Otog (NM_013624) Mouse Untagged Clone
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Specifications
Product Data | |
Type | Mouse Untagged Clone |
Tag | Tag Free |
Symbol | Otog |
Synonyms | 4932420K09; Otgn; twt |
Vector | pCMV6-Entry |
E. coli Selection | Kanamycin (25 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>MC225429 representing NM_013624
Red=Cloning site Blue=ORF Orange=Stop codon TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGGGAGCCCGCATGCCCAGACGATGCTTGCTTCTTCTCTCTTGCTTTTGTCTACTTAGGGTTGAGTCCA CTGCAGAGGTGCAGCACCAGGCCTCAGCACTCACATGGAAAATCAGTGCAGAGCTGCAACAGGAGCCTGC TCCTGAGCCCAGCCACACATACCAGGAGATGTCCCTTGCAGTGGAGGATGTCACAACAGTTATGGAAGGC CAGGAGGCTGAAGCCTTAGCCGCATCGGCCATGTCTTCGTGGGAAAGACGGCTCCATCGCGCCAAGTGTG CACCGTCGTACTTGTTCTCCTGCTTCAATGGGGGTGAGTGTGTGCACCCAGCTCTCTGTGACTGCAGGCG CTTCAATGCCACTGGACCCCGTTGCCAGTTGGTGTATAATGTAGGTCCTGAGCGGGACAGCATCTGCCGG ACCTGGGGGCAGCACCACGTGGAGACGTTTGACGGCCTGTACTACTACTTTTCTGGAAAGGGCAGCTACA CGCTGGTGGGACACCACGAACCCGAGGGTCAGAGTTTTTCCATCCAGGTGCACAATGACCCACAGTGTGG CTCTGCCCACTACACCTGCCCGAGGTCTGTCAGCCTCTTCCTCTCAGGTGAACGTGAGATCTGCCTGGCC AAGGAAGTCACCCATGGAGGTGTAAGGGTCCAGCTGCCGCAGGTGGTGGGGGGTGTGCAGCTGCAGCAGC TGGCTGGTTACGTCATCGCGAGGCATCCGTCAGCCTTCACCCTGGCCTGGGATGGTATCTCAGCCATTTA CATCAAGATGAGCCCTGAGTTTCTGGGCTGGACCCATGGGCTGTGTGGGAACAACAATGCTGACCCTCAG GATGACCTGGTGACCAGTTACGGGAAGGTGACTGATGATGTAGGGGAGTTTGTACACAGCTGGCAGGAGC AGGTCCCCAACAGCCCTCCAGGACCTGTGACTACTTCCCTGCCTCGCCCACCATGCCTGCAGCAGAGCCC AGCATCCATGCAGGGTGTGTATGAGCGGTGTGAAGTACTGTTGAGGCCTCCTTTCGACACCTGCCATGCT TATGTCAGCCCTCTGCCCTTCGCAGCCAGCTGTACCAGTGACCTCTGCCAATCAGGAGGCGATGAAGCCA CTTGGTGCCGAGCACTGATGGAATATGCCCGGGCATGTGCACAGGCAGGGCGCCCTCTGCAGGGCTGGAG GACCCAACTCTCACAATGCACTGTGCACTGCAAAGAGAAGGCCTTCATCTATAACGAGTGTATTGCTTGC TGTCCGGCTTCCTGCCAATCCCGTGCTTCATGTGTAGACAGTGAGATCACCTGTGTGGATGGCTGCTACT GCCCCAATGGGCTGATCTTTGAGGATGGAGGCTGCATGTCACCAGCTGAGTGTCCCTGTGAATTCCATGG AACCCTGCACCCGCCTGGCTCTGTGGTGACAGAAGACTGCAATGCCTGTACGTGCACAGCAGGGAAGTGG GTGTGCAGCTCTTCCGTCTGTCCAGCTGAGTGCTCAGTGACTGGTGACATTCACTTCACGACCTTTGATG GACGCCGGTACACATTCCCTGCCACGTGTCAGTACATCCTCGCCAAGAGCCGTTCCTCAGGCACATTTAC AGTGACGCTGCAGAACGCCCCGTGTGGCCTGAACCAGGATGGGGCCTGTGTCCAGTCCGTGTCAGTGATC CTGCACCAGGACCCTCGGAGACAGGTGACCCTGACCCAGGCAGGAGATGTCCTTCTATTTGACCAGTACA AGATCACCCCACCCTACTCAGATGATGCTTTTGAGATCCGGAGGCTGTCCTCCGTGTTCCTGAGGGTGAG GACCAATGTGGGCGTGCGGATCCTCTATGACCGGGAAGGGTTGCGGCTTTACCTGCAAGTGGACCAGCGA TGGGTGGAGGATACCGTGGGCCTCTGTGGCACCTTCAACGGCAACACACAGGACGACTTCCTGTCTCCAG TGGGTGTACCTGAGAGCACACCACAGTTGTTTGGCAATTCGTGGAAAACCCTGTCTGCCTGTGTCCCGCT GGTCCCTGGCTCTTTGCTGGACCCCTGCGATGTGCATCTGCAAGCTGCCTCCTATGCACTGCAGTCCTGC AGTGTGCTCACGGGAGAGCTCTTTGCACCCTGCTCTGCGTATCTGAGCCCAATACCCTACTTCGAGCAAT GCCGCAGGGATGCCTGCCGCTGTGGGCAGCCCTGCCTTTGTGCCACGCTGGCCCACTACGCACGACTATG CCGGCGCCATGGACTCCCGGTTGACTTCCGTGCCCATCTGCCAGCCTGTGCACTGTCCTGTGAGGCCACT AAAGAGTACAGCCCTTGTGTGACCCTGTGCGCACCAACATGCCAGGACCTGGCCAGCCCTGACGTCTGTG GGGCTAACGGAGGTGGCAACTTCAGCAGGGAGGAGTGCGTAGAGGGTTGCACCTGCCCACCGGACACATT TCTGGACACACAGGCTGACCTCTGTGTCCCCAGGAACCAATGCTCTTGCCATTTCCAAGGAGTGGACTAC CCCCCTGGGGACAGTGACATCCCTTCCCTGGGCCACTGCCACTGCAAAGATGGGGTCATGAGCTGTGACA GCCGAGCCCCAGCTGCTGCCTGTCCAGCAGGCCAGGTGTTCGTGAACTGCAGTGAGCTGCACCCAGACCC TGAGCTCAGCAGGGAGAGGACGTGTGAGCAGCAGCTGCTGAACCTGAGCGTGCCAGCACGTGGCCCCTGC CTGTCGGGCTGTGCCTGTCCCCAGGGCCTGCTCAGACATGGGGACGCATGCTTCCCACCAGAGGAATGTC CATGTACCTGGAAGGGGAAGGAATATTTCCCTGGGGACCAGGTAGTCTCTTCCTGCCACACCTGTGTGTG CCAGCGGGGCTCGTTCCAGTGCACCCTGCACCCCTGCGCCTCCACCTGTACCGCCTATGGGGACCGACAC TATCGCACATTTGACGGGCTTCCGTATGACTTTGTAGGGGCGTGCAAAGTGCACCTGGTCAAGAGTACAT CCGAGCTCAGCTTCTCTGTCATGGTGGAGGATGTGAACTGCTATGGCTCCGGCGTCATCTGCAGGAAGTC CATCTCCATCAACGTTGGCAGCTCACTCATCATCTTTGATGACGACTCCGGGGATCCCAGTCCCGAGAGC TTCCTGGATGAGAAGCAGGCTGTCCACATCTGGAGAGCAGGCTTTTTCACACTGGTGCATTTCCCACGGG AACACATCACCCTCTTGTGGGACCAGAGAACCACTGTGCATGTCCAGGCGGGCCCTCAGTGGCAGGGTCA GTTGGTGGGCCTCTGTGGGAACTTTGACCTGAAAACCATCAATGAGATGCGGACCCCAGAGAACCTGGAG TTAACAAACCCCCAGGAGTTTGGAAGCAGTTGGGCTGCGGTGGAGTGCCCAGATACCCCTGATCCCAGGG ACACTTGTGTCCTGAATCCTCTCCGAGAACCATTTGCAAGGAAGGAGTGTGGTATTCTGCTCAGTGAGGT GTTCGAGACCTGCCACCCAGTGGTTGATGTCACTTGGTTTTACTCAAACTGCCTGACGGACACATGTGGC TGCAGCCGGGGTGGCGACTGTGAGTGCTTCTGTGCCAGTGTAGCTGCCTATGCCCATCAGTGTTGTCAGC ACGGGGTGGTCATTGACTGGCGGACACCCCGCATCTGCCCATATGACTGTGACTTCTTCAACAAAGCGCT AGGTAAGGGTCCCTACCAGCTGTCCAGTGTGGCGGCTGGCGGTACTCTTGTGGCCACGAAGGCAGTAGAC AGTGACATAGCCCTTGTGAGGGCAGAGGATCTGGCGCCAGGGGACATTTCAAGCTTCCTGCTGACAGCTG CTCTGTACAAGGCCAAGGCCCATGACCCTGACGTGGTGTCCCTGGAGGCGGCTGACAGACCCAACTTCTT CCTGCACACCACAGCCAATGGCTCTATAGGGCTGGCTAAGTGGCAGCGCGATGAGGCCTTCCATCAGCAC GCTTCCTTCTCGCTGCACCGGGGGACATGGCAGGCTGGCCTGGTGGCTCTGGAGTCCCTGGCAAAGCCTG GCTCCTTCCTCCACTCATCAGGCCTTGAGCTGGCACTGCGGGCATACGAACACACGGAGGTGTTTCGTGG TGGTGCGCTCTTCCGCCTTCTGGATGCCAAGCCTTTGGGGGCTGCCTACCCCACCTGTGAGTGGCGCTAC GATGCCTGTGCTAGCCCCTGTTTCCAAACCTGCCGGGACCCACGGGCAACCAGCTGCCAGGATGTGCCCA GGGTAGAAGGCTGTGTCCCTGTGTGTCCCACTCCTAAGGTCCTGGATGAAGTCACACAGAGATGTGTCTA CCTGGAAGACTGTGTGGAGCCAGCCCCGCGGGGTCCCACGGAGACCCTTGGCAATGAGACTCTGGTACCT GGTCAAGTGCCACCCACCACCAGTGCCGAGCAGCAGCTTCCACAGGGGCTCCCTGGAGCCTCTGCCTACA GCCCCGCCCCTGTTCCAGTAGCCCCACCCACCTCAGCCCCAAACCCACCAATGGCTGCCACGGAGGGGCA AGCGCCATCTCCAGGATCCACCCAACCCACACTGCAGACACCCCTGGGCCTTACAACATCTAACTTTCCT GCTGGCCACACAGAGGCCACAGCCAGAGAGGAAGGGGCTGCCAGCCTTCTAACCACTTCTCATCCCCCAG GGTTCTCGTCCTCCCTCCCTAGTTCCCTGCAGATGCCCACATCTGGCATTGTATCAGGTGCAACAGAGAC AACCAAAGTGACCATAACCTTTACAGGGAGTCCCAACACCACTGTCGCTTCCCGGTCACCCCCTATACCT CGCTTCCCACTCATGACCAAAGCTGTGACAGTCCCAAGTCATGACTCCTTTCCTGTTAAAACCACACCTC TGCAGCCCTCTTGGCTATGGAGCCTCTCTTCCAGACCTATGACTTCCCTTGGAGCTACGTCCTGGCCCCC CACCTCCCCGGGATCCCACCTGTCAACTGCAGTAACTAAGGTGGCAAATAAGACAATGACATCCCTGTCT GTCCTGGCCCAGAGCACTTCAAGTTCCAGCCAGCCCCTGGCTGCAGTGACCACAGCACACAGGGCTCCTG CCAGTCCCCTTGTCACCAAGGGCTTGGAGGTGGTGTCAGCCACAGAGAAGGGAGAAGCTGGGCACAGCCA GCTTACAGAGTTGCCAGTGTCCCCACCCCCAAGCCCAGCCCCCATCGACCTGCCTCACCCAGCCCAACAT ACCACCACAGCCCCTGGGCCTTCTGCTCTGTCCCCGGGGATCCTGGCTGCTGGCAGTCCATCCACAGGTG CTCACAGACCGGGGGCCACAGCTTTAGCTTCTCTAGAGCCAACTCGGCCACCCCACCTTCTCTCTGGCCT ACCTCTGGACACCAGCCTGCCCTTGGCTAAGGTGGGAACCTCTGCCCCAGTGGCCACACCTGGCTCCAAA GGCTATATCCCCACCCCTCCACCTCAGCACCAGGCTACAACTTTGGCTACGGCCATGACTGTGAGCCCAC TTACTCAGTCACTCAGTCTGACAGTGCCACTCATGTCTGCTGTAGAGGAACAGGCACACTCACCTAGCCC CAAGCCTCCCCAAGGAACAGGTATGGCTCCAGACCAGATGCTGGGAGCCACATTGCCAAGCTTTGGAGCC TCCTCTGTGATTGCTGGGGTGCCCCCCACAGTGTCTGCGGCCCCACGGAAGAGCACCACCCAGAGAGCAG CCATTCTATCTAAGAAGGTGTCTCCACCCACCCTCATCTCTGACTCTGTCCAGGGTGGGTTCACAGAACT CACACCTATAGTGAGCCATACTGTTACCCCCTTGGCGACTGAGGCTGAAGGCCCCCGGGCTGGCACAGTG CCACTGGTGCCCACAACCTACTCCCTAAGCCGGGTGTCAGCCAGGACGGCCTCCCGGGAAGGCCCGCTAG TTCTGTTGCCTCAGCTGGCAGAGGCCTATGGGACCCCAGCAGGACTCCAGCCCCAAGAAGATCTAGTGCG CCAGGCCACTACGGAGCAGTCAGGGCGCTCAGCTCCAGCCAAGAGTATAGCAGAGGAGTCGATGGAGGCC GAAGTGAATACTTCTGCCACCTGTGTGCCCATCGCTGAACAAGACTGTGTCCGTCACATATGCCTAGAAG GCCAGCTGATACGTGTGAACCAGACCCAGCACTGTCCTCAGGGTGCCGTACGCCCTCGCTGTGGGGTCCT GGGCCTCGCTGTGCGGGTGGGCGGGGATCGCTGCTGCCCACAATGGGAATGTGCCTGCCGATGCTCAATC TTCCCAGACCTGAGCTTTGTAACTTTCGATGGCAGCCATGCGGCTCTGTTCAAGGAGGCCATCTATGTCC TCAGCCAGAGCCCAGATGAAACCATCTCTGTGCATGTCCTGGACTGCAAGAGTGCCAACCTGGGACATCT GAACTGGCCCCCATTCTGTCTGGTGATACTGAATGTGACTCATCTGGCCCACCATGTCAGCATCGACCGC TTCAACAGGAAGGTGACTGTGGACTCTCAAGTTGTGTGGCCACCCATGAGCCGATATGGCTTCCGAATTG AGGATACAGGACACATGTATATCGTCCGGACACCCTCACACATCCAGATCCAGTGGCTTCACAGCTCAGG ACTCATGATCTTGGAAGCCAGCAAAGTCAGCAAGACCCAGGGCCATGGCCTGTGTGGTATCTGTGATGGA GATGCAGCCAATGACCTCACCTTGAAGGATGGCTCTGTGCTGGGTGAGGCAGAGGACCCTGCTCCCTTTC TGGACAGCTGGCAGGTGCCCAGCTCCCTGACTTCAGAGGGTCAGACCCGCTTCCGCCCAGACAGTTGTGC CACAGCTGACTGCTCGCCCTGCCTTCGCATGGTGTCCAACCGAACCTTCAGTGCCTGCCACAGCTTTGTC TCCCCAGAGTCATTCTGTGAGCTGTGGATCCGGGACACCAAGTACGTGCAGCAGCCCTGTGTGGCACTCA CCGTGTATGTGGCTATGTGTCACAAATTCCACGTGTGCATCGAGTGGCGGGGCTCCGACTATTGCCCCTT CCTGTGCTCCAGTGACTCTACCTACCAGGCCTGTGTGGCAGCTTGTGAACCCCCTGACACATGCCAGGAC GGGATACTGGGCCCCCTGGACCCAGAGCAGTGCCAGGTGCTGGGTGAGGGCTGTGTGTGCACGGAGGGCA CCATTCTGCACCGACGCCACTCGGCACTCTGCATCCCTGAGGACAAGTGTGCCTGCACTGACAGCACCGG GGTTCCACGTGCTCTGGGGGAGACCTGGAACAGCTCCCTCAGTGGCTGCTGTCAGCAGCAATGCCAGGCT CCAGACACCATCATACCCGTGGACCTGGACTGCCCTGGTCCCCGACCTGAGAGCTGCCCCCGCTTTGGTG AAGTGATCCTGTTACAGCCCACGGAGGACCCCTGCTGCCTGGGGAGTGTCTGCGTGTGTAACCAGACCCT GTGCGAGGGCCTCGCTCCCACCTGCCGCCCAGGCCACAGCCTCATCACCCACTTCCAGGAGGATTCCTGC TGTCCCAGCTACAGCTGCGAGTGTGACCCTGGTCTGTGTGAGGCTGAGCAGGTCCCCACCTGTCGTGAGG ACCAGATCTTGATCGAGGGCCGCCTAGGAGACTCCTGCTGCACCTCCTACTTCTGTGGCTGTGGTGAGTG TTCAGATCCCATGCCTGAGTGTCAGGAAGGAGAGGCACTCACTGTGCACAGGAACACCACAGAGCTCTGC TGCCCTCTGTATCAGTGTGTGTGTGAGAACTTCCGCTGCCCACAGGTACAGTGTGGCATGGGCACTTCCC TGGTGGAGGTGTGGAGCCCAGACCGATGCTGCCCCTACAAGTCCTGCGAGTGTGACTGTGACACTATTCC TGTGCCCAGATGCCATCTGTGGGAAAAGTCGCAGCTGGATGAGGAGTTTATGCACAGCGTGGAGAATGTG TGCGGCTGCGCCAAGTACGAGTGCGTGAAAGCCCCTGTATGCCTGAGCCGTGAGCTGGGTGTGATGCAGC CAGGCCAGACTGTGGTAGAGCTCTCAGCGGATGGTGTGTGTCATACGTCCCGATGCACAGACGTGCTGGA CCCTCTCACCAACTTCTACCAGATCAACATCACCTCTGTCCTCTGTGACATGCACTGCGAGGCGAACCAG GAGTATGACCACCCACGGGACCTGGCGGCCTGCTGCGGCTCCTGCAGAAACGTGTCCTGCCTCTTCACCT TCCCCAATGGCACCACTTCCCTGTTCTTGCCTGGTGCATCCTGGATCGCGGACTGTGCCCGCCATCACTG TGGCAGCACCCCCCTGGGTGCTGTGCTTGTCCGCTCGCCCATCAGCTGCCCTCCATTCAATGAAACCGAG TGTGCCAAGGTTGGTGGCTCTGTGGTACCATCCTTGGAAGGATGCTGCAGAGCATGTAAGGAGGATGGAC GGTCTTGCAAGAAGGTGACCATTCGCATGACCATCCGCAAGAATGACTGCAGGAGCAATACCCCTGTGAA CCTGGTGTCTTGCGATGGGAGGTGCCCTTCTGCCAGCATCTACAACCACAACATCAACACCTATGCCCGC TTCTGCAAGTGCTGCCGTGAGGTGGGACTGCAGCGTCGCTCTGTGCAGCTCTTCTGTGCCACGAATGCTA CCTGGGTGCCCTATACAGTACAGGAGCCTACAGACTGTGCCTGCCAGTGGTCCTGA ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT ACAAGGATGACGACGATAAGGTTTAA |
Restriction Sites | SgfI-MluI |
ACCN | NM_013624 |
Insert Size | 8736 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 | NM_013624.2, NP_038652.2 |
RefSeq Size | 10043 bp |
RefSeq ORF | 8736 bp |
Locus ID | 18419 |
UniProt ID | O55225 |
Cytogenetics | 7 29.66 cM |
Gene Summary | Glycoprotein specific to acellular membranes of the inner ear. May be required for the anchoring of the otoconial membranes and cupulae to the underlying neuroepithelia in the vestibule. May be involved in the organization and/or stabilization of the fibrillar network that compose the tectorial membrane in the cochlea. May play a role in mechanotransduction processes.[UniProtKB/Swiss-Prot Function] |
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