Tep1 (BC082996) Mouse Untagged Clone

CAT#: MC206779

Tep1 (untagged) - Mouse telomerase associated protein 1 (cDNA clone MGC:91078 IMAGE:30457924), (10ug)

Specifications

Product Data

• Type: Mouse Untagged Clone
• Tag: Tag Free
• Symbol: Tep1
• Synonyms: Tp1
• Vector: PCMV6-Kan/Neo
• E. coli Selection: Kanamycin (25 ug/mL)
• Mammalian Cell Selection: Neomycin
• Sequence Data:
  Fully Sequenced ORF

  >BC082996
  AAGAGGTAATCCCTTGGCCTCACTAGGGTGTTGGTTTTCTTTCAGTTCTCTGCTTCCAACCAGTCCACTG GCTGACCCAGGCCGGTTTCTGCTCCCCGTTGCGGAGAACCAACGCGCCTCTCATTGCGCACAGCTTTTCC AATCCTGAGCGCAGGCATATGTTGATTGTTCTTCAGCTATGGAGAAGCTCTGTGGGCATGTGCCTGGCCA TTCAGACATCCTCTCCTTGAAGAACCGGTGCCTGACCATGCTCCCTGACCTCCAGCCCCTGGAGAAAATA CATGGACATAGATCTGTCCACTCAGACATCCTTTCCTTGGAGAACCAGTGTCTGACCATGCTCTCTGACC TCCAGCCCACGGAGAGAATAGATGGGCATATATCTGTCCACCCAGACATCCTCTCCTTGGAGAATCGGTG CCTGACCATGCTCCCTGACCTCCAGCCTCTGGAGAAGCTATGTGGACATATGTCTAGTCATCCAGACGTC CTTTCTTTGGAAAACCAATGTCTAGCTACTCTCCCCACTGTAAAGAGCACTGCATTGACCAGCCCCTTGC TCCAGGGTCTTCACATATCTCATACGGCACAAGCTGATCTGCATAGCCTGAAAACTAGCAACTGCCTGCT CCCTGAGCTTCCTACCAAGAAGACTCCATGTTTCTCTGAGGAACTAGACCTTCCACCTGGACCCAGGGCC CTGAAATCCATGTCTGCTACAGCTCAAGTCCAGGAAGTAGCCTTGGGTCAATGGTGTGTCTCCAAAGAAA AGGAATTTCAAGAAGAAGAAAGCACAGAAGTCCCAATGCCTTTGTACAGTCTAAGCTTGGAAGAAGAAGA AGTGGAGGCACCGGTCTTAAAACTCACATCTGGAGACTCTGGCTTTCATCCTGAAACCACTGACCAGGTC CTTCAGGAGAAGAAGATGGCTCTCTTGACCTTACTCTGCTCTGCTCTGGCCTCAAATGTGAATGTGAAAG ATGCATCTGACCTTACCCGGGCATCCATCCTTGAAGTCTGTAGTGCCCTGGCCTCCTTGGAACCGGAGTT CATCCTTAAGGCATCTTTGTATGCTCGGCAGCAACTTAACCTCCGGGACATCGCCAATACAGTTCTGGCT GTGGCTGCCCTCTTGCCAGCCTGCCGCCCCCATGTACGACGGTATTACTCCGCCATTGTTCACCTGCCTT CAGACTGGATCCAGGTAGCCGAGTTCTACCAGAGCCTGGCAGAAGGGGATGAGAAGAAGTTGGTGTCCCT GCCTGCCTGTCTCCGAGCTGCCATGACCGACAAATTTGCCGAGTTTGATGAGTACCAGCTAGCTAAGTAC AACCCACGGAAACATCGGTCCAAGAGGCGGTCCCGCCAGCCACCCCGCCCTCAAAAGACAGAACGTCCAT TTTCAGAGAGAGGGAAATGTTTTCCAAAGAGCCTTTGGCCCCTTAAAAATGAACAGATTACGTTTGAAGC AGCTTATAATGCAATGCCAGAGAAAAACAGGCTACCACGGTTCACTCTGAAGAAGTTGGTAGAGTATCTA CATATCCACAAGCCTGCTCAGCACGTCCAGGCCCTGCTGGGCTACAGGTACCCAGCCACCCTAGAGCTCT TTTCTCGGAGTCACCTCCCTGGGCCGTGGGAGTCTAGCAGAGCTGGTCAGCGGATGAAGCTCCGAAGGCC AGAGACCTGGGAGCGGGAGCTGAGTTTACGGGGAAACAAAGCTTCTGTGTGGGAGGAGCTCATAGACAAT GGGAAACTGCCCTTCATGGCCATGCTCCGGAACCTGTGTAACCTGCTGCGGACTGGGATCAGTGCCCGCC ACCATGAACTCGTTCTCCAGAGACTCCAGCATGAGAAATCTGTGGTTCACAGTCGGCAGTTTCCATTCAG ATTCCTTAATGCTCATGACTCTATCGATAAACTTGAGGCTCAGCTCAGAAGCAAAGCATCACCCTTCCCT TCCAATACAACATTGATGAAACGGATAATGATTAGAAACTCAAAAAAAAATAGGAGGCCTGCCAGTCGGA AGCACCTGTGCACCCTGACGCGCCGGCAGCTTCGGGCAGCAATGACTATACCTGTGATGTATGAGCAGCT CAAGCGGGAGAAACTGAGGCTGCACAAGGCCAGACAATGGAACTGTGATGTTGAGTTGCTGGAGCGCTAT CGCCAGGCCCTGGAAACAGCTGTGAACCTCTCAGTAAAGCACAACCTATCCCCGATGCCTGGCCGAACCC TCTTGGTCTATCTCACAGATGCAAATGCCGACAGGCTCTGTCCCAAGAGTCACTCACAAGGGCCTCCCCT GAACTATGTGCTGCTGCTGATCGGAATGATGGTGGCTCGAGCCGAGCAAGTGACTGTTTGCTTGTGTGGG GGAGGATTTGTGAAGACACCGGTACTTACAGCCGATGAAGGCATCCTGAAGACTGCCATCAAACTTCAGG CTCAAGTCCAGGAGTTAGAAGGCAATGATGAGTGGCCCCTGGACACTTTTGGGAAGTATCTGCTGTCTCT GGCTGTCCAAAGGACCCCCATTGACAGGGTCATCCTGTTTGGTCAAAGGATGGATACCGAGCTCCTGAAA GTAGCCAAACAGATTATCTGGCAGCATGTGAATTCCAAGTGCCTCTTTGTTGGTGTCCTCCTACAGAAAA CACAGTACATATCACCAAATTTGAATCCCAACGATGTGACGCTCTCAGGCTGCACTGACGGGATCCTGAA ATTCATTGCCGAACATGGAGCCTCTCGTCTCCTGGAACATGTGGGACAACTAGATAAACTATTCAAGATC CCCCCACCCCCAGGAAAGACACAGGCACCGTCTCTCCGGCCGCTGGAGGAGAACATCCCTGGTCCCTTGG GTCCTATTTCCCAGCATGGATGGCGCAATATCCGGCTTTTCATTTCATCCACTTTCCGTGACATGCATGG GGAGCGAGATTTGCTGATGAGATCTGTTCTGCCCGCACTGCAGGCCAGAGTGTTCCCCCACCGCATCAGT CTTCACGCCATTGACCTGCGCTGGGGTATCACAGAGGAAGAGACCCGCAGGAACAGACAACTGGAAGTGT GCCTTGGGGAGGTGGAGAACTCACAGCTGTTCGTGGGGATTCTGGGCTCCCGCTATGGCTACATTCCCCC CAGCTATGATCTTCCTGATCATCCCCACTTTCACTGGACCCATGAGTACCCTTCAGGGCGATCCGTGACA GAGATGGAGGTGATGCAATTCCTGAACCGTGGCCAACGCTCGCAGCCTTCGGCCCAAGCTCTCATCTACT TCCGAGATCCTGATTTCCTTAGCTCTGTGCCAGATGCCTGGAAACCTGACTTTATATCTGAGTCAGAAGA AGCTGCACATCGGGTCTCAGAGCTGAAGAGATATCTACACGAACAGAAAGAGGTTACCTGTCGCAGCTAC TCCTGTGAATGGGGAGGTGTAGCGGCTGGCCGGCCCTATACTGGGGGCCTGGAGGAGTTTGGACAGTTGG TTCTCCAGGATGTGTGGAGCATGATCCAGAAGCAGCACCTGCAGCCTGGGGCCCAGTTGGAGCAGCCAAC ATCCATCTCAGAAGACGATTTGATCCAGACCAGCTTTCAGCAGCTGAAGGCCCCAACGAGTCCGGCACGG CCACGCCTTCTTCAGGATACAGTGCAGCAGCTGTTGCTGCCCCATGGGAGGCTGGGCCTAGTGACTGGGC AGGCAGGACAGGGAAAGACTGCCTTTCTGGCATCCCTTGTGTCTGCCCTGAAGGTCCCTGACCAGCCCAA TGAGCCCCCGTTCGTTTTCTTCCACTTTGCAGCAGCCCGCCCTGACCAGTGTCTTGCTCTCAACCTCCTC AGACGCCTCTGTACCCATCTGCGTCAAAAACTGGGAGAGCTGAGTGCCCTCCCCAGCACTTACAGAGGCC TGGTGTGGGAACTGCAGCAGAAGTTGCTCCTCAAATTCGCTCAGTCGCTGCAGCCTGCTCAGACTTTGGT CCTTATCATCGATGGGGCAGATAAGTTGGTGGATCGTAATGGGCAGCTGATTTCAGACTGGATCCCCAAG TCTCTTCCGCGGCGAGTACACCTGGTGCTGAGTGTGTCCAGTGACTCAGGCCTGGGTGAGACCCTTCAGC AAAGTCAGGGTGCTTATGTGGTGGCCTTGGGCTCTTTGGTCCCATCTTCAAGGGCTCAGCTTGTGAGAGA AGAGCTAGCACTGTATGGGAAACGACTGGAGGAGTCACCTTTTAACAACCAGATGCGGCTGCTGCTGGCA AAGCAGGGTTCAAGCCTGCCATTGTACCTGCACCTTGTCACTGACTACCTGAGGCTCTTCACACTGTATG AACAGGTGTCTGAGAGACTTCGAACCCTGCCCGCCACTCTCCCACTGCTCTTGCAGCACATCCTGAGCAC CTTGGAGCAAGAACATGGCCATGATGTCCTTCCTCAGGCTTTGACTGCCCTTGAGGTCACACGAAGTGGT CTGACTGTGGACCAGCTACATGCAATCCTGAGCACATGGCTGATCTTGCCCAAGGAGACTAAGAGCTGGG AAGAAGTGCTGGCTGCCAGTCACAGTGGAAACCCTTTCCCCTTGTGTCCATTTGCCTACCTTGTCCAGAG TCTACGCAGTTTACTAGGGGAGGGCCCAGTGGAGCGCCCTGGTGCCCGTCTCTGCCTCTCTGATGGGCCC CTGAGGACAACAATTAAACGTCGCTATGGGAAAAGGCTGGGGCTAGAGAAGACTGCGCATGTCCTCATTG CAGCTCACCTCTGGAAGACGTGTGATCCTGATGCCTCGGGCACCTTCCGAAGTTGCCCTCCTGAGGCTCT GAAAGATTTACCTTACCACCTGCTCCAGAGCGGGAACCATGGTCTCCTTGCCGAGTTTCTTACCAATCTC CATGTGGTTGCTGCATATCTGGAAGTGGGTCTAGTCCCCGACCTCTTGGAGGCTCATGTGCTCTATGCTT CTTCAAAGCCTGAAGCCAACCAGAAGCTCCCAGCGGCAGATGTTGCTGTTTTCCATACCTTCCTGAGACA ACAGGCTTCACTCCTTACCCAGTATCCTTTGCTCCTGCTCCAGCAGGCAGCTAGCCAGCCTGAAGAGTCA CCTGTTTGCTGCCAGGCCCCCCTGCTCACCCAGCGATGGCACGACCAGTTCACACTGAAATGGATTAATA AACCCCAGACCCTGAAGGGTCAGCAAAGCTTGTCTCTGACAATGTCCTCATCCCCAACTGCTGTGGCCTT CTCCCCGAATGGGCAAAGAGCAGCTGTGGGGACCGCCAGTGGGACAATTTACCTGTTGAACTTGAAAACC TGGCAGGAGGAGAAGGCTGTGGTGAGTGGCTGTGACGGGATTTCCTCTTTTGCATTCCTTTCGGACACTG CCCTTTTCCTTACTACCTTCGACGGGCACCTAGAGCTTTGGGACCTGCAACATGGTTGTTGGGTGTTTCA GACCAAGGCCCACCAGTACCAAATCACTGGCTGCTGCCTGAGCCCAGACCGCCGCCTGCTGGCCACTGTG TGTTTGGGAGGATACCTAAAGCTGTGGGACACAGTCCGAGGACAGCTGGCTTTTCAGTACACCCATCCAA AGTCTCTCAACTGCGTTGCCTTCCACCCAGAGGGGCAGGTGGTAGCCACAGGCAGCTGGGCTGGCAGCAT TACCTTCTTCCAGGCAGATGGACTCAAAGTCACCAAGGAACTAGGGGCCCCCGGACCCTCTGTCTGTAGT TTGGCATTCAACAAACCTGGGAAGATTGTGGCTGTGGGCCGGATAGATGGGACAGTGGAGCTGTGGGCCT GGCAAGAGGGTGCCCGGCTGGTGGCCTTCCCTGCACAGTGTGGCTGTGTCTCTGCTGTTCTTTTCTTGCA TGCTGGAGACCGGTTCCTGACTGCTGGAGAAGATGGCAAGGCTCAGTTATGGTCAGGATTTCTTGGCCGG CCCAGGGGTTGCCTGGGCTCTCTTCCTCTTTCTCCTGCACTCTCGGTGGCTCTCAACCCAGACGGTGACC AGGTGGCTGTTGGGTACCGAGAAGATGGCATTAACATCTACAAGATTTCTTCAGGTTCCCAGGGGCCTCA GCATCAAGAGCTAAATGTGGCGGTGTCTGCACTGGTGTGGCTGAGCCCTAGTGTTTTGGTGAGTGGTGCA GAAGATGGATCCCTGCATGGTTGGATGTTCAAGGGAGACTCCCTTCATTCCCTGTGGCTGTTGTCGAGAT ACCAGAAGCCTGTGCTGGGACTGGCTGCCTCCCGGGAACTCATGGCTGCTGCCTCAGAGGACTTCACTGT GAGACTGTGGCCCAGACAGCTGCTGACACAGCCACATGTGCATGCGGTAGAGTTGCCCTGTTGTGCTGAA CTCCGGGGACACGAGGGGCCAGTGTGCTGCTGTAGCTTCAGCCCTGATGGAGGCATCTTGGCCACAGCTG GCAGGGATCGGAATCTCCTTTGCTGGGACATGAAGATAGCCCAAGCCCCTCTCCTGATTCACACTTTCTC GTCCTGTCATCGTGACTGGATCACTGGCTGTGCGTGGACCAAAGACAACATCCTGGTCTCCTGCTCGAGT GATGGCTCTGTGGGACTCTGGAACCCAGAGGCAGGGCAGCAACTTGGCCAGTTCTCAGGCCACCAGAGTG CCGTGAGCGCCGTGGTTGCTGTGGAGGAACACATTGTATCTGTGAGCCGAGATGGGACCTTGAAAGTGTG GGACCATCAGGGTGTGGAGCTGACCAGCATCCCTGCCCATTCCGGACCCATCAGCCAGTGTGCAGCTGCT CTGGAGCCCCGCCCAGGGGGACAGCCTGGATCAGAGCTTCTGGTGGTGACTGTTGGACTAGATGGGGCCA CAAAGTTGTGGCATCCCCTGTTGGTGTGCCAAATACGTACTCTCCAGGGACACAGTGGCCCAGTCACAGC AGCTGCTGCTTCAGAGGCCTCAGGCCTCCTGCTGACCTCAGATGATAGCTCTGTACAGCTCTGGCAGATA CCAAAGGAAGCAGATGATTCATACAAACCTAGGAGTTCTGTGGCCATCACTGCTGTGGCATGGGCACCGG ATGGTTCTATGGTGGTGTCCGGAAATGAAGCCGGGGAACTGACACTGTGGCAGCAAGCCAAGGCTGTGGC TACCGCACAGGCTCCAGGCCGCGTCAGTCACCTGATCTGGTACTCGGCAAATTCATTCTTCGTTCTCAGT GCTAATGAAAACGTCAGCGAGTGGCAAGTGGGACTGAGGAAAGGTTCAACGTCCACCAGTTCCAGTCTTC ATCCGAAGAGAGTTCTGCAGGAGGACTGGGGAGTCTTGACAGGTCTGGGTCTGGCCCCTGATGGCCAGTC TCTCATCTTGATGAAAGAGGATGTGGAATTACTAGAGATGAAGCCTGGGTCTATTCCATCTTCTATCTGC AGGAGGTATGGAGTACATTCTTCAATACTGTGCACCAGCAAGGAATACGGCTTGTTCTACCTGCAGCAGG GGGACTCCGGATTACTTTCTATATTGGAGCAAAAGGAGTCAGGGGAGTTTGAAGAGATCCTGGACTTCAA TCTGAACTTAAATAATCCTAATGGGTCCCCAGTATCAATCACTCAGGCCAAACCTGAGTCTGAATCATCC CTTTTGTGCGCCACCTCTGATGGGATGCTGTGGAACTTATCTGAATGTACCTCAGAGGGAGAATGGATCG TAGATAACATTTGGCAGAAAAAAGCAAAAAAACCTAAAACTCAGACTCTGGAGACAGAGTTGTCCCCGCA CTCAGAGTTGGATTTTTCCATTGATTGCTGGATTGATCCCACAAATTTAAAGGCACAGCAGTGTAAAAAG ATCCACTTGGGCTCTGTCACAGCCCTCCATGTGCTTCCGGGATTGCTGGTGACAGCTTCGAAGGACAGAG ATGTTAAGCTGTGGGAGAGACCCAGTATGCAACTGCTGGGCTTGTTCCGATGTGAAGGGCCAGTGAGCTG TCTGGAACCTTGGATGGAGCCCAGCTCTCCCCTGCAGCTTGCTGTGGGAGACACACAAGGAAACTTGTAT TTTCTATCTTGGGAATGAAGATGCAGTACTCAGGACAAAGATGATGTCAACAGATGCTGCTAGCCTGAAG ACACCTGTGTCTATATTCTTAGTAAGATTATAAAACTAAAATGTTGAGAGATCTAAAAAAAAAAAAAAAA AAAAAAAAAAAAAAAAA
• Restriction Sites: RsrII-NotI
• ACCN: BC082996
• Insert Size: 7890 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).
• 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.

Reference Data

• RefSeq: BC082996, AAH82996
• RefSeq Size: 8207 bp
• RefSeq ORF: 7890 bp
• Locus ID: 21745
• Cytogenetics: 14 26.26 cM
• Gene Summary: Component of the telomerase ribonucleoprotein complex that is essential for the replication of chromosome termini (By similarity). Also component of the ribonucleoprotein vaults particle, a multi-subunit structure involved in nucleo-cytoplasmic transport (PubMed:11149928). Responsible for the localizing and stabilizing vault RNA (vRNA) association in the vault ribonucleoprotein particle (PubMed:11149928).[UniProtKB/Swiss-Prot Function]