The Natural History of Class I Primate Alcohol Dehydrogenases Includes Gene Duplication, Gene Loss, and Gene Conversion

Carrigan, Matthew A.; Uryasev, Oleg; Davis, Ross P.; Zhai, Lan Min; Hurley, Thomas D.; Benner, Steven A.

doi:10.1371/journal.pone.0041175

Cited by 18 publications

(13 citation statements)

References 74 publications

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“…These groups are defined for every internal node of the (rooted) species tree; each HOG contains the genes that are inferred to have descended from a common ancestral gene among the species attached to that internal node. Consider, for instance, gene ADH1, which duplicated within the primates (Carrigan et al 2012): At the level of the last primate common ancestor, all genes that have descended from the ancestral ADH1 belong to the same HOG. However, at the level of the common ancestor of all the great apes, because ADH1 had at this point already duplicated into ADH1A, ADH1B, and ADH1C, these ancestral genes define three HOGs.…”

Section: Oma Standalone Softwarementioning

confidence: 99%

OMA standalone: orthology inference among public and custom genomes and transcriptomes

et al. 2019

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Section: Oma Standalone Softwarementioning

confidence: 99%

OMA standalone: orthology inference among public and custom genomes and transcriptomes

et al. 2019

View full text Add to dashboard Cite

show abstract

“…Consider for instance gene ADH1, which duplicated within the primates (Carrigan et al, 2012) : At the level of the last primate common ancestor, all genes that have descended from the ancestral ADH1 belong to the same HOG. However, at the level of the common ancestor of all the great apes, because ADH1 had at this point already duplicated into ADH1a, ADH1b, and ADH1c, these ancestral genes define 3 HOGs.…”

Section: Oma Standalone Softwarementioning

confidence: 99%

OMA standalone: orthology inference among public and custom genomes and transcriptomes

Altenhoff

Levy

Zarowiecki

et al. 2018

Preprint

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Genomes and transcriptomes are now typically sequenced by individual labs, but analysing them often remains challenging. One essential step in many analyses lies in identifying orthologs-corresponding genes across multiple species-but this is far from trivial. The OMA (Orthologous MAtrix) database is a leading resource for identifying orthologs among publicly available, complete genomes. Here, we describe the OMA pipeline available as a standalone program for Linux and Mac. When run on a cluster, it has native support for the LSF, SGE, PBS Pro, and Slurm job schedulers and can scale up to thousands of parallel processes. Another key feature of OMA standalone is that users can combine their own data with existing public data by exporting genomes and pre-computed alignments from the OMA database, which currently contains over 2100 complete genomes. We compare OMA standalone to other methods in the context of phylogenetic tree inference, by inferring a phylogeny of the Lophotrochozoa, a challenging clade within the Protostomes. We also discuss other potential applications of OMA standalone, including identifying gene families having undergone duplications/losses in specific clades, and identifying potential drug targets in non-model organisms. OMA Standalone is available at http://omabrowser.org/standalone under the permissible open source Mozilla Public License Version 2.0.

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“…While alcohol use in antiquity often conjures images of Dionysian debauchery on artefactual Greek hydriai, there is evidence to suggest that fermented fruits contributed to shaping human evolution (Carrigan et al, 2012). Paleogenetic evidence regarding the history of alcohol dehydrogenase (ADH) indicates that this enzyme, critical for the metabolism of alcohol, may have first developed in primates before the divergence of old and new world monkeys.…”

Section: Introduction: Alcohol In Antiquitymentioning

confidence: 99%

“…Paleogenetic evidence regarding the history of alcohol dehydrogenase (ADH) indicates that this enzyme, critical for the metabolism of alcohol, may have first developed in primates before the divergence of old and new world monkeys. The emergence of the ADH genes at this time point is hypothesized to have both dietary and behavioral consequences as fruits that had fallen from trees and initiated the process of fermentation would now be digestible rather than toxic, opening a previously inaccessible food niche (Brenner, 2013, Carrigan, Uryasev, 2012). Further, according to the Drunken Monkey Hypothesis of Dudley (2004), volatilized alcohols from fruit may have acted as olfactory signals for food localization in early primates.…”

Section: Introduction: Alcohol In Antiquitymentioning

confidence: 99%

Alcohol-induced dysregulation of stress-related circuitry: The search for novel targets and implications for interventions across the sexes

Retson

Sterling

Bockstaele

2016

Progress in Neuro-Psychopharmacology and Biological Psychiatry

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While the ability to process fermented fruits and alcohols was once an adaptive trait that improved nutrition and quality of life, the availability and prevalence of high potency alcoholic drinks has contributed to alcohol abuse disorders in a vulnerable portion of the population. Although the neural reward systems take part in the initial response to alcohol, negative reinforcement and stress, which are normally adaptive responses, can intersect to promote continued alcohol use at all stages of the addiction cycle. Eventually a point is reached where these once adaptive responses become dysregulated resulting in uncontrolled intake that constitutes a clinically important condition termed alcohol use disorder (AUD). Current research is targeted at both the behavioral and molecular adaptations in AUDs in an effort to better develop novel approaches to intervention. In this review, historical context is provided demonstrating the societal burden of alcohol use and abuse disorders. The importance of gender in the mechanism of action of alcohol is discussed. Finally, the impact of alcohol on stress-related circuitry, uncovered by preclinical research, is outlined to provide insight into potential novel pharmacological approaches to the treatment of AUD.

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The Natural History of Class I Primate Alcohol Dehydrogenases Includes Gene Duplication, Gene Loss, and Gene Conversion

Cited by 18 publications

References 74 publications

OMA standalone: orthology inference among public and custom genomes and transcriptomes

OMA standalone: orthology inference among public and custom genomes and transcriptomes

OMA standalone: orthology inference among public and custom genomes and transcriptomes

Alcohol-induced dysregulation of stress-related circuitry: The search for novel targets and implications for interventions across the sexes

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