Secretory 23
Sec23
Primary_assembly 3R: 5,649,065-5,652,629 forward strand.
This transcript has 6 exons, is annotated with 22 domains and features and maps to 22 oligo probes.
This transcript is a product of gene FBgn0262125 Show transcript tableHide transcript table
| Transcript ID | Name | bp | Protein | Translation ID | Biotype | UniProt Match | Flags |
|---|---|---|---|---|---|---|---|
| FBtr0309091 | Sec23-RE | 2701 | 781aa | FBpp0301099 | Gene/transcipt that contains an open reading frame (ORF).Protein coding | A0A0B4K5Z8 Q95TD2 | A single transcript chosen for a gene which is the most conserved, most highly expressed, has the longest coding sequence and is represented in other key resources, such as NCBI and UniProt. This is defined in detail on http://www.ensembl.org/info/genome/genebuild/canonical.htmlEnsembl Canonical, |
| FBtr0304794 | Sec23-RD | 2819 | 780aa | FBpp0293334 | Gene/transcipt that contains an open reading frame (ORF).Protein coding | A0A0B4K6T4 | APPRIS ALT1: For genes in which the APPRIS core modules are unable to choose a clear principal isoform, the ALT1 is the candidate transcript(s) models that is conserved in at least three tested species. APPRIS is a system to annotate alternatively spliced transcripts based on a range of computational methods to identify the most functionally important transcript(s) of a gene. APPRIS ALT1, |
| FBtr0078710 | Sec23-RB | 2798 | 773aa | FBpp0078359 | Gene/transcipt that contains an open reading frame (ORF).Protein coding | Q8IGT0 Q9NFN9 Q9VNF8 | APPRIS P4: Where the APPRIS core modules are unable to choose a clear principal CDS and there is more than one variant with a distinct (but consecutive) CCDS identifiers, APPRIS selects the longest CCDS isoform as the principal variant. APPRIS is a system to annotate alternatively spliced transcripts based on a range of computational methods to identify the most functionally important transcript(s) of a gene. APPRIS P4, |
| FBtr0078711 | Sec23-RA | 2706 | 773aa | FBpp0078360 | Gene/transcipt that contains an open reading frame (ORF).Protein coding | Q9VNF8 | APPRIS P4: Where the APPRIS core modules are unable to choose a clear principal CDS and there is more than one variant with a distinct (but consecutive) CCDS identifiers, APPRIS selects the longest CCDS isoform as the principal variant. APPRIS is a system to annotate alternatively spliced transcripts based on a range of computational methods to identify the most functionally important transcript(s) of a gene. APPRIS P4, |
| FBtr0310266 | Sec23-RF | 2698 | 780aa | FBpp0301949 | Gene/transcipt that contains an open reading frame (ORF).Protein coding | A0A0B4K6T4 | APPRIS ALT1: For genes in which the APPRIS core modules are unable to choose a clear principal isoform, the ALT1 is the candidate transcript(s) models that is conserved in at least three tested species. APPRIS is a system to annotate alternatively spliced transcripts based on a range of computational methods to identify the most functionally important transcript(s) of a gene. APPRIS ALT1, |
| FBtr0339320 | Sec23-RH | 2677 | 773aa | FBpp0308424 | Gene/transcipt that contains an open reading frame (ORF).Protein coding | Q9VNF8 | APPRIS P4: Where the APPRIS core modules are unable to choose a clear principal CDS and there is more than one variant with a distinct (but consecutive) CCDS identifiers, APPRIS selects the longest CCDS isoform as the principal variant. APPRIS is a system to annotate alternatively spliced transcripts based on a range of computational methods to identify the most functionally important transcript(s) of a gene. APPRIS P4, |
| FBtr0330314 | Sec23-RG | 2590 | 773aa | FBpp0303346 | Gene/transcipt that contains an open reading frame (ORF).Protein coding | Q9VNF8 | APPRIS P4: Where the APPRIS core modules are unable to choose a clear principal CDS and there is more than one variant with a distinct (but consecutive) CCDS identifiers, APPRIS selects the longest CCDS isoform as the principal variant. APPRIS is a system to annotate alternatively spliced transcripts based on a range of computational methods to identify the most functionally important transcript(s) of a gene. APPRIS P4, |