Unc80 (NM_175510) Mouse Untagged Clone
CAT#: MC225476
Unc80 (untagged) - Mouse unc-80 homolog (C. elegans) (Unc80), (10ug)
CNY 53,300.00
货期*
12周
规格
Product images
经常一起买 (3)
Specifications
Product Data | |
Type | Mouse Untagged Clone |
Tag | Tag Free |
Synonyms | C030018G13Rik; C230061B10Rik; UNC-80 |
Vector | pCMV6-Entry |
E. coli Selection | Kanamycin (25 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>MC225476 representing NM_175510
Red=Cloning site Blue=ORF Orange=Stop codon TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGGTGAAGAGGAAGAGCTCCGAGGGCCAGGAGCAGGACGGCGGCCGCGGCATCCCTCTGCCCATCCAGA CCTTCCTGTGGCGGCAAACCAGTGCATTTTTGAGGCCTAAACTGGGGAAGCAATATGAAGCCTCTTGTGT GTCCTTTGAACGAGTGTTGGTGGAAAACAAGCTGCATGGCCTGTCCCCGGCCCTCTCTGAAGCAATCCAG AGCATTTCCAGATGGGAGCTAGTGCAGGCTGCCCTCCCTCATGTTCTCCACTGCACTGCAACTCTGCTAT CAAACAGGAACAAACTAGGCCATCAAGATAAGTTGGGTGTTGCTGAGACAAAACTCCTTCATACCCTGCA CTGGATGCTTCTTGAGGCCCCACAGGACTGCAACAATGATCAGTTTGGAGGTACAGACCGAGGTTCCAGC TGGGGTGGCAGCAGCAGTGCTTTCATCCACCAGATTGAAAACCAGGGTTCTCCCGGGCAGCCTTGCCGAA GCAGCTCCCATGATGAGGAAGAGAACAACCGAAGGAAGACCTTCCAGAACTCCATGGCTACCGTGGAGCT CTTTGTGTTTCTGTTTGCTCCTTTGGTGCACAGGATAAAGGAATCTGATCTCACCTTCCGACTGGCCAGT GGGTTGGTTATATGGCAGCCTATGTGGGAGCACAGACAGCCTGAGGTCTCCGGCTTTACTGCGCTGGTAA AGCCCATAAGGAACATCATTACAGCCAAAAGAAGCTCTCCAATCAACAGTCAGAGTCAGACCTGTGAATC ACCCAATCAAGACACCAGGCAGCAAGGAGAGGGACTTCAGGTGGTCAGTGAAGCACTGCAGTCGGATTCC ATCTCACCTAAGGCCACCATCTCAGGCTGCCATCAGGGAAACTCCTTCGATGGAAGCCTGTCCTCCCAAA CGTCCCAGGAAAGAGGCCCGTCACATTCCAGGGCCTCACTTGTGATACCACCATGCCAGAGGTCACGCTA TGCCACCTACTTCGATGTTGCCGTTCTCCGCTGCCTTCTCCAGCCCCACTGGTCTGAGGAAGGCACTCAG TGGTCTCTGATGTACTATCTACAAAGGCTGCGACACATGCTGGAAGAGAAACCAGAAAAGACCCCAGATC CAGATATTCCTCTGCTGCCCAGGCCCAGAAGTAGCTCGATGGTGGCAGCAGCTCCCTCACTGGTGAACAC CCACAAGACTCAAGATCTCACCATGAAGTGTAATGAAGAAGAAAAATCTCTGAGCCCTGAGGCTTTTTCC AAAGTCTCATTGACCAATCTCCGAAGATCTGCCGTCCCAGATCTATCTTCAGATCTGGGCATGAACATTT TTAAAAAGTTCAAAAGTCGCAAAGAAGACCGAGAGAGGAAGGGCTCCATTCCATTCCACCACACGGGGAA GAGGAGACCTAGACGAATGGGTGTACCATTCCTGCTGCATGAGGACCACCTAGACGTCTCACCTACCCGC AGCACATTCTCTTTTGGCAGTTTCTCTGGGCTTGGAGAAGATAGGAGAGGCATTGAAAAGGGAGGCTGGC AAACCACCATCTTAGGGAAGCTGACCCGGCGGGGCAGCTCAGATGCAGCCACTGAGATGGAAAGTCTGAG CGCCAGGCACTCGCACTCCCACCACACCCTGGTGAGCGACCTGCCAGACCACTCCAACAGCCACGGAGAG AACACTGTCAAGGAAGTGCGATCTCAGATCTCCACCATCACAGTTGCGACCTTCAACACTACGCTGGCAT CATTCAATGTAGGCTACGCGGACTTCTTCAGTGAACACATGAGGAAGCTCTGCAGCCAGGTGCCTATCCC AGAGATGCCACATGAGCCTCTGGCATGTGCCAACCTGCCACGAAGCCTCACAGACTCCTGCATAAACTAC AGCTACCTGGAGGACACAGAACATATTGATGGCACGAACAACTTTGTCCATAAGAACGGCATGCTGGATC TCTCTGTGGTTCTGAAGGCTGTTTATCTCGTTCTCAACCATGACATCAGCTCTCGCATCTGTGATGTGGC ACTTAACATTGTGGAATGTTTGCTTCAACTTGGGGTAGTTCCCTGTGTAGAAAAAAACAGGAAGAAAAGT GAAAACAAGGAAAATGAGTCTGTGGAAAAGAGACCAAGTGAGGGAGCCTTCCAGTTCAAAGGCGTGTCTT CAAGTTCCACCAGTGGGTTTGGGGCCCCTTCCGCTAGTGGAGCTGGAGATGGTGGAGGAGAAGAAGGAGG AGGTGGAGATGGAGGAGGAGGAGGTGGAGGAGGAGATGGAGGAGGAGGTGGAGGAGGTGGAGGTGGCCCT TATGAGAAGAATGAGAAGAACCAAGAGAAGGATGACAACATCCCTGTAAGCAACCATAGGCTTGCTCTTA CTATGCTCATCAAAATAGTCAAGTCACTGGGATGTGCCTATGGTTGCGGAGAAGGACATCGAGGGCTCTC TGGAGATCGCCTGAGACACCAGGTATTCCGAGAGAATGCCCAGAACTGCCTTACTAAGCTGTACAAGCTA GATAAAATACAGTTCCGACAAACCATGAGGGACTATGTGAACAAGGACTCTCTCAATAATGTAGTGGACT TCTTGCATGCTTTGCTAGGATTTTGTATGGAGCCGGTCACTGACAACAAAGCTGGGTTTGGAAATAACTT CACCACAGTGGACAACAAGTCCACAGCCCAAAATGTGGAAGGCATTATTGTCGGTGCCATGTTCAAGTCT CTCATCACACGCTGTGCCTCAACCACACATGAACTCCACAGCCCTGAGAATCTGGGACTGTACTGTGACA TCCGCCAGCTGGTTCAGTTTATCAAAGAAGCTCATGGGAATGTCTTCAGGAGAGTGGCTCTTAGTGCCCT GCTTGATAGTGCTGAAAAGTTAGCACCAGGGAAAAAGGTGGAAGAGAATGGACAGGAGTCTAAGCCTGTG GGCAGTAAAAGGTCAGAAGCAGGAAGCATTGCAGATAAAGGCCAGGTATCGTCAGCACCTGAGGAATGTC GAAGCTTCATGTCTGGTCGCCCCTCACAGACCCCAGAACATGATGAACCAATGCAAGGGGGCAACCTGGG ACGGAAAGATTTCTGGCGCAAGATGTTCAAATCCCAAAGCGCAGCAAGTGACACCAGCAGCCAGTCTGAG CAGGATACCTCGGAATGTACCACAGCCCACTCAGGGAACACCTCTGACCGGCGTGCCCGCTCACGATCCC GCAGAATCTCCCTGCGAAAGAAGTTGAAACTCCCCATAGGAAACTGGCTGAAGCGCTCCTCCCTCTCTGG CCTGGCAGATGGTGTAGAGGACCTCCTGGACATTAGCTCTGTGGATCGCCTGTCTTTCATCAGGCAAAGC TCCAAGGTCAAGTTCACCAGCGCTGTCAAGCTCTCAGAAGGTGGACCAGGGAGTGGGATGGAGAATGGAC GAGAAGAGGAGGAGAATTTCTTCAAGCGTCTTGGCTGCCACAGTTTCGATGACCACCTTTCACCCAACCA AGATGGTGGGAAAAGCAAAAACGTGGTGAATCTGGGAGCAATCCGACAAGGCATGAAACGTTTTCAATTC CTGTTGAACTGCTGTGAGCCAGGGACAATTCCTGATGCATCCATCCTAGCTGCTGCCTTGGACTTAGAAG CTCCTGTGGTGGCCAGAGCAGCTCTGTTCCTCGAATGTGCCCGTTTTGTCCACCGGTGCAACCGTGGCAA TTGGCCCGAGTGGATGAAAGGGCACCACGTGAACATCACCAAGAAAGGCCTTTCCCGGGGCAGGTCTCCC ACCGTGGGCAACAAGCGGAACCAGAAGCTTCAGTGGAGTGCTGCCAAGCTCTTCTACCAGTGGGGAGATG CAATTGGCATCCGATTGAATGAGCTGTGCCATGGAGAGAGCGAGAGTCCTGCCAACCTGCTCGGCCTTAT CTATGATGAGGAAACCAAGAGAAGACTGCGGAAGGAGGATGAGGAGGAAGACTTTTTAGATGACAGTACT GTGAACCCCTCTAAATGTGGCTGTCCCTTTGCCTTGAAGATGGCAGCATGCCAACTTCTCCTGGAGATAA CCACCTTCCTGAGGGAGACTTTTTCATGCCTGCCTAGACCTCGCACTGAGCCCCTCGTGGACTTGGAAAG CTGCAGGCTTCGTCTGGACCCTGAATTGGACCGGCACAGATATGAGAGGAAGATCAGCTTTGCAGGAGTT CTGGATGAAAATGAAGACTCAAAAGATTCTCTGCACAGCAGCAGCCACACCATCAAATCAGACGCAGGTG CTGAAGAGAAGAAAGTTCCCAGCAGGAAGATCAGGATAGGAGGTTCTCGACTGCTCCAGATTAAAGGAAC CCGCAGTTTCCAGGTGAAGAAGGGGGGTTCCTTGTCCAGCATTCGCCGAGTCGGCAGCTTAAAGAGCAGC AAGTTATCACGGCAGGACTCAGAGTCTGAGGCTGAGGAGCTGCAGCTGTCCCAGAGCAGGGACACTGTCA CTGACCTAGAAGGAAGTCCTTGGAGTGCAAGTGAACCCAGCATTGAGCCTGAGGGACTGAGCAATGCCGG CACAGAGGAAAACTACCACAGAAACATGTCGTGGCTTCACGTCATGATCTTACTCTGCAATCAACAAAGT TTCATTTGTACACATGTGGACTACTGCCATCCACACTGCTACCTGCACCACAGCCGCTCCTGTGCCCGGC TGGTCAGGGCCATTAAATTGCTGTATGGGGACAGTGTGGACTCCCTGCGTGAGAGCAACCACATCAGCAA CGTGGCTCTGAGGGGCAAGAAACAGAAAGAGTGCTCAGATAAGTCATGCCTGAGGACACCTTCCCTGAAG AAGAGAGTTTCGGATGTCAACCTGGAAGGAAAAAAGGACTCGGGAATGCTGAAGTACATCAGGTTTCAGG TGATGAGCTTGTCACCTGCTCCCTTGTCTCTGCTCATCAAGGCTGCTCCGATTCTGACAGAGGAGATGTA TGGAGACATCCAGCCAGCTGCCTGGGAACTGCTACTCAGTATGGATGAGCACATGGCTGGGGCAGCAGCC GCCATGTTCCTGTTGTGTGCTGTGAAGGTCCCCGATGCTGTGTCAGACATGCTGATGTCCGAGTTCCATC ATGCAGAGACTGTACAGAGGCTGAATGCTGTCCTCAAGTTTCACACTCTCTGGAGGTTTCGCTATCAGGT CTGGCCTAGGATGGAGGAGGGAGCACAGCAGATTTTTAAGATCCCGCCTCCCAGCATAAACTTTACCCTG CCATCACCAGTACTTGGAATGCCATCTGTCCCAATGTTCGACCCTCCGTGGGTCCCTCAGTGCAGCGGGA GTGTCCAGGACCCCATTAACGAAGACCAGTCTAAATCCTTCTCTGCCCGGGCAGTGTCCCGCTCCCATCA GAGGGCAGAGCACATCTTAAAGAACTTGCAGCAGGAGGAAGAGAAGAAACGCCTTGGTCGTGAGGCGAGC CTCATCACCGCCATCCCCATCACCCAAGAGGCTTGCTATGAGCCCACCTGCACACCCAACTCAGAGCCTG