Detoxification and elimination of nicotine by nectar-feeding birds

Lerch-Henning, Sara; Rand, Esther Elizabeth Du; Nicolson, Susan W.

doi:10.1007/s00360-016-1055-4

Cited by 2 publications

(3 citation statements)

References 63 publications

(78 reference statements)

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“…At the same time, some seed dispersers might select high-proteinaceous (Rojas et al, 2021) Piper fruit pulp, coping with a relatively higher concentration of total phenolics that serve to defend the fruit against pests, as predicted by the "nutrient-toxin titration hypothesis." Although the detoxification capacities of vertebrate frugivores have been little explored, a suite of detoxification enzymes (Foley & Moore, 2005;Lerch-Henning et al, 2017) and microbes (Kohl et al, 2018) might play a role in coping with high concentrations of fruit secondary metabolites. In contrast, for alkenylphenols, we found a significant negative association with proteins, supporting the "removal-rate hypothesis."…”

Section: Discussionmentioning

confidence: 99%

“…We found a significant positive association with proteins for phenolics, supporting the “nutrient‐toxin titration/relative risk hypotheses.” Nutritious fruits are likely at high risk of attack from pathogens, which could necessitate a higher concentration of defensive metabolites. At the same time, some seed dispersers might select high‐proteinaceous (Rojas et al, 2021 ) Piper fruit pulp, coping with a relatively higher concentration of total phenolics that serve to defend the fruit against pests, as predicted by the “nutrient‐toxin titration hypothesis.” Although the detoxification capacities of vertebrate frugivores have been little explored, a suite of detoxification enzymes (Foley & Moore, 2005 ; Lerch‐Henning et al, 2017 ) and microbes (Kohl et al, 2018 ) might play a role in coping with high concentrations of fruit secondary metabolites. In contrast, for alkenylphenols, we found a significant negative association with proteins, supporting the “removal‐rate hypothesis.” Once ripe, P. sancti‐felicis fruits ripen late in the afternoon and more than 91% are removed that same night by bats (Maynard et al, 2020 ).…”

Section: Discussionmentioning

confidence: 99%

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Multiscale variability in nutrients and secondary metabolites in a bat‐dispersed neotropical fruit

Gelambi,

Whitehead

2023

Ecology and Evolution

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Ripe fleshy fruits contain not only nutrients but also a diverse array of secondary metabolites. Nutrients serve as a reward for mutualists, whereas defensive metabolites protect the fruit against pests and predators. The composition of these chemical traits is highly variable, both across different plants and even within repeating structures on the same individual plant. This intraspecific and intraindividual variation has important fitness consequences for both plants and animals, yet patterns of variation and covariation in nutrients and secondary metabolites are not well understood, especially at smaller scales. Here, we investigate the multiscale variation and covariation between nutrients and defensive metabolites in Piper sancti‐felicis ripe fruits. Means and measures of variation of sugars, proteins, phenolics, and alkenylphenols vary greatly among plants, and at least 50% of the trait variation occurs at the intraindividual level. Also, we found that proteins, but not sugars, were correlated with phenolics and alkenylphenols at multiple scales, suggesting trait variation in protein content may be more constrained than sugars. Our findings emphasize the importance of examining patterns across scales and provide the groundwork to better understand how complex patterns of variation and covariation in nutrients and defensive metabolites shape ecological interactions surrounding fruits.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Multiscale variability in nutrients and secondary metabolites in a bat‐dispersed neotropical fruit

Gelambi,

Whitehead

2023

Ecology and Evolution

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“…Specifically, EROD activity is higher in insectivores than in granivores, possibly because some insects use defensive compounds from plants [ 39 ]. Still other reports have suggested that conjugation enzymes are important in nectar-eating birds for metabolizing nicotine, a process that varies in mechanism across avian species [ 40 ]. Together, these studies indicate that increased granularity in feeding classifications may yield a clearer picture regarding how diet influences UGT evolution.…”

Section: Discussionmentioning

confidence: 99%

The evolution of UDP-glycosyl/glucuronosyltransferase 1E (UGT1E) genes in bird lineages is linked to feeding habits but UGT2 genes is not

et al. 2018

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UDP-glycosyltransferase (UGT) catalyzes the transfer of glycosyl groups (e.g., glucuronic acid) to exogenous or endogenous chemicals and plays an important role in conjugation reactions. In vertebrates, UGT genes are divided into 5 families: UGT1, UGT2, UGT3, UGT5, and UGT8. Among these UGT enzymes, UGT1 and UGT2 enzymes are known to be important xenobiotic metabolizing enzymes in mammals. However, little is known about UGT1 and UGT2 genes in avian species. In this study, we therefore aimed to classify avian UGT1 and UGT2 genes based on their evolutionary relationships. We also investigated the association between UGT molecular evolution and ecological factors, specifically feeding habits, habitat, and migration. By examining the genomes of 43 avian species with differing ecology, we showed that avian UGT1E genes are divided into 6 groups and UGT2 genes into 3 groups. Correlations between UGT gene count and ecological factors suggested that the number of UGT1E genes is decreasing in carnivorous species. Estimates of selection pressure also support the hypothesis that diet influenced avian UGT1E gene evolution, similar to mammalian UGT1A and UGT2B genes.

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Detoxification and elimination of nicotine by nectar-feeding birds

Cited by 2 publications

References 63 publications

Multiscale variability in nutrients and secondary metabolites in a bat‐dispersed neotropical fruit

Multiscale variability in nutrients and secondary metabolites in a bat‐dispersed neotropical fruit

The evolution of UDP-glycosyl/glucuronosyltransferase 1E (UGT1E) genes in bird lineages is linked to feeding habits but UGT2 genes is not

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