Journal article
A high-resolution map of synteny disruptions in gibbon and human genomes
L Carbone, GM Vessere, BFH Ten Hallers, B Zhu, K Osoegawa, A Mootnick, A Kofler, J Wienberg, J Rogers, S Humphray, C Scott, RA Harris, A Milosavljevic, PJ De Jong
Plos Genetics | PUBLIC LIBRARY SCIENCE | Published : 2006
Abstract
Gibbons are part of the same superfamily (Hominoidea) as humans and great apes, but their karyotype has diverged faster from the common hominoid ancestor. At least 24 major chromosome rearrangements are required to convert the presumed ancestral karyotype of gibbons into that of the hominoid ancestor. Up to 28 additional rearrangements distinguish the various living species from the common gibbon ancestor. Using the northern white-cheeked gibbon (2n = 52) (Nomascus leucogenys leucogenys) as a model, we created a high-resolution map of the homologous regions between the gibbon and human. The positions of 100 synteny breakpoints relative to the assembled human genome were determined at a resol..
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Awarded by National Human Genome Research Institute