Your search keyword '"Tanya L Brown"' showing total 20 results

1. Dermal appendage-dependent patterning of zebrafish atoh1a+ Merkel cells

Author

Tanya L Brown, Emma C Horton, Evan W Craig, Camille EA Goo, Erik C Black, Madeleine N Hewitt, Nathaniel G Yee, Everett T Fan, David W Raible, and Jeffrey P Rasmussen

Subjects

somatosensory neuron, epidermis, skin, touch, Ectodysplasin, Fgf8, Medicine, Science, Biology (General), QH301-705.5

Abstract

Touch system function requires precise interactions between specialized skin cells and somatosensory axons, as exemplified by the vertebrate mechanosensory Merkel cell-neurite complex. Development and patterning of Merkel cells and associated neurites during skin organogenesis remain poorly understood, partly due to the in utero development of mammalian embryos. Here, we discover Merkel cells in the zebrafish epidermis and identify Atonal homolog 1a (Atoh1a) as a marker of zebrafish Merkel cells. We show that zebrafish Merkel cells derive from basal keratinocytes, express neurosecretory and mechanosensory machinery, extend actin-rich microvilli, and complex with somatosensory axons, all hallmarks of mammalian Merkel cells. Merkel cells populate all major adult skin compartments, with region-specific densities and distribution patterns. In vivo photoconversion reveals that Merkel cells undergo steady loss and replenishment during skin homeostasis. Merkel cells develop concomitant with dermal appendages along the trunk and loss of Ectodysplasin signaling, which prevents dermal appendage formation, reduces Merkel cell density by affecting cell differentiation. By contrast, altering dermal appendage morphology changes the distribution, but not density, of Merkel cells. Overall, our studies provide insights into touch system maturation during skin organogenesis and establish zebrafish as an experimentally accessible in vivo model for the study of Merkel cell biology.

Published

2023

2. Connecting Activity Implementation Characteristics to Student Buy-In toward and Utilization of Formative Assessments within Undergraduate Biology Courses

Author

Kathleen R. Brazeal, Tanya L. Brown, and Brian A. Couch

Abstract

While formative assessments (FAs) can facilitate learning within undergraduate STEM courses, their impact likely depends on many factors, including how instructors implement them, whether students buy-in to them, and how students utilize them. FAs have many different implementation characteristics, including what kinds of questions are asked, whether questions are asked before or after covering the material in class, how feedback is provided, how students are graded, and other logistical considerations. We conducted 38 semi-structured interviews with students from eight undergraduate biology courses to explore how various implementation characteristics of in-class and out-of-class FAs can influence student perceptions and behaviors. We also interviewed course instructors to provide context for understanding student experiences. Using thematic analysis, we outlined various FA implementation characteristics, characterized the range of FA utilization behaviors reported by students, and identified emergent themes regarding the impact of certain implementation characteristics on student buy-in and utilization. Furthermore, we found that implementation characteristics have combined effects on student engagement and that students will tolerate a degree of "acceptable discomfort" with implementation features that contradict their learning preferences. These results can aid instructor reflection and guide future research on the complex connections between activity implementation and student engagement within STEM disciplines.

Published

2021

3. Growth and Overall Health of Patients with SLC13A5 Citrate Transporter Disorder

Author

Tanya L. Brown, Kimberly L. Nye, and Brenda E. Porter

Subjects

SLC13A5, citrate, NaCT, transporter, Microbiology, QR1-502

Abstract

We were interested in elucidating the non-neurologic health of patients with autosomal recessive SLC13A5 Citrate Transporter (NaCT) Disorder. Multiple variants have been reported that cause a loss of transporter activity, resulting in significant neurologic impairment, including seizures, as well as motor and cognitive dysfunction. Additionally, most patients lack tooth enamel (amelogenesis imperfecta). However, patients have not had their overall health and growth described in detail. Here we characterized the non-neurologic health of 15 patients with medical records uploaded to Ciitizen, a cloud-based patient medical records portal. Ciitizen used a query method for data extraction. Overall, the patients’ records suggested a moderate number of gastrointestinal issues related to feeding, reflux, vomiting and weight gain and a diverse number of respiratory complaints. Other organ systems had single or no abnormal diagnoses, including liver, renal and cardiac. Growth parameters were mostly in the normal range during early life, with a trend toward slower growth in the few adolescent patients with data available. The gastrointestinal and pulmonary issues may at least partially be explained by the severity of the neurologic disorder. More data are needed to clarify if growth is impacted during adolescence and if adult patients develop or are protected from non-neurologic disorders.

