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Articles 1 - 8 of 8
Full-Text Articles in Genetics and Genomics
Structure And Reactivity Of Hexacoordinate Hemoglobins, Smita Kakar, Federico G. Hoffmann, Jay F. Storz, Marian Fabian, Mark S. Hargrove
Structure And Reactivity Of Hexacoordinate Hemoglobins, Smita Kakar, Federico G. Hoffmann, Jay F. Storz, Marian Fabian, Mark S. Hargrove
Jay F. Storz Publications
The heme prosthetic group in hemoglobins is most often attached to the globin through coordination of either one or two histidine side chains. Those proteins with one histidine coordinating the heme iron are called “pentacoordinate” hemoglobins, a group represented by red blood cell hemoglobin and most other oxygen transporters. Those with two histidines are called “hexacoordinate hemoglobins”, which have broad representation among eukaryotes. Coordination of the second histidine in hexacoordinate Hbs is reversible, allowing for binding of exogenous ligands like oxygen, carbon monoxide, and nitric oxide. Research over the past several years has produced a fairly detailed picture of the …
Integrating Evolutionary And Functional Approaches To Infer Adaptation At Specific Loci, Jay F. Storz, Christopher W. Wheat
Integrating Evolutionary And Functional Approaches To Infer Adaptation At Specific Loci, Jay F. Storz, Christopher W. Wheat
Jay F. Storz Publications
Inferences about adaptation at specific loci are often exclusively based on the static analysis of DNA sequence variation. Ideally, population-genetic evidence for positive selection serves as a stepping-off point for experimental studies to elucidate the functional significance of the putatively adaptive variation. We argue that inferences about adaptation at specific loci are best achieved by integrating the indirect, retrospective insights provided by population-genetic analyses with the more direct, mechanistic insights provided by functional experiments. Integrative studies of adaptive genetic variation may sometimes be motivated by experimental insights into molecular function, which then provide the impetus to perform population genetic tests …
Gene Cooption And Convergent Evolution Of Oxygen Transport Hemoglobins In Jawed And Jawless Vertebrates, Federico G. Hoffmann, Juan C. Opazo, Jay F. Storz
Gene Cooption And Convergent Evolution Of Oxygen Transport Hemoglobins In Jawed And Jawless Vertebrates, Federico G. Hoffmann, Juan C. Opazo, Jay F. Storz
Jay F. Storz Publications
Natural selection often promotes evolutionary innovation by coopting preexisting genes for new functions, and this process may be greatly facilitated by gene duplication. Here we report an example of cooptive convergence where paralogous members of the globin gene superfamily independently evolved a specialized O2 transport function in the two deepest branches of the vertebrate family tree. Specifically, phylogenetic evidence demonstrates that erythroidspecific O2 transport hemoglobins evolved independently from different ancestral precursor proteins in jawed vertebrates (gnathostomes) and jawless fish (cyclostomes, represented by lamprey and hagfish). A comprehensive phylogenetic analysis of the vertebrate globin gene superfamily revealed that the …
Genes For High Altitudes, Jay F. Storz
Genes For High Altitudes, Jay F. Storz
Jay F. Storz Publications
Analyses of genomes from Tibetan populations reveal a signaling pathway that may account for high-altitude adaptation. Tibetans, who have lived at high altitudes for nearly 25,000 years, survive the low-oxygen environment through a low blood hemoglobin concentration.
Lineage-Specific Patterns Of Functional Diversification In The Α- And Β-Globin Gene Families Of Tetrapod Vertebrates, Federico G. Hoffmann, Jay F. Storz, Thomas A. Gorr, Juan C. Opazo
Lineage-Specific Patterns Of Functional Diversification In The Α- And Β-Globin Gene Families Of Tetrapod Vertebrates, Federico G. Hoffmann, Jay F. Storz, Thomas A. Gorr, Juan C. Opazo
Jay F. Storz Publications
The α- and β-globin gene families of jawed vertebrates have diversified with respect to both gene function and the developmental timing of gene expression. Phylogenetic reconstructions of globin gene family evolution have provided suggestive evidence that the developmental regulation of hemoglobin synthesis has evolved independently in multiple vertebrate lineages. For example, the embryonic β-like globin genes of birds and placental mammals are not 1:1 orthologs. Despite the similarity in developmental expression profiles, the genes are independently derived from lineage-specific duplications of a β-globin pro-ortholog. This suggests the possibility that other vertebrate taxa may also possess distinct repertoires of globin genes …
Genetic Differences In Hemoglobin Function Between Highland And Lowland Deer Mice, Jay F. Storz, Amy M. Runck, Hideaki Moriyama, Roy E. Weber, Angela Fago
Genetic Differences In Hemoglobin Function Between Highland And Lowland Deer Mice, Jay F. Storz, Amy M. Runck, Hideaki Moriyama, Roy E. Weber, Angela Fago
Jay F. Storz Publications
In high-altitude vertebrates, adaptive changes in blood–O2 affinity may be mediated by modifications of hemoglobin (Hb) structure that affect intrinsic O2 affinity and/or responsiveness to allosteric effectors that modulate Hb–O2 affinity. This mode of genotypic specialization is considered typical of mammalian species that are high-altitude natives. Here we investigated genetically based differences in Hb–O2 affinity between highland and lowland populations of the deer mouse (Peromyscus maniculatus), a generalist species that has the broadest altitudinal distribution of any North American mammal. The results of a combined genetic and proteomic analysis revealed that deer mice harbor …
Phenotypic Plasticity And Genetic Adaptation To High-Altitude Hypoxia In Vertebrates, Jay F. Storz, Graham R. Scott, Zachary A. Cheviron
Phenotypic Plasticity And Genetic Adaptation To High-Altitude Hypoxia In Vertebrates, Jay F. Storz, Graham R. Scott, Zachary A. Cheviron
Jay F. Storz Publications
High-altitude environments provide ideal testing grounds for investigations of mechanism and process in physiological adaptation. In vertebrates, much of our understanding of the acclimatization response to high-altitude hypoxia derives from studies of animal species that are native to lowland environments. Such studies can indicate whether phenotypic plasticity will generally facilitate or impede adaptation to high altitude. Here, we review general mechanisms of physiological acclimatization and genetic adaptation to high-altitude hypoxia in birds and mammals. We evaluate whether the acclimatization response to environmental hypoxia can be regarded generally as a mechanism of adaptive phenotypic plasticity, or whether it might sometimes represent …
Molecular Basis Of A Novel Adaptation To Hypoxic-Hypercapnia In A Strictly Fossorial Mole, Kevin L. Campbell, Jay F. Storz, Anthony V. Signore, Hideaki Moriyama, Kenneth C. Catania, Alexander P. Payson, Joseph Bonaventura, Jörg Stetefeld, Roy E. Weber
Molecular Basis Of A Novel Adaptation To Hypoxic-Hypercapnia In A Strictly Fossorial Mole, Kevin L. Campbell, Jay F. Storz, Anthony V. Signore, Hideaki Moriyama, Kenneth C. Catania, Alexander P. Payson, Joseph Bonaventura, Jörg Stetefeld, Roy E. Weber
Jay F. Storz Publications
Background: Elevated blood O2 affinity enhances survival at low O2 pressures, and is perhaps the best known and most broadly accepted evolutionary adjustment of terrestrial vertebrates to environmental hypoxia. This phenotype arises by increasing the intrinsic O2 affinity of the hemoglobin (Hb) molecule, by decreasing the intracellular concentration of allosteric effectors (e.g., 2,3-diphosphoglycerate; DPG), or by suppressing the sensitivity of Hb to these physiological cofactors.
Results: Here we report that strictly fossorial eastern moles (Scalopus aquaticus) have evolved a low O2 affinity, DPG-insensitive Hb - contrary to expectations for a mammalian species that is …