Unravelling associations among chemosensory system components in <i>Liolaemus</i> lizards

Ruiz-Monachesi, Mario R.; Cruz, Felix Benjamin; Valdecantos, Soledad; Labra, Antonieta

doi:10.1111/jzo.12819

Cited by 6 publications

(4 citation statements)

References 70 publications

(105 reference statements)

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“…Over the last 30 years or so, lizards have become a model species to investigate the evolutionary forces shaping vertebrate chemical communication (e.g., Alberts 1991 ; Alberts et al 1993 ; Martín and López 2000 ; Pruett et al 2016 ; Baeckens et al 2017 ; García-Roa et al 2017a , 2017b ; Campos et al 2020 ; Ruiz–Monachesi et al 2020 ; Baeckens and Whiting 2021 ; Mangiacotti et al 2021 ). The reason for its popularity is partly due to the pivotal role of the chemical sensory modality in this taxon, which is not only characterized by readily observable chemoreception behavior of lizards (i.e., tongue-flicking; Schwenk 1995 ; Baeckens et al 2017 ), but also by the occurrence, in most species, of epidermal glands in the cloacal region ( García-Roa et al 2017a ; Cole 1966 ), used for inter- and intra-specific signaling ( Martín and López 2014 ; Mayerl et al 2015 ).…”

Section: Introductionmentioning

confidence: 99%

Protein–lipid Association in Lizard Chemical Signals

Baeckens

Fumagalli

Martı́n

et al. 2023

Integrative Organismal Biology

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Synopsis Chemical communication in terrestrial vertebrates is often built on complex blends, where semiochemical and structural compounds may form an integrated functional unit. In lizards, many species have specialized epidermal glands whose secretions are waxy, homogeneous blends of lipids and proteins, both active in communication. The intimate co-occurrence of such compounds let us hypothesise they should undergo to a certain degree of covariation, both considering their semiochemical role, and the support-to-lipid function hypothesized for the protein fraction. In order to assess the occurrence and level of protein-lipid covariation, we compared the composition and complexity of the two fractions in the femoral gland secretions of 36 lizard species, combining phylogenetically-informed analysis with tandem mass spectrometry. We found the composition and complexity of the two fractions to be strongly correlated. The composition of the protein fraction was mostly influenced by the relative proportion of cholestanol, provitamin D3, stigmasterol, and tocopherol, while the complexity of the protein pattern increased with that of lipids. Additionally, two identified proteins (carbonic anhydrase and protein disulfide isomerase) increased their concentration as provitamin D3 became more abundant. Although our approach does not allow to decrypt the functional relations between the proteinaceous and lipid components, nor under the semiochemical or structural hypothesis, the finding that the proteins involved in this association were enzymes opens to new perspectives about protein role: they may confer dynamic properties to the blend, making it able to compensate predictable variation of the environmental conditions. This may expand the view about proteins in the support-to lipid hypothesis, from being a passive and inert component of the secretions to become an active and dynamic one, thus providing cues for future research.

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Section: Introductionmentioning

confidence: 99%

Protein–lipid Association in Lizard Chemical Signals

Baeckens

Fumagalli

Martı́n

et al. 2023

Integrative Organismal Biology

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“…Most lizard species are highly dependent on their chemosensory system (Mason & Parker, 2010) and possess chemical-emitting scents glands (exocrine glands), which secrete proteins and lipid-rich components (e.g., Mangiacotti et al, 2019).These glands are involved in various social interactions (Baird et al, 2015;Campos et al, 2017) and the number and diameter of these glands have been considered proxies for conspecific communication relevance (Martins et al, 2004;Baeckens, 2017;Ruiz-Monachesi et al, 2020). Baeckens and Whiting (2021) investigated the relationship between sociability and the evolution of chemical secretory glands and suggested that social grouping may drive investment in epidermal signalling glands in lizards.…”

Section: The Influence Of Secretory Glandsmentioning

confidence: 99%

“…Exploration is defined as an individual's tendency to move around in unfamiliar environments (i.e., neophilia; Réale et al, 2007). This pattern could be explained by the highinvestment signal hypothesis, where a poorly developed or absent chemical emissary system would be counterbalanced by an efficient receiving system and higher exploration behaviour (Ruiz-Monachesi et al, 2020. For instance, different Liolaemus species with few or no precloacal pores showed higher exploration behaviour than species with a greater number of precloacal pores (Ruiz-Monachesi et al, 2020).…”

Section: The Influence Of Secretory Glandsmentioning

confidence: 99%

“…This pattern could be explained by the highinvestment signal hypothesis, where a poorly developed or absent chemical emissary system would be counterbalanced by an efficient receiving system and higher exploration behaviour (Ruiz-Monachesi et al, 2020. For instance, different Liolaemus species with few or no precloacal pores showed higher exploration behaviour than species with a greater number of precloacal pores (Ruiz-Monachesi et al, 2020). Therefore, if the secretory glands are absent, individuals may perceive their environment as more novel when exploring, potentially contributing to the development of individual consistency in this behaviour.…”

Section: The Influence Of Secretory Glandsmentioning

confidence: 99%

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Meta-analysis of Behavioural Research in Lizards Reveals that Viviparity Contributes Better to Animal Personality than Secretory Glands

Ruiz-Monachesi,

Martínez

2023

Evol Biol

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Animal personality is defined as an individual's behavioural consistency across contexts, situations, and time. Understanding the evolution of animal personality requires the integration of macroevolutionary patterns with intraspecific promoters of individual behavioural consistency. In this study, we conducted a meta-analysis to assess the association between lizards' animal personality and different indicators of sociability (a personality promotor) in a phylogenetic context. In lizards, the presence of both, secretory glands and viviparity have been associated with higher sociability levels. We analysed behavioural repeatability data, including 490 effect sizes from 37 species and 63 studies, considering five categories (activity, aggressivity, boldness, exploration, sociability) while controlling for phylogenetic constraints. For each species, we obtained data on the number of secretory glands and the reproductive mode (oviparous or viviparous). The results showed similar values of repeatability for species with and without glands and an absence of correlation between the number of glands and repeatability data. However, higher repeatability was present in viviparous species than in oviparous species. When we conducted separate analyses for each behavioural type, we found two contrasting patterns for exploration and boldness. Species without glands were more exploratory, while species with glands were bolder. In general, phylogeny explained the observed patterns of repeatability, but boldness, exploration and sociability were poorly explained by evolutionary history among species. This study represents a first step in disentangling the integration among animal personality, life-history and morphology traits under a broad evolutionary context.

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