Published

2021

4. Characterizing a rare neurogenetic disease, SLC13A5 citrate transporter disorder, utilizing clinical data in a cloud-based medical record collection system

Author

Emily M. Spelbrink, Tanya L. Brown, Elise Brimble, Kirsten A. Blanco, Kimberly L. Nye, and Brenda E. Porter

Subjects

Genetics, Molecular Medicine, Genetics (clinical)

Abstract

Introduction: SLC13A5 citrate transporter disorder is a rare autosomal recessive genetic disease that has a constellation of neurologic symptoms. To better characterize the neurologic and clinical laboratory phenotype, we utilized patient medical records collected by Ciitizen, an Invitae company, with support from the TESS Research Foundation.Methods: Medical records for 15 patients with a suspected genetic and clinical diagnosis of SLC13A5 citrate transporter disorder were collected by Ciitizen, an Invitae company. Genotype, clinical phenotypes, and laboratory data were extracted and analyzed.Results: The 15 patients reported all had epilepsy and global developmental delay. Patients continued to attain motor milestones, though much later than their typically developing peers. Clinical diagnoses support abnormalities in communication, and low or mixed tone with several movement disorders, including, ataxia and dystonia. Serum citrate was elevated in the 3 patients in whom it was measured; other routine laboratory studies assessing renal, liver and blood function had normal values or no consistent abnormalities. Many electroencephalograms (EEGs) were performed (1 to 35 per patient), and most but not all were abnormal, with slowing and/or epileptiform activity. Fourteen of the patients had one or more brain magnetic resonance imaging (MRI) reports: 7 patients had at least one normal brain MRI, but not with any consistent findings except white matter signal changes.Discussion: These results show that in addition to the epilepsy phenotype, SLC13A5 citrate transporter disorder impacts global development, with marked abnormalities in motor abilities, tone, coordination, and communication skills. Further, utilizing cloud-based medical records allows industry, academic, and patient advocacy group collaboration to provide preliminary characterization of a rare genetic disorder. Additional characterization of the neurologic phenotype will be critical to future study and developing treatment for this and related rare genetic disorders.

Published

2023

5. Dermal appendage-dependent patterning of zebrafish atoh1a+ Merkel cells

Author

Emma C Horton, Tanya L Brown, Evan W Craig, Camille EA Goo, Erik C Black, Madeleine N Hewitt, Nathaniel G Yee, Everett T Fan, David W Raible, and Jeffrey P Rasmussen

Subjects

General Immunology and Microbiology, General Neuroscience, General Medicine, General Biochemistry, Genetics and Molecular Biology

Abstract

Touch system function requires precise interactions between specialized skin cells and somatosensory axons, as exemplified by the vertebrate mechanosensory Merkel cell-neurite complex. Development and patterning of Merkel cells and associated neurites during skin organogenesis remains poorly understood, partly due to the in utero development of mammalian embryos. Here, we discover Merkel cells in the zebrafish epidermis and identify Atonal homolog 1a (Atoh1a) as a marker of zebrafish Merkel cells. We show that zebrafish Merkel cells derive from basal keratinocytes, express neurosecretory and mechanosensory machinery, extend actin-rich microvilli, and complex with somatosensory axons, all hallmarks of mammalian Merkel cells. Merkel cells populate all major adult skin compartments, with region-specific densities and distribution patterns. In vivo photoconversion reveals that Merkel cells undergo steady loss and replenishment during skin homeostasis. Merkel cells develop concomitant with dermal appendages along the trunk, and preventing dermal appendage formation reduces Merkel cell density by affecting both cell differentiation and maintenance. By contrast, altering dermal appendage morphology changes the distribution, but not density, of Merkel cells. Overall, our studies provide insights into touch system maturation during skin organogenesis and establish zebrafish as an experimentally accessible in vivo model for the study of Merkel cell biology.

Published

2023

6. Author response: Dermal appendage-dependent patterning of zebrafish atoh1a+ Merkel cells

Author

Emma C Horton, Tanya L Brown, Evan W Craig, Camille EA Goo, Erik C Black, Madeleine N Hewitt, Nathaniel G Yee, Everett T Fan, David W Raible, and Jeffrey P Rasmussen

Published

2023

7. Author Reply to Peer Reviews of Dermal appendage-dependent patterning of zebrafish atoh1a+ Merkel cells

Author

Tanya L Brown, Emma C Horton, Evan W Craig, Camille EA Goo, Erik C Black, Madeleine N Hewitt, Nathaniel G Yee, Everett T Fan, David W Raible, and Jeffrey P Rasmussen

Published

2022

8. First-Year and Non-First-Year Student Expectations Regarding In-Class and Out-of-Class Learning Activities in Introductory Biology

