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ODZ1 (TENM1) (NM_001163279) Human Untagged Clone
CAT#: SC327720
TENM1 (untagged)-Human odz odd Oz/ten-m homolog 1(Drosophila) (ODZ1) transcript variant 2
CNY 26,790.00
货期*
12周
规格
Product images
经常一起买 (4)
Specifications
| Product Data | |
| Type | Human Untagged Clone |
| Tag | Tag Free |
| Synonyms | ODZ1; ODZ3; ten-1; TEN-M1; TEN1; TNM; TNM1 |
| Vector | pCMV6-XL5 |
| E. coli Selection | Ampicillin (100 ug/mL) |
| Mammalian Cell Selection | None |
| Sequence Data |
>NCBI ORF sequence for NM_001163279, the custom clone sequence may differ by one or more nucleotides
ATGGAGCAAACTGACTGCAAACCCTACCAGCCTCTACCAAAAGTCAAGCATGAAATGGAT CTAGCTTACACCAGTTCTTCTGATGAGAGTGAAGATGGAAGAAAACCAAGACAGTCATAC AACTCCAGGGAGACCCTGCACGAGTATAACCAGGAGCTGAGGATGAATTACAATAGCCAG AGTAGAAAGAGGAAAGAAGTAGAAAAATCTACTCAAGAGATGGAATTCTGTGAAACCTCT CACACTCTGTGCTCTGGCTACCAAACAGACATGCACAGCGTTTCTCGGCATGGCTACCAG CTAGAGATGGGATCTGATGTGGACACAGAGACAGAAGGTGCTGCCTCACCTGACCATGCA CTAAGAATGTGGATAAGGGGAATGAAATCAGAGCATAGTTCCTGTTTGTCCAGCCGGGCC AACTCTGCATTATCCTTGACTGACACTGACCATGAAAGGAAGTCTGATGGGGAAAATGGT TTCAAATTCTCTCCTGTTTGTTGTGACATGGAGGCTCAAGCTGGGTCTACTCAAGATGTG CAGAGCAGCCCACACAACCAGTTCACCTTCAGACCCCTCCCACCGCCACCTCCGCCTCCT CATGCCTGCACCTGTGCCAGGAAGCCACCCCCTGCAGCGGACTCTCTTCAGAGGAGATCA ATGACTACCCGCAGCCAGCCCAGCCCAGCTGCTCCAGCTCCCCCAACCAGCACGCAGGAT TCAGTCCATCTGCATAACAGCTGGGTCCTGAACAGCAACATACCATTGGAGACCAGGCAT TTCCTGTTCAAACATGGATCTGGTTCCTCTGCGATCTTCAGTGCAGCCAGTCAGAACTAC CCTCTGACATCCAATACCGTGTACTCGCCCCCTCCCAGGCCTCTTCCTCGAAGCACCTTT TCCCGACCTGCCTTTACCTTTAACAAACCTTACAGGTGCTGCAACTGGAAGTGCACAGCA TTGAGCGCCACTGCAATCACAGTGACTTTGGCCTTGTTACTAGCCTATGTGATTGTGCAT TTGTTCGGCCTGACTTGGCAGTTGCAACCAGTTGAAGGAGAGCTGTATGCAAATGGAGTT AGCAAAGGGAACAGGGGGACCGAGTCCATGGACACTACTTACTCTCCAATTGGAGGAAAA GTTTCTGATAAATCAGAGAAAAAAGTGTTTCAGAAGGGACGGGCGATAGACACTGGAGAA GTTGACATTGGTGCACAGGTCATGCAGACCATTCCACCTGGTTTATTCTGGCGTTTCCAG ATTACTATCCACCATCCAATATATCTGAAGTTCAATATTTCTTTAGCCAAGGACTCTCTG CTGGGAATTTATGGCAGAAGAAACATTCCACCTACACATACTCAGTTTGATTTTGTAAAA CTAATGGATGGCAAACAGCTGGTCAAGCAGGACTCCAAGGGCTCTGATGATACACAGCAC TCCCCTCGGAACCTGATCTTAACTTCGCTTCAGGAGACAGGTTTCATAGAGTATATGGAT CAAGGACCTTGGTATCTGGCGTTTTACAATGATGGAAAAAAGATGGAGCAAGTATTCGTG TTAACTACAGCAATTGAAATAATGGATGACTGTTCAACCAATTGCAATGGAAATGGAGAG TGTATCTCTGGCCATTGTCATTGTTTCCCAGGATTCCTTGGACCTGACTGTGCTAGAGAT TCCTGCCCTGTGCTGTGTGGTGGGAATGGAGAATACGAGAAAGGACACTGTGTCTGCCGG CATGGCTGGAAGGGGCCAGAGTGTGACGTTCCGGAAGAACAATGCATTGATCCAACATGC TTTGGCCACGGCACCTGCATCATGGGAGTCTGCATCTGTGTGCCAGGATACAAAGGAGAA ATATGCGAGGAAGAGGACTGCCTAGACCCAATGTGTTCCAACCATGGCATCTGTGTAAAA GGAGAATGTCACTGTTCTACTGGCTGGGGAGGAGTTAACTGTGAAACACCACTTCCTGTA TGTCAAGAGCAGTGCTCAGGACACGGAACTTTTCTTCTGGACGCTGGAGTATGCAGCTGT GATCCCAAGTGGACAGGATCTGACTGCTCAACAGAGCTGTGTACCATGGAGTGTGGTAGC CATGGAGTCTGCTCAAGAGGAATTTGCCAGTGTGAAGAAGGCTGGGTAGGACCAACATGT GAGGAACGCTCCTGTCATTCTCATTGTACTGAGCATGGCCAATGCAAAGATGGAAAATGT GAGTGTAGCCCTGGATGGGAGGGCGACCACTGCACAATTGCTCACTACTTAGATGCTGTC CGAGATGGCTGCCCAGGGCTCTGCTTTGGAAATGGACGATGTACCCTGGATCAAAATGGT TGGCACTGTGTGTGTCAGGTGGGTTGGAGTGGGACAGGCTGCAATGTTGTCATGGAAATG CTTTGTGGAGATAACTTGGACAATGATGGAGATGGTTTAACCGACTGTGTGGATCCTGAC TGTTGTCAACAAAGCAACTGTTATATAAGTCCTCTCTGCCAGGGCTCACCAGATCCTCTT GACCTCATTCAGCAAAGCCAAACTCTCTTCTCTCAGCACACTTCAAGACTTTTTTATGAT CGAATCAAATTCCTCATTGGCAAGGACAGTACTCATGTCATTCCTCCTGAGGTGTCATTT GACAGCAGGCGTGCCTGTGTGATTCGAGGCCAAGTGGTGGCCATAGATGGAACTCCTCTA GTGGGAGTGAATGTCAGTTTCTTGCACCACAGTGATTATGGGTTTACCATCAGCCGGCAA GATGGAAGCTTTGACCTCGTGGCCATCGGTGGCATCTCTGTCATCTTAATCTTCGACCGA TCCCCTTTCCTGCCTGAGAAGAGAACACTCTGGTTGCCTTGGAATCAGTTTATTGTGGTA GAGAAAGTCACCATGCAGAGAGTTGTATCAGACCCGCCATCCTGCGATATCTCCAACTTT ATCAGCCCAAACCCTATTGTGCTTCCTTCACCGCTCACATCATTTGGAGGGTCCTGTCCA GAGAGGGGAACTATTGTTCCTGAGCTGCAGGTTGTACAGGAGGAAATTCCCATTCCCTCC AGCTTTGTGAGGCTGAGTTACCTGAGCAGCCGCACCCCTGGGTATAAAACCCTGCTACGG ATCCTTCTGACACATTCAACGATTCCTGTAGGCATGATAAAAGTACACCTCACAGTAGCT GTGGAAGGGCGACTCACACAGAAGTGGTTTCCCGCCGCAATTAATCTTGTCTACACATTT GCTTGGAACAAGACCGACATCTATGGACAGAAGGTTTGGGGCCTGGCAGAGGCTTTGGTA TCTGTGGGATATGAATATGAAACGTGCCCTGACTTTATTCTCTGGGAGCAAAGGACAGTC GTTTTACAAGGTTTTGAGATGGATGCTTCTAACCTAGGAGGCTGGTCTTTGAATAAGCAT CACATTTTGAATCCTCAAAGTGGAATCATACATAAAGGGAATGGAGAAAATATGTTCATT TCCCAGCAGCCCCCAGTCATATCAACCATAATGGGTAATGGACACCAAAGGAGTGTAGCC TGCACCAACTGCAATGGCCCAGCCCACAACAACAAACTCTTTGCTCCTGTCGCCTTAGCT TCTGGCCCTGATGGCAGTGTGTATGTTGGCGACTTCAATTTTGTAAGGAGAATATTTCCC TCGGGAAACTCCGTTAGTATTTTGGAATTAAGAAACAGAGATACCAGACATAGCACAAGT CCTGCTCACAAATACTATCTGGCTATGGACCCTGTGTCTGAATCACTCTATCTATCAGAC ACCAATACTCGCAAAGTCTACAAGTTGAAATCTCTTGTGGAGACGAAAGATCTGTCCAAG AATTTTGAAGTGGTGGCAGGAACTGGTGATCAGTGCCTTCCCTTTGACCAGAGTCATTGT GGAGATGGTGGGAGAGCATCGGAAGCTTCACTGAATAGCCCTCGAGGCATCACAGTTGAT AGGCATGGATTTATTTACTTTGTGGATGGGACTATGATTCGCAAAATTGATGAGAATGCT GTGATCACAACTGTAATCGGCTCAAATGGTCTGACTTCCACACAACCACTGAGCTGTGAC TCAGGAATGGACATCACTCAGGTGCGATTAGAGTGGCCAACAGACCTTGCAGTAAATCCT ATGGACAATTCATTGTATGTCTTGGATAACAACATTGTGCTGCAAATTTCTGAGAACAGG CGTGTTCGGATCATCGCAGGACGCCCCATTCACTGCCAGGTGCCAGGCATCGATCATTTC CTGGTCAGCAAGGTAGCAATTCACTCCACTCTAGAGTCAGCGAGGGCCATCAGTGTCTCC CACAGCGGGCTGCTCTTCATAGCTGAAACAGACGAGAGGAAAGTAAACCGCATTCAGCAA GTAACCACCAATGGGGAGATCTACATCATCGCTGGTGCCCCCACTGACTGTGACTGCAAA ATTGATCCAAACTGTGACTGTTTTTCAGGTGATGGTGGCTATGCCAAAGATGCAAAGATG AAAGCCCCTTCCTCCTTAGCAGTGTCGCCTGATGGAACCCTCTATGTGGCAGACCTCGGA AATGTTCGAATTCGTACCATCAGCAGGAACCAAGCCCACCTGAATGACATGAACATTTAT GAGATTGCTTCACCCGCTGATCAGGAACTGTACCAGTTCACTGTAAATGGAACCCACCTA CACACCCTGAACTTGATAACAAGGGACTATGTTTATAACTTCACCTACAATTCTGAAGGT GACTTGGGCGCGATTACCAGCAGCAATGGCAATTCAGTGCACATTCGCCGTGATGCAGGC GGAATGCCGCTATGGCTTGTGGTGCCTGGCGGACAAGTATACTGGCTGACTATAAGCAGC AATGGAGTCCTGAAAAGAGTGTCAGCCCAAGGCTATAATCTGGCCTTAATGACCTATCCA GGAAACACAGGGCTTCTGGCTACCAAAAGTAACGAAAATGGATGGACAACCGTTTATGAG TATGACCCCGAGGGACACCTGACCAATGCAACGTTTCCCACTGGAGAGGTCAGCAGCTTC CACAGTGACCTGGAGAAGCTGACAAAAGTGGAGCTAGATACTTCCAACCGTGAAAATGTC CTCATGTCAACCAACTTGACGGCAACTAGTACCATATATATTTTAAAACAAGAAAATACT CAAAGTACCTATCGGGTGAATCCAGATGGTTCCCTGCGTGTCACTTTTGCCAGCGGGATG GAGATCGGCCTCAGCTCAGAGCCCCACATCCTGGCAGGGGCAGTCAACCCTACCCTGGGC AAATGCAACATCTCATTGCCCGGAGAGCACAATGCAAACCTCATCGAGTGGCGGCAGAGG AAGGAGCAAAACAAAGGCAATGTTTCGGCTTTTGAAAGGAGGCTGAGGGCCCACAACAGA AACCTACTCTCCATAGATTTTGATCATATAACCCGCACAGGAAAGATCTATGATGACCAT CGAAAATTCACCCTTCGAATTCTTTATGACCAGACTGGGCGACCCATTCTGTGGTCTCCT GTAAGCAGATATAATGAAGTGAACATCACATATTCACCTTCGGGATTGGTGACGTTTATT CAAAGAGGAACGTGGAATGAAAAAATGGAATATGACCAGAGTGGGAAAATTATTTCAAGA ACTTGGGCTGATGGGAAAATTTGGAGCTATACCTACTTAGAAAAATCTGTGATGCTTCTC CTACACAGCCAGCGGCGTTACATCTTTGAGTATGACCAACCAGATTGTCTGCTCTCAGTC ACCATGCCTAGCATGGTGCGTCACAGCTTACAAACCATGCTTTCAGTGGGCTACTACCGG AACATCTACACCCCACCGGACAGTAGCACTTCTTTTATCCAAGACTATAGTCGAGATGGC CGATTGCTACAGACCCTGCATCTGGGGACAGGGCGCAGAGTCTTATACAAGTACACCAAG CAAGCAAGGCTTTCTGAGGTTCTCTATGATACCACTCAGGTCACATTAACATATGAAGAG TCTTCTGGAGTGATTAAGACAATACACCTGATGCATGACGGATTCATCTGCACAATCAGA TACAGGCAAACAGGACCTCTTATTGGACGCCAGATTTTCAGATTCAGTGAAGAAGGCCTT GTGAATGCACGGTTCGACTACAGCTACAACAATTTCCGAGTCACAAGCATGCAAGCTGTA ATCAATGAAACCCCTTTGCCTATAGATCTTTACCGATATGTTGATGTCTCTGGCAGAACA GAGCAGTTTGGAAAATTCAGTGTAATTAATTACGATTTAAATCAGGTCATAACTACTACA GTGATGAAACACACCAAAATCTTCAGTGCCAATGGACAAGTCATTGAAGTCCAATATGAA ATCCTAAAGGCAATTGCCTACTGGATGACCATTCAATATGATAATGTGGGCCGCATGGTA ATATGTGACATAAGGGTAGGAGTAGATGCCAATATAACAAGGTACTTCTATGAATACGAT GCTGATGGGCAACTTCAGACTGTTTCTGTAAATGACAAAACCCAGTGGCGTTATAGTTAC GATCTGAATGGAAACATCAACCTCTTAAGCCATGGGAAGAGTGCTCGTCTTACTCCTCTC CGATATGACCTCCGAGACCGCATCACCAGATTAGGAGAAATTCAGTATAAAATGGATGAA GATGGCTTTCTGAGGCAGAGGGGAAATGATATTTTTGAATATAATTCTAATGGCCTGCTG CAGAAAGCCTACAATAAGGCTTCTGGCTGGACTGTGCAGTATTACTATGATGGGCTTGGG CGACGTGTCGCGAGTAAGTCCAGCCTAGGGCAGCACCTTCAGTTCTTTTATGCAGACCTT ACCAACCCCATAAGAGTTACTCATTTGTACAACCACACAAGCTCGGAGATTACATCTCTG TATTATGATCTCCAAGGTCACCTTATTGCCATGGAGTTAAGCAGTGGTGAAGAATATTAT GTAGCCTGTGATAATACAGGTACCCCACTAGCTGTGTTCAGCAGCCGAGGTCAGGTCATA AAGGAGATACTATACACACCTTATGGCGATATCTATCATGACACTTACCCTGACTTTCAG GTCATTATTGGTTTTCATGGAGGACTCTATGATTTCCTTACTAAATTAGTGCACCTGGGG CAAAGGGATTATGATGTTGTTGCTGGCAGATGGACAACGCCTAATCATCACATATGGAAA CAGTTGAACCTCCTTCCTAAACCATTCAACCTCTACTCCTTTGAAAATAACTACCCAGTT GGCAAAATTCAAGATGTTGCAAAGTATACCACAGACATCAGAAGTTGGTTGGAGCTATTT GGTTTCCAATTACACAATGTACTACCTGGATTTCCCAAACCTGAATTAGAAAATTTAGAA TTAACTTACGAGCTTCTACGGCTTCAGACAAAAACTCAAGAGTGGGATCCTGGAAAGACT ATCCTGGGCATTCAGTGTGAACTCCAGAAACAGCTCAGGAATTTCATTTCCTTGGACCAA CTACCTATGACTCCCCGATACAATGATGGACGGTGCCTTGAAGGAGGGAAGCAACCAAGG TTTGCTGCTGTCCCTTCTGTTTTTGGGAAAGGTATAAAATTTGCCATCAAGGATGGCATA GTAACAGCTGATATTATAGGAGTAGCCAATGAAGATAGCAGGCGGCTTGCTGCCATTCTC AATAATGCCCATTACCTGGAAAACCTACATTTTACCATAGAGGGGAGGGACACTCACTAC TTCATTAAGCTTGGGTCTCTGGAGGAAGACCTGGTGCTCATCGGTAACACTGGGGGGAGG CGGATTCTGGAGAATGGTGTCAATGTCACTGTGTCCCAGATGACTTCTGTGTTGAATGGG AGGACTAGACGGTTTGCAGATATTCAGCTCCAGCATGGAGCCCTGTGCTTCAACATCCGG TATGGGACAACTGTCGAAGAGGAAAAGAATCACGTGTTGGAGATTGCCAGACAGCGCGCA GTGGCCCAGGCCTGGACTAAGGAACAAAGAAGGCTGCAAGAGGGGGAAGAGGGGATTAGG GCATGGACAGAAGGGGAAAAGCAGCAGCTTTTGAGCACTGGGCGGGTACAAGGTTACGAT GGGTATTTTGTTTTGTCTGTTGAGCAGTATTTAGAACTTTCTGACAGTGCCAATAATATT CACTTTATGAGACAGAGCGAAATAGGCAGGAGG |
| Restriction Sites | Please inquire |
| ACCN | NM_001163279 |
| 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. |
| 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_001163279.1, NP_001156751.1 |
| RefSeq Size | 12904 bp |
| RefSeq ORF | 8196 bp |
| Locus ID | 10178 |
| UniProt ID | Q9UKZ4 |
| Protein Families | Druggable Genome, Transmembrane |
| Gene Summary | The protein encoded by this gene belongs to the tenascin family and teneurin subfamily. It is expressed in the neurons and may function as a cellular signal transducer. Several alternatively spliced transcript variants encoding different isoforms have been found for this gene. [provided by RefSeq, Sep 2009] Transcript Variant: This variant (2) uses an alternate in-frame acceptor splice site at one of the coding exons compared to variant 1. This results in an isoform (2) that is 1 aa shorter than 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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