Population genomic analyses of the chocolate tree, Theobroma cacao L., provide insights into its domestication process
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Date
2018Auteur
Cornejo, Omar E.l.
Yee, Muh-Ching
Domínguez, Víctor
Andrews, Mary
Sockell, Alexandra
Strandberg, Erika
Livingstone Ill, Donald
Stack, Conrad
Romero, Alberto
Umaharan, Pathmanathan
Royaert, Stefan
Tawari, Nilesh R.
Ng, Pauline
Gutiérrez, Osman A.
Phillips Mora, Wilbert
Mochaitis, Keithanne
Bustamante, Carlos D.
Motamayor, Juan C.
Type
Artículo
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Afficher la notice complèteRésumé
Domestication has had a strong impact on the development of modern societies. We
sequenced 200 genomes of the chocolate plant Theobroma cacao L. to show for the first time
to our knowledge that a single population, the Criollo population, underwent strong
domestication ~3600 years ago (95% CI: 2481–13,806 years ago). We also show that during
the process of domestication, there was strong selection for genes involved in the metabolism
of the colored protectants anthocyanins and the stimulant theobromine, as well as
disease resistance genes. Our analyses show that domesticated populations of T. cacao
(Criollo) maintain a higher proportion of high-frequency deleterious mutations. We also show
for the first time the negative consequences of the increased accumulation of deleterious
mutations during domestication on the fitness of individuals (significant reduction in kilograms
of beans per hectare per year as Criollo ancestry increases, as estimated from a GLM,
P = 0.000425).
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Communications Biology