TACC2 (NM_206862) Human Untagged Clone
CAT#: SC318740
TACC2 (untagged)-Human transforming, acidic coiled-coil containing protein 2 (TACC2), transcript variant 1
"NM_206862" in other vectors (2)
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Specifications
Product Data | |
Type | Human Untagged Clone |
Tag | Tag Free |
Symbol | TACC2 |
Synonyms | AZU-1; ECTACC |
Vector | pCMV6 series |
Sequence Data |
>NCBI ORF sequence for NM_206862, the custom clone sequence may differ by one or more nucleotides
ATGGGCAATGAGAACAGCACCTCGGACAACCAGAGGACTTTATCAGCTCAGACTCCAAGG TCCGCGCAGCCACCCGGGAACAGTCAGAATATAAAAAGGAAGCAGCAGGACACGCCCGGA AGCCCTGACCACAGAGACGCGTCCAGCATTGGCAGCGTTGGGCTTGGAGGCTTCTGCACC GCTTCTGAGAGTTCTGCCAGCCTGGATCCATGCCTTGTGTCCCCAGAGGTGACTGAGCCA AGGAAGGACCCACAGGGAGCCAGGGGGCCAGAAGGTTCTTTGCTGCCCAGCCCACCACCG TCCCAGGAGCGAGAGCACCCCTCGTCCTCCATGCCCTTTGCCGAGTGTCCCCCGGAAGGT TGCTTGGCAAGTCCAGCAGCGGCACCTGAAGATGGTCCTCAGACTCAGTCTCCCAGGAGG GAACCTGCCCCAAATGCCCCAGGAGACATCGCGGCGGCATTTCCCGCTGAGAGGGACAGC TCTACTCCATACCAAGAGATTGCTGCCGTCCCCAGTGCTGGAAGAGAGAGACAGCCGAAG GAAGAAGGACAGAAGTCCTCCTTCTCCTTCTCCAGTGGCATCGACCAGTCACCTGGAATG TCGCCAGTACCCCTCAGAGAGCCAATGAAGGCACCGCTGTGTGGAGAGGGGGACCAGCCT GGTGGTTTTGAGTCCCAAGAGAAAGAGGCTGCAGGTGGCTTTCCCCCTGCAGAGTCCAGG CAGGGGGTGGCTTCTGTGCAAGTGACCCCTGAGGCCCCTGCTGCAGCCCAGCAGGGCACA GAAAGCTCAGCGGTCTTGGAGAAGTCCCCCCTAAAACCCATGGCCCCGATCCCACAAGAT CCAGCCCCAAGAGCCTCAGACAGAGAAAGAGGCCAAGGGGAGGCGCCGCCTCAGTATTTA ACAGATGACTTGGAATTCCTCAGGGCCTGCCATCTCCCTAGGAGCAATTCAGGGGCTGCC CCAGAAGCAGAAGTGAATGCCGCTTCCCAGGAGAGCTGCCAGCAGCCAGTGGGAGCATAT CTGCCGCACGCAGAGCTGCCCTGGGGCTTGCCAAGTCCTGCCCTGGTGCCAGAGGCTGGG GGCTCTGGGAAGGAGGCTCTGGACACCATTGATGTTCAGGGTCACCCACAGACAGGGATG CGAGGAACCAAGCCCAATCAAGTTGTCTGTGTGGCAGCAGGCGGCCAGCCCGAAGGGGGT TTGCCTGTGAGCCCTGAACCTTCCCTGCTCACTCCGACTGAGGAAGCACATCCAGCTTCA AGCCTCGCTTCATTCCCAGCTGCTCAGATTCCTATTGCTGTAGAAGAACCTGGATCATCA TCCAGGGAATCAGTTTCCAAGGCTGGGATGCCAGTTTCTGCAGATGCAGCCAAAGAGGTG GTGGATGCAGGGTTGGTGGGACTGGAGAGGCAGGTGTCAGATCTTGGAAGCAAGGGAGAG CATCCAGAAGGGGACCCTGGAGAGGTTCCTGCCCCATCACCCCAGGAGAGGGGAGAGCAC TTGAACACGGAGCAAAGCCATGAGGTCCAACCAGGAGTACCACCCCCTCCTCTTCCCAAG GAGCAAAGCCATGAGGTCCAACCAGGAGCACCACCCCCTCCTCTTCCCAAGGCACCAAGT