ATP10D (NM_020453) Human Untagged Clone
CAT#: SC126881
ATP10D (untagged)-Human ATPase, class V, type 10D (ATP10D)
CNY 9,768.00
Product images
Specifications
Product Data | |
Type | Human Untagged Clone |
Tag | Tag Free |
Synonyms | ATPVD |
Vector | pCMV6-XL4 |
E. coli Selection | Ampicillin (100 ug/mL) |
Mammalian Cell Selection | None |
Sequence Data |
>OriGene ORF within SC126881 sequence for NM_020453 edited (data generated by NextGen Sequencing)
ATGACTGAGGCTCTCCAATGGGCCAGATATCACTGGCGACGGCTGATCAGAGGTGCAACC AGGGATGATGATTCAGGGCCATACAACTATTCCTCGTTGCTCGCCTGTGGGCGCAAGTCC TCTCAGACCCCTAAACTGTCAGGAAGGCACCGGATTGTTGTTCCCCACATCCAGCCCTTC AAGGATGAGTATGAGAAGTTCTCCGGAGCCTATGTGAACAATCGAATACGAACAACAAAG TACACACTTCTGAATTTTGTGCCAAGAAATTTATTTGAACAATTTCACAGAGCTGCCAAT TTATATTTCCTGTTCCTAGTTGTCCTGAACTGGGTACCTTTGGTAGAAGCCTTCCAAAAG GAAATCACCATGTTGCCTCTGGTGGTGGTCCTTACAATTATCGCAATTAAAGATGGCCTG GAAGATTATCGGAAATACAAAATTGACAAACAGATCAATAATTTAATAACTAAAGTTTAT AGTAGGAAAGAGAAAAAATACATTGACCGATGCTGGAAAGACGTTACTGTTGGGGACTTT ATTCGCCTCTCCTGCAACGAGGTCATCCCTGCAGACATGGTACTACTCTTTTCCACTGAT CCAGATGGAATCTGTCACATTGAGACTTCTGGTCTTGATGGAGAGAGCAATTTAAAACAG AGGCAGGTGGTTCGGGGATATGCAGAACAGGACTCTGAAGTTGATCCTGAGAAGTTTTCC AGTAGGATAGAATGTGAAAGCCCAAACAATGACCTCAGCAGATTCCGAGGCTTCCTAGAA CATTCCAACAAAGAACGCGTGGGTCTCAGTAAAGAAAATTTGTTGCTTAGAGGATGCACC ATTAGAAACACAGAGGCTGTTGTGGGCATTGTGGTTTATGCAGGCCATGAAACCAAAGCA ATGCTGAACAACAGTGGGCCACGGTATAAGCGCAGCAAATTAGAAAGAAGAGCAAACACA GATGTCCTCTGGTGTGTCATGCTTCTGGTCATAATGTGCTTAACTGGCGCAGTAGGTCAT GGAATCTGGCTGAGCAGGTATGAAAAGATGCATTTTTTCAATGTTCCCGAGCCTGATGGA CATATCATATCACCACTGTTGGCAGGATTTTATATGTTTTGGACCATGATCATTTTGTTA CAGGTCTTGATTCCTATTTCTCTCTATGTTTCCATCGAAATTGTGAAGCTTGGACAAATA TATTTCATTCAAAGTGATGTGGATTTCTACAATGAAAAAATGGATTCTATTGTTCAGTGC CGAGCCCTGAACATCGCCGAGGATCTGGGACAGATTCAGTACCTCTTTTCCGATAAGACA GGAACCCTCACTGAGAATAAGATGGTTTTTCGAAGATGTAGTGTGGCAGGATTTGATTAC TGCCATGAAGAAAATGCCAGGAGGTTGGAGTCCTATCAGGAAGCTGTCTCTGAAGATGAA GATTTTATAGACACAGTCAGTGGTTCCCTCAGCAATATGGCAAAACCGAGAGCCCCCAGC TGCAGGACAGTTCATAATGGGCCTTTGGGAAATAAGCCCTCAAATCATCTTGCTGGGAGC