Pre Prints

Muñoz- Estrada, J., Nguyen, A.V. and Goetz, S.C. 2023. TTBK2 mutations associated with spinocerebellar ataxia type 11 disrupt peroxisome dynamics and ciliary localization of SHH signaling proteins. BioRxiv. Doi.org/10.1101/2023.01.31.526333.

Peer Reviewed

Nguyen, A.V. and Goetz, S.C. 2023. TTBK2 controls cilium stability by regulating distinct modules of centrosomal proteins.. Molecular Biology of the Cell. Jan 1;34(1):ar8.

Cilleros-Rodriguez, D., Martin-Morales, R., Barbeito, P., Roy, A.D., Loukil, A., Sierra-Rodero, B.,  Herranz, G., Pampliega, O., Redrejo-Rodriguez, M., Goetz, S.C., Izquierdo, M., Inoue,  T., and.   Garcia-Gonzalo, F.R. 2022. Multiple Ciliary Localization Signals Control INPP5E Ciliary Targeting. eLife 2022; 11:e78383 PMCID: PMC9444247

Loukil, A., Barrington, C., and Goetz, S.C. 2021. A complex of distal-appendage associated kinases linked to human disease regulates cilium trafficking and stability. Proceedings of the National Academy of Sciences. 118 (16) e2018740118.

Bowie, E. and Goetz, S.C. 2020. TTBK2 and primary cilia are essential for the connectivity and survival of cerebellar Purkinje neurons. eLife. 2020;9:e51166 DOI: 10.7554/eLife.51166

Bowie, E., Norris, R., Anderson, K.V., and Goetz, S.C. 2018. Spinocerebellar ataxia type 11-associated alleles of Ttbk2 dominantly interfere with ciliogenesis and cilium stability. PLoS Genetics. 14(12): e1007844.

Goetz S.C.*, Bangs F*., Barrington C.L., Katsanis N., Anderson K.V.  2017. The Meckel syndrome- associated protein MKS1 functionally interacts with components of the BBSome and IFT complexes to mediate ciliary trafficking and hedgehog signaling. PLoS ONE 12(3): e0173399.

Goetz, S.C., Liem, K.F. Jr., and Anderson, KV.  2012. The Spinocerebellar Ataxia-associated Gene Tau Tubulin Kinase 2 (TTBK2) Controls the Initiation of Ciliogenesis. Cell. 151: 847-858.

**This work was highlighted by: Jackson, PK. 2012. TTBK2 Kinase: Linking Primary Cilia and Cerebellar Ataxias. Cell. 151: 697-699. 

Goetz, S.C. and Anderson, K.V.  2010. The Primary Cilium: A Signaling Center During Vertebrate Development. (Review) Nature Reviews Genetics.  11: 331-44.

Goetz, S.C., Ocbina, P.J. and Anderson, K.V.  2009. The Primary Cilium as a Hedgehog Signal Transduction Machine.  (Review) Methods in Cell Biology.  94: 199-222.

Langdon, Y.G. *, Goetz, S.C. *, Berg, A., Thomas-Swanik, J., and Conlon, F.L.  2007.   SHP-2 is Required for the Maintenance of Cardiac Progenitor Cells.  Development. 134: 4119-30.

Goetz, S.C. and Conlon, F.L. 2007.  The Regulation of the Cell Cycle During Vertebrate Heart Development.  (Review).  Cell Cycle.  6: 1974-1981.

Goetz, S.C, Brown, D.D., and Conlon, F.L.  2006.  TBX5 is Required for Cardiac Cell Cycle Progression.  Development  133: 2575-84.

Brown, D.D., Martz, S.N., Binder, O., Goetz, S.C., Price, B.M.J., Smith, J.C., and Conlon, F.L.  2005.  Tbx5 and Tbx20 act synergistically to control vertebrate heart morphogenesis.  Development 132: 553-563.

 * denotes equal contribution.