ITPR2 (NM_002223) Human Untagged Clone
CAT#: SC318732
ITPR2 (untagged)-Human inositol 1,4,5-trisphosphate receptor, type 2 (ITPR2)
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Other products for "ITPR2"
Specifications
Product Data | |
Type | Human Untagged Clone |
Tag | Tag Free |
Symbol | ITPR2 |
Synonyms | ANHD; CFAP48; INSP3R2; IP3R2 |
Vector | pCMV6 series |
Sequence Data |
>NCBI ORF sequence for NM_002223, the custom clone sequence may differ by one or more nucleotides
ATGACTGAGAAAATGTCCAGCTTCCTCTACATAGGGGACATCGTGTCCCTGTACGCGGAG GGCTCGGTCAACGGCTTCATCAGCACCTTGGGGTTAGTGGATGACAGATGTGTGGTGCAC CCAGAGGCCGGGGACCTTGCCAACCCTCCCAAGAAGTTCAGAGACTGCCTTTTCAAGGTG TGCCCTATGAACAGATATTCTGCCCAGAAGCAATATTGGAAAGCAAAGCAAGCCAAACAA GGGAACCACACCGAGGCAGCCTTGCTGAAGAAACTACAGCACGCTGCAGAACTGGAACAA AAACAAAATGAATCGGAGAATAAGAAACTGTTGGGAGAAATTGTAAAATACAGTAATGTT ATACAACTACTGCATATAAAAAGCAACAAATATCTTACTGTCAACAAGAGATTACCTGCT TTACTGGAGAAGAATGCCATGCGTGTGTCCTTGGATGCTGCAGGAAATGAAGGGTCTTGG TTTTATATTCATCCGTTCTGGAAACTGAGAAGCGAGGGTGACAATATTGTTGTAGGAGAT AAAGTTGTTTTGATGCCTGTGAATGCAGGGCAGCCACTACATGCCAGCAACATAGAGCTT CTTGATAACCCAGGGTGTAAAGAGGTGAATGCTGTCAATTGCAACACCAGCTGGAAAATC ACTTTATTCATGAAATATAGTTCCTATCGAGAGGATGTATTAAAAGGAGGGGACGTTGTT AGATTATTTCATGCGGAACAAGAGAAGTTTTTGACTTGTGATGAATATGAGAAAAAACAG CACATTTTCCTTCGTACGACCTTGCGCCAATCAGCTACTTCTGCTACTAGTTCTAAAGCA CTCTGGGAAATAGAGGTGGTTCATCATGACCCATGCCGTGGGGGTGCAGGACAGTGGAAC AGCTTGTTCAGATTTAAGCATCTTGCAACTGGAAACTATTTAGCTGCAGAGCTTAATCCT GATTATCGAGATGCCCAAAATGAAGGAAAAAATGTGAGAGATGGAGTCCCTCCAACTTCA AAGAAAAAACGCCAGGCAGGGGAGAAGATCATGTATACTTTGGTTTCAGTCCCGCATGGC AATGACATTGCATCCCTTTTTGAACTAGATGCCACAACTCTTCAGAGAGCTGACTGCCTG GTTCCAAGGAACTCATATGTTCGGTTAAGGCATTTATGCACCAACACATGGGTAACCAGT ACTAGTATCCCCATAGACACAGATGAAGAGAGGCCTGTTATGTTAAAGATTGGAACCTGC CAAACCAAAGAAGATAAAGAAGCGTTCGCAATCGTGTCTGTTCCACTGTCTGAAGTTCGA GACTTAGACTTTGCCAATGATGCCAATAAAGTACTAGCGACCACAGTTAAAAAGCTAGAA AACGGCACAATAACTCAGAATGAAAGGAGGTTTGTAACCAAATTATTGGAAGATCTCATA TTCTTTGTTGCTGATGTGCCTAATAATGGACAAGAAGTTCTGGATGTGGTTATCACTAAG CCAAACCGAGAGCGTCAAAAATTGATGAGGGAACAAAACATACTGGCACAGGTATTTGGA ATTCTTAAAGCACCCTTTAAAGAGAAAGCAGGAGAAGGCTCGATGCTGAGACTTGAAGAT