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publications [2019/09/23 06:56] floyd |
publications [2019/09/24 02:23] floyd |
* [[kingston et al 2018|Kingston, S. E., Martino, P., Melendy, M., Reed, F. A., & Carlon, D. B. (2018). Linking genotype to phenotype in a changing ocean: inferring the genomic architecture of a blue mussel stress response with genome‐wide association. Journal of Evolutionary Biology, 31(3), 346-361.]] | * [[kingston et al 2018|Kingston, S. E., Martino, P., Melendy, M., Reed, F. A., & Carlon, D. B. (2018). Linking genotype to phenotype in a changing ocean: inferring the genomic architecture of a blue mussel stress response with genome‐wide association. Journal of Evolutionary Biology, 31(3), 346-361.]] |
* [[laruson_2018|Láruson, Á. J. (2018). Genomics of the Globally Distributed Echinoid Genus Tripneustes (Doctoral dissertation).]] | * [[laruson_2018|Láruson, Á. J. (2018). Genomics of the Globally Distributed Echinoid Genus Tripneustes (Doctoral dissertation).]] |
* Reed, F. A., Aquino-Michaels, T. G., Costantini, M. S., Láruson, Á. J., & Sutton, J. T. (2018). RPM-Drive: A robust, safe, and reversible gene drive system that remains functional after 200+ generations. arXiv preprint arXiv:1806.05304. | * [[reed et al 2018|Reed, F. A., Aquino-Michaels, T. G., Costantini, M. S., Láruson, Á. J., & Sutton, J. T. (2018). RPM-Drive: A robust, safe, and reversible gene drive system that remains functional after 200+ generations. arXiv preprint arXiv:1806.05304.]] |
* [[laruson_2017|Láruson, Á. J. (2017). Rates and relations of mitochondrial genome evolution across the Echinoidea, with special focus on the superfamily Odontophora. Ecology and Evolution, 7(13), 4543-4551.]] | * [[laruson_2017|Láruson, Á. J. (2017). Rates and relations of mitochondrial genome evolution across the Echinoidea, with special focus on the superfamily Odontophora. Ecology and Evolution, 7(13), 4543-4551.]] |
* Reed, F. A. (2017). CRISPR/Cas9 gene drive: Growing pains for a new technology. //Genetics//, 205(3), 1037. | * Reed, F. A. (2017). CRISPR/Cas9 gene drive: Growing pains for a new technology. //Genetics//, 205(3), 1037. |