Gene
cdc42ep4b
- ID
- ZDB-GENE-091008-2
- Name
- CDC42 effector protein (Rho GTPase binding) 4b
- Symbol
- cdc42ep4b Nomenclature History
- Previous Names
- None
- Type
- protein_coding_gene
- Location
- Chr: 12 Mapping Details/Browsers
- Description
- Predicted to enable small GTPase binding activity. Predicted to be involved in Rho protein signal transduction; positive regulation of cellular component biogenesis; and regulation of cell shape. Predicted to be located in endomembrane system. Predicted to be active in cytoplasm; cytoskeleton; and plasma membrane. Orthologous to human CDC42EP4 (CDC42 effector protein 4).
- Genome Resources
- Note
- None
- Comparative Information
-
- All Expression Data
- No data available
- Cross-Species Comparison
- High Throughput Data
- Thisse Expression Data
- No data available
Wild Type Expression Summary
- All Phenotype Data
- No data available
- Cross-Species Comparison
- Alliance
Phenotype Summary
Mutations
| Allele | Type | Localization | Consequence | Mutagen | Supplier |
|---|---|---|---|---|---|
| tud16Gt | Transgenic insertion | Intron 1 | Unknown | DNA |
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No data available
Human Disease
Domain, Family, and Site Summary
Domain Details Per Protein
| Protein | Additional Resources | Length | Cdc42 effector-like | Cdc42 Effector Protein BORG/CEP | CRIB domain |
|---|---|---|---|---|---|
| UniProtKB:E7F7G6 | InterPro | 336 |
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| Type | Name | Annotation Method | Has Havana Data | Length (nt) | Analysis |
|---|---|---|---|---|---|
| mRNA |
cdc42ep4b-201
(1)
|
Ensembl | 4,334 nt |
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Interactions and Pathways
No data available
Plasmids
No data available
No data available
| Relationship | Marker Type | Marker | Accession Numbers | Citations |
|---|---|---|---|---|
| Contained in | BAC | CH211-117G12 | ||
| Contained in | BAC | CH211-125I3 | ZFIN Curated Data | |
| Contained in | BAC | CH211-152F22 | ZFIN Curated Data |
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| Type | Accession # | Sequence | Length (nt/aa) | Analysis |
|---|---|---|---|---|
| RNA | RefSeq:XM_003199641 (1) | 4367 nt | ||
| Genomic | GenBank:CR293521 (1) | 152631 nt | ||
| Polypeptide | UniProtKB:E7F7G6 (1) | 336 aa |
- Bayés, À., Collins, M.O., Reig-Viader, R., Gou, G., Goulding, D., Izquierdo, A., Choudhary, J.S., Emes, R.D., Grant, S.G. (2017) Evolution of complexity in the zebrafish synapse proteome. Nature communications. 8:14613
- Braasch, I., Gehrke, A.R., Smith, J.J., Kawasaki, K., Manousaki, T., Pasquier, J., Amores, A., Desvignes, T., Batzel, P., Catchen, J., Berlin, A.M., Campbell, M.S., Barrell, D., Martin, K.J., Mulley, J.F., Ravi, V., Lee, A.P., Nakamura, T., Chalopin, D., Fan, S., Wcisel, D., Cañestro, C., Sydes, J., Beaudry, F.E., Sun, Y., Hertel, J., Beam, M.J., Fasold, M., Ishiyama, M., Johnson, J., Kehr, S., Lara, M., Letaw, J.H., Litman, G.W., Litman, R.T., Mikami, M., Ota, T., Saha, N.R., Williams, L., Stadler, P.F., Wang, H., Taylor, J.S., Fontenot, Q., Ferrara, A., Searle, S.M., Aken, B., Yandell, M., Schneider, I., Yoder, J.A., Volff, J.N., Meyer, A., Amemiya, C.T., Venkatesh, B., Holland, P.W., Guiguen, Y., Bobe, J., Shubin, N.H., Di Palma, F., Alföldi, J., Lindblad-Toh, K., Postlethwait, J.H. (2016) The spotted gar genome illuminates vertebrate evolution and facilitates human-teleost comparisons. Nature Genetics. 48(4):427-37
- Elkon, R., Milon, B., Morrison, L., Shah, M., Vijayakumar, S., Racherla, M., Leitch, C.C., Silipino, L., Hadi, S., Weiss-Gayet, M., Barras, E., Schmid, C.D., Ait-Lounis, A., Barnes, A., Song, Y., Eisenman, D.J., Eliyahu, E., Frolenkov, G.I., Strome, S.E., Durand, B., Zaghloul, N.A., Jones, S.M., Reith, W., Hertzano, R. (2015) RFX transcription factors are essential for hearing in mice. Nature communications. 6:8549
- Jungke, P., Hammer, J., Hans, S., Brand, M. (2015) Isolation of Novel CreERT2-Driver Lines in Zebrafish Using an Unbiased Gene Trap Approach. PLoS One. 10:e0129072
- Jungke, P., Hans, S., and Brand, M. (2013) The Zebrafish CreZoo: An Easy-to-Handle Database for Novel CreERT2-Driver Lines. Zebrafish. 10(3):259-63
- Kassahn, K.S., Dang, V.T., Wilkins, S.J., Perkins, A.C., and Ragan, M.A. (2009) Evolution of gene function and regulatory control after whole-genome duplication: Comparative analyses in vertebrates. Genome research. 19(8):1404-1418
- Lo, J., Lee, S., Xu, M., Liu, F., Ruan, H., Eun, A., He, Y., Ma, W., Wang, W., Wen, Z., and Peng, J. (2003) 15,000 unique zebrafish EST clusters and their future use in microarray for profiling gene expression patterns during embryogenesis. Genome research. 13(3):455-466
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