Gene
st6galnac4
- ID
- ZDB-GENE-060322-6
- Name
- ST6 (alpha-N-acetyl-neuraminyl-2,3-beta-galactosyl-1,3)-N-acetylgalactosaminide alpha-2,6-sialyltransferase 4
- Symbol
- st6galnac4 Nomenclature History
- Previous Names
-
- zgc:153237
- Type
- protein_coding_gene
- Location
- Chr: 21 Mapping Details/Browsers
- Description
- Predicted to enable alpha-N-acetylgalactosaminide alpha-2,6-sialyltransferase activity. Predicted to be involved in ganglioside biosynthetic process and oligosaccharide metabolic process. Predicted to act upstream of or within lipid metabolic process and protein glycosylation. Predicted to be located in Golgi apparatus and membrane. Is expressed in several structures, including gill; heart; integument; liver; and pleuroperitoneal region. Orthologous to human ST6GALNAC4 (ST6 N-acetylgalactosaminide alpha-2,6-sialyltransferase 4).
- Genome Resources
- Note
- None
- Comparative Information
-
- All Expression Data
- 1 figure from Yamakawa et al., 2018
- 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 |
|---|---|---|---|---|---|
| la014098Tg | Transgenic insertion | Unknown | Unknown | DNA | |
| sa43567 | Allele with one point mutation | Unknown | Premature Stop | ENU |
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No data available
Human Disease
Domain, Family, and Site Summary
Domain Details Per Protein
| Protein | Additional Resources | Length | Glycosyl transferase family 29 | GT29-like superfamiliy |
|---|---|---|---|---|
| UniProtKB:Q5NDG1 | InterPro | 291 |
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| Type | Name | Annotation Method | Has Havana Data | Length (nt) | Analysis |
|---|---|---|---|---|---|
| mRNA |
st6galnac4-201
(1)
|
Ensembl | 983 nt | ||
| mRNA |
st6galnac4-202
(1)
|
Ensembl | 1,203 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 | CH73-145I2 | ZFIN Curated Data | |
| Encodes | cDNA | MGC:153237 | ZFIN Curated Data |
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| Type | Accession # | Sequence | Length (nt/aa) | Analysis |
|---|---|---|---|---|
| RNA | RefSeq:NM_001045370 (1) | 1238 nt | ||
| Genomic | GenBank:FO704802 (1) | 34861 nt | ||
| Polypeptide | UniProtKB:Q5NDG1 (1) | 291 aa |
- Yamakawa, N., Vanbeselaere, J., Chang, L.Y., Yu, S.Y., Ducrocq, L., Harduin-Lepers, A., Kurata, J., Aoki-Kinoshita, K.F., Sato, C., Khoo, K.H., Kitajima, K., Guerardel, Y. (2018) Systems glycomics of adult zebrafish identifies organ-specific sialylation and glycosylation patterns. Nature communications. 9:4647
- Varshney, G.K., Lu, J., Gildea, D., Huang, H., Pei, W., Yang, Z., Huang, S.C., Schoenfeld, D.S., Pho, N., Casero, D., Hirase, T., Mosbrook-Davis, D.M., Zhang, S., Jao, L.E., Zhang, B., Woods, I.G., Zimmerman, S., Schier, A.F., Wolfsberg, T., Pellegrini, M., Burgess, S.M., and Lin, S. (2013) A large-scale zebrafish gene knockout resource for the genome-wide study of gene function. Genome research. 23(4):727-735
- Vanbeselaere, J., Chang, L.Y., Harduin-Lepers, A., Fabre, E., Yamakawa, N., Slomianny, C., Biot, C., Khoo, K.H., and Guerardel, Y. (2012) Mapping the expressed glycome and glycosyltransferases of zebrafish liver cells as a relevant model system for glycosylation studies. Journal of Proteome Research. 11(4):2164-2177
- Harduin-Lepers, A. (2010) Comprehensive Analysis of sialyltransferases in vertebrate genomes.. Glycobiology. 2010:2:29-61
- Wang, D., Jao, L.E., Zheng, N., Dolan, K., Ivey, J., Zonies, S., Wu, X., Wu, K., Yang, H., Meng, Q., Zhu, Z., Zhang, B., Lin, S., and Burgess, S.M. (2007) Efficient genome-wide mutagenesis of zebrafish genes by retroviral insertions. Proceedings of the National Academy of Sciences of the United States of America. 104(30):12428-12433
- Harduin-Lepers, A., Mollicone, R., Delannoy, P., and Oriol, R. (2005) The animal sialyltransferases and sialyltransferase-related genes: a phylogenetic approach. Glycobiology. 15(8):805-817
- Strausberg,R.L., Feingold,E.A., Grouse,L.H., Derge,J.G., Klausner,R.D., Collins,F.S., Wagner,L., Shenmen,C.M., Schuler,G.D., Altschul,S.F., Zeeberg,B., Buetow,K.H., Schaefer,C.F., Bhat,N.K., Hopkins,R.F., Jordan,H., Moore,T., Max,S.I., Wang,J., Hsieh,F., Diatchenko,L., Marusina,K., Farmer,A.A., Rubin,G.M., Hong,L., Stapleton,M., Soares,M.B., Bonaldo,M.F., Casavant,T.L., Scheetz,T.E., Brownstein,M.J., Usdin,T.B., Toshiyuki,S., Carninci,P., Prange,C., Raha,S.S., Loquellano,N.A., Peters,G.J., Abramson,R.D., Mullahy,S.J., Bosak,S.A., McEwan,P.J., McKernan,K.J., Malek,J.A., Gunaratne,P.H., Richards,S., Worley,K.C., Hale,S., Garcia,A.M., Gay,L.J., Hulyk,S.W., Villalon,D.K., Muzny,D.M., Sodergren,E.J., Lu,X., Gibbs,R.A., Fahey,J., Helton,E., Ketteman,M., Madan,A., Rodrigues,S., Sanchez,A., Whiting,M., Madan,A., Young,A.C., Shevchenko,Y., Bouffard,G.G., Blakesley,R.W., Touchman,J.W., Green,E.D., Dickson,M.C., Rodriguez,A.C., Grimwood,J., Schmutz,J., Myers,R.M., Butterfield,Y.S., Krzywinski,M.I., Skalska,U., Smailus,D.E., Schnerch,A., Schein,J.E., Jones,S.J., and Marra,M.A. (2002) Generation and initial analysis of more than 15,000 full-length human and mouse cDNA sequences. Proceedings of the National Academy of Sciences of the United States of America. 99(26):16899-903
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