Author

Tanya L. Brown, Kathleen R. Brazeal, and Brian A. Couch

Subjects

Special aspects of education, LC8-6691, Biology (General), QH301-705.5

Abstract

National calls for teaching transformation build on a constructivist learning theory and propose that students learn by actively engaging in course activities and interacting with other students. While interactive pedagogies can improve learning, they also have the potential to challenge traditional norms regarding class participation and learning strategies. To better understand the potential openness of students to interactive teaching practices, we administered a survey during the first week of two sections of an introductory biology course to characterize how students envisioned spending time during class as well as what activities they expected to complete outside of class during non-exam weeks and in preparation for exams. Additionally, we sought to test the hypothesis that the expectations of first-year students differed from those of non-first-year students. Analyses of closed-ended and open-ended questions revealed that students held a wide range of expectations and that most students expressed expectations consistent with some degree of transformed teaching. Furthermore, first-year students expected more active learning in class, more out-of-class coursework during non-exam weeks, and more social learning strategies than non-first-year students. We discuss how instructor awareness of incoming student expectations might be used to promote success in introductory science courses.

Published

2017

9. mTORC2 loss in oligodendrocyte progenitor cells results in regional hypomyelination in the central nervous system

Author

Kristin D. Dahl, Adam R. Almeida, Hannah A. Hathaway, Jennifer Bourne, Tanya L. Brown, Lisbet T. Finseth, Teresa L. Wood, and Wendy B. Macklin

Subjects

nervous system, General Neuroscience

Abstract

In the central nervous system (CNS), oligodendrocyte progenitor cells (OPCs) differentiate into mature oligodendrocytes to generate myelin, which is essential for normal nervous system function. OPC differentiation is driven by signaling pathways such as mTOR (Mechanistic Target of Rapamycin), which functions in two distinct complexes: mTOR complex 1 (mTORC1) and mTOR complex 2 (mTORC2), containing Raptor or Rictor respectively. In the current studies, mTORC2 signaling was selectively deleted from OPCs in PDGFRα-Cre X Rictorfl/fl mice. This study examined developmental myelination in male and female mice, comparing the impact of mTORC2 deletion in the corpus callosum and spinal cord. In both corpus callosum and spinal cord, Rictor loss in OPCs resulted in early reduction in myelin RNAs and some myelin proteins. However, these deficits rapidly recovered in spinal cord, where normal myelin abundance and thickness was noted at post-natal day 21 and 1.5 months. By contrast, the losses in corpus callosum resulted in severe hypomyelination, and increased unmyelinated axons. The current studies focus on uniquely altered signaling pathways following mTORC2 loss in developing oligodendrocytes. A major mTORC2 substrate is phospho-Akt-S473, which was significantly reduced throughout development in both corpus callosum and spinal cord at all ages measured, yet this had little impact in spinal cord. Loss of mTORC2 signaling resulted in decreased expression of actin regulators such as gelsolin in corpus callosum, but only minimal loss in spinal cord. The current study establishes a regionally-specific role for mTORC2 signaling in OPCs, particularly in the corpus callosum.Significance StatementmTORC1 and mTORC2 signaling have differential impact on myelination in the central nervous system. Numerous studies identify a role for mTORC1, but deletion of Rictor (mTORC2 signaling) in late-stage oligodendrocytes had little impact on myelination in the CNS. However, the current studies establish that deletion of mTORC2 signaling from oligodendrocyte progenitor cells results in reduced myelination of brain axons. These studies also establish a regional impact of mTORC2, with little change in spinal cord in these conditional Rictor deletion mice. Importantly, in both, brain and spinal cord, mTORC2 downstream signaling targets were impacted by Rictor deletion. Yet, these signaling changes had little impact on myelination in spinal cord, while they resulted in long term alterations in myelination in brain.

Published

2022

10. Growth and Overall Health of Patients with SLC13A5 Citrate Transporter Disorder

Author

Brenda E. Porter, Tanya L. Brown, and Kimberly L. Nye

Subjects

medicine.medical_specialty, Endocrinology, Diabetes and Metabolism, Citrate transporter, Microbiology, Biochemistry, Article, Internal medicine, Medicine, Amelogenesis imperfecta, citrate, Medical diagnosis, Molecular Biology, Adult patients, business.industry, Medical record, medicine.disease, QR1-502, Early life, transporter, SLC13A5, Vomiting, medicine.symptom, NaCT, business, Weight gain

