TEP1 (NM_007110) Human Untagged Clone
CAT#: SC303878
TEP1 (untagged)-Human telomerase-associated protein 1 (TEP1)
CNY 17352.00
货期*
现货
规格
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Specifications
| Product Data | |
| Type | Human Untagged Clone |
| Tag | Tag Free |
| Synonyms | p240; TLP1; TP1; TROVE1; VAULT2 |
| Vector | pCMV6-XL5 |
| E. coli Selection | Ampicillin (100 ug/mL) |
| Mammalian Cell Selection | None |
| Sequence Data |
>OriGene sequence for NM_007110 edited
GAATCGGACGCCCCAGGCATATACAAGCTGAGTTTCAGCCATGGAAAAACTCCATGGGCA TGTGTCTGCCCATCCAGACATCCTCTCCTTGGAGAACCGGTGCCTGGCTATGCTCCCTGA CTTACAGCCCTTGGAGAAACTACATCAGCATGTATCTACCCACTCAGATATCCTCTCCTT GAAGAACCAGTGCCTAGCCACGCTTCCTGACCTGAAGACCATGGAAAAACCACATGGATA TGTGTCTGCCCACCCAGACATCCTCTCCTTGGAGAACCAGTGCCTGGCCACACTTTCTGA CCTGAAGACCATGGAGAAACCACATGGACATGTTTCTGCCCACCCAGACATCCTCTCCTT GGAGAACCGGTGCCTGGCCACCCTCTCTAGTCTAAAGAGCACTGTGTCTGCCAGCCCCTT GTTCCAGAGTCTACAGATATCTCACATGACGCAAGCTGATTTGTACCGTGTGAACAACAG CAATTGCCTGCTCTCTGAGCCTCCAAGTTGGAGGGCTCAGCATTTCTCTAAGGGACTAGA CCTTTCAACCTGCCCTATAGCCCTGAAATCCATCTCTGCCACAGAGACAGCTCAGGAAGC AACTTTGGGTCGTTGGTTTGATTCAGAAGAGAAGAAAGGGGCAGAGACCCAAATGCCTTC TTATAGTCTGAGCTTGGGAGAGGAGGAGGAGGTGGAGGATCTGGCCGTGAAGCTCACCTC TGGAGACTCTGAATCTCATCCAGAGCCTACTGACCATGTCCTTCAGGAAAAGAAGATGGC TCTACTGAGCTTGCTGTGCTCTACTCTGGTCTCAGAAGTAAACATGAACAATACATCTGA CCCCACCCTGGCTGCCATTTTTGAAATCTGTCGTGAACTTGCCCTCCTGGAGCCTGAGTT TATCCTCAAGGCATCTTTGTATGCCAGGCAGCAGCTGAACGTCCGGAATGTGGCCAATAA CATCTTGGCCATTGCTGCTTTCTTGCCGGCGTGTCGCCCCCACCTGCGACGATATTTCTG TGCCATTGTCCAGCTGCCTTCTGACTGGATCCAGGTGGCTGAGCTTTACCAGAGCCTGGC TGAGGGAGATAAGAATAAGCTGGTGCCCCTGCCCGCCTGTCTCCGTACTGCCATGACGGA CAAATTTGCCCAGTTTGACGAGTACCAGCTGGCTAAGTACAACCCTCGGAAGCACCGGGC CAAGAGACACCCCCGCCGGCCACCCCGCTCTCCAGGGATGGAGCCTCCATTTTCTCACAG ATGTTTTCCAAGGTACATAGGGTTTCTCAGAGAAGAGCAGAGAAAGTTTGAGAAGGCCGG TGATACAGTGTCAGAGAAAAAGAATCCTCCAAGGTTCACCCTGAAGAAGCTGGTTCAGCG ACTGCACATCCACAAGCCTGCCCAGCACGTTCAAGCCCTGCTGGGTTACAGATACCCCTC CAACCTACAGCTCTTTTCTCGAAGTCGCCTTCCTGGGCCTTGGGATTCTAGCAGAGCTGG GAAGAGGATGAAGCTGTCTAGGCCAGAGACCTGGGAGCGGGAGCTGAGCCTACGGGGGAA