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Flamingo homolog 1 (CELSR3) (NM_001407) Human Untagged Clone
CAT#: SC303011
CELSR3 (untagged)-Human cadherin, EGF LAG seven-pass G-type receptor 3 (flamingo homolog, Drosophila) (CELSR3)
CNY 63,750.00
货期*
13周
规格
Product images
经常一起买 (3)
Specifications
| Product Data | |
| Type | Human Untagged Clone |
| Tag | Tag Free |
| Synonyms | ADGRC3; CDHF11; EGFL1; FMI1; HFMI1; MEGF2; RESDA1 |
| Vector | pCMV6-XL4 |
| E. coli Selection | Ampicillin (100 ug/mL) |
| Mammalian Cell Selection | None |
| Sequence Data |
>OriGene ORF sequence for NM_001407 edited
ATGATGGCGAGGCGGCCGCCGTGGCGGGGCCTCGGGGAACGGTCGACCCCCATACTCCTG CTCCTTCTCCTCTCTTTGTTCCCCCTCAGCCAGGAGGAGCTGGGGGGCGGTGGGCACCAG GGCTGGGACCCAGGCTTAGCTGCCACTACGGGGCCAAGGGCGCATATCGGTGGCGGAGCC TTAGCTCTTTGTCCGGAGTCTTCCGGGGTCCGGGAGGATGGGGGGCCTGGCCTGGGGGTC AGGGAGCCTATCTTCGTGGGGCTCCGAGGGAGAAGGCAAAGCGCCCGGAATAGTCGAGGG CCCCCTGAGCAGCCGAATGAGGAGCTGGGGATTGAACACGGCGTCCAGCCATTGGGCAGC CGCGAACGAGAGACAGGACAGGGACCAGGGTCTGTGTTATACTGGCGCCCAGAGGTCTCC TCTTGCGGGCGGACAGGACCTTTGCAAAGAGGTAGTCTGTCACCAGGGGCTCTGTCCTCA GGGGTCCCGGGCTCGGGGAACAGCTCGCCCCTCCCTTCAGACTTTTTGATTCGGCACCAC GGTCCCAAGCCGGTGTCCTCCCAGCGGAACGCTGGGACAGGCTCCCGCAAAAGAGTGGGC ACCGCGCGCTGCTGTGGGGAATTATGGGCAACAGGGAGCAAGGGTCAGGGCGAGAGAGCC ACGACATCCGGAGCAGAAAGGACAGCCCCCCGGCGGAACTGTCTTCCAGGGGCCTCGGGA TCTGGCCCCGAGCTGGATTCAGCACCACGCACGGCGAGGACAGCTCCTGCATCAGGTTCA GCACCCCGCGAGTCTCGGACAGCTCCCGAGCCGGCGCCCAAGCGCATGCGCTCCCGGGGT CTCTTCCGCTGCCGCTTCCTCCCGCAGCGCCCCGGGCCGCGTCCCCCGGGACTCCCGGCC CGTCCTGAAGCCAGGAAAGTAACCTCGGCGAACCGGGCACGCTTTCGTCGCGCCGCAAAC CGCCACCCGCAGTTTCCGCAGTACAACTACCAGACGCTGGTGCCGGAGAATGAGGCAGCA GGCACCGCGGTGCTACGCGTGGTTGCTCAGGACCCGGACGCCGGCGAGGCCGGGCGCCTA GTCTACTCGCTGGCGGCACTCATGAACAGCCGCTCGCTGGAGCTGTTCAGCATCGACCCG CAGAGCGGCCTTATCCGTACGGCGGCAGCTCTGGACCGCGAGAGCATGGAGCGTCACTAC CTGCGTGTGACCGCGCAGGACCACGGGTCGCCGCGCCTCTCGGCCACCACGATGGTGGCC GTGACAGTAGCCGACCGCAACGACCACTCGCCGGTTTTTGAGCAAGCGCAGTACCGGGAG ACCCTTCGCGAGAATGTGGAGGAGGGCTACCCTATCCTGCAGCTGCGTGCCACTGACGGC GACGCGCCCCCCAACGCCAACCTGCGCTACCGCTTCGTGGGGCCGCCAGCTGCGCGCGCT GCAGCTGCCGCCGCCTTCGAGATTGATCCACGCTCCGGCCTCATCAGCACCAGCGGCCGA