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Articles 1 - 7 of 7
Full-Text Articles in Genetics and Genomics
Mperiod2Brdm1 And Other Single Period Mutant Mice Have Normal Food Anticipatory Activity, Julie S. Pendergast, Robert H. Wendroth, Rio C. Stenner, Charles D. Keil, Shin Yamazaki
Mperiod2Brdm1 And Other Single Period Mutant Mice Have Normal Food Anticipatory Activity, Julie S. Pendergast, Robert H. Wendroth, Rio C. Stenner, Charles D. Keil, Shin Yamazaki
Biology Faculty Publications
Animals anticipate the timing of food availability via the food-entrainable oscillator (FEO). The anatomical location and timekeeping mechanism of the FEO are unknown. Several studies showed the circadian gene, Period 2, is critical for FEO timekeeping. However, other studies concluded that canonical circadian genes are not essential for FEO timekeeping. In this study, we re-examined the effects of the Per2Brdm1 mutation on food entrainment using methods that have revealed robust food anticipatory activity in other mutant lines. We examined food anticipatory activity, which is the output of the FEO, in single Period mutant mice. Single Per1, Per2 …
Deep Ancestry Of Programmed Genome Rearrangement In Lampreys, Vladimir A. Timoshevskiy, Ralph T. Lampman, Jon E. Hess, Laurie L. Porter, Jeramiah J. Smith
Deep Ancestry Of Programmed Genome Rearrangement In Lampreys, Vladimir A. Timoshevskiy, Ralph T. Lampman, Jon E. Hess, Laurie L. Porter, Jeramiah J. Smith
Biology Faculty Publications
In most multicellular organisms, the structure and content of the genome is rigorously maintained over the course of development. However some species have evolved genome biologies that permit, or require, developmentally regulated changes in the physical structure and content of the genome (programmed genome rearrangement: PGR). Relatively few vertebrates are known to undergo PGR, although all agnathans surveyed to date (several hagfish and one lamprey: Petromyzon marinus) show evidence of large scale PGR. To further resolve the ancestry of PGR within vertebrates, we developed probes that allow simultaneous tracking of nearly all sequences eliminated by PGR in P. marinus and …
Ion Channel Signaling Influences Cellular Proliferation And Phagocyte Activity During Axolotl Tail Regeneration, Brandon M. Franklin, S. Randal Voss, Jeffrey L. Osborn
Ion Channel Signaling Influences Cellular Proliferation And Phagocyte Activity During Axolotl Tail Regeneration, Brandon M. Franklin, S. Randal Voss, Jeffrey L. Osborn
Biology Faculty Publications
Little is known about the potential for ion channels to regulate cellular behaviors during tissue regeneration. Here, we utilized an amphibian tail regeneration assay coupled with a chemical genetic screen to identify ion channel antagonists that altered critical cellular processes during regeneration. Inhibition of multiple ion channels either partially (anoctamin1/Tmem16a, anoctamin2/Tmem16b, KV2.1, KV2.2, L-type CaV channels and H/K ATPases) or completely (GlyR, GABAAR, KV1.5 and SERCA pumps) inhibited tail regeneration. Partial inhibition of tail regeneration by blocking the calcium activated chloride channels, anoctamin1&2, was associated with a reduction of cellular proliferation in …
A Linkage Map For The Newt Notophthalmus Viridescens: Insights In Vertebrate Genome And Chromosome Evolution, Melissa C. Keinath, S. Randal Voss, Panagiotis A. Tsonis, Jeramiah J. Smith
A Linkage Map For The Newt Notophthalmus Viridescens: Insights In Vertebrate Genome And Chromosome Evolution, Melissa C. Keinath, S. Randal Voss, Panagiotis A. Tsonis, Jeramiah J. Smith
Biology Faculty Publications
Genetic linkage maps are fundamental resources that enable diverse genetic and genomic approaches, including quantitative trait locus (QTL) analyses and comparative studies of genome evolution. It is straightforward to build linkage maps for species that are amenable to laboratory culture and genetic crossing designs, and that have relatively small genomes and few chromosomes. It is more difficult to generate linkage maps for species that do not meet these criteria. Here, we introduce a method to rapidly build linkage maps for salamanders, which are known for their enormous genome sizes. As proof of principle, we developed a linkage map with thousands …
