PKHD1 (NM_170724) Human Untagged Clone
CAT#: SC306689
PKHD1 (untagged)-Human polycystic kidney and hepatic disease 1 (autosomal recessive) (PKHD1), transcript variant 2
CNY 65,270.00
Product images
Specifications
Product Data | |
Type | Human Untagged Clone |
Tag | Tag Free |
Synonyms | ARPKD; FCYT; FPC; PKD4; TIGM1 |
Vector | pCMV6 series |
Sequence Data |
>NCBI ORF sequence for NM_170724, the custom clone sequence may differ by one or more nucleotides
ATGACTGCCTGGCTGATCTCTCTGATGAGTATTGAAGTACTACTTTTGGCAGTACGTCAC CTGAGTTTACATATTGAACCTGAAGAAGGTAGCCTTGCAGGGGGAACGTGGATCACAGTC ATTTTTGATGGTTTGGAGTTGGGTGTTCTTTACCCCAACAATGGCTCTCAATTGGAGATA CACCTGGTGAACGTGAACATGGTGGTGCCCGCACTGCGGAGTGTTCCCTGTGACGTCTTT CCTGTTTTCTTGGATTTGCCTGTGGTGACATGCCGGACCAGATCTGTGCTGTCTGAAGCA CATGAGGGTCTGTACTTCCTGGAAGCATACTTCGGGGGACAGCTGGTAAGCAGTCCAAAT CCAGGACCACGAGATAGCTGTACTTTCAAGTTTTCCAAGGCGCAGACACCCATCGTTCAC CAAGTTTATCCACCAAGTGGTGTTCCAGGAAAACTAATACATGTATATGGCTGGATTATC ACTGGAAGATTGGAAACTTTTGATTTTGATGCTGAGTACATTGATAGCCCAGTGATCTTG GAAGCTCAAGGAGACAAATGGGTTACTCCTTGCTCTCTTATAAATAGGCAGATGGGAAGC TGTTATCCTATTCAGGAGGACCATGGTCTTGGGACTCTGCAGTGCCATGTGGAAGGCGAC TACATCGGCTCCCAGAATGTTAGCTTCTCAGTATTTAACAAAGGAAAGTCAATGGTCCAC AAGAAGGCATGGCTGATCAGTGCTAAACAGGATCTTTTCCTATACCAGACACACTCAGAA ATATTATCTGTGTTTCCAGAAACTGGGAGCCTTGGGGGAAGAACAAACATCACAATTACA GGAGACTTTTTTGACAATTCTGCCCAGGTTACCATTGCAGGCATTCCATGTGATATTAGA CACGTGTCTCCCAGGAAGATTGAGTGCACCACTCGGGCTCCAGGAAAAGATGTGAGGCTC ACCACCCCTCAGCCAGGCAATCGAGGGCTTCTTTTTGAAGTTGGAGATGCTGTTGAGGGA CTGGAACTGACTGAAGCCACCCCAGGGTACAGGTGGCAGATTGTCCCTAATGCCAGTTCT CCATTTGGGTTTTGGTCACAGGAAGGACAACCTTTCAGAGCACGGCTCAGTGGGTTCTTT GTGGCTCCAGAGACAAATAATTACACTTTCTGGATTCAGGCAGATAGCCAAGCTTCCTTG CATTTCAGTTGGTCAGAGGAACCAAGGACTAAGGTGAAAGTGGCCTCCATCAGCGTCGGC ACTGCTGACTGGTTTGACTCCTGGGAGCAGAATAGGGATGAAGGGACCTGGCAGCAGAAG ACTCCCAAGTTGGAGCTGTTGGGTGGAGCCATGTACTACCTGGAAGCAGAGCATCATGGG ATAGCCCCAAGCAGGGGGATGAGGATTGGTGTCCAGATTCACAACACCTGGCTGAATCCT GATGTGGTCACCACTTACCTACGGGAGAAGCACCAGATCCGAGTCCGAGCCCAGAGGCTT CCAGAAGTACAGGTGCTGAATGTATCAGGCAGAGGAAACTTCTTCCTTACTTGGGACAAT GTCTCTAGTCAGCCAATCCCTGCAAATGCCACAGCCCATCTGATTCAAACAACCATTGAG GAGTTACTTGCAGTAAAATGCAAACTGGAACCCCTTTGGTCTAACATCCTTCTCCGGCTT GGATTTGAACGAGGCCCAGAAGTTTCCAACTCTGATGGGGACCTCACCAGTGGGACGGAG CCCTTCTGTGGCAGGTTCAGCCTCCGTCAGCCTCGACACCTTGTCCTTACTCCCCCGGCT GCCCAGAAGGGCTATCGGCTAGATCAGTATACACACCTGTGTCTTGCATACAAAGGCCAC ATGAACAAGATCCTGAAGATGATTGTGTCCTTCACAATCGGCTTTCAAAACATGGTAAAG AATACCACCTGTGACTGGAGTCTCACGAGGACCAGCCCCGAGAGCTGGCAGTTCGATTGC ACTGACCTCTGGGAGACTTGTGTGCGTTGCTTCGGGGATCTCCAGCCCCCTCCGGCAAAC TCCCCAGTGCTGGTTCATCAGATCAACCTTCTCCCTCTGGCCCAGGAGACGGGCCTGTTC TATGTGGATGAAATTATTATTGCAGACACAAACGTAACAGTTTCTCAAGCTGATTCTGGA ACGGCTCGCCCAGGGGGCAATCTGGTGGAATCAGTCTCTGTGGTGGGATCCCCTCCGGTC TACAGTGTCACCTCCTGGCTGGCGGGGTGTGGCACGGAGCTCCCGCTCATCACTGCACGC TCTGTGCCCACTGAAGGAACAGAAGAGGGATCTGGACTGGTCCTGGTGACGACACAGAGA CGACAGCGGACAAGTCCACCTCTAGGAGGACACTTTCGCATCCAGCTTCCTAATACAGTG ATTTCTGATGTCCCTGTACAAATTTCTGCTCATCACCTTCACCAGCTCTTACAGAATAAT GCCGATGACTTCACATCCAGGTACCTCAATGCCAGTGACTTCACTGTGAAGGAGGATCTA TACACTTGCTACGAACACGTGTGGACCTTGTCCTGGTCCACTCAGATTGGGGATTTGCCC AATTTTATCAGGGTCTCTGATGAAAACCTTACTGGAGTGAATCCTGCTGCAGCCACGCGT GTGGTATATGATGGTGGAGTTTTTCTTGGACCCATATTTGGAGACATGTTGGCTACTGCC AACCAGCATACTCAGGTGGTTGTGCGAGTGAATGATGTACCAGCTCATTGCCCAGGTTCC TGCTCTTTCCAGTACCTCCAAGGGTCAACTCCCTGTGTCCATTCTGTGTGGTACTCCATT GATGGTGACATCAACCTAATGATTTACATTACCGGAACTGGTTTCTCTGGTGACTCCCAG TTCTTGCAGGTTACAGTGAACAAAACGAGTTGCAAAGTTATTTTCTCAAACCAGACCAAT GTAGTCTGTCAGACAGATTTGCTACCTGTTGGAATGCATCGGATCTTGATGTTGGTGAGA CCCTCTGGTCTTGCCATCAGTGCCACTGGAGAAGACCTCTTCCTAAATGTGAAACCTAGA CTGGATATGGTGGAGCCTTCCAGAGCTGCGGATATTGGAGGGCTCTGGGCCACCATCCGA GGCTCTAGTTTGGAAGGTGTTAGCCTGATATTATTTGGATCTTACTCGTGTGCCATCAAT GTCGCTACAAGCAATTCAAGCAGAATTCAGTGCAAAGTTCCACCCAGGGGGAAAGATGGA CGCATTGTGAATGTGACTGTGATCAGAGGGGACTATTCTGCAGTTCTTCCCAGAGCATTT ACATATGTCTCTTCCTTAAATCCAGTTATTGTGACTCTGAGCAGAAACATAAGCAATATA GCAGGCGGTGAGACCCTGGTCATTGGAGTGGCGAGGCTGATGAACTATACGGATTTGGAT GTGGAAGTCCACGTCCAGGATGCCTTGGCTCCGGTTCACACACAGTCGGCTTGGGGCCTG GAGGTGGCACTGCCCCCACTGCCAGCTGGTCTCCACAGAATTTCCGTCTCTATCAATGGG GTCAGCATTCACTCACAAGGGGTTGATCTCCACATCCAGTACCTCACAGAAGTTTTCAGC ATCGAGCCTTGCTGTGGGTCCCTGCTGGGAGGGACCATCCTCAGCATCTCAGGAATAGGC TTCAGCAGGGACCCAGCTTTGGTTTGGGTACTTGTGGGCAATCGGTCCTGTGACATTGTG AACTTAACGGAGGCGAGCATCTGGTGTGAAACCCTGCCAGCCCCCCAGATACCCGATGCG GGCGCTCCCACTGTTCCAGCTGCCGTGGAGGTCTGGGCTGGCAACAGGTTCTTCGCCCGT GGTCCTTCACCAAGCTTGGTGGGGAAAGGCTTCACCTTCATGTATGAAGCGGCAGCAACA CCAGTAGTCACTGCCATGCAAGGAGAAATCACAAATAGCAGCCTGAGCCTGCATGTGGGA GGAAGTAACCTCTCCAACTCAGTCATCCTTCTGGGGAACCTGAACTGTGATGTTGAGACA CAGTCCTTCCAGGGCAACGTGAGCCTGTCTGGATGCTCCATCCCTCTTCACAGTCTGGAG GCTGGCATCTATCCTCTCCAAGTACGTCAGAAGCAGATGGGATTTGCTAATATGTCTGTG GTGCTCCAGCAATTTGCAGTGATGCCTCGGATAATGGCCATCTTCCCATCGCAGGGTTCG GCATGTGGTGGGACCATACTTACTGTGAGGGGGTTGCTTCTTAACTCTAGAAGGAGGTCA GTTCGGGTTGACCTCTCGGGTCCTTTTACTTGTGTGATTTTGAGTTTGGGAGACCACACC ATTCTCTGCCAGGTTAGCCTGGAGGGTGACCCCTTGCCTGGAGCTTCCTTCTCCCTGAAC GTCACAGTCCTGGTCAATGGGCTAACCAGCGAGTGTCAGGGGAATTGCACTCTTTTCATA AGGGAAGAGGCAAGTCCTGTCATGGATGCCTTGTCCACAAACACCAGTGGGTCTCTGACC ACTGTGCTGATTAGGGGTCAGAGGTTAGCCACCACAGCTGATGAGCCGATGGTATTTGTG GATGATCAACTTCCTTGCAATGTAACTTTTTTTAATGCAAGCCACGTTGTGTGCCAGACA AGAGACTTGGCCCCAGGACCCCACTACCTGTCAGTTTTTTATACAAGAAATGGGTATGCT TGTTCTGGTAATGTTTCCAGACACTTCTACATTATGCCCCAAGTGTTTCATTATTTTCCT AAGAATTTCAGCTTACATGGTGGAAGCCTCTTGACCATAGAGGGCACAGGCCTGAGAGGA CAGAACACCACGTCAGTCTATATTGACCAGCAGACCTGCCTGACGGTGAACATCGGTGCT GAGCTCATCCGGTGCATTGTTCCCACAGGGAATGGCTCTGTTGCCCTGGAAATAGAGGTA GATGGACTTTGGTATCACATAGGAGTCATTGGTTATAACAAGGCCTTTACCCCAGAATTG ATCTCTATTTCTCAGAGCGATGACATCTTAACCTTTGCAGTGGCCCAGATCTCAGGAGCT GCAAACATTGACATTTTTATAGGAATGTCACCCTGTGTGGGTGTCTCTGGTAACCACACC GTTCTTCAGTGCGTGGTCCCTTCCCTTCCGGCCGGGGAGTACCACGTCAGAGGCTATGAC TGCATCAGAGGGTGGGCCTCATCTGCCCTGGTGTTCACCTCAAGAGTTATTATTACAGCA GTGACGGAGAACTTCGGCTGCCTGGGTGGAAGGCTGGTGCATGTGTTTGGAGCGGGATTT TCTCCAGGGAATGTCTCAGCTGCTGTGTGTGGTGCTCCCTGCCGAGTCCTGGCTAATGCT ACAGTGTCTGCCTTCAGCTGCTTGGTTCTGCCCCTGGATGTGTCCTTGGCCTTCCTGTGT GGCCTGAAGCGTGAGGAGGACAGCTGTGAGGCTGCCAGACACACCTATGTGCAGTGTGAT TTGACAGTTGCCATGGCGACAGAGCAACTGCTTGAATCGTGGCCTTACCTCTACATTTGC GAGGAAAGTTCCCAATGCCTCTTTGTGCCAGATCATTGGGCAGAGTCAATGTTTCCATCA TTCTCGGGCCTCTTTATCAGCCCTAAATTGGAAAGAGATGAAGTTCTCATCTATAATAGC TCCTGTAACATTACCATGGAAACTGAGGCAGAGATGGAGTGTGAGACGCCCAATCAGCCA ATTACCGTCAAGATTACTGAGATACGGAAACGCTGGGGCCAGAACACTCAGGGCAACTTT TCTTTACAGTTCTGCCGGAGATGGTCCAGGACTCACAGCTGGTTTCCTGAAAGGCTGCCA CAAGATGGCGACAACGTCACAGTGGAGAATGGCCAATTGCTTCTGCTGGACACTAACACA AGCATCCTCAACTTACTGCACATTAAAGGGGGCAAGCTGATTTTCATGGCCCCAGGACCC ATCGAGCTCAGGGCACACGCCATCCTTGTTTCTGATGGTGGAGAGCTCCGGATTGGATCC GAAGACAAGCCCTTCCAAGGCAGAGCTCAGATCACACTCTACGGGAGTTCCTACTCAACT CCCTTCTTTCCCTATGGAGTCAAGTTCCTGGCTGTGAGGAATGGAACTCTTTCTCTGCAC GGTTCACTACCAGAAGTAATTGTCACCTGTCTTAGAGCAACTGCCCATGCCCTAGACACA GTGCTGGCTTTAGAAGATGCTGTGGACTGGAACCCTGGGGATGAAGTTGTCATCATCAGT GGAACAGGTGTTAAAGGTGCCAAACCGATGGAAGAGATTGTCACTGTGGAAACTGTGCAG GATACAGACCTCTATCTTAAGTCACCTTTGAGATATTCTCACAACTTTACAGAGAATTGG GTGGCTGGAGAGCACCATATTTTAAAGGCCACTGTGGCTCTGCTCAGCAGGAGTATTACC ATACAAGGAAATCTCACTAATGAGAGGGAGAAGCTGCTTGTTTCATGCCAGGAGGCCAAT GCTCCAGAAGGTAATCTGCAGCACTGTTTGTATTCCATGAGTGAGAAGATGCTAGGATCC AGGGATATGGGAGCCAGAGTGATCGTTCAGTCCTTCCCAGAAGAGCCCAGCCAGGTCCAG TTGAAGGGAGTGCAGTTTCAAGTCTTGGGGCAAGCCTTCCATAAGCATCTGAGCTCACTC ACTCTGGTGGGAGCTATGAGAGAGTCTTTCATACAGGGCTGCACAGTGAGGAACTCCTTC AGTAGAGGCCTCAGCATGTGCGGGACCTTGGGCCTGAAGGTGGACAGTAATGTATTCTAC AATATTTTAGGTCATGCGCTGCTAGTTGGGACATGCACGGAGATGAGATATATCTCCTGG GAGGCAATTCATGGAAGGAAAGATGACTGGTCAGGACATGGAAATATAATAAGAAACAAC GTGATCATCCAGGTTTCTGGTGCCGAGGGACTCTCCAATCCTGAAATGTTGACACCATCT GGCATCTATATCTGCAGTCCCACCAATGTTATAGAGGGGAACAGAGTGTGTGGTGCTGGC TATGGCTACTTTTTCCATCTCATGACCAACCAAACATCACAAGCTCCGCTTCTTTCCTTC ACTCAGAACATTGCACATTCTTGTACCAGGTATGGTCTCTTTGTATACCCTAAATTTCAG CCACCTTGGGATAATGTCACTGGCACCACTCTGTTCCAGAGCTTCACAGTTTGGGAAAGT GCAGGTGGTGCCCAGATTTTTAGAAGTAGCAATCTTCGCCTGAAAAACTTCAAAGTTTAT TCATGCAGAGATTTTGGAATTGACGTCTTGGAAAGTGATGCAAATACTTCAGTTACTGAC AGCTTATTACTTGGTCATTTTGCCCACAAGGGAAGTCTGTGTATGTCATCTGGGATTAAA ACTCCTAAAAGATGGGAACTGATGGTGTCTAACACAACCTTTGTTAATTTTGATCTCATC AACTGTGTGGCCATTAGAACCTGTTCAGACTGTTCCCAAGGACAAGGTGGATTTACTGTG AAGACCAGCCAGTTGAAGTTTACAAACTCTTCAAACTTAGTGGCATTTCCATTTCCTCAT GCAGCAATTTTGGAAGACTTGGATGGGTCTCTGTCTGGGAAAAACAGAAGTCACATTCTT GCTTCTATGGAAACCCTTTCAGCTTCTTGTTTGGTCAATTCAAGCTTTGGTCGGGTTGTC CATGGCAGTGCCTGTGGAGGAGGTGTTCTTTTTCATCGTATGTCTATTGGTTTAGCGAAT ACTCCTGAAGTTTCTTATGATTTAACCATGACTGACAGCAGAAATAAAACAACCACTGTC AATTATGTACGTGATACATTGTCTAACCCTCGTGGCTGGATGGCTCTGCTCTTGGACCAA GAGACCTACTCATTGCAATCTGAGAACCTTTGGATCAACAGATCTCTGCAGTACTCAGCA ACCTTTGACAACTTTGCTCCTGGTAATTACCTACTGCTGGTGCACACAGATTTGCCGCCT TACCCTGACATCCTCCTAAGATGTGGGAGTCGAGTGGGTCTGTCTTTTCCATTTCTTCCA TCACCAGGTCAGAACCAAGGCTGTGACTGGTTCTTCAATAGCCAGCTGAGGCAACTCACC TATCTGGTTTCAGGTGAAGGCCAAGTTCAAGTCATTCTCCGGGTGAAGGAAGGTATGCCC CCAACTATTTCAGCTTCTACCTCTGCCCCTGAATCAGCTTTAAAATGGTCCCTCCCTGAA ACATGGCAAGGTGTTGAAGAAGGCTGGGGAGGATACAACAATACCATTCCAGGCCCTGGG GATGACGTTCTCATTTTACCCAACAGAACTGTCCTTGTGGATACAGATCTTCCATTCTTC AAAGGGCTGTATGTGATGGGGACCTTAGACTTCCCTGTGGACAGAAGCAATGTTCTGAGT GTGGCATGCATGGTCATTGCAGGCGGGGAGCTGAAAGTTGGTACTTTAGAAAATCCCTTA GAAAAGGAACAAAAGCTTCTGATTCTCCTTAGAGCCTCAGAGGGAGTCTTTTGTGACCGT ATGAATGGAATTCATATTGACCCAGGAACAATTGGGGTTTATGGGAAAGTTCATCTTTAC AGTGCTTATCCTAAGAACTCCTGGACACATCTTGGAGCTGATATTGCCTCAGGAAATGAG AGAATTATAGTAGAAGATGCAGTGGATTGGCGCCCCCATGACAAAATAGTCCTTAGCTCC TCTTCTTATGAGCCTCATGAAGCAGAGGTCCTCACTGTGAAAGAAGTCAAGGGCCACCAT GTGAGGATCTATGAACGGCTCAAACACCGGCATATTGGAAGTGTACATGTCACGGAGGAT GGCCGACACATTCGTTTGGCTGCTGAGGTTGGACTGTTGACCCGAAATATACAAATTCAG CCTGACGTATCATGTAGGGGGAGACTGTTTGTGGGGTCCTTCAGGAAGTCCAGCCGAGAA GAATTTTCAGGTGTCCTTCAACTTCTTAATGTGGAAATTCAGAACTTCGGGTCACCATTG TACTCATCTGTTGAATTCAGTAATGTGTCAGCAGGATCCTGGATCATATCATCTACTCTG CACCAGAGCTGTGGCGGGGGCATTCATGCAGCTGCCAGTCATGGAGTACTTTTAAATGAC AATATTGTGTTTGGCACAGCTGGCCATGGCATAGATTTAGAGGGTCAGGCCTATACTGTC ACTAATAACCTTGTGGTTCTGATGACACAGCCAGCGTGGTCCACCATTTGGGTGGCGGGA ATCAAAGTGAACCAGGTAAAGGACATCAACCTCCATGGCAACGTTGTGGCAGGATCAGAG AGACTTGGCTTTCACATCCGAGGCCACAAGTGCTCCTCTTGTGAACTGCTTTGGTCTGAC AATGTGGCGCATTCAAGTCTTCATGGCCTTCATCTCTATAAGGAAAGTGGACTTGACAAC TGTACCAGAATCTCTGGCTTCTTGGCTTTCAAGAACTTTGACTATGGTGCCATGTTACAT GTAGAGAACAGCGTGGAGATAGAGAACATTACTCTGGTAGACAATACTATTGGTCTTTTG GCAGTAGTGTATGTATTTTCTGCTCCACAAAATTCCGTCAAAAAAGTGCAGATTGTGCTT AGGAATTCAGTCATTGTGGCCACCAGCTCTTCTTTTGACTGCATTCAGGACAAAGTGAAG CCGCACTCAGCCAACTTGACATCAACAGATAGAGCTCCCTCCAATCCAAGAGGAGGTCGA ATTGGTATTCTGTGGCCTGTATTCACCTCAGAACCAAATCAGTGGCCTCAGGAGCCATGG CACAAAGTGAGGAATGATCATTCAATTTCAGGAATCATGAAACTTCAAGATGTTACCTTT TCTAGTTTTGTGAAGAGTTGCTATAGCGATGACCTGGATGTCTGCATTCTACCAAATGCA GAGAACAGTGGAATTATGCACCCAATAACAGCAGAGAGGACCAGGATGCTAAAGATAAAA GATAAAAACAAGTTCTACTTTCCTTCATTACAACCCAGGAAAGATTTAGGAAAAGTAGTC TGTCCTGAATTAGACTGTGCAAGTCCAAGAAAATATCTCTTCAAGGATCTGGATGGGAGA GCCCTGGGTCTGCCTCCACCAGTTTCTGTATTTCCTAAAACAGAGGCAGAATGGACTGCA TCCTTCTTCAACGCAGTAACCACTGAGCAGGCTTTGAAGATTTCAGAATAG |
Restriction Sites | Please inquire |
ACCN | NM_170724 |
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. |
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_170724.1, NP_733842.1 |
RefSeq Size | 11604 bp |
RefSeq ORF | 11604 bp |
Locus ID | 5314 |
UniProt ID | P08F94 |
Protein Families | Druggable Genome, Transmembrane |
Gene 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 (2) lacks several exons and includes an alternate exon in the 3' coding region and UTR, compared to variant 1. Isoform 2 is shorter and has a distinct C-terminus, compared to isoform 1. |
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Other Versions
SKU | Description | Size | Price |
---|---|---|---|
RC224332 | PKHD1 (Myc-DDK-tagged)-Human polycystic kidney and hepatic disease 1 (autosomal recessive) (PKHD1), transcript variant 2 |
CNY 21,600.00 |
|
RG224332 | PKHD1 (tGFP-tagged) - Human polycystic kidney and hepatic disease 1 (autosomal recessive) (PKHD1), transcript variant 2 |
CNY 42,660.00 |