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Evolutionary history of citrus revealed by most comprehensive study to date

Date:
April 14, 2015
Source:
Molecular Biology and Evolution (Oxford University Press)
Summary:
Citrus fruits -- delectable oranges, lemons, limes, kumquats and grapefruits -- are among the most important commercially cultivated fruit trees in the world, yet little is known of the origin of the citrus species and the history of its domestication. Now, researchers have performed the largest and most detailed genomic analysis on 30 species of citrus, representing 34 citrus genotypes, and used chloroplast genomic data to reconstruct its evolutionary history.
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Citrus fruits -- delectable oranges, lemons, limes, kumquats and grapefruits -- are among the most important commercially cultivated fruit trees in the world, yet little is known of the origin of the citrus species and the history of its domestication.

Now, Joaquin Dopazo et al, in a new publication in the journal Molecular Biology and Evolution, have performed the largest and most detailed genomic analysis on 30 species of Citrus, representing 34 citrus genotypes, and used chloroplast genomic data to reconstruct its evolutionary history.

Overall, the results confirm a monophyletic origin -- a single common ancestor, that gave rise to all citrus fruit. Another result from the study was the remarkable level of heteroplasmy, or hybridization seen, an event that the authors showed occurred frequently in Citrus evolution.

The Citrus evolutionary tree is made of three main branches: the citron/Australian species, the pummelo/micrantha and the papeda/mandarins. The Citrus ancestors were generated in a succession of speciation events occurring between 7.5-6.3 Mya, followed by a second radiation (5.0-3.7 Mya) that separated citrons from Australian species, and finally, Micrantha from Pummelos and Papedas from mandarins. Further radiation of Fortunella, sour and sweet oranges, lemons, and mandarins took place later (1.5-0.2 Mya).

On a finer scale, the group also identified 6 genes that may be general hotspots of natural genetic variation in Citrus. Advantageous mutations for adaptation were detected in 4 of these genes, matK, ndhF, ycf1 and ccsA. In particular, matK and ndhF were thought to help the Australian varieties adapt to hotter and drier climates while ccsA represents the emergence of mandarins.

"This new phylogeny based on chloroplast genomes provides an accurate description of the evolution of the genus citrus and clears up years of ambiguities derived from previous proposals based on one or a few nuclear or chloroplast genes," said Dopazo.


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Materials provided by Molecular Biology and Evolution (Oxford University Press). Note: Content may be edited for style and length.


Journal Reference:

  1. J. Carbonell-Caballero, R. Alonso, V. Ibanez, J. Terol, M. Talon, J. Dopazo. A phylogenetic analysis of 34 chloroplast genomes elucidates the relationships between wild and domestic species within the genus Citrus. Molecular Biology and Evolution, 2015; DOI: 10.1093/molbev/msv082

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Molecular Biology and Evolution (Oxford University Press). "Evolutionary history of citrus revealed by most comprehensive study to date." ScienceDaily. ScienceDaily, 14 April 2015. <www.sciencedaily.com/releases/2015/04/150414212311.htm>.
Molecular Biology and Evolution (Oxford University Press). (2015, April 14). Evolutionary history of citrus revealed by most comprehensive study to date. ScienceDaily. Retrieved November 5, 2024 from www.sciencedaily.com/releases/2015/04/150414212311.htm
Molecular Biology and Evolution (Oxford University Press). "Evolutionary history of citrus revealed by most comprehensive study to date." ScienceDaily. www.sciencedaily.com/releases/2015/04/150414212311.htm (accessed November 5, 2024).

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