Marsupial satellite DNA as faithful reflections of long-terminal repeat retroelement structure.

Abstract

Long terminal repeat (LTR) retroelements, including endogenous retroviruses, are one of the origins of satellite DNAs. However, the vast majority of satellite DNAs originating from LTR retroelements consists of parts of the element. In addition, they frequently contain sequences unrelated to that element. Here we report a novel marsupial satellite DNA (named walbRep) that contains, and consists solely of, the entire sequence of an LTR retroelement (the walb element). As is common with LTR retroelements, walb copies exhibit length variation. We focused on the abundance of copies of a specific length (2.7kb) in the genome of the red-necked wallaby. Cloning and analyses of long genomic DNA fragments revealed a satellite DNA in which the LTR sequence (0.4kb) and the sequence of the internal region of a nonautonomous walb copy (2.3kb) were repeated alternately. The junctions between these two components exhibited the same end-to-end arrangements as those in the walb element. This satellite organization could be accounted for by a simple formation model that includes slippage during chromosome pairing followed by homologous recombination but does not invoke any other types of rearrangements. We discuss the possible reasons why satellite DNAs having such structures are rarely found in mammals.