PKHD1 (NM_138694) Human Untagged Clone
SKU
SC306060
PKHD1 (untagged)-Human polycystic kidney and hepatic disease 1 (autosomal recessive) (PKHD1), transcript variant 1
| Product Data | |
| Type | Human Untagged Clone |
|---|---|
| Target Symbol | PKHD1 |
| Synonyms | ARPKD; FCYT; FPC; PKD4; TIGM1 |
| Vector | pCMV6-Entry |
| E. coli Selection | Kanamycin (25 ug/mL) |
| Mammalian Cell Selection | Neomycin |
| Sequence Data |
Fully Sequenced ORF
>SC306060 representing NM_138694.
Blue=Insert sequence Red=Cloning site Green=Tag(s) GCTCGTTTAGTGAACCGTCAGAATTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTG GATCCGGTACCGAGGAGATCTGCCGCCGCGATCGCC ATGACTGCCTGGCTGATCTCTCTGATGAGTATTGAAGTACTACTTTTGGCAGTACGTCACCTGAGTTTA CATATTGAACCTGAAGAAGGTAGCCTTGCAGGGGGAACGTGGATCACAGTCATTTTTGATGGTTTGGAG TTGGGTGTTCTTTACCCCAACAATGGCTCTCAATTGGAGATACACCTGGTGAACGTGAACATGGTGGTG CCCGCACTGCGGAGTGTTCCCTGTGACGTCTTTCCTGTTTTCTTGGATTTGCCTGTGGTGACATGCCGG ACCAGATCTGTGCTGTCTGAAGCACATGAGGGTCTGTACTTCCTGGAAGCATACTTCGGGGGACAGCTG GTAAGCAGTCCAAATCCAGGACCACGAGATAGCTGTACTTTCAAGTTTTCCAAGGCGCAGACACCCATC GTTCACCAAGTTTATCCACCAAGTGGTGTTCCAGGAAAACTAATACATGTATATGGCTGGATTATCACT GGAAGATTGGAAACTTTTGATTTTGATGCTGAGTACATTGATAGCCCAGTGATCTTGGAAGCTCAAGGA GACAAATGGGTTACTCCTTGCTCTCTTATAAATAGGCAGATGGGAAGCTGTTATCCTATTCAGGAGGAC CATGGTCTTGGGACTCTGCAGTGCCATGTGGAAGGCGACTACATCGGCTCCCAGAATGTTAGCTTCTCA GTATTTAACAAAGGAAAGTCAATGGTCCACAAGAAGGCATGGCTGATCAGTGCTAAACAGGATCTTTTC CTATACCAGACACACTCAGAAATATTATCTGTGTTTCCAGAAACTGGGAGCCTTGGGGGAAGAACAAAC ATCACAATTACAGGAGACTTTTTTGACAATTCTGCCCAGGTTACCATTGCAGGCATTCCATGTGATATT AGACACGTGTCTCCCAGGAAGATTGAGTGCACCACTCGGGCTCCAGGAAAAGATGTGAGGCTCACCACC CCTCAGCCAGGCAATCGAGGGCTTCTTTTTGAAGTTGGAGATGCTGTTGAGGGACTGGAACTGACTGAA GCCACCCCAGGGTACAGGTGGCAGATTGTCCCTAATGCCAGTTCTCCATTTGGGTTTTGGTCACAGGAA GGACAACCTTTCAGAGCACGGCTCAGTGGGTTCTTTGTGGCTCCAGAGACAAATAATTACACTTTCTGG ATTCAGGCAGATAGCCAAGCTTCCTTGCATTTCAGTTGGTCAGAGGAACCAAGGACTAAGGTGAAAGTG GCCTCCATCAGCGTCGGCACTGCTGACTGGTTTGACTCCTGGGAGCAGAATAGGGATGAAGGGACCTGG CAGCAGAAGACTCCCAAGTTGGAGCTGTTGGGTGGAGCCATGTACTACCTGGAAGCAGAGCATCATGGG ATAGCCCCAAGCAGGGGGATGAGGATTGGTGTCCAGATTCACAACACCTGGCTGAATCCTGATGTGGTC ACCACTTACCTACGGGAGAAGCACCAGATCCGAGTCCGAGCCCAGAGGCTTCCAGAAGTACAGGTGCTG AATGTATCAGGCAGAGGAAACTTCTTCCTTACTTGGGACAATGTCTCTAGTCAGCCAATCCCTGCAAAT GCCACAGCCCATCTGATTCAAACAACCATTGAGGAGTTACTTGCAGTAAAATGCAAACTGGAACCCCTT TGGTCTAACATCCTTCTCCGGCTTGGATTTGAACGAGGCCCAGAAGTTTCCAACTCTGATGGGGACCTC ACCAGTGGGACGGAGCCCTTCTGTGGCAGGTTCAGCCTCCGTCAGCCTCGACACCTTGTCCTTACTCCC CCGGCTGCCCAGAAGGGCTATCGGCTAGATCAGTATACACACCTGTGTCTTGCATACAAAGGCCACATG AACAAGATCCTGAAGATGATTGTGTCCTTCACAATCGGCTTTCAAAACATGGTAAAGAATACCACCTGT GACTGGAGTCTCACGAGGACCAGCCCCGAGAGCTGGCAGTTCGATTGCACTGACCTCTGGGAGACTTGT GTGCGTTGCTTCGGGGATCTCCAGCCCCCTCCGGCAAACTCCCCAGTGCTGGTTCATCAGATCAACCTT CTCCCTCTGGCCCAGGAGACGGGCCTGTTCTATGTGGATGAAATTATTATTGCAGACACAAACGTAACA GTTTCTCAAGCTGATTCTGGAACGGCTCGCCCAGGGGGCAATCTGGTGGAATCAGTCTCTGTGGTGGGA TCCCCTCCGGTCTACAGTGTCACCTCCTGGCTGGCGGGGTGTGGCACGGAGCTCCCGCTCATCACTGCA CGCTCTGTGCCCACTGAAGGAACAGAAGAGGGATCTGGACTGGTCCTGGTGACGACACAGAGACGACAG CGGACAAGTCCACCTCTAGGAGGACACTTTCGCATCCAGCTTCCTAATACAGTGATTTCTGATGTCCCT GTACAAATTTCTGCTCATCACCTTCACCAGCTCTTACAGAATAATGCCGATGACTTCACATCCAGGTAC CTCAATGCCAGTGACTTCACTGTGAAGGAGGATCTATACACTTGCTACGAACACGTGTGGACCTTGTCC TGGTCCACTCAGATTGGGGATTTGCCCAATTTTATCAGGGTCTCTGATGAAAACCTTACTGGAGTGAAT CCTGCTGCAGCCACGCGTGTGGTATATGATGGTGGAGTTTTTCTTGGACCCATATTTGGAGACATGTTG GCTACTGCCAACCAGCATACTCAGGTGGTTGTGCGAGTGAATGATGTACCAGCTCATTGCCCAGGTTCC TGCTCTTTCCAGTACCTCCAAGGGTCAACTCCCTGTGTCCATTCTGTGTGGTACTCCATTGATGGTGAC ATCAACCTAATGATTTACATTACCGGAACTGGTTTCTCTGGTGACTCCCAGTTCTTGCAGGTTACAGTG AACAAAACGAGTTGCAAAGTTATTTTCTCAAACCAGACCAATGTAGTCTGTCAGACAGATTTGCTACCT GTTGGAATGCATCGGATCTTGATGTTGGTGAGACCCTCTGGTCTTGCCATCAGTGCCACTGGAGAAGAC CTCTTCCTAAATGTGAAACCTAGACTGGATATGGTGGAGCCTTCCAGAGCTGCGGATATTGGAGGGCTC TGGGCCACCATCCGAGGCTCTAGTTTGGAAGGTGTTAGCCTGATATTATTTGGATCTTACTCGTGTGCC ATCAATGTCGCTACAAGCAATTCAAGCAGAATTCAGTGCAAAGTTCCACCCAGGGGGAAAGATGGACGC ATTGTGAATGTGACTGTGATCAGAGGGGACTATTCTGCAGTTCTTCCCAGAGCATTTACATATGTCTCT TCCTTAAATCCAGTTATTGTGACTCTGAGCAGAAACATAAGCAATATAGCAGGCGGTGAGACCCTGGTC ATTGGAGTGGCGAGGCTGATGAACTATACGGATTTGGATGTGGAAGTCCACGTCCAGGATGCCTTGGCT CCGGTTCACACACAGTCGGCTTGGGGCCTGGAGGTGGCACTGCCCCCACTGCCAGCTGGTCTCCACAGA ATTTCCGTCTCTATCAATGGGGTCAGCATTCACTCACAAGGGGTTGATCTCCACATCCAGTACCTCACA GAAGTTTTCAGCATCGAGCCTTGCTGTGGGTCCCTGCTGGGAGGGACCATCCTCAGCATCTCAGGAATA GGCTTCAGCAGGGACCCAGCTTTGGTTTGGGTACTTGTGGGCAATCGGTCCTGTGACATTGTGAACTTA ACGGAGGCGAGCATCTGGTGTGAAACCCTGCCAGCCCCCCAGATACCCGATGCGGGCGCTCCCACTGTT CCAGCTGCCGTGGAGGTCTGGGCTGGCAACAGGTTCTTCGCCCGTGGTCCTTCACCAAGCTTGGTGGGG AAAGGCTTCACCTTCATGTATGAAGCGGCAGCAACACCAGTAGTCACTGCCATGCAAGGAGAAATCACA AATAGCAGCCTGAGCCTGCATGTGGGAGGAAGTAACCTCTCCAACTCAGTCATCCTTCTGGGGAACCTG AACTGTGATGTTGAGACACAGTCCTTCCAGGGCAACGTGAGCCTGTCTGGATGCTCCATCCCTCTTCAC AGTCTGGAGGCTGGCATCTATCCTCTCCAAGTACGTCAGAAGCAGATGGGATTTGCTAATATGTCTGTG GTGCTCCAGCAATTTGCAGTGATGCCTCGGATAATGGCCATCTTCCCATCGCAGGGTTCGGCATGTGGT GGGACCATACTTACTGTGAGGGGGTTGCTTCTTAACTCTAGAAGGAGGTCAGTTCGGGTTGACCTCTCG GGTCCTTTTACTTGTGTGATTTTGAGTTTGGGAGACCACACCATTCTCTGCCAGGTTAGCCTGGAGGGT GACCCCTTGCCTGGAGCTTCCTTCTCCCTGAACGTCACAGTCCTGGTCAATGGGCTAACCAGCGAGTGT CAGGGGAATTGCACTCTTTTCATAAGGGAAGAGGCAAGTCCTGTCATGGATGCCTTGTCCACAAACACC AGTGGGTCTCTGACCACTGTGCTGATTAGGGGTCAGAGGTTAGCCACCACAGCTGATGAGCCGATGGTA TTTGTGGATGATCAACTTCCTTGCAATGTAACTTTTTTTAATGCAAGCCACGTTGTGTGCCAGACAAGA GACTTGGCCCCAGGACCCCACTACCTGTCAGTTTTTTATACAAGAAATGGGTATGCTTGTTCTGGTAAT GTTTCCAGACACTTCTACATTATGCCCCAAGTGTTTCATTATTTTCCTAAGAATTTCAGCTTACATGGT GGAAGCCTCTTGACCATAGAGGGCACAGGCCTGAGAGGACAGAACACCACGTCAGTCTATATTGACCAG CAGACCTGCCTGACGGTGAACATCGGTGCTGAGCTCATCCGGTGCATTGTTCCCACAGGGAATGGCTCT GTTGCCCTGGAAATAGAGGTAGATGGACTTTGGTATCACATAGGAGTCATTGGTTATAACAAGGCCTTT ACCCCAGAATTGATCTCTATTTCTCAGAGCGATGACATCTTAACCTTTGCAGTGGCCCAGATCTCAGGA GCTGCAAACATTGACATTTTTATAGGAATGTCACCCTGTGTGGGTGTCTCTGGTAACCACACCGTTCTT CAGTGCGTGGTCCCTTCCCTTCCGGCCGGGGAGTACCACGTCAGAGGCTATGACTGCATCAGAGGGTGG GCCTCATCTGCCCTGGTGTTCACCTCAAGAGTTATTATTACAGCAGTGACGGAGAACTTCGGCTGCCTG GGTGGAAGGCTGGTGCATGTGTTTGGAGCGGGATTTTCTCCAGGGAATGTCTCAGCTGCTGTGTGTGGT GCTCCCTGCCGAGTCCTGGCTAATGCTACAGTGTCTGCCTTCAGCTGCTTGGTTCTGCCCCTGGATGTG TCCTTGGCCTTCCTGTGTGGCCTGAAGCGTGAGGAGGACAGCTGTGAGGCTGCCAGACACACCTATGTG CAGTGTGATTTGACAGTTGCCATGGCGACAGAGCAACTGCTTGAATCGTGGCCTTACCTCTACATTTGC GAGGAAAGTTCCCAATGCCTCTTTGTGCCAGATCATTGGGCAGAGTCAATGTTTCCATCATTCTCGGGC CTCTTTATCAGCCCTAAATTGGAAAGAGATGAAGTTCTCATCTATAATAGCTCCTGTAACATTACCATG GAAACTGAGGCAGAGATGGAGTGTGAGACGCCCAATCAGCCAATTACCGTCAAGATTACTGAGATACGG AAACGCTGGGGCCAGAACACTCAGGGCAACTTTTCTTTACAGTTCTGCCGGAGATGGTCCAGGACTCAC AGCTGGTTTCCTGAAAGGCTGCCACAAGATGGCGACAACGTCACAGTGGAGAATGGCCAATTGCTTCTG CTGGACACTAACACAAGCATCCTCAACTTACTGCACATTAAAGGGGGCAAGCTGATTTTCATGGCCCCA GGACCCATCGAGCTCAGGGCACACGCCATCCTTGTTTCTGATGGTGGAGAGCTCCGGATTGGATCCGAA GACAAGCCCTTCCAAGGCAGAGCTCAGATCACACTCTACGGGAGTTCCTACTCAACTCCCTTCTTTCCC TATGGAGTCAAGTTCCTGGCTGTGAGGAATGGAACTCTTTCTCTGCACGGTTCACTACCAGAAGTAATT GTCACCTGTCTTAGAGCAACTGCCCATGCCCTAGACACAGTGCTGGCTTTAGAAGATGCTGTGGACTGG AACCCTGGGGATGAAGTTGTCATCATCAGTGGAACAGGTGTTAAAGGTGCCAAACCGATGGAAGAGATT GTCACTGTGGAAACTGTGCAGGATACAGACCTCTATCTTAAGTCACCTTTGAGATATTCTCACAACTTT ACAGAGAATTGGGTGGCTGGAGAGCACCATATTTTAAAGGCCACTGTGGCTCTGCTCAGCAGGAGTATT ACCATACAAGGAAATCTCACTAATGAGAGGGAGAAGCTGCTTGTTTCATGCCAGGAGGCCAATGCTCCA GAAGGTAATCTGCAGCACTGTTTGTATTCCATGAGTGAGAAGATGCTAGGATCCAGGGATATGGGAGCC AGAGTGATCGTTCAGTCCTTCCCAGAAGAGCCCAGCCAGGTCCAGTTGAAGGGAGTGCAGTTTCAAGTC TTGGGGCAAGCCTTCCATAAGCATCTGAGCTCACTCACTCTGGTGGGAGCTATGAGAGAGTCTTTCATA CAGGGCTGCACAGTGAGGAACTCCTTCAGTAGAGGCCTCAGCATGTGCGGGACCTTGGGCCTGAAGGTG GACAGTAATGTATTCTACAATATTTTAGGTCATGCGCTGCTAGTTGGGACATGCACGGAGATGAGATAT ATCTCCTGGGAGGCAATTCATGGAAGGAAAGATGACTGGTCAGGACATGGAAATATAATAAGAAACAAC GTGATCATCCAGGTTTCTGGTGCCGAGGGACTCTCCAATCCTGAAATGTTGACACCATCTGGCATCTAT ATCTGCAGTCCCACCAATGTTATAGAGGGGAACAGAGTGTGTGGTGCTGGCTATGGCTACTTTTTCCAT CTCATGACCAACCAAACATCACAAGCTCCGCTTCTTTCCTTCACTCAGAACATTGCACATTCTTGTACC AGGTATGGTCTCTTTGTATACCCTAAATTTCAGCCACCTTGGGATAATGTCACTGGCACCACTCTGTTC CAGAGCTTCACAGTTTGGGAAAGTGCAGGTGGTGCCCAGATTTTTAGAAGTAGCAATCTTCGCCTGAAA AACTTCAAAGTTTATTCATGCAGAGATTTTGGAATTGACGTCTTGGAAAGTGATGCAAATACTTCAGTT ACTGACAGCTTATTACTTGGTCATTTTGCCCACAAGGGAAGTCTGTGTATGTCATCTGGGATTAAAACT CCTAAAAGATGGGAACTGATGGTGTCTAACACAACCTTTGTTAATTTTGATCTCATCAACTGTGTGGCC ATTAGAACCTGTTCAGACTGTTCCCAAGGACAAGGTGGATTTACTGTGAAGACCAGCCAGTTGAAGTTT ACAAACTCTTCAAACTTAGTGGCATTTCCATTTCCTCATGCAGCAATTTTGGAAGACTTGGATGGGTCT CTGTCTGGGAAAAACAGAAGTCACATTCTTGCTTCTATGGAAACCCTTTCAGCTTCTTGTTTGGTCAAT TCAAGCTTTGGTCGGGTTGTCCATGGCAGTGCCTGTGGAGGAGGTGTTCTTTTTCATCGTATGTCTATT GGTTTAGCGAATACTCCTGAAGTTTCTTATGATTTAACCATGACTGACAGCAGAAATAAAACAACCACT GTCAATTATGTACGTGATACATTGTCTAACCCTCGTGGCTGGATGGCTCTGCTCTTGGACCAAGAGACC TACTCATTGCAATCTGAGAACCTTTGGATCAACAGATCTCTGCAGTACTCAGCAACCTTTGACAACTTT GCTCCTGGTAATTACCTACTGCTGGTGCACACAGATTTGCCGCCTTACCCTGACATCCTCCTAAGATGT GGGAGTCGAGTGGGTCTGTCTTTTCCATTTCTTCCATCACCAGGTCAGAACCAAGGCTGTGACTGGTTC TTCAATAGCCAGCTGAGGCAACTCACCTATCTGGTTTCAGGTGAAGGCCAAGTTCAAGTCATTCTCCGG GTGAAGGAAGGTATGCCCCCAACTATTTCAGCTTCTACCTCTGCCCCTGAATCAGCTTTAAAATGGTCC CTCCCTGAAACATGGCAAGGTGTTGAAGAAGGCTGGGGAGGATACAACAATACCATTCCAGGCCCTGGG GATGACGTTCTCATTTTACCCAACAGAACTGTCCTTGTGGATACAGATCTTCCATTCTTCAAAGGGCTG TATGTGATGGGGACCTTAGACTTCCCTGTGGACAGAAGCAATGTTCTGAGTGTGGCATGCATGGTCATT GCAGGCGGGGAGCTGAAAGTTGGTACTTTAGAAAATCCCTTAGAAAAGGAACAAAAGCTTCTGATTCTC CTTAGAGCCTCAGAGGGAGTCTTTTGTGACCGTATGAATGGAATTCATATTGACCCAGGAACAATTGGG GTTTATGGGAAAGTTCATCTTTACAGTGCTTATCCTAAGAACTCCTGGACACATCTTGGAGCTGATATT GCCTCAGGAAATGAGAGAATTATAGTAGAAGATGCAGTGGATTGGCGCCCCCATGACAAAATAGTCCTT AGCTCCTCTTCTTATGAGCCTCATGAAGCAGAGGTCCTCACTGTGAAAGAAGTCAAGGGCCACCATGTG AGGATCTATGAACGGCTCAAACACCGGCATATTGGAAGTGTACATGTCACGGAGGATGGCCGACACATT CGTTTGGCTGCTGAGGTTGGACTGTTGACCCGAAATATACAAATTCAGCCTGACGTATCATGTAGGGGG AGACTGTTTGTGGGGTCCTTCAGGAAGTCCAGCCGAGAAGAATTTTCAGGTGTCCTTCAACTTCTTAAT GTGGAAATTCAGAACTTCGGGTCACCATTGTACTCATCTGTTGAATTCAGTAATGTGTCAGCAGGATCC TGGATCATATCATCTACTCTGCACCAGAGCTGTGGCGGGGGCATTCATGCAGCTGCCAGTCATGGAGTA CTTTTAAATGACAATATTGTGTTTGGCACAGCTGGCCATGGCATAGATTTAGAGGGTCAGGCCTATACT GTCACTAATAACCTTGTGGTTCTGATGACACAGCCAGCGTGGTCCACCATTTGGGTGGCGGGAATCAAA GTGAACCAGGTAAAGGACATCAACCTCCATGGCAACGTTGTGGCAGGATCAGAGAGACTTGGCTTTCAC ATCCGAGGCCACAAGTGCTCCTCTTGTGAACTGCTTTGGTCTGACAATGTGGCGCATTCAAGTCTTCAT GGCCTTCATCTCTATAAGGAAAGTGGACTTGACAACTGTACCAGAATCTCTGGCTTCTTGGCTTTCAAG AACTTTGACTATGGTGCCATGTTACATGTAGAGAACAGCGTGGAGATAGAGAACATTACTCTGGTAGAC AATACTATTGGTCTTTTGGCAGTAGTGTATGTATTTTCTGCTCCACAAAATTCCGTCAAAAAAGTGCAG ATTGTGCTTAGGAATTCAGTCATTGTGGCCACCAGCTCTTCTTTTGACTGCATTCAGGACAAAGTGAAG CCGCACTCAGCCAACTTGACATCAACAGATAGAGCTCCCTCCAATCCAAGAGGAGGTCGAATTGGTATT CTGTGGCCTGTATTCACCTCAGAACCAAATCAGTGGCCTCAGGAGCCATGGCACAAAGTGAGGAATGAT CATTCAATTTCAGGAATCATGAAACTTCAAGATGTTACCTTTTCTAGTTTTGTGAAGAGTTGCTATAGC GATGACCTGGATGTCTGCATTCTACCAAATGCAGAGAACAGTGGAATTATGCACCCAATAACAGCAGAG AGGACCAGGATGCTAAAGATAAAAGATAAAAACAAGTTCTACTTTCCTTCATTACAACCCAGGAAAGAT TTAGGAAAAGTAGTCTGTCCTGAATTAGACTGTGCAAGTCCAAGAAAATATCTCTTCAAGGATCTGGAT GGGAGAGCCCTGGGTCTGCCTCCACCAGTTTCTGTATTTCCTAAAACAGAGGCAGAATGGACTGCATCC TTCTTCAACGCAGGTACATTTAGAGAAGAACAGAAATGTACATACCAATTTCTGATGCAAGGATTCATC TGCAAACAGACTGACCAAGTGGTCCTAATTCTTGATAGCGCTGATGCCATTTGGGCAATTCAGAAGTTA TATCCAGTTGTATCTGTGACTAGTGGTTTTGTTGATGTCTTTAGCAGTGTAAATGCCAATATTCCCTGC TCTACTTCTGGGTCAGTGTCTACTTTCTATTCTATCTTACCCATCAGGCAAATCACCAAAGTCTGCTTC ATGGATCAAACTCCTCAAGTTTTGCGCTTTTTTCTATTGGGGAACAAAAGTACCTCCAAGCTTCTCTTG GCTGTATTCTACCATGAGCTCCAGAGCCCCCACGTCTTCTTAGGGGAAAGTTTTATTCCACCCACTCTG GTTCAGTCAGCTTCCTTATTGCTGAATGAATCTATTGGTGCCAACTATTTCAACATCATGGATAACCTC TTGTATGTTGTCCTACAAGGAGAGGAGCCCATTGAAATACGCTCAGGTGTTTCCATTCACTTGGCCCTC ACTGTGATGGTTTCAGTCTTAGAAAAAGGCTGGGAAATAGTAATACTCGAAAGACTAACTAACTTCTTA CAGATTGGCCAAAACCAAATCAGGTTTATTCACGAGATGCCTGGCCATGAAGAGACCTTAAAGGCCATT GCTGACAGTAGAGCAAAAAGAAAGCGCAATTGCCCTACTGTGACTTGCACTAGTCATTATAGAAGAGTT GGTCAACGTAGGCCTCTCATGATGGAAATGAACTCACATAGGGCTTCACCCCCAATGACTGTGGAAACT ATCTCAAAAGTGATTGTCATTGAAATTGGTGATTCGCCAACAGTAAGGAGCACTGGAATGATTTCATCC TTATCAAGTAACAAATTACAGAATTTGGCTCATCGAGTCATCACTGCTCAACAGACTGGGGTACTAGAG AATGTTCTGAATATGACTATCGGGGCCTTACTAGTTACTCAGTCAAAGGGAGTCATTGGCTATGGAAAT ACAAGCAGTTTTAAAACTGGGAACTTGATATATATTCGGCCCTATGCACTTTCCATCCTAGTCCAGCCT TCAGATGGAGAAGTGGGAAATGAGCTTCCAGTGCAGCCACAATTGGTATTTTTGGATGAGCAGAATCGA AGAGTAGAGTCCCTGGGACCTCCTTCAGAGCCATGGACAATTTCAGCTTCCCTGGAAGGAGCATCAGAC TCAGTGCTAAAAGGGTGCACCCAGGCAGAAACTCAAGATGGTTATGTTAGCTTCTACAACTTGGCAGTC TTGATCTCTGGGTCAAACTGGCACTTTATTTTTACTGTCACTTCTCCTCCAGGAGTCAATTTTACAGCT CGATCCAAGCCATTTGCTGTCTTGCCTGTGACTAGGAAGGAGAAGTCGACCATCATCCTGGCTGCTTCC CTGTCCTCTGTGGCCTCATGGCTGGCTCTGAGCTGTCTGGTGTGCTGTTGGCTTAAAAGAAGCAAAAGC AGAAAAACAAAACCTGAAGAGATTCCTGAATCCCAGACTAATAATCAAAATATTCATATCCACATCTCA TCCAAACGCCGAGAATCACAAGGGCCCAAAAAAGAAGACACTGTGGTGGGAGAAGATATGAGAATGAAG GTCATGCTGGGCAAGGTGAACCAGTGCCCCCACCAGTTGATGAATGGAGTGTCCAGAAGGAAAGTTAGC CGCCACATTGTCCGAGAGGAAGAGGCTGCTGTGCCTGCTCCTGGTACTACTGGCATCACATCCCATGGG CACATCTGTGCTCCAGGTGCTCCTGCTCAGCAGGTGTACCTGCAAGAGACTGGGAACTGGAAGGAGGGC CAAGAGCAGTTGCTCAGATACCAGCTGGCAGGCCAAAATCAGCTGCTGCTGCTATGCCCAGACTTCAGA CAAGAGAGGCAGCAGTTGCCAGGGCAAAGTCGGCTGAGTAAGCAAAGTGGCAGCTTGGGGCTTTCCCAA GAGAAGAAAGCCTCCTGCGGGGCCACTGAGGCATTCTGCCTTCATTCAGTACACCCGGAAACTATTCAG GAGCAACTGTGA AGCGGACCGACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGAT ATCCTGGATTACAAGGATGACGACGATAAGGTTTAA |
| Restriction Sites | SgfI-RsrII |
| ACCN | NM_138694 |
| Insert Size | 12225 bp |
| 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. 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. |
| 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 Method | 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. |
| Shipping | Ambient |
| Reference Data | |
| RefSeq | NM_138694.3 |
| RefSeq Size | 16235 bp |
| RefSeq ORF | 12225 bp |
| Locus ID | 5314 |
| UniProt ID | P08F94 |
| Cytogenetics | 6p12.3-p12.2 |
| Protein Families | Druggable Genome, Transmembrane |
| MW | 446.7 kDa |
| Summary | The protein encoded by this gene is predicted to have a single transmembrane (TM)-spanning domain and multiple copies of an immunoglobulin-like plexin-transcription-factor domain. Alternative splicing results in two transcript variants encoding different isoforms. Other alternatively spliced transcripts have been described, but the full length sequences have not been determined. Several of these transcripts are predicted to encode truncated products which lack the TM and may be secreted. Mutations in this gene cause autosomal recessive polycystic kidney disease, also known as polycystic kidney and hepatic disease-1. [provided by RefSeq, Jul 2008] Transcript Variant: This variant (1) encodes the longer isoform of this protein. |
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| SDS |
| SKU | Description | Size | Price | |
|---|---|---|---|---|
| RC218550 | PKHD1 (Myc-DDK-tagged)-Human polycystic kidney and hepatic disease 1 (autosomal recessive) (PKHD1), transcript variant 1 | 10 ug |
$4,859.00
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| RC218550L1 | Lenti ORF clone of Human polycystic kidney and hepatic disease 1 (autosomal recessive) (PKHD1), transcript variant 1, Myc-DDK-tagged | 10 ug |
$5,159.00
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| RG218550 | PKHD1 (tGFP-tagged) - Human polycystic kidney and hepatic disease 1 (autosomal recessive) (PKHD1), transcript variant 1 | 10 ug |
$5,059.00
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