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Full-Text Articles in Life Sciences
To What Extent Do Physiological Tolerances Determine Elevational Range Limits Of Mammals?, Jay F. Storz, Graham R. Scott
To What Extent Do Physiological Tolerances Determine Elevational Range Limits Of Mammals?, Jay F. Storz, Graham R. Scott
School of Biological Sciences: Faculty Publications
A key question in biology concerns the extent to which distributional range limits of species are determined by intrinsic limits of physiological tolerance. Here, we use common-garden data for wild rodents to assess whether species with higher elevational range limits typically have higher thermogenic capacities in comparison to closely related lowland species. Among South American leaf-eared mice (genus Phyllotis), mean thermogenic performance is higher in species with higher elevational range limits, but there is little among-species variation in the magnitude of plasticity in this trait. In the North American rodent genus Peromyscus, highland deer mice (Peromyscus maniculatus …
Gene Regulatory Changes Underlie Developmental Plasticity In Respiration And Aerobic Performance In Highland Deer Mice, Rena M. Schweizer, Catherine M. Ivy, Chandrasekhar Natarajan, Graham R. Scott, Jay F. Storz, Zachary A. Cheviron
Gene Regulatory Changes Underlie Developmental Plasticity In Respiration And Aerobic Performance In Highland Deer Mice, Rena M. Schweizer, Catherine M. Ivy, Chandrasekhar Natarajan, Graham R. Scott, Jay F. Storz, Zachary A. Cheviron
School of Biological Sciences: Faculty Publications
Phenotypic plasticity can play an important role in the ability of animals to tolerate environmental stress, but the nature and magnitude of plastic responses are often specific to the developmental timing of exposure. Here, we examine changes in gene expression in the diaphragm of highland deer mice (Peromyscus maniculatus) in response to hypoxia exposure at different stages of development. In highland deer mice, developmental plasticity in diaphragm function may mediate changes in several respiratory traits that influence aerobic metabolism and performance under hypoxia. We generated RNAseq data from diaphragm tissue of adult deer mice exposed to (1) life-long …
To What Extent Do Physiological Tolerances Determine Elevational Range Limits Of Mammals?, Jay F. Storz, Graham R. Scott
To What Extent Do Physiological Tolerances Determine Elevational Range Limits Of Mammals?, Jay F. Storz, Graham R. Scott
School of Biological Sciences: Faculty Publications
A key question in biology concerns the extent to which distributional range limits of species are determined by intrinsic limits of physiological tolerance. Here, we use common-garden data for wild rodents to assess whether species with higher elevational range limits typically have higher thermogenic capacities in comparison to closely related lowland species. Among South American leaf-eared mice (genus Phyllotis), mean thermogenic performance is higher in species with higher elevational range limits, but there is little among-species variation in the magnitude of plasticity in this trait. In the North American rodent genus Peromyscus, highland deermice (Peromyscus maniculatus) …
Time Domains Of Hypoxia Responses And -Omics Insights, James J. Yu, Amy L. Non, Erica C. Heinrich, Wanjun Gu, Joe Alcock, Esteban A. Moya, Elijah S. Lawrence, Michael S. Tift, Katie A. O'Brien, Jay F. Storz, Anthony V. Signore, Jane I. Khudyakov, William K. Milsom, Sean M. Wilson, Cynthia M. Beall, Francisco C. Villafuerte, Tsering Stobdan, Colleen G. Julian, Lorna G. Moore, Mark M. Fuster, Jennifer A. Stokes, Richard Milner, John B. West, Jiao Zhang, John Y. Shyy, Ainash Childebayeva, José Pablo Vázquez-Medina, Luu V. Pham, Omar A. Mesarwi, James E. Hall, Zachary A. Cheviron, Jeremy Sieker, Arlin B. Blood, Jason X. Yuan, Tatum S. Simonson, Et Al.
Time Domains Of Hypoxia Responses And -Omics Insights, James J. Yu, Amy L. Non, Erica C. Heinrich, Wanjun Gu, Joe Alcock, Esteban A. Moya, Elijah S. Lawrence, Michael S. Tift, Katie A. O'Brien, Jay F. Storz, Anthony V. Signore, Jane I. Khudyakov, William K. Milsom, Sean M. Wilson, Cynthia M. Beall, Francisco C. Villafuerte, Tsering Stobdan, Colleen G. Julian, Lorna G. Moore, Mark M. Fuster, Jennifer A. Stokes, Richard Milner, John B. West, Jiao Zhang, John Y. Shyy, Ainash Childebayeva, José Pablo Vázquez-Medina, Luu V. Pham, Omar A. Mesarwi, James E. Hall, Zachary A. Cheviron, Jeremy Sieker, Arlin B. Blood, Jason X. Yuan, Tatum S. Simonson, Et Al.
School of Biological Sciences: Faculty Publications
The ability to respond rapidly to changes in oxygen tension is critical for many forms of life. Challenges to oxygen homeostasis, specifically in the contexts of evolutionary biology and biomedicine, provide important insights into mechanisms of hypoxia adaptation and tolerance. Here we synthesize findings across varying time domains of hypoxia in terms of oxygen delivery, ranging from early animal to modern human evolution and examine the potential impacts of environmental and clinical challenges through emerging multi-omics approaches. We discuss how diverse animal species have adapted to hypoxic environments, how humans vary in their responses to hypoxia (i.e., in the context …
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 …
Life Ascending: Mechanism And Process In Physiological Adaptation To High-Altitude Hypoxia, Jay F. Storz, Graham R. Scott
Life Ascending: Mechanism And Process In Physiological Adaptation To High-Altitude Hypoxia, Jay F. Storz, Graham R. Scott
School of Biological Sciences: Faculty Publications
To cope with the reduced availability of O2 at high altitude, air-breathing vertebrates have evolved myriad adjustments in the cardiorespiratory system to match tissue O2 delivery with metabolic O2 demand. We explain how changes at interacting steps of the O2 transport pathway contribute to plastic and evolved changes in whole-animal aerobic performance under hypoxia. In vertebrates native to high altitude, enhancements of aerobic performance under hypoxia are attributable to a combination of environ- mentally induced and evolved changes in multiple steps of the pathway. Additionally, evidence suggests that many high-altitude natives have evolved mechanisms for attenuating maladaptive acclimatization responses to …
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 …