2018 Group Project 5: Difference between revisions

From Embryology
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==History==
==History==
==Embryonic Origins==
==Embryonic Origins==
==Developmental Time Course==
==Developmental Process==


Differentiation occurs in the early stages of embryonic development. It consists of two embryonic transitional stages: Gliogenesis and maturation of Schwann cells. Matured Schwann cells further differentiates into myelinating and nonmyelinating types.
Differentiation occurs in the early stages of embryonic development. It consists of two embryonic transitional stages: Gliogenesis and maturation of Schwann cells. Matured Schwann cells further differentiates into myelinating and nonmyelinating types.

Revision as of 11:54, 21 August 2018

Projects 2018: 1 Adrenal Medulla | 3 Melanocytes | 4 Cardiac | 5 Dorsal Root Ganglion

Project Pages are currently being updated (notice removed when completed)


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Dorsal Root Ganglion

  • If the page does not allow to copy, we can draw the picture out and reference from where it was taken from.

Introduction

Dorsal Root Ganglion is a cluster of neurone found in the dorsal root of the spinal nerve. The cells found in the ganglion develops from the neural crest migration at about 4 weeks post-conception (pc).

History

Embryonic Origins

Developmental Process

Differentiation occurs in the early stages of embryonic development. It consists of two embryonic transitional stages: Gliogenesis and maturation of Schwann cells. Matured Schwann cells further differentiates into myelinating and nonmyelinating types.

Adult Function

  • Differentiation process
  • When they start to function

Tissue / Organ Structure

Molecular Mechanisms / Factors / Genes

Abnormalities / Abnormal Development

  • Environmental factors
  • Genetic mutations
  • Images of how they look like

Animal Models

Current Research (Labs)

Link on current research for DRG [1]

  • Provide link on research lab

Glossary

  • Brief, clear and concise

Reference List

[2] [3] [4] [5]

  1. Sapunar D, Kostic S, Banozic A & Puljak L. (2012). Dorsal root ganglion - a potential new therapeutic target for neuropathic pain. J Pain Res , 5, 31-8. PMID: 22375099 DOI.
  2. George L, Dunkel H, Hunnicutt BJ, Filla M, Little C, Lansford R & Lefcort F. (2016). In vivo time-lapse imaging reveals extensive neural crest and endothelial cell interactions during neural crest migration and formation of the dorsal root and sympathetic ganglia. Dev. Biol. , 413, 70-85. PMID: 26988118 DOI.
  3. George L, Kasemeier-Kulesa J, Nelson BR, Koyano-Nakagawa N & Lefcort F. (2010). Patterned assembly and neurogenesis in the chick dorsal root ganglion. J. Comp. Neurol. , 518, 405-22. PMID: 20017208 DOI.
  4. Ogawa R, Fujita K & Ito K. (2017). Mouse embryonic dorsal root ganglia contain pluripotent stem cells that show features similar to embryonic stem cells and induced pluripotent stem cells. Biol Open , 6, 602-618. PMID: 28373172 DOI.
  5. Kasemeier-Kulesa JC, Kulesa PM & Lefcort F. (2005). Imaging neural crest cell dynamics during formation of dorsal root ganglia and sympathetic ganglia. Development , 132, 235-45. PMID: 15590743 DOI.
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