Talin 2 (TLN2) (NM_015059) Human Untagged Clone
CNY 49,020.00
货期*
4周
规格
Product images
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经常一起买 (4)
Specifications
Product Data | |
Type | Human Untagged Clone |
Tag | Tag Free |
Synonyms | ILWEQ |
Vector | pCMV6-Entry |
E. coli Selection | Kanamycin (25 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>SC304216 representing NM_015059.
Blue=Insert sequence Red=Cloning site Green=Tag(s) GCTCGTTTAGTGAACCGTCAGAATTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTG GATCCGGTACCGAGGAGATCTGCCGCCGCGATCGCC ATGGTGGCCCTGTCCTTAAAGATTTGTGTGCGCCACTGCAACGTGGTGAAGACCATGCAGTTTGAACCA TCTACAGCTGTGTACGATGCGTGTCGAGTCATTCGGGAACGGGTGCCTGAGGCACAAACTGGGCAAGCT TCTGACTATGGACTCTTTCTTTCGGATGAAGACCCGAGGAAAGGGATTTGGCTGGAAGCGGGCAGAACA CTGGATTACTACATGTTGCGGAATGGGGATATTTTGGAATATAAAAAGAAACAGAGACCTCAGAAAATC CGGATGCTGGATGGATCTGTGAAGACAGTGATGGTGGATGATTCCAAGACTGTGGGGGAGCTCCTGGTC ACTATTTGTAGCAGAATAGGAATAACAAATTATGAAGAATACTCCTTAATCCAAGAAACTATTGAAGAA AAGAAAGAGGAAGGAACGGGCACACTCAAAAAAGACAGGACACTGTTACGAGATGAGAGGAAAATGGAG AAGTTGAAGGCCAAGCTGCACACAGATGATGACCTAAATTGGCTGGATCACAGCCGAACATTCAGAGAA CAAGGAGTAGATGAAAACGAAACGTTGCTGCTTAGACGGAAGTTCTTTTACTCTGATCAGAATGTAGAT TCGAGAGACCCCGTGCAGCTGAACTTGCTTTATGTTCAGGCACGGGATGACATCCTGAATGGCTCTCAC CCTGTCTCCTTCGAGAAAGCTTGTGAGTTTGGTGGATTTCAAGCCCAGATACAATTTGGACCTCATGTG GAACATAAACACAAACCTGGATTTTTAGATCTGAAGGAATTCCTGCCCAAAGAATATATCAAGCAGAGA GGAGCTGAAAAGAGGATCTTTCAGGAGCATAAGAACTGCGGAGAGATGAGTGAGATAGAAGCCAAGGTC AAGTACGTCAAACTCGCACGGTCCCTCCGCACATATGGCGTGTCCTTCTTCCTGGTGAAGGAGAAGATG AAAGGCAAGAACAAGCTGGTGCCTCGCCTGCTGGGGATCACCAAAGACTCGGTGATGCGCGTGGATGAG AAGACCAAGGAAGTGCTGCAGGAGTGGCCCCTCACCACCGTCAAGCGCTGGGCAGCCTCACCCAAGAGC TTCACACTGGATTTTGGGGAGTATCAGGAAAGCTACTATTCAGTACAAACCACCGAGGGAGAGCAGATA TCCCAGCTGATTGCAGGCTACATTGACATCATCCTGAAAAAGAAACAAAGTAAAGATCGATTTGGACTA GAAGGTGATGAGGAGTCAACCATGTTAGAAGAGTCCGTTTCCCCAAAAAAGTCCACCATCTTGCAGCAG CAGTTCAACCGGACCGGGAAGGCAGAGCACGGCTCAGTGGCGCTGCCGGCCGTGATGCGCTCGGGCTCC AGCGGGCCTGAGACCTTCAACGTTGGCAGCATGCCCTCGCCACAGCAGCAGGTCATGGTTGGGCAGATG CACCGAGGCCACATGCCGCCACTGACCTCAGCCCAGCAGGCCCTGATGGGGACCATCAACACAAGCATG CACGCCGTCCAGCAGGCCCAGGATGATCTCAGTGAGCTCGACTCGCTGCCACCTCTCGGCCAGGATATG GCATCTAGGGTATGGGTTCAGAACAAAGTCGACGAATCCAAACACGAAATCCATTCTCAAGTTGATGCT ATCACGGCCGGAACGGCTTCAGTTGTTAACCTCACAGCTGGTGACCCTGCAGACACTGACTACACAGCT GTGGGATGTGCGATCACCACTATTTCTTCCAACCTGACGGAGATGTCCAAGGGTGTGAAGCTATTGGCC GCCCTCATGGATGATGAGGTGGGCAGCGGGGAGGACTTGCTCAGAGCTGCCAGGACCCTCGCTGGGGCG GTGTCAGACTTGCTGAAAGCTGTGCAGCCTACTTCTGGAGAGCCTCGACAGACAGTTTTGACTGCTGCT GGCAGCATCGGACAAGCCAGTGGGGATCTTCTGAGACAGATTGGAGAGAATGAGACTGATGAGCGATTC CAGGATGTTTTAATGAGTTTGGCCAAAGCTGTTGCCAATGCAGCTGCCATGTTGGTACTAAAGGCAAAG AATGTTGCCCAAGTGGCCGAAGACACTGTCCTACAGAACAGGGTAATTGCTGCTGCCACCCAGTGTGCC CTCTCCACCTCCCAGCTTGTGGCATGTGCCAAGGTTGTGAGCCCCACTATTAGCTCCCCTGTGTGCCAG GAGCAGCTGATTGAAGCAGGGAAGCTGGTGGACCGCTCGGTGGAGAACTGTGTCCGTGCCTGCCAGGCG GCCACTACCGATAGTGAGCTCCTGAAGCAGGTCAGCGCAGCGGCCAGCGTGGTCAGCCAGGCCCTCCAT GATCTCCTGCAGCATGTGCGGCAGTTTGCCAGCCGAGGCGAGCCCATCGGCCGCTACGACCAGGCTACT GACACCATCATGTGTGTCACCGAGAGCATCTTCAGCTCCATGGGTGACGCTGGTGAAATGGTGCGCCAG GCGCGGGTTCTGGCCCAAGCCACATCAGACCTCGTCAATGCCATGAGGTCAGATGCAGAAGCCGAAATC GACATGGAGAATTCAAAGAAGCTCCTGGCAGCAGCAAAACTCTTAGCTGACTCCACTGCTCGCATGGTG GAAGCTGCAAAGGGGGCTGCAGCCAACCCAGAGAATGAGGACCAGCAGCAAAGGCTGAGAGAAGCTGCA GAAGGCCTCCGGGTAGCAACCAACGCAGCTGCCCAGAATGCTATTAAGAAAAAAATTGTCAACCGACTG GAGGTTGCAGCCAAGCAGGCCGCAGCGGCAGCCACACAGACCATCGCCGCCTCCCAGAATGCAGCTGTT TCCAACAAGAACCCTGCGGCCCAGCAGCAGCTGGTCCAGAGTTGCAAGGCAGTGGCTGATCACATCCCT CAGCTGGTCCAGGGAGTGAGGGGGAGCCAAGCTCAAGCTGAAGACCTGAGTGCCCAGCTGGCTCTCATC ATCTCCAGCCAGAACTTCCTCCAGCCTGGAAGCAAGATGGTGTCCTCTGCCAAAGCCGCAGTGCCCACC GTGAGTGACCAGGCCGCAGCCATGCAGCTGAGCCAGTGTGCCAAGAACCTGGCCACCAGCTTGGCGGAG CTGCGTACCGCCTCGCAGAAGGCCCATGAAGCTTGTGGTCCGATGGAAATCGATTCAGCTCTGAATACG GTGCAGACGCTTAAGAATGAACTGCAGGATGCCAAGATGGCAGCCGTGGAGAGCCAGCTGAAGCCACTT CCAGGGGAAACGCTGGAAAAATGTGCTCAGGACCTGGGAAGCACATCCAAGGCGGTGGGCTCCTCCATG GCACAGCTGCTGACCTGTGCTGCTCAAGGCAACGAACACTACACAGGGGTGGCTGCTAGAGAGACGGCC CAAGCTCTGAAAACACTGGCCCAGGCCGCCCGTGGAGTGGCTGCATCGACAACCGACCCCGCGGCCGCC CATGCCATGTTAGATTCTGCTCGAGACGTGATGGAGGGCTCCGCCATGCTCATTCAAGAGGCCAAGCAG GCCCTGATTGCACCTGGAGATGCAGAGCGTCAACAAAGACTGGCTCAGGTGGCTAAAGCCGTCTCACAC TCCTTGAATAACTGCGTAAATTGCCTCCCTGGGCAGAAGGATGTGGACGTGGCCTTGAAGAGCATCGGG GAGTCCAGCAAGAAGCTGCTTGTGGATTCGCTACCTCCAAGCACGAAGCCTTTCCAGGAAGCCCAGAGT GAACTGAACCAGGCAGCAGCTGATCTGAACCAGTCTGCTGGGGAAGTGGTCCATGCCACCCGGGGCCAG AGTGGAGAGTTGGCTGCAGCCTCTGGAAAGTTCAGTGATGATTTTGATGAATTCCTCGATGCTGGCATT GAGATGGCTGGCCAAGCTCAGACAAAAGAAGACCAGATCCAAGTGATAGGGAACCTCAAGAATATCTCG ATGGCATCCAGCAAGCTGCTGTTAGCTGCCAAGTCTCTCTCTGTAGATCCAGGAGCTCCCAATGCGAAA AATCTCCTGGCTGCAGCTGCAAGAGCTGTGACAGAGAGCATCAATCAACTCATCACTCTGTGTACCCAA CAAGCTCCGGGCCAGAAAGAGTGCGATAATGCCCTGCGGGAGCTCGAGACTGTGAAGGGGATGTTGGAC AATCCTAATGAACCTGTTAGTGACCTCTCTTACTTTGACTGCATTGAGAGTGTGATGGAAAACTCCAAG GTTCTGGGTGAATCGATGGCAGGGATTTCACAGAATGCCAAGACCGGAGACCTCCCTGCCTTTGGGGAA TGTGTGGGGATTGCATCCAAGGCTCTCTGTGGGCTGACAGAGGCTGCAGCCCAGGCTGCATACTTGGTT GGCATCTCTGATCCAAACAGCCAGGCAGGCCACCAGGGCCTGGTGGACCCCATCCAGTTTGCCAGGGCT AACCAGGCCATCCAGATGGCATGCCAGAACTTGGTGGACCCTGGCAGCAGCCCATCACAGGTCCTGTCA GCCGCCACAATTGTTGCCAAGCACACGTCAGCCTTGTGCAATGCCTGCCGCATCGCCTCATCCAAGACG GCCAACCCAGTAGCCAAGAGGCACTTCGTCCAGTCAGCCAAGGAAGTCGCCAACAGCACTGCCAACCTG GTGAAGACCATCAAGGCCCTGGATGGGGATTTCTCTGAAGACAACCGCAATAAGTGTCGCATCGCCACC GCACCCTTGATTGAAGCTGTGGAGAACCTGACAGCGTTCGCCTCAAACCCTGAGTTTGTCAGCATTCCT GCCCAGATCAGCTCCGAGGGTTCCCAGGCACAGGAACCAATCCTGGTCTCAGCCAAGACCATGCTGGAG AGTTCATCGTACCTCATTCGCACTGCACGCTCTCTGGCCATCAACCCCAAAGACCCACCCACCTGGTCT GTACTGGCTGGACATTCCCATACAGTGTCCGACTCCATCAAGAGTCTCATCACTTCTATCAGGGACAAG GCCCCTGGACAGAGGGAGTGTGATTACTCCATCGATGGCATCAACCGGTGCATCCGGGACATCGAGCAG GCCTCGCTGGCCGCCGTCAGCCAGAGCCTGGCCACGAGGGACGACATCTCTGTGGAGGCCCTGCAGGAG CAGCTGACTTCGGTGGTCCAGGAAATCGGACACCTTATCGATCCCATCGCCACAGCGGCTCGGGGAGAA GCAGCTCAGCTGGGACATAAGGTGACACAACTGGCAAGCTATTTTGAGCCCTTGATCTTAGCCGCAGTT GGTGTGGCCTCCAAGATTCTTGATCATCAGCAGCAGATGACGGTGCTGGACCAGACCAAGACTCTCGCA GAGTCTGCCTTGCAGATGTTGTATGCAGCCAAAGAAGGTGGCGGAAACCCCAAGGCACAACACACCCAT GACGCCATCACAGAGGCCGCCCAGTTGATGAAGGAAGCCGTGGATGACATCATGGTGACGCTGAACGAA GCTGCCAGTGAAGTGGGGCTGGTTGGGGGCATGGTGGACGCCATTGCAGAAGCCATGAGCAAGCTGGAT GAAGGCACTCCTCCAGAACCAAAGGGAACATTTGTCGACTATCAGACGACTGTGGTTAAATACTCCAAA GCCATTGCGGTGACAGCTCAGGAAATGATGACTAAGTCGGTTACTAACCCGGAGGAGTTGGGAGGACTG GCTTCACAAATGACCAGTGACTATGGGCACCTGGCTTTCCAGGGCCAGATGGCAGCAGCCACGGCGGAA CCAGAGGAGATCGGATTCCAGATTCGCACTCGTGTGCAGGACCTGGGCCACGGCTGTATCTTCCTGGTG CAGAAGGCAGGGGCCCTCCAGGTCTGCCCCACAGACAGCTACACCAAGAGGGAGCTGATCGAATGCGCC CGTGCCGTCACGGAAAAGGTCTCCTTGGTGCTCTCGGCTCTCCAGGCCGGGAACAAAGGAACCCAGGCA TGCATTACAGCCGCCACCGCTGTGTCTGGGATCATTGCCGACCTGGACACCACCATTATGTTTGCAACA GCGGGGACGCTGAATGCAGAGAACAGTGAGACCTTCGCAGACCACAGGGAGAACATTCTCAAGACGGCC AAGGCCTTGGTAGAAGACACGAAACTACTTGTGTCAGGAGCTGCGTCCACTCCTGACAAGCTGGCCCAG GCGGCCCAGTCCTCAGCAGCCACCATCACCCAGCTCGCAGAAGTGGTCAAGCTGGGGGCAGCCAGCCTG GGCTCCGACGACCCCGAGACCCAGGTGGTTTTGATCAATGCCATCAAAGATGTGGCCAAGGCCCTTTCT GATCTCATCAGTGCTACCAAGGGAGCTGCCAGCAAGCCAGTGGACGACCCTTCCATGTACCAGCTCAAG GGGGCTGCCAAGGTGATGGTGACCAATGTCACCTCGCTCCTCAAGACTGTAAAGGCAGTGGAGGATGAG GCCACCCGGGGCACCAGGGCGCTTGAGGCCACAATTGAATGCATAAAGCAGGAGCTTACGGTGTTCCAG TCAAAAGACGTACCTGAAAAGACATCATCACCTGAAGAATCCATAAGGATGACGAAAGGCATCACCATG GCAACAGCCAAAGCCGTGGCAGCTGGGAACTCATGTAGACAGGAGGACGTGATTGCTACTGCCAACCTG AGCCGGAAAGCCGTGTCAGATATGTTGACGGCTTGCAAGCAAGCATCCTTCCACCCCGATGTCAGTGAC GAGGTGAGAACCAGAGCCTTGCGTTTCGGGACGGAGTGCACCCTTGGCTACTTGGACCTCCTGGAGCAC GTCTTGGTGATTCTTCAGAAACCAACCCCAGAATTCAAGCAGCAGCTGGCCGCTTTCTCCAAGCGAGTC GCCGGCGCTGTGACAGAGCTCATCCAGGCGGCGGAAGCCATGAAAGGAACAGAGTGGGTGGATCCAGAA GACCCAACTGTCATTGCAGAAACAGAGTTACTGGGGGCTGCAGCATCCATCGAAGCTGCTGCTAAGAAG TTAGAGCAACTGAAGCCAAGAGCAAAACCAAAACAAGCGGATGAGACCCTGGACTTTGAGGAACAGATC TTGGAAGCTGCTAAATCCATTGCTGCTGCCACAAGCGCCCTGGTCAAATCGGCCTCAGCAGCCCAGAGG GAGCTGGTGGCCCAAGGAAAGGTGGGCTCCATCCCTGCCAATGCTGCAGACGACGGACAGTGGTCACAG GGGCTGATTTCTGCTGCCCGGATGGTGGCGGCTGCGACCAGCAGTCTCTGTGAGGCGGCCAATGCCTCC GTTCAGGGACACGCCAGCGAGGAGAAGCTCATCTCATCTGCCAAGCAGGTCGCCGCTTCCACGGCTCAG CTGCTGGTGGCCTGCAAGGTGAAGGCCGACCAGGATTCAGAGGCCATGAGGCGGCTACAGGCGGCAGGA AATGCTGTGAAAAGAGCCTCAGACAATCTTGTCCGTGCAGCCCAGAAGGCAGCTTTTGGCAAAGCTGAT GACGACGATGTTGTAGTGAAAACCAAGTTTGTGGGGGGCATTGCTCAGATCATCGCCGCCCAGGAAGAA ATGCTAAAGAAAGAGCGAGAACTGGAAGAAGCAAGGAAAAAACTGGCCCAAATCCGCCAGCAGCAGTAT AAGTTTTTACCCACCGAGCTGAGGGAAGATGAGGGCTAA ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGAT TACAAGGATGACGACGATAAGGTTTAAACGGCCGGC |
Restriction Sites | SgfI-MluI |
ACCN | NM_015059 |
Insert Size | 7629 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. |
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_015059.2 |
RefSeq Size | 11650 bp |
RefSeq ORF | 7629 bp |
Locus ID | 83660 |
UniProt ID | Q9Y4G6 |
Protein Families | Druggable Genome |
Protein Pathways | Focal adhesion |
MW | 271.6 kDa |
Gene Summary | This gene encodes a protein related to talin 1, a cytoskeletal protein that plays a significant role in the assembly of actin filaments and in spreading and migration of various cell types, including fibroblasts and osteoclasts. This protein has a different pattern of expression compared to talin 1 but, like talin 1, is thought to associate with unique transmembrane receptors to form novel linkages between extracellular matrices and the actin cytoskeleton. [provided by RefSeq, Jul 2008] |
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