Basic Information
MANE select
Transcripts
| ID | Sequence | Length | GC content |
|---|---|---|---|
| CCCGCCUCCCCGGCCCCCUCCCCGGAACCGGCGGUCGAGCUACGGUCGC… | 2971 nt | 0.4981 | |
| CCCGCCUCCCCGGCCCCCUCCCCGGAACCGGCGGUCGAGCUACGGUCGC… | 5500 nt | 0.5135 | |
| CCCGCCUCCCCGGCCCCCUCCCCGGAACCGGCGGUCGAGCUACGGUCGC… | 5496 nt | 0.5135 | |
| AGUGCAUUUGGUGGCAGAGUGACAGGCUUGGAAGAGAAUGUGGAGGGAG… | 5334 nt | 0.5122 | |
| AAGUGGAGACACGUGCUUUGGCCUGUUGGAGGGGAAACCCGCUCUCGCC… | 3320 nt | 0.4994 | |
| AAGUGGAGACACGUGCUUUGGCCUGUUGGAGGGGAAACCCGCUCUCGCC… | 5849 nt | 0.5133 | |
| CCCGCCUCCCCGGCCCCCUCCCCGGAACCGGCGGUCGAGCUACGGUCGC… | 5447 nt | 0.5118 |
Summary
The protein encoded by this gene belongs to the SEC14 cytosolic factor family. It has similarity to yeast SEC14 and to Japanese flying squid RALBP which suggests a possible role of the gene product in an intracellular transport system. Multiple alternatively spliced transcript variants have been found for this gene; some variants represent read-through transcripts that include exons from the upstream gene C17orf86. [provided by RefSeq, Feb 2011]
Forensic Context
A study in rats demonstrated that the SEC14L1 was significantly upregulated in left ventricular tissues from an ischemic cardiomyopathy model created via coronary artery ligation, confirming its differential expression as one of twelve validated genes from human microarray data mining [Wang et al. DOI:10.1007/s12031-018-1066-6].