CAAAGCGTCGGTCTGGGAGGAACTCATTGAAAATGGGAAGCTTCCCTTCATGGCCATGCT TCGGAACCTGTGCAACCTGCTGCGGGTTGGAATCAGTTCCCGCCACCATGAGCTCATTCT CCAGAGACTCCAGCATGCGAAGTCGGTGATCCACAGTCGGCAGTTTCCATTCAGATTTCT TAACGCCCATGATGCCATTGATGCCCTCGAGGCTCAACTCAGAAATCAAGCATTGCCCTT TCCTTCGAATATAACACTGATGAGGCGGATACTAACTAGAAATGAAAAGAACCGTCCCAG GCGGAGGTTTCTTTGCCACCTAAGCCGTCAGCAGCTTCGGATGGCAATGAGGATACCTGT GTTGTATGAGCAGCTCAAGAGGGAGAAGCTGAGAGTACACAAGGCCAGACAGTGGAAATA TGATGGTGAGATGCTGAACAGGTACCGACAGGCCCTAGAGACAGCTGTGAACCTCTCTGT GAAGCACAGCCTGCCCCTGCTGCCAGGCCGCACTGTCTTGGTCTATCTGACAGATGCTAA TGCAGACAGGCTCTGTCCAAAGAGCAACCCACAAGGGCCCCCGCTGAACTATGCACTGCT GTTGATTGGGATGATGATCACGAGGGCAGAGCAGGTGGACGTCGTGCTGTGTGGAGGTGA CACTCTGAAGACTGCAGTGCTTAAGGCAGAAGAAGGCATCCTGAAGACTGCCATCAAGCT CCAGGCTCAAGTCCAGGAGTTTGATGAAAATGATGGATGGTCCCTGAATACTTTTGGGAA ATACCTGCTGTCTCTGGCTGGCCAAAGGGTTCCTGTGGACAGGGTCATCCTCCTTGGCCA AAGCATGGATGATGGAATGATAAATGTGGCCAAACAGCTTTACTGGCAGCGTGTGAATTC CAAGTGCCTCTTTGTTGGTATCCTCCTAAGAAGGGTACAATACCTGTCAACAGATTTGAA TCCCAATGATGTGACACTCTCAGGCTGTACTGATGCGATACTGAAGTTCATTGCAGAGCA TGGGGCCTCCCATCTTCTGGAACATGTGGGCCAAATGGACAAAATATTCAAGATTCCACC ACCCCCAGGAAAGACAGGGGTCCAGTCTCTCCGGCCACTGGAAGAGGACACTCCAAGCCC CTTGGCTCCTGTTTCCCAGCAAGGATGGCGCAGCATCCGGCTTTTCATTTCATCCACTTT CCGAGACATGCACGGGGAGCGGGACCTGCTGCTGAGGTCTGTGCTGCCAGCACTGCAGGC CCGAGCGGCCCCTCACCGTATCAGCCTTCACGGAATCGACCTCCGCTGGGGCGTCACTGA GGAGGAGACCCGTAGGAACAGACAACTGGAAGTGTGCCTTGGGGAGGTGGAGAACGCACA GCTGTTTGTGGGGATTCTGGGCTCCCGTTATGGATACATTCCCCCCAGCTACAACCTTCC TGACCATCCACACTTCCACTGGGCCCAGCAGTACCCTTCAGGGCGCTCTGTGACAGAGAT GGAGGTGATGCAGTTCCTGAACCGGAACCAACGTCTGCAGCCCTCTGCCCAAGCTCTCAT CTACTTCCGGGATTCCAGCTTCCTCAGCTCTGTGCCAGATGCCTGGAAATCTGACTTTGT TTCTGAGTCTGAAGAGGCCGCACGTCGGATCTCAGAACTGAAGAGCTACCTAAGCAGACA GAAAGGGATCACCTGCCGCAGATACCCCTGTGAGTGGGGGGGTGTGGCAGCTGGCCGGCC CTATGTTGGCGGGCTGGAGGAGTTTGGGCAGTTGGTTCTGCAGGATGTATGGAATATGAT CCAGAAGCTCTACCTGCAGCCTGGGGCCCTGCTGGAGCAGCCAGTGTCCATCCCAGACGA TGACTTGGTCCAGGCCACCTTCCAGCAGCTGCAGAAGCCACCGAGTCCTGCCCGGCCACG CCTTCTTCAGGACACAGTGCAACGGCTGATGCTGCCCCACGGAAGGCTGAGCCTGGTGAC