GAAAGTGCCAGAGGGCCACCGGGGCCAACGGATGGAGCCAAGGTCCATGAAGATTCCACA AGCCCAGCCGTGGCTAAAGAAGGAAGCAGATCACCTGGTGACAGCCCTGGAGGAAAGGAG GAAGCCCCAGAGCCACCTGATGGTGGAGACCCAGGGAACCTGCAAGGAGAGGACTCTCAG GCTTTCAGCAGCAAGCGTGATCCAGAAGTAGGCAAAGATGAGCTTTCAAAGCCAAGCAGT GATGCAGAGAGCAGAGACCATCCCAGCTCACACTCAGCACAGCCACCCAGAAAGGGGGGT GCTGGGCACACGGACGGGCCCCACTCTCAGACAGCAGAGGCTGATGCATCTGGCCTACCA CACAAGCTGGGTGAGGAGGACCCCGTCCTGCCCCCTGTGCCAGATGGAGCTGGTGAGCCC ACTGTTCCCGAAGGAGCCATCTGGGAGGGGTCAGGATTGCAGCCCAAATGTCCTGACACC CTTCAGAGCAGGGAAGGATTGGGAAGAATGGAGTCTTTCCTGACTTTAGAATCAGAGAAA TCAGATTTTCCACCAACTCCTGTTGCAGAGGTTGCACCCAAAGCCCAGGAAGGTGAGAGC ACATTGGAAATAAGGAAGATGGGCAGCTGTGATGGGGAGGGCTTGCTGACGTCCCCAGAT CAACCCCGCGGGCCGGCGTGTGATGCGTCGAGACAGGAATTTCATGCTGGGGTGCCACAT CCCCCCCAGGGGGAGAACTTGGCAGCAGACCTGGGGCTCACGGCACTCATCCTGGACCAA GATCAGCAGGGAATCCCATCCTGCCCAGGGGAAGGCTGGATAAGAGGAGCTGCATCCGAG TGGCCCCTACTATCTTCTGAGAAGCATCTCCAGCCATCCCAGGCACAACCAGAGACATCC ATCTTTGACGTGCTCAAGGAGCAGGCCCAGCCACCTGAAAATGGGAAAGAGACTTCTCCA AGCCATCCAGGTTTTAAGGACCAGGGAGCAGATTCTTCCCAAATCCATGTACCTGTGGAA CCTCAGGAAGATAACAACTTGCCCACTCATGGAGGACAGGAGCAGGCTTTGGGATCAGAA CTTCAAAGTCAGCTCCCCAAAGGCACCCTGTCTGATACTCCAACTTCATCTCCCACTGAC ATGGTTTGGGAGAGTTCTCTGACAGAAGAGTCAGAATTGTCAGCACCAACGAGACAGAAG TTGCCTGCACTAGGGGAGAAGCGGCCAGAGGGAGCATGCGGTGATGGTCAGTCCTCGAGG GTCTCGCCTCCAGCAGCAGATGTCTTAAAAGACTTTTCTCTTGCAGGGAACTTCAGCAGA AAGGAAACTTGCTGCACTGGGCAGGGGCCAAACAAGTCTCAACAGGCATTGGCTGATGCC TTGGAAGAAGGCAGCCAGCATGAAGAAGCATGTCAAAGGCATCCAGGAGCTTCTGAAGCA GCTGATGGTTGTTCCCCACTCTGGGGCTTGAGTAAGAGGGAGATGGCAAGTGGAAACACA GGGGAGGCCCCACCTTGTCAGCCTGACTCAGTAGCTCTCCTGGATGCAGTTCCCTGCCTG CCAGCCCTGGCGCCCGCCAGCCCCGGAGTCACACCCACCCAGGATGCCCCAGAGACAGAG GCATGTGATGAAACCCAGGAAGGCAGGCAGCAACCAGTGCCGGCCCCGCAGCAGAAAATG GAGTGCTGGGCCACTTCGGATGCAGAGTCCCCAAAGCTTCTTGCAAGTTTCCCATCAGCT GGGGAGCAAGGTGGTGAAGCCGGGGCTGCTGAGACTGGTGGCAGCGCTGGTGCAGGAGAC CCAGGAAAGCAGCAGGCTCCGGAGAAACCTGGAGAAGCTACTTTGAGTTGTGGCCTCCTT CAGACTGAGCACTGCCTTACCTCCGGGGAGGAAGCTTCTACCTCTGCCCTACGTGAGTCC TGCCAAGCTGAGCACCCCATGGCCAGCTGCCAGGATGCCTTGCTGCCAGCCAGAGAGCTG GGTGGGATTCCCAGGAGCACCATGGATTTTTCTACACACCAGGCTGTCCCAGACCCAAAG GAGCTCCTGCTGTCTGGGCCACCAGAAGTGGCTGCTCCTGACACCCCTTACCTGCATGTC GACAGTGCTGCCCAGAGAGGAGCAGAAGACAGTGGAGTGAAAGCTGTTTCCTCTGCAGAC