DNA doubled in conifer ancestors | Science News



Support credible science journalism.

Subscribe to Science News today.

News in Brief

DNA doubled in conifer ancestors

2:51pm, November 24, 2015

Ancestors of  Douglas firs (Pseudotsuga menziesii), such as this one growing in Bryce Canyon National Park, and other conifers underwent genome duplication — adding extra copies of genetic material — around the time of the Permian-Triassic extinction.

Conifers grew giant genomes thanks to double doses of genetic material. Ancient ancestors of today’s pine, cypress and yew trees had extra copies of their entire genome, the set of genetic instructions for an organism, researchers report November 20 in Science Advances.

Whole genome duplications are common in plants, but a previous look at Norway spruce DNA found no evidence of such doubling (SN Online: 5/22/13). The new study examined the entire set of active genes, or the transcriptome, of 24 conifers and other seed plants and three distantly related plants.

In ancestors of cypress and yew trees, genome duplication occurred about 275 million to 210 million years ago, Michael Barker of the University of Arizona and colleagues calculate. Such a multiplication occurred in the pine family

This article is available only to subscribing members. Join the Society today or Log in.

Get Science News headlines by e-mail.

More Molecular Evolution articles

From the Nature Index Paid Content