SEC16A (NM_001276418) Human Untagged Clone
CAT#: SC333251
SEC16A (untagged) - Homo sapiens SEC16 homolog A (S. cerevisiae) (SEC16A), transcript variant 2
"NM_001276418" in other vectors (2)
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Other products for "SEC16A"
Specifications
Product Data | |
Type | Human Untagged Clone |
Tag | Tag Free |
Symbol | SEC16A |
Synonyms | KIAA0310; p250; SEC16L |
Vector | pCMV6 series |
Sequence Data |
>NCBI ORF sequence for NM_001276418, the custom clone sequence may differ by one or more nucleotides
ATGCAGCCACCGCCCCAGACGGTCCCGTCTGGCATGGCTGGGCCACCTCCAGCCGGGAATCCTCGGAGCG TGTTCTGGGCTAGCAGCCCTTACAGGAGACGGGCTAATAATAATGCAGCAGTGGCTCCGACAACTTGCCC GTTGCAGCCGGTCACGGATCCATTTGCTTTTAGTAGACAGGCGCTCCAAAGTACACCACTGGGCAGTTCG TCCAAAAGCAGTCCACCTGTCTTGCAAGGCCCAGCCCCCGCAGGGTTTTCTCAGCACCCCGGTTTGCTTG TTCCTCACACACATGCCAGAGATAGCTCTCAGGGACCCTGTGAGCCCCTGCCTGGACCTCTGACACAGCC CAGAGCACATGCCAGTCCGTTTTCTGGTGCATTGACACCTTCAGCACCTCCTGGGCCTGAGATGAACAGG AGTGCAGAGGTCGGTCCCAGTTCAGAGCCTGAAGTTCAGACTCTGCCATATCTTCCTCACTACATTCCAG GAGTGGATCCTGAAACGTCTCATGGGGGCCACCCTCATGGGAACATGCCTGGGCTCGACCGACCCCTGAG CAGGCAAAACCCACATGACGGTGTGGTCACCCCAGCAGCATCCCCTTCCCTCCCTCAGCCTGGTCTGCAG ATGCCAGGACAGTGGGGGCCAGTGCAGGGAGGCCCACAGCCCTCGGGGCAACATCGTTCACCCTGCCCTG AAGGACCTGTTCCCAGCGGGGTGCCCTGTGCCACCAGCGTTCCTCATTTCCCCACCCCGTCCATCCTACA TCAGGGCCCTGGTCATGAGCAACACAGCCCTCTGGTGGCTCCCCCAGCAGCCTTGCCCAGTGACGGAAGA GACGAGGTGAGCCACTTGCAAAGTGGAAGCCACCTGGCCAATAACTCTGATCCTGAAAGTACATTCAGGC AAAATCCCAGAATTGTGAATCACTGGGCAAGCCCAGAGCTCAGGCAGAATCCAGGAGTGAAGAATGAGCA CCGGCCCGCCTCTGCTCTTGTGAACCCCCTCGCCCGGGGAGATAGCCCAGAAAACCGTACGCACCACCCA CTGGGGGCTGGGGCCGGGTCTGGCTGTGCCCCGCTAGAAGCAGACTCAGGAGCTTCAGGAGCTCTGGCGA TGTTTTTCCAAGGGGGAGAGACAGAAAATGAGGAGAATCTCTCATCTGAAAAAGCAGGCTTATCTGGTCA AGCGGACTTTGACGATTTCTGCTCCAGCCCTGGGCTAGGCCGTCCGCCCGCACCTACACACGTGGGGGCA GGCAGCCTCTGCCAGGCCCTTCTCCCAGGCCCCAGCAATGAGGCTGCTGGTGATGTGTGGGGTGACACAG CGAGCACAGGGGTGCCGGATGCCAGCGGCTCGCAGTATGAGAATGTTGAGAACTTAGAATTTGTTCAGAA TCAAGAAGTTCTGCCAAGTGAGCCCCTCAATTTGGACCCTTCCTCCCCGAGTGACCAGTTCAGATATGGG CCCCTTCCTGGGCCAGCTGTGCCCAGGCATGGTGCTGTGTGCCACACCGGAGCCCCTGATGCCACACTGC ATACAGTGCACCCTGACAGCGTGTCATCCAGCTATAGCAGCAGAAGCCACGGAAGGCTCTCAGGCTCAGC CAGGCCCCAGGAGCTGGTTGGCACATTCATTCAGCAAGAAGTTGGAAAACCCGAGGATGAAGCTTCAGGT AGTTTTTTTAAGCAAATCGATTCTTCTCCCGTAGGAGGTGAAACAGACGAGACCACTGTGAGCCAGAATT ACCGTGGCAGCGTGTCCCAGCCCTCAACCCCGAGCCCCCCGAAACCTACAGGAATATTTCAGACAAGTGC AAATAGTTCTTTCGAACCGGTAAAATCTCACTTAGTTGGGGTAAAACCATTTGAGGCAGATCGCGCCAAC GTGGTTGGTGAAGTAAGGGAGACCTGTGTCCGCCAGAAGCAGTGCAGACCAGCTGCCGCCCTGCCCGATG CTTCCCCTGGCAACCTGGAGCAGCCACCAGACAACATGGAGACCCTCTGTGCACCCCAGGTCTGTCCCCT GCCTCTTAACTCCACCACGGAAGCTGTGCACATGCTTCCGCACGCAGGGGCACCGCCCTTGGATACTGTG TATCCAGCACCCGAGAAGAGGCCTTCAGCCAGGACCCAGGGGCCCGTGAAGTGTGAGAGCCCAGCAACGA CTCTGTGGGCGCAAAGTGAGCTGCCAGATTTTGGAGGCAACGTCCTTCTGGCCCCTGCAGCCCCGGCGCT TTATGTGTGTGCAAAACCTCAGCCACCTGTTGTTCAGCCTCCAGAAGAGGCGATGTCCGGGCAGCAGTCA CGGAACCCAAGCTCGGCGGCCCCGGTGCAGAGCCGAGGTGGCATTGGTGCTTCTGAGAACCTTGAGAATC CTCCCAAAATGGGAGAGGAGGAGGCCCTTCAGTCCCAGGCGAGTTCTGGTTATGCAAGTTTATTATCCTC ACCGCCCACTGAGTCTCTGCAGAATCCTCCAGTCTTGATTGCTCAGCCTGATCACAGCTATAATCTGGCT CAGCCCATTAACTTTTCTGTGTCCTTATCGAACTCTCATGAGAAGAATCAGTCCTGGAGAGAGGCTTTGG TGGGGGATAGACCTGCAGTCAGCAGTTGGGCTCTCGGTGGTGATTCTGGGGAGAACACTTCTTTGTCTGG GATTCCAACCAGCTCTGTCCTTAGCTTGTCTCTGCCTAGCAGTGTTGCCCAAAGTAATTTTCCACAAGGT TCTGGTGCTTCCGAAATGGTTTCTAATCAGCCTGCTAATTTGCTGGTTCAACCACCATCCCAGCCAGTTC CAGAGAACTTGGTTCCAGAAAGTCAAAAGGATCGTAAGGCAGGAAGTGCTCTTCCCGGATTTGCTAATAG CCCTGCTGGAAGCACAAGTGTGGTGTTAGTTCCACCTGCACACGGCACCCTGGTGCCTGATGGTAATAAG GCAAACCATTCCAGTCATCAGGAAGACACTTACGGAGCCCTAGACTTTACCTTAAGCAGGACTTTGGAAA ATCCTGTAAACGTGTACAACCCGTCCCATTCTGACAGCCTCGCTTCTCAGCAAAGTGTTGCCAGTCATCC CAGACAATCTGGGCCTGGGGCGCCTAACCTTGACCGTTTTTATCAGCAGGTCACGAAAGATGCCCAGGGC CAGCCTGGCCTCGAAAGAGCCCAGCAGGAGCTGGTGCCACCCCAGCAACAGGCTTCTCCCCCACAACTAC CCAAAGCCATGTTTTCGGAGCTGTCAAATCCAGAAAGTCTGCCCGCACAGGGACAGGCCCAGAACTCAGC ACAGTCACCAGCAAGTCTGGTTCTGGTCGACGCGGGTCAGCAGCTGCCCCCTCGGCCTCCTCAGTCCTCT AGCGTGTCTCTGGTGTCCAGTGGCTCCGGCCAGGCAGCTGTGCCGTCAGAGCAGCCGTGGCCACAGCCAG TGCCTGCACTTGCCCCCGGCCCACCGCCTCAGGACCTGGCCGCCTACTACTACTACCGGCCTTTGTACGA TGCCTACCAGCCTCAGTACTCTTTGCCGTACCCACCGGAGCCTGGCGCAGCCTCCCTCTATTACCAGGAT GTCTACAGCCTCTATGAGCCTCGATACAGGCCCTATGATGGTGCTGCGTCTGCTTACGCCCAGAACTACC GCTATCCCGAGCCCGAGCGGCCCAGCTCCCGAGCCAGCCACTCCTCGGAACGGCCACCTCCCAGGCAAGG ATATCCTGAAGGATACTATAGTTCCAAAAGTGGATGGAGCAGTCAGAGCGATTACTATGCAAGCTATTAC