GTGGACCGCGAGCACATGGAAAGCTATGAGCTGGTGGTGGAAGCCAGCGACCAGGGCCAG GAACCCGGGCCGCGCTCGGCCACTGTGCGCGTACACATAACTGTGCTAGACGAGAACGAC AATGCTCCTCAGTTCAGCGAGAAGCGCTACGTGGCGCAGGTGCGCGAGGATGTGCGCCCC CACACAGTCGTGCTGCGCGTCACGGCCACTGACCGGGACAAGGACGCCAACGGATTGGTG CACTACAACATCATCAGTGGCAATAGCCGTGGACACTTTGCCATCGACAGCCTCACTGGC GAGATCCAGGTGGTGGCACCTCTGGACTTCGAGGCAGAGAGAGAGTATGCCTTGCGCATC AGGGCGCAGGATGCTGGCCGGCCACCGCTGTCCAACAACACGGGCCTGGCCAGCATCCAG GTGGTGGACATCAATGACCACATTCCTATTTTTGTCAGCACGCCCTTCCAAGTTTCTGTC TTGGAAAATGCTCCCTTGGGTCACTCAGTCATCCACATTCAGGCAGTCGATGCAGACCAT GGGGAGAATGCCAGATTGGAGTACTCCCTAACTGGTGTGGCACCTGATACTCCTTTTGTG ATAAACAGCGCCACTGGCTGGGTCTCTGTGAGTGGTCCCCTGGACCGTGAGTCTGTGGAG CATTACTTCTTTGGTGTGGAGGCTCGAGACCATGGCTCACCCCCACTCTCTGCCTCAGCC AGTGTCACCGTGACTGTGCTGGACGTTAATGACAATCGGCCTGAGTTCACAATGAAGGAG TACCACCTACGACTGAATGAGGATGCAGCTGTGGGCACCAGTGTGGTCAGCGTGACCGCA GTAGACCGTGATGCCAACAGTGCCATCAGCTACCAGATCACAGGCGGCAACACCCGGAAT CGCTTTGCCATCAGCACCCAGGGGGGTGTGGGTCTGGTGACTCTGGCTCTGCCACTGGAC TACAAGCAGGAACGCTACTTCAAGCTGGTACTAACTGCATCTGACCGTGCCCTTCATGAT CACTGCTATGTGCACATCAACATCACAGATGCCAACACTCATCGGCCGGTCTTTCAAAGT GCCCACTACTCAGTGAGTGTGAATGAAGATCGGCCAATGGGTAGCACCATAGTGGTCATC AGTGCCTCTGATGATGACGTGGGTGAGAATGCTCGTATCACCTATCTCCTGGAGGACAAC CTGCCCCAGTTCCGCATTGATGCAGACTCAGGAGCCATTACATTACAGGCCCCATTAGAC TATGAGGACCAGGTGACCTACACCCTGGCTATCACAGCTCGGGACAATGGCATCCCACAG AAGGCAGACACTACTTATGTGGAGGTGATGGTCAATGACGTGAATGACAATGCTCCACAA TTTGTGGCCTCCCACTATACAGGGCTGGTCTCTGAGGATGCCCCACCTTTCACCAGTGTC CTGCAGATCTCAGCCACTGACCGGGATGCTCATGCCAATGGCCGGGTCCAGTACACTTTC CAGAATGGTGAAGATGGGGATGGAGATTTTACCATTGAGCCCACCTCTGGAATTGTCCGT ACAGTAAGGCGGCTAGACCGGGAGGCAGTATCAGTGTATGAGTTGACTGCCTACGCAGTG GACAGAGGTGTGCCCCCACTCCGGACTCCAGTCAGTATCCAGGTGATGGTGCAGGATGTG AACGACAATGCACCTGTCTTCCCAGCTGAGGAGTTTGAGGTGCGGGTGAAAGAGAATAGC ATTGTGGGCTCAGTGGTGGCCCAGATCACTGCAGTGGACCCTGACGAAGGCCCCAATGCC CATATAATGTACCAGATCGTGGAGGGGAACATCCCTGAGCTGTTCCAAATGGACATCTTC TCTGGAGAACTGACGGCACTCATTGACCTAGACTATGAGGCTCGCCAAGAATATGTGATT GTGGTGCAGGCCACATCTGCTCCTTTGGTCAGCCGGGCCACTGTGCACGTCCGCCTGGTT GACCAGAATGACAACAGCCCTGTGCTCAACAACTTCCAGATCCTCTTCAACAACTATGTA TCCAACCGTTCAGACACCTTCCCGTCGGGCATTATTGGGCGCATCCCAGCTTATGACCCC GATGTCTCCGACCACCTCTTCTACTCCTTTGAGCGTGGCAATGAGCTGCAGCTGCTGGTA GTCAACCAGACCAGTGGGGAGCTGCGACTCAGCCGAAAGCTAGACAATAACCGCCCACTG GTGGCCTCCATGTTGGTGACTGTCACAGATGGCCTGCACAGCGTGACGGCGCAGTGTGTG CTGCGCGTGGTCATCATCACGGAGGAGTTGCTGGCCAACAGCCTGACCGTGCGCCTTGAG AACATGTGGCAGGAGCGCTTCCTGTCACCGCTGCTGGGCCGCTTCCTCGAGGGCGTGGCT GCGGTGCTCGCTACGCCCGCTGAGGACGTCTTCATCTTCAACATCCAGAACGACACAGAC GTAGGGGGCACCGTGCTCAATGTGAGTTTCTCGGCGCTAGCTCCACGTGGGGCCGGGGCG GGCGCTGCAGGGCCCTGGTTCAGCTCCGAGGAGCTGCAGGAGCAGTTGTACGTGCGCCGG GCGGCGCTGGCGGCTCGCTCCCTGCTCGACGTACTGCCCTTCGACGACAACGTGTGCCTG CGAGAGCCCTGTGAGAACTACATGAAATGCGTGTCCGTGCTCCGCTTTGACTCGTCCGCG CCCTTCCTGGCCTCGGCCTCCACGCTGTTCCGACCCATCCAGCCCATCGCTGGCCTGCGC TGCCGCTGCCCGCCCGGATTCACGGGAGACTTTTGCGAGACCGAGCTCGACCTCTGCTAC TCCAACCCATGTCGCAACGGCGGAGCCTGCGCGCGGCGCGAGGGAGGCTACACGTGCGTC TGCCGCCCGCGCTTCACCGGAGAGGACTGCGAGCTGGACACCGAGGCCGGCCGCTGCGTG CCGGGCGTCTGCCGCAACGGGGGCACCTGCACCGACGCGCCCAACGGCGGCTTTCGCTGC CAGTGCCCGGCAGGCGGCGCCTTCGAGGGCCCGCGCTGCGAGGTGGCTGCGCGCTCCTTC CCGCCCAGTTCGTTCGTCATGTTTCGCGGCCTGCGGCAGCGATTCCACCTTACGCTGTCC CTCTCGTTCGCGACAGTGCAGCAGAGCGGGCTGCTCTTCTACAACGGGCGCCTGAACGAG AAGCACGACTTCCTGGCCCTGGAACTCGTGGCTGGCCAAGTGCGGCTCACATATTCCACG GGTGAATCCAACACCGTGGTCAGCCCCACAGTTCCAGGGGGCTTGAGTGACGGGCAATGG CATACAGTGCATCTGAGATACTACAACAAGCCCCGGACAGATGCCCTAGGGGGTGCACAG GGCCCCTCCAAGGACAAGGTGGCTGTGCTAAGCGTGGATGATTGTGATGTGGCCGTGGCT CTGCAGTTTGGTGCTGAGATTGGCAACTACTCATGCGCGGCTGCTGGTGTGCAAACAAGC TCCAAGAAGTCCCTGGACCTGACGGGCCCTCTTCTTCTGGGAGGTGTCCCCAACCTCCCC GAGAACTTCCCCGTATCCCATAAGGACTTCATCGGCTGTATGCGGGACCTGCACATTGAT GGCCGCCGAGTGGACATGGCGGCTTTTGTCGCAAATAATGGCACCATGGCAGGCTGCCAA GCCAAGCTACACTTTTGTGACTCAGGCCCCTGCAAGAACAGTGGCTTCTGCTCGGAGCGC TGGGGCAGCTTCAGCTGCGACTGCCCTGTGGGCTTCGGCGGCAAAGACTGTCAGCTTACT ATGGCCCATCCCCACCATTTCCGTGGCAACGGCACACTGAGCTGGAACTTTGGAAGTGAC ATGGCTGTGTCTGTGCCATGGTACCTGGGGCTGGCATTTCGGACACGGGCAACGCAGGGG GTCCTGATGCAAGTGCAGGCTGGGCCACACAGCACGCTCCTTTGCCAGCTAGATCGGGGG TTACTGTCTGTGACAGTGACCAGGGGCTCGGGCCGTGCTTCCCATCTCCTTCTGGACCAG GTGACTGTCAGTGATGGCCGGTGGCACGATCTGCGGCTGGAGTTGCAGGAGGAACCAGGT GGCCGGCGGGGCCACCATGTCCTTATGGTCTCACTGGACTTTAGCCTCTTCCAGGACACC ATGGCGGTGGGGAGTGAGCTGCAGGGCCTGAAGGTAAAGCAGCTCCACGTGGGAGGCCTG CCCCCCGGCAGTGCAGAGGAGGCTCCTCAGGGTCTGGTTGGCTGCATCCAGGGGGTGTGG CTCGGCTCCACACCCTCTGGCTCCCCGGCCCTGCTACCCCCCAGCCACCGAGTGAATGCG GAGCCTGGCTGTGTTGTGACCAACGCCTGTGCCTCTGGGCCCTGCCCACCTCACGCAGAC TGCCGGGACCTCTGGCAGACCTTTTCTTGCACCTGCCAGCCAGGTTACTACGGCCCAGGC TGTGTGGATGCCTGCCTCCTGAACCCCTGTCAGAACCAGGGATCATGCCGGCACCTGCCA GGAGCCCCCCATGGCTATACCTGTGACTGTGTGGGTGGCTATTTCGGGCACCACTGTGAG CACAGGATGGACCAGCAGTGCCCACGGGGCTGGTGGGGGAGCCCAACCTGTGGCCCCTGC AACTGTGATGTTCACAAAGGTTTTGATCCCAACTGCAACAAGACAAATGGGCAGTGTCAC TGCAAGGAGTTCCACTACCGACCGCGGGGCAGTGACTCTTGCCTCCCATGTGACTGCTAC CCTGTGGGCTCCACCTCGCGCTCATGTGCACCCCACAGCGGGCAGTGCCCCTGTCGCCCA GGAGCCCTTGGCCGCCAGTGCAACAGCTGTGACAGTCCCTTCGCAGAGGTGACAGCCAGC GGCTGCCGGGTGCTCTATGATGCCTGCCCTAAGTCCCTGAGATCTGGTGTGTGGTGGCCC CAGACAAAGTTTGGCGTCCTGGCCACAGTGCCCTGTCCCCGGGGGGCCCTGGGTGCTGCT GTGCGGCTGTGTGATGAGGCCCAGGGTTGGCTGGAGCCCGACCTCTTCAACTGTACCTCC CCTGCCTTTCGAGAGCTCAGTCTGCTGCTGGATGGCCTAGAGCTGAACAAGACGGCACTG GATACCATGGAGGCCAAGAAGCTGGCTCAGCGGCTACGGGAGGTGACTGGCCACACTGAC CACTATTTTAGCCAAGATGTTCGAGTCACTGCCCGCCTGCTGGCCCACCTGCTGGCCTTC GAGAGCCATCAGCAGGGCTTCGGGCTGACAGCCACACAGGATGCCCACTTCAATGAGAAT CTGCTGTGGGCCGGCTCTGCACTGCTTGCCCCAGAGACAGGGGACTTGTGGGCGGCGCTG GGGCAGCGGGCCCCTGGGGGCTCCCCAGGCAGCGCGGGACTGGTGAGGCACCTGGAGGAG TATGCAGCCACACTCGCAAGGAATATGGAACTCACATACCTGAATCCCATGGGGCTGGTG ACGCCTAATATCATGCTCAGCATTGACCGCATGGAGCACCCCAGTTCTCCCCGGGGGGCC CGTCGCTACCCTCGCTACCATAGCAACCTCTTTCGAGGCCAGGATGCCTGGGATCCTCAC ACCCATGTGCTGCTGCCTTCCCAGTCCCCACGGCCATCCCCATCTGAAGTTCTGCCCACA AGCAGCAGCATAGAAAACTCCACCACCTCAAGTGTGGCCCCCCCACCAGCCCCGCCAGAG CCAGAGCCTGGGATCTCCATTATCATTCTCCTCGTTTACCGCACCTTAGGGGGACTGCTC CCTGCCCAGTTCCAGGCAGAACGCCGAGGTGCCAGGCTTCCTCAGAACCCCGTCATGAAC TCCCCGGTGGTCAGCGTGGCTGTGTTCCACGGACGCAACTTCCTAAGGGGAATCCTGGAG TCCCCCATCAGCCTAGAGTTTCGCCTGCTACAGACAGCGAATCGGAGCAAGGCGATCTGT GTGCAGTGGGACCCACCTGGCCTGGCGGAGCAGCATGGTGTGTGGACAGCACGGGACTGC GAGCTGGTGCACAGGAATGGGTCCCACGCACGGTGTCGCTGCAGCCGGACAGGGACCTTT GGGGTCCTCATGGATGCCTCTCCCCGTGAGAGGCTGGAGGGCGACCTGGAGCTGCTGGCT GTGTTCACCCACGTGGTCGTGGCTGTGTCTGTGGCTGCGCTGGTGCTGACTGCAGCCATC CTGCTGAGCCTGCGCAGCCTCAAGTCCAATGTGCGTGGGATCCATGCCAATGTGGCAGCC GCCCTGGGGGTGGCAGAGCTCCTCTTCCTGCTGGGGATTCACAGGACCCACAATCAGCTG GTGTGCACTGCAGTCGCCATCCTCCTGCACTACTTCTTCCTCAGCACCTTCGCGTGGCTC TTCGTGCAGGGGCTGCACCTCTACCGCATGCAGGTTGAGCCACGCAACGTGGACCGCGGC GCCATGCGCTTCTACCATGCCCTGGGCTGGGGCGTCCCTGCTGTGCTGCTGGGCCTTGCT GTGGGCCTGGACCCTGAGGGCTATGGGAACCCTGACTTCTGCTGGATCTCAGTCCACGAG CCCCTCATCTGGAGCTTTGCTGGCCCTGTTGTCCTGGTCATAGTGATGAACGGGACCATG TTTCTCCTCGCTGCCCGCACATCCTGCTCCACAGGGCAGAGGGAGGCCAAGAAGACCTCT GCACTGACCCTTCGCAGCTCCTTCCTGCTGCTTCTGCTGGTCAGTGCCTCCTGGCTCTTT GGGCTCCTGGCAGTCAACCACAGCATCCTAGCCTTCCACTACCTCCATGCTGGACTCTGC GGCCTCCAGGGCCTGGCGGTGCTGCTGCTCTTCTGTGTCCTAAATGCAGATGCTCGGGCT GCCTGGATGCCAGCCTGTCTGGGCAGGAAGGCAGCGCCTGAGGAGGCAAGGCCAGCACCT GGGCTGGGACCTGGGGCCTACAACAACACGGCTCTCTTTGAGGAGAGTGGCCTCATCCGC ATCACTCTGGGCGCCTCCACCGTCTCCTCTGTGAGCAGTGCCCGCTCCGGCCGGACCCAG GACCAGGACAGCCAGCGGGGCCGCAGCTACCTCAGGGACAATGTCCTGGTTCGACATGGC TCAGCCGCTGACCACACTGACCACAGCCTCCAGGCTCATGCTGGCCCCACTGACCTGGAC GTGGCCATGTTCCATCGAGATGCTGGCGCAGACTCCGACTCTGACAGTGACCTGTCCTTG GAGGAGGAGAGGAGTCTCTCCATTCCATCTTCAGAAAGCGAGGACAATGGCCGGACGCGG GGGCGCTTCCAACGGCCACTCTGCCGAGCAGCCCAGAGTGAGAGGCTCCTCACCCACCCC AAAGATGTGGATGGCAATGACCTCCTGTCCTACTGGCCAGCCCTGGGGGAGTGCGAGGCA GCCCCCTGTGCTCTGCAGACTTGGGGCTCTGAAAGGCGCCTGGGGCTGGACACCAGCAAG GATGCAGCTAACAACAACCAGCCAGACCCGGCCCTGACCAGTGGGGATGAGACTTCTCTG GGCCGGGCCCAGCGCCAGAGGAAAGGCATCCTGAAGAACCGGTTGCAATACCCACTGGTG CCACAGACCCGAGGTGCCCCTGAGCTGTCCTGGTGCCGTGCAGCCACCTTGGGCCACCGT GCTGTGCCAGCTGCCTCTTACGGTCGCATCTATGCTGGCGGGGGCACGGGCAGCCTTTCA CAGCCAGCCAGCCGCTACTCTTCTAGAGAACAGCTGGACCTGCTCCTCCGGCGGCAACTG AGCCGTGAGCGACTAGAGGAAGCCCCTGCCCCTGTTCTACGTCCCCTGAGCCGGCCAGGG TCCCAGGAATGCATGGATGCTGCACCAGGCCGACTGGAGCCCAAAGATCGGGGCAGCACC CTGCCACGGAGGCAGCCACCTCGGGACTACCCTGGCGCCATGGCTGGCCGCTTCGGGTCA CGGGATGCGCTCGACTTAGGGGCACCTCGAGAGTGGTTGAGCACGCTGCCTCCGCCCCGC CGCACCCGGGACCTTGACCCACAGCCCCCACCTCTGCCCCTGTCTCCCCAGCGGCAACTC TCAAGGGACCCCCTCTTGCCATCCCGGCCGCTGGACTCTCTGTCTAGGAGCTCGAACTCT CGGGAGCAGCTGGACCAGGTGCCTAGCCGGCACCCCTCACGAGAAGCCCTTGGGCCACTC CCGCAGCTGCTCAGAGCTAGGGAGGACTCGGTCAGTGGCCCCAGCCATGGCCCCTCCACA GAACAGTTGGACATTCTTTCCTCCATCCTTGCCTCTTTCAACTCCTCGGCCCTCTCCTCT GTGCAATCTTCAAGCACACCCTTGGGCCCTCACACCACTGCCACACCTTCTGCCACAGCC TCTGTGCTTGGGCCCTCCACGCCACGTTCTGCCACGTCTCACAGCATCTCGGAGCTGTCG CCAGACTCAGAAGTTCCCAGAAGTGAGGGTCACTCCTGA >OriGene 5' read for NM_001407 unedited