CCCAGAGCTCCTGGCGAAAGCCCCTGTCCTGTAGGGGAGCCCCCACTTGCCTTGGAAAAT GCTGCCTCCTTGAAGCTGTTTGCTGGCTCCCTCGCCCCCCTGTTGCAACCAGGAGCTGCA GGTGGGGAAATCCCTGCAGTGCAAGCCAGCAGTGGTAGTCCCAAAGCCAGAACCACTGAG GGACCAGTGGACTCCATGCCATGCCTGGACCGGATGCCACTTCTGGCCAAGGGCAAGCAG GCAACAGGGGAAGAGAAAGCAGCAACAGCTCCAGGTGCAGGTGCCAAGGCCAGTGGGGAG GGCATGGCAGGTGATGCAGCAGGAGAGACAGAGGGCAGCATGGAGAGGATGGGAGAGCCT TCCCAGGACCCAAAGCAGGGCACATCAGGTGGTGTGGACACAAGCTCTGAGCAAATCGCC ACCCTCACTGGCTTCCCAGACTTCAGGGAGCACATCGCCAAGATCTTCGAGAAGCCTGTG CTCGGAGCCCTGGCCACACCTGGAGAAAAGGCAGGAGCTGGGAGGAGTGCAGTGGGTAAA GACCTCACCAGGCCATTGGGCCCAGAGAAGCTTCTAGATGGGCCTCCAGGAGTGGATGTC ACCCTTCTCCCTGCACCTCCTGCTCGACTCCAGGTGGAGAAGAAGCAACAGTTGGCTGGA GAGGCTGAGATTTCCCATCTGGCTCTGCAAGATCCAGCTTCAGACAAGCTTCTGGGTCCA GCAGGGCTGACCTGGGAGCGGAACTTGCCAGGTGCCGGTGTGGGGAAGGAGATGGCAGGT GTCCCACCCACACTGAGGGAAGACGAGAGGCCAGAGGGGCCTGGGGCAGCCTGGCCAGGC CTGGAAGGCCAGGCTTACTCACAGCTGGAGAGGAGCAGGCAGGAATTAGCTTCAGGTCTT CCTTCACCAGCAGCTACTCAGGAGCTCCCTGTGGAGAGAGCTGCTGCCTTCCAGGTGGCT CCCCATAGCCATGGAGAAGAGGCCGTGGCCCAAGACAGAATTCCTTCTGGAAAGCAGCAC CAGGAAACATCTGCCTGCGACAGTCCACATGGAGAAGATGGTCCCGGGGACTTTGCTCAC ACAGGGGTTCCAGGACATGTGCCAAGGTCCACGTGTGCCCCTTCTCCTCAGAGGGAGGTT TTGACTGTGCCTGAGGCCAACAGTGAGCCCTGGACCCTTGACACGCTTGGGGGTGAAAGG AGACCCGGAGTCACTGCTGGCATCTTGGAAATGCGAAATGCCCTGGGCAACCAGAGCACC CCTGCACCACCAACTGGAGAAGTGGCAGACACTCCCCTGGAGCCTGGCAAGGTGGCAGGC GCTGCTGGGGAAGCAGAGGGTGACATCACCCTGAGCACAGCTGAGACACAGGCATGTGCG TCCGGTGATCTGCCTGAAGCAGGTACTACGAGGACATTCTCCGTTGTGGCAGGTGACTTG GTGCTGCCAGGAAGCTGTCAGGACCCAGCCTGCTCTGACAAGGCTCCGGGGATGGAGGGT ACAGCTGCCCTTCATGGGGACAGCCCAGCCAGGCCCCAGCAGGCTAAGGAGCAGCCAGGG CCTGAGCGCCCCATTCCAGCTGGGGATGGGAAGGTGTGCGTCTCCTCACCTCCAGAGCCT GACGAAACTCACGACCCGAAGCTGCAACATTTGGCTCCAGAAGAGCTCCACACTGACAGA GAGAGCCCCAGGCCTGGCCCATCCATGTTACCTTCGGTTCCTAAGAAGGATGCTCCAAGA GTCATGGATAAAGTCACTTCAGATGAGACCAGAGGTGCGGAAGGAACAGAAAGTTCACCT GTGGCAGATGATATCATCCAGCCCGCTGCCCCCGCAGACCTGGAAAGCCCAACCTTAGCT GCCTCTTCCTACCACGGTGATGTTGTTGGCCAGGTCTCTACGGATCTGATAGCCCAGAGC ATCTCCCCAGCTGCTGCCCATGCGGGTCTTCCTCCCTCGGCTGCAGAACACATAGTTTCG CCATCTGCCCCAGCTGGTGACAGAGTAGAAGCTTCCACTCCCTCCTGCCCAGATCCGGCC AAGGACCTCAGCAGGAGTTCCGATTCTGAAGAGGCATTTGAGACCCCGGAGTCAACGACC