CTGGGGGATCAAAGATATGCACCCTACAAGTACATGCTGCGGCTCTGTTACCGCGTCCTG AGACACTCGCAGCAGGATTACCGGAAAAATCAGGAATATATTGCTAAGAATTTCTGTGTC ATGCAGTCCCAGATTGGCTATGATATTTTGGCAGAAGATACTATCACAGCTTTGTTGCAC AACAACAGAAAACTACTAGAGAAACATATCACAGCAAAAGAAATAGAAACATTTGTCAGT TTACTCAGGAGAAATCGGGAGCCAAGGTTTTTGGATTATTTGTCAGATCTGTGTGTGTCT AATACCACTGCTATCCCTGTAACTCAAGAACTCATCTGTAAATTTATGTTGAGTCCAGGC AATGCAGACATTCTCATTCAAACTAAGGTGGTCTCAATGCAAGCAGACAACCCCATGGAG AGCTCCATCCTTTCAGATGACATTGATGATGAAGAAGTTTGGCTCTATTGGATTGACAGC AACAAGGAACCTCATGGCAAAGCTATCAGGCACCTTGCTCAAGAGGCAAAAGAAGGCACC AAAGCTGACTTAGAAGTTCTTACCTATTACAGGTACCAGCTAAACCTCTTTGCAAGGATG TGCTTGGATCGCCAGTATCTGGCCATAAACCAGATTTCTACACAGCTGTCTGTAGACCTG ATCCTGCGGTGTGTGTCGGATGAGAGCCTGCCGTTCGACCTCCGAGCGTCCTTCTGTCGC CTCATGCTCCACATGCACGTTGACCGGGATCCCCAGGAGTCCGTGGTGCCTGTTCGCTAT GCCAGGCTCTGGACAGAAATCCCCACAAAGATCACAATTCATGAATATGATTCTATAACA GACTCTTCCAGAAATGATATGAAGAGGAAATTTGCCCTGACAATGGAATTTGTTGAAGAA TATTTGAAAGAAGTTGTAAACCAGCCCTTTCCTTTTGGGGATAAAGAAAAAAATAAACTG ACATTTGAGGTGGTCCACTTGGCTCGGAATCTTATATACTTTGGATTTTATAGTTTCAGT GAGTTATTAAGGCTAACAAGAACACTTCTGGCTATTTTAGACATTGTACAGGCCCCCATG TCATCATACTTTGAAAGATTAAGCAAATTTCAAGATGGAGGAAACAATGTGATGAGAACC ATTCATGGGGTGGGAGAGATGATGACCCAGATGGTACTCAGTAGAGGCTCCATCTTCCCC ATGAGCGTGCCGGATGTGCCACCCAGCATCCACCCGAGCAAGCAAGGGAGCCCCACCGAG CACGAGGATGTGACTGTGATGGACACCAAGCTGAAGATCATTGAGATTTTGCAGTTTATC CTGAGTGTCAGACTGGATTATAGGATCTCATATATGCTGTCAATATATAAGAAGGAGTTT GGAGAGGACAATGACAATGCGGAGACATCTGCCAGTGGATCTCCAGACACTTTACTACCA TCAGCTATTGTTCCTGATATAGATGAAATTGCAGCTCAGGCAGAAACTATGTTTGCGGGA AGAAAAGAAAAAAATCCAGTTCAACTTGACGATGAAGGAGGCAGGACGTTTTTACGGGTC CTCATTCATCTGATCATGCACGACTACCCGCCTTTGCTGTCTGGAGCCCTGCAGCTGTTG TTTAAGCACTTCAGCCAGAGGGCAGAGGTTTTACAGGCATTTAAGCAGGTGCAATTACTG GTGTCTAATCAAGACGTAGATAACTACAAGCAAATCAAGGCAGATCTAGACCAGCTTCGA CTGACAGTAGAAAAGTCTGAGCTATGGGTGGAGAAGAGCAGCAACTATGAGAATGGAGAA ATAGGGGAAAGTCAAGTGAAAGGTGGTGAAGAGCCAATTGAGGAATCAAACATTTTAAGT CCAGTGCAGGATGGAACAAAGAAACCTCAGATTGACAGCAACAAGAGCAATAACTACCGG ATTGTAAAGGAGATTTTGATCAGGCTAAGTAAACTCTGTGTGCAGAATAAAAAGTGTCGG AATCAACATCAACGATTACTGAAAAATATGGGGGCGCATTCGGTGGTGTTGGATCTTCTG CAGATACCCTATGAAAAGAATGATGAAAAGATGAATGAAGTAATGAATCTAGCCCATACA TTTCTGCAGAATTTCTGTCGAGGAAATCCACAGAATCAAGTTCTTCTTCATAAACATCTG AATTTGTTTTTAACTCCAGGTCTCCTTGAAGCAGAAACCATGCGGCACATCTTCATGAAC AATTACCATCTGTGCAACGAAATTAGCGAGAGAGTTGTACAACACTTTGTGCACTGCATT GAGACACATGGCCGCCACGTGGAGTACCTGAGGTTTTTGCAAACAATTGTAAAAGCAGAT GGTAAATATGTGAAGAAATGCCAGGATATGGTAATGACAGAGTTGATAAATGGGGGTGAA GACGTGCTGATATTTTACAATGATAGAGCATCATTTCCAATCCTTCTCCATATGATGTGT TCAGAGAGAGACCGAGGGGATGAGAGTGGCCCCTTAGCCTACCACATCACCCTGGTGGAG TTGCTGGCAGCATGCACAGAGGGGAAAAATGTCTACACTGAAATCAAGTGTAATTCCCTT CTCCCGCTGGACGACATAGTGAGGGTGGTGACCCATGACGACTGCATCCCTGAGGTTAAA ATTGCTTATGTGAACTTTGTTAATCACTGTTATGTTGACACTGAAGTGGAAATGAAAGAA ATCTATACAAGTAACCACATTTGGAAATTATTTGAGAACTTCTTGGTGGATATGGCAAGG GTTTGCAACACAACTACAGACAGGAAACATGCAGACATCTTTTTGGAAAAGTGTGTTACT GAGTCAATAATGAATATTGTGAGCGGCTTCTTTAATTCTCCCTTTTCAGACAATAGTACC AGCCTCCAGACACATCAGCCAGTTTTTATTCAGCTACTGCAATCTGCCTTCAGAATTTAC AATTGCACCTGGCCAAACCCAGCGCAGAAAGCCTCAGTGGAATCCTGTATCAGAACTTTG GCTGAAGTGGCAAAAAATCGTGGAATTGCCATTCCAGTGGATTTGGACAGCCAAGTTAAT ACTCTTTTCATGAAGAGCCATTCAAATATGGTGCAGAGAGCAGCAATGGGTTGGAGACTA TCAGCTCGCTCTGGGCCACGCTTTAAGGAAGCTCTTGGAGGGCCTGCTTGGGATTACAGA AATATTATTGAAAAGTTACAGGATGTAGTGGCCTCCTTGGAGCACCAGTTCAGCCCAATG ATGCAGGCTGAATTCTCAGTGTTGGTTGATGTATTGTACAGTCCAGAACTGCTGTTCCCT GAGGGAAGCGATGCAAGAATAAGATGTGGCGCTTTCATGTCGAAGTTGATTAATCATACA AAGAAACTAATGGAGAAAGAAGAAAAACTGTGCATTAAAATTCTTCAGACATTACGAGAA ATGTTAGAGAAGAAAGACAGCTTTGTGGAAGAGGGTAACACATTAAGAAAGATACTTCTG AATCGATACTTTAAAGGTGATTATAGTATTGGTGTGAATGGACACCTATCAGGAGCCTAC TCCAAAACTGCACAGGTGGGAGGAAGCTTTTCTGGACAAGATTCAGATAAGATGGGGATA TCAATGTCAGACATTCAGTGTCTGCTGGATAAAGAAGGTGCATCAGAACTTGTCATCGAT GTTATAGTGAACACCAAAAATGACAGAATTTTTTCAGAAGGCATTTTCCTCGGCATTGCC TTGCTTGAAGGAGGAAATACACAAACACAGTATTCTTTCTACCAGCAGTTGCATGAACAA AAAAAGTCAGAAAAATTCTTTAAAGTTCTCTATGATCGAATGAAGGCTGCTCAGAAAGAA ATAAGATCAACAGTGACAGTTAATACCATAGATTTAGGTAACAAAAAAAGGGACGATGAC AATGAATTGATGACATCTGGTCCACGAATGAGAGTAAGAGATTCAACACTACATTTAAAA GAGGGAATGAAAGGGCAATTAACAGAAGCTTCTTCAGCAACATCCAAAGCATATTGTGTA TACAGAAGAGAAATGGATCCAGAAATAGACATTATGTGCACAGGACCAGAAGCGGGAAAC ACTGAGGAAAAATCCGCAGAGGAAGTAACAATGAGTCCCGCAATTGCCATCATGCAGCCA ATACTGAGATTTCTTCAGTTACTGTGTGAGAATCACAACCGGGAATTGCAGAACTTCTTG AGGAATCAAAACAACAAAACAAATTACAACCTAGTCTGTGAGACCCTTCAGTTTCTGGAC TGCATTTGTGGAAGTACAACCGGTGGCCTGGGCCTGTTGGGTCTCTACATCAATGAGAAG AATGTAGCGCTGGTCAACCAGAACCTGGAGAGCTTGACTGAGTATTGCCAGGGCCCTTGC CATGAAAATCAGACCTGTATCGCTACACATGAGTCTAATGGGATTGATATCATCATTGCT TTGATTCTGAATGACATAAACCCTCTTGGTAAATACCGAATGGACCTGGTGCTCCAGCTA AAGAACAATGCATCTAAACTTTTGCTGGCCATTATGGAAAGCAGACATGACAGTGAGAAT GCAGAAAGAATTCTTTTTAACATGAGACCCAGAGAACTGGTGGATGTGATGAAGAATGCC TATAACCAAGGATTGGAATGTGACCATGGGGATGATGAGGGTGGAGATGATGGTGTTTCT CCAAAAGATGTTGGACACAATATCTATATTCTGGCCCATCAGTTGGCCCGCCACAATAAA CTGTTGCAGCAGATGCTCAAACCAGGATCGGATCCAGATGAAGGAGATGAAGCCTTAAAG TATTATGCCAACCACACTGCACAGATTGAGATTGTCCGGCATGATAGGACCATGGAACAA ATAGTTTTTCCTGTCCCCAATATATGTGAATACCTCACTCGAGAATCCAAGTGCCGTGTG TTCAATACAACTGAAAGGGATGAACAAGGAAGTAAAGTGAATGACTTTTTCCAGCAAACA GAAGATCTCTACAATGAAATGAAGTGGCAGAAGAAAATCAGGAATAACCCTGCACTGTTC TGGTTCTCGAGGCACATCTCTCTCTGGGGGAGCATTTCCTTCAACCTGGCTGTGTTCATC AATTTAGCTGTTGCTCTCTTCTACCCATTTGGGGATGATGGAGATGAAGGTACACTTTCT CCATTGTTCTCGGTTCTTCTTTGGATAGCAGTTGCGATCTGCACATCTATGCTGTTTTTC TTCTCCAAGCCTGTGGGTATTCGGCCGTTTCTTGTATCAATAATGCTCAGATCAATATAT ACAATAGGTCTTGGGCCTACATTAATACTTCTTGGTGCAGCTAATCTTTGTAATAAAATT GTTTTTCTGGTGAGTTTTGTTGGAAATCGTGGCACGTTCACCCGTGGGTACCGAGCAGTC ATCCTGGATATGGCCTTTCTCTATCACGTGGCGTATGTCCTGGTTTGCATGCTGGGCCTT TTTGTCCATGAATTCTTCTATAGCTTCCTGCTTTTTGATTTGGTGTACAGGGAAGAGACT TTGCTGAATGTCATAAAAAGTGTCACACGAAATGGCCGCTCTATTATTCTAACTGCAGTC CTGGCTCTCATCCTCGTCTACCTGTTTTCCATTATTGGGTTCCTTTTTTTGAAGGATGAC TTCACTATGGAAGTTGATAGGCTGAAAAACCGAACTCCTGTTACAGGCAGTCATCAAGTG CCTACTATGACTTTAACTACCATGATGGAAGCATGTGCCAAGGAGAACTGTTCACCCACA ATTCCAGCTTCAAATACAGCTGATGAAGAGTATGAAGATGGAATTGAAAGGACGTGTGAC ACTCTCCTTATGTGCATTGTCACCGTGCTGAACCAGGGCCTCAGGAATGGCGGTGGTGTG GGGGATGTGCTAAGAAGGCCATCGAAAGATGAGCCCTTGTTTGCTGCCCGAGTGGTTTAT GACCTTCTTTTTTATTTCATTGTTATCATTATTGTTCTGAACTTGATTTTTGGTGTTATC ATCGATACTTTTGCTGATCTCAGAAGCGAAAAACAGAAAAAAGAAGAAATTCTAAAGACA ACTTGTTTCATCTGTGGACTTGAGAGAGACAAGTTTGATAATAAAACGGTTTCATTTGAG GAGCACATTAAGTCAGAACACAATATGTGGCATTATTTGTACTTCATAGTCCTGGTGAAA GTTAAAGACCCAACAGAATACACTGGACCTGAAAGTTATGTGGCTCAAATGATTGTGGAG AAGAATTTGGATTGGTTTCCTCGGATGCGAGCCATGTCCCTCGTTAGCAATGAAGGCGAC AGTGAGCAAAATGAAATTCGGAGCCTTCAGGAGAAGTTGGAATCGACCATGAGTCTGGTC AAACAGCTGTCGGGTCAGCTGGCGGAGCTCAAGGAGCAGATGACAGAACAAAGGAAGAAT AAGCAGAGACTGGGCTTCCTCGGATCAAACACACCCCATGTGAATCATCACATGCCACCA CAC |
Restriction Sites | Please inquire |
ACCN | NM_002223 |
OTI Disclaimer | 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 cDNA clone is shipped in a 2-D bar-coded Matrix tube as dried plasmid DNA. The package also includes 100 pmols of both the corresponding 5' and 3' vector primers in separate vials. Every lot of primer is tested to provide clean sequencing of OriGene TrueClones. |
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_002223.2, NP_002214.2 |
RefSeq Size | 12568 bp |
RefSeq ORF | 8106 bp |
Locus ID | 3709 |
Cytogenetics | 12p11.23 |
Domains | RYDR_ITPR, MIR, ion_trans |
Protein Families | Druggable Genome, Transmembrane |
Protein Pathways | Alzheimer's disease, Calcium signaling pathway, Gap junction, GnRH signaling pathway, Long-term depression, Long-term potentiation, Oocyte meiosis, Phosphatidylinositol signaling system, Vascular smooth muscle contraction |
Gene Summary | 'The protein encoded by this gene belongs to the inositol 1,4,5-triphosphate receptor family, whose members are second messenger intracellular calcium release channels. These proteins mediate a rise in cytoplasmic calcium in response to receptor activated production of inositol triphosphate. Inositol triphosphate receptor-mediated signaling is involved in many processes including cell migration, cell division, smooth muscle contraction, and neuronal signaling. This protein is a type 2 receptor that consists of a cytoplasmic amino-terminus that binds inositol triphosphate, six membrane-spanning helices that contribute to the ion pore, and a short cytoplasmic carboxy-terminus. A mutation in this gene has been associated with anhidrosis, suggesting that intracellular calcium release mediated by this protein is required for eccrine sweat production. [provided by RefSeq, Apr 2015]' |
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