TCTTTTACTCTAGGAAGTGGAGAAGGAGCCAGTGAAGTGCCTCATTCCAGACAGGCTGCT TTCAGTAGCCCCATTGAAACAGACGTGGTACCAGACACCAGGCTTTTAGACAAATTTAGT CAGATTACACCTCGGCTCTTTATGCCACTAGATGAGACCATCCAAAATCCACCAATGGAA ACTTTGTACATTATCGACTTTTTCATTGCATTGGCAATTTGCAACACAGTAGTGGTTTCT GCTCCTAACCAACCCCGACAAAAGATCAGACACCCTTCACTGGGGGGGTTGCCCATTAAG TCTTTGGAAGAGATTAAAAGTCTTTTCCAGAGATGGTCTGTCCGAAGATCAAGTTCTCCA TCGCTTAACAGTGGGAAAGAGCCATCTTCTGGAGTTCCAAACGCCTTTGTGAGCAGACTC CCTCTCTTTAGTCGAATGAAACCAGCTTCACCTGTGGAGGAAGAGGTCTCCCAGGTGTGT GAGAGCCCCCAGTGCTCCAGTAGCTCAGCTTGCTGCACAGAAACAGAGAAACAACACGGT GATGCAGGCCTCCTGAATGGCAAGGCAGAGTCCCTCCCTGGACAGCCATTGGCCTGCAGC CTGTGTTATGAGGCCGAGAGCCCAGACGAAGCGGCCTTAGTGTATGCCGCCAGGGCTTAC CAATGCACTTTACGGTCTCGGACACCAGAGCAGGTCATGGTGGACTTTGCTGCTTTGGGA CCATTAACATTTCAACTCCTACACATACTGCCCTTTGACTCAGTAAGAAAAAGAATGTCT GTTGTGGTCCGACACCCTCTTTCCAATCAAGTTGTGGTGTATACGAAAGGCGCTGATTCT GTGATCATGGAGTTACTGTCGGTGGCTTCCCCAGATGGAGCAAGTCTGGAGAAACAACAG ATGATAGTAAGGGAGAAAACCCAGAAGCACTTGGATGACTATGCCAAACAAGGCCTTCGT ACTTTATGTATAGCAAAGAAGGTCATGAGTGACACTGAATATGCAGAGTGGCTGAGGAAT CATTTTTTAGCTGAAACCAGCATTGACAACAGGGAAGAATTACTACTTGAATCTGCCATG AGGTTGGAGAACAAACTTACATTACTTGGTGCTACTGGCATTGAAGACCGTCTGCAGGAG GGAGTCCCTGAATCTATAGAAGCTCTTCACAAAGCGGGCATCAAGATCTGGATGCTGACA GGGGACAAGCAGGAGACAGCTGTCAACATAGCTTATGCATGCAAACTACTGGAGCCAGAT GACAAGCTTTTTATCCTCAATACCCAAAGTAAAGATGCCTGTGGGATGCTGATGAGCACA ATTTTGAAAGAACTTCAGAAGAAAACTCAAGCCCTGCCAGAGCAAGTGTCATTAAGTGAA GATTTACTTCAGCCTCCTGTCCCCCGGGACTCAGGGTTACGAGCTGGACTCATTATCACT GGGAAGACCCTGGAGTTTGCCCTGCAAGAAAGTCTGCAAAAGCAGTTCCTGGAACTGACA TCTTGGTGTCAAGCTGTGGTCTGCTGCCGAGCCACACCGCTGCAGAAAAGTGAAGTGGTG AAATTGGTCCGCAGCCATCTCCAGGTGATGACCCTTGCTATTGGTGATGGTGCCAATGAT GTTAGCATGATACAAGTGGCAGACATTGGGATAGGGGTCTCAGGTCAAGAAGGCATGCAG GCTGTGATGGCCAGTGACTTTGCCGTTTCTCAGTTCAAACATCTCAGCAAGCTCCTTCTT GTCCATGGACACTGGTGTTATACACGGCTTTCCAACATGATTCTCTATTTTTTCTATAAG AATGTGGCCTATGTGAACCTCCTTTTCTGGTACCAGTTCTTTTGTGGATTTTCAGGAACA TCCATGACTGATTACTGGGTTTTGATCTTCTTCAACCTCCTCTTCACATCTGCCCCTCCT GTCATTTATGGTGTTTTGGAGAAAGATGTGTCTGCAGAGACCCTCATGCAACTGCCTGAA