CCTGTCAAAGCTCCGCCAGCTCCACCCCCACCACCCCCCGAAGTCATCCCAGAACCCGAG GTCAGCACACAGCCACCCCCGGAAGAACCAGGATGTGGTTCTGAGACAGTCCCTGTCCCT GATGGCCCACGGAGCGACTCGGTGGAAGGAAGTCCCTTCCGTCCCCCGTCACACTCCTTC TCTGCCGTCTTCGATGAAGACAAGCCGATAGCCAGCAGTGGGACTTACAACTTGGACTTT GACAACATTGAGCTTGTGGATACCTTTCAGACCTTGGAGCCTCGTGCCTCAGACGCTAAG AATCAGGAGGGCAAAGTGAACACACGGAGGAAGTCCACGGATTCCGTCCCCATCTCTAAG TCTACACTGTCCCGGTCGCTCAGCCTGCAAGCCAGTGACTTTGATGGTGCTTCTTCCTCA GGCAATCCCGAGGCCGTGGCCCTTGCCCCAGATGCATATAGCACGGGTTCCAGCAGTGCT TCTAGTACCCTTAAGCGAACTAAAAAACCGAGGCCGCCTTCCTTAAAAAAGAAACAGACC ACCAAGAAACCCACAGAGACCCCCCCAGTGAAGGAGACGCAACAGGAGCCAGATGAAGAG AGCCTTGTCCCCAGTGGGGAGAATCTAGCATCTGAGACGAAAACGGAATCTGCCAAGACG GAAGGTCCTAGCCCAGCCTTATTGGAGGAGACGCCCCTTGAGCCCGCTGTGGGGCCCAAA GCTGCCTGCCCTCTGGACTCAGAGAGTGCAGAAGGGGTTGTCCCCCCGGCTTCTGGAGGT GGCAGAGTGCAGAACTCACCCCCTGTCGGGAGGAAAACGCTGCCTCTTACCACGGCCCCG GAGGCAGGGGAGGTAACCCCATCGGATAGCGGGGGGCAAGAGGACTCTCCAGCCAAAGGG CTCTCCGTAAGGCTGGAGTTTGACTATTCTGAGGACAAGAGTAGTTGGGACAACCAGCAG GAAAACCCCCCTCCTACCAAAAAGATAGGCAAAAAGCCAGTTGCCAAAATGCCCCTGAGG AGGCCAAAGATGAAAAAGACACCCGAGAAACTTGACAACACTCCTGCCTCACCTCCCAGA TCCCCTGCTGAACCCAATGACATCCCCATTGCTAAAGGTACTTACACCTTTGATATTGAC AAGTGGGATGACCCCAATTTTAACCCTTTTTCTTCCACCTCAAAAATGCAGGAGTCTCCC AAACTGCCCCAACAATCATACAACTTTGACCCAGACACCTGTGATGAGTCCGTTGACCCC TTTAAGACATCCTCTAAGACCCCCAGCTCACCTTCTAAATCCCCAGCCTCCTTTGAGATC CCAGCCAGTGCTATGGAAGCCAATGGAGTGGACGGGGATGGGCTAAACAAGCCCGCCAAG AAGAAGAAGACGCCCCTAAAGACTGACACATTTAGGGTGAAAAAGTCGCCAAAACGGTCT CCTCTCTCTGATCCACCTTCCCAGGACCCCACCCCAGCTGCTACACCAGAAACACCACCA GTGATCTCTGCGGTGGTCCACGCCACAGATGAGGAAAAGCTGGCGGTCACCAACCAGAAG TGGACGTGCATGACAGTGGACCTAGAGGCTGACAAACAGGACTACCCGCAGCCCTCGGAC CTGTCCACCTTTGTAAACGAGACCAAATTCAGTTCACCCACTGAGGAGTTGGATTACAGA AACTCCTATGAAATTGAATATATGGAGAAAATTGGCTCCTCCTTACCTCAGGACGACGAT GCCCCGAAGAAGCAGGCCTTGTACCTTATGTTTGACACTTCTCAGGAGAGCCCTGTCAAG TCATCTCCCGTCCGCATGTCAGAGTCCCCGACGCCGTGTTCAGGGTCAAGTTTTGAAGAG ACTGAAGCCCTTGTGAACACTGCTGCGAAAAACCAGCATCCTGTCCCACGAGGACTGGCC CCTAACCAAGAGTCACACTTGCAGGTGCCAGAGAAATCCTCCCAGAAGGAGCTGGAGGCC ATGGGCTTGGGCACCCCTTCAGAAGCGATTGAAATTACAGCTCCCGAGGGCTCCTTTGCC TCTGCTGACGCCCTCCTCAGCAGGCTAGCTCACCCCGTCTCTCTCTGTGGTGCACTTGAC TATCTGGAGCCCGACTTAGCAGAAAAGAACCCCCCACTATTCGCTCAGAAACTCCAGGAG