Tln2 (NM_001081242) Mouse Untagged Clone
CAT#: MC225351
Tln2 (untagged) - Mouse talin 2 (Tln2), (10ug)
CNY 40,660.00
货期*
12周
规格
Product images
经常一起买 (3)
Specifications
Product Data | |
Type | Mouse Untagged Clone |
Tag | Tag Free |
Synonyms | 5730421P04Rik; AI507121; AI787438; AL118320; mKIAA0320 |
Vector | pCMV6-Entry |
E. coli Selection | Kanamycin (25 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>MC225351 representing NM_001081242
Red=Cloning site Blue=ORF Orange=Stop codon TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGGTGGCCCTATCCTTAAAGATCTGTGTCCGCCACTGCAATGTGGTGAAGACCATGCAGTTTGAGCCAT CTACAGCTGTGTATGACGCTTGTCGAGTCATTAGGGAGAGAGTACCTGAGGCACAGACTGGGCAAGCTTC TGACTATGGGCTGTTTCTCTCCGATGAAGACCCAAGGAAAGGGATTTGGCTAGAAGCAGGTCGGACACTG GATTACTACATGTTGCGGAATGGGGACATTCTGGAGTACAAGAAGAAACAGAGGCCTCAGAAAATCCGAA TGTTGGATGGCTCTGTGAAGACGGTGATGGTAGATGACTCCAAGACGGTGGGGGAGCTCCTGGTCACGAT CTGCAGCAGGATAGGAATAACAAATTATGAAGAATACTCTTTAATCCAAGAAACCATTGAAGAAAAGAAA GAAGAAGGGACAGGCACACTAAAAAAAGATAGGACGTTGTTACGAGATGAGAGGAAGATGGAGAAGCTGA AGGCCAAACTGCACACAGATGATGACTTAAATTGGCTAGATCACAGCCGGACATTCAGAGAGCAAGGCGT GGATGAAAATGAAACATTGTTGCTCCGACGGAAGTTCTTTTACTCTGATCAGAATGTGGACTCGAGAGAC CCGGTGCAGTTGAACTTGCTTTATGTCCAGGCTCGGGATGACATCCTGAATGGCTCTCACCCTGTCTCCT TCGAGAAGGCCTGTGAGTTTGGTGGGTTCCAAGCCCAGATACAGTTTGGACCTCACGTGGAACACAAACA CAAGCCTGGATTCTTAGATCTAAAGGAGTTCCTGCCAAAAGAGTACATCAAGCAGAGAGGAGCCGAGAAG CGAATATTTCAGGAACATAAAAACTGTGGAGAGATGAGTGAAATAGAAGCCAAGGTGAAGTACGTCAAAC TCGCCCGGTCCCTCCGGACATATGGGGTGTCCTTTTTCCTAGTGAAGGAAAAAATGAAAGGCAAGAACAA GTTGGTTCCCCGTCTCCTGGGCATCACCAAGGACTCCGTCATGCGTGTGGATGAGAAGACCAAGGAGGTG CTTCAGGAGTGGCCTCTCACCACGGTCAAGCGCTGGGCCGCTTCACCCAAGAGCTTCACACTGGATTTTG GGGAGTACCAAGAGAGCTACTATTCAGTACAAACCACAGAGGGGGAGCAAATATCCCAGCTGATTGCAGG ATACATTGATATCATCCTCAAAAAGAAACAAAGCAAAGATAGATTTGGCCTGGAAGGGGATGAGGAGTCA ACTATGTTGGAAGAATCAGTTTCCCCAAAAAAATCTACCATCCTGCAGCAGCAGTTCAACCGGACTGGGA AAGCAGAGCATGGTTCGGTAGCACTGCCAGCTGTCATGCGCTCTGGCTCCAGTGGGCCTGAGACGTTCAA TGTTGGCAGCATGCCGTCACCACAGCAGCAGGTCATGGTCGGACAGATGCACCGAGGACACATGCCTCCG CTGACGTCGGCACAGCAAGCCCTTATGGGGACCATCAACACAAGCATGCACGCTGTCCAGCAGGCTCAGG ATGACCTCAGCGAGCTCGACTCGCTGCCACCCCTCGGCCAAGATATGGCATCTAGGGTATGGGTTCAGAA CAAAGTGGATGAATCCAAGCATGAAATCCACTCTCAAGTCGATGCTATCACAGCTGGGACAGCTTCAGTT GTCAACCTCACAGCTGGTGACCCTGCAGACACTGACTACACAGCCGTGGGCTGTGCAATCACTACCATTT CTTCCAACCTGACCGAAATGTCCAAGGGGGTCAAGCTGCTGGCAGCCCTCATGGACGATGACGTGGGCAG TGGGGAGGATCTTCTCAGAGCTGCCAGGACCCTCGCCGGGGCTGTGTCTGATTTGCTGAAGGCTGTGCAG CCTACTTCAGGAGAGCCTCGACAGACTGTTTTGACTGCTGCCGGAAGCATCGGCCAAGCCAGTGGAGATC TCCTCAGACAGATTGGAGAGAACGAGACGGATGAGAGATTCCAAGATGTTTTAATGAGTCTAGCTAAGGC TGTTGCCAATGCTGCTGCCATGTTAGTACTGAAGGCGAAGAATGTGGCCCAGGTGGCTGAAGACACCGTC CTACAGAACAGGGTGATCGCCGCAGCCACCCAGTGTGCCCTCTCTACCTCGCAGCTTGTGGCGTGTGCTA AGGTGGTGAGCCCCACCATCAGCTCTCCCGTGTGCCAGGAGCAGCTGATCGAAGCTGGGAAGCTGGTGGA CCGCTCTGTGGAAAACTGTGTCCGAGCCTGCCAGGCGGCCACCAGTGATAGCGAGCTCCTGAAGCAGGTC AGCGCGGCGGCCAGTGTGGTCAGCCAGGCCCTGCACGACCTCCTGCAGCATGTGCGGCAGTTCGCCAGCC GAGGCGAGCCCATTGGCCGCTATGACCAGGCCACCGACACCATCATGTGTGTCACTGAGAGCATCTTCAG TTCCATGGGCGATGCTGGTGAGATGGTGCGCCAAGCCCGGGTGCTAGCCCAGGCCACATCAGATCTCGTC AATGCCATGAGGTCAGATGCGGAGGCTGAGATTGACATGGAGAATTCCAAGAAGCTCCTGGCGGCCGCAA AGCTCTTGGCTGACTCCACTGCCCGCATGGTGGAAGCTGCGAAGGGGGCTGCAGCCAACCCAGAGAATGA AGACCAGCAGCAGAGGCTGAGAGAAGCTGCCGAGGGTCTCCGAGTAGCAACCAATGCCGCTGCGCAGAAT GCTATTAAGAAAAAAATCGTCAACCGGCTGGAGGTTGCAGCCAAGCAGGCTGCAGCTGCTGCCACACAGA CCATCGCAGCCTCCCAGAATGCAGCCATCTCCAACAAGAACCCCTCAGCCCAGCAACAACTGGTCCAGAG CTGCAAGGCGGTGGCTGATCACATCCCTCAGCTAGTGCAGGGCGTGAGAGGGAGCCAAGCACAAGCAGAA GACCTCAGTGCCCAGCTGGCTCTCATCATCTCCAGCCAGAACTTCCTGCAGCCTGGAAGCAAGATGGTGT CCTCTGCTAAGGCGGCGGTGCCCACTGTGAGTGACCAGGCTGCAGCCATGCAGTTGAGTCAGTGTGCCAA GAACCTGGCAACCAGCCTGGCCGAGCTGCGCACAGCCTCGCAGAAGGCCCACGAAGCCTGTGGCCCCATG GAAATAGATTCTGCACTGAACACTGTGCAGACTCTCAAGAATGAGCTGCAGGACGCCAAGATGGCCGCTG CAGAAAGTCAACTGAAACCACTTCCAGGAGAAACGCTGGAAAAGTGTGCTCAGGACCTGGGAAGCACCTC TAAGGGAGTGGGCTCCTCCATGGCACAGCTCCTGACCTGTGCTGCTCAAGGCAATGAGCATTACACAGGC GTGGCAGCAAGAGAAACAGCCCAGGCCCTGAAAACACTGGCCCAGGCTGCCCGGGGAGTGGCGGCATCCA CAAATGATCCTGAGGCTGCTCATGCCATGTTAGACTCTGCTCGGGATGTGATGGAGGGCTCTGCCATGCT CATCCAGGAAGCCAAGCAGGCACTAATTGCACCTGGAGACACAGAGAGTCAGCAGAGATTAGCCCAGGTG GCCAAAGCTGTGTCTCACTCACTGAATAACTGCGTGAATTGCCTTCCTGGACAGAAGGATGTGGATGTCG CCTTGAAGAGCATCGGGGAGGCCAGCAAGAAGCTACTTGTAGATTCGCTACCTCCAAGCACAAAGCCCTT CCAGGAGGCCCAGAGTGAGCTGAACCAGGCTGCTGCTGATCTGAACCAATCTGCTGGGGAAGTCGTCCAT GCCACAAGGGGCCAGAGTGGAGAGCTGGCAGCCGCTTCTGGAAAATTCAGTGATGACTTTGACGAGTTCC TGGATGCCGGCATTGAGATGGCTGGCCAGGCACAGACAAAAGAAGACCAGATGCAAGTGATAGGGAACCT GAAGAATATCTCGATGGCGTCCAGCAAGCTCCTGCTGGCCGCCAAGTCTCTCTCTGTAGATCCTGGAGCT CCCAACGCAAAAAATCTCCTGGCTGCAGCTGCAAGAGCTGTGACAGAGAGCATCAATCAGCTCATCATGC TGTGTACTCAGCAGGCCCCTGGGCAGAAGGAGTGTGACAACGCCCTGCGTGAGCTCGAGACTGTCAAGGG GATGTTGGAAAACCCGAATGAGCCTGTGAGCGACCTCTCTTATTTTGACTGCATTGAGAGTGTGATGGAG AACTCCAAGGTTCTGGGCGAGTCAATGGCAGGGATTTCACAGAATGCCAAGACTGGAGACCTCCCTGCCT TCGGAGAATGTGTGGGGATTGCATCTAAGGCTCTCTGTGGGCTGACAGAGGCAGCAGCCCAGGCTGCGTA TCTGGTTGGCATCTCTGATCCGAACAGCCAGGCAGGTCACCAAGGCCTGGTGGACCCCATCCAGTTTGCC AGGGCTAACCAGGCGATCCAGATGGCATGTCAGAACTTGGTGGACCCTGGCAGCAGCCCATCACAGGTTC TGTCGGCTGCCACTATTGTTGCCAAGCACACATCAGCCTTATGCAATGCCTGCCGCATCGCCTCATCCAA GACGGCCAACCCTGTTGCCAAGCGGCACTTTGTCCAGTCAGCCAAGGAGGTTGCCAACAGCACCGCCAAC CTGGTCAAGACCATCAAGGCCCTGGATGGGGATTTCTCTGAAGACAATCGCAATAAGTGTCGAATTGCTA CCACGCCCTTGATCGAGGCGGTGGAGAACCTAACAGCGTTTGCATCAAACCCCGAGTTTGCCAGCATTCC TGCACAGATCAGCTCTGAGGGCTCCCAGGCGCAGGAACCAATCTTGGTCTCAGCCAAGACCATGCTGGAG AGCTCATCGTACCTCATCCGCACCGCGCGCTCTCTGGCCATCAACCCCAAAGATCCGCCCACCTGGTCCG TGTTGGCTGGACACTCCCACACTGTGTCTGACTCCATTAAGAGTCTCATCACGTCTATCAGGGACAAAGC CCCAGGGCAGAGGGAATGTGACTACTCCATTGATGGCATCAACCGGTGCATCAGGGACATCGAGCAGGCC TCCCTGGCCGCGGTCAGCCAGAGCCTGGCCACGAGGGATGACATCTCTGTGGAGGCCCTACAGGAGCAGC TGACCTCAGTGGTCCAAGAAATCGGACATCTTATTGATCCCATTGCCACAGCTGCCCGAGGAGAAGCTGC CCAACTTGGACATAAGGTGACACAGCTGGCGAGCTACTTTGAGCCCTTGATCTTAGCTGCAGTTGGTGTC GCCTCCAAGATGCTGGACCATCAACAACAGATGACAGTGCTGGACCAGACCAAGACTCTTGCAGAGTCTG CCCTGCAGATGCTGTATGCAGCCAAGGAAGGTGGAGGTAACCCCAAGGCACAGCACACCCACGACGCCAT CACAGAGGCTGCGCAGCTGATGAAGGAAGCTGTGGATGACATCATGGTGACACTGAATGAAGCAGCCAGT GAGGTGGGACTGGTGGGAGGCATGGTGGACGCCATCGCAGAGGCTATGAGCAAGCTGGATGAAGGCACAC CTCCAGAACCAAAGGGAACGTTTGTTGACTACCAGACGACTGTGGTTAAATACTCCAAAGCCATTGCCGT CACAGCTCAGGAAATGATGACTAAGTCGGTTACTAACCCGGAGGAGTTGGGAGGCCTGGCTTCACAAATG ACCACTGACTATGGGCACCTGGCTCTCCAGGGCCAGATGGCAGCAGCCACCGCCGAACCAGAGGAGATTG GATTCCAGATTCGCACACGTGTGCAGGACCTTGGCCATGGCTGTATCTTCCTGGTGCAAAAGGCAGGAGC CCTCCAGGTGTGCCCCACAGACAGCTACACCAAGAGGGAGCTGATCGAGTGTGCCCGCTCTGTCACTGAG AAGGTGTCCTTGGTGCTGTCTGCTCTCCAGGCTGGAAACAAGGGGACCCAGGCATGCATCACGGCCGCAA CTGCAGTTTCTGGGATCATTGCCGATCTGGACACCACCATTATGTTTGCAACAGCTGGCACACTGAATGC AGAGAACGGCGAGACCTTTGCCGATCACAGGGAGAACATTCTGAAGACAGCCAAGGCCTTGGTGGAAGAC ACAAAGCTCCTCGTGTCTGGGGCTGCATCCACTCCAGACAAGCTGGCCCAGGCCGCTCAGTCCTCAGCAG