Ryan Peeler scite author profile

Genetic mapping studies provide insight into the pattern and extent of genetic incompatibilities affecting hybridization between closely related species. Genetic maps of two species of Louisiana Irises, Iris fulva and I. brevicaulis, were constructed from transposon-based molecular markers segregating in reciprocal backcross (BC 1 ) interspecific hybrids and used to investigate genomic patterns of species barriers inhibiting introgression. Linkage mapping analyses indicated very little genetic incompatibility between I. fulva and I. brevicaulis in the form of map regions exhibiting transmission ratio distortion, and this was confirmed using a Bayesian multipoint mapping analysis. These results demonstrate the utility of transposonbased marker systems for genetic mapping studies of wild plant species and indicate that the genomes of I. fulva and I. brevicaulis are highly permeable to gene flow and introgression from one another via backcrossing.

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DNA-binding specificity of rice mariner-like transposases and interactions with Stowaway MITEs

Feschotte

Østerlund²,

Peeler³

et al. 2005

Nucleic Acids Research

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Mariner-like elements (MLEs) are DNA transposons found throughout the plant and animal kingdoms. A previous computational survey of the rice (Oryza sativa) genome sequence revealed 34 full length MLEs (Osmars) belonging to 25 distinct families. This survey, which also identified sequence similarities between the Osmar elements and the Stowaway superfamily of MITEs, led to the formulation of a hypothesis whereby Stowaways are mobilized by OSMAR transposases. Here we investigate the DNA-binding activities and specificities of two OSMAR transposases, OSMAR5 and OSMAR10. Like other mariner-like transposases, the OSMARs bind specifically to the terminal inverted repeat (TIR) sequences of their encoding transposons. OSMAR5 binds DNA through a bipartite N-terminal domain containing two functionally separable helix-turn-helix motifs, resembling the paired domain of Tc1-like transposases and PAX transcription factors in metazoans. Furthermore, binding of the OSMARs is not limited to their own TIRs; OSMAR5 transposase can also interact in vitro with TIRs from closely related Osmar elements and with consensus TIRs of several Stowaway families mined from the rice genome sequence. These results provide the first biochemical evidence for a functional relationship between Osmar elements and Stowaway MITEs and lead us to suggest that there is extensive cross-talk among related but distinct transposon families co-existing in a single eukaryote genome.

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Ryan Peeler

Genetic Mapping of Species Boundaries in Louisiana Irises UsingIRRERetrotransposon Display Markers

DNA-binding specificity of rice mariner-like transposases and interactions with Stowaway MITEs

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