Abstract

We were interested in elucidating the non-neurologic health of patients with autosomal recessive SLC13A5 Citrate Transporter (NaCT) Disorder. Multiple variants have been reported that cause a loss of transporter activity, resulting in significant neurologic impairment, including seizures, as well as motor and cognitive dysfunction. Additionally, most patients lack tooth enamel (amelogenesis imperfecta). However, patients have not had their overall health and growth described in detail. Here we characterized the non-neurologic health of 15 patients with medical records uploaded to Ciitizen, a cloud-based patient medical records portal. Ciitizen used a query method for data extraction. Overall, the patients’ records suggested a moderate number of gastrointestinal issues related to feeding, reflux, vomiting and weight gain and a diverse number of respiratory complaints. Other organ systems had single or no abnormal diagnoses, including liver, renal and cardiac. Growth parameters were mostly in the normal range during early life, with a trend toward slower growth in the few adolescent patients with data available. The gastrointestinal and pulmonary issues may at least partially be explained by the severity of the neurologic disorder. More data are needed to clarify if growth is impacted during adolescence and if adult patients develop or are protected from non-neurologic disorders.

Published

2021

11. PAK1 Positively Regulates Oligodendrocyte Morphology and Myelination

Author

Teresa L. Wood, Lisbet T. Finseth, Tanya L. Brown, Hirokazu Hashimoto, and Wendy B. Macklin

Subjects

0301 basic medicine, Male, Neurogenesis, macromolecular substances, Rats, Sprague-Dawley, 03 medical and health sciences, Myelin, Mice, 0302 clinical medicine, medicine, Animals, Cytoskeleton, Zebrafish, Protein kinase B, Actin, Research Articles, Myelin Sheath, biology, General Neuroscience, Oligodendrocyte differentiation, Cell Differentiation, Actin cytoskeleton, biology.organism_classification, Oligodendrocyte, Cell biology, Rats, Oligodendroglia, 030104 developmental biology, medicine.anatomical_structure, nervous system, p21-Activated Kinases, Female, 030217 neurology & neurosurgery

Abstract

The actin cytoskeleton is crucial for oligodendrocyte differentiation and myelination. Here we show that p21-activated kinase 1 (PAK1), a well-known actin regulator, promotes oligodendrocyte morphologic change and myelin production in the CNS. A combination ofin vitroandin vivomodels demonstrated that PAK1 is expressed throughout the oligodendrocyte lineage with highest expression in differentiated oligodendrocytes. Inhibiting PAK1 early in oligodendrocyte development decreased oligodendrocyte morphologic complexity and altered F-actin spreading at the tips of oligodendrocyte progenitor cell processes. Constitutively activating AKT in oligodendrocytes in male and female mice, which leads to excessive myelin wrapping, increased PAK1 expression, suggesting an impact of PAK1 during active myelin wrapping. Furthermore, constitutively activating PAK1 in oligodendrocytes in zebrafish led to an increase in myelin internode length while inhibiting PAK1 during active myelination decreased internode length. As myelin parameters influence conduction velocity, these data suggest that PAK1 may influence communication within the CNS. These data support a model in which PAK1 is a positive regulator of CNS myelination.SIGNIFICANCE STATEMENTMyelin is a critical component of the CNS that provides metabolic support to neurons and also facilitates communication between cells in the CNS. Recent data demonstrate that actin dynamics drives myelin wrapping, but how actin is regulated during myelin wrapping is unknown. The authors investigate the role of the cytoskeletal modulator PAK1 during differentiation and myelination by oligodendrocytes, the myelinating cells of the CNS. They demonstrate that PAK1 promotes oligodendrocyte differentiation and myelination by modulating the cytoskeleton and thereby internode length, thus playing a critical role in the function of the CNS.

Published

2021

12. p70S6 kinase regulates oligodendrocyte differentiation and is active in remyelinating lesions

Author

Karelle Benardais, Isis M. Ornelas, Melissa Fauveau, Tanya L. Brown, Lisbet T. Finseth, Radmila Panic, Cyrille Deboux, Wendy B. Macklin, Teresa L. Wood, and Brahim Nait-Oumesmar

