Cfap46 (NM_001302546) Mouse Untagged Clone
CAT#: MC229758
Cfap46 (untagged) - Mouse cilia and flagella associated protein 46 (Cfap46)
"NM_001302546" in other vectors (1)
Product Images
Specifications
Product Data | |
Type | Mouse Untagged Clone |
Tag | Tag Free |
Symbol | Cfap46 |
Synonyms | 9330101J02Rik; E030019B06Rik; Gm170; Ttc40 |
Vector | pCMV6-Entry |
E. coli Selection | Kanamycin (25 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>MC229758 representing NM_001302546
Red=Cloning site Blue=ORF Orange=Stop codon TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGGACCTGATCATAACGCAGGAACTGGCCCGTGCCCGGAATCAACAAGATGCAACTGCCCTGCGAAGAG CTTATGAACTGATCAAGTCTGCAAACCTGGGAAAGTCGGAGCTTGACCCCACAGAGAGCTTCAGCCCGGA CCTGTTTGTGCTGTGTGCAGAGCAGGCACTCAAGATGAAAGAGCCTGAGATAAGCGAAGACTGCATCCAG ATGTACTTCAAAGTGAAGGCGCCAATCACTCAGTTTTTGGGCCGAGCGCACCTGTGCAGGGCCCAGCTTT GTGCCCCACAGTCAGAGGAAAATGTGGAAGAATTTGAAAATTGCGTGACACAGTACATGAAGGCCATAAA CTTTGCAAAAGGAGAACCGAGGTATTACTTCTTGGTGTTCAATGCTTCTGTCCTCTACTGGAACATGGTG CGGCCCTTCCTGAAGCCTGGATACCACCACCTCGTGATTCCCAGCCTCTCCCAAATCATCACTGTGTTAA ATCAGACAGAAGAGGAGGACAAGGAGTGGCGGGCAGAGCTGATGCTAGAACTGCTTGAATGTTACCTGCA AGCCGGAAGAAAGGAGGATGCTACCAAGTTCTGCTTGACAGCAGCGCCATTCGTCAGAACCCAGGTGCCC CACAAGTACCGGCAGATGTTCTCAACCATGGTTCGTTATGAAGTATTGGATGATCTTATGTTGAGGGAAG ACAAGCAGCAATCCATTATACTCTCCATCACTTACCACATCAATTCGCTGAAAGCGAAATTGGATAAAAA TAACTTGCCGGAAAACCTGGAGCAAATCCTGAGGAAAATGTATAGAGATTTAAGTCAGTACCATGACCAA CACGTCCCTACCATCAGAGAAGAAAAAATCCTTTTGCTTTTTGAATTGGGCCGCCTGTGTCTGACTTTGA AAAATGAGCCAATAGCCAGTGACTGCCTCCAATACCTGAAGAAAATGGAAACCGAAGATACTGGCAAGCT GCTAGAAATGGAAGGTCTGGAGTGTGAATTAGATGCTTTAAGGCTGGGAAGCAAGCTCAAAATGTACCTT CGAGGAGCCGTCGAGGAGCAGCTACTCATCATAAAGAGAATGGACAACATCCTGCAGCGAGCCATTCGTC TGGGTAACCCCACGACCATCCACGTGCTGTGTACTGCACAGTGGAATATCTGCCTGCCCCTGCTGCAGCA CAACCTGAGGCACCACCTCCGGAAGCCGCTGACCAACATCGCTGAGATTCTGGAAAAGGTTGATAGTCTC ATGATCCTGTTGCGCTGCCAAGTGCACATGGAGATGGCCTATATTGAGCAGGATGATGACCGGGTGGAGC CTGCCATTGAGCATATGCAGAAGGCCATGCGACTGGACAGCCTAGGTATCTACAGGGACAAGATCAAGAT AACCTACCGCCGGCTGCAGTTGGGTACCATGCTGTACCAGTCTCCTGATCGTCCTGAAGACAAGGCCACT ATGGCCATTGAACAGGCAAAGAAAGCCACCCCAAAAGACAGTGCCCGGAAGAAGCGTGCAATCCTGGTGA ACGCAGGCCTGGCTCTTGCCCCCGACACCTTCCAGATTGTGCTGGACAGCGAGAATGAGTCCAAAGTTTC CATTGGGAAGATCAAGGGCCGCTTCACCTACCTCTGTGCAAAAGCTCGACATCACATCCTCTCTGTGGAC AAAGCTGCTGGACACCTGCGGCGTCTGGGATATGAGAATGACAAAGACAGAATTGTGATTTGGGCGGAGC TGGCCAAGGTTGCCTGGCAGCAAGATGTGTGGGATGTCTGTCGCACGGCATCCCGATTTTGCCTCCTCTA TGACAACGTCAAAGCAAAGAGGTCCACAAAGCTAAAACGAGGGAGGAAGAAGAAAGTCATTGAGGGCTCC ATGAGTGACTGGGCTCCCTCTGACATGGCCATGCATAAGCAGATGCCCCCTGACCTGCTGAGGAAGATCG CAAAGGTGTTGTTCATCAGCGCTGAGGCCACTGTCCACCTTCTGCGCTCAGAAGGTGTACAGCTGAACAA CCAGGCCATTCCTCCTGAGGACTTGAGCCAACACCCAGCCGGCTACGTGCCTGAACCACCAGAGAGCAAT TCAGAGTGGATCACGTACAGAACCTGGATAGAAAACTTGTCACAGTATGCCATGAACAACTGGATGCGCG CTGCAGAAATTGGGCAGGAGTTAGGAGAATCCTGGATTGTGCAGAACGCCGTGGTCTACGTTTTGAACCA CAACCGGCATCTCATCTTGGCTGGGAGGCAGAAAGAGCTGGTGGAGTCCCTATTCCACTTCCTGAGCATC ATCAAGATCGTTGGATACACAGAGGACTCAGTCATGCTGGTCATGCTCTGTAATGCCCTTGCTCGAGGCC TGATCATGAGCTGGATTCCCACCCAGACACCTGAAAAGTCGAAGAAGAACGTGCGCCCTACCTTGGTTCA TGGTCCACTGGAGTCTTCGACTCTATCAGATATCAGAGCAGCTGTGGAGGTCTGTGAATTTGCACTGAAC CTCACTAACGGGAACGTGCCGGAGGACATCGTGCCCACCAATGTCCGGCAGCACCTCATTGCCACCTGGG TGAAGGCCAAGCAGCTACTGCAGCAGCAGATTGGTCAGCGGCTAGGCACCGATGAGCAGAGTACCAATGA AGACATCAGCTCCGTGACCAGGGTCCTAGTTGCCCTTGAGATGTACTCGTGCAATGGGCTGGGCCTCATG GACTTCACTGTGCCCCCGCTAGTTCAGGTGGTGAAGATGGCCTCCGAGTGCAACTGGTCTGACCATCTGG TGGAGCTGCAGACCCTGACACGCCTCACCCATTTCGCCTACATGGCTCACGACCATGAGGTCACCATGGC GTGTTCTCAGAATGCCACACAGATGGGCCTCAAGCACCTGAGGTCGTTTGAACCGAGCAACGCCAAGCTC GCAGCAGAAATGCTGTGTATGGTGTCCTGCATCCAGGGCCGTAGCATCATGGAAAACTTGAAAGGCAGGA AGCAGCTACGGCTAGCAGCAGCCAAGGCCTTTGTAGAAAGTGCCAGGTTTGGGGGCCTGGCAAACAGCAA TTCCCTGGTGATGATGGCCGCCCGGCACTACTGGAACACATGGCTCCCACTTCTGTCCTCACCGGCCAAC