Search Results - "Montgomery, Jessica M"

  • Showing 1 - 6 results of 6
Refine Results
  1. 1
    Identification of a cellular node for motor control pathways

    Identification of a cellular node for motor control pathways by Levine, Ariel J, Hinckley, Christopher A, Hilde, Kathryn L, Driscoll, Shawn P, Poon, Tiffany H, Montgomery, Jessica M, Pfaff, Samuel L

    Published in Nature neuroscience (01-04-2014)
    “…In this study, the authors identify a population of deep dorsal horn interneurons that receive inputs from both sensory neurons and the descending motor tracts…”
    Get full text
    Journal Article
    Save to List
    Saved in:
  2. 2
    Microtubule association of EML proteins and the EML4-ALK variant 3 oncoprotein require an N-terminal trimerization domain

    Microtubule association of EML proteins and the EML4-ALK variant 3 oncoprotein require an N-terminal trimerization domain by Richards, Mark W, O'Regan, Laura, Roth, Daniel, Montgomery, Jessica M, Straube, Anne, Fry, Andrew M, Bayliss, Richard

    Published in Biochemical journal (01-05-2015)
    “…Proteins of the echinoderm microtubule (MT)-associated protein (EMAP)-like (EML) family contribute to formation of the mitotic spindle and interphase MT…”
    Get more information
    Journal Article
    Save to List
    Saved in:
  3. 3
    Mitotic phosphorylation by NEK6 and NEK7 reduces the microtubule affinity of EML4 to promote chromosome congression

    Mitotic phosphorylation by NEK6 and NEK7 reduces the microtubule affinity of EML4 to promote chromosome congression by Adib, Rozita, Montgomery, Jessica M, Atherton, Joseph, O'Regan, Laura, Richards, Mark W, Straatman, Kees R, Roth, Daniel, Straube, Anne, Bayliss, Richard, Moores, Carolyn A, Fry, Andrew M

    Published in Science signaling (13-08-2019)
    “…EML4 is a microtubule-associated protein that promotes microtubule stability. We investigated its regulation across the cell cycle and found that EML4 was…”
    Get more information
    Journal Article
    Save to List
    Saved in:
  4. 4
    Satb2 Is Required for the Development of a Spinal Exteroceptive Microcircuit that Modulates Limb Position

    Satb2 Is Required for the Development of a Spinal Exteroceptive Microcircuit that Modulates Limb Position by Hilde, Kathryn L., Levine, Ariel J., Hinckley, Christopher A., Hayashi, Marito, Montgomery, Jessica M., Gullo, Miriam, Driscoll, Shawn P., Grosschedl, Rudolf, Kohwi, Yoshinori, Kohwi-Shigematsu, Terumi, Pfaff, Samuel L.

    Published in Neuron (Cambridge, Mass.) (17-08-2016)
    “…Motor behaviors such as walking or withdrawing the limb from a painful stimulus rely upon integrative multimodal sensory circuitry to generate appropriate…”
    Get full text
    Journal Article
    Save to List
    Saved in:
  5. 5
    Nek6 controls mitotic progression through regulating eml3 localisation to spindle microtubules

    Nek6 controls mitotic progression through regulating eml3 localisation to spindle microtubules by Montgomery, Jessica M

    Published 01-01-2016
    “…EMLs are a highly conserved family of microtubule-associated proteins that play a role in microtubule stability. In humans there are six EMLs. EML1, EML2, EML3…”
    Get full text
    Dissertation
    Save to List
    Saved in:
  6. 6
    Nek6 controls mitotic progression through regulating EML3 localisation to spindle microtubules

    Nek6 controls mitotic progression through regulating EML3 localisation to spindle microtubules by Montgomery, Jessica M

    Published 01-01-2016
    “…EMLs are a highly conserved family of microtubule-associated proteins that play a role in microtubule stability. In humans there are six EMLs. EML1, EML2, EML3…”
    Get full text
    Dissertation
    Save to List
    Saved in:

Search Tools: