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PKHD1 (NM_138694) Human Tagged ORF Clone

main product photo
SKU
RG218550
PKHD1 (tGFP-tagged) - Human polycystic kidney and hepatic disease 1 (autosomal recessive) (PKHD1), transcript variant 1
  • TrueORF®
    TrueORF®

    Expression-ready ORF plasmid with C-terminal tag(s)

    Click here to learn more.

ORF Plasmid: tGFP DDK
Lentiviral Particles: DDK
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Datasheet SDS Plasmid Map
NM_138694 in other vectors (3)
Reconstitution Protocol
$5,059.00
In Stock*
Size
Bulk Requests & Clone Modifications

Other products for "PKHD1"

Frequently Bought Together (3)

TA150041 Mouse monoclonal turboGFP antibody, clone OTI2H8 100 ul
$447.00
PRIMER Forward sequencing primer VP1.5, Reverse sequencing primer XL39, 100pmoles each 100 pmol
$59.00
PS100010 pCMV6-AC-GFP, mammalian vector with C-terminal tGFP tag, 10ug 10 ug
$750.00
Specifications
Product Data
Type Human Tagged ORF Clone
Target Symbol PKHD1
Synonyms ARPKD; FCYT; FPC; PKD4; TIGM1
Vector pCMV6-AC-GFP
E. coli Selection Ampicillin (100 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
ORF Nucleotide Sequence
>RG218550 representing NM_138694
Red=Cloning site Blue=ORF Green=Tags(s)

TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
GCCGCGATCGCC

ATGACTGCCTGGCTGATCTCTCTGATGAGTATTGAAGTACTACTTTTGGCAGTACGTCACCTGAGTTTAC
ATATTGAACCTGAAGAAGGTAGCCTTGCAGGGGGAACGTGGATCACAGTCATTTTTGATGGTTTGGAGTT
GGGTGTTCTTTACCCCAACAATGGCTCTCAATTGGAGATACACCTGGTGAACGTGAACATGGTGGTGCCC
GCACTGCGGAGTGTTCCCTGTGACGTCTTTCCTGTTTTCTTGGATTTGCCTGTGGTGACATGCCGGACCA
GATCTGTGCTGTCTGAAGCACATGAGGGTCTGTACTTCCTGGAAGCATACTTCGGGGGACAGCTGGTAAG
CAGTCCAAATCCAGGACCACGAGATAGCTGTACTTTCAAGTTTTCCAAGGCGCAGACACCCATCGTTCAC
CAAGTTTATCCACCAAGTGGTGTTCCAGGAAAACTAATACATGTATATGGCTGGATTATCACTGGAAGAT
TGGAAACTTTTGATTTTGATGCTGAGTACATTGATAGCCCAGTGATCTTGGAAGCTCAAGGAGACAAATG
GGTTACTCCTTGCTCTCTTATAAATAGGCAGATGGGAAGCTGTTATCCTATTCAGGAGGACCATGGTCTT
GGGACTCTGCAGTGCCATGTGGAAGGCGACTACATCGGCTCCCAGAATGTTAGCTTCTCAGTATTTAACA
AAGGAAAGTCAATGGTCCACAAGAAGGCATGGCTGATCAGTGCTAAACAGGATCTTTTCCTATACCAGAC
ACACTCAGAAATATTATCTGTGTTTCCAGAAACTGGGAGCCTTGGGGGAAGAACAAACATCACAATTACA
GGAGACTTTTTTGACAATTCTGCCCAGGTTACCATTGCAGGCATTCCATGTGATATTAGACACGTGTCTC
CCAGGAAGATTGAGTGCACCACTCGGGCTCCAGGAAAAGATGTGAGGCTCACCACCCCTCAGCCAGGCAA
TCGAGGGCTTCTTTTTGAAGTTGGAGATGCTGTTGAGGGACTGGAACTGACTGAAGCCACCCCAGGGTAC
AGGTGGCAGATTGTCCCTAATGCCAGTTCTCCATTTGGGTTTTGGTCACAGGAAGGACAACCTTTCAGAG
CACGGCTCAGTGGGTTCTTTGTGGCTCCAGAGACAAATAATTACACTTTCTGGATTCAGGCAGATAGCCA
AGCTTCCTTGCATTTCAGTTGGTCAGAGGAACCAAGGACTAAGGTGAAAGTGGCCTCCATCAGCGTCGGC
ACTGCTGACTGGTTTGACTCCTGGGAGCAGAATAGGGATGAAGGGACCTGGCAGCAGAAGACTCCCAAGT
TGGAGCTGTTGGGTGGAGCCATGTACTACCTGGAAGCAGAGCATCATGGGATAGCCCCAAGCAGGGGGAT
GAGGATTGGTGTCCAGATTCACAACACCTGGCTGAATCCTGATGTGGTCACCACTTACCTACGGGAGAAG
CACCAGATCCGAGTCCGAGCCCAGAGGCTTCCAGAAGTACAGGTGCTGAATGTATCAGGCAGAGGAAACT
TCTTCCTTACTTGGGACAATGTCTCTAGTCAGCCAATCCCTGCAAATGCCACAGCCCATCTGATTCAAAC
AACCATTGAGGAGTTACTTGCAGTAAAATGCAAACTGGAACCCCTTTGGTCTAACATCCTTCTCCGGCTT
GGATTTGAACGAGGCCCAGAAGTTTCCAACTCTGATGGGGACCTCACCAGTGGGACGGAGCCCTTCTGTG
GCAGGTTCAGCCTCCGTCAGCCTCGACACCTTGTCCTTACTCCCCCGGCTGCCCAGAAGGGCTATCGGCT
AGATCAGTATACACACCTGTGTCTTGCATACAAAGGCCACATGAACAAGATCCTGAAGATGATTGTGTCC
TTCACAATCGGCTTTCAAAACATGGTAAAGAATACCACCTGTGACTGGAGTCTCACGAGGACCAGCCCCG
AGAGCTGGCAGTTCGATTGCACTGACCTCTGGGAGACTTGTGTGCGTTGCTTCGGGGATCTCCAGCCCCC
TCCGGCAAACTCCCCAGTGCTGGTTCATCAGATCAACCTTCTCCCTCTGGCCCAGGAGACGGGCCTGTTC
TATGTGGATGAAATTATTATTGCAGACACAAACGTAACAGTTTCTCAAGCTGATTCTGGAACGGCTCGCC
CAGGGGGCAATCTGGTGGAATCAGTCTCTGTGGTGGGATCCCCTCCGGTCTACAGTGTCACCTCCTGGCT
GGCGGGGTGTGGCACGGAGCTCCCGCTCATCACTGCACGCTCTGTGCCCACTGAAGGAACAGAAGAGGGA
TCTGGACTGGTCCTGGTGACGACACAGAGACGACAGCGGACAAGTCCACCTCTAGGAGGACACTTTCGCA
TCCAGCTTCCTAATACAGTGATTTCTGATGTCCCTGTACAAATTTCTGCTCATCACCTTCACCAGCTCTT
ACAGAATAATGCCGATGACTTCACATCCAGGTACCTCAATGCCAGTGACTTCACTGTGAAGGAGGATCTA
TACACTTGCTACGAACACGTGTGGACCTTGTCCTGGTCCACTCAGATTGGGGATTTGCCCAATTTTATCA
GGGTCTCTGATGAAAACCTTACTGGAGTGAATCCTGCTGCAGCCACGCGTGTGGTATATGATGGTGGAGT
TTTTCTTGGACCCATATTTGGAGACATGTTGGCTACTGCCAACCAGCATACTCAGGTGGTTGTGCGAGTG
AATGATGTACCAGCTCATTGCCCAGGTTCCTGCTCTTTCCAGTACCTCCAAGGGTCAACTCCCTGTGTCC
ATTCTGTGTGGTACTCCATTGATGGTGACATCAACCTAATGATTTACATTACCGGAACTGGTTTCTCTGG
TGACTCCCAGTTCTTGCAGGTTACAGTGAACAAAACGAGTTGCAAAGTTATTTTCTCAAACCAGACCAAT
GTAGTCTGTCAGACAGATTTGCTACCTGTTGGAATGCATCGGATCTTGATGTTGGTGAGACCCTCTGGTC
TTGCCATCAGTGCCACTGGAGAAGACCTCTTCCTAAATGTGAAACCTAGACTGGATATGGTGGAGCCTTC
CAGAGCTGCGGATATTGGAGGGCTCTGGGCCACCATCCGAGGCTCTAGTTTGGAAGGTGTTAGCCTGATA
TTATTTGGATCTTACTCGTGTGCCATCAATGTCGCTACAAGCAATTCAAGCAGAATTCAGTGCAAAGTTC
CACCCAGGGGGAAAGATGGACGCATTGTGAATGTGACTGTGATCAGAGGGGACTATTCTGCAGTTCTTCC
CAGAGCATTTACATATGTCTCTTCCTTAAATCCAGTTATTGTGACTCTGAGCAGAAACATAAGCAATATA
GCAGGCGGTGAGACCCTGGTCATTGGAGTGGCGAGGCTGATGAACTATACGGATTTGGATGTGGAAGTCC
ACGTCCAGGATGCCTTGGCTCCGGTTCACACACAGTCGGCTTGGGGCCTGGAGGTGGCACTGCCCCCACT
GCCAGCTGGTCTCCACAGAATTTCCGTCTCTATCAATGGGGTCAGCATTCACTCACAAGGGGTTGATCTC
CACATCCAGTACCTCACAGAAGTTTTCAGCATCGAGCCTTGCTGTGGGTCCCTGCTGGGAGGGACCATCC
TCAGCATCTCAGGAATAGGCTTCAGCAGGGACCCAGCTTTGGTTTGGGTACTTGTGGGCAATCGGTCCTG
TGACATTGTGAACTTAACGGAGGCGAGCATCTGGTGTGAAACCCTGCCAGCCCCCCAGATACCCGATGCG
GGCGCTCCCACTGTTCCAGCTGCCGTGGAGGTCTGGGCTGGCAACAGGTTCTTCGCCCGTGGTCCTTCAC
CAAGCTTGGTGGGGAAAGGCTTCACCTTCATGTATGAAGCGGCAGCAACACCAGTAGTCACTGCCATGCA
AGGAGAAATCACAAATAGCAGCCTGAGCCTGCATGTGGGAGGAAGTAACCTCTCCAACTCAGTCATCCTT
CTGGGGAACCTGAACTGTGATGTTGAGACACAGTCCTTCCAGGGCAACGTGAGCCTGTCTGGATGCTCCA
TCCCTCTTCACAGTCTGGAGGCTGGCATCTATCCTCTCCAAGTACGTCAGAAGCAGATGGGATTTGCTAA
TATGTCTGTGGTGCTCCAGCAATTTGCAGTGATGCCTCGGATAATGGCCATCTTCCCATCGCAGGGTTCG
GCATGTGGTGGGACCATACTTACTGTGAGGGGGTTGCTTCTTAACTCTAGAAGGAGGTCAGTTCGGGTTG
ACCTCTCGGGTCCTTTTACTTGTGTGATTTTGAGTTTGGGAGACCACACCATTCTCTGCCAGGTTAGCCT
GGAGGGTGACCCCTTGCCTGGAGCTTCCTTCTCCCTGAACGTCACAGTCCTGGTCAATGGGCTAACCAGC
GAGTGTCAGGGGAATTGCACTCTTTTCATAAGGGAAGAGGCAAGTCCTGTCATGGATGCCTTGTCCACAA
ACACCAGTGGGTCTCTGACCACTGTGCTGATTAGGGGTCAGAGGTTAGCCACCACAGCTGATGAGCCGAT
GGTATTTGTGGATGATCAACTTCCTTGCAATGTAACTTTTTTTAATGCAAGCCACGTTGTGTGCCAGACA
AGAGACTTGGCCCCAGGACCCCACTACCTGTCAGTTTTTTATACAAGAAATGGGTATGCTTGTTCTGGTA
ATGTTTCCAGACACTTCTACATTATGCCCCAAGTGTTTCATTATTTTCCTAAGAATTTCAGCTTACATGG
TGGAAGCCTCTTGACCATAGAGGGCACAGGCCTGAGAGGACAGAACACCACGTCAGTCTATATTGACCAG
CAGACCTGCCTGACGGTGAACATCGGTGCTGAGCTCATCCGGTGCATTGTTCCCACAGGGAATGGCTCTG
TTGCCCTGGAAATAGAGGTAGATGGACTTTGGTATCACATAGGAGTCATTGGTTATAACAAGGCCTTTAC
CCCAGAATTGATCTCTATTTCTCAGAGCGATGACATCTTAACCTTTGCAGTGGCCCAGATCTCAGGAGCT
GCAAACATTGACATTTTTATAGGAATGTCACCCTGTGTGGGTGTCTCTGGTAACCACACCGTTCTTCAGT
GCGTGGTCCCTTCCCTTCCGGCCGGGGAGTACCACGTCAGAGGCTATGACTGCATCAGAGGGTGGGCCTC
ATCTGCCCTGGTGTTCACCTCAAGAGTTATTATTACAGCAGTGACGGAGAACTTCGGCTGCCTGGGTGGA
AGGCTGGTGCATGTGTTTGGAGCGGGATTTTCTCCAGGGAATGTCTCAGCTGCTGTGTGTGGTGCTCCCT
GCCGAGTCCTGGCTAATGCTACAGTGTCTGCCTTCAGCTGCTTGGTTCTGCCCCTGGATGTGTCCTTGGC
CTTCCTGTGTGGCCTGAAGCGTGAGGAGGACAGCTGTGAGGCTGCCAGACACACCTATGTGCAGTGTGAT
TTGACAGTTGCCATGGCGACAGAGCAACTGCTTGAATCGTGGCCTTACCTCTACATTTGCGAGGAAAGTT
CCCAATGCCTCTTTGTGCCAGATCATTGGGCAGAGTCAATGTTTCCATCATTCTCGGGCCTCTTTATCAG
CCCTAAATTGGAAAGAGATGAAGTTCTCATCTATAATAGCTCCTGTAACATTACCATGGAAACTGAGGCA
GAGATGGAGTGTGAGACGCCCAATCAGCCAATTACCGTCAAGATTACTGAGATACGGAAACGCTGGGGCC
AGAACACTCAGGGCAACTTTTCTTTACAGTTCTGCCGGAGATGGTCCAGGACTCACAGCTGGTTTCCTGA
AAGGCTGCCACAAGATGGCGACAACGTCACAGTGGAGAATGGCCAATTGCTTCTGCTGGACACTAACACA
AGCATCCTCAACTTACTGCACATTAAAGGGGGCAAGCTGATTTTCATGGCCCCAGGACCCATCGAGCTCA
GGGCACACGCCATCCTTGTTTCTGATGGTGGAGAGCTCCGGATTGGATCCGAAGACAAGCCCTTCCAAGG
CAGAGCTCAGATCACACTCTACGGGAGTTCCTACTCAACTCCCTTCTTTCCCTATGGAGTCAAGTTCCTG
GCTGTGAGGAATGGAACTCTTTCTCTGCACGGTTCACTACCAGAAGTAATTGTCACCTGTCTTAGAGCAA
CTGCCCATGCCCTAGACACAGTGCTGGCTTTAGAAGATGCTGTGGACTGGAACCCTGGGGATGAAGTTGT
CATCATCAGTGGAACAGGTGTTAAAGGTGCCAAACCGATGGAAGAGATTGTCACTGTGGAAACTGTGCAG
GATACAGACCTCTATCTTAAGTCACCTTTGAGATATTCTCACAACTTTACAGAGAATTGGGTGGCTGGAG
AGCACCATATTTTAAAGGCCACTGTGGCTCTGCTCAGCAGGAGTATTACCATACAAGGAAATCTCACTAA
TGAGAGGGAGAAGCTGCTTGTTTCATGCCAGGAGGCCAATGCTCCAGAAGGTAATCTGCAGCACTGTTTG
TATTCCATGAGTGAGAAGATGCTAGGATCCAGGGATATGGGAGCCAGAGTGATCGTTCAGTCCTTCCCAG
AAGAGCCCAGCCAGGTCCAGTTGAAGGGAGTGCAGTTTCAAGTCTTGGGGCAAGCCTTCCATAAGCATCT
GAGCTCACTCACTCTGGTGGGAGCTATGAGAGAGTCTTTCATACAGGGCTGCACAGTGAGGAACTCCTTC
AGTAGAGGCCTCAGCATGTGCGGGACCTTGGGCCTGAAGGTGGACAGTAATGTATTCTACAATATTTTAG
GTCATGCGCTGCTAGTTGGGACATGCACGGAGATGAGATATATCTCCTGGGAGGCAATTCATGGAAGGAA
AGATGACTGGTCAGGACATGGAAATATAATAAGAAACAACGTGATCATCCAGGTTTCTGGTGCCGAGGGA
CTCTCCAATCCTGAAATGTTGACACCATCTGGCATCTATATCTGCAGTCCCACCAATGTTATAGAGGGGA
ACAGAGTGTGTGGTGCTGGCTATGGCTACTTTTTCCATCTCATGACCAACCAAACATCACAAGCTCCGCT
TCTTTCCTTCACTCAGAACATTGCACATTCTTGTACCAGGTATGGTCTCTTTGTATACCCTAAATTTCAG
CCACCTTGGGATAATGTCACTGGCACCACTCTGTTCCAGAGCTTCACAGTTTGGGAAAGTGCAGGTGGTG
CCCAGATTTTTAGAAGTAGCAATCTTCGCCTGAAAAACTTCAAAGTTTATTCATGCAGAGATTTTGGAAT
TGACGTCTTGGAAAGTGATGCAAATACTTCAGTTACTGACAGCTTATTACTTGGTCATTTTGCCCACAAG
GTAAGTCTGTGTATGTCATCTGGGATTAAAACTCCTAAAAGATGGGAACTGATGGTGTCTAACACAACCT
TTGTTAATTTTGATCTCATCAACTGTGTGGCCATTAGAACCTGTTCAGACTGTTCCCAAGGACAAGGTGG
ATTTACTGTGAAGACCAGCCAGTTGAAGTTTACAAACTCTTCAAACTTAGTGGCATTTCCATTTCCTCAT
GCAGCAATTTTGGAAGACTTGGATGGGTCTCTGTCTGGGAAAAACAGAAGTCACATTCTTGCTTCTATGG
AAACCCTTTCAGCTTCTTGTTTGGTCAATTCAAGCTTTGGTCGGGTTGTCCATGGCAGTGCCTGTGGAGG
AGGTGTTCTTTTTCATCGTATGTCTATTGGTTTAGCGAATACTCCTGAAGTTTCTTATGATTTAACCATG
ACTGACAGCAGAAATAAAACAACCACTGTCAATTATGTACGTGATACATTGTCTAACCCTCGTGGCTGGA
TGGCTCTGCTCTTGGACCAAGAGACCTACTCATTGCAATCTGAGAACCTTTGGATCAACAGATCTCTGCA
GTACTCAGCAACCTTTGACAACTTTGCTCCTGGTAATTACCTACTGCTGGTGCACACAGATTTGCCGCCT
TACCCTGACATCCTCCTAAGATGTGGGAGTCGAGTGGGTCTGTCTTTTCCATTTCTTCCATCACCAGGTC
AGAACCAAGGCTGTGACTGGTTCTTCAATAGCCAGCTGAGGCAACTCACCTATCTGGTTTCAGGTGAAGG
CCAAGTTCAAGTCATTCTCCGGGTGAAGGAAGGTATGCCCCCAACTATTTCAGCTTCTACCTCTGCCCCT
GAATCAGCTTTAAAATGGTCCCTCCCTGAAACATGGCAAGGTGTTGAAGAAGGCTGGGGAGGATACAACA
ATACCATTCCAGGCCCTGGGGATGACGTTCTCATTTTACCCAACAGAACTGTCCTTGTGGATACAGATCT
TCCATTCTTCAAAGGGCTGTATGTGATGGGGACCTTAGACTTCCCTGTGGACAGAAGCAATGTTCTGAGT
GTGGCATGCATGGTCATTGCAGGCGGGGAGCTGAAAGTTGGTACTTTAGAAAATCCCTTAGAAAAGGAAC
AAAAGCTTCTGATTCTCCTTAGAGCCTCAGAGGGAGTCTTTTGTGACCGTATGAATGGAATTCATATTGA
CCCAGGAACAATTGGGGTTTATGGGAAAGTTCATCTTTACAGTGCTTATCCTAAGAACTCCTGGACACAT
CTTGGAGCTGATATTGCCTCAGGAAATGAGAGAATTATAGTAGAAGATGCAGTGGATTGGCGCCCCCATG
ACAAAATAGTCCTTAGCTCCTCTTCTTATGAGCCTCATGAAGCAGAGGTCCTCACTGTGAAAGAAGTCAA
GGGCCACCATGTGAGGATCTATGAACGGCTCAAACACCGGCATATTGGAAGTGTACATGTCACGGAGGAT
GGCCGACACATTCGTTTGGCTGCTGAGGTTGGACTGTTGACCCGAAATATACAAATTCAGCCTGACGTAT
CATGTAGGGGGAGACTGTTTGTGGGGTCCTTCAGGAAGTCCAGCCGAGAAGAATTTTCAGGTGTCCTTCA
ACTTCTTAATGTGGAAATTCAGAACTTCGGGTCACCATTGTACTCATCTGTTGAATTCAGTAATGTGTCA
GCAGGATCCTGGATCATATCATCTACTCTGCACCAGAGCTGTGGCGGGGGCATTCATGCAGCTGCCAGTC
ATGGAGTACTTTTAAATGACAATATTGTGTTTGGCACAGCTGGCCATGGCATAGATTTAGAGGGTCAGGC
CTATACTGTCACTAATAACCTTGTGGTTCTGATGACACAGCCAGCGTGGTCCACCATTTGGGTGGCGGGA
ATCAAAGTGAACCAGGTAAAGGACATCAACCTCCATGGCAACGTTGTGGCAGGATCAGAGAGACTTGGCT
TTCACATCCGAGGCCACAAGTGCTCCTCTTGTGAACTGCTTTGGTCTGACAATGTGGCGCATTCAAGTCT
TCATGGCCTTCATCTCTATAAGGAAAGTGGACTTGACAACTGTACCAGAATCTCTGGCTTCTTGGCTTTC
AAGAACTTTGACTATGGTGCCATGTTACATGTAGAGAACAGCGTGGAGATAGAGAACATTACTCTGGTAG
ACAATACTATTGGTCTTTTGGCAGTAGTGTATGTATTTTCTGCTCCACAAAATTCCGTCAAAAAAGTGCA
GATTGTGCTTAGGAATTCAGTCATTGTGGCCACCAGCTCTTCTTTTGACTGCATTCAGGACAAAGTGAAG
CCGCACTCAGCCAACTTGACATCAACAGATAGAGCTCCCTCCAATCCAAGAGGAGGTCGAATTGGTATTC
TGTGGCCTGTATTCACCTCAGAACCAAATCAGTGGCCTCAGGAGCCATGGCACAAAGTGAGGAATGATCA
TTCAATTTCAGGAATCATGAAACTTCAAGATGTTACCTTTTCTAGTTTTGTGAAGAGTTGCTATAGCGAT
GACCTGGATGTCTGCATTCTACCAAATGCAGAGAACAGTGGAATTATGCACCCAATAACAGCAGAGAGGA
CCAGGATGCTAAAGATAAAAGATAAAAACAAGTTCTACTTTCCTTCATTACAACCCAGGAAAGATTTAGG
AAAAGTAGTCTGTCCTGAATTAGACTGTGCAAGTCCAAGAAAATATCTCTTCAAGGATCTGGATGGGAGA
GCCCTGGGTCTGCCTCCACCAGTTTCTGTATTTCCTAAAACAGAGGCAGAATGGACTGCATCCTTCTTCA
ACGCAGGTACATTTAGAGAAGAACAGAAATGTACATACCAATTTCTGATGCAAGGATTCATCTGCAAACA
GACTGACCAAGTGGTCCTAATTCTTGATAGCGCTGATGCCATTTGGGCAATTCAGAAGTTATATCCAGTT
GTATCTGTGACTAGTGGTTTTGTTGATGTCTTTAGCAGTGTAAATGCCAATATTCCCTGCTCTACTTCTG
GGTCAGTGTCTACTTTCTATTCTATCTTACCCATCAGGCAAATCACCAAAGTCTGCTTCATGGATCAAAC
TCCTCAAGTTTTGCGCTTTTTTCTATTGGGGAACAAAAGTACCTCCAAGCTTCTCTTGGCTGTATTCTAC
CATGAGCTCCAGAGCCCCCACGTCTTCTTAGGGGAAAGTTTTATTCCACCCACTCTGGTTCAGTCAGCTT
CCTTATTGCTGAATGAATCTATTGGTGCCAACTATTTCAACATCATGGATAACCTCTTGTATGTTGTCCT
ACAAGGAGAGGAGCCCATTGAAATACGCTCAGGTGTTTCCATTCACTTGGCCCTCACTGTGATGGTTTCA
GTCTTAGAAAAAGGCTGGGAAATAGTAATACTCGAAAGACTAACTAACTTCTTACAGATTGGCCAAAACC
AAATCAGGTTTATTCACGAGATGCCTGGCCATGAAGAGACCTTAAAGGCCATTGCTGACAGTAGAGCAAA
AAGAAAGCGCAATTGCCCTACTGTGACTTGCACTAGTCATTATAGAAGAGTTGGTCAACGTAGGCCTCTC
ATGATGGAAATGAACTCACATAGGGCTTCACCCCCAATGACTGTGGAAACTATCTCAAAAGTGATTGTCA
TTGAAATTGGTGATTCGCCAACAGTAAGGAGCACTGGAATGATTTCATCCTTATCAAGTAACAAATTACA
GAATTTGGCTCATCGAGTCATCACTGCTCAACAGACTGGGGTACTAGAGAATGTTCTGAATATGACTATC
GGGGCCTTACTAGTTACTCAGTCAAAGGGAGTCATTGGCTATGGAAATACAAGCAGTTTTAAAACTGGGA
ACTTGATATATATTCGGCCCTATGCACTTTCCATCCTAGTCCAGCCTTCAGATGGAGAAGTGGGAAATGA
GCTTCCAGTGCAGCCACAATTGGTATTTTTGGATGAGCAGAATCGAAGAGTAGAGTCCCTGGGACCTCCT
TCAGAGCCATGGACAATTTCAGCTTCCCTGGAAGGAGCATCAGACTCAGTGCTAAAAGGGTGCACCCAGG
CAGAAACTCAAGATGGTTATGTTAGCTTCTACAACTTGGCAGTCTTGATCTCTGGGTCAAACTGGCACTT
TATTTTTACTGTCACTTCTCCTCCAGGAGTCAATTTTACAGCTCGATCCAAGCCATTTGCTGTCTTGCCT
GTGACTAGGAAGGAGAAGTCGACCATCATCCTGGCTGCTTCCCTGTCCTCTGTGGCCTCATGGCTGGCTC
TGAGCTGTCTGGTGTGCTGTTGGCTTAAAAGAAGCAAAAGCAGAAAAACAAAACCTGAAGAGATTCCTGA
ATCCCAGACTAATAATCAAAATATTCATATCCACATCTCATCCAAACGCCGAGAATCACAAGGGCCCAAA
AAAGAAGACACTGTGGTGGGAGAAGATATGAGAATGAAGGTCATGCTGGGCAAGGTGAACCAGTGCCCCC
ACCAGTTGATGAATGGAGTGTCCAGAAGGAAAGTTAGCCGCCACATTGTCCGAGAGGAAGAGGCTGCTGT
GCCTGCTCCTGGTACTACTGGCATCACATCCCATGGGCACATCTGTGCTCCAGGTGCTCCTGCTCAGCAG
GTGTACCTGCAAGAGACTGGGAACTGGAAGGAGGGCCAAGAGCAGTTGCTCAGATACCAGCTGGCAGGCC
AAAATCAGCTGCTGCTGCTATGCCCAGACTTCAGACAAGAGAGGCAGCAGTTGCCAGGGCAAAGTCGGCT
GAGTAAGCAAAGTGGCAGCTTGGGGCTTTCCCAAGAGAAGAAAGCCTCCTGCGGGGCCACTGAGGCATTC
TGCCTTCATTCAGTACACCCGGAAACTATTCAGGAGCAACTG

AGCGGACCGACGCGTACGCGGCCGCTCGAG - GFP Tag - GTTTAA
Protein Sequence
>RG218550 representing NM_138694
Red=Cloning site Green=Tags(s)

MTAWLISLMSIEVLLLAVRHLSLHIEPEEGSLAGGTWITVIFDGLELGVLYPNNGSQLEIHLVNVNMVVP
ALRSVPCDVFPVFLDLPVVTCRTRSVLSEAHEGLYFLEAYFGGQLVSSPNPGPRDSCTFKFSKAQTPIVH
QVYPPSGVPGKLIHVYGWIITGRLETFDFDAEYIDSPVILEAQGDKWVTPCSLINRQMGSCYPIQEDHGL
GTLQCHVEGDYIGSQNVSFSVFNKGKSMVHKKAWLISAKQDLFLYQTHSEILSVFPETGSLGGRTNITIT
GDFFDNSAQVTIAGIPCDIRHVSPRKIECTTRAPGKDVRLTTPQPGNRGLLFEVGDAVEGLELTEATPGY
RWQIVPNASSPFGFWSQEGQPFRARLSGFFVAPETNNYTFWIQADSQASLHFSWSEEPRTKVKVASISVG
TADWFDSWEQNRDEGTWQQKTPKLELLGGAMYYLEAEHHGIAPSRGMRIGVQIHNTWLNPDVVTTYLREK
HQIRVRAQRLPEVQVLNVSGRGNFFLTWDNVSSQPIPANATAHLIQTTIEELLAVKCKLEPLWSNILLRL
GFERGPEVSNSDGDLTSGTEPFCGRFSLRQPRHLVLTPPAAQKGYRLDQYTHLCLAYKGHMNKILKMIVS
FTIGFQNMVKNTTCDWSLTRTSPESWQFDCTDLWETCVRCFGDLQPPPANSPVLVHQINLLPLAQETGLF
YVDEIIIADTNVTVSQADSGTARPGGNLVESVSVVGSPPVYSVTSWLAGCGTELPLITARSVPTEGTEEG
SGLVLVTTQRRQRTSPPLGGHFRIQLPNTVISDVPVQISAHHLHQLLQNNADDFTSRYLNASDFTVKEDL
YTCYEHVWTLSWSTQIGDLPNFIRVSDENLTGVNPAAATRVVYDGGVFLGPIFGDMLATANQHTQVVVRV
NDVPAHCPGSCSFQYLQGSTPCVHSVWYSIDGDINLMIYITGTGFSGDSQFLQVTVNKTSCKVIFSNQTN
VVCQTDLLPVGMHRILMLVRPSGLAISATGEDLFLNVKPRLDMVEPSRAADIGGLWATIRGSSLEGVSLI
LFGSYSCAINVATSNSSRIQCKVPPRGKDGRIVNVTVIRGDYSAVLPRAFTYVSSLNPVIVTLSRNISNI
AGGETLVIGVARLMNYTDLDVEVHVQDALAPVHTQSAWGLEVALPPLPAGLHRISVSINGVSIHSQGVDL
HIQYLTEVFSIEPCCGSLLGGTILSISGIGFSRDPALVWVLVGNRSCDIVNLTEASIWCETLPAPQIPDA
GAPTVPAAVEVWAGNRFFARGPSPSLVGKGFTFMYEAAATPVVTAMQGEITNSSLSLHVGGSNLSNSVIL
LGNLNCDVETQSFQGNVSLSGCSIPLHSLEAGIYPLQVRQKQMGFANMSVVLQQFAVMPRIMAIFPSQGS
ACGGTILTVRGLLLNSRRRSVRVDLSGPFTCVILSLGDHTILCQVSLEGDPLPGASFSLNVTVLVNGLTS
ECQGNCTLFIREEASPVMDALSTNTSGSLTTVLIRGQRLATTADEPMVFVDDQLPCNVTFFNASHVVCQT
RDLAPGPHYLSVFYTRNGYACSGNVSRHFYIMPQVFHYFPKNFSLHGGSLLTIEGTGLRGQNTTSVYIDQ
QTCLTVNIGAELIRCIVPTGNGSVALEIEVDGLWYHIGVIGYNKAFTPELISISQSDDILTFAVAQISGA
ANIDIFIGMSPCVGVSGNHTVLQCVVPSLPAGEYHVRGYDCIRGWASSALVFTSRVIITAVTENFGCLGG
RLVHVFGAGFSPGNVSAAVCGAPCRVLANATVSAFSCLVLPLDVSLAFLCGLKREEDSCEAARHTYVQCD
LTVAMATEQLLESWPYLYICEESSQCLFVPDHWAESMFPSFSGLFISPKLERDEVLIYNSSCNITMETEA
EMECETPNQPITVKITEIRKRWGQNTQGNFSLQFCRRWSRTHSWFPERLPQDGDNVTVENGQLLLLDTNT
SILNLLHIKGGKLIFMAPGPIELRAHAILVSDGGELRIGSEDKPFQGRAQITLYGSSYSTPFFPYGVKFL
AVRNGTLSLHGSLPEVIVTCLRATAHALDTVLALEDAVDWNPGDEVVIISGTGVKGAKPMEEIVTVETVQ
DTDLYLKSPLRYSHNFTENWVAGEHHILKATVALLSRSITIQGNLTNEREKLLVSCQEANAPEGNLQHCL
YSMSEKMLGSRDMGARVIVQSFPEEPSQVQLKGVQFQVLGQAFHKHLSSLTLVGAMRESFIQGCTVRNSF
SRGLSMCGTLGLKVDSNVFYNILGHALLVGTCTEMRYISWEAIHGRKDDWSGHGNIIRNNVIIQVSGAEG
LSNPEMLTPSGIYICSPTNVIEGNRVCGAGYGYFFHLMTNQTSQAPLLSFTQNIAHSCTRYGLFVYPKFQ
PPWDNVTGTTLFQSFTVWESAGGAQIFRSSNLRLKNFKVYSCRDFGIDVLESDANTSVTDSLLLGHFAHK
VSLCMSSGIKTPKRWELMVSNTTFVNFDLINCVAIRTCSDCSQGQGGFTVKTSQLKFTNSSNLVAFPFPH
AAILEDLDGSLSGKNRSHILASMETLSASCLVNSSFGRVVHGSACGGGVLFHRMSIGLANTPEVSYDLTM
TDSRNKTTTVNYVRDTLSNPRGWMALLLDQETYSLQSENLWINRSLQYSATFDNFAPGNYLLLVHTDLPP
YPDILLRCGSRVGLSFPFLPSPGQNQGCDWFFNSQLRQLTYLVSGEGQVQVILRVKEGMPPTISASTSAP
ESALKWSLPETWQGVEEGWGGYNNTIPGPGDDVLILPNRTVLVDTDLPFFKGLYVMGTLDFPVDRSNVLS
VACMVIAGGELKVGTLENPLEKEQKLLILLRASEGVFCDRMNGIHIDPGTIGVYGKVHLYSAYPKNSWTH
LGADIASGNERIIVEDAVDWRPHDKIVLSSSSYEPHEAEVLTVKEVKGHHVRIYERLKHRHIGSVHVTED
GRHIRLAAEVGLLTRNIQIQPDVSCRGRLFVGSFRKSSREEFSGVLQLLNVEIQNFGSPLYSSVEFSNVS
AGSWIISSTLHQSCGGGIHAAASHGVLLNDNIVFGTAGHGIDLEGQAYTVTNNLVVLMTQPAWSTIWVAG
IKVNQVKDINLHGNVVAGSERLGFHIRGHKCSSCELLWSDNVAHSSLHGLHLYKESGLDNCTRISGFLAF
KNFDYGAMLHVENSVEIENITLVDNTIGLLAVVYVFSAPQNSVKKVQIVLRNSVIVATSSSFDCIQDKVK
PHSANLTSTDRAPSNPRGGRIGILWPVFTSEPNQWPQEPWHKVRNDHSISGIMKLQDVTFSSFVKSCYSD
DLDVCILPNAENSGIMHPITAERTRMLKIKDKNKFYFPSLQPRKDLGKVVCPELDCASPRKYLFKDLDGR
ALGLPPPVSVFPKTEAEWTASFFNAGTFREEQKCTYQFLMQGFICKQTDQVVLILDSADAIWAIQKLYPV
VSVTSGFVDVFSSVNANIPCSTSGSVSTFYSILPIRQITKVCFMDQTPQVLRFFLLGNKSTSKLLLAVFY
HELQSPHVFLGESFIPPTLVQSASLLLNESIGANYFNIMDNLLYVVLQGEEPIEIRSGVSIHLALTVMVS
VLEKGWEIVILERLTNFLQIGQNQIRFIHEMPGHEETLKAIADSRAKRKRNCPTVTCTSHYRRVGQRRPL
MMEMNSHRASPPMTVETISKVIVIEIGDSPTVRSTGMISSLSSNKLQNLAHRVITAQQTGVLENVLNMTI
GALLVTQSKGVIGYGNTSSFKTGNLIYIRPYALSILVQPSDGEVGNELPVQPQLVFLDEQNRRVESLGPP
SEPWTISASLEGASDSVLKGCTQAETQDGYVSFYNLAVLISGSNWHFIFTVTSPPGVNFTARSKPFAVLP
VTRKEKSTIILAASLSSVASWLALSCLVCCWLKRSKSRKTKPEEIPESQTNNQNIHIHISSKRRESQGPK
KEDTVVGEDMRMKVMLGKVNQCPHQLMNGVSRRKVSRHIVREEEAAVPAPGTTGITSHGHICAPGAPAQQ
VYLQETGNWKEGQEQLLRYQLAGQNQLLLLCPDFRQERQQLPGQSRLSKQSGSLGLSQEKKASCGATEAF
CLHSVHPETIQEQL

SGPTRTRRLE - GFP Tag - V
Restriction Sites SgfI-RsrII Cloning Scheme for this gene Plasmid Map
ACCN NM_138694
ORF Size 12222 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.

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 This clone was engineered to express the complete ORF with an expression tag. Expression varies depending on the nature of the gene.
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_138694.2, NP_619639.2
RefSeq Size 16235 bp
RefSeq ORF 12225 bp
Locus ID 5314
UniProt ID P08F94
Cytogenetics 6p12.3-p12.2
Protein Families Druggable Genome, Transmembrane
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]
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You're reviewing:PKHD1 (NM_138694) Human Tagged ORF Clone
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"NM_138694" in other vectors (3)
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
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
SC306060 PKHD1 (untagged)-Human polycystic kidney and hepatic disease 1 (autosomal recessive) (PKHD1), transcript variant 1 10 ug
$5,184.00

Citations

*Delivery time may vary from web posted schedule. Occasional delays may occur due to unforeseen complexities in the preparation of your product. International customers may expect an additional 1-2 weeks in shipping.