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Literature summary extracted from
- Adaptive evolution of multiple-variable exons and structural diversity of drug-metabolizing enzymes (2007), BMC Evol. Biol., 7, 69.
Organism
| EC Number | Organism | UniProt | Comment | Textmining |
|---|---|---|---|---|
| 2.4.1.150 | Canis lupus familiaris | - |
gene contains three highly similar variable exons and two constant exons, each variable exon is preceded by a distinct promoter and is separately spliced to a set of two constant exons to generate functional Gcnt2 mRNA | - |
| 2.4.1.150 | Danio rerio | - |
- |
- |
| 2.4.1.150 | Gallus gallus | - |
gene contains two highly similar variable exons and two constant exons, each variable exon is preceded by a distinct promoter and is separately spliced to a set of two constant exons to generate functional Gcnt2 mRNA | - |
| 2.4.1.150 | Homo sapiens | - |
gene contains three highly similar variable exons and two constant exons, each variable exon is preceded by a distinct promoter and is separately spliced to a set of two constant exons to generate functional Gcnt2 mRNA | - |
| 2.4.1.150 | Macaca mulatta | - |
gene contains three highly similar variable exons and two constant exons, each variable exon is preceded by a distinct promoter and is separately spliced to a set of two constant exons to generate functional Gcnt2 mRNA | - |
| 2.4.1.150 | Monodelphis domestica | - |
gene contains two highly similar variable exons and two constant exons, each variable exon is preceded by a distinct promoter and is separately spliced to a set of two constant exons to generate functional Gcnt2 mRNA | - |
| 2.4.1.150 | Mus musculus | - |
gene contains three highly similar variable exons and two constant exons, each variable exon is preceded by a distinct promoter and is separately spliced to a set of two constant exons to generate functional Gcnt2 mRNA | - |
| 2.4.1.150 | Pan troglodytes | - |
gene contains three highly similar variable exons and two constant exons, each variable exon is preceded by a distinct promoter and is separately spliced to a set of two constant exons to generate functional Gcnt2 mRNA | - |
| 2.4.1.150 | Rattus norvegicus | - |
gene contains three highly similar variable exons and two constant exons, each variable exon is preceded by a distinct promoter and is separately spliced to a set of two constant exons to generate functional Gcnt2 mRNA | - |
| 2.4.1.150 | Xenopus tropicalis | - |
gene contains two highly similar variable exons and two constant exons, each variable exon is preceded by a distinct promoter and is separately spliced to a set of two constant exons to generate functional Gcnt2 mRNA | - |
Source Tissue
| EC Number | Source Tissue | Comment | Organism | Textmining |
|---|
Synonyms
| EC Number | Synonyms | Comment | Organism |
|---|---|---|---|
| 2.4.1.150 | GCNT2 | - |
Gallus gallus |
| 2.4.1.150 | GCNT2 | - |
Mus musculus |
| 2.4.1.150 | GCNT2 | - |
Homo sapiens |
| 2.4.1.150 | GCNT2 | - |
Rattus norvegicus |
| 2.4.1.150 | GCNT2 | - |
Canis lupus familiaris |
| 2.4.1.150 | GCNT2 | - |
Macaca mulatta |
| 2.4.1.150 | GCNT2 | - |
Pan troglodytes |
| 2.4.1.150 | GCNT2 | - |
Monodelphis domestica |
| 2.4.1.150 | GCNT2 | - |
Xenopus tropicalis |
| 2.4.1.150 | GCNT2 | - |
Danio rerio |
| 2.4.1.150 | Gcnt2 gene product | - |
Gallus gallus |
| 2.4.1.150 | Gcnt2 gene product | - |
Mus musculus |
| 2.4.1.150 | Gcnt2 gene product | - |
Homo sapiens |
| 2.4.1.150 | Gcnt2 gene product | - |
Rattus norvegicus |
| 2.4.1.150 | Gcnt2 gene product | - |
Canis lupus familiaris |
| 2.4.1.150 | Gcnt2 gene product | - |
Macaca mulatta |
| 2.4.1.150 | Gcnt2 gene product | - |
Pan troglodytes |
| 2.4.1.150 | Gcnt2 gene product | - |
Monodelphis domestica |
| 2.4.1.150 | Gcnt2 gene product | - |
Xenopus tropicalis |
| 2.4.1.150 | Gcnt2 gene product | gene contains one variable exon and two constant exons | Danio rerio |
| 2.4.1.150 | I-branching beta-1,6-N-acetylglucosaminyltransferase | - |
Gallus gallus |
| 2.4.1.150 | I-branching beta-1,6-N-acetylglucosaminyltransferase | - |
Mus musculus |
| 2.4.1.150 | I-branching beta-1,6-N-acetylglucosaminyltransferase | - |
Homo sapiens |
| 2.4.1.150 | I-branching beta-1,6-N-acetylglucosaminyltransferase | - |
Rattus norvegicus |
| 2.4.1.150 | I-branching beta-1,6-N-acetylglucosaminyltransferase | - |
Canis lupus familiaris |
| 2.4.1.150 | I-branching beta-1,6-N-acetylglucosaminyltransferase | - |
Macaca mulatta |
| 2.4.1.150 | I-branching beta-1,6-N-acetylglucosaminyltransferase | - |
Danio rerio |
| 2.4.1.150 | I-branching beta-1,6-N-acetylglucosaminyltransferase | - |
Pan troglodytes |
| 2.4.1.150 | I-branching beta-1,6-N-acetylglucosaminyltransferase | - |
Monodelphis domestica |
| 2.4.1.150 | I-branching beta-1,6-N-acetylglucosaminyltransferase | - |
Xenopus tropicalis |
| 2.4.1.150 | IGnT | - |
Gallus gallus |
| 2.4.1.150 | IGnT | - |
Mus musculus |
| 2.4.1.150 | IGnT | - |
Homo sapiens |
| 2.4.1.150 | IGnT | - |
Rattus norvegicus |
| 2.4.1.150 | IGnT | - |
Canis lupus familiaris |
| 2.4.1.150 | IGnT | - |
Macaca mulatta |
| 2.4.1.150 | IGnT | - |
Danio rerio |
| 2.4.1.150 | IGnT | - |
Pan troglodytes |
| 2.4.1.150 | IGnT | - |
Monodelphis domestica |
| 2.4.1.150 | IGnT | - |
Xenopus tropicalis |
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Release 2023.1 (January 2023)
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