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Developmental programming of DNA methylation and gene expression patterns is associated with extreme cardiovascular tolerance to anoxia in the common snapping turtle

https://doi.org/10.1186/s13072-021-00414-7

Ruhr, Ilan ; Bierstedt, Jacob ; Rhen, Turk ; Das, Debojyoti ; Singh, Sunil Kumar ; Miller, Soleille ; Crossley, II, Dane A. ; Galli, Gina L. J. ( September 2021 , Epigenetics & Chromatin)

Abstract Background
Environmental fluctuation during embryonic and fetal development can permanently alter an organism’s morphology, physiology, and behaviour. This phenomenon, known as developmental plasticity, is particularly relevant to reptiles that develop in subterranean nests with variable oxygen tensions. Previous work has shown hypoxia permanently alters the cardiovascular system of snapping turtles and may improve cardiac anoxia tolerance later in life. The mechanisms driving this process are unknown but may involve epigenetic regulation of gene expression via DNA methylation. To test this hypothesis, we assessed in situ cardiac performance during 2 h of acute anoxia in juvenile turtles previously exposed to normoxia (21% oxygen) or hypoxia (10% oxygen) during embryogenesis. Next, we analysed DNA methylation and gene expression patterns in turtles from the same cohorts using whole genome bisulfite sequencing, which represents the first high-resolution investigation of DNA methylation patterns in any reptilian species.
Results
Genome-wide correlations between CpG and CpG island methylation and gene expression patterns in the snapping turtle were consistent with patterns observed in mammals. As hypothesized, developmental hypoxia increased juvenile turtle cardiac anoxia tolerance and programmed DNA methylation and gene expression patterns. Programmed differences in expression of genes such asSCN5Amay account for differences in heart rate, while genes such asTNNT2andTPM3may underlie differences in calcium sensitivity and contractility of cardiomyocytes and cardiac inotropy. Finally, we identified putative transcription factor-binding sites in promoters and in differentially methylated CpG islands that suggest a model linking programming of DNA methylation during embryogenesis to differential gene expression and cardiovascular physiology later in life. Binding sites for hypoxia inducible factors (HIF1A, ARNT, and EPAS1) and key transcription factors activated by MAPK and BMP signaling (RREB1 and SMAD4) are implicated.
Conclusions
Our data strongly suggests that DNA methylation plays a conserved role in the regulation of gene expression in reptiles. We also show that embryonic hypoxia programs DNA methylation and gene expression patterns and that these changes are associated with enhanced cardiac anoxia tolerance later in life. Programming of cardiac anoxia tolerance has major ecological implications for snapping turtles, because these animals regularly exploit anoxic environments throughout their lifespan.

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Pharmacological characterization of the α 2A -adrenergic receptor inhibiting rat hippocampal CA3 epileptiform activity: comparison of ligand efficacy and potency

https://doi.org/10.1080/10799893.2022.2110896

Biggane, Joseph P. ; Xu, Ke ; Goldenstein, Brianna L. ; Davis, Kylie L. ; Luger, Elizabeth J. ; Davis, Bethany A. ; Jurgens, Chris W.D. ; Perez, Dianne M. ; Porter, James E. ; Doze, Van A. ( November 2022 , Journal of Receptors and Signal Transduction)

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Molecular phylogeny of Diplostomum, Tylodelphys, Austrodiplostomum and Paralaria (Digenea: Diplostomidae) necessitates systematic changes and reveals a history of evolutionary host switching events

https://doi.org/10.1016/j.ijpara.2021.06.002

Achatz, Tyler J. ; Martens, Jakson R. ; Kostadinova, Aneta ; Pulis, Eric E. ; Orlofske, Sarah A. ; Bell, Jeffrey A. ; Fecchio, Alan ; Oyarzún-Ruiz, Pablo ; Syrota, Yaroslav Y. ; Tkach, Vasyl V. ( January 2022 , International Journal for Parasitology)

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Molecular phylogenetic analysis of Neodiplostomum and Fibricola (Digenea, Diplostomidae) does not support host-based systematics

https://doi.org/10.1017/S003118202100216X

Achatz, Tyler J. ; Pulis, Eric E. ; Woodyard, Ethan T. ; Rosser, Thomas G. ; Martens, Jakson R. ; Weinstein, Sara B. ; Fecchio, Alan ; McAllister, Chris T. ; Carrión Bonilla, Carlos ; Tkach, Vasyl V. ( January 2022 , Parasitology)

Abstract Fibricola and Neodiplostomum are diplostomid genera with very similar morphology that are currently separated based on their definitive hosts. Fibricola spp. are normally found in mammals, while Neodiplostomum spp. typically parasitize birds. Previously, no DNA sequence data was available for any member of Fibricola . We generated nuclear ribosomal and mtDNA sequences of Fibricola cratera (type-species), Fibricola lucidum and 6 species of Neodiplostomum . DNA sequences were used to examine phylogenetic interrelationships among Fibricola and Neodiplostomum and re-evaluate their systematics. Molecular phylogenies and morphological study suggest that Fibricola should be considered a junior synonym of Neodiplostomum . Therefore, we synonymize the two genera and transfer all members of Fibricola into Neodiplostomum . Specimens morphologically identified as Neodiplostomum cratera belonged to 3 distinct phylogenetic clades based on mitochondrial data. One of those clades also included sequences of specimens identified morphologically as Neodiplostomum lucidum . Further study is necessary to resolve the situation regarding the morphology of N. cratera . Our results demonstrated that some DNA sequences of N. americanum available in GenBank originate from misidentified Neodiplostomum banghami . Molecular phylogentic data revealed at least 2 independent host-switching events between avian and mammalian hosts in the evolutionary history of Neodiplostomum ; however, the directionality of these host-switching events remains unclear.
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Molecular phylogeny supports invalidation of Didelphodiplostomum amd Pharyngostomoides (Digenea: Diplostomidae) and reveals a Tylodelphys from mammals

https://doi.org/10.1093/zoolinnean/zlab114/6517659

Achatz TJ, Chermak TP ( January 2022 , Zoological journal of the Linnean Society)

