@article{opperman_bird_williamson_rokhsar_burke_cohn_cromer_diener_gajan_graham_et al._2008, title={Sequence and genetic map of Meloidogyne hapla: A compact nematode genome for plant parasitism}, volume={105}, ISSN={["1091-6490"]}, url={http://www.scopus.com/inward/record.url?eid=2-s2.0-54149092490&partnerID=MN8TOARS}, DOI={10.1073/pnas.0805946105}, abstractNote={ We have established Meloidogyne hapla as a tractable model plant-parasitic nematode amenable to forward and reverse genetics, and we present a complete genome sequence. At 54 Mbp, M. hapla represents not only the smallest nematode genome yet completed, but also the smallest metazoan, and defines a platform to elucidate mechanisms of parasitism by what is the largest uncontrolled group of plant pathogens worldwide. The M. hapla genome encodes significantly fewer genes than does the free-living nematode Caenorhabditis elegans (most notably through a reduction of odorant receptors and other gene families), yet it has acquired horizontally from other kingdoms numerous genes suspected to be involved in adaptations to parasitism. In some cases, amplification and tandem duplication have occurred with genes suspected of being acquired horizontally and involved in parasitism of plants. Although M. hapla and C. elegans diverged >500 million years ago, many developmental and biochemical pathways, including those for dauer formation and RNAi, are conserved. Although overall genome organization is not conserved, there are areas of microsynteny that may suggest a primary biological function in nematodes for those genes in these areas. This sequence and map represent a wealth of biological information on both the nature of nematode parasitism of plants and its evolution. }, number={39}, journal={PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA}, author={Opperman, Charles H. and Bird, David M. and Williamson, Valerie M. and Rokhsar, Dan S. and Burke, Mark and Cohn, Jonathan and Cromer, John and Diener, Steve and Gajan, Jim and Graham, Steve and et al.}, year={2008}, month={Sep}, pages={14802–14807} } @article{diener_houfek_kalat_windham_burke_opperman_dean_2005, title={Alkahest NuclearBLAST: a user-friendly BLAST management and analysis system}, volume={6}, journal={BMC Bioinformatics}, author={Diener, S. E. and Houfek, T. D. and Kalat, S. E. and Windham, D. E. and Burke, M. and Opperman, C. and Dean, R. A.}, year={2005} } @article{craven_peterson_windham_mitchell_martin_2005, title={Molecular identification of the turf grass rapid blight pathogen}, volume={97}, ISSN={["1557-2536"]}, DOI={10.3852/mycologia.97.1.160}, abstractNote={Rapid blight is a newly described disease on turf grasses, primarily found on golf courses using suboptimal water for irrigation purposes. On the basis of shared morphological characteristics, it has been proposed that the rapid blight pathogen belongs to a genus of stramenopiles, Labyrinthula, which had been known to cause disease of marine plants only. We have collected 10 isolates from four species of turf grass in five states and sequenced portions of the SSU (18S) rDNA gene from each to provide a definitive taxonomic placement for rapid blight pathogens. We also included sequences from Labyrinthuloides yorkensis, Schizochytrium aggregatum, Aplanochytrium sp., Thraustochytrium striatum, Achlya bisexualis and several nonturf-grass isolates of Labyrinthula. We found that rapid blight isolates indeed are placed firmly within the genus Labyrinthula and that they lack detectable genetic diversity in the 18S rDNA region. We propose that the rapid blight pathogens share a recent common ancestor and might have originated from a single, infected population.}, number={1}, journal={MYCOLOGIA}, author={Craven, KD and Peterson, PD and Windham, DE and Mitchell, TK and Martin, SB}, year={2005}, pages={160–166} } @article{donofrio_rajagopalon_brown_diener_windham_nolin_floyd_mitchell_galadima_tucker_et al._2005, title={PACLIMS: A component LIM system for high-throughput functional genomic analysis}, volume={6}, journal={BMC Bioinformatics}, author={Donofrio, N. and Rajagopalon, R. and Brown, D. and Diener, S. and Windham, D. and Nolin, S. and Floyd, A. and Mitchell, T. and Galadima, N. and Tucker, S. and et al.}, year={2005} }