Editing Adult neurogenesis (section)

=== Zebrafish ===
[[Zebrafish]] have long been a classical [[Human development (biology)|developmental]] model due to their transparency during [[organogenesis]] and have been utilized heavily in early development neurogenesis.<ref>{{cite journal|last=Zupanc|first=G. K. H.|date=2006-06-01|title=Neurogenesis and neuronal regeneration in the adult fish brain|journal=Journal of Comparative Physiology A|language=en|volume=192|issue=6|pages=649–670|doi=10.1007/s00359-006-0104-y|pmid=16463148|s2cid=24063389|issn=0340-7594}}</ref><ref>{{cite journal|last1=Schmidt|first1=Rebecca|last2=Strähle|first2=Uwe|last3=Scholpp|first3=Steffen|date=2013-02-21|title=Neurogenesis in zebrafish — from embryo to adult|journal=Neural Development|volume=8|pages=3|doi=10.1186/1749-8104-8-3|issn=1749-8104|pmc=3598338|pmid=23433260 |doi-access=free }}</ref> The zebrafish displays a strong neurogenerative capacity capable of regenerating a variety of tissues and complete neuronal diversity (with the exception of [[astrocyte]]s, as they have yet to be identified within the zebrafish brain) with continued neurogenesis through the life span. In recent decades the model has solidified its role in adult regeneration and neurogenesis following damage.<ref>{{cite journal|last1=Hentig|first1=James T.|last2=Byrd-Jacobs|first2=Christine A.|date=2016-08-31|title=Exposure to Zinc Sulfate Results in Differential Effects on Olfactory Sensory Neuron Subtypes in Adult Zebrafish|journal=International Journal of Molecular Sciences|volume=17|issue=9|pages=1445|doi=10.3390/ijms17091445|issn=1422-0067|pmc=5037724|pmid=27589738|doi-access=free}}</ref><ref>{{cite journal|last1=Gorsuch|first1=Ryne A.|last2=Hyde|first2=David R.|date=June 2014|title=Regulation of Müller glial dependent neuronal regeneration in the damaged adult zebrafish retina|journal=Experimental Eye Research|volume=123|pages=131–140|doi=10.1016/j.exer.2013.07.012|issn=1096-0007|pmc=3877724|pmid=23880528}}</ref><ref>{{cite journal |last1=Trimpe |first1=D. M. |last2=Byrd-Jacobs |first2=C. A. |date=2016 |title=Patterns of olfactory bulb neurogenesis in the adult zebrafish are altered following reversible deafferentation |url=|journal=Neuroscience |volume=331 |pages=134–147 | pmid=27343831 | doi=10.1016/j.neuroscience.2016.06.026|pmc=6496944 }}</ref><ref>{{cite journal|last1=Kroehne|first1=Volker|last2=Freudenreich|first2=Dorian|last3=Hans|first3=Stefan|last4=Kaslin|first4=Jan|last5=Brand|first5=Michael|date=November 2011|title=Regeneration of the adult zebrafish brain from neurogenic radial glia-type progenitors|journal=Development|volume=138|issue=22|pages=4831–41|doi=10.1242/dev.072587|issn=1477-9129|pmid=22007133|doi-access=free}}</ref> The zebrafish, like the axolotl, has played a key role as a bridge organism between invertebrates and mammals. The zebrafish is a rapidly developing organism that is relatively inexpensive to maintain, while providing the field ease of genetic manipulation and a complex nervous system.