Genotyping-by-sequencing provides the first well-resolved phylogeny for coffee (Coffea) and insights into the evolution of caffeine content in its species: GBS coffee phylogeny and the evolution of caffeine content

A comprehensive and meaningful phylogenetic hypothesis for the commercially important coffee genus (Coffea) has long been a key objective for coffee researchers. For molecular studies, progress has been limited by low levels of sequence divergence, leading to insufficient topological resolution and...

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Published in	Molecular phylogenetics and evolution Vol. 109; pp. 351 - 361
Main Authors	Hamon, Perla, Grover, Corrinne E, Davis, Aaron P, Rakotomalala, Jean-Jacques, Raharimalala, Nathalie E, Albert, Victor A, Sreenath, Hosahalli L, Stoffelen, Piet, Mitchell, Sharon E, Couturon, Emmanuel, Hamon, Serge, de Kochko, Alexandre, Crouzillat, Dominique, Rigoreau, Michel, Sumirat, Ucu, Akaffou, Sélastique, Guyot, Romain
Format	Journal Article
Language	English
Published	United States 01.04.2017
Subjects	Africa Asia Biological Evolution Caffeine - analysis Coffea - chemistry Coffea - classification Coffea - genetics DNA, Plant Genotype Phylogeny Phylogeography Sequence Analysis, DNA Biogeography Molecular phylogeny Coffee Genotyping-by-sequencing Evolution of caffeine content
Online Access	Get full text
ISSN	1095-9513
DOI	10.1016/j.ympev.2017.02.009

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Abstract	A comprehensive and meaningful phylogenetic hypothesis for the commercially important coffee genus (Coffea) has long been a key objective for coffee researchers. For molecular studies, progress has been limited by low levels of sequence divergence, leading to insufficient topological resolution and statistical support in phylogenetic trees, particularly for the major lineages and for the numerous species occurring in Madagascar. We report here the first almost fully resolved, broadly sampled phylogenetic hypothesis for coffee, the result of combining genotyping-by-sequencing (GBS) technology with a newly developed, lab-based workflow to integrate short read next-generation sequencing for low numbers of additional samples. Biogeographic patterns indicate either Africa or Asia (or possibly the Arabian Peninsula) as the most likely ancestral locality for the origin of the coffee genus, with independent radiations across Africa, Asia, and the Western Indian Ocean Islands (including Madagascar and Mauritius). The evolution of caffeine, an important trait for commerce and society, was evaluated in light of our phylogeny. High and consistent caffeine content is found only in species from the equatorial, fully humid environments of West and Central Africa, possibly as an adaptive response to increased levels of pest predation. Moderate caffeine production, however, evolved at least one additional time recently (between 2 and 4Mya) in a Madagascan lineage, which suggests that either the biosynthetic pathway was already in place during the early evolutionary history of coffee, or that caffeine synthesis within the genus is subject to convergent evolution, as is also the case for caffeine synthesis in coffee versus tea and chocolate.
AbstractList	A comprehensive and meaningful phylogenetic hypothesis for the commercially important coffee genus (Coffea) has long been a key objective for coffee researchers. For molecular studies, progress has been limited by low levels of sequence divergence, leading to insufficient topological resolution and statistical support in phylogenetic trees, particularly for the major lineages and for the numerous species occurring in Madagascar. We report here the first almost fully resolved, broadly sampled phylogenetic hypothesis for coffee, the result of combining genotyping-by-sequencing (GBS) technology with a newly developed, lab-based workflow to integrate short read next-generation sequencing for low numbers of additional samples. Biogeographic patterns indicate either Africa or Asia (or possibly the Arabian Peninsula) as the most likely ancestral locality for the origin of the coffee genus, with independent radiations across Africa, Asia, and the Western Indian Ocean Islands (including Madagascar and Mauritius). The evolution of caffeine, an important trait for commerce and society, was evaluated in light of our phylogeny. High and consistent caffeine content is found only in species from the equatorial, fully humid environments of West and Central Africa, possibly as an adaptive response to increased levels of pest predation. Moderate caffeine production, however, evolved at least one additional time recently (between 2 and 4Mya) in a Madagascan lineage, which suggests that either the biosynthetic pathway was already in place during the early evolutionary history of coffee, or that caffeine synthesis within the genus is subject to convergent evolution, as is also the case for caffeine synthesis in coffee versus tea and chocolate.
Author	Crouzillat, Dominique Akaffou, Sélastique de Kochko, Alexandre Hamon, Serge Rigoreau, Michel Mitchell, Sharon E Sumirat, Ucu Guyot, Romain Stoffelen, Piet Raharimalala, Nathalie E Davis, Aaron P Rakotomalala, Jean-Jacques Sreenath, Hosahalli L Grover, Corrinne E Albert, Victor A Couturon, Emmanuel Hamon, Perla
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SubjectTerms	Africa Asia Biological Evolution Caffeine - analysis Coffea - chemistry Coffea - classification Coffea - genetics DNA, Plant Genotype Phylogeny Phylogeography Sequence Analysis, DNA
Title	Genotyping-by-sequencing provides the first well-resolved phylogeny for coffee (Coffea) and insights into the evolution of caffeine content in its species: GBS coffee phylogeny and the evolution of caffeine content
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