Journal
GENOME BIOLOGY AND EVOLUTION
Volume 3, Issue -, Pages 641-653Publisher
OXFORD UNIV PRESS
DOI: 10.1093/gbe/evr043
Keywords
Burmese python; copperhead; microsatellite seeding; non-avian reptile comparative genomics; transposable elements
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Funding
- National Institutes of Health (NIH) [GM083127, GM77582, LM009451]
- National Science Foundation [DEB-0416160]
- Roche [454]
- NATIONAL INSTITUTE OF GENERAL MEDICAL SCIENCES [R01GM083127, R01GM077582] Funding Source: NIH RePORTER
- NATIONAL LIBRARY OF MEDICINE [T15LM009451] Funding Source: NIH RePORTER
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We conducted a comprehensive assessment of genomic repeat content in two snake genomes, the venomous copperhead (Agkistrodon contortrix) and the Burmese python (Python molurus bivittatus). These two genomes are both relatively small (similar to 1.4 Gb) but have surprisingly extensive differences in the abundance and expansion histories of their repeat elements. In the python, the readily identifiable repeat element content is low (21%), similar to bird genomes, whereas that of the copperhead is higher (45%), similar to mammalian genomes. The copperhead's greater repeat content arises from the recent expansion of many different microsatellites and transposable element (TE) families, and the copperhead had 23-fold greater levels of TE-related transcripts than the python. This suggests the possibility that greater TE activity in the copperhead is ongoing. Expansion of CR1 LINEs in the copperhead genome has resulted in TE-mediated microsatellite expansion (microsatellite seeding) at a scale several orders of magnitude greater than previously observed in vertebrates. Snakes also appear to be prone to horizontal transfer of TEs, particularly in the copperhead lineage. The reason that the copperhead has such a small genome in the face of so much recent expansion of repeat elements remains an open question, although selective pressure related to extreme metabolic performance is an obvious candidate. TE activity can affect gene regulation as well as rates of recombination and gene duplication, and it is therefore possible that TE activity played a role in the evolution of major adaptations in snakes; some evidence suggests this may include the evolution of venom repertoires.
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