Description

laminin, gamma 2 [Source:MGI Symbol;Acc:MGI:99913]

INSDC coordinates

chromosome:GRCm38:CM000994.2:153122756:153186447:1

Transcripts

This gene has 6 transcripts (splice variants) Show transcript tableHide transcript table

NameTranscript IDbpProteinBiotypeCCDSUniProtRefSeqFlags
Lamc2-201ENSMUST0000002775351641193 aa
 
Protein codingGenes and/or transcript that contains an open reading frame (ORF).
CCDS15369G5E874 Q3UI29 NM_008485
NP_032511
TSL:5

TSL5: No single transcript (mRNA or EST) supports this transcript model's structure.

The Transcript Support Level (TSL) is a method to highlight the well-supported and poorly-supported transcript models for users. The method relies on the primary data that can support full-length transcript structure: mRNA and EST alignments supplied by UCSC and Ensembl.

GENCODE basicThe GENCODE set is the gene set for human and mouse. GENCODE Basic is a subset of representative transcripts (splice variants).APPRIS PIAPPRIS principal isoform
Glossary entry for APPRIS
APPRIS website
Lamc2-001ENSMUST0000018535649161193 aa
 
Protein codingGenes and/or transcript that contains an open reading frame (ORF).
CCDS15369G5E874 Q3UI29 -TSL:1

TSL1: All splice junctions of the transcript are supported by at least one non-suspect mRNA.

The Transcript Support Level (TSL) is a method to highlight the well-supported and poorly-supported transcript models for users. The method relies on the primary data that can support full-length transcript structure: mRNA and EST alignments supplied by UCSC and Ensembl.

GENCODE basicThe GENCODE set is the gene set for human and mouse. GENCODE Basic is a subset of representative transcripts (splice variants).APPRIS PIAPPRIS principal isoform
Glossary entry for APPRIS
APPRIS website
Lamc2-005ENSMUST0000018820681835 aa
 
Protein codingGenes and/or transcript that contains an open reading frame (ORF).
-Q9R086 -CDS 5' incomplete5' truncation in transcript evidence prevents annotation of the start of the CDS.TSL:NA

TSL:NA:The transcript was not analyzed for one of the following reasons:

  • Pseudogene annotation, including transcribed pseudogenes
  • Human leukocyte antigen (HLA) transcript
  • Immunoglobin gene transcript
  • T-cell receptor transcript
  • Single-exon transcript (will be included in a future version)

The Transcript Support Level (TSL) is a method to highlight the well-supported and poorly-supported transcript models for users. The method relies on the primary data that can support full-length transcript structure: mRNA and EST alignments supplied by UCSC and Ensembl.

Lamc2-002ENSMUST000001888312255No protein
 
Retained intronAlternatively spliced transcript that is believed to contain intronic sequence relative to other coding transcripts in a given locus.
---TSL:1

TSL1: All splice junctions of the transcript are supported by at least one non-suspect mRNA.

The Transcript Support Level (TSL) is a method to highlight the well-supported and poorly-supported transcript models for users. The method relies on the primary data that can support full-length transcript structure: mRNA and EST alignments supplied by UCSC and Ensembl.

Lamc2-003ENSMUST00000185328717No protein
 
Retained intronAlternatively spliced transcript that is believed to contain intronic sequence relative to other coding transcripts in a given locus.
---TSL:5

TSL5: No single transcript (mRNA or EST) supports this transcript model's structure.

The Transcript Support Level (TSL) is a method to highlight the well-supported and poorly-supported transcript models for users. The method relies on the primary data that can support full-length transcript structure: mRNA and EST alignments supplied by UCSC and Ensembl.

Lamc2-004ENSMUST00000189005440No protein
 
Retained intronAlternatively spliced transcript that is believed to contain intronic sequence relative to other coding transcripts in a given locus.
---TSL:2

TSL2: The best supporting mRNA is flagged as suspect or the support is from multiple ESTs.

The Transcript Support Level (TSL) is a method to highlight the well-supported and poorly-supported transcript models for users. The method relies on the primary data that can support full-length transcript structure: mRNA and EST alignments supplied by UCSC and Ensembl.

Gene-based displays