GGGGCAGTCAGGACAGGGCAAGACAGCCTTCCTGGCATCTCTTGTGTCAGCCCTGCAGGC TCCTGATGGGGCCAAGGTGGCATCATTAGTCTTCTTCCACTTTTCTGGGGCTCGTCCTGA CCAGGGTCTTGCCCTCACTCTGCTCAGACGCCTCTGTACCTATCTGCGTGGCCAACTAAA AGAGCCAGGTGCCCTCCCCAGCACCTACCGAAGCCTGGTGTGGGAGCTGCAGCAGAGGCT GCTGCCCAAGTCTGCTGAGTCCCTGCATCCTGGCCAGACCCAGGTCCTGATCATCGATGG GGCTGATAGGTTAGTGGACCAGAATGGGCAGCTGATTTCAGACTGGATCCCAAAGAAGCT TCCCCGGTGTGTACACCTGGTGCTGAGTGTGTCTAGTGATGCAGGCCTAGGGGAGACCCT TGAGCAGAGCCAGGGTGCCCACGTGCTGGCCTTGGGGCCTCTGGAGGCCTCTGCTCGGGC CCGGCTGGTGAGAGAGGAGCTGGCCCTGTACGGGAAGCGGCTGGAGGAGTCACCATTTAA CAACCAGATGCGACTGCTGCTGGTGAAGCGGGAATCAGGCCGGCCGCTCTACCTGCGCTT GGTCACCGATCACCTGAGGCTCTTCACGCTGTATGAGCAGGTGTCTGAGAGACTCCGGAC CCTGCCTGCCACTGTCCCCCTGCTGCTGCAGCACATCCTGAGCACACTGGAGAAGGAGCA CGGGCCTGATGTCCTTCCCCAGGCCTTGACTGCCCTAGAAGTCACACGGAGTGGTTTGAC TGTGGACCAGCTGCACGGAGTGCTGAGTGTGTGGCGGACACTACCGAAGGGGACTAAGAG CTGGGAAGAAGCAGTGGCTGCTGGTAACAGTGGAGACCCCTACCCCATGGGCCCGTTTGC CTGCCTCGTCCAGAGTCTGCGCAGTTTGCTAGGGGAGGGCCCTCTGGAGCGCCCTGGTGC CCGGCTGTGCCTCCCTGATGGGCCCCTGAGAACAGCAGCTAAACGTTGCTATGGGAAGAG GCCAGGGCTAGAGGACACGGCACACATCCTCATTGCAGCTCAGCTCTGGAAGACATGTGA CGCTGATGCCTCAGGCACCTTCCGAAGTTGCCCTCCTGAGGCTCTGGGAGACCTGCCTTA CCACCTGCTCCAGAGCGGGAACCGTGGACTTCTTTCGAAGTTCCTTACCAACCTCCATGT GGTGGCTGCACACTTGGAATTGGGTCTGGTCTCTCGGCTCTTGGAGGCCCATGCCCTCTA TGCTTCTTCAGTCCCCAAAGAGGAACAAAAGCTCCCCGAGGCTGACGTTGCAGTGTTTCG CACCTTCCTGAGGCAGCAGGCTTCAATCCTCAGCCAGTACCCCCGGCTCCTGCCCCAGCA GGCAGCCAACCAGCCCCTGGACTCACCTCTTTGCCACCAAGCCTCGCTGCTCTCCCGGAG ATGGCACCTCCAACACACACTACGATGGCTTAATAAACCCCGGACCATGAAAAATCAGCA AAGCTCCAGCCTGTCTCTGGCAGTTTCCTCATCCCCTACTGCTGTGGCCTTCTCCACCAA TGGGCAAAGAGCAGCTGTGGGCACTGCCAATGGGACAGTTTACCTGTTGGACCTGAGAAC TTGGCAGGAGGAGAAGTCTGTGGTGAGTGGCTGTGATGGAATCTCTGCTTGTTTGTTCCT CTCCGATGATACACTCTTTCTTACTGCCTTCGACGGGCTCCTGGAGCTCTGGGACCTGCA GCATGGTTGTCGGGTGCTGCAGACTAAGGCTCACCAGTACCAAATCACTGGCTGCTGCCT GAGCCCAGACTGCCGGCTGCTAGCCACCGTGTGCTTGGGAGGATGCCTAAAGCTGTGGGA CACAGTCCGTGGGCAGCTGGCCTTCCAGCACACCTACCCCAAGTCCCTGAACTGTGTTGC CTTCCACCCAGAGGGGCAGGTAATAGCCACAGGCAGCTGGGCTGGCAGCATCAGCTTCTT CCAGGTGGATGGGCTCAAAGTCACCAAGGACCTGGGGGCACCCGGAGCCTCTATCCGTAC