Publications
^undergraduate author $research technician advisee † graduate student advisee @ postdoctoral advisee °Shared first authorship *corresponding/senior author
PREPRINTS
Davidson, A. E.@, Straquadine, N. R. W.^, Cook, S. A.^, Liu, C. G.^, Ganz, J.* (2021). A rapid F0 CRISPR screen in zebrafish to identify regulators of neuronal development in the enteric nervous system. bioRxiv, 2021.2007.2017.452230.
PUBLICATIONS
26. Ganz, J.*, Ratcliffe, E.*, Who’s talking to who: microbiome-enteric nervous system interactions in early life, (2023). American Journal of Physiology - Gastrointestinal and Liver Physiology 2023 Jan 10. doi: 10.1152/ajpgi.00166.2022
25. Bandla, A.†, Melancon, E., Taylor, C.^, Davidson, A.E.@, Eisen, J.S., Ganz, J.* 2022. A New Transgenic Tool to Study the Ret Signaling Pathway in the Enteric Nervous System. International Journal of Molecular Sciences. 2022 Dec 10;23(24):15667.doi: 10.3390/ijms232415667
24. Rueckert, H.$, Ganz, J.*. (2022). Healing the gut’s brain: Regeneration in the enteric nervous system, Int. J. Mol. Sci. 2022, 23(9), 4799; https://doi.org/10.3390/ijms23094799
23. Ganz J.*, Revealing the complexity of the gut's brain. Nat Neurosci. 2021 Jan;24(1):1-2.
22. Kaslin, J., and Ganz, J.*, (2019) Chapter 18 - Nervous systems. In The Zebrafish in Biomedical Research: biology, husbandry, diseases, and research applications, Eds. Cartner, S., Eisen, J.S., Farmer, S., Guillemin, K., Kent, M., and Sanders, G., 2020, Academic Press. p181-189.
21. Ganz, J.°, Melancon, E.°, Wilson, C., Amores, A., Batzel, P., Strader, M., Braasch, I., Diba, P.^, Kuhlman, JA., Postlethwait, JH., and Eisen, JS. (2019). Epigenetic factors coordinate intestinal development. Dev Biol. Aug 5.
20. Kulkarni S., Ganz J., Bayrer J., Becker L., Bogunovic M., and Rao M. (2018). Advances in Enteric Neurobiology: The "Brain" in the Gut in Health and Disease, J Neurosci. Oct 31;38(44):9346-9354.
19. Spiewak JE., Bain EJ., Liu J., Kou K., Sturiale SL., Patterson LB., Diba P.^, Eisen JS., Braasch I., Ganz J., Parichy DM. (2018). Evolution of Endothelin signaling and diversification of adult pigment pattern in Danio fishes. PLoS Genet. Sep 18;14(9):e1007538.
Recommended by Faculty Opinons.
18. Troll, JV., Hamilton, KM., Abel, ML.^, Ganz J., Bates, JM., Stephens, WZ., Melancon, E., Van de Vaart, M., Meijer, A., Distel, M., Eisen, JS., Guillemin, K. (2018). Microbiota promote secretory cell determination in the intestinal epithelium by modulating host Notch signaling, Development. 145(4). pii: dev155317
17. Ganz, J.* (2018). Gut feelings: Studying enteric nervous system development, function and disease in the zebrafish model system. Developmental Dynamics. Feb;247(2):268-278
16. Ganz, J.°, Baker, RP.°, Hamilton, MK., Melancon, E., Diba, P.^, Eisen, JS., Parthasarathy, R. (2018). Image velocimetry and spectral analysis enable quantitative characterization of larval zebrafish gut motility. Neurogastroenterology and Motility Sep;30(9):e13351
15. Kaslin, J, Kroehne, V, Ganz, J, Hans, S, and Brand, M. (2017). Distinct roles of neuroepithelial-like and radial glia-like progenitor cells in cerebellar regeneration. Development, 144(8):1462-1471.
14. Rolig, AS, Mittge, EK, Ganz, J, Troll, JV, Melancon, E, Wiles, TJ, Alligood, K, Eisen, JS, and Guillemin, K. (2017). The enteric nervous system promotes intestinal health by constraining microbiota composition, PLoS Biology e2000689.
13. Taylor, CR^, Montagne, WM^, Eisen, JS, and Ganz, J*. (2016). Combinatorial gene expression patterns delineate distinct progenitor populations in the zebrafish enteric nervous system, Developmental Dynamics, Aug 26. doi: 10.1002/dvdy.24438. [Epub ahead of print]
12. Wiles TJ, Jemielita M, Baker RP, Schlomann BH, Logan SL, Ganz J, Melancon E, Eisen JS, Guillemin K, Parthasarathy R. (2016). Host Gut Motility Promotes Competitive Exclusion within a Model Intestinal Microbiota, PLoS Biology Jul 26;14(7)
11. Ganz, J, Melancon, E, Eisen, JS. (2016): Zebrafish as a model for understanding enteric nervous system interactions in the developing intestinal tract, Methods in Cell Biology 134:139-64
10. Ganz, J* and Brand, M*. (2016): Adult neurogenesis in fish, Cold Spring Harbor Perspectives in Biology. doi:10.1101/cshperspect.a019018
9. Ganz, J*, Kroehne, V, Freudenreich, D, Machate, A, Geffarth, M, Braasch, I, Kaslin, J, and Brand, M*. (2014): Subdivisions of the adult zebrafish pallium based on molecular marker analysis. F1000Research 3, 308.