Subjects

General Engineering

Abstract

The p70 ribosomal S6 kinases (p70 ribosomal S6 kinase 1 and p70 ribosomal S6 kinase 2) are downstream targets of the mechanistic target of rapamycin signalling pathway. p70 ribosomal S6 kinase 1 specifically has demonstrated functions in regulating cell size in Drosophila and in insulin-sensitive cell populations in mammals. Prior studies demonstrated that the mechanistic target of the rapamycin pathway promotes oligodendrocyte differentiation and developmental myelination; however, how the immediate downstream targets of mechanistic target of rapamycin regulate these processes has not been elucidated. Here, we tested the hypothesis that p70 ribosomal S6 kinase 1 regulates oligodendrocyte differentiation during developmental myelination and remyelination processes in the CNS. We demonstrate that p70 ribosomal S6 kinase activity peaks in oligodendrocyte lineage cells at the time when they transition to myelinating oligodendrocytes during developmental myelination in the mouse spinal cord. We further show p70 ribosomal S6 kinase activity in differentiating oligodendrocytes in acute demyelinating lesions induced by lysophosphatidylcholine injection or by experimental autoimmune encephalomyelitis in mice. In demyelinated lesions, the expression of the p70 ribosomal S6 kinase target, phosphorylated S6 ribosomal protein, was transient and highest in maturing oligodendrocytes. Interestingly, we also identified p70 ribosomal S6 kinase activity in oligodendrocyte lineage cells in active multiple sclerosis lesions. Consistent with its predicted function in promoting oligodendrocyte differentiation, we demonstrate that specifically inhibiting p70 ribosomal S6 kinase 1 in cultured oligodendrocyte precursor cells significantly impairs cell lineage progression and expression of myelin basic protein. Finally, we used zebrafish to show in vivo that inhibiting p70 ribosomal S6 kinase 1 function in oligodendroglial cells reduces their differentiation and the number of myelin internodes produced. These data reveal an essential function of p70 ribosomal S6 kinase 1 in promoting oligodendrocyte differentiation during development and remyelination across multiple species.

Published

2020

13. The effects of weathering and chemical dispersion on Deepwater Horizon crude oil toxicity to mahi-mahi (Coryphaena hippurus) early life stages

Author

Jeffrey M. Morris, John D. Stieglitz, Barbara L. French, Andrew J. Esbaugh, Nathaniel L. Scholz, Claire Lay, Daniel D. Benetti, Martin Grosell, Tanya L. Brown, Edward M. Mager, Tiffany L. Linbo, Ronald Hoenig, Heather P. Forth, and John P. Incardona

Subjects

0301 basic medicine, Embryo, Nonmammalian, Environmental Engineering, Polycyclic aromatic hydrocarbon, 010501 environmental sciences, 01 natural sciences, Dispersant, Toxicology, 03 medical and health sciences, Animals, Environmental Chemistry, Petroleum Pollution, Polycyclic Aromatic Hydrocarbons, Weather, Waste Management and Disposal, 0105 earth and related environmental sciences, chemistry.chemical_classification, Cardiotoxicity, Coryphaena, biology, biology.organism_classification, Lipids, Pollution, Perciformes, Petroleum, 030104 developmental biology, chemistry, Environmental chemistry, Toxicity, Lethality, Mahi-mahi, Corexit, Water Pollutants, Chemical, Environmental Monitoring

Abstract

To better understand the impact of the Deepwater Horizon (DWH) incident on commercially and ecologically important pelagic fish species, a mahi-mahi spawning program was developed to assess the effect of embryonic exposure to DWH crude oil with particular emphasis on the effects of weathering and dispersant on the magnitude of toxicity. Acute lethality (96 h LC50) ranged from 45.8 (28.4-63.1) μg l(-1) ΣPAH for wellhead (source) oil to 8.8 (7.4-10.3) μg l(-1) ΣPAH for samples collected from the surface slick, reinforcing previous work that weathered oil is more toxic on a ΣPAH basis. Differences in toxicity appear related to the amount of dissolved 3 ringed PAHs. The dispersant Corexit 9500 did not influence acute lethality of oil preparations. Embryonic oil exposure resulted in cardiotoxicity after 48 h, as evident from pericardial edema and reduced atrial contractility. Whereas pericardial edema appeared to correlate well with acute lethality at 96 h, atrial contractility did not. However, sub-lethal cardiotoxicity may impact long-term performance and survival. Dispersant did not affect the occurrence of pericardial edema; however, there was an apparent reduction in atrial contractility at 48 h of exposure. Pericardial edema at 48 h and lethality at 96 h were equally sensitive endpoints in mahi-mahi.

Published

2016

14. Cytoskeletal Regulation of Oligodendrocyte Differentiation and Myelination

Author

Tanya L. Brown and Dylan R. Verden

Subjects

Male, 0301 basic medicine, Calcium Channels, L-Type, Journal Club, Primary Cell Culture, Cellular functions, Biology, Extracellular matrix, Mice, 03 medical and health sciences, 0302 clinical medicine, Neural Stem Cells, Animals, Cytoskeleton, Myelin Sheath, Cell Proliferation, Mice, Knockout, General Neuroscience, Oligodendrocyte differentiation, Developing nervous system, Oligodendroglia, 030104 developmental biology, Animals, Newborn, Female, Neuroscience, Gene Deletion, Myelin Proteins, 030217 neurology & neurosurgery

Abstract

Cells in the developing nervous system must navigate diverse environments, interpret local signals from the extracellular matrix and neighboring cells, and migrate to their final destination to perform cellular functions. After reaching their final destination, cells continue to extend processes

