PDZK3 (PDZD2) (NM_178140) Human Tagged ORF Clone

CAT#: RC220008

  • TrueORF®

PDZD2 (Myc-DDK-tagged)-Human PDZ domain containing 2 (PDZD2)

ORF Plasmid: DDK tGFP

Datasheet
SDS
Plasmid Map

  "NM_178140" in other vectors (2)

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CNY 18,400.00

货期*
现货
规格
    • 10 ug

Product images

经常一起买 (5)
PS100001
pCMV6-Entry, mammalian vector with C-terminal Myc- DDK Tag, 10ug
    • 10 ug

CNY 5,420.00

添加到购物车
CC100003
DH5α Chemically Competent Cells (≥10^8 cfu/μg of pUC19 DNA)
    • 5 x 200 ul

CNY 1,280.00

暂停销售
PRIMER
Forward sequencing primer VP1.5, Reverse sequencing primer XL39, 100pmoles each
    • 100 pmol

CNY 480.00

添加到购物车
TA592569S
DDK Rabbit monoclonal antibody, recognizing both N- and C-terminal tags
    • 30 ul

CNY 300.00

添加到购物车

【特别福利】购一抗正装产品,免费领10ul抗体试用装

TA590362
Rabbit Polyclonal PDZK3 Antibody
    • 100 ug

CNY 5,302.00

添加到购物车

Specifications

Product Data
Type Human Tagged ORF Clone
Tag Myc-DDK
Synonyms AIPC; PAPIN; PDZK3; PIN1
Vector pCMV6-Entry
E. coli Selection Kanamycin (25 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
>RC220008 representing NM_178140
Red=Cloning site Blue=ORF Green=Tags(s)

CTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCCGCCGCGATCGCCGGCGC
GCCC

ATGCCCATCACCCAGGACAATGCCGTGCTGCACCTGCCCCTCCTCTACCAGTGGCTGCAGAACAGCCTGC
AGGAAGGTGGGGATGGGCCGGAGCAGCGGCTCTGCCAGGCGGCCATCCAGAAGCTGCAGGAGTACATCCA
GCTGAACTTTGCTGTGGATGAGAGTACGGTCCCACCTGATCACAGCCCCCCCGAAATGGAGATCTGTACT
GTGTACCTCACCAAGGAGCTGGGGGACACAGAGACTGTGGGCCTGAGTTTTGGGAACATCCCTGTTTTCG
GGGACTATGGTGAAAAGCGCAGGGGGGGCAAGAAGAGGAAAACCCACCAGGGTCCTGTGCTGGATGTGGG
CTGCATCTGGGTGACAGAGCTGAGGAAGAACAGCCCAGCAGGGAAGAGTGGGAAGGTCCGACTGCGGGAT
GAGATCCTCTCACTGAATGGGCAGCTGATGGTTGGAGTTGATGTCAGTGGGGCCAGTTACCTGGCTGAGC
AGTGCTGGAATGGCGGCTTTATCTACCTGATCATGCTGCGTCGCTTTAAGCACAAAGCCCACTCCACTTA
TAATGGCAACAGTAGCAACAGCTCTGAACCAGGAGAAACACCTACCTTGGAGCTGGGTGACCGAACTGCG
AAAAAGGGGAAACGAACCAGAAAGTTTGGGGTCATCTCCAGGCCTCCTGCCAACAAGGCCCCTGAAGAAT
CCAAGGGCAGCGCTGGCTGTGAGGTGTCCAGTGACCCCAGCACTGAGCTGGAGAACGGCCCTGACCCTGA
ACTTGGAAACGGCCATGTCTTTCAGCTAGAAAATGGCCCAGATTCTCTCAAGGAGGTGGCTGGACCCCAT
CTAGAGAGGTCAGAAGTGGACAGAGGGACAGAGCATAGAATTCCAAAGACAGATGCTCCTCTGACCACAA
GCAATGACAAACGCCGCTTCTCAAAAGGTGGGAAGACGGACTTCCAATCGAGTGACTGCCTGGCACGGGA
GGAAGTTGGCCGAATATGGAAGATGGAGCTGCTCAAAGAATCGGATGGGCTGGGAATTCAGGTTAGTGGA
GGCCGAGGATCAAAGCGCTCACCTCACGCTATCGTTGTCACTCAAGTGAAGGAAGGAGGTGCCGCTCACA
GGGATGGCAGGCTGTCCTTAGGAGATGAGCTGCTGGTAATCAATGGTCATTTACTGGTCGGGCTCTCCCA
CGAGGAAGCAGTGGCCATTCTTCGCTCCGCCACGGGAATGGTGCAGCTTGTGGTGGCCAGCAAGGAAAAC
TCCGCAGAGGACCTCCTCAGGTTAACATCTAAGAGCTTGCCAGATCTGACCAGCTCGGTAGAAGATGTGT
CCTCCTGGACTGATAACGAAGACCAGGAGGCAGACGGGGAAGAGGACGAAGGAACCAGCTCTTCTGTCCA
GAGAGCAATGCCTGGGACAGATGAACCCCAAGATGTGTGCGGTGCTGAGGAATCCAAGGGGAACTTGGAA
AGTCCCAAACAGGGCAGCAATAAAATCAAGCTCAAGAGTCGCCTTTCAGGGGGTGTACACCGCCTTGAGT
CAGTTGAAGAATATAACGAGCTGATGGTGCGGAATGGGGACCCCCGGATCCGGATGTTGGAGGTCTCCCG
AGATGGCCGGAAACACTCCCTCCCGCAGCTGCTGGACTCTTCCAGTGCCTCACAGGAATACCACATTGTG
AAGAAGTCTACCCGCTCCTTAAGCACGACTCAGGTGGAATCTCCTTGGAGGCTCATTCGGCCATCCGTCA
TCTCGATCATTGGGTTGTACAAAGAAAAAGGCAAGGGCCTTGGCTTTAGTATTGCTGGAGGTCGAGACTG
CATTCGTGGACAGATGGGGATTTTTGTCAAGACCATCTTCCCAAATGGATCAGCTGCAGAGGACGGAAGA
CTTAAAGAAGGGGATGAAATCCTAGATGTAAATGGAATACCAATAAAGGGCTTGACATTTCAAGAAGCCA
TTCATACCTTTAAGCAAATCCGGAGTGGATTATTTGTTTTAACGGTACGCACAAAGTTGGTGAGCCCCAG
CCTCACACCCTGCTCGACACCCACACACATGAGCAGATCCGCCTCCCCGAACTTCAATACCAGTGGGGGA
GCCTCAGCGGGAGGTTCCGATGAAGGCAGTTCTTCATCCCTGGGTCGGAAGACCCCTGGGCCCAAGGACA
GGATCGTCATGGAAGTAACACTCAACAAAGAGCCAAGAGTTGGATTAGGCATTGGTGCCTGCTGCTTGGC
TCTGGAAAACAGTCCTCCTGGCATCTACATTCACAGCCTTGCTCCAGGATCAGTGGCCAAGATGGAGAGC
AACCTGAGCCGCGGGGATCAAATCCTGGAAGTGAACTCCGTCAACGTCCGCCATGCTGCTTTAAGCAAAG
TCCACGCCATCTTGAGTAAATGCCCTCCAGGACCCGTTCGCCTTGTCATCGGCCGGCACCCTAATCCAAA
GGTTTCCGAGCAGGAAATGGATGAAGTCATAGCACGCAGCACTTATCAGGAGAGCAAAGAGGCCAATTCC
TCTCCTGGCTTAGGTACCCCCTTGAAGAGTCCCTCTCTTGCAAAAAAGGACTCCCTTATTTCTGAATCTG
AACTCTCCCAGTACTTTGCCCACGATGTCCCTGGCCCCTTGTCAGACTTCATGGTGGCCGGTTCTGAGGA
CGAGGATCACCCGGGAAGTGGCTGCAGCACGTCGGAGGAGGGCAGCCTGCCTCCCAGCACCTCCACTCAC
AAGGAGCCTGGAAAACCCAGAGCCAACAGCCTCGTGACTCTTGGGAGCCATCGGGCTTCTGGGCTCTTCC
ACAAGCAGGTGACAGTTGCCAGACAAGCCAGTCTCCCCGGAAGCCCACAGGCCCTCCGAAACCCTCTCCT
CCGCCAGAGGAAGGTAGGCTGCTACGATGCCAACGATGCCAGTGATGAGGAAGAGTTTGACAGAGAAGGG
GACTGCATTTCACTCCCAGGGGCCCTCCCGGGTCCCATCAGGCCTCTGTCAGAGGATGACCCGAGGCGTG
TCTCAATTTCCTCTTCCAAGGGCATGGACGTCCACAACCAAGAGGAACGACCCCGGAAAACACTGGTGAG
CAAGGCCATCTCGGCACCTCTTCTTGGTAGCTCAGTGGACTTAGAGGAGAGTATCCCAGAGGGCATGGTG
GATGCTGCGTCCTATGCAGCCAACCTCACGGACTCTGCAGAGGCCCCCAAGGGGAGCCCTGGAAGCTGGT
GGAAGAAGGAACTGTCAGGATCAAGTAGCGCACCCAAATTGGAATACACAGTCCGTACAGACACCCAGAG
TCCGACGAACACTGGGAGCCCCAGTTCCCCCCAGCAGAAAAGTGAAGGCCTGGGCTCCAGGCACAGACCA
GTGGCCAGGGTAAGCCCCCACTGCAAGAGATCCGAGGCTGAGGCCAAGCCCAGTGGCTCACAGACAGTGA
ACCTGACTGGCAGAGCCAATGATCCATGCGATCTGGACTCGAGAGTCCAGGCCACTTCTGTCAAAGTGAC
TGTCGCTGGCTTTCAGCCAGGTGGAGCTGTGGAGAAGGAATCTCTGGGAAAGCTGACCACTGGAGATGCT
TGTGTCTCTACCAGCTGTGAACTAGCCAGTGCTCTGTCCCATCTGGATGCCAGCCACCTCACAGAGAACC
TGCCCAAAGCTGCATCAGAGCTGGGGCAACAACCCATGACTGAACTGGACAGCTCCTCAGACCTCATCTC
TTCCCCAGGGAAGAAGGGGGCCGCTCATCCTGACCCCAGCAAGACCTCTGTAGACACAGGGCAAGTCAGT
CGGCCAGAGAATCCCAGCCAGCCTGCATCGCCCAGGGTCACCAAGTGCAAGGCCAGGTCTCCAGTCAGGC
TCCCCCATGAGGGCAGCCCCTCCCCGGGGGAGAAAGCAGCGGCTCCCCCTGACTACAGCAAGACTCGATC
AGCATCGGAAACCAGCACACCCCACAATACCAGGAGGGTGGCTGCCCTCAGGGGAGCGGGACCTGGAGCA
GAGGGAATGACACCAGCTGGTGCTGTCCTGCCAGGAGACCCCCTCACATCCCAGGAGCAGAGACAGGGAG
CTCCAGGTAACCACAGTAAGGCTCTGGAAATGACAGGAATCCATGCACCTGAAAGCTCCCAGGAGCCTTC
CCTGCTGGAGGGAGCAGATTCTGTGTCCTCAAGGGCACCGCAGGCCAGCCTCTCCATGCTGCCATCCACT
GACAACACCAAAGAAGCATGTGGCCATGTCTCGGGGCACTGCTGCCCAGGGGGGAGTAGAGAGAGCCCTG
TGACGGACATTGACAGCTTCATCAAGGAGCTGGATGCTTCTGCAGCAAGGTCTCCGTCTTCCCAGACGGG
GGACAGTGGCTCTCAGGAGGGCAGTGCTCAGGGCCACCCACCAGCCGGGGCTGGAGGTGGGAGCTCCTGC
CGTGCCGAACCAGTCCCGGGGGGCCAGACCTCCTCCCCGAGGAGGGCCTGGGCTGCTGGTGCCCCCGCCT
ACCCACAATGGGCCTCCCAGCCTTCGGTTTTAGATTCAATTAATCCCGACAAACATTTTACTGTGAACAA
AAACTTTCTGAGCAACTACTCTAGAAATTTTAGCAGTTTTCATGAAGACAGCACCTCCCTATCAGGCCTG
GGTGACAGCACGGAGCCGTCTCTGTCATCCATGTATGGCGATGCTGAGGATTCTTCTTCTGACCCTGAGT
CACTCACTGAAGCCCCACGAGCTTCTGCCAGGGACGGCTGGTCCCCTCCTCGTTCCCGTGTGTCTTTGCA
CAAGGAAGATCCTTCGGAGTCAGAAGAGGAACAGATTGAGATTTGTTCCACACGTGGCTGCCCCAATCCA
CCCTCGAGTCCTGCTCATCTTCCCACCCAGGCTGCCATCTGTCCTGCCTCAGCCAAAGTTCTGTCATTAA
AATACAGCACTCCGAGAGAGTCGGTGGCCAGTCCCCGTGAGAAGGCCGCCTGCTTGCCAGGCTCATACAC
TTCAGGCCCAGACTCTTCCCAGCCATCATCACTCTTGGAGATGAGCTCTCAGGAGCATGAAACTCATGCG
GACATAAGCACTTCACAGAACCACAGGCCCTCGTGTGCAGAAGAAACCACAGAAGTCACCAGCGCTAGCT
CAGCCATGGAAAACAGTCCGCTGTCTAAAGTAGCCAGGCATTTTCACAGTCCGCCCATCATTCTCAGCTC
CCCCAACATGGTAAATGGCTTGGAACATGACCTGCTAGATGACGAAACCCTGAATCAATACGAAACAAGC
ATTAATGCAGCTGCCAGTCTGTCCTCCTTCAGTGTGGATGTCCCTAAGAATGGAGAATCTGTTTTGGAAA
ACCTCCACATCTCTGAAAGTCAAGACCTGGATGACTTGCTACAGAAACCAAAAATGATCGCTAGGAGGCC
CATCATGGCCTGGTTTAAAGAAATAAATAAACATAACCAAGGCACACATTTGAGGAGCAAAACCGAGAAG
GAACAACCTCTAATGCCTGCCAGAAGTCCCGACTCCAAGATTCAGATGGTGAGTTCAAGCCAAAAAAAGG
GCGTTACTGTGCCTCATAGCCCTCCTCAGCCGAAAACAAACCTGGAAAATAAGGACCTGTCTAAGAAGAG
TCCGGCAGAAATGCTTCTGACTAATGGTCAGAAGGCAAAGTGTGGTCCGAAGCTGAAGAGGCTCAGCCTC
AAGGGCAAGGCCAAAGTCAACTCTGAGGCCCCTGCTGCGAATGCTGTGAAGGCTGGGGGGACGGACCACA
GGAAACCCTTGATCTCACCCCAGACCTCCCACAAAACACTTTCTAAGGCAGTGTCACAGCGGCTCCATGT
AGCCGACCACGAGGACCCTGACAGAAACACCACAGCTGCCCCCAGGTCCCCCCAGTGTGTGCTGGAAAGC
AAGCCACCTCTTGCCACCTCTGGGCCACTGAAACCCTCAGTGTCTGACACGAGCATCAGGACATTTGTCT
CGCCCCTGACCTCTCCCAAGCCTGTTCCTGAGCAAGGCATGTGGAGCAGGTTCCACATGGCTGTCCTCTC
TGAACCCGACAGAGGTTGCCCAACCACCCCTAAATCTCCTAAGTGTAGAGCAGAGGGCAGGGCGCCCCGT
GCTGACTCCGGGCCGGTGAGTCCGGCAGCGTCTAGGAACGGCATGTCCGTGGCAGGGAACAGACAGAGTG
AGCCGCGCCTGGCCAGCCATGTGGCAGCAGACACAGCCCAACCCAGGCCGACTGGCGAAAAAGGAGGCAA
CATAATGGCCAGCGATCGCCTCGAAAGAACAAACCAGCTGAAAATCGTGGAGATTTCTGCTGAAGCAGTG
TCAGAGACTGTATGTGGTAACAAGCCAGCTGAAAGCGACAGACGGGGAGGGTGCTTGGCCCAGGGCAACT
GTCAGGAGAAGAGTGAAATCAGGCTCTATCGCCAGGTCGCAGAATCATCCACAAGTCATCCATCCTCACT
CCCATCTCATGCCTCCCAGGCAGAGCAGGAAATGTCACGATCATTCAGCATGGCAAAACTGGCGTCCTCC
TCCTCCTCCCTTCAAACAGCCATTAGAAAGGCAGAATACTCCCAGGGAAAATCAAGCCTGATGTCAGACT
CCCGAGGGGTGCCCAGAAACAGCATTCCAGGGGGCCCCTCGGGGGAGGACCATCTCTACTTCACCCCAAG
GCCAGCGACCAGGACCTACTCCATGCCAGCCCAGTTCTCAAGCCATTTTGGACGGGAGGGTCACCCCCCA
CACAGCCTGGGTCGCTCTCGGGACAGCCAGGTCCCTGTGACAAGCAGTGTTGTCCCCGAGGCAAAGGCAT
CCAGAGGTGGTCTTCCCAGCCTGGCTAATGGACAGGGCATATATAGTGTAAAGCCGCTGCTGGACACATC
GAGGAATCTTCCAGCCACAGATGAAGGGGATATCATTTCAGTCCAGGAGACGAGCTGCCTAGTCACAGAC
AAAATCAAAGTCACCAGACGACACTACTGCTATGAGCAGAACTGGCCCCATGAATCTACCTCATTTTTCT
CTGTGAAGCAGCGGATCAAGTCTTTTGAGAACCTGGCCAATGCTGACCGGCCTGTAGCCAAGTCCGGGGC
TTCCCCATTTTTGTCGGTGAGCTCCAAGCCTCCCATTGGGAGGCGGTCTTCCGGCAGCATTGTTTCCGGG
AGCCTGGGCCACCCAGGTGACGCAGCAGCAAGGTTGTTGAGACGCAGCTTGAGTTCCTGCAGCGAAAACC
AAAGCGAAGCCGGCACCCTCCTGCCCCAGATGGCCAAGTCTCCCTCAATCATGACACTGACCATCTCTCG
GCAGAACCCACCAGAGACCAGTAGCAAGGGCTCTGATTCGGAACTAAAGAAATCACTTGGTCCTTTGGGA
ATTCCCACCCCAACGATGACCCTGGCTTCTCCTGTTAAGAGGAACAAGTCCTCGGTACGCCACACGCAGC
CCTCGCCCGTGTCCCGCTCCAAGCTCCAGGAGCTGAGAGCCTTGAGCATGCCTGACCTTGACAAGCTCTG
CAGCGAGGATTACTCAGCAGGGCCGAGCGCCGTGCTCTTCAAAACTGAGCTGGAGATCACCCCCAGGAGG
TCACCTGGCCCTCCTGCTGGAGGCGTTTCGTGTCCCGAGAAGGGCGGGAACAGGGCCTGTCCAGGAGGAA
GTGGCCCTAAAACCAGTGCTGCTGAGACACCCAGTTCAGCCAGTGATACGGGTGAAGCTGCCCAGGATCT
GCCTTTTAGAAGAAGCTGGTCAGTTAATTTGGATCAACTTCTAGTCTCAGCGGGGGACCAGCAAAGATTA
CAGTCTGTTTTATCGTCAGTGGGATCGAAATCTACCATCCTAACTCTCATTCAGGAAGCGAAAGCACAAT
CAGAGAATGAAGCAGATGTTTGCTTCATAGTCTTGAATAGAAAAGAAGGCTCAGGTCTGGGATTCAGTGT
GGCAGGAGGGACAGATGTGGAGCCAAAATCAATCACGGTCCACAGGGTGTTTTCTCAGGGGGCGGCTTCT
CAGGAAGGGACTATGAACCGAGGGGATTTCCTTCTGTCAGTCAACGGCGCCTCACTGGCTGGCTTAGCCC
ACGGGAATGTCCTGAAGGTTCTGCACCAGGCACAGCTGCACAAAGATGCCCTCGTGGTCATCAAGAAAGG
GATGGATCAGCCCAGGCCCTCTGCCCGGCAGGAGCCTCCCACAGCCAATGGGAAGGGTTTGCTGTCCAGA
AAGACCATCCCCCTGGAGCCTGGCATTGGGAGAAGTGTGGCTGTACACGATGCTCTGTGTGTTGAAGTGC
TGAAGACCTCGGCTGGGCTGGGACTGAGTCTGGATGGGGGAAAATCATCGGTGACGGGAGATGGGCCCTT
GGTCATTAAAAGAGTGTACAAAGGTGGTGCGGCTGAACAAGCTGGAATAATAGAAGCTGGAGATGAAATT
CTTGCTATTAATGGGAAACCTCTGGTTGGGCTCATGCACTTTGATGCCTGGAATATTATGAAGTCTGTCC
CAGAAGGACCTGTGCAGTTATTAATTAGAAAGCATAGGAATTCTTCA

ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT
ACAAGGATGACGACGATAAGGTTTAA
>RC220008 representing NM_178140
Red=Cloning site Green=Tags(s)

MPITQDNAVLHLPLLYQWLQNSLQEGGDGPEQRLCQAAIQKLQEYIQLNFAVDESTVPPDHSPPEMEICT
VYLTKELGDTETVGLSFGNIPVFGDYGEKRRGGKKRKTHQGPVLDVGCIWVTELRKNSPAGKSGKVRLRD
EILSLNGQLMVGVDVSGASYLAEQCWNGGFIYLIMLRRFKHKAHSTYNGNSSNSSEPGETPTLELGDRTA
KKGKRTRKFGVISRPPANKAPEESKGSAGCEVSSDPSTELENGPDPELGNGHVFQLENGPDSLKEVAGPH
LERSEVDRGTEHRIPKTDAPLTTSNDKRRFSKGGKTDFQSSDCLAREEVGRIWKMELLKESDGLGIQVSG
GRGSKRSPHAIVVTQVKEGGAAHRDGRLSLGDELLVINGHLLVGLSHEEAVAILRSATGMVQLVVASKEN
SAEDLLRLTSKSLPDLTSSVEDVSSWTDNEDQEADGEEDEGTSSSVQRAMPGTDEPQDVCGAEESKGNLE
SPKQGSNKIKLKSRLSGGVHRLESVEEYNELMVRNGDPRIRMLEVSRDGRKHSLPQLLDSSSASQEYHIV
KKSTRSLSTTQVESPWRLIRPSVISIIGLYKEKGKGLGFSIAGGRDCIRGQMGIFVKTIFPNGSAAEDGR
LKEGDEILDVNGIPIKGLTFQEAIHTFKQIRSGLFVLTVRTKLVSPSLTPCSTPTHMSRSASPNFNTSGG
ASAGGSDEGSSSSLGRKTPGPKDRIVMEVTLNKEPRVGLGIGACCLALENSPPGIYIHSLAPGSVAKMES
NLSRGDQILEVNSVNVRHAALSKVHAILSKCPPGPVRLVIGRHPNPKVSEQEMDEVIARSTYQESKEANS
SPGLGTPLKSPSLAKKDSLISESELSQYFAHDVPGPLSDFMVAGSEDEDHPGSGCSTSEEGSLPPSTSTH
KEPGKPRANSLVTLGSHRASGLFHKQVTVARQASLPGSPQALRNPLLRQRKVGCYDANDASDEEEFDREG
DCISLPGALPGPIRPLSEDDPRRVSISSSKGMDVHNQEERPRKTLVSKAISAPLLGSSVDLEESIPEGMV
DAASYAANLTDSAEAPKGSPGSWWKKELSGSSSAPKLEYTVRTDTQSPTNTGSPSSPQQKSEGLGSRHRP
VARVSPHCKRSEAEAKPSGSQTVNLTGRANDPCDLDSRVQATSVKVTVAGFQPGGAVEKESLGKLTTGDA
CVSTSCELASALSHLDASHLTENLPKAASELGQQPMTELDSSSDLISSPGKKGAAHPDPSKTSVDTGQVS
RPENPSQPASPRVTKCKARSPVRLPHEGSPSPGEKAAAPPDYSKTRSASETSTPHNTRRVAALRGAGPGA
EGMTPAGAVLPGDPLTSQEQRQGAPGNHSKALEMTGIHAPESSQEPSLLEGADSVSSRAPQASLSMLPST
DNTKEACGHVSGHCCPGGSRESPVTDIDSFIKELDASAARSPSSQTGDSGSQEGSAQGHPPAGAGGGSSC
RAEPVPGGQTSSPRRAWAAGAPAYPQWASQPSVLDSINPDKHFTVNKNFLSNYSRNFSSFHEDSTSLSGL
GDSTEPSLSSMYGDAEDSSSDPESLTEAPRASARDGWSPPRSRVSLHKEDPSESEEEQIEICSTRGCPNP
PSSPAHLPTQAAICPASAKVLSLKYSTPRESVASPREKAACLPGSYTSGPDSSQPSSLLEMSSQEHETHA
DISTSQNHRPSCAEETTEVTSASSAMENSPLSKVARHFHSPPIILSSPNMVNGLEHDLLDDETLNQYETS
INAAASLSSFSVDVPKNGESVLENLHISESQDLDDLLQKPKMIARRPIMAWFKEINKHNQGTHLRSKTEK
EQPLMPARSPDSKIQMVSSSQKKGVTVPHSPPQPKTNLENKDLSKKSPAEMLLTNGQKAKCGPKLKRLSL
KGKAKVNSEAPAANAVKAGGTDHRKPLISPQTSHKTLSKAVSQRLHVADHEDPDRNTTAAPRSPQCVLES
KPPLATSGPLKPSVSDTSIRTFVSPLTSPKPVPEQGMWSRFHMAVLSEPDRGCPTTPKSPKCRAEGRAPR
ADSGPVSPAASRNGMSVAGNRQSEPRLASHVAADTAQPRPTGEKGGNIMASDRLERTNQLKIVEISAEAV
SETVCGNKPAESDRRGGCLAQGNCQEKSEIRLYRQVAESSTSHPSSLPSHASQAEQEMSRSFSMAKLASS
SSSLQTAIRKAEYSQGKSSLMSDSRGVPRNSIPGGPSGEDHLYFTPRPATRTYSMPAQFSSHFGREGHPP
HSLGRSRDSQVPVTSSVVPEAKASRGGLPSLANGQGIYSVKPLLDTSRNLPATDEGDIISVQETSCLVTD
KIKVTRRHYCYEQNWPHESTSFFSVKQRIKSFENLANADRPVAKSGASPFLSVSSKPPIGRRSSGSIVSG
SLGHPGDAAARLLRRSLSSCSENQSEAGTLLPQMAKSPSIMTLTISRQNPPETSSKGSDSELKKSLGPLG
IPTPTMTLASPVKRNKSSVRHTQPSPVSRSKLQELRALSMPDLDKLCSEDYSAGPSAVLFKTELEITPRR
SPGPPAGGVSCPEKGGNRACPGGSGPKTSAAETPSSASDTGEAAQDLPFRRSWSVNLDQLLVSAGDQQRL
QSVLSSVGSKSTILTLIQEAKAQSENEADVCFIVLNRKEGSGLGFSVAGGTDVEPKSITVHRVFSQGAAS
QEGTMNRGDFLLSVNGASLAGLAHGNVLKVLHQAQLHKDALVVIKKGMDQPRPSARQEPPTANGKGLLSR
KTIPLEPGIGRSVAVHDALCVEVLKTSAGLGLSLDGGKSSVTGDGPLVIKRVYKGGAAEQAGIIEAGDEI
LAINGKPLVGLMHFDAWNIMKSVPEGPVQLLIRKHRNSS

TRTRPLEQKLISEEDLAANDILDYKDDDDKV
Chromatograms CHROMATOGRAMS
Sequencher program is needed, download here.
Restriction Sites AscI-MluI      Cloning Scheme for this gene      Plasmid Map     
ACCN NM_178140
ORF Size 8517 bp
OTI Disclaimer 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.
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_178140.1, NP_835260.1
RefSeq Size 11705 bp
RefSeq ORF 8520 bp
Locus ID 23037
UniProt ID O15018
Protein Families Druggable Genome
MW 301.5 kDa
Gene Summary The protein encoded by this gene contains six PDZ domains and shares sequence similarity with pro-interleukin-16 (pro-IL-16). Like pro-IL-16, the encoded protein localizes to the endoplasmic reticulum and is thought to be cleaved by a caspase to produce a secreted peptide containing two PDZ domains. In addition, this gene is upregulated in primary prostate tumors and may be involved in the early stages of prostate tumorigenesis. [provided by RefSeq, Dec 2015]
*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.

Other Versions

SKU Description Size Price
RG220008 PDZD2 (tGFP-tagged) - Human PDZ domain containing 2 (PDZD2)
    • 10 ug

CNY 20,000.00

SC307131 PDZD2 (untagged)-Human PDZ domain containing 2 (PDZD2)
    • 10 ug

CNY 54,630.00

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Expression Plasmids
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CRISPR
RNAi
Proteins
Antibodies
相关产品 (5)

PS100001

pCMV6-Entry, mammalian vector with C-terminal Myc- DDK Tag, 10ug

    • 10 ug

CNY 5,420.00

TF81001

TurboFectin Transfection Reagent (1 mL in 1 vial)

    • 1 ml in 1 vial

CNY 4,090.00

TA50011-100

Clone OTI4C5, Anti-DDK (FLAG) monoclonal antibody

【特别福利】购一抗正装产品,免费领10ul抗体试用装

    • 100 ul

CNY 1,050.00

SC307131

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    • 10 ug

CNY 54,630.00

RG220008

PDZD2 (tGFP-tagged) - Human PDZ domain containing 2 (PDZD2)

    • 10 ug

CNY 20,000.00

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