The Amborella Genome and the Evolution of Flowering Plants

dePamphilis, C. W.; de Kochko, A.; Palmer, J. D.; Rounsley, S.; Sankoff, D.; Barbazuk, W. B.; Ma, H.; Schuster, S. C.; Ammiraju, J. S. S.; Chamala, S.; Chanderbali, A. S.; Hong, M.; Determann, R.; Ralph, P.; Talag, J.; Wing, R. A.; Tomsho, L.; Walts, B.; Soltis, D. E.; Wanke, S.; Chang, T.-H.; Lan, T.; Arikit, S.; Leebens-Mack, J.; Axtell, M. J.; Ayyampalayam, S.; Burnette, J. M.; De Paoli, E.; Farrell, N. P.; Harkess, A.; Albert, V. A.; Wessler, S. R.; Jiao, Y.; Liu, K.; Estill, J. C.; Mei, W.; Meyers, B. C.; Shahid, S.; Wafula, E.; Der, J. P.; Zhai, J.; Zhang, X.; Carretero-Paulet, L.; Lyons, E.; Tang, H.; Zheng, C.; Altman, N. S.; Chen, F.; Chen, J.-Q.; Chiang, V.; Fogliani, B.; Guo, C.; Harholt, J.; Job, C.; Job, D.; Kim, S.; Kong, H.; Li, G.; Li, N.; Liu, J.; Li, L.; Park, J.; Qi, X.; Soltis, P. S.; Rajjou, L.; Burtet-Sarramegna, V.; Sederoff, R.; Sun, Y.-H.; Ulvskov, P.; Villegente, M.; Xue, J.-Y.; Yeh, T.-F.; Yu, X.; Bruenn, R. A.; Herrera-Estrella, L. R.; Ibarra-Laclette, E.; Kirst, M.; Pissis, S. P.; Poncet, V.; Acosta, Juan J.

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American Association for the Advancement of Science, Science, 6165(342), 2013

DOI: 10.1126/science.1241089

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The Amborella Genome and the Evolution of Flowering Plants

Journal article published in 2013 by C. W. dePamphilis, A. de Kochko, J. D. Palmer, S. Rounsley, D. Sankoff, W. B. Barbazuk, H. Ma, S. C. Schuster, J. S. S. Ammiraju, S. Chamala, A. S. Chanderbali, M. Hong, R. Determann, P. Ralph, J. Talag and other authors.

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Abstract

Shaping Plant Evolution Amborella trichopoda is understood to be the most basal extant flowering plant and its genome is anticipated to provide insights into the evolution of plant life on Earth (see the Perspective by Adams ). To validate and assemble the sequence, Chamala et al. (p. 1516 ) combined fluorescent in situ hybridization (FISH), genomic mapping, and next-generation sequencing. The Amborella Genome Project (p. 10.1126/science.1241089 ) was able to infer that a whole-genome duplication event preceded the evolution of this ancestral angiosperm, and Rice et al. (p. 1468 ) found that numerous genes in the mitochondrion were acquired by horizontal gene transfer from other plants, including almost four entire mitochondrial genomes from mosses and algae.

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The Amborella Genome and the Evolution of Flowering Plants

Abstract