TCCAGCCAGTACGATTATGGAGATCCAGGTCACTGGGATCGTTACCACTACAGTGCTAGAGTCAGGGACC CCCGCACCTATGACCGGAGGTATTGGTGTGATGCAGAGTATGACGCATACAGGAGAGAGCACTCTGCCTT CGGGGACAGGCCCGAGAAACGTGACAACAACTGGAGGTACGATCCTCGCTTCACGGGGAGTTTTGACGAT GACCCCGATCCGCACAGAGACCCTTATGGGGAAGAGGTGGACCGGCGCAGCGTCCACAGCGAGCACTCGG CACGGAGCCTGCACAGCGCACACAGCCTGGCCAGCCGCCGCAGCAGCCTCAGCTCCCACTCGCACCAGAG TCAGATTTACAGAAGCCACAATGTGGCTGCCGGTTCCTACGAGGCCCCGCTTCCTCCAGGCTCCTTTCAC GGCGATTTTGCCTACGGCACCTACCGCAGCAATTTCAGCAGTGGCCCCGGCTTCCCAGAGTATGGCTACC CTGCCGACACCGTCTGGCCTGCCATGGAGCAAGTTTCATCAAGACCAACTTCTCCTGAAAAATTTTCAGT GCCTCATGTCTGTGCCAGGTTTGGCCCTGGCGGTCAGCTTATCAAAGTGATTCCCAATCTGCCTTCAGAA GGACAGCCGGCCTTGGTGGAGGTCCACAGCATGGAGGCCTTGCTGCAGCACACGTCTGAGCAGGAGGAGA TGCGGGCGTTCCCGGGACCCCTGGCCAAAGACGACACCCATAAGGTGGATGTCATTAATTTTGCACAGAA CAAAGCTATGAAATGTTTGCAGAATGAAAACTTAATTGACAAAGAGTCTGCAAGTCTTCTTTGGAATTTT ATTGTTCTCTTATGCAGACAAAATGGGACCGTGGTAGGGACCGACATTGCGGAGCTTCTGTTACGAGACC ACAGAACAGTGTGGCTTCCTGGGAAGTCGCCCAATGAAGCAAACCTGATTGATTTCACGAATGAGGCAGT GGAGCAGGTGGAAGAGGAGGAGTCTGGTGAGGCCCAGCTCTCTTTCCTCACTGGTGGTCCGGCGGCTGCC GCCAGCTCGCTCGAGAGAGAGACCGAGAGGTTCAGGGAGCTGTTGCTGTATGGCCGTAAGAAGGATGCTT TGGAGTCTGCAATGAAGAATGGCCTGTGGGGTCACGCTCTGCTACTTGCAAGTAAGATGGACAGCCGGAC ACACGCCCGAGTCATGACCAGGTTTGCTAACAGCCTCCCAATCAACGACCCTCTGCAGACAGTCTACCAG CTCATGTCCGGACGGATGCCTGCCGCGTCCACGTGCTGTGGAGACGAGAAATGGGGAGATTGGAGGCCGC ACCTCGCCATGGTCTTGTCCAACTTGAACAACAACATGGACGTCGAGTCCAGGACGATGGCTACCATGGG CGACACTCTGGCTTCAAGGGGCCTCTTGGATGCGGCCCACTTCTGCTACCTCATGGCCCAGGCGGGATTT GGTGTTTACACGAAGAAAACTACAAAGCTTGTCTTAATCGGATCCAATCACAGTTTGCCATTCTTAAAGT TCGCAACCAACGAAGCAATCCAGAGGACGGAAGCCTATGAGTACGCCCAGTCCCTGGGTGCCGAGACCTG CCCCCTGCCTAGTTTCCAGGTGTTTAAGTTCATCTACTCCTGCCGCCTGGCGGAAATGGGGCTGGCCACG CAAGCCTTCCACTACTGTGAGGCCATCGCGAAGAGCATCCTGACGCAGCCGCACCTGTATTCCCCGGTGT TGATCAGCCAGCTTGTGCAGATGGCTTCCCAGTTACGACTCTTCGATCCCCAGCTGAAAGAGAAGCCAGA AGAGGAGTCCTTGGCCGCACCCACGTGGCTGGTTCACCTGCAGCAGGTGGAGCGGCAGATTAAGGAGGGG GCTGGAGTATGGCATCAGGATGGAGCCCTCCCGCAGCAGTGTCCTGGCACTCCGAGTTCCGAGATGGAGC AGTTGGACAGGCCAGGACTCAGTCAGCCAGGAGCCCTGGGGATCGCCAACCCTCTGCTGGCGGTGCCTGC ACCGAGCCCTGAGCACTCGAGCCCGAGCGTGCGGCTGCTGCCCTCAGCTCCGCAGACGCTCCCTGACGGC CCATTGGCCAGTCCTGCCAGAGTGCCGATGTTCCCAGTGCCACTGCCCCCGGGGCCCCTGGAGCCGGGTC CTGGCTGTGTGACCCCAGGGCCTGCACTTGGCTTCCTGGAGCCCTCCGGGCCTGGCCTCCCACCTGGTGT