Published

2017

15. Mechanistic Target of Rapamycin Regulates the Oligodendrocyte Cytoskeleton during Myelination

Author

Marisa A. Jeffries, Quan Shang, Mona Batish, Alison Kowalski, Wendy B. Macklin, Tanya L. Brown, Angelina V. Evangelou, Teresa L. Wood, Hirokazu Hashimoto, and Aminat S. Musah

Subjects

0301 basic medicine, Kinesins, macromolecular substances, Actin-Related Protein 2-3 Complex, Rats, Sprague-Dawley, 03 medical and health sciences, Myelin, Mice, 0302 clinical medicine, medicine, MRNA transport, Animals, Myelin Proteolipid Protein, Mechanistic target of rapamycin, PI3K/AKT/mTOR pathway, Cellular localization, Cytoskeleton, Myelin Sheath, Zebrafish, Research Articles, Mice, Knockout, biology, Chemistry, General Neuroscience, Stem Cells, TOR Serine-Threonine Kinases, Cell Differentiation, Myelin Basic Protein, Cofilin, Oligodendrocyte, Actins, Axons, Myelin basic protein, Cell biology, Rats, Oligodendroglia, 030104 developmental biology, medicine.anatomical_structure, nervous system, biology.protein, 030217 neurology & neurosurgery

Abstract

During differentiation, oligodendrocyte precursor cells (OPCs) extend a network of processes that make contact with axons and initiate myelination. Recent studies revealed that actin polymerization is required for initiation of myelination whereas actin depolymerization promotes myelin wrapping. Here, we used primary OPCs in culture isolated from neonatal rat cortices of both sexes and young male and female mice with oligodendrocyte-specific deletion of mechanistic target of rapamycin (mTOR) to demonstrate that mTOR regulates expression of specific cytoskeletal targets and actin reorganization in oligodendrocytes during developmental myelination. Loss or inhibition of mTOR reduced expression of profilin2 and ARPC3, actin polymerizing factors, and elevated levels of active cofilin, which mediates actin depolymerization. The deficits in actin polymerization were revealed in reduced phalloidin and deficits in oligodendrocyte cellular branching complexity at the peak of morphologic differentiation and a delay in initiation of myelination. We further show a critical role for mTOR in expression and localization of myelin basic protein (Mbp) mRNA and MBP protein to the cellular processes where it is necessary at the myelin membrane for axon wrapping.MbpmRNA transport deficits were confirmed by single molecule RNA FISH. Moreover, expression of the kinesin family member 1B, anMbpmRNA transport protein, was reduced in CC1+ cells in themTOR cKOand in mTOR inhibited oligodendrocytes undergoing differentiationin vitro. These data support the conclusion that mTOR regulates both initiation of myelination and axon wrapping by targeting cytoskeletal reorganization and MBP localization to oligodendrocyte processes.SIGNIFICANCE STATEMENTMyelination is essential for normal CNS development and adult axon preservation and function. The mechanistic target of rapamycin (mTOR) signaling pathway has been implicated in promoting CNS myelination; however, there is a gap in our understanding of the mechanisms by which mTOR promotes developmental myelination through regulating specific downstream targets. Here, we present evidence that mTOR promotes the initiation of myelination through regulating specific cytoskeletal targets and cellular process expansion by oligodendrocyte precursor cells as well as expression and cellular localization of myelin basic protein.

Published

2018

16. First-Year and Non-First-Year Student Expectations Regarding In-Class and Out-of-Class Learning Activities in Introductory Biology

Author

Brian A. Couch, Kathleen R. Brazeal, and Tanya L. Brown

Subjects

Cooperative learning, exam preparation, Computer science, QH301-705.5, Teaching method, 050109 social psychology, Biology, General Biochemistry, Genetics and Molecular Biology, Education, Constructivist teaching methods, active learning, Mathematics education, ComputingMilieux_COMPUTERSANDEDUCATION, 0501 psychology and cognitive sciences, Biology (General), lcsh:QH301-705.5, Simulation, undergraduate, lcsh:LC8-6691, Class (computer programming), lcsh:Special aspects of education, General Immunology and Microbiology, LC8-6691, Research, 4. Education, 05 social sciences, 050301 education, Social learning, Special aspects of education, student expectations, Test (assessment), lcsh:Biology (General), Coursework, Active learning, General Agricultural and Biological Sciences, 0503 education, homework

Abstract

National calls for teaching transformation build on a constructivist learning theory and propose that students learn by actively engaging in course activities and interacting with other students. While interactive pedagogies can improve learning, they also have the potential to challenge traditional norms regarding class participation and learning strategies. To better understand the potential openness of students to interactive teaching practices, we administered a survey during the first week of two sections of an introductory biology course to characterize how students envisioned spending time during class as well as what activities they expected to complete outside of class during non-exam weeks and in preparation for exams. Additionally, we sought to test the hypothesis that the expectations of first-year students differed from those of non-first-year students. Analyses of closed-ended and open-ended questions revealed that students held a wide range of expectations and that most students expressed expectations consistent with some degree of transformed teaching. Furthermore, first-year students expected more active learning in class, more out-of-class coursework during non-exam weeks, and more social learning strategies than non-first-year students. We discuss how instructor awareness of incoming student expectations might be used to promote success in introductory science courses.

