Gibbon genome sequence deepens understanding of primates rapid chromosomal rearrangements

PUBLIC RELEASE DATE:

10-Sep-2014

Contact: Glenna Picton picton@bcm.edu 713-798-4710 Baylor College of Medicine @bcmhouston

HOUSTON (Sep. 10. 2014) With the completion of the sequencing and analysis of the gibbon genome, scientists now know more about why this small ape has a rapid rate of chromosomal rearrangements, providing information that broadens understanding of chromosomal biology.

Chromosomes, essentially the packaging that encases the genetic information stored in the DNA sequence, are fundamental to cellular function and the transmission of genetic information from one generation to the next. Chromosome structure and function is also intimately related to human genetic diseases, especially cancer.

The sequence and analysis of the gibbon genome (all the chromosomes) was published today in the journal Nature and led by scientists at Oregon Health & Science University, the Baylor College of Medicine Human Genome Sequencing Center and the Washington University School of Medicine's Genome Institute.

"Everything we learn about the genome sequence of this particular primate and others analyzed in the recent past helps us to understand human biology in a more detailed and complete way," said Dr. Jeffrey Rogers, associate professor in the Human Genome Sequencing Center at Baylor and a lead author on the report. "The gibbon sequence represents a branch of the primate evolutionary tree that spans the gap between the Old World Monkeys and great apes and has not yet been studied in this way. The new genome sequence provides important insight into their unique and rapid chromosomal rearrangements."

For years, experts have known that gibbon chromosomes evolve quickly and have many breaks and rearrangements, but up until now there has been no explanation why, Rogers said. The genome sequence helps to explain the genetic mechanism unique to gibbons that results in these large scale rearrangements.

The sequencing was led by Dr. Kim Worley, professor in the Human Genome Sequencing Center, and Rogers, both of Baylor and Drs. Wesley Warren and Richard Wilson of Washington University.

The analysis was led by Dr. Lucia Carbone, an assistant professor of behavioral neuroscience in the OHSU School of Medicine and an assistant scientist in the Division of Neuroscience at OHSU's Oregon National Primate Research Center. Carbone is an expert in the study of gibbons and the lead and corresponding author on the report.

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Gibbon genome sequence deepens understanding of primates rapid chromosomal rearrangements

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