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Literature DB >> 21305690

Time-lapse imaging of neural development: zebrafish lead the way into the fourth dimension.

Sandra Rieger¹, Fang Wang, Alvaro Sagasti.

Abstract

Time-lapse imaging is often the only way to appreciate fully the many dynamic cell movements critical to neural development. Zebrafish possess many advantages that make them the best vertebrate model organism for live imaging of dynamic development events. This review will discuss technical considerations of time-lapse imaging experiments in zebrafish, describe selected examples of imaging studies in zebrafish that revealed new features or principles of neural development, and consider the promise and challenges of future time-lapse studies of neural development in zebrafish embryos and adults.

Entities: Chemical Disease Gene Species

Mesh：

Year: 2011 PMID： 21305690 PMCID： PMC3132295 DOI： 10.1002/dvg.20729

Source DB: PubMed Journal: Genesis ISSN： 1526-954X Impact factor: 2.487

79 in total

1. Rapid in vivo labeling of identified zebrafish neurons.

Authors: Gerald B Downes; Julie A Waterbury; Michael Granato
Journal: Genesis Date: 2002-11 Impact factor: 2.487

2. Synaptic activity and activity-dependent competition regulates axon arbor maturation, growth arrest, and territory in the retinotectal projection.

Authors: Naila Ben Fredj; Sarah Hammond; Hideo Otsuna; Chi-Bin Chien; Juan Burrone; Martin P Meyer
Journal: J Neurosci Date: 2010-08-11 Impact factor: 6.167

Review 3. Using Zebrafish to Model Autism Spectrum Disorder: A Comparison of ASD Risk Genes Between Zebrafish and Their Mammalian Counterparts.

Authors: Victoria Rea; Terence J Van Raay
Journal: Front Mol Neurosci Date: 2020-11-11 Impact factor: 5.639

3 in total

Time-lapse imaging of neural development: zebrafish lead the way into the fourth dimension.

1. Rapid in vivo labeling of identified zebrafish neurons.

2. Synaptic activity and activity-dependent competition regulates axon arbor maturation, growth arrest, and territory in the retinotectal projection.

3. Cell tracking using a photoconvertible fluorescent protein.

4. Optimized Gal4 genetics for permanent gene expression mapping in zebrafish.

5. Muscle contractions guide rohon-beard peripheral sensory axons.

6. Reversible single-molecule photoswitching in the GFP-like fluorescent protein Dronpa.

7. The Tol2-mediated Gal4-UAS method for gene and enhancer trapping in zebrafish.

8. In vivo birthdating by BAPTISM reveals that trigeminal sensory neuron diversity depends on early neurogenesis.

9. Actomyosin is the main driver of interkinetic nuclear migration in the retina.

10. parachute/n-cadherin is required for morphogenesis and maintained integrity of the zebrafish neural tube.

1. Using Live Imaging to Examine Early Cardiac Development in Zebrafish.

2. Intubation-based anesthesia for long-term time-lapse imaging of adult zebrafish.

Review 3. Using Zebrafish to Model Autism Spectrum Disorder: A Comparison of ASD Risk Genes Between Zebrafish and Their Mammalian Counterparts.