Found 25 results[ Author] Title Type Year
Filters: First Letter Of Last Name is O [Clear All Filters]
Differential expression of duplicated opsin genes in two eyetypes of ostracod crustaceans. Journal of molecular evolution. 59:239–249.. 2004.
Jay Hosler, An Evolutionary Novelty: Optical Allusions. Evolution: Education and Outreach. 1:548–551.. 2008.
Comparative methods for the analysis of gene-expression evolution: an example using yeast functional genomic data. Molecular biology and evolution. 22:40–50.. 2005.
Genomics and the evolutionary origins of nervous system complexity. Current opinion in genetics & development. 18:479–492.. 2008.
Osiris: accessible and reproducible phylogenetic and phylogenomic analyses within the Galaxy workflow management system. BMC Bioinformatics. 15:230.. 2014.
Repression and loss of gene expression outpaces activation and gain in recently duplicated fly genes. Proceedings of the National Academy of Sciences. 103:11637.. 2006.
Molecular phylogenetic evidence for the independent evolutionary origin of an arthropod compound eye. Proceedings of the National Academy of Sciences. 99:1426.. 2002.
Opening the “black box”: the genetic and biochemical basis of eye evolution. Evolution: Education and Outreach. 1:390–402.. 2008.
DATA FROM: Phylotranscriptomics to bring the understudied into the fold: monophyletic Ostracoda, fossil placement and pancrustacean phylogeny.. 2013.
Maximum likelihood models of trait evolution. Comments on Theoretical Biology. 8:609–625.. 2003.
A review of Gene Sharing and Evolution: The Diversity of Protein Functions, by Joram Piatigorsky. Evolution & Development. 9:514–516.. 2007.
Eyes to See: The Astonishing Variety of Vision in Nature. Nature. 563:182–183.. 2018.
Phylogeny of salmonine fishes based on growth hormone introns: Atlantic (Salmo) and Pacific (Oncorhynchus) salmon are not sister taxa. Molecular Phylogenetics and Evolution. 11:381–393.. 1999.
Myodocopa (Crustacea: Ostracoda) as models for evolutionary studies of light and vision: multiple origins of bioluminescence and extreme sexual dimorphism. Hydrobiologia. 538:179–192.. 2005.
Phylotranscriptomics to Bring the Understudied into the Fold: Monophyletic Ostracoda, Fossil Placement, and Pancrustacean Phylogeny. Molecular biology and evolution. 30:215–233.. 2013.
The eye as a replicating and diverging, modular developmental unit. TRENDS in Ecology and Evolution. 18:623–627.. 2003.
Today's multiple choice exam:(a) gene duplication;(b) structural mutation;(c) co-option;(d) regulatory mutation;(e) all of the above. Evolution & Development. 9:523–524.. 2007.
Furcation and fusion: The phylogenetics of evolutionary novelty. Developmental Biology. 431:69-76.. 2017.
Independent contrasts succeed where ancestor reconstruction fails in a known bacteriophage phylogeny. Evolution. 54:397–405.. 2000.
Furcation, field-splitting, and the evolutionary origins of novelty in arthropod photoreceptors. Arthropod structure & development. 36:386–400.. 2007.
On homology of arthropod compound eyes. Integrative and comparative biology. 43:522–530.. 2003.
Duplicated growth hormone genes from a tetraploid family of fishes: DNA sequence evolution and implications for salmonid systematics.. 1996.
How Complexity Originates: The Evolution of Animal Eyes. Annual Review of Ecology, Evolution, and Systematics. 46. 2015.