Published

2017

17. Characterizing Student Perceptions of and Buy-In toward Common Formative Assessment Techniques

Author

Kathleen R. Brazeal, Brian A. Couch, and Tanya L. Brown

Subjects

Male, Educational measurement, education, Resistance (psychoanalysis), 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, Article, Education, Formative assessment, Surveys and Questionnaires, 0103 physical sciences, Pedagogy, Humans, Learning, 010306 general physics, Students, Curriculum, Student perceptions, Medical education, 4. Education, Multimethodology, Teaching, 05 social sciences, 050301 education, Variety (cybernetics), Attitude change, Female, Educational Measurement, 0503 education

Abstract

Formative assessments aim to promote learning by developing a cycle in which students demonstrate their understanding and receive feedback. This mixed-methods study sought to identify the degree to which students perceive various in-class and out-of-class activities as accomplishing key objectives of formative assessment., Formative assessments (FAs) can occur as preclass assignments, in-class activities, or postclass homework. FAs aim to promote student learning by accomplishing key objectives, including clarifying learning expectations, revealing student thinking to the instructor, providing feedback to the student that promotes learning, facilitating peer interactions, and activating student ownership of learning. While FAs have gained prominence within the education community, we have limited knowledge regarding student perceptions of these activities. We used a mixed-methods approach to determine whether students recognize and value the role of FAs in their learning and how students perceive course activities to align with five key FA objectives. To address these questions, we administered a midsemester survey in seven introductory biology course sections that were using multiple FA techniques. Overall, responses to both open-ended and closed-ended questions revealed that the majority of students held positive perceptions of FAs and perceived FAs to facilitate their learning in a variety of ways. Students consistently considered FA activities to have accomplished particular objectives, but there was greater variation among FAs in how students perceived the achievement of other objectives. We further discuss potential sources of student resistance and implications of these results for instructor practice.

Published

2016

18. Corresponding morphological and molecular indicators of crude oil toxicity to the developing hearts of mahi mahi

Author

Andrew J. Esbaugh, Tanya L. Brown, Ron Hoenig, Richard C. Edmunds, Daniel D. Benetti, John D. Stieglitz, James Anthony Gill, John P. Incardona, Edward M. Mager, Barbara L. French, Martin Grosell, Tiffany L. Linbo, Nathaniel L. Scholz, and David H. Baldwin

Subjects

Embryo, Nonmammalian, Time Factors, Zoology, Perciformes, Article, Contractility, Toxicology, medicine, Animals, Petroleum Pollution, Zebrafish, Coryphaena, Multidisciplinary, biology, Gene Expression Profiling, Reproducibility of Results, Heart, Environmental exposure, Environmental Exposure, biology.organism_classification, medicine.disease, Cardiotoxicity, Petroleum, Heart failure, Toxicity, Mahi-mahi, Biomarkers

Abstract

Crude oils from distinct geological sources worldwide are toxic to developing fish hearts. When oil spills occur in fish spawning habitats, natural resource injury assessments often rely on conventional morphometric analyses of heart form and function. The extent to which visible indicators correspond to molecular markers for cardiovascular stress is unknown for pelagic predators from the Gulf of Mexico. Here we exposed mahi (Coryphaena hippurus) embryos to field-collected crude oil samples from the 2010 Deepwater Horizon disaster. We compared visible heart defects (edema, abnormal looping, reduced contractility) to changes in expression of cardiac-specific genes that are diagnostic of heart failure in humans or associated with loss-of-function zebrafish cardiac mutants. Mahi exposed to crude oil during embryogenesis displayed typical symptoms of cardiogenic syndrome as larvae. Contractility, looping and circulatory defects were evident, but larval mahi did not exhibit downstream craniofacial and body axis abnormalities. A gradation of oil exposures yielded concentration-responsive changes in morphometric and molecular responses, with relative sensitivity being influenced by age. Our findings suggest that 1) morphometric analyses of cardiac function are more sensitive to proximal effects of crude oil-derived chemicals on the developing heart and 2) molecular indicators reveal a longer-term adverse shift in cardiogenesis trajectory.

