phenology and maybe under directional selection in the migratory barn swallow.
title_sort clock gene variation is associated with breeding phenology and maybe under directional selection in the migratory barn swallow.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2012-01-01
description In diverse taxa, photoperiodic responses that cause seasonal physiological and behavioural shifts are controlled by genes, including the vertebrate Clock orthologues, that encode for circadian oscillator mechanisms. While the genetic network behind circadian rhythms is well described, relatively few reports exist of the phenological consequences of and selection on Clock genes in the wild. Here, we investigated variation in breeding phenology in relation to Clock genetic diversity in a long-distance migratory bird, the barn swallow (Hirundo rustica).In a sample of 922 adult barn swallows from a single population breeding in Italy we found one very common (Q(7)) and three rare (Q(5), Q(6), Q(8)) length variants of a functionally significant polyglutamine repeat. Rare (2.9%) Q(7)/Q(8) heterozygous females, but not males, bred significantly later than common (91.5%) Q(7)/Q(7) females, consistent with the expectation that 'long' alleles cause late breeding, as observed in a resident population of another bird species. Because breeding date depends on arrival date from migration, present results suggest that the association between breeding date and Clock might be mediated by migration phenology. In addition, fecundity selection appears to be operating against Q(7)/Q(8) because late migrating/breeding swallows have fewer clutches per season, and late breeding has additional negative selection effects via reduced offspring longevity. Genotype frequencies varied marginally non-significantly with age, as Q(7)/Q(8) frequency showed a 4-fold reduction in old individuals. This result suggests negative viability selection against Q(7)/Q(8), possibly mediated by costs of late breeding.This is the first study of migratory birds showing an association between breeding phenology and Clock genotype and suggesting that negative selection occurs on a phenologically deviant genotype. Low polymorphism at Clock may constrain microevolutionary phenological response to changing climate, and may thus contribute to the decline of barn swallow populations.
url http://europepmc.org/articles/PMC3323641?pdf=render
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