Itpr3 (NM_080553) Mouse Tagged ORF Clone
CAT#: MG225699
- TrueORF®
Itpr3 (GFP-tagged) - Mouse inositol 145-triphosphate receptor 3 (Itpr3), (10ug)
"NM_080553" in other vectors (2)
Product Images
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Frequently bought together (3)
Other products for "Itpr3"
Specifications
Product Data | |
Type | Mouse Tagged ORF Clone |
Tag | TurboGFP |
Symbol | Itpr3 |
Synonyms | IP3R 3; Ip3r3; Itpr-3; tf |
Vector | pCMV6-AC-GFP |
E. coli Selection | Ampicillin (100 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>MG225699 representing NM_080553.
Blue=ORF Red=Cloning site Green=Tag(s) GCTCGTTTAGTGAACCGTCAGAATTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTG GATCCGGTACCGAGGAGATCTGCCGCCGCGATCGCC ATGAATGAAATGTCCAGCTTTCTTCACATCGGGGACATTGTGTCCCTGTACGCCGAGGGCTCTGTCAAT GGCTTCATCAGCACTTTGGGGCTGGTGGATGACCGTTGTGTGGTGGAACCTGCAGCTGGGGACCTGGAC AACCCCCCCAAGAAGTTCCGAGATTGCCTCTTCAAAGTGTGCCCCATGAACCGCTACTCTGCACAGAAA CAGTACTGGAAAGCCAAGCAGACTAAACAGGACAAAGAGAAGATTGCTGATGTGGTATTGCTGCAGAAG CTGCAGCACGCAGCCCAGATGGAGCAGAAGCAAAATGACACAGAGAACAAGAAGGTGCACGGGGACGTG GTGAAGTACGGCAGCGTGATTCAGCTTCTGCATATGAAGAGCAACAAATACTTAACTGTGAACAAGCGG CTGCCAGCCCTGCTGGAGAAGAATGCCATGCGGGTGACGCTGGATGCTACGGGCAATGAGGGCTCCTGG CTCTTCATCCAGCCCTTCTGGAAGCTTCGGAGCAATGGGGATAATGTGGTCGTGGGGGACAAGGTGATC CTGAATCCTGTCAATGCCGGGCAGCCCTTACATGCCAGCAACTATGAGCTTAGTGATAATGCTGGCTGC AAAGAGGTCAACTCTGTCAACTGCAACACCAGCTGGAAGATCAACTTATTCATGCAGTTCCGGGACCAC CTGGAGGAGGTGCTGAAGGGGGGAGACGTGGTGCGACTGTTCCACGCGGAGCAGGAGAAGTTCCTGACC TGTGATGAGTACAGGGGCAAGCTGCAGGTGTTCCTGCGGACCACGCTCCGCCAGTCCGCCACCTCGGCC ACCAGCTCCAACGCACTCTGGGAGGTGGAGGTGGTCCACCACGACCCCTGCCGCGGGGGAGCCGGACAC TGGAACGGTCTGTACAGGTTCAAGCACCTGGCCACGGGCAACTATCTGGCCGCTGAGGAAAACCCCAGC TACAAGGGTGATGTCTCAGATCCTAAGGCAGCTGGACTGGGGGCCCAGGGCCGCACTGGCCGCAGGAAC GCAGGCGAGAAGATCAAGTACCGTCTGGTGGCTGTGCCACATGGGAATGACATCGCGTCTCTCTTCGAG CTGGACCCCACCACGCTGCAGAAAACCGACTCCTTCGTGCCCCGGAACTCCTACGTGCGGCTGCGGCAC CTCTGCACCAACACCTGGATCCAGAGTACCAACGCGCCCATCGACGTGGAGGAGGAACGGCCTATCCGG CTCATGTTGGGCACATGCCCCACCAAGGAGGACAAAGAGGCCTTTGCCATTGTGTCGGTTCCTGTGTCG