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The Globin Gene Family In Arthropods: Evolution And Functional Diversity, Andreas Prothmann, Federico G. Hoffmann, Juan C. Opazo, Peter Herbener, Jay F. Storz, Thorsten Burmester, Thomas Hankeln
The Globin Gene Family In Arthropods: Evolution And Functional Diversity, Andreas Prothmann, Federico G. Hoffmann, Juan C. Opazo, Peter Herbener, Jay F. Storz, Thorsten Burmester, Thomas Hankeln
School of Biological Sciences: Faculty Publications
Globins are small heme-proteins that reversibly bind oxygen. Their most prominent roles in vertebrates are the transport and storage of O2 for oxidative energy metabolism, but recent research has suggested alternative, non-respiratory globin functions. In the species-rich and ecologically highly diverse taxon of arthropods, the coppercontaining hemocyanin is considered the main respiratory protein. However, recent studies have suggested the presence of globin genes and their proteins in arthropod taxa, including model species like Drosophila. To systematically assess the taxonomic distribution, evolution and diversity of globins in arthropods, we systematically searched transcriptome and genome sequence data and found a conserved, widespread …
Gene Turnover And Diversification Of The Α- And Β- Globin Gene Families In Sauropsid Vertebrates, Federico G. Hoffmann, Michael W. Vandewege, Jay F. Storz, Juan C. Opazo
Gene Turnover And Diversification Of The Α- And Β- Globin Gene Families In Sauropsid Vertebrates, Federico G. Hoffmann, Michael W. Vandewege, Jay F. Storz, Juan C. Opazo
School of Biological Sciences: Faculty Publications
The genes that encode the α- and β-chain subunits of vertebrate hemoglobin have served as a model system for elucidating general principles of gene family evolution, but little is known about patterns of evolution in amniotes other than mammals and birds. Here,we report a comparative genomic analysis of the α- and β-globin gene clusters in sauropsids (archosaurs and nonavian reptiles). The objectives were to characterize changes in the size and membership composition of the α- and β-globin gene families within and among the major sauropsid lineages, to reconstruct the evolutionary history of the sauropsid α- and β-globin genes, to resolve …
Epistasis Constrains Mutational Pathways Of Hemoglobin Adaptation In High-Altitude Pikas, Danielle M. Tufts, Chandrasekhar Natarajan, Inge G. Revsbech, Joana Projecto- Garcia, Federico G. Hoffmann, Roy E. Weber, Angela Fago, Hideaki Moriyama, Jay F. Storz
Epistasis Constrains Mutational Pathways Of Hemoglobin Adaptation In High-Altitude Pikas, Danielle M. Tufts, Chandrasekhar Natarajan, Inge G. Revsbech, Joana Projecto- Garcia, Federico G. Hoffmann, Roy E. Weber, Angela Fago, Hideaki Moriyama, Jay F. Storz
School of Biological Sciences: Faculty Publications
A fundamental question in evolutionary genetics concerns the roles of mutational pleiotropy and epistasis in shaping trajectories of protein evolution. This question can be addressed most directly by using site-directed mutagenesis to explore the mutational landscape of protein function in experimentally defined regions of sequence space. Here, we evaluate how pleiotropic trade-offs and epistatic interactions influence the accessibility of alternative mutational pathways during the adaptive evolution of hemoglobin (Hb) function in high-altitude pikas (Mammalia: Lagomorpha). By combining ancestral protein resurrection with a combinatorial protein-engineering approach, we examined the functional effects of sequential mutational steps in all possible pathways that produced …
Contribution Of A Mutational Hot Spot To Hemoglobin Adaptation In High-Altitude Andean House Wrens, Spencer C. Galen, Chandrasekhar Natarajan, Hideaki Moriyama, Roy E. Weber, Angela Fago, Phred M. Benham, Andrea N. Chavez, Zachary A. Cheviron, Jay F. Storz, Christopher C. Witt
Contribution Of A Mutational Hot Spot To Hemoglobin Adaptation In High-Altitude Andean House Wrens, Spencer C. Galen, Chandrasekhar Natarajan, Hideaki Moriyama, Roy E. Weber, Angela Fago, Phred M. Benham, Andrea N. Chavez, Zachary A. Cheviron, Jay F. Storz, Christopher C. Witt
School of Biological Sciences: Faculty Publications
A key question in evolutionary genetics is why certain mutations or certain types of mutation make disproportionate contributions to adaptive phenotypic evolution. In principle, the preferential fixation of particular mutations could stem directly from variation in the underlying rate of mutation to function-altering alleles. However, the influence of mutation bias on the genetic architecture of phenotypic evolution is difficult to evaluate because data on rates of mutation to function-altering alleles are seldom available. Here, we report the discovery that a single point mutation at a highly mutable site in the βA-globin gene has contributed to an evolutionary change in hemoglobin …
Intraspecific Polymorphism, Interspecific Divergence, And The Origins Of Function-Altering Mutations In Deer Mouse Hemoglobin, Chandrasekhar Natarajan, Federico G. Hoffmann, Hayley C. Lanier, Cole J. Wolf, Zachary A. Cheviron, Matthew L. Spangler, Roy E. Weber, Angela Fago, Jay F. Storz
Intraspecific Polymorphism, Interspecific Divergence, And The Origins Of Function-Altering Mutations In Deer Mouse Hemoglobin, Chandrasekhar Natarajan, Federico G. Hoffmann, Hayley C. Lanier, Cole J. Wolf, Zachary A. Cheviron, Matthew L. Spangler, Roy E. Weber, Angela Fago, Jay F. Storz
School of Biological Sciences: Faculty Publications
Major challenges for illuminating the genetic basis of phenotypic evolution are to identify causative mutations, to quantify their functional effects, to trace their origins as new or preexisting variants, and to assess the manner in which segregating variation is transduced into species differences. Here, we report an experimental analysis of genetic variation in hemoglobin (Hb) function within and among species of Peromyscus mice that are native to different elevations. A multilocus survey of sequence variation in the duplicated HBA and HBB genes in Peromyscus maniculatus revealed that function-altering amino acid variants are widely shared among geographically disparate populations
from different …
Gene Turnover In The Avian Globin Gene Families And Evolutionary Changes In Hemoglobin Isoform Expression, Juan C. Opazo, Federico G. Hoffmann, Chandrasekhar Natarajan, Christopher C. Witt, Michael Berenbrink, Jay F. Storz
Gene Turnover In The Avian Globin Gene Families And Evolutionary Changes In Hemoglobin Isoform Expression, Juan C. Opazo, Federico G. Hoffmann, Chandrasekhar Natarajan, Christopher C. Witt, Michael Berenbrink, Jay F. Storz
School of Biological Sciences: Faculty Publications
The apparent stasis in the evolution of avian chromosomes suggests that birds may have experienced relatively low rates of gene gain and loss in multigene families. To investigate this possibility and to explore the phenotypic consequences of variation in gene copy number, we examined evolutionary changes in the families of genes that encode the α- and β-type subunits of hemoglobin (Hb), the tetrameric α2β2 protein responsible for blood-O2 transport. A comparative genomic analysis of 52 bird species revealed that the size and membership composition of the α- and β-globin gene families have remained remarkably constant during …