新澳门六合彩内幕信息

Revealing the Genome of the Common Ancestor of All Mammals

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Image of a rat-like animal with long toes.
An international team has reconstructed the genome organization of the earliest common ancestor of all mammals. The reconstructed ancestral genome could help in understanding the evolution of mammals and in conservation of modern animals. The earliest mammal ancestor likely looked like this fossil animal, Morganucodon, which lived about 200 million years ago. Image via Wikipedia by user Funkmonk, Creative Commons Attribution-Share Alike 3.0 Unported license.

Every modern mammal, from a platypus to a blue whale, is descended from a common ancestor that lived about 180 million years ago. We don鈥檛 know a great deal about this animal, but the organization of its genome has now been computationally reconstructed by an international team of researchers. The work is published Sept. 30 in .

鈥淥ur results have important implications for understanding the evolution of mammals and for conservation efforts,鈥 said Harris Lewin, distinguished professor of evolution and ecology at the University of California, Davis, and senior author on the paper.

The researchers drew on high-quality genome sequences from 32 living species representing 23 of the 26 known orders of mammals. They included humans and chimps, wombats and rabbits, manatees, domestic cattle, rhinos, bats and pangolins. The analysis also included the chicken and Chinese alligator genomes as comparison groups. Some of these genomes are being produced as part of the Earth BioGenome Project and other large-scale biodiversity genome sequencing efforts. Lewin chairs the Working Group for the Earth BioGenome Project.

The reconstruction shows that the mammal ancestor had 19 autosomal chromosomes, which control the inheritance of an organism鈥檚 characteristics outside of those controlled by sex-linked chromosomes, (these are paired in most cells, making 38 in total) plus two sex chromosomes, said Joana Damas, first author on the study and a postdoctoral researcher at the 新澳门六合彩内幕信息 Davis Genome Center. The team identified 1,215 blocks of genes that consistently occur on the same chromosome in the same order across all 32 genomes. These building blocks of all mammal genomes contain genes that are critical to developing a normal embryo, Damas said.

Chromosomes stable over 300 million years

The researchers found nine whole chromosomes, or chromosome fragments in the mammal ancestor whose order of genes is the same in modern birds鈥 chromosomes.

鈥淭his remarkable finding shows the evolutionary stability of the order and orientation of genes on chromosomes over an extended evolutionary timeframe of more than 320 million years,鈥 Lewin said.

In contrast, regions between these conserved blocks contained more repetitive sequences and were more prone to breakages, rearrangements and sequence duplications, which are major drivers of genome evolution.

鈥淎ncestral genome reconstructions are critical to interpreting where and why selective pressures vary across genomes. This study establishes a clear relationship between chromatin architecture, gene regulation and linkage conservation,鈥 said Professor William Murphy, Texas A&M University, who was not an author on the paper. 鈥淭his provides the foundation for assessing the role of natural selection in chromosome evolution across the mammalian tree of life.鈥

The researchers were able to follow the ancestral chromosomes forward in time from the common ancestor. They found that the rate of chromosome rearrangement differed between mammal lineages. For example, in the ruminant lineage (leading to modern cattle, sheep and deer) there was an acceleration in rearrangement 66 million years ago, when an asteroid impact killed off the dinosaurs and led to the rise of mammals.

The results will help understanding the genetics behind adaptations that have allowed mammals to flourish on a changing planet over the last 180 million years, the authors said. 

Additional co-authors on the paper are: Marco Corbo, 新澳门六合彩内幕信息 Davis; Jaebum Kim, Konkuk University, Seoul; Jason Turner-Maier, Bruce Birren, Diane Genereux, Jeremy Johnson, Kerstin Lindblad-Toh and Elinor Karlsson, Broad Institute of MIT and Harvard University; Marta Farr茅, University of Kent, U.K.;  Denis Larkin, University of London, U.K.; Oliver Ryder, Marlys Houck, Shaune Hall, Lily Shiue, Stephen Thomas, Thomas Swale, Mark Daly and Cynthia Steiner, San Diego Zoo Wildlife Alliance; Jonas Korlach, Pacific Biosciences; Marcela Uliano-Silva, Wellcome Trust Sanger Institute, Cambridge, U.K.; Camila J. Mazzoni, Berlin Center for Genomics in Biodiversity Research; Martin T. Nweeia, Harvard University and the Smithsonian Institution; and Rebecca Johnson, Australian Museum and University of Sydney; and members of the Zoonomia Consortium. The work was partly supported by the U.S. Department of Agriculture.

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(PNAS)

Media Contacts:

  • Harris Lewin, Evolution and Ecology, lewin@ucdavis.edu
  • Andy Fell, News and Media Relations, 530-304-8888, ahfell@ucdavis.edu

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