GACAATTGTATACGACTCCTATAGGGCGGCCGCGACTTCATGTATGTGCGAGGCGGCCGC CGTGGCGGGGCCTCGGGGAACGGTCGACCCCCATACTCCTGCTCCTTCTCCTCTCTTTGT TCCCCCTCAGCCAGGAGGAGCTGGGGGGCGGTGGGCACCAGGGCTGGGACCCAGGCTTAG CTGCCACTACGGGGCCAAGGGCGCATATCGGTGGCGGAGCCTTAGCTCTTTGTCCGGAGT CTTCCGGGGTCCGGGAGGATGGGGGGCCTGGCCTGGGGGTCAGGGAGCCTATCTTCGTGG GGCTCCGAGGGAGAAGGCAAAGCGCCCGGAATAGTCGAGGGCCCCCTGAGCAGCCGAATG AGGAGCTGGGGATTGAACACGGCGTCCAGCCATTGGGCAGCCGCGAACGAGAGACAGGAC AGGGACCAGGGTCTGTGTTATACTGGCGCCCAGAGGTCTCCTCTTGCGGGCGGACAGGAC CTTTGCAAAGAGGTAGTCTGTCACCAGGGGCTCTGTCCTCAGGGGTCCCGGGCTCGGGGA ACAGCTCGCCCCTCCCTTCAGACTTTTTGATTCGGCACCACGGTCCCAAGCCGGTGTCCT CCCAGCGGAACGCTGGGACAGGCTCCCGCAAAAGAGTGGGCACCGCGCGCTGCTGTGGGG AATTATGGGCAACAGGGAGCAAGGGTCAGGGCGAGAGAGCCACGACATCCGGAGCAGAAA GGACAGCCCCCCGGCGGAACTGTCTTCCAGGGGCCTCGGGATCTGGCCCCGAGCTGGATT CAGCACCACGCACGGCGAGGACAGCTCCTGCATCAGGTTCAGCACCCCCGCGAGTCTCGA CAGCTCCCGAGCCGGCGCCCAAGCGCATGCGCTCCCGGGTCTCTTCCGCTGCCGCTTCCT CCCGCAGCGCCCC >Forward primer walk for NM_001407 unedited
GTCGCATAGGGCCCTCGAGTGGTTGAGCACGCTGCCTCCGCCCCGCCGCACCCGGGACCT TGACCCACAGCCCCCACCTCTGCCCCTGTCTCCCCAGCGGCAACTCTCAAGGGACCCCCT CTTGCCATCCCGGCCGCTGGACTCTCTGTCTAGGAGCTCGAACTCTCGGGAGCAGCTGGA CCAGGTGCCTAGCCGGCACCCCTCACGAGAAGCCCTTGGGCCACTCCCGCAGCTGCTCAG AGCTAGGGAGGACTCGGTCAGTGGCCCCAGCCATGGCCCCTCCACAGAACAGTTGGACAT TCTTTCCTCCATCCTTGCCTCTTTCAACTCCTCGGCCCTCTCCTCTGTGCAATCTTCAAG CACACCCTTGGGCCCTCACACCACTGCCACACCTTCTGCCACAGCCTCTGTGCTTGGGCC CTCCACGCCACGTTCTGCCACGTCTCACAGCATCTCGGAGCTGTCGCCAGACTCAGAAGT TCCCAGAAGTGAGGGTCACTCCTGAGGGGATGACGGCGTGGACGAGGAACAGCTGAGGGC GACAGAGGATCTAGGCTAACAGGAGAGACTCCAGGAGTGGGGGCAGATCCCAAGGCAGCC TCCTGCTCCCCAGTGGTGGGTGCCCCAGCTCTACCTGGTGTGGCAGGGCTGAGGCTCCAT GTGCATCTGTGAGCATGCGTGTGACAGTGCAGAGACGGGGGACTGGAGGGAGACTTTTAT ACGTTTTGTACCTTTGTAACCAGAGAGATGCTTATGTTATTTTTCAGCTTTTCTGTCTCC TGGGGGGTTTGAGCTGGGCTGGGAGGGGAGGGAGATAGAGGAGAGATGCAGTTTGACCCC ATTTGGGTCCTGAGCAACCCTATGCTCATCTCCTCCTCTCCTTTCCTGGAT |
| Restriction Sites | Please inquire |
| ACCN | NM_001407 |
