Organization of telomere sequences in birds: evidence for arrays of extreme length and for in vivo shortening

Telomeres are the specialized ends of chromosomes consisting of highly conserved repeat (5′-TTAGGG-3′)_n sequences. Lack of information regarding the existence of an in vivo telomere clock function in birds, conflicting data regarding telomere array length in the chicken model, and the paucity of molecular telomere information for other avian species led us to study telomere array organization within and among 18 species and subspecies of birds. Most of the species contained between 2% and 4% telomere sequence per diploid genome. Arrays spanning 0.5–10 kb (Class I) and 10–40 kb (Class II) were observed in all of the species studied. Extremely long arrays, ranging from hundreds of kilobases to 1–2 Mb (Class III) were observed in all except two raptor species, the northern goshawk and American bald eagle. In chicken, there was evidence for shortening of the Class II arrays in vivo, based on intraindividual comparisons of somatic versus germline tissues in birds of different ages; terminally differentiated erythrocyte arrays were, on average, 2.3 kb shorter than sperm (germline) arrays. This study provides the first evidence for the existence of telomere arrays significantly larger than have been described for any vertebrate species to date and for developmentally programmed in vivo telomere shortening in the Aves taxa. The novel finding of megabase-sized telomere arrays may be an important feature of avian karyotypes that contain a large number of very small genetic units, the microchromosomes.