Found 25 results[ Author] Title Type Year
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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.
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.