Characterization of High-Copy-Number Retrotransposons From the Large Genomes of the Louisiana Iris Species and Their Use as Molecular Markers

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Characterization of High-Copy-Number Retrotransposons From the Large Genomes of the Louisiana Iris Species and Their Use as Molecular Markers

Edward K. Kentner^a, Michael L. Arnold^a, and Susan R. Wessler^a
^a Department of Genetics, University of Georgia, Athens, Georgia 30602

Corresponding author: Edward K. Kentner, Life Sciences Bldg., University of Georgia, Athens, GA 30602., ekentner{at}arches.uga.edu (E-mail)

Communicating editor: J. A. BIRCHLER

The Louisiana iris species Iris brevicaulis and I. fulva aremorphologically and karyotypically distinct yet frequently hybridizein nature. A group of high-copy-number TY3/gypsy-like retrotransposonswas characterized from these species and used to develop molecularmarkers that take advantage of the abundance and distributionof these elements in the large iris genome. The copy numberof these IRRE elements (for iris retroelement), is $~$ 1 x 10⁵,accounting for $~$ 6–10% of the $~$ 10,000-Mb haploid Louisianairis genome. IRRE elements are transcriptionally active in I.brevicaulis and I. fulva and their F₁ and backcross hybrids.The LTRs of the elements are more variable than the coding domainsand can be used to define several distinct IRRE subfamilies.Transposon display or S-SAP markers specific to two of thesesubfamilies have been developed and are highly polymorphic amongwild-collected individuals of each species. As IRRE elementsare present in each of 11 iris species tested, the marker systemhas the potential to provide valuable comparative data on thedynamics of retrotransposition in large plant genomes.

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