CTTGGCCTTCAATGTGCCTGGGGGGGTTGTGGCTGTGGGCCGGCTGGACAGTATGGTGGA GCTGTGGGCCTGGCGAGAAGGGGCACGGCTGGCTGCCTTCCCTGCCCACCATGGCTTTGT TGCTGCTGCGCTTTTCCTGCATGCGGGTTGCCAGTTACTGACGGCTGGAGAGGATGGCAA GGTTCAGGTGTGGTCAGGGTCTCTGGGTCGGCCCCGTGGGCACCTGGGTTCCCTTTCTCT CTCTCCTGCCCTCTCTGTGGCACTCAGCCCAGATGGTGATCGGGTGGCTGTTGGATATCG AGCGGATGGCATTAGGATCTACAAAATCTCTTCAGGTTCCCAGGGGGCTCAGGGTCAGGC ACTGGATGTGGCAGTGTCCGCCCTGGCCTGGCTAAGCCCCAAGGTATTGGTGAGTGGTGC AGAAGATGGGTCCTTGCAGGGCTGGGCACTCAAGGAATGCTCCCTTCAGTCCCTCTGGCT CCTGTCCAGATTCCAGAAGCCTGTGCTAGGACTGGCCACTTCCCAGGAGCTCTTGGCTTC TGCCTCAGAGGATTTCACAGTGCAGCTGTGGCCAAGGCAGCTGCTGACGCGGCCACACAA GGCAGAAGACTTTCCCTGTGGCACTGAGCTGCGGGGACATGAGGGCCCTGTGAGCTGCTG TAGTTTCAGCACTGATGGAGGCAGCCTGGCCACCGGGGGCCGGGATCGGAGTCTCCTCTG CTGGGACGTGAGGACACCCAAAACCCCTGTTTTGATCCACTCCTTCCCTGCCTGTCACCG TGACTGGGTCACTGGCTGTGCCTGGACCAAAGATAACCTACTGATATCCTGCTCCAGTGA TGGCTCTGTGGGGCTCTGGGACCCAGAGTCAGGACAGCGGCTTGGTCAGTTCCTGGGTCA TCAGAGTGCTGTGAGCGCTGTGGCAGCTGTGGAGGAGCACGTGGTGTCTGTGAGCCGGGA TGGGACCTTGAAAGTGTGGGACCATCAAGGCGTGGAGCTGACCAGCATCCCTGCTCACTC AGGACCCATTAGCCACTGTGCAGCTGCCATGGAGCCCCGTGCAGCTGGACAGCCTGGGTC AGAGCTTCTGGTGGTAACCGTCGGGCTAGATGGGGCCACACGGTTATGGCATCCACTCTT GGTGTGCCAAACCCACACCCTCCTGGGACACAGCGGCCCAGTCCGTGCTGCTGCTGTTTC AGAAACCTCAGGCCTCATGCTGACCGCCTCTGAGGATGGTTCTGTACGGCTCTGGCAGGT TCCTAAGGAAGCAGATGACACATGTATACCAAGGAGTTCTGCAGCCGTCACTGCTGTGGC TTGGGCACCAGATGGTTCCATGGCAGTATCTGGAAATCAAGCTGGGGAACTAATCTTGTG GCAGGAAGCTAAGGCTGTGGCCACAGCACAGGCTCCAGGCCACATTGGTGCTCTGATCTG GTCCTCGGCACACACCTTTTTTGTCCTCAGTGCTGATGAGAAAATCAGCGAGTGGCAAGT GAAACTGCGGAAGGGTTCGGCACCCGGAAATTTGAGTCTTCACCTGAACCGAATTCTACA GGAGGACTTAGGGGTGCTGACAAGTCTGGATTGGGCTCCTGATGGTCACTTTCTCATCTT GGCCAAAGCAGATTTGAAGTTACTTTGCATGAAGCCAGGGGATGCTCCATCTGAAATCTG GAGCAGCTATACAGAAAATCCTATGATATTGTCCACCCACAAGGAGTATGGCATATTTGT CCTGCAGCCCAAGGATCCTGGAGTTCTTTCTTTCTTGAGGCAAAAGGAATCAGGAGAGTT TGAAGAGAGGCTGAACTTTGATATAAACTTAGAGAATCCTAGTAGGACCCTAATATCGAT AACTCAAGCCAAACCTGAATCTGAGTCCTCATTTTTGTGTGCCAGCTCTGATGGGATCCT ATGGAACCTGGCCAAATGCAGCCCAGAAGGAGAATGGACCACAGGTAACATGTGGCAGAA AAAAGCAAACACTCCAGAAACCCAAACTCCAGGGACAGACCCATCTACCTGCAGGGAATC