| OTI Disclaimer | Due to the inherent nature of this plasmid, standard methods to replicate additional amounts of DNA in E. coli are highly likely to result in mutations and/or rearrangements. Therefore, OriGene does not guarantee the capability to replicate this plasmid DNA. Additional amounts of DNA can be purchased from OriGene with batch-specific, full-sequence verification at a reduced cost. Please contact our customer care team at custsupport@origene.com or by calling 301.340.3188 option 3 for pricing and delivery. The molecular sequence of this clone aligns with the gene accession number as a point of reference only. However, individual transcript sequences of the same gene can differ through naturally occurring variations (e.g. polymorphisms), each with its own valid existence. This clone is substantially in agreement with the reference, but a complete review of all prevailing variants is recommended prior to use. More info |
| OTI Annotation | The open reading frame of this TrueClone was fully sequenced and found to differ from the protein associated to this reference by two amino acids. |
| 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_001407.1, NP_001398.1 |
| RefSeq Size | 11965 bp |
| RefSeq ORF | 9939 bp |
| Locus ID | 1951 |
| UniProt ID | Q9NYQ7 |
| Protein Families | Druggable Genome, Transmembrane |
| Gene Summary | This gene belongs to the flamingo subfamily, which is included in the cadherin superfamily. The flamingo cadherins consist of nonclassic-type cadherins that do not interact with catenins. They are plasma membrane proteins containing seven epidermal growth factor-like repeats, nine cadherin domains and two laminin A G-type repeats in their ectodomain. They also have seven transmembrane domains, a characteristic feature of their subfamily. The encoded protein may be involved in the regulation of contact-dependent neurite growth and may play a role in tumor formation. [provided by RefSeq, Jun 2013] |
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Other Versions
| SKU | Description | Size | Price |
|---|---|---|---|
| RC222949 | CELSR3 (Myc-DDK-tagged)-Human cadherin, EGF LAG seven-pass G-type receptor 3 (flamingo homolog, Drosophila) (CELSR3) |
CNY 32,200.00 |
|
| RG222949 | CELSR3 (tGFP-tagged) - Human cadherin, EGF LAG seven-pass G-type receptor 3 (flamingo homolog, Drosophila) (CELSR3) |
CNY 33,800.00 |
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