GAGATCCGCGACCTGGACTTTGCCAACGACGCCAGCTCCATGCTGGCCAGCGCCGTGGAGAAACTCAAC GAAGGCTTCATCAGCCAGAACGACCGCAGGTTTGTCATCCAGCTGTTGGAGGACTTGGTGTTTTTTGTC AGCGATGTTCCCAACAATGGGCAGAATGTCCTGGACATCATGGTCACCAAGCCCAACCGGGAGCGGCAG AAGCTGATGCGGGAGCAGAACATACTTAAGCAGATCTTTGGCATCCTGAAGGCTCCATTCCGTGACAAG GGGGGTGAAGGACCACTAGTGCGGCTGGAGGAACTGTCTGACCAGAAGAACGCCCCCTACCAGTACATG TTCCGTCTCTGCTACCGGGTGTTGCGGCATTCTCAGGAGGACTACCGCAAGAATCAGGAGCACATAGCC AAGCAGTTTGGGATGATGCAGTCACAGATTGGCTATGACATCCTGGCTGAAGACACCATCACTGCCCTG CTGCACAACAACCGGAAGCTTCTAGAGAAACACATCACCAAGACGGAGGTGGAGACCTTTGTCAGTCTC GTGCGCAAGAACAGGGAGCCCAGATTCCTGGACTACCTCTCCGACCTGTGCGTGTCCAACCGTATCGCC ATCCCTGTCACCCAAGAGCTGATTTGCAAATGTGTGCTGGACCCTAAGAACAGTGACATTCTTATCCAG ACTGAGCTGCGGCCAGTGAAGGAGATGGCTCAGTCTCACGAGTACCTCAGCATCGAGTACTCAGAGGAG GAGGTGTGGCTCACATGGACGGACAGGAACAATGAGCACCACGAGAAGAGCGTGAGGCAGCTGGCCCAG GAGGCGAGGGCTGGCAACGCACACGATGAGAACGTGCTCAGCTACTACAGGTACCAGTTGAAGCTGTTT GCCCGCATGTGCCTGGACCGCCAGTACTTGGCCATTGATGAGATCTCCAAGCAGCTGGGTGTCGAGCTG CTTTTCCTGTGCATGGCTGACGAGATGCTGCCCTTTGACCTCCGCGCCTCATTCTGCCATCTGATGCTA CATGTGCACGTGGACCGCGACCCTCAGGAGCTGGTGACCCCTGTCAAGTTTGCCCGCCTCTGGACAGAG ATCCCCACGGCCATCACCATTAAAGACTATGATTCCAATCTCAACGCGTCGAGAGATGACAAAAAAAAC AAGTTTGCCAGCACCATGGAGTTCGTAGAAGATTACCTCAACAACGTGGTCAGCGAGGCCGTGCCCTTT GCCAACGACGAGAAGAACATACTCACCTTTGAGGTGGTGAGCCTGGCGCACAATCTCATCTACTTCGGG TTCTACAGCTTCAGCGAGCTGCTGAGGCTCACACGCACGCTACTGGGCATCATAGACTGCATCCAGGCA CCGGCAGCCATGCTGCAGGCCTATGAGGAGCCTGGTGGCAAGAATGTGCGGAGGTCCATCCAGGGGGTG GGGCACATGATGTCCACCATGGTGCTGAGCCGCAAGCAGTCTGTATTTGGTGCCTCCAGCCTGCCTGCT GGAGTGGGTGTCCCTGAGCAGCTAGACAGAAGCAAATTTGAGGACAATGAGCACACTGTGGTGATGGAG ACCAAACTGAAGATCCTGGAGATTCTGCAGTTCATCCTGAACGTACGCTTAGACTACCGCATCTCCTAC CTGTTGTCGGTCTTCAAGAAGGAGTTTGTGGAGGTGTTTCCCATGCAGGACAGCGGGGCGGACGGCACG GCACCTGCCTTTGATTCCTCCACTGCCACCATGAATCTGGACCGCATCGGAGAGCAGGCAGAGGCCATG TTTGGAGTAGGGAAGACCAGCAGCATGCTGGAGGTGGACGATGAAGGTGGCCGCATGTTCCTGCGAGTG CTGCTGCACCTGACCATGCACGACTACCCGTCTCTTGTCTCCGGTGCGCTGCAGCTGCTCTTCAAACAC TTCAGCCAGCGCCAGGAAGCCATGCACACTTTCAAGCAGGTCCAGTTGCTGATCTCAGCCCAGGATGTG GAGAACTACAAGGTGATCAAGTCAGAGCTGGACCGACTGCGGACGATGGTGGAGAAGTCAGAGCTGTGG GTGGACAAGAAAGGCAGCGTCAAGGGCGAGGAGGTTGAGGCAGGCGCCACCAAGGATAAGAAGGAGAGA CCCTCGGACGAGGAGGGATTTCTGCAGCCACACGGGGAGAAGAGCAGCGAGAACTACCAGATTGTGAAA GGCATCCTGGAGAGGCTGAACAAGATGTGTGGGGTGGGGGAGCAGATGAGGAAGAAGCAACAAAGGTTG CTGAAGAACATGGACGCCCACAAGGTCATGCTGGACCTACTGCAGATCCCTTACGACAAGAGCGACAAC AAGATGCTGGAGATACTGCGCTACACACACCAGTTCCTACAGAAGTTCTGTGCTGGGAACCCTGGCAAC CAGGCCCTTCTGCACAAACACTTGCAGCTCTTCCTCACGCCTGGGCTCCTGGAGGCTGAGACCATGCAG CACATTTTCCTCAACAACTACCAGCTGTGCTCTGAGATCAGCGAGCCGGTGTTGCAACACTTTGTGCAC CTGCTGGCCACACACGGGCGCCATGTGCAGTACTTGGACTTCCTGCACACTGTCATCAAGGCTGAGGGC AAGTACGTGAAGAAGTGCCAGGACATGATTATGACCGAGCTGACCAATGCAGGTGACGACGTGGTGGTG TTCTACAACGACAAGGCCTCTCTGGCTCATCTGTTGGACATGATGAAGGCAGCCAGAGATGGCGTGGAG GACCACAGCCCTCTCATGTATCACATCTCCCTGGTGGACCTGCTGGCTGCCTGTGCAGAGGGCAAGAAC GTCTACACAGAGATCAAGTGCACCTCCCTCTTGCCTCTAGAGGACGTGGTGACTGTGGTCACCCACGAG GATTGTATCACGGAGGTTAAAATGGCTTATGTGAACTTCGTGAATCACTGCTACGTAGACACGGAGGTG GAGATGAAGGAGATCTACACCAGCAACCACATCTGGACGCTCTTCGAGAACTTCACCCTGGACATGGCT CTGGTCTGTAACAAGCGGGAGAAGCGCCTGTCAGACCCCACCCTTGAGAAGTACGTGCTCACCGTGGTC CTGGACACCATCAGTGCCTTCTTCAGCTCCCCGTTTTCAGAGAACAGCACATCCCTACAGACGCACCAG ACAATTGTGGTCCAGCTGCTGCAGTCCACCACGCGGCTGCTCGAGTGTCCTTGGCTGCAGCAGCAGCAT AAGGGCTCCGTGGAGGCCTGTGTCCGCACCCTCGCCATGGTGGCCAAGAGTAGAGCCATCTTGCTGCCA ATGGATCTGGATGCCCACATGAGCGCCCTGCTCAGCAGTGGGGGCAGCTGTTCCGCCGCTGCCCAGCGC AGCGCTGCCAACTACAAGACGGCCACCAGGACCTTCCCTCGGGTCATCCCCACTGCCAACCAGTGGGAC TACAAGAACATCATTGAGAAGTTACAGGATATCATCATGGCCCTAGAAGAGCGGCTGAAGCCTCTGGTA CAGGCTGAGCTCTCTGTCCTTGTGGACATGCTGCACTGGCCTGAGCTGCTTTTTCCAGAGGGCAGTGAG GCCTACCAGCGCTGCGAGAGCGGGGGCTTCCTGTCTAAGCTCATCCGTCACACTAAGGGTCTCATGGAG TCCGAGGAGAAGTTGTGCGTGAAGGTGCTGCGGACGCTGCAGCAGATGCTGCTGAAGAAGAGCAAGTTC GGGGACCGGGGCAACCAGCTGCGGAAAATGCTGCTGCAGAATTATCTCCAGAACCGCAAGTCTGGCGCC CGGGGCGAGCTCACTGACCCCACGGGCTCTGGCCTGGATCAGGACTGGTCAGCCATCGCCGCCACCCAG TGCCGGCTGGACAAGGAGGGGGCCACCAAGCTGGTGTGTGATCTTATCACCAGCACCAAGAACGAGAAG ATCTTCCAGGAGAGCATTGGCCTGGCCATCCGCCTGCTGGACGGGGGCAACACCGAGATCCAGAAGTCT TTCTACAACCTGATGACAAGTGACAAGAAGTCGGAGCGCTTCTTCAAGGTGCTTCATGACCGCATGAAG CGCGCCCAGCAGGAGACCAAGTCCACGGTCGCTGTCAACATGAGCGACCTGGGCAGCCAGCCTCGTGAG GACCGGGAGCCGGCAGATCCTGCCACCAAAGGCCGCGTGTCCTCCTTCTCCATGCCCAGCTCCTCCCGC TATTTGCTGGGCCTCGGCTTGCACCGAGGGCACGACATGAGCGAGCGGGCGCAGAACAACGAGATGGGG ACCTCGGTGCTGATCATGCGGCCCATCCTGCGCTTCCTGCAGCTGCTGTGTGAGAACCACAACCGTGAC CTGCAAAACTTCCTGCGCTGTCAGAACAACAAGACCAACTACAACCTGGTGTGTGAGACCCTGCAGTTC CTGGACATCATGTGTGGCAGCACCACAGGGGGCCTGGGGCTGCTGGGGCTCTACATCAACGAGGACAAC GTGGGCCTGGTCATCCAGACCTTGGAGACCCTCACAGAGTACTGCCAGGGCCCATGTCATGAGAACCAG ACCTGCATTGTGACTCACGAATCCAACGGCATCGACATCATCACGGCGCTGATCCTCAATGACATCAGC CCGCTTTGCAAGTACCGCATGGACCTGGTGCTGCAGCTCAAGGACAATGCCTCCAAGCTGCTCCTGGCT CTGATGGAGAGCCGACATGACAGTGAGAATGCAGAGCGCATCCTCATCAGCCTTCGGCCTCAGGAGCTG GTGGACGTGATCAAGAAGGCCTACCTGCAGGAGGAGGAGAGGGAGAATTCAGAAGTGAGCCCACGTGAA GTGGGCCACAACATCTACATCCTAGCACTGCAGCTTTCCAGGCACAACAAGCAGCTGCAGCACCTGCTG AAGCCAGTGAGGCGCATCCAGGAGGAGGAGGCCGAGGGCATCTCTTCCATGCTCAGCCTCAACAATAAG CAGCTGTCCCAGATGCTCAAGTCCTCGGCCCCCGCCCAGGAGGAGGAAGAGGACCCGCTGGCCTACTAT GAGAATCACACCTCGCAGATTGAGATTGTGCGGCAAGACCGAAGCATGGAGCAGATCGTGTTCCCGGTA CCTGCCATCTGCCAGTTCCTGACAGAGGAGACGAAGCACCGGCTCTTCACCACCACTGAGCAGGACGAG CAGGGCAGCAAAGTGAGCGACTTCTTCGACCAGTCCTCCTTCCTGCACAACGAGATGGAGTGGCAGCGC CGGCTTCGCAGCATGCCGCTCATCTACTGGTTCTCCCGCCGCATGACGCTGTGGGGCAGCATCTCCTTC AACCTGGCTGTGTTCATCAATATCATCATTGCCTTCTTCTACCCCTATGTGGAGGGCGCTTCCACAGGC GTGCTGGGCTCGCCGCTCATCTCGCTACTCTTCTGGATCCTCATCTGCTTCTCCATCGCTGCACTGTTC ACCAAGCGCTACAGCGTCCGTCCCCTCATCGTGGCGCTGATCCTTCGGTCCATCTACTACCTGGGCATT GGGCCCACGCTCAACATCCTGGGTGCTCTCAATCTGACCAACAAGATCGTGTTTGTGGTGAGCTTCGTG GGCAACCGTGGCACCTTCATCCGAGGCTATAAGGCCATGGTCATGGACATGGAGTTCCTGTACCATGTG GGCTACATCCTGACAAGCGTCCTGGGCCTCTTTGCCCATGAGCTCTTCTACAGCATCCTGCTCTTTGAC CTCATCTACCGAGAGGAGACGCTGTTTAATGTCATCAAGAGTGTGACCCGCAATGGCCGCTCCATCCTA CTGACCGCCCTGCTGGCCCTCATCCTTGTGTACCTCTTCTCCATCGTGGGCTTCCTCTTCCTCAAGGAC GACTTCATCCTGGAGGTGGACCGGCTGCCCGGGAACCACTCCAGAGCCAGCCCCCTGGGGATGCCACAC GGAGCTGCCACATTTATGGGCACATGTAGTGGGGACAAGATGGACTGTGTCTCTGAGGTCTCAGTGCCT GAGATCCTAGAAGAGGACGAGGAGCCCGATAGCACGGAGCGGGCCTGTGACACTCTACTTATGTGTATC GTGACCGTCATGAACCACGGACTGAGGAACGGTGGTGGCGTGGGCGACATCCTCCGCAAGCCCTCCAAA GATGAGTCGCTCTTCCCAGCCAGAGTGGTGTATGACCTTCTGTTCTTCTTTATCGTCATCATCATCGTG TTGAACCTCATCTTTGGGGTGATCATCGACACCTTTGCCGATCTGCGCAGCGAGAAGCAGAAGAAAGAG GAAATCCTTAAGACCACGTGCTTCATCTGTGGTCTGGAGAGGGACAAGTTTGACAACAAGACAGTGTCC TTCGAGGAGCACATCAAACTGGAGCATAACATGTGGAACTACCTGTACTTCATTGTACTGGTCCGAGTC AAGAACAAGACAGACTACACCGGCCCCGAGAGCTATGTGGCTCAGATGATCAAGAACAAGAACCTGGAC TGGTTCCCGCGGATGCGTGCCATGTCCCTGGTGAGCGGCGAGGGGGAGGGGGAGCAGAATGAGATCCGC ATCCTGCAGGAGAAGCTCGGCTCCACCATGAAGCTGGTGTCGCACCTCACCTCCCAGCTCAATGAACTC AAGGAGCAGATGACGGAGCAGCGGAAACGGAGGCAGCGTCTGGGCTTTGTGGATGTGCAGAACTGCATG AGCCGC AGCGGACCGACGCGTACGCGGCCGCTCGAG - GFP Tag - GTTTAAAC >Peptide sequence encoded by MG225699
Blue=ORF Red=Cloning site Green=Tag(s) MNEMSSFLHIGDIVSLYAEGSVNGFISTLGLVDDRCVVEPAAGDLDNPPKKFRDCLFKVCPMNRYSAQK QYWKAKQTKQDKEKIADVVLLQKLQHAAQMEQKQNDTENKKVHGDVVKYGSVIQLLHMKSNKYLTVNKR LPALLEKNAMRVTLDATGNEGSWLFIQPFWKLRSNGDNVVVGDKVILNPVNAGQPLHASNYELSDNAGC KEVNSVNCNTSWKINLFMQFRDHLEEVLKGGDVVRLFHAEQEKFLTCDEYRGKLQVFLRTTLRQSATSA TSSNALWEVEVVHHDPCRGGAGHWNGLYRFKHLATGNYLAAEENPSYKGDVSDPKAAGLGAQGRTGRRN AGEKIKYRLVAVPHGNDIASLFELDPTTLQKTDSFVPRNSYVRLRHLCTNTWIQSTNAPIDVEEERPIR LMLGTCPTKEDKEAFAIVSVPVSEIRDLDFANDASSMLASAVEKLNEGFISQNDRRFVIQLLEDLVFFV SDVPNNGQNVLDIMVTKPNRERQKLMREQNILKQIFGILKAPFRDKGGEGPLVRLEELSDQKNAPYQYM FRLCYRVLRHSQEDYRKNQEHIAKQFGMMQSQIGYDILAEDTITALLHNNRKLLEKHITKTEVETFVSL VRKNREPRFLDYLSDLCVSNRIAIPVTQELICKCVLDPKNSDILIQTELRPVKEMAQSHEYLSIEYSEE EVWLTWTDRNNEHHEKSVRQLAQEARAGNAHDENVLSYYRYQLKLFARMCLDRQYLAIDEISKQLGVEL LFLCMADEMLPFDLRASFCHLMLHVHVDRDPQELVTPVKFARLWTEIPTAITIKDYDSNLNASRDDKKN KFASTMEFVEDYLNNVVSEAVPFANDEKNILTFEVVSLAHNLIYFGFYSFSELLRLTRTLLGIIDCIQA PAAMLQAYEEPGGKNVRRSIQGVGHMMSTMVLSRKQSVFGASSLPAGVGVPEQLDRSKFEDNEHTVVME TKLKILEILQFILNVRLDYRISYLLSVFKKEFVEVFPMQDSGADGTAPAFDSSTATMNLDRIGEQAEAM FGVGKTSSMLEVDDEGGRMFLRVLLHLTMHDYPSLVSGALQLLFKHFSQRQEAMHTFKQVQLLISAQDV ENYKVIKSELDRLRTMVEKSELWVDKKGSVKGEEVEAGATKDKKERPSDEEGFLQPHGEKSSENYQIVK GILERLNKMCGVGEQMRKKQQRLLKNMDAHKVMLDLLQIPYDKSDNKMLEILRYTHQFLQKFCAGNPGN QALLHKHLQLFLTPGLLEAETMQHIFLNNYQLCSEISEPVLQHFVHLLATHGRHVQYLDFLHTVIKAEG KYVKKCQDMIMTELTNAGDDVVVFYNDKASLAHLLDMMKAARDGVEDHSPLMYHISLVDLLAACAEGKN VYTEIKCTSLLPLEDVVTVVTHEDCITEVKMAYVNFVNHCYVDTEVEMKEIYTSNHIWTLFENFTLDMA LVCNKREKRLSDPTLEKYVLTVVLDTISAFFSSPFSENSTSLQTHQTIVVQLLQSTTRLLECPWLQQQH KGSVEACVRTLAMVAKSRAILLPMDLDAHMSALLSSGGSCSAAAQRSAANYKTATRTFPRVIPTANQWD YKNIIEKLQDIIMALEERLKPLVQAELSVLVDMLHWPELLFPEGSEAYQRCESGGFLSKLIRHTKGLME SEEKLCVKVLRTLQQMLLKKSKFGDRGNQLRKMLLQNYLQNRKSGARGELTDPTGSGLDQDWSAIAATQ CRLDKEGATKLVCDLITSTKNEKIFQESIGLAIRLLDGGNTEIQKSFYNLMTSDKKSERFFKVLHDRMK RAQQETKSTVAVNMSDLGSQPREDREPADPATKGRVSSFSMPSSSRYLLGLGLHRGHDMSERAQNNEMG TSVLIMRPILRFLQLLCENHNRDLQNFLRCQNNKTNYNLVCETLQFLDIMCGSTTGGLGLLGLYINEDN VGLVIQTLETLTEYCQGPCHENQTCIVTHESNGIDIITALILNDISPLCKYRMDLVLQLKDNASKLLLA LMESRHDSENAERILISLRPQELVDVIKKAYLQEEERENSEVSPREVGHNIYILALQLSRHNKQLQHLL KPVRRIQEEEAEGISSMLSLNNKQLSQMLKSSAPAQEEEEDPLAYYENHTSQIEIVRQDRSMEQIVFPV PAICQFLTEETKHRLFTTTEQDEQGSKVSDFFDQSSFLHNEMEWQRRLRSMPLIYWFSRRMTLWGSISF NLAVFINIIIAFFYPYVEGASTGVLGSPLISLLFWILICFSIAALFTKRYSVRPLIVALILRSIYYLGI GPTLNILGALNLTNKIVFVVSFVGNRGTFIRGYKAMVMDMEFLYHVGYILTSVLGLFAHELFYSILLFD LIYREETLFNVIKSVTRNGRSILLTALLALILVYLFSIVGFLFLKDDFILEVDRLPGNHSRASPLGMPH GAATFMGTCSGDKMDCVSEVSVPEILEEDEEPDSTERACDTLLMCIVTVMNHGLRNGGGVGDILRKPSK DESLFPARVVYDLLFFFIVIIIVLNLIFGVIIDTFADLRSEKQKKEEILKTTCFICGLERDKFDNKTVS FEEHIKLEHNMWNYLYFIVLVRVKNKTDYTGPESYVAQMIKNKNLDWFPRMRAMSLVSGEGEGEQNEIR ILQEKLGSTMKLVSHLTSQLNELKEQMTEQRKRRQRLGFVDVQNCMSR SGPTRTRPLEMESDESGLPAMEIECRITGTLNGVEFELVGGGEGTPEQGRMTNKMKSTKGALTFSPYLL SHVMGYGFYHFGTYPSGYENPFLHAINNGGYTNTRIEKYEDGGVLHVSFSYRYEAGRVIGDFKVMGTGF PEDSVIFTDKIIRSNATVEHLHPMGDNDLDGSFTRTFSLRDGGYYSSVVDSHMHFKSAIHPSILQNGGP MFAFRRVEEDHSNTELGIVEYQHAFKTPDADAGEERV |
Restriction Sites |
SgfI-RsrII
Cloning Scheme for this gene
Plasmid Map
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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. |
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_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 |
Gene 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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