GCCACCTCTGCAGGAAAGGAGACACTTGCTCCAGGAAGCCAGGAGCCCAGACCCAGGGATAGTGCCGCAG GAGGCGCCTGTTGGAAACTCACTTTCCGAGCTAAGCGAAGAAAATTTTGATGGAAAATTTGCTAATCTGA CCCCCTCGAGGACGGTGCCAGACTCGGAGGCCCCCCCAGGGTGGGATCGTGCCGACTCGGGTCCCACGCA GCCACCTCTGTCTCTCTCACCCGCTCCCGAAACAAAGAGACCCGGACAGGCAGCCAAGAAAGAAACGAAG GAACCTAAGAAGGGTGAATCCTGGTTCTTTCGTTGGCTACCTGGAAAGAAAAAGACAGAAGCTTATTTGC CAGATGACAAGAACAAATCGATTGTTTGGGATGAAAAGAAAAACCAGTGGGTGAATTTAAATGAGCCAGA AGAGGAGAAGAAAGCCCCGCCCCCACCTCCAACCTCGATGCCCAAGACTGTGCAAGCTGCCCCGCCTGCC CTCCCAGGGCCTCCTGGAGCCCCCGTGAACATGTACTCTAGAAGAGCAGCAGGAACCAGAGCTCGCTACG TTGACGTCCTGAACCCAAGCGGGACCCAGCGGAGCGAGCCGGCTCTCGCTCCTGCGGACTTTGTCGCTCC ACTCGCGCCACTCCCAATTCCTTCTAACTTGTTCGTGCCAACCCCAGTGTCTTCAGTGAGACCCCAGGGA CGTTCGGGACGGAATGATGGCCTCCTCGCTCTCTCATCCCCAGATGCAGAAGAACCACAGCTTCCAGACG GGACTGGCAGGGAAGGGCCTGCAGCAGCTAGGGGCCTGGCCAATCCAGAGCCTGCCCCAGAGCCCAAGGC TCCTGGCGACCTCCCTGCTGCAGGGGGCCCTCCCAGCGGGGCCATGCCCTTCTACAACCCTGCTCAGCTG GCACAGGCCTGCGCCACCTCCGGGAGCTCAAGGCTAGGGAGGATTGGCCAGAGGAAGCACCTGGTGCTGA ACTAG |
Restriction Sites | SgfI-MluI |
ACCN | NM_001276418 |
ORF Size | 7005 bp |
OTI Disclaimer | Our molecular clone sequence data has been matched to the reference identifier above as a point of reference. Note that the complete sequence of our molecular clones may differ from the sequence published for this corresponding reference, e.g., by representing an alternative RNA splicing form or single nucleotide polymorphism (SNP). |
Reference Data | |
RefSeq | NM_001276418.1, NP_001263347.1 |
RefSeq Size | 9000 |
RefSeq ORF | 7005 |
Locus ID | 9919 |
Gene Summary | This gene encodes a protein that forms part of the Sec16 complex. This protein has a role in protein transport from the endoplasmic reticulum (ER) to the Golgi and mediates COPII vesicle formation at the transitional ER. Alternative splicing results in multiple transcript variants that encode different protein isoforms. [provided by RefSeq, Feb 2013] Transcript Variant: This variant (2) differs in the 5' UTR and lacks two alternate in-frame exons in the coding region compared to variant 1. It encodes isoform 2 which is shorter compared to isoform 1. |
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