Published

2015

19. Deepwater Horizon crude oil impacts the developing hearts of large predatory pelagic fish

Author

Tanya L. Brown, Cathy A. Laetz, Abigail Elizur, Barbara L. French, Martin Grosell, John P. Incardona, Edward M. Mager, Mark Tagal, Luke D. Gardner, Daniel D. Benetti, Andrew J. Esbaugh, Nathaniel L. Scholz, John D. Stieglitz, Tiffany L. Linbo, Jana S. Labenia, Barbara A. Block, and Catherine A. Sloan

Subjects

Yellowfin tuna, Embryo, Nonmammalian, Heart Diseases, History, 21st Century, Gas Chromatography-Mass Spectrometry, Fish Diseases, Image Processing, Computer-Assisted, Animals, Petroleum Pollution, Polycyclic Aromatic Hydrocarbons, Amberjack, Oil toxicity, Analysis of Variance, Gulf of Mexico, Multidisciplinary, biology, Tuna, Swordfish, Marine habitats, Heart, Pelagic zone, biology.organism_classification, Spawn (biology), Fishery, Petroleum, PNAS Plus

Abstract

The Deepwater Horizon disaster released more than 636 million L of crude oil into the northern Gulf of Mexico. The spill oiled upper surface water spawning habitats for many commercially and ecologically important pelagic fish species. Consequently, the developing spawn (embryos and larvae) of tunas, swordfish, and other large predators were potentially exposed to crude oil-derived polycyclic aromatic hydrocarbons (PAHs). Fish embryos are generally very sensitive to PAH-induced cardiotoxicity, and adverse changes in heart physiology and morphology can cause both acute and delayed mortality. Cardiac function is particularly important for fast-swimming pelagic predators with high aerobic demand. Offspring for these species develop rapidly at relatively high temperatures, and their vulnerability to crude oil toxicity is unknown. We assessed the impacts of field-collected Deepwater Horizon (MC252) oil samples on embryos of three pelagic fish: bluefin tuna, yellowfin tuna, and an amberjack. We show that environmentally realistic exposures (1-15 µg/L total PAH) cause specific dose-dependent defects in cardiac function in all three species, with circulatory disruption culminating in pericardial edema and other secondary malformations. Each species displayed an irregular atrial arrhythmia following oil exposure, indicating a highly conserved response to oil toxicity. A considerable portion of Gulf water samples collected during the spill had PAH concentrations exceeding toxicity thresholds observed here, indicating the potential for losses of pelagic fish larvae. Vulnerability assessments in other ocean habitats, including the Arctic, should focus on the developing heart of resident fish species as an exceptionally sensitive and consistent indicator of crude oil impacts.

Published

2014

20. Scientific Teaching: Defining a Taxonomy of Observable Practices

Author

Brian A. Couch, Mark J. Graham, Tanya L. Brown, Jennifer K. Knight, and Tyler J. Schelpat

Subjects

Models, Educational, Educational measurement, Universities, Process (engineering), Science, Teaching method, Scientific discovery, Science education, General Biochemistry, Genetics and Molecular Biology, Education, 03 medical and health sciences, Taxonomy (general), ComputingMilieux_COMPUTERSANDEDUCATION, Mathematics education, Humans, Learning, Students, Curriculum, 030304 developmental biology, 0303 health sciences, Teaching, 4. Education, 05 social sciences, Undergraduate education, 050301 education, Articles, Faculty, United States, Educational Measurement, 0503 education

Abstract

The authors describe the development of a taxonomy detailing core goals and practices of Scientific Teaching (ST). This taxonomy will support future educational efforts by providing an empirical framework for researchers studying the processes and outcomes of ST-based course transformations as well as a concise guide for faculty developing classes., Over the past several decades, numerous reports have been published advocating for changes to undergraduate science education. These national calls inspired the formation of the National Academies Summer Institutes on Undergraduate Education in Biology (SI), a group of regional workshops to help faculty members learn and implement interactive teaching methods. The SI curriculum promotes a pedagogical framework called Scientific Teaching (ST), which aims to bring the vitality of modern research into the classroom by engaging students in the scientific discovery process and using student data to inform the ongoing development of teaching methods. With the spread of ST, the need emerges to systematically define its components in order to establish a common description for education researchers and practitioners. We describe the development of a taxonomy detailing ST’s core elements and provide data from classroom observations and faculty surveys in support of its applicability within undergraduate science courses. The final taxonomy consists of 15 pedagogical goals and 37 supporting practices, specifying observable behaviors, artifacts, and features associated with ST. This taxonomy will support future educational efforts by providing a framework for researchers studying the processes and outcomes of ST-based course transformations as well as a concise guide for faculty members developing classes.

Published

2015