Alaria, Didelphodiplostomum and Pharyngostomoides are among genera of diplostomid digeneans known to parasitize mammalian definitive hosts. Despite numerous recent molecular phylogenetic studies of diplostomids, limited DNA sequence data is available from diplostomids parasitic in mammals. Herein, we provide the first 28S rDNA and cox1 mtDNA sequences from morphologically identified, adult specimens of Didelphodiplostomum and Pharyngostomoides. Newly generated 28S sequences were used to infer the phylogenetic interrelationships of these two genera among other major lineages of diplostomoideans. The phylogeny based on 28S and a review of morphology clearly suggests that Pharyngostomoides should be considered a junior synonym of Alaria, while Didelphodiplostomum should be considered a junior synonym of Tylodelphys. Pharyngostomoides procyonis (type species), Pharyngostomoides adenocephala and Pharyngostomoides dasyuri were transferred into Alaria as Alaria procyonis comb. nov., Alaria adenocephala comb. nov. and Alaria dasyuri comb. nov.; Didelphodiplostomum variabile (type species) and Didelphodiplostomum nunezae were transferred into Tylodelphys as Tylodelphys variabilis comb. nov. and Tylodelphys nunezae comb. nov. In addition, Alaria ovalis comb. nov. (formerly included in Pharyngostomoides) was restored and transferred into Alaria based on a morphological study of wellfixed, adult specimens and the comparison of cox1 DNA sequences among Alaria spp. The diplostomid genus Parallelorchis was restored based on review of morphology.
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Description and Phylogenetic Affinities of a New Species of Neopsilotrema (Digenea: Psilostomidae) from Lesser Scaup, Aythya affinis (Anseriformes: Anatidae)

https://doi.org/10.1645/21-25

Achatz, Tyler J. ; Bennett, Dana M. ; Martens, Jakson R. ; Sorensen, Robert E. ; Nelson, Roy G. ; Bates, Kimberly M. ; Serbina, Elena A. ; Tkach, Vasyl V. ( August 2021 , Journal of Parasitology)

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Postbaccalaureate terminal degree and career choices of students who performed undergraduate research

https://doi.org/10.1152/advan.00217.2020

Sens, Donald A. ; Bobylev, Mikhail ; Cisek, Karen L. ; Garrett, Scott H. ; Somji, Seema ; Sens, Mary A. ; Doze, Van A. ( June 2021 , Advances in Physiology Education)

This study analyzed terminal degree and career choices of students who performed undergraduate research. In one analysis, the study compared terminal degree and career choices between a course-based undergraduate research experience (CURE) and traditional non-course-based undergraduate research experiences at one primarily undergraduate institution (PUI). Students who pursued postbaccalaureate programs chose terminal degrees at levels exceeding 75%, with no significant difference between a CURE experience and a traditional research experience. Analysis of terminal degree and career choices at four PUIs providing traditional research experiences showed a marked difference in the number of students pursuing terminal degrees. Two PUIs showed rates > 75%, whereas students at the other two PUIs pursued terminal degrees <50% of the time. The majority of students not pursuing terminal degrees chose M.S. degrees in education and healthcare. An analysis was also performed among students participating in traditional summer undergraduate research on a research-intensive university (RIU) campus with a medical school. Students were accepted from two programs, an NIH IDeA Network of Biomedical Research Excellence (INBRE) program recruiting students from the RIU and an NSF Research Experiences for Undergraduates (REU) program recruiting undergraduates from rural PUIs and minority-serving institutions, particularly tribal colleges. Analysis showed that >70% of the students who pursued postbaccalaureate programs chose terminal degrees. INBRE undergraduates displayed a marked preference for the M.D. degree (73.9% vs. 17.4%), whereas the REU students chose the Ph.D. degree (75.0% vs. 22.9%). American Indian students were also analyzed separately for career choice and showed an equal preference for the M.D. and Ph.D. degrees when pursuing postbaccalaureate education. Overall, the results provide evidence that undergraduate student research stimulates student careers in areas needed by the nation’s citizen stakeholders.
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Unravelling the diversity of the Crassiphialinae (Digenea: Diplostomidae) with molecular phylogeny and descriptions of five new species

https://doi.org/10.1016/j.crpvbd.2021.100051

Achatz, Tyler J. ; Chermak, Taylor P. ; Martens, Jakson R. ; Pulis, Eric E. ; Fecchio, Alan ; Bell, Jeffrey A. ; Greiman, Stephen E. ; Cromwell, Kara J. ; Brant, Sara V. ; Kent, Michael L. ; et al ( January 2021 , Current Research in Parasitology & Vector-Borne Diseases)

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Incubation temperature and satiety influence general locomotor and exploratory behaviors in the common snapping turtle (Chelydra serpentina)

https://doi.org/10.1016/j.physbeh.2020.112875

Miller, Soleille ; Derenne, Adam ; Ellis-Felege, Susan ; Rhen, Turk ( June 2020 , Physiology & Behavior)

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