GAGTTAGAGTTTGCCATCATGCGGATAGAAGCCCTGAAGCTGGCCAGGCAGATTGCTTTG GCTTCCCGCAGCCACCAGGATGCCAAGAGAGAGGCTGCTCACCCAACAGACGTCTCCATC TCCAAAACAGCCTTGTACTCCCGCATCGGGACCGCTGAGGTGGAGAAACCTGCAGGCCTT CTGTTCCAGCAGCCCGACCTGGACTCTGCCCTCCAGATCGCCAGAGCAGAGATCATAACC AAGGAGAGAGAGGTCTCAGAATGGAAAGATAAATATGAAGAAAGCAGGCGGGAAGTGATG GAAATGAGGAAAATAGTGGCCGAGTATGAGAAGACCATCGCTCAGATGATAGAGGACGAA CAGAGAGAGAAGTCAGTCTCCCACCAGACGGTGCAGCAGCTGGTTCTGGAGAAGGAGCAA GCCCTGGCCGACCTGAACTCCGTGGAGAAGTCTCTGGCCGACCTCTTCAGAAGATATGAG AAGATGAAGGAGGTCCTAGAAGGCTTCCGCAAGAATGAAGAGGTGTTGAAGAGATGTGCG CAGGAGTACCTGTCCCGGGTGAAGAAGGAGGAGCAGAGGTACCAGGCCCTGAAGGTGCAC GCGGAGGAGAAACTGGACAGGGCCAATGCTGAGATTGCTCAGGTTCGAGGCAAGGCCCAG CAGGAGCAAGCCGCCCACCAGGCCAGCCTGCGGAAGGAGCAGCTGCGAGTGGACGCCCTG GAAAGGACGCTGGAGCAGAAGAATAAAGAAATAGAAGAACTCACCAAGATTTGTGACGAA CTGATTGCCAAAATGGGGAAAAGC |
Restriction Sites | Please inquire |
ACCN | NM_206862 |
ORF Size | 8847 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). |
OTI Annotation | This TrueClone is provided through our Custom Cloning Process that includes sub-cloning into OriGene's pCMV6 vector and full sequencing to provide a non-variant match to the expected reference without frameshifts, and is delivered as lyophilized plasmid DNA. |
Reference Data | |
RefSeq | NM_206862.2, NP_996744.2 |
RefSeq Size | 9706 |
RefSeq ORF | 8847 |
Locus ID | 10579 |
Gene Summary | Transforming acidic coiled-coil proteins are a conserved family of centrosome- and microtubule-interacting proteins that are implicated in cancer. This gene encodes a protein that concentrates at centrosomes throughout the cell cycle. This gene lies within a chromosomal region associated with tumorigenesis. Expression of this gene is induced by erythropoietin and is thought to affect the progression of breast tumors. Several transcript variants encoding different isoforms have been found for this gene. [provided by RefSeq, Jul 2008] Transcript Variant: This variant (1) represents the longest transcript and encodes the longest isoform (a). Isoform a has also been called the 'long' isoform. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. |
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