8. de Oliveira-Carlos, V, Ganz, J, Hans, S, Kaslin, J, and Brand, M. (2013): Notch receptor expression in neurogenic regions of the adult zebrafish brain. PLoS One 8, e73384.
7. Simonson, LW, Ganz, J, Melancon, E, and Eisen, JS. (2013): Characterization of enteric neurons in wild-type and mutant zebrafish using semi-automated cell counting and co-expression analysis. Zebrafish 10, 147-53.
6. Ganz, J, Kaslin, J, Freudenreich, D, Machate, A, Geffarth, M, and Brand, M. (2012): Subdivisions of the adult zebrafish subpallium by molecular marker analysis. Journal of Comparative Neurology 520,633-55.
5. Ganz, J, Kaslin, J, Hochmann S, Freudenreich D, and Brand M. (2010): Heterogeneity and Fgf dependence of neural progenitor cells in the adult zebrafish telencephalon. Glia 58, 1345-63.
4. Kaslin, J, Ganz, J, Geffarth, M, Grandel, H, Hans, S, Brand, M. (2009): Stem cells in the adult zebrafish cerebellum: initiation and maintenance of a novel stem cell niche. Journal of Neuroscience. 29, 6142-53.
3. Kaslin, J, Ganz, J, and Brand, M. (2008): Proliferation, neurogenesis and regeneration in the non-mammalian vertebrate brain. Philosophical Transactions of the Royal Society London Series B: Biological Sciences 363, 101-22.
2. Grandel, H, Kaslin, J, Ganz, J, Wenzel, I, and Brand, M. (2006): Neural stem cells and neurogenesis in the adult zebrafish brain: origin, proliferation dynamics, migration and cell fate. Developmental Biology 295, 263-77.
1. Ellertsdottir, E, Ganz, J#, Dürr, K, Loges, N#, Biemar, F, Seifert, F, Ettl, AK, Kramer Zucker, AK, Nitschke, R, and Driever, W. (2006): A mutation in the zebrafish Na,K-ATPase subunit atp1a1a.1 provides genetic evidence that the sodium potassium pump contributes to left-right asymmetry downstream or in parallel to nodal flow. Developmental Dynamics 235, 1794-808.
PREPRINTS
Davidson, A. E.@, Straquadine, N. R. W.^, Cook, S. A.^, Liu, C. G.^, Ganz, J.* (2021). A rapid F0 CRISPR screen in zebrafish to identify regulators of neuronal development in the enteric nervous system. bioRxiv, 2021.2007.2017.452230.
PUBLICATIONS
26. Ganz, J.*, Ratcliffe, E.*, Who’s talking to who: microbiome-enteric nervous system interactions in early life, (2023). American Journal of Physiology - Gastrointestinal and Liver Physiology 2023 Jan 10. doi: 10.1152/ajpgi.00166.2022
25. Bandla, A.†, Melancon, E., Taylor, C.^, Davidson, A.E.@, Eisen, J.S., Ganz, J.* 2022. A New Transgenic Tool to Study the Ret Signaling Pathway in the Enteric Nervous System. International Journal of Molecular Sciences. 2022 Dec 10;23(24):15667.doi: 10.3390/ijms232415667
24. Rueckert, H.$, Ganz, J.*. (2022). Healing the gut’s brain: Regeneration in the enteric nervous system, Int. J. Mol. Sci. 2022, 23(9), 4799; https://doi.org/10.3390/ijms23094799
23. Ganz J.*, Revealing the complexity of the gut's brain. Nat Neurosci. 2021 Jan;24(1):1-2.
22. Kaslin, J., and Ganz, J.*, (2019) Chapter 18 - Nervous systems. In The Zebrafish in Biomedical Research: biology, husbandry, diseases, and research applications, Eds. Cartner, S., Eisen, J.S., Farmer, S., Guillemin, K., Kent, M., and Sanders, G., 2020, Academic Press. p181-189.
21. Ganz, J.°, Melancon, E.°, Wilson, C., Amores, A., Batzel, P., Strader, M., Braasch, I., Diba, P.^, Kuhlman, JA., Postlethwait, JH., and Eisen, JS. (2019). Epigenetic factors coordinate intestinal development. Dev Biol. Aug 5.
20. Kulkarni S., Ganz J., Bayrer J., Becker L., Bogunovic M., and Rao M. (2018). Advances in Enteric Neurobiology: The "Brain" in the Gut in Health and Disease, J Neurosci. Oct 31;38(44):9346-9354.
19. Spiewak JE., Bain EJ., Liu J., Kou K., Sturiale SL., Patterson LB., Diba P.^, Eisen JS., Braasch I., Ganz J., Parichy DM. (2018). Evolution of Endothelin signaling and diversification of adult pigment pattern in Danio fishes. PLoS Genet. Sep 18;14(9):e1007538.