AGGAAGAAGGCCAAGGCATCCCTCCAGAGAATCATCAGCATCATCAACAAGACAGAGAACAAGAAGCAGG AGACAGATAAAACCCTGCCTCTGCACCAGTGGCCGTCAGCTGACTTCCAGACTGGAGGGACAGGCCCTGA AATCCCGTTCCTCCCAGGGGCCGAGGACGACCTCACACTCCGCGCTGCACTCTACACTCTGCTCTTCAAC AGCCACGCCGACCGGAATGACTGGGAGATGGGTCTTAAGGTGCTGGACGAGGCTGTGCAAGTGCTGCCGA GGACAGCCCACCGCCTCTTGATTTTCAAACATATGGTCATTGTGAAGGCCAAGCTTGGGCAGAACTTCAC CATGGAAATTCAGAAGTTCAAGGATGAGAAGGAAAGCTATTTGGCAAGCATGTGGTACCGCCTGGCCCAG AACTCGAAAACCGTCTGTGGAGAGTTGAGCTGCTATCAAAATGCTATCCAGGCACTGCAGAAACCAGAGA ACAACTGGCAGAAGGTGGACTACATCATGGAGTTCAGCGAGTGGATGTATTACAAGCAGTTCCCTCTGGA TGACGTGTTTGACCACCTGGATTGGGCAATCGAGATTCTGCTCTCCATGAAACCCAATGAAGACGCCCTT GAGCCAGAACCCAAGAAGGAAGGGCAGGCCTCCCCTGCCCAGTCTCTCACAGAGAGTACAGTGCCTTCAA ATCAGACGGCCTCCTTGGACCAGTTTCGAAGTGTGAGACAGTTGGAGGCCCTGGCCCGTGTGCACATCCT GCGGGCTTTGATGGCATCCCCAAGTGCCTCTTCCTATGAAGATGACTGCTTGATGGCCTACAGCTTCTTC AAGCACATCTTGCAGATTTCCTTGACAGAAGGAGTAAAACTAATTCCAGAAAAGAATTTGCAAGCGGTTA GTTCACAATTGCTATTGACCAAAAAGGAGAAGGAAAAGGAGAAGGAGAAGGAGAAGGAGAGGGAGAAGAA GGAGAAGGAGAAGAAGGAGAAGAAGGAGAAGAAGGAGGAGAAGAAGGAGGAGAAGAAGGAGGAGAAGAAG GAGGAGAAGGAGGAGAAGGAGGAGAAGAAGGAGGAGAAGAAGGAGGAGAAGAAGGAGAAGGAGGAGGAGA AGGAGAAGAAGGAAAAGGAGAAGAAGGAAAAGGAGAAGGAGAAGAAGGAAAAGGAGAAGGAGAGGGAGAA GGAAAAGGTCAAGGACACGAAGCAGATCTCAACCTCAGCTTCCAACAAGCCACCGGATGAGATCCCCACC AGCATAGGAGAGTGGGCCTCCTACTCCTGCTCTGAAGATCTGCTGCATGTGTTCAAGCAAGACAAGAGTG ACTGCACGATTAACTCGTCAAGTTTCCAGAAGCCTACGTACAGTTTGTACTACATAGACCATTTGGCCAA AGCCCTGCAGAAGATGTTCCTTCATGAGCTCAGCATCCCAATCCTGCAGCTGGGTGTGCTCATTGCAGAA GCCGTGGTGGAGAGCAAGAGCCTTGCGGACCTCTACCACTTGCGACTTCTACAGGTATGCTCTGATCTGA GGTTGCACTACGCAGCAACTCATCATGAAGAGGTGATTGGACAGGCATACTTCGGGGACATGGAGCAGGC CAGCTGCAGAAAAGAGATTGCATTTAAGAAAGAGAAGAACAAGGAACCGGAGATGGAAGATTACCTGCCA ACCCTGCATGAGCAGCTGACTCTCTCCGACTCTGTAGAGGTGAAGGCACTGATAGCGCAAGACAAGATCT TGAAGATAAATGGAGAGACTGGAAAGGGCCTGGAGGGGACGTCCTACCCCCAGCTGTGGTTGCTCAAAGG GGAGGTCCTGCTGGAGCTGGAGCTGCACCAACCAGCCCGGCTGCTCCTGTCTGAGGCCCAATGGGCTTTC CAGGAGCTAGGCGATATCTGTTCAGAAGCCCAGTCCCTGTTGCTTCTAGCAGAGTTGGCCAACAAGGAAA AGAACCATGCGCAGGCTATGCTCATGGTTGAGAGGGCCCAGCAGCTGGGCGGGGCCGAGGAGTTCTGGTA CAAGTCCACCCTGACTCTGGCTGAGGCCATCTTATCCTCCGAAGATCGTAGAAAAGAAATCTCAGTCTGC AGCCTGTTTCAGAAACTCATAGATACTTTCAGGGCCCTCCAGAACGAAAGGCCGAACCGAGTCTCCCTGC TGGAATTCCTCATCATGGAGCTAGAGGCCAGGTGTGTGAAACTTCGAATCCAATTTGCCTGCAACCTGAC TGACGAAGAATTTAACGAGCACCCATTTTTGCTGAGAGAACTAGAAGATCACCTGTTGGAAGTTGAACAA AACTTAATATTTGGTGGCTACTACAAAAATTATGTTGACTTAAAACTAGATCATGCAAAGATCAAGAGGT TATGTGCTCAGAAGGAAAAAGACGAGGAACAAAAGACTGCCTACTATCTGGAGATGTACTCGTTGTCCCA GAAAGCTGTATCTGAGGAAGAAGAAGTATTTCACAGAATCCAGGCGCTCCTGTCCCTTCACGATTTGCAG AACATCAACTCCCCAGTGATGAGGAGGTTGGCCCGCCTCAAGCTCAGCCTGGCAGAAACGTGCCTGGACC TGCTGCAGCTCGTGTGCAAGGAGGCCCTGGATCTGCAGATGGAGCAGGGCTCCTTCGAGAAGCTGCTTGC AGACTTCCTTCAGAACACCACTGACTACACATCCATCGGCTTGCAATGGTTCTTCCTGAAGAGGACCCTG CCTCACTTGGTGCTAACACAGCTGGAGAGTCTGCAGCCACTGTGTGTGGGCTGCACGGACATCCGTGCCC AGCTCCTGATCCTGGCTGGGAAGGCTCTCCATCTGCTGTACGTGCAGACAGATCCGGTGTACCCTTCCTT CTGCTGGGAGGAGGAACTCTTGGTAGGCACTAAGAAGGATAGCCTGAGATCGCTGGAGACAGACACAGAG GACAGGAGTGTAGAGACCTCCTCCTCGGCAGTCTTCAAGGAAGCCCCCAAGGAGCAAAGCCGAAAGGCTG AAGGTCTGAAGAAAAGGATGGTGCTGGCGAGGGGGTTCCTGGCTCAGACATCGGAGGTATTGCTGCAGTG TATACAGACTTCCCTGAGCAACAACCTTCTGGACATCGTGGCCTCTGCCAGCATAGAGATGGTGGAATGC ATTGGCATCCTGGATCCCATCACCACCTGCCAGTTCCTAACACTGTCACAGAGCTGTTCAACCTCAGAGA TGATGCGGAAGGTCCTGCTCACGGCCACGAAAAACACGGGCAGCTCACAGCTGGCGGCCCTGCTGCAGCT CCACCAGCGACTCAGGCAGCAAGACAAGATGTCCACCAGCCTGTTTGCCAGTGTAGAGCAGAAACTGGCC TCCTCTTTCAGGGCATGGCAGAGCCTCTGTGTCACAGAGCAGCATTTCAGCATCCTGAATGAGATCCCAC CCGTGTTCCGGATCCTCTTTCTGCAGCATTCACAGGACAGGTCTTGTCTGTATGGTGCTGCCTTTGAGAG ACCAAAGACCATGCCTTCACCCAAGGGGAAACTGATAACCGTGGGCGGTTATTGCAAGGTAACTCGGGTG GCTACGAGTCCAACTGCCATCTCTGACCTGTTGACGAGTATCCAGTGGTTCCAGAGGCAGACACGGGTCA AGGAGCAAGCCCTGTGCACTCAGAGTCTCAGCAGCATCCTGGAGCACATGGAGGACTACCTGAAGCCCAT CACCCCCCAGCTCACCTTCCCAGAAAGCAGAAATCAGATGCCAACAGCTGTGGGTGATGCAGGGAAAAAT AAAGGCAGAGAGAAGGAAAGGAAAATCTCTCTCCCTTCAGGGCAGCCTGACCCTGAGTACCTGATCCTGA TTGTGGACAAGTTCCTCCTGGAGCTGCCCCTGGAGGGGCTCTCCATGCTCAACGAGGTCACCTCCCTGTC ACGAGATTTCTCTCTCCAGATGCTGTGGAACCGTCTCCATAAGGAGGAGCGAGAAGGCAGTATGAAGAAG GAGGTCAAGAGCAAGGACTTAAAGAAGAAGACTCCAGGAAAGAAGGCCCTGAAGAGCATCATGACCCGGA TCATCCCACCGGAATGCAACCTGATCGACTCAGACACCATCAAGTTTGTTGTGGACCCTTACGAGGAGGC CCGGGGCACAGAGTTAATGAGACCTATCGAGATAACCCAGGAAATCTTGGAAAAGTACCGAGACACTTTT ACCGGACGTTGGATGGGGCACCTGGGAAACCACAACTTTCCAAGCCAGGCTGACTGGGAACAGCTACTGG ACAGCTGCAGAGGCTTCTTCTTCTATGGAATGGAGACCTTCCTGTCCCACCTGGAAATAGAAAGACTGGT AGCCATGAATCTGCAAGAATGCCAGATGATGATCCTATTGGACTTGACAAGGTCCTCTCACAGCCAGAAG CGGACGATAGAAAGCTCAGAGGGCCAGAGCGCATCACAGCGGTCCTTGGTGAAGCCCATCCAGACGGCCA TCCTTCTGAGTCTGGTAGGGGTCGAGAGCATTGTCGACAACCAGTGGCCCACACTGATGCAGGACAACAT GCTGAGGGCCACCATCCTGTGGGACAACCTGTTGGCAATTGGCAAGCCACTTGGAAAAACAGTTCGTCTC ATTCATAAACTATGCAATGAACCAGGTAGCCAAGACGAGAAACCCCAGGTCTCCAAGAATGAGCCACTCT CTGAGTTGCAGCCTCACCACCCGGAGTCACTCACCACTGCCCTCAACTGGGTTCTGTATGGTCTGCCTCA CCAAGCCATCGTGTGA ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT ACAAGGATGACGACGATAAGGTTTAA |
Restriction Sites | SgfI-MluI |
ACCN | NM_001302546 |
Insert Size | 7926 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 | Clone contains native stop codon, and expresses the complete ORF without any c-terminal tag. |
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_001302546.1, NP_001289475.1 |
RefSeq Size | 8215 bp |
RefSeq ORF | 7926 bp |
Locus ID | 212124 |
Cytogenetics | 7 F4 |
Documents
Product Manuals |
FAQs |
SDS |
Resources
Other Versions
SKU | Description | Size | Price |
---|---|---|---|
MR231969 | Cfap46 (myc-DDK-tagged) - Mouse cilia and flagella associated protein 46 (Cfap46) |
USD 2,397.00 |
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