TGATGCCAGCATGGATAGTGATGCCAGCATGGATAGTGAGCCAACACCACATCTAAAGAC ACGGCAGCGTAGAAAGATTCACTCGGGCTCTGTCACAGCCCTCCATGTGCTACCTGAGTT GCTGGTGACAGCTTCGAAGGACAGAGATGTTAAGCTATGGGAGAGACCCAGTATGCAGCT GCTGGGCCTGTTCCGATGCGAAGGGTCAGTGAGCTGCCTGGAACCTTGGCTGGGCGCTAA CTCCACCCTGCAGCTTGCCGTGGGAGACGTGCAGGGCAATGTGTACTTTCTGAATTGGGA ATGAAGATGTGCCACTCGGGAATAATGATACCCCTTGTGCTAGAGATGCAAAGCC |
| Restriction Sites | Please inquire |
| ACCN | NM_007110 |
| Insert Size | 8000 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 | The ORF of this clone is found to be a perfect match to NM_007110.3. |
| Product Components | The ORF clone is ion-exchange column purified and shipped in a 2D barcoded Matrix tube containing 10ug of transfection-ready, dried plasmid DNA (reconstitute with 100 ul of water). |
| Reconstitution | 1. Centrifuge at 5,000xg for 5min. 2. Carefully open the tube and add 100ul of sterile water to dissolve the DNA. 3. Close the tube and incubate for 10 minutes at room temperature. 4. Briefly vortex the tube and then do a quick spin (less than 5000xg) to concentrate the liquid at the bottom. 5. Store the suspended plasmid at -20°C. The DNA is stable for at least one year from date of shipping when stored at -20°C. |
| Note | Plasmids are not sterile. For experiments where strict sterility is required, filtration with 0.22um filter is required. |
| Reference Data | |
| RefSeq | NM_007110.3, NP_009041.2 |
| RefSeq Size | 8595 bp |
| RefSeq ORF | 7884 bp |
| Locus ID | 7011 |
| UniProt ID | Q99973 |
| Gene Summary | This gene product is a component of the ribonucleoprotein complex responsible for telomerase activity which catalyzes the addition of new telomeres on the chromosome ends. The telomerase-associated proteins are conserved from ciliates to humans. Alternative splicing results in multiple transcript variants. [provided by RefSeq, Jan 2016] Transcript Variant: This variant (1) encodes the longer isoform (1). 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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