Recommended by Faculty Opinons.
18. Troll, JV., Hamilton, KM., Abel, ML.^, Ganz J., Bates, JM., Stephens, WZ., Melancon, E., Van de Vaart, M., Meijer, A., Distel, M., Eisen, JS., Guillemin, K. (2018). Microbiota promote secretory cell determination in the intestinal epithelium by modulating host Notch signaling, Development. 145(4). pii: dev155317
17. Ganz, J.* (2018). Gut feelings: Studying enteric nervous system development, function and disease in the zebrafish model system. Developmental Dynamics. Feb;247(2):268-278
16. Ganz, J.°, Baker, RP.°, Hamilton, MK., Melancon, E., Diba, P.^, Eisen, JS., Parthasarathy, R. (2018). Image velocimetry and spectral analysis enable quantitative characterization of larval zebrafish gut motility. Neurogastroenterology and Motility Sep;30(9):e13351
15. Kaslin, J, Kroehne, V, Ganz, J, Hans, S, and Brand, M. (2017). Distinct roles of neuroepithelial-like and radial glia-like progenitor cells in cerebellar regeneration. Development, 144(8):1462-1471.
14. Rolig, AS, Mittge, EK, Ganz, J, Troll, JV, Melancon, E, Wiles, TJ, Alligood, K, Eisen, JS, and Guillemin, K. (2017). The enteric nervous system promotes intestinal health by constraining microbiota composition, PLoS Biology e2000689.
13. Taylor, CR^, Montagne, WM^, Eisen, JS, and Ganz, J*. (2016). Combinatorial gene expression patterns delineate distinct progenitor populations in the zebrafish enteric nervous system, Developmental Dynamics, Aug 26. doi: 10.1002/dvdy.24438. [Epub ahead of print]
12. Wiles TJ, Jemielita M, Baker RP, Schlomann BH, Logan SL, Ganz J, Melancon E, Eisen JS, Guillemin K, Parthasarathy R. (2016). Host Gut Motility Promotes Competitive Exclusion within a Model Intestinal Microbiota, PLoS Biology Jul 26;14(7)
11. Ganz, J, Melancon, E, Eisen, JS. (2016): Zebrafish as a model for understanding enteric nervous system interactions in the developing intestinal tract, Methods in Cell Biology 134:139-64
10. Ganz, J* and Brand, M*. (2016): Adult neurogenesis in fish, Cold Spring Harbor Perspectives in Biology. doi:10.1101/cshperspect.a019018
9. Ganz, J*, Kroehne, V, Freudenreich, D, Machate, A, Geffarth, M, Braasch, I, Kaslin, J, and Brand, M*. (2014): Subdivisions of the adult zebrafish pallium based on molecular marker analysis. F1000Research 3, 308.
8. de Oliveira-Carlos, V, Ganz, J, Hans, S, Kaslin, J, and Brand, M. (2013): Notch receptor expression in neurogenic regions of the adult zebrafish brain. PLoS One 8, e73384.
7. Simonson, LW, Ganz, J, Melancon, E, and Eisen, JS. (2013): Characterization of enteric neurons in wild-type and mutant zebrafish using semi-automated cell counting and co-expression analysis. Zebrafish 10, 147-53.
6. Ganz, J, Kaslin, J, Freudenreich, D, Machate, A, Geffarth, M, and Brand, M. (2012): Subdivisions of the adult zebrafish subpallium by molecular marker analysis. Journal of Comparative Neurology 520,633-55.
5. Ganz, J, Kaslin, J, Hochmann S, Freudenreich D, and Brand M. (2010): Heterogeneity and Fgf dependence of neural progenitor cells in the adult zebrafish telencephalon. Glia 58, 1345-63.
4. Kaslin, J, Ganz, J, Geffarth, M, Grandel, H, Hans, S, Brand, M. (2009): Stem cells in the adult zebrafish cerebellum: initiation and maintenance of a novel stem cell niche. Journal of Neuroscience. 29, 6142-53.
3. Kaslin, J, Ganz, J, and Brand, M. (2008): Proliferation, neurogenesis and regeneration in the non-mammalian vertebrate brain. Philosophical Transactions of the Royal Society London Series B: Biological Sciences 363, 101-22.
2. Grandel, H, Kaslin, J, Ganz, J, Wenzel, I, and Brand, M. (2006): Neural stem cells and neurogenesis in the adult zebrafish brain: origin, proliferation dynamics, migration and cell fate. Developmental Biology 295, 263-77.
1. Ellertsdottir, E, Ganz, J#, Dürr, K, Loges, N#, Biemar, F, Seifert, F, Ettl, AK, Kramer Zucker, AK, Nitschke, R, and Driever, W. (2006): A mutation in the zebrafish Na,K-ATPase subunit atp1a1a.1 provides genetic evidence that the sodium potassium pump contributes to left-right asymmetry downstream or in parallel to nodal flow. Developmental Dynamics 235, 1794-808.