Variation In Dna Methylation Is Not Consistently Reflected By Sociality In Hymenoptera, Karl M. Glastad, Samuel V. Arsenault, Kim L. Vertacnik, Scott M. Geib, Sasha Kay, Bryan N. Danforth, Sandra M. Rehan, Catherine R. Linnen, Sarah D. Kocher, Brendan G. Hunt
Variation In Dna Methylation Is Not Consistently Reflected By Sociality In Hymenoptera, Karl M. Glastad, Samuel V. Arsenault, Kim L. Vertacnik, Scott M. Geib, Sasha Kay, Bryan N. Danforth, Sandra M. Rehan, Catherine R. Linnen, Sarah D. Kocher, Brendan G. Hunt
Biology Faculty Publications
Changes in gene regulation that underlie phenotypic evolution can be encoded directly in the DNA sequence or mediated by chromatin modifications such as DNA methylation. It has been hypothesized that the evolution of eusocial division of labor is associated with enhanced gene regulatory potential, which may include expansions in DNA methylation in the genomes of Hymenoptera (bees, ants, wasps, and sawflies). Recently, this hypothesis garnered support from analyses of a commonly used metric to estimate DNA methylation in silico, CpG content. Here, we test this hypothesis using direct, nucleotide-level measures of DNA methylation across nine species of Hymenoptera. In doing …
A Novel Educational Module To Teach Neural Circuits For College And High School Students: Ngss-Neurons, Genetics, And Selective Stimulations, Zana R. Majeed, Felicitas Koch, Joshua Morgan, Heidi Anderson, Jennifer Wilson, Robin L. Cooper
A Novel Educational Module To Teach Neural Circuits For College And High School Students: Ngss-Neurons, Genetics, And Selective Stimulations, Zana R. Majeed, Felicitas Koch, Joshua Morgan, Heidi Anderson, Jennifer Wilson, Robin L. Cooper
Biology Faculty Publications
This report introduces various approaches to target defined neural pathways for stimulation and to address the effect of particular neural circuits on behavior in a model animal, the fruit fly (Drosophila melanogaster). The objective of this novel educational module described can be used to explain and address principle concepts in neurobiology for high school and college level students. A goal of neurobiology is to show how neural circuit activity controls corresponding behavior in animals. The fruit fly model system provides powerful genetic tools, such as the UAS-Gal4 system, to manipulate expression of non-native proteins in various populations of …
Identification Of Mutant Genes And Introgressed Tiger Salamander Dna In The Laboratory Axolotl, Ambystoma Mexicanum, M. Ryan Woodcock, Jennifer Vaughn-Wolfe, Alexandra Elias, David Kevin Kump, Katharina Denise Kendall, Nataliya Y. Timoshevskaya, Vladimir A. Timoshevskiy, Dustin W. Perry, Jeramiah James Smith, Jessica E. Spiewak, David M. Parichy, Stephen Randal Voss
Identification Of Mutant Genes And Introgressed Tiger Salamander Dna In The Laboratory Axolotl, Ambystoma Mexicanum, M. Ryan Woodcock, Jennifer Vaughn-Wolfe, Alexandra Elias, David Kevin Kump, Katharina Denise Kendall, Nataliya Y. Timoshevskaya, Vladimir A. Timoshevskiy, Dustin W. Perry, Jeramiah James Smith, Jessica E. Spiewak, David M. Parichy, Stephen Randal Voss
Biology Faculty Publications
The molecular genetic toolkit of the Mexican axolotl, a classic model organism, has matured to the point where it is now possible to identify genes for mutant phenotypes. We used a positional cloning–candidate gene approach to identify molecular bases for two historic axolotl pigment phenotypes: white and albino. White (d/d) mutants have defects in pigment cell morphogenesis and differentiation, whereas albino (a/a) mutants lack melanin. We identified in white mutants a transcriptional defect in endothelin 3 (edn3), encoding a peptide factor that promotes pigment cell migration and differentiation in other …