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Your search keyword '"Alex Dornburg"' showing total 4 results
Start Over Author "Alex Dornburg" Publisher oxford university press
4 results on '"Alex Dornburg"'

1. Molecular Biology and Evolution of Cancer: From Discovery to Action

Author

Jeffrey Nicholas Fisk, Heather L. Gardner, Alex Dornburg, Kate Megquier, Norman A. Johnson, Amy M. Boddy, Jason A. Somarelli, Sudhir Kumar, Vincent L. Cannataro, Jeffrey H. Chuang, Stephen G. Gaffney, Francesca D. Ciccarelli, Jeffrey P. Townsend, Sheng Li, James DeGregori, Anna R. Panchenko, Ella F. Gunady, and von Haeseler, Arndt

Subjects
Process (engineering), Fitness landscape, Evolution, comparative oncology, fitness landscapes, Genomics, Biology, Ecological systems theory, tumor phylogenetics, Metastasis, Evolution, Molecular, 03 medical and health sciences, 0302 clinical medicine, Rare Diseases, Neoplasms, Breast Cancer, medicine, Genetics, cancer, metastasis, Humans, Stem Cell Niche, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Phylogeny, 030304 developmental biology, Cognitive science, 0303 health sciences, Evolutionary Biology, Cancer, Molecular, medicine.disease, Primary tumor, 3. Good health, Action (philosophy), 030220 oncology & carcinogenesis, Perspective, Disease Progression, Biochemistry and Cell Biology, Genetic Fitness
Abstract

Cancer progression is an evolutionary process. During this process, evolving cancer cell populations encounter restrictive ecological niches within the body, such as the primary tumor, circulatory system, and diverse metastatic sites. Efforts to prevent or delay cancer evolution—and progression—require a deep understanding of the underlying molecular evolutionary processes. Herein we discuss a suite of concepts and tools from evolutionary and ecological theory that can inform cancer biology in new and meaningful ways. We also highlight current challenges to applying these concepts, and propose ways in which incorporating these concepts could identify new therapeutic modes and vulnerabilities in cancer.

Published
2019

2. Phylogenomic Analysis of a Putative Missing Link Sparks Reinterpretation of Leech Evolution

Author

Alex Dornburg, Bronwyn W. Williams, Alan R. Lemmon, Frank E. Anderson, Emily Moriarty Lemmon, Samuel W. James, Anna J. Phillips, Christer Erséus, and Katerina L. Zapfe

Subjects
0106 biological sciences, animal structures, Leech, Acanthobdella, phylogeny, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Monophyly, Phylogenetics, sanguivory, Genetics, 14. Life underwater, Clade, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Reinterpretation, 0303 health sciences, biology, Phylogenetic tree, Branchiobdellida, biology.organism_classification, symbiosis, Evolutionary biology, Hirudinida, Research Article, anchored hybrid enrichment
Abstract

Leeches (Hirudinida) comprise a charismatic, yet often maligned group of organisms. Despite their ecological, economic, and medical importance, a general consensus on the phylogenetic relationships of major hirudinidan lineages is lacking. This absence of a consistent, robust phylogeny of early-diverging lineages has hindered our understanding of the underlying processes that enabled evolutionary diversification of this clade. Here, we used an anchored hybrid enrichment-based phylogenomic approach, capturing hundreds of loci to investigate phylogenetic relationships among major hirudinidan lineages and their closest living relatives. Our results suggest that a dramatic reinterpretation of early leech evolution is warranted. We recovered Branchiobdellida as sister to a clade that includes all major lineages of hirudinidans, but found Acanthobdella to be nested within Oceanobdelliformes. These results cast doubt on the utility of Acanthobdella as a “missing link” used to explain the origin of blood-feeding in hirudineans. Further, our results support a deep divergence between predominantly marine and freshwater lineages, while not supporting the reciprocal monophyly of jawed and proboscis-bearing leeches. To sum up, our phylogenomic resolution of early-diverging leeches provides a necessary foundation for illuminating the evolution of host–symbiont associations and key adaptations that have allowed leeches to colonize a wide diversity of habitats worldwide.

Published
2019

4. Expression of concern: Phylogenomic Analysis of a Putative Missing Link Sparks Reinterpretation of Leech Evolution

Author

Samuel W. James, Anna J. Phillips, Frank E. Anderson, Katerina L. Zapfe, Alex Dornburg, Bronwyn W. Williams, Alan R. Lemmon, Christer Erséus, and Emily Moriarty Lemmon

Subjects
Reinterpretation, Expression of Concern, Leech, Sequence Analysis, DNA, Biology, Expression (architecture), Evolutionary biology, Leeches, Genetics, Animals, Link (knot theory), Symbiosis, Ecology, Evolution, Behavior and Systematics, Phylogeny
Abstract

Leeches (Hirudinida) comprise a charismatic, yet often maligned group of organisms. Despite their ecological, economic, and medical importance, a general consensus on the phylogenetic relationships of major hirudinidan lineages is lacking. This absence of a consistent, robust phylogeny of early-diverging lineages has hindered our understanding of the underlying processes that enabled evolutionary diversification of this clade. Here, we used an anchored hybrid enrichment-based phylogenomic approach, capturing hundreds of loci to investigate phylogenetic relationships among major hirudinidan lineages and their closest living relatives. Our results suggest that a dramatic reinterpretation of early leech evolution is warranted. We recovered Branchiobdellida as sister to a clade that includes all major lineages of hirudinidans, but found Acanthobdella to be nested within Oceanobdelliformes. These results cast doubt on the utility of Acanthobdella as a "missing link" used to explain the origin of blood-feeding in hirudineans. Further, our results support a deep divergence between predominantly marine and freshwater lineages, while not supporting the reciprocal monophyly of jawed and proboscis-bearing leeches. To sum up, our phylogenomic resolution of early-diverging leeches provides a necessary foundation for illuminating the evolution of host-symbiont associations and key adaptations that have allowed leeches to colonize a wide diversity of habitats worldwide.

Published
2019

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