AGGAAGAAGAAGAAGTCGCCAATCTGACATCCCGACGGCTGTCTGTGAGTCCATCCTGCACCTCCAGTAC GTCGCACAGGAATTATTCCTTCCGCAGAGGGTCAGTCTGGTCCGTGCGTTCAGCAGTCAGTGCTGAAGAT GAGGAGCACGCCACTGAGCACACCCCGAACCACCATGTGCCTCAGCCTCCGCAAGCAGTGTTCCCAGCAT GCATCTGTGCCGCAGTTCTTCCCATTGTTCATTTAATGGAGGATGGCGAGGTGCGGGAAGATGGCGTGGC AGTCAGTGCTGTGGCCCAGCAAGTCTTGTGGAACTGTCTAATTGAAGATCCATCAACAGTTCTTCGACAT TTTCTGGAAAAACTGACCATCAGCAATAGACAAGATGAGCTAATGTACATGCTCCGAAAACTTCTCTTAA ATATTGGAGACTTTCCAGCTCAAACATCACACATCCTGTTCAACTACCTGGTGGGGTTAATCATGTACTT TGTGAGGACCCCGTGTGAGTGGGGTATGGATGCCATCTCTGCCACGCTGACCTTCCTGTGGGAGGTGGTC GGATATGTGGAGGGCCTCTTCTTCAAGGATCTCAAGCAGACGATGAAGAAGGAGCAATGCGAAGTGAAGC TGCTGGTCACTGCTTCCATGCCAGGTACCAAAACCTTGGTAGTCCATGGGCAGAATGAGTGTGACATCCC AACACAGCTGCCAGTACATGAAGACACTCAGTTTGAAGCCCTGCTGAAGGAGTGTCTGGAGTTTTTCAAC ATCCCAGAATCCCAGTCAACGCATTATTTTCTCATGGATAAACGATGGAACCTCATCCACTATAACAAGA CCTATGTTCGAGACATTTATCCCTTCCGGAGGTCCGTCTCGCCACAGCTGAATCTCGTCCACATGCATCC GGAGAAGGGGCAGGAGCTCATTCAGAAGCAGGTGTTCACCCGGAAGCTGGAGGAAGTAGGGCGGGTTTTG TTCCTCATCTCCCTTACCCAGAAGATCCCCACGGCCCACAAGCAGTCACATGTCTCCATGCTCCAGGAGG ACCTTCTGCGGCTGCCCTCCTTCCCGCGGAGTGCAATAGACGCTGAGTTTTCTCTCTTCAGTGACCCGCA AGCTGGGAAGGAACTGTTTGGCCTCGACACCCTGCAGAAAAGCTTGTGGATCCAACTCCTGGAGGAGATG TTCCTGGGCATGCCGAGCGAGTTTCCCTGGGGAGACGAAATCATGCTTTTTCTCAATGTGTTCAATGGGG CTCTGATTCTCCACCCAGAAGACAGTGCCCTGCTCAGGCAGTACGCAGCCACTGTCATCAACACAGCTGT CCACTTCAATCACCTGTTCTCTCTTAGTGGCTACCAGTGGATTCTCCCCACCATGCTGCAGGTATACTCA GACTATGAAAGCAACCCCCAGCTGCGTCGCGCCATCGAATTTGCCTGCCACCAGTTCTACATCCTACACA GAAAGCCCTTTGTGCTCCAACTGTTTGCTAGTGTGGCCCCTCTTCTGGAGTTCCCGGATGCTGCCAATAC AGGGTCCAGCAAAGGTGTGTCTGCTCAGTGCCTGTTTGACTTGCTGCAGTCTCTGGAGGGAGAAACCACT GACATATTGGACATTCTAGAGCTGGTTAAAGCTGAGAAGCCCCTTAAGTCACTAGATTTCTGCTATGGGA ATGAAGACCTGACATTCTCCATCAGTGAAGCCATCAAGCTCTGCGTCACCGTGGTGGCTTACGCTCCTGA GTCATTCCGAAGCCTTCAGATGCTAATGGTCTTGGAGGCTTTAGTTCCATGCTACCTACAGAAGATGAAG AGGCAGACGTCCCAGGTAGAGACAGTGCCTGCTGCCCGGGAGGAGATTGCTGCCACAGCTGCTCTGGCCA CATCACTACAAGCCCTTTTGTACAGTGTGGAGGTCCTCACCAGGCCCATGACAGCCCCACAGATGAGCAG GAGTGACCAAGGTCACAAGGGAACCACCACAGCCAACCATACCATGTCGTCTGGAGTGAACACCAGGTAC CCGGAGCAAGGAGCCAAGCTGCACTTTATCAGGGAAAACCTCCATTTACTAGAGGAAGGGCAAGGCCTTC CCAGAGAAGAACTAGATGAACGAATTTCTCGAGAAGAATTCAGAAGACCCCGGGAATCTCTGCTGAACAT TTGCACGGAATTCTATAAGCACTGCGGGCCGAGGCTGAAGATCCTGCAAAACCTAGCTGGGGAGCCACGG GTCACTGCCCTGGAGCTGCTGGATGTGAAGTCTCACATGAGGCTGGCAGAAATTGCACACTCCCTCCTGA AGCTGGCACCATATGACACCCAGACAATGGAGAGCCGAGGCCTTCGGCGCTACATCATGGAGATGCTCCC CATTACTGATTGGTCAGCAGAGGCTGTGAGGCCAGCTCTTATCCTCATTCTAAAGAGACTGGATAGAATG TTCAACAAAATCCATAAGATGCCCACCTTGAGGCGACAGGTTGAATGGGAGCCTGCCAGCAGTTTGATTG AAGGGGTTTGTTTGACACTTCAGAGGCAGCCAATCATATCCTTCCTGCCTCACCTTAGGTCACTGATCAA TGTCTGTGTCAATCTGGTGATGGGAGTGGTAGGACCTTCCAGTGTTGCGGATGGATTACCCCTTCTTCAT CTCAGCCCTTATCTCTCACCACCTCTGCCCTTCAGCACAGCTGTTGTCCGGCTTGTAGCATTGCAGATAC AGGCTTTAAAAGAAGATTTTCCTTTAAGCCATGTGATCTCCCCATTCACCAATCAAGAGCGAAGGGAGGG GATGCTTTTAAATCTGCTCATCCCATTTGTGCTCACAGTAGGATCTGGAAGCAAAGATAGCCCGTGGCTG GAGCAGCCCGAGGTACAGCTACTGCTGCAGACTGTCATTAATGTGCTCCTGCCCCCTCGGATCATCAGCA CATCCAGGAGCAAGAACTTCATGCTGGAGAGCTCCCCAGCACACTGCTCTACCCCCGGGGATGCAGGCAA AGACTTGCGCAAGGAAGGGCTGGCTGAGTCCACCAGCCAGGCAGCATATTTAGCTCTCAAGGTTATTCTC GTCTGCTTCGAGAGGCAGCTGGGCAGCCAGTGGTACTGGCTGAGCCTGCAGGTGAAGGAGATGGCTCTGC GAAAGGTGGGCGGCCTGGCCCTGTGGGACTTCCTCGACTTCATCGTGCGCACCCGGATACCCATCTTCGT TCTCTTGCGCCCTTTCATCCAATGCAAGCTATTGGCCCAACCAGCAGAAAATCACGAGGAGCTTTCTGCC CGGCAACACATCTCCGACCAGCTGGAGCGGCGCTTCATCCCCCGCCCTTTATGCAAGAGCTCTCTCATTG CAGAGTTCAATAGCGAGCTGAAAATTCTGAAAGAGGCAGTCCACAGTGGATCGGCCTACCAAGGAAAGAC ATCTATCAGCACTGTAGGCACATCCACTTCTGCCTACCGCCTGAGCCTGGCCACCATGTCTCGCTCCAAC ACAGGCACAGGCACTGTCTGGGAGCAGGACAGCGAACCATCCCAACAGGCTTCCCAAGACACCCTCAGTC GGACCGATGAGGAGGACGAGGAAAATGACTCTGTAAGCATGCCCAGTGTGGTAAGTGAACAGGAAGCTTG TCTCCTCAGCACCATTGGAAGGAGGCGGTTCTCCAGCCACGTCTCCAGCATGTCTGCACCTCAGGCTGAG GTGGGCATGTTACCCAGTCAAAGTGAACCTAATGTCCTCGATGACTCCCAGGGCCTGGCCGCCGAGGGCA GCCTCTCTAGGGTGGCAAGTATACAGAGTGAACCTGGACAGCAGAACGTCCTCCTACAGCAGCCACTGGG GAGGAAGAGGGGCCTGAGGCAGCTAAGACGCCCTCTCCTGTCAAGGCAGAAGACTCAAACGGAACCCAGA AACCGCCATGGAGCTCGACTGTCCACCACTCGCAGGAGCATTCAACCTAAAACAAAACCATCTGTTGATC AGAAGCGATCTