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Itpr3 (NM_080553) Mouse Tagged ORF Clone

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SKU
MR225699
Itpr3 (Myc-DDK-tagged) - Mouse inositol 1,4,5-triphosphate receptor 3 (Itpr3)
  • TrueORF®
    TrueORF®

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

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ORF Plasmid: DDK tGFP
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Datasheet SDS Plasmid Map
NM_080553 in other vectors (2)
Reconstitution Protocol
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$2,163.00
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PS100001 pCMV6-Entry, mammalian vector with C-terminal Myc- DDK Tag, 10ug 10 ug
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Specifications
Product Data
Type Mouse Tagged ORF Clone
Target Symbol Itpr3
Synonyms IP3R 3; Ip3r3; Itpr-3; tf
Vector pCMV6-Entry
E. coli Selection Kanamycin (25 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
ORF Nucleotide Sequence
>MR225699 representing NM_080553
Red=Cloning site Blue=ORF Green=Tags(s)

TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
GCCGCGATCGCC

ATGAATGAAATGTCCAGCTTTCTTCACATCGGGGACATTGTGTCCCTGTACGCCGAGGGCTCTGTCAATG
GCTTCATCAGCACTTTGGGGCTGGTGGATGACCGTTGTGTGGTGGAACCTGCAGCTGGGGACCTGGACAA
CCCCCCCAAGAAGTTCCGAGATTGCCTCTTCAAAGTGTGCCCCATGAACCGCTACTCTGCACAGAAACAG
TACTGGAAAGCCAAGCAGACTAAACAGGACAAAGAGAAGATTGCTGATGTGGTATTGCTGCAGAAGCTGC
AGCACGCAGCCCAGATGGAGCAGAAGCAAAATGACACAGAGAACAAGAAGGTGCACGGGGACGTGGTGAA
GTACGGCAGCGTGATTCAGCTTCTGCATATGAAGAGCAACAAATACTTAACTGTGAACAAGCGGCTGCCA
GCCCTGCTGGAGAAGAATGCCATGCGGGTGACGCTGGATGCTACGGGCAATGAGGGCTCCTGGCTCTTCA
TCCAGCCCTTCTGGAAGCTTCGGAGCAATGGGGATAATGTGGTCGTGGGGGACAAGGTGATCCTGAATCC
TGTCAATGCCGGGCAGCCCTTACATGCCAGCAACTATGAGCTTAGTGATAATGCTGGCTGCAAAGAGGTC
AACTCTGTCAACTGCAACACCAGCTGGAAGATCAACTTATTCATGCAGTTCCGGGACCACCTGGAGGAGG
TGCTGAAGGGGGGAGACGTGGTGCGACTGTTCCACGCGGAGCAGGAGAAGTTCCTGACCTGTGATGAGTA
CAGGGGCAAGCTGCAGGTGTTCCTGCGGACCACGCTCCGCCAGTCCGCCACCTCGGCCACCAGCTCCAAC
GCACTCTGGGAGGTGGAGGTGGTCCACCACGACCCCTGCCGCGGGGGAGCCGGACACTGGAACGGTCTGT
ACAGGTTCAAGCACCTGGCCACGGGCAACTATCTGGCCGCTGAGGAAAACCCCAGCTACAAGGGTGATGT
CTCAGATCCTAAGGCAGCTGGACTGGGGGCCCAGGGCCGCACTGGCCGCAGGAACGCAGGCGAGAAGATC
AAGTACCGTCTGGTGGCTGTGCCACATGGGAATGACATCGCGTCTCTCTTCGAGCTGGACCCCACCACGC
TGCAGAAAACCGACTCCTTCGTGCCCCGGAACTCCTACGTGCGGCTGCGGCACCTCTGCACCAACACCTG
GATCCAGAGTACCAACGCGCCCATCGACGTGGAGGAGGAACGGCCTATCCGGCTCATGTTGGGCACATGC
CCCACCAAGGAGGACAAAGAGGCCTTTGCCATTGTGTCGGTTCCTGTGTCGGAGATCCGCGACCTGGACT
TTGCCAACGACGCCAGCTCCATGCTGGCCAGCGCCGTGGAGAAACTCAACGAAGGCTTCATCAGCCAGAA
CGACCGCAGGTTTGTCATCCAGCTGTTGGAGGACTTGGTGTTTTTTGTCAGCGATGTTCCCAACAATGGG
CAGAATGTCCTGGACATCATGGTCACCAAGCCCAACCGGGAGCGGCAGAAGCTGATGCGGGAGCAGAACA
TACTTAAGCAGATCTTTGGCATCCTGAAGGCTCCATTCCGTGACAAGGGGGGTGAAGGACCACTAGTGCG
GCTGGAGGAACTGTCTGACCAGAAGAACGCCCCCTACCAGTACATGTTCCGTCTCTGCTACCGGGTGTTG
CGGCATTCTCAGGAGGACTACCGCAAGAATCAGGAGCACATAGCCAAGCAGTTTGGGATGATGCAGTCAC
AGATTGGCTATGACATCCTGGCTGAAGACACCATCACTGCCCTGCTGCACAACAACCGGAAGCTTCTAGA
GAAACACATCACCAAGACGGAGGTGGAGACCTTTGTCAGTCTCGTGCGCAAGAACAGGGAGCCCAGATTC
CTGGACTACCTCTCCGACCTGTGCGTGTCCAACCGTATCGCCATCCCTGTCACCCAAGAGCTGATTTGCA
AATGTGTGCTGGACCCTAAGAACAGTGACATTCTTATCCAGACTGAGCTGCGGCCAGTGAAGGAGATGGC
TCAGTCTCACGAGTACCTCAGCATCGAGTACTCAGAGGAGGAGGTGTGGCTCACATGGACGGACAGGAAC
AATGAGCACCACGAGAAGAGCGTGAGGCAGCTGGCCCAGGAGGCGAGGGCTGGCAACGCACACGATGAGA
ACGTGCTCAGCTACTACAGGTACCAGTTGAAGCTGTTTGCCCGCATGTGCCTGGACCGCCAGTACTTGGC
CATTGATGAGATCTCCAAGCAGCTGGGTGTCGAGCTGCTTTTCCTGTGCATGGCTGACGAGATGCTGCCC
TTTGACCTCCGCGCCTCATTCTGCCATCTGATGCTACATGTGCACGTGGACCGCGACCCTCAGGAGCTGG
TGACCCCTGTCAAGTTTGCCCGCCTCTGGACAGAGATCCCCACGGCCATCACCATTAAAGACTATGATTC
CAATCTCAACGCGTCGAGAGATGACAAAAAAAACAAGTTTGCCAGCACCATGGAGTTCGTAGAAGATTAC
CTCAACAACGTGGTCAGCGAGGCCGTGCCCTTTGCCAACGACGAGAAGAACATACTCACCTTTGAGGTGG
TGAGCCTGGCGCACAATCTCATCTACTTCGGGTTCTACAGCTTCAGCGAGCTGCTGAGGCTCACACGCAC
GCTACTGGGCATCATAGACTGCATCCAGGCACCGGCAGCCATGCTGCAGGCCTATGAGGAGCCTGGTGGC
AAGAATGTGCGGAGGTCCATCCAGGGGGTGGGGCACATGATGTCCACCATGGTGCTGAGCCGCAAGCAGT
CTGTATTTGGTGCCTCCAGCCTGCCTGCTGGAGTGGGTGTCCCTGAGCAGCTAGACAGAAGCAAATTTGA
GGACAATGAGCACACTGTGGTGATGGAGACCAAACTGAAGATCCTGGAGATTCTGCAGTTCATCCTGAAC
GTACGCTTAGACTACCGCATCTCCTACCTGTTGTCGGTCTTCAAGAAGGAGTTTGTGGAGGTGTTTCCCA
TGCAGGACAGCGGGGCGGACGGCACGGCACCTGCCTTTGATTCCTCCACTGCCACCATGAATCTGGACCG
CATCGGAGAGCAGGCAGAGGCCATGTTTGGAGTAGGGAAGACCAGCAGCATGCTGGAGGTGGACGATGAA
GGTGGCCGCATGTTCCTGCGAGTGCTGCTGCACCTGACCATGCACGACTACCCGTCTCTTGTCTCCGGTG
CGCTGCAGCTGCTCTTCAAACACTTCAGCCAGCGCCAGGAAGCCATGCACACTTTCAAGCAGGTCCAGTT
GCTGATCTCAGCCCAGGATGTGGAGAACTACAAGGTGATCAAGTCAGAGCTGGACCGACTGCGGACGATG
GTGGAGAAGTCAGAGCTGTGGGTGGACAAGAAAGGCAGCGTCAAGGGCGAGGAGGTTGAGGCAGGCGCCA
CCAAGGATAAGAAGGAGAGACCCTCGGACGAGGAGGGATTTCTGCAGCCACACGGGGAGAAGAGCAGCGA
GAACTACCAGATTGTGAAAGGCATCCTGGAGAGGCTGAACAAGATGTGTGGGGTGGGGGAGCAGATGAGG
AAGAAGCAACAAAGGTTGCTGAAGAACATGGACGCCCACAAGGTCATGCTGGACCTACTGCAGATCCCTT
ACGACAAGAGCGACAACAAGATGCTGGAGATACTGCGCTACACACACCAGTTCCTACAGAAGTTCTGTGC
TGGGAACCCTGGCAACCAGGCCCTTCTGCACAAACACTTGCAGCTCTTCCTCACGCCTGGGCTCCTGGAG
GCTGAGACCATGCAGCACATTTTCCTCAACAACTACCAGCTGTGCTCTGAGATCAGCGAGCCGGTGTTGC
AACACTTTGTGCACCTGCTGGCCACACACGGGCGCCATGTGCAGTACTTGGACTTCCTGCACACTGTCAT
CAAGGCTGAGGGCAAGTACGTGAAGAAGTGCCAGGACATGATTATGACCGAGCTGACCAATGCAGGTGAC
GACGTGGTGGTGTTCTACAACGACAAGGCCTCTCTGGCTCATCTGTTGGACATGATGAAGGCAGCCAGAG
ATGGCGTGGAGGACCACAGCCCTCTCATGTATCACATCTCCCTGGTGGACCTGCTGGCTGCCTGTGCAGA
GGGCAAGAACGTCTACACAGAGATCAAGTGCACCTCCCTCTTGCCTCTAGAGGACGTGGTGACTGTGGTC
ACCCACGAGGATTGTATCACGGAGGTTAAAATGGCTTATGTGAACTTCGTGAATCACTGCTACGTAGACA
CGGAGGTGGAGATGAAGGAGATCTACACCAGCAACCACATCTGGACGCTCTTCGAGAACTTCACCCTGGA
CATGGCTCTGGTCTGTAACAAGCGGGAGAAGCGCCTGTCAGACCCCACCCTTGAGAAGTACGTGCTCACC
GTGGTCCTGGACACCATCAGTGCCTTCTTCAGCTCCCCGTTTTCAGAGAACAGCACATCCCTACAGACGC
ACCAGACAATTGTGGTCCAGCTGCTGCAGTCCACCACGCGGCTGCTCGAGTGTCCTTGGCTGCAGCAGCA
GCATAAGGGCTCCGTGGAGGCCTGTGTCCGCACCCTCGCCATGGTGGCCAAGAGTAGAGCCATCTTGCTG
CCAATGGATCTGGATGCCCACATGAGCGCCCTGCTCAGCAGTGGGGGCAGCTGTTCCGCCGCTGCCCAGC
GCAGCGCTGCCAACTACAAGACGGCCACCAGGACCTTCCCTCGGGTCATCCCCACTGCCAACCAGTGGGA
CTACAAGAACATCATTGAGAAGTTACAGGATATCATCATGGCCCTAGAAGAGCGGCTGAAGCCTCTGGTA
CAGGCTGAGCTCTCTGTCCTTGTGGACATGCTGCACTGGCCTGAGCTGCTTTTTCCAGAGGGCAGTGAGG
CCTACCAGCGCTGCGAGAGCGGGGGCTTCCTGTCTAAGCTCATCCGTCACACTAAGGGTCTCATGGAGTC
CGAGGAGAAGTTGTGCGTGAAGGTGCTGCGGACGCTGCAGCAGATGCTGCTGAAGAAGAGCAAGTTCGGG
GACCGGGGCAACCAGCTGCGGAAAATGCTGCTGCAGAATTATCTCCAGAACCGCAAGTCTGGCGCCCGGG
GCGAGCTCACTGACCCCACGGGCTCTGGCCTGGATCAGGACTGGTCAGCCATCGCCGCCACCCAGTGCCG
GCTGGACAAGGAGGGGGCCACCAAGCTGGTGTGTGATCTTATCACCAGCACCAAGAACGAGAAGATCTTC
CAGGAGAGCATTGGCCTGGCCATCCGCCTGCTGGACGGGGGCAACACCGAGATCCAGAAGTCTTTCTACA
ACCTGATGACAAGTGACAAGAAGTCGGAGCGCTTCTTCAAGGTGCTTCATGACCGCATGAAGCGCGCCCA
GCAGGAGACCAAGTCCACGGTCGCTGTCAACATGAGCGACCTGGGCAGCCAGCCTCGTGAGGACCGGGAG
CCGGCAGATCCTGCCACCAAAGGCCGCGTGTCCTCCTTCTCCATGCCCAGCTCCTCCCGCTATTTGCTGG
GCCTCGGCTTGCACCGAGGGCACGACATGAGCGAGCGGGCGCAGAACAACGAGATGGGGACCTCGGTGCT
GATCATGCGGCCCATCCTGCGCTTCCTGCAGCTGCTGTGTGAGAACCACAACCGTGACCTGCAAAACTTC
CTGCGCTGTCAGAACAACAAGACCAACTACAACCTGGTGTGTGAGACCCTGCAGTTCCTGGACATCATGT
GTGGCAGCACCACAGGGGGCCTGGGGCTGCTGGGGCTCTACATCAACGAGGACAACGTGGGCCTGGTCAT
CCAGACCTTGGAGACCCTCACAGAGTACTGCCAGGGCCCATGTCATGAGAACCAGACCTGCATTGTGACT
CACGAATCCAACGGCATCGACATCATCACGGCGCTGATCCTCAATGACATCAGCCCGCTTTGCAAGTACC
GCATGGACCTGGTGCTGCAGCTCAAGGACAATGCCTCCAAGCTGCTCCTGGCTCTGATGGAGAGCCGACA
TGACAGTGAGAATGCAGAGCGCATCCTCATCAGCCTTCGGCCTCAGGAGCTGGTGGACGTGATCAAGAAG
GCCTACCTGCAGGAGGAGGAGAGGGAGAATTCAGAAGTGAGCCCACGTGAAGTGGGCCACAACATCTACA
TCCTAGCACTGCAGCTTTCCAGGCACAACAAGCAGCTGCAGCACCTGCTGAAGCCAGTGAGGCGCATCCA
GGAGGAGGAGGCCGAGGGCATCTCTTCCATGCTCAGCCTCAACAATAAGCAGCTGTCCCAGATGCTCAAG
TCCTCGGCCCCCGCCCAGGAGGAGGAAGAGGACCCGCTGGCCTACTATGAGAATCACACCTCGCAGATTG
AGATTGTGCGGCAAGACCGAAGCATGGAGCAGATCGTGTTCCCGGTACCTGCCATCTGCCAGTTCCTGAC
AGAGGAGACGAAGCACCGGCTCTTCACCACCACTGAGCAGGACGAGCAGGGCAGCAAAGTGAGCGACTTC
TTCGACCAGTCCTCCTTCCTGCACAACGAGATGGAGTGGCAGCGCCGGCTTCGCAGCATGCCGCTCATCT
ACTGGTTCTCCCGCCGCATGACGCTGTGGGGCAGCATCTCCTTCAACCTGGCTGTGTTCATCAATATCAT
CATTGCCTTCTTCTACCCCTATGTGGAGGGCGCTTCCACAGGCGTGCTGGGCTCGCCGCTCATCTCGCTA
CTCTTCTGGATCCTCATCTGCTTCTCCATCGCTGCACTGTTCACCAAGCGCTACAGCGTCCGTCCCCTCA
TCGTGGCGCTGATCCTTCGGTCCATCTACTACCTGGGCATTGGGCCCACGCTCAACATCCTGGGTGCTCT
CAATCTGACCAACAAGATCGTGTTTGTGGTGAGCTTCGTGGGCAACCGTGGCACCTTCATCCGAGGCTAT
AAGGCCATGGTCATGGACATGGAGTTCCTGTACCATGTGGGCTACATCCTGACAAGCGTCCTGGGCCTCT
TTGCCCATGAGCTCTTCTACAGCATCCTGCTCTTTGACCTCATCTACCGAGAGGAGACGCTGTTTAATGT
CATCAAGAGTGTGACCCGCAATGGCCGCTCCATCCTACTGACCGCCCTGCTGGCCCTCATCCTTGTGTAC
CTCTTCTCCATCGTGGGCTTCCTCTTCCTCAAGGACGACTTCATCCTGGAGGTGGACCGGCTGCCCGGGA
ACCACTCCAGAGCCAGCCCCCTGGGGATGCCACACGGAGCTGCCACATTTATGGGCACATGTAGTGGGGA
CAAGATGGACTGTGTCTCTGAGGTCTCAGTGCCTGAGATCCTAGAAGAGGACGAGGAGCCCGATAGCACG
GAGCGGGCCTGTGACACTCTACTTATGTGTATCGTGACCGTCATGAACCACGGACTGAGGAACGGTGGTG
GCGTGGGCGACATCCTCCGCAAGCCCTCCAAAGATGAGTCGCTCTTCCCAGCCAGAGTGGTGTATGACCT
TCTGTTCTTCTTTATCGTCATCATCATCGTGTTGAACCTCATCTTTGGGGTGATCATCGACACCTTTGCC
GATCTGCGCAGCGAGAAGCAGAAGAAAGAGGAAATCCTTAAGACCACGTGCTTCATCTGTGGTCTGGAGA
GGGACAAGTTTGACAACAAGACAGTGTCCTTCGAGGAGCACATCAAACTGGAGCATAACATGTGGAACTA
CCTGTACTTCATTGTACTGGTCCGAGTCAAGAACAAGACAGACTACACCGGCCCCGAGAGCTATGTGGCT
CAGATGATCAAGAACAAGAACCTGGACTGGTTCCCGCGGATGCGTGCCATGTCCCTGGTGAGCGGCGAGG
GGGAGGGGGAGCAGAATGAGATCCGCATCCTGCAGGAGAAGCTCGGCTCCACCATGAAGCTGGTGTCGCA
CCTCACCTCCCAGCTCAATGAACTCAAGGAGCAGATGACGGAGCAGCGGAAACGGAGGCAGCGTCTGGGC
TTTGTGGATGTGCAGAACTGCATGAGCCGC

AGCGGACCGACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCC
TGGATTACAAGGATGACGACGATAAGGTTTAA
Protein Sequence
>MR225699 representing NM_080553
Red=Cloning site Green=Tags(s)

MNEMSSFLHIGDIVSLYAEGSVNGFISTLGLVDDRCVVEPAAGDLDNPPKKFRDCLFKVCPMNRYSAQKQ
YWKAKQTKQDKEKIADVVLLQKLQHAAQMEQKQNDTENKKVHGDVVKYGSVIQLLHMKSNKYLTVNKRLP
ALLEKNAMRVTLDATGNEGSWLFIQPFWKLRSNGDNVVVGDKVILNPVNAGQPLHASNYELSDNAGCKEV
NSVNCNTSWKINLFMQFRDHLEEVLKGGDVVRLFHAEQEKFLTCDEYRGKLQVFLRTTLRQSATSATSSN
ALWEVEVVHHDPCRGGAGHWNGLYRFKHLATGNYLAAEENPSYKGDVSDPKAAGLGAQGRTGRRNAGEKI
KYRLVAVPHGNDIASLFELDPTTLQKTDSFVPRNSYVRLRHLCTNTWIQSTNAPIDVEEERPIRLMLGTC
PTKEDKEAFAIVSVPVSEIRDLDFANDASSMLASAVEKLNEGFISQNDRRFVIQLLEDLVFFVSDVPNNG
QNVLDIMVTKPNRERQKLMREQNILKQIFGILKAPFRDKGGEGPLVRLEELSDQKNAPYQYMFRLCYRVL
RHSQEDYRKNQEHIAKQFGMMQSQIGYDILAEDTITALLHNNRKLLEKHITKTEVETFVSLVRKNREPRF
LDYLSDLCVSNRIAIPVTQELICKCVLDPKNSDILIQTELRPVKEMAQSHEYLSIEYSEEEVWLTWTDRN
NEHHEKSVRQLAQEARAGNAHDENVLSYYRYQLKLFARMCLDRQYLAIDEISKQLGVELLFLCMADEMLP
FDLRASFCHLMLHVHVDRDPQELVTPVKFARLWTEIPTAITIKDYDSNLNASRDDKKNKFASTMEFVEDY
LNNVVSEAVPFANDEKNILTFEVVSLAHNLIYFGFYSFSELLRLTRTLLGIIDCIQAPAAMLQAYEEPGG
KNVRRSIQGVGHMMSTMVLSRKQSVFGASSLPAGVGVPEQLDRSKFEDNEHTVVMETKLKILEILQFILN
VRLDYRISYLLSVFKKEFVEVFPMQDSGADGTAPAFDSSTATMNLDRIGEQAEAMFGVGKTSSMLEVDDE
GGRMFLRVLLHLTMHDYPSLVSGALQLLFKHFSQRQEAMHTFKQVQLLISAQDVENYKVIKSELDRLRTM
VEKSELWVDKKGSVKGEEVEAGATKDKKERPSDEEGFLQPHGEKSSENYQIVKGILERLNKMCGVGEQMR
KKQQRLLKNMDAHKVMLDLLQIPYDKSDNKMLEILRYTHQFLQKFCAGNPGNQALLHKHLQLFLTPGLLE
AETMQHIFLNNYQLCSEISEPVLQHFVHLLATHGRHVQYLDFLHTVIKAEGKYVKKCQDMIMTELTNAGD
DVVVFYNDKASLAHLLDMMKAARDGVEDHSPLMYHISLVDLLAACAEGKNVYTEIKCTSLLPLEDVVTVV
THEDCITEVKMAYVNFVNHCYVDTEVEMKEIYTSNHIWTLFENFTLDMALVCNKREKRLSDPTLEKYVLT
VVLDTISAFFSSPFSENSTSLQTHQTIVVQLLQSTTRLLECPWLQQQHKGSVEACVRTLAMVAKSRAILL
PMDLDAHMSALLSSGGSCSAAAQRSAANYKTATRTFPRVIPTANQWDYKNIIEKLQDIIMALEERLKPLV
QAELSVLVDMLHWPELLFPEGSEAYQRCESGGFLSKLIRHTKGLMESEEKLCVKVLRTLQQMLLKKSKFG
DRGNQLRKMLLQNYLQNRKSGARGELTDPTGSGLDQDWSAIAATQCRLDKEGATKLVCDLITSTKNEKIF
QESIGLAIRLLDGGNTEIQKSFYNLMTSDKKSERFFKVLHDRMKRAQQETKSTVAVNMSDLGSQPREDRE
PADPATKGRVSSFSMPSSSRYLLGLGLHRGHDMSERAQNNEMGTSVLIMRPILRFLQLLCENHNRDLQNF
LRCQNNKTNYNLVCETLQFLDIMCGSTTGGLGLLGLYINEDNVGLVIQTLETLTEYCQGPCHENQTCIVT
HESNGIDIITALILNDISPLCKYRMDLVLQLKDNASKLLLALMESRHDSENAERILISLRPQELVDVIKK
AYLQEEERENSEVSPREVGHNIYILALQLSRHNKQLQHLLKPVRRIQEEEAEGISSMLSLNNKQLSQMLK
SSAPAQEEEEDPLAYYENHTSQIEIVRQDRSMEQIVFPVPAICQFLTEETKHRLFTTTEQDEQGSKVSDF
FDQSSFLHNEMEWQRRLRSMPLIYWFSRRMTLWGSISFNLAVFINIIIAFFYPYVEGASTGVLGSPLISL
LFWILICFSIAALFTKRYSVRPLIVALILRSIYYLGIGPTLNILGALNLTNKIVFVVSFVGNRGTFIRGY
KAMVMDMEFLYHVGYILTSVLGLFAHELFYSILLFDLIYREETLFNVIKSVTRNGRSILLTALLALILVY
LFSIVGFLFLKDDFILEVDRLPGNHSRASPLGMPHGAATFMGTCSGDKMDCVSEVSVPEILEEDEEPDST
ERACDTLLMCIVTVMNHGLRNGGGVGDILRKPSKDESLFPARVVYDLLFFFIVIIIVLNLIFGVIIDTFA
DLRSEKQKKEEILKTTCFICGLERDKFDNKTVSFEEHIKLEHNMWNYLYFIVLVRVKNKTDYTGPESYVA
QMIKNKNLDWFPRMRAMSLVSGEGEGEQNEIRILQEKLGSTMKLVSHLTSQLNELKEQMTEQRKRRQRLG
FVDVQNCMSR

SGPTRTRPLEQKLISEEDLAANDILDYKDDDDKV
Restriction Sites SgfI-RsrII Cloning Scheme for this gene Plasmid Map
ACCN NM_080553
ORF Size 8010 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.
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_080553.3, NP_542120.2
RefSeq Size 9012 bp
RefSeq ORF 8013 bp
Locus ID 16440
UniProt ID P70227
Cytogenetics 17 13.68 cM
MW 304.3 kDa
Summary Receptor for inositol 1,4,5-trisphosphate, a second messenger that mediates the release of intracellular calcium.[UniProtKB/Swiss-Prot Function]
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"NM_080553" in other vectors (2)
SKU Description Size Price
MC225385 Itpr3 (untagged) - Mouse inositol 1,4,5-triphosphate receptor 3 (Itpr3), (10ug) 10 ug
$2,380.00
MG225699 Itpr3 (tGFP-tagged) - Mouse inositol 145-triphosphate receptor 3 (Itpr3), (10ug) 10 ug
$2,563.00
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Citations

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