CCACCATCACCCAGCTGGCAGAGGTGGTCAAGCTGGGGGCCGCCAGCCTGGGCTCCAATGACCCTGAGAC CCAGGTGGTACTGATAAATGCCATCAAAGACGTGGCCAAGGCCCTTTCCGATCTCATTGGTGCTACCAAG GGAGCTGCCAGCAAGCCGGCTGACGACCCCTCCATGTACCAGCTCAAAGGAGCCGCCAAGGTGATGGTGA CCAATGTCACCTCCCTTCTTAAGACTGTGAAGGCAGTGGAAGACGAGGCCACCCGGGGCACAAGGGCACT TGAGGCCACCATCGAGTACATAAAACAGGAGCTCACAGTGTTCCAGTCAAAAGACATACCTGAAAAGACA TCATCACCCGAGGAATCAATAAGAATGACGAAAGGTATCACCATGGCAACAGCGAAAGCCGTGGCAGCTG GGAACTCATGTAGACAAGAGGATGTAATTGCAACCGCCAATCTGAGCAGGAAGGCTGTCTCAGATATGTT GATAGCTTGCAAGCAAGCATCCTTCTACCCTGATGTCAGTGAAGAGGTGCGAACCAGAGCCTTGCGGTAT GGCACAGAATGCACCTTGGGCTACCTGGACCTACTAGAACACGTCTTGGTGATCCTTCAAAAGCCAACCC CGGAACTCAAGCATCAGCTGGCTGCTTTCTCCAAGAGAGTTGCTGGAGCTGTGACGGAGCTCATCCAGGC AGCGGAAGCCATGAAAGGAACAGAGTGGGTGGATCCAGAAGACCCAACCGTCATTGCAGAAACTGAGTTA CTGGGAGCTGCAGCATCCATTGAAGCCGCTGCCAAGAAGTTAGAGCAGCTGAAGCCAAGAGCAAAGCCAA AGCAAGCAGACGAGACCCTGGATTTTGAAGAACAGATCTTAGAAGCTGCTAAATCCATTGCTGCTGCCAC AAGTGCCCTGGTCAAATCGGCCTCAGCAGCCCAGAGGGAGCTGGTAGCCCAAGGCAAGGTGGGCTCCATC CCTGCCAATGCTGCCGATGATGGACAGTGGTCCCAGGGGCTGATCTCTGCCGCCCGGATGGTGGCGGCAG CAACCAGCAGTCTCTGTGAGGCAGCCAATGCCTCTGTGCAGGGACATGCCAGTGAGGAAAAGCTCATCTC ATCCGCCAAGCAGGTCGCAGCTTCAACCGCTCAGCTGCTGGTGGCCTGCAAGGTGAAGGCCGACCAGGAT TCAGAGGCCATGAAGCGGCTACAGGCGGCAGGAAATGCTGTGAAAAGAGCCTCAGACAATCTTGTTCGTG CAGCCCAGAAGGCAGCATTTGGCAAAGCTGATGATGACGATGTTGTGGTGAAAACCAAGTTCGTGGGAGG CATTGCTCAGATCATTGCAGCCCAGGAGGAAATGCTGAAGAAAGAACGAGAGCTGGAGGAAGCCAGGAAG AAGCTGGCCCAGATCCGCCAGCAGCAGTACAAATTCCTCCCCACAGAGCTGAGGGAAGATGAGGGCTAA ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT ACAAGGATGACGACGATAAGGTTTAA |
Restriction Sites | SgfI-MluI |
ACCN | NM_001081242 |
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). |
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_001081242.2, NP_001074711.2 |
RefSeq Size | 12150 bp |
RefSeq ORF | 7629 bp |
Locus ID | 70549 |
UniProt ID | Q71LX4 |
Gene Summary | As a major component of focal adhesion plaques that links integrin to the actin cytoskeleton, may play an important role in cell adhesion. Recruits PIP5K1C to focal adhesion plaques and strongly activates its kinase activity (By similarity).[UniProtKB/Swiss-Prot Function] |
Documents
Product Manuals |
FAQs |
SDS |
Resources
Customer
Reviews
Loading...