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Selected Publications

  • Goody, MF, Henry, CA (2018) A need for NAD+ in muscle development, homeostasis, and aging. Invited review (peer-reviewed) Skeletal Muscle, 2018 8:9

  • Coffey EC, Pasquarella ME, Goody MF, Henry, CA. (2018) Ethanol Exposure Causes Muscle Degeneration in Zebrafish. Journal of Developmental Biology, 6(1), 7. Doi: 10.3390/jdb6010007

  • Goody M, Jurczyszak D, Kim C, Henry C. (2017) Influenza A Virus Infection Damages Zebrafish Skeletal Muscle and Exacerbates Disease in Zebrafish Modeling Duchenne Muscular Dystrophy. PLoS Currents Muscular Dystrophy, 2017;9. PMID: 29188128

  • Goody MF, Carter EV, Kilroy EA, Maves L, Henry, CA. (2017) “Muscling” throughout life: Integrating studies of muscle development, homeostasis, and disease in zebrafish. Invited review (peer-reviewed). Current topics in developmental biology, 2017;124:197-234. PMID: 28335860

  • Jenkins, MH, Alrowaished SS, Goody MF, Crawford BD, Henry, CA. (2016). Laminin and Matrix Metalloproteinase 11 regulate Fibronectin levels in the zebrafish myotendinous junction. Skeletal Muscle, 2016; 6:18. PMID 27141287

  • Goody, M.F., Sher, R.B., Henry, C.A. (2015) Hanging on for the ride: Adhesion to the extracellular matrix mediates cellular responses in skeletal muscle morphogenesis and disease. Invited review (peer-reviewed). Developmental Biology, doi:10.1016/j.ydbio.2015.01.002

  • Goody, M.F. and Henry, C.A. (2013). Motility Assay for Zebrafish Embryos. Bio-protocol 3(11): e787. DOI: 10.21769/BioProtoc.787.

  • Goody, M.F. and Henry, C.A. (2013). Phalloidin Staining and Immunohistochemistry of Zebrafish Embryos. Bio-protocol 3(11): e786. DOI: 10.21769/BioProtoc.786.

  • Goody, M.F., Kelly, M.W., Reynolds, C.J., Khalil, A., Crawford, B.D., Henry, C.A. (2012) NAD+ Biosynthesis Ameliorates a Zebrafish Model of Muscular Dystrophy. PLoS Biology, 10 (10):e1001409.

  • Goody, M.F., Kelly, M.W., Lessard, K.N., Khalil, A., and Henry, C.A. (2010) Nrk2b-mediated NAD+ production regulates cell adhesion and is required for muscle morphogenesis in vivo. Developmental Biology, 344(2):809-26. PMID: 20566368

  • Peterson, M.T., and Henry, C.A. (2010) Hedgehog signaling and laminin play unique and synergistic roles in muscle development. Developmental Dynamics, 239 (3): 905-13. PMID: 20063418

  • Snow, C.J. and Henry, C.A. (2009) Dynamic formation of microenvironments at the myotendinous junction correlates with muscle fiber morhogenesis in zebrafish. Gene Expression Patterns, 9:37-42. PMID: 18783736

  • Snow, C.J., Goody, M., Kelly, M.W., Oster, E.C., Jones, R., Khalil, A., and Henry, C.A. (2008) Time-lapse analysis and mathematical characterization elucidate novel mechanisms underlying muscle morphogenesis. PLoS Genetics, 4(10):e1000219. PMID: 18833302

  • Snow, C.J., Peterson, M.T., Khalil, A., and Henry, C.A. (2008) Muscle development is disrupted in zebrafish embryos deficient for Fibronectin. Developmental Dynamics, 237 (9): 2542-53. PMID: 18729220

  • Kok, F.O., Oster, E., Mentzer, L., Hsieh, J., Henry, C.A., Sirotkin, H.I. (2007) The role of the SPT6 chromatin remodeling factor in zebrafish embryogenesis. Developmental Biology, 307: 214-226. PMID: 17570355

  • Henry, C.A., McNulty, I.M., Durst, W.A., Munchel, S.E., and Amacher, S.L. (2005) Interactions Between Muscle Fibers and Segment Boundaries in Zebrafish. Developmental Biology, 287(2): 346-60. PMID: 16225858

  • Henry, C.A., Poage, C.T., McCarthy, M.B., Campos-Ortega, J., and Cooper, M.S. (2005) Segmentation is Regionally Autonomous within the Zebrafish Presomitic Mesoderm Zebrafish, 2(1):7-14.

  • Henry, C.A., and Amacher, S.L. (2004) Zebrafish slow muscle migration induces a wave of fast muscle morphogenesis. Developmental Cell 7(6):917-923. PMID: 15572133.