CTTTACAGAAGTGGTCAGAAATCAGAGGCATACTTACCCCATACCTTCTGGATCACCTTA TTGGATGCTTTTTATCAAAGCCTGGTCTGCTTCTTTGTGCCTTATTTTACCTACCAGGGC TCAGATACTGACATCTTTGCATTTGGAAACCCCCTGAACACAGCCGCTCTGTTCATCGTT CTCCTCCATCTGGTCATTGAAAGCAAGAGTTTGACTTGGATTCACTTGCTGGTCATCATT GGTAGCATCTTGTCTTATTTTTTATTTGCCATAGTTTTTGGAGCCATGTGTGTAACTTGC AACCCACCATCCAACCCTTACTGGATTATGCAGGAGCACATGCTGGATCCAGTATTCTAC TTAGTTTGTATCCTCACGACATCCATTGCTCTTCTGCCCAGGTTTGTATACAGAGTTCTT CAGGGATCCCTGTTTCCATCTCCAATTCTGAGAGCTAAGCACTTTGACAGACTAACTCCA GAGGAGAGGACTAAAGCTCTCAAGAAGTGGAGAGGGGCTGGAAAGATGAATCAAGTGACA TCAAAGTATGCTAACCAATCAGCTGGCAAGTCAGGAAGAAGACCCATGCCTGGCCCTTCT GCTGTATTTGCAATGAAGTCAGCAAGTTCCTGTGCTATTGAGCAAGGAAACTTATCTCTG TGTGAAACTGCTTTAGATCAAGGCTACTCTGAAACTAAGGCCTTTGAGATGGCTGGACCC TCCAAAGGTAAAGAAAGCTAG Clone variation with respect to NM_020453.3 2159 a=>g;2307 c=>a;3921 g=>a >OriGene 5' read for NM_020453 unedited
TTCAGATTTTGTAATACGACTTCACTATAGGGCGGCCGCGAATTCGCACGAGGAGGAGCG GAGGGAGAAGTAGGTTGCGAGCTCAGCACAGGCTCCGGCGCTGGCTCCCGCAGCTGAGTT TGGGAGATGTCTAAGTGATTTTTTTTTTTTCCCGGAAGGCAAATGGCTGGCGTGGAAGCA CAACCCGCTTTCACTCTTCGAATTTGTGCTTAGCTCTTTTCTTGTACCTTGCGACTCGTG ACCAACATGCTGTGATGTGTGCCGAGGGAGGAATTGGTCAGCTACACAACCTGGATCTTA CCACAGTTTGGATATGACTGAGGCTCTCCAATGGGCCAGATATCACTGGCGACGGCTGAT CAGAGGTGCAACCAGGGATGATGATTCAGGGCCATACAACTATTCCTCGTTGCTCGCCTG TGGGCGCAAGTCCTCTCAGACCCCTAAACTGTCAGGAAGGCACCGGATTGTTGTTCCCCA CATCCAGCCCTTCAAGGATGAGTATGAGAAGTTCTCCGGAGCCTATGTGAACAATCGAAT ACGAACAACAAAGTACACACTTCTGAATTTTGTGCCAAGAAATTTATTTGAACAATTTCA CAGAGCTGCCAATTTATATTTCCTGTTCCTAGTTGTCCTGAACTGGGTACCTTTGGTAGA AGCCTTCCAAAAGGAAATCACCATGTTGCCTCTGGTGGTGGTCCTTTACATTATCGCAAT TAAGATGGCCTGGNAAGATATCGGAATACAAATTTGACCAACAGATCAATATTTAATACC TAAAGTTTATAGTAGGAAAGAGAAAAATACATTGACCGATGCTGGNAAGACGTACTGNTG GGGACTTATTCGNCTCTNCTGCACGAGGTATCCCTGCAGACATGGACTACTCTTTTCCCT GATCCAGATGGATCTGTCACATGAGACTTCTGGCTTGATGGAGAGAGCATTAAACAAGG >OriGene 3' read for NM_020453 unedited
TACACTATGNACGCGGCCGCAATCTAGNGATCAGTTTTTTTTTTTTTTTTTTATGAAACA GTTTATTTATAAAAACAGTCATAAGTAAAGCAGAAAGCAACTTCCATTAGCTATGTGAGA TTTTGAAAGTTCTCGAAATCAGCTTATGTAAGAGACTATTTCCAATAATAACAGAAGGCT ACAAAAATGTCAGACCAAAATAGTAGGCAGAAGGTAGAAAACTAAACCCTGAGAATAATA GTCATTAAGAAGACCTTGATGTAGACATTGCATATGAGCATGGAGATTCAGGAAGGAAAT TCTGGATGACTGGTGGCTGACAACTTTCAAATATAATAAATAGAGATAGGACTTCAAAAG AACTTCAACAGGAATATATGATTTTATAGTAGCACCTGGCCTTACTTAGAATAAAATCGT TTGTTACAACTAAAGCCAGCATACATGATTCGCAATAGGAGTAAACTTGCTATAGACATT CCTGTCCTCAAATGATTTTAAAACCAAATTTTTCTAAGAACCTCATAGAAACCTCCAGAG AACAACTTGTATTAGTTTCTGTTTATATCTCATATTTTAGAGGCTCCAACACCTGANAAG TCTCAGGGTATTGTAAAAACTATGAACCTTCAAGTGGTCTCTGGAAGATTGTTTTGAAAT TGATTGTATCACTTTGATCAGGCTACTGTCAGTTTTAAAATACAGGATATCACCCAATGG GCCACAGGCTGAGCTGATGTCTGCCTGACCTATGGCTTCAGTTTCCTAACTGACAACATC TATACAGAAGCAGATCTCATAAAGGTCTTCTCTTGATTGGACCCTGACGAGGATGCATTC CTGGTNCCTGATGAAAACCTANNATCCTCTTTCCCTTTCAATGAAGCNTCC |
Restriction Sites | NotI-NotI |
ACCN | NM_020453 |
Insert Size | 6000 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. |
Reference Data | |
RefSeq | NM_020453.2, NP_065186.2 |
RefSeq Size | 6550 bp |
RefSeq ORF | 4281 bp |
Locus ID | 57205 |
UniProt ID | Q9P241 |
Protein Families | Transmembrane |
Gene Summary | Catalytic component of a P4-ATPase flippase complex which catalyzes the hydrolysis of ATP coupled to the transport of aminophospholipids from the outer to the inner leaflet of various membranes and ensures the maintenance of asymmetric distribution of phospholipids. Phospholipid translocation seems also to be implicated in vesicle formation and in uptake of lipid signaling molecules (Probable).[UniProtKB/Swiss-Prot Function] |
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Other Versions
SKU | Description | Size | Price |
---|---|---|---|
RC221370 | ATP10D (Myc-DDK-tagged)-Human ATPase, class V, type 10D (ATP10D) |
CNY 9,760.00 |
|
RC221370L3 | Lenti ORF clone of Human ATPase, class V, type 10D (ATP10D), Myc-DDK-tagged |
CNY 16,150.00 |
|
RC221370L4 | Lenti ORF clone of Human ATPase, class V, type 10D (ATP10D), mGFP tagged |
CNY 16,150.00 |
|
RG221370 | ATP10D (tGFP-tagged) - Human ATPase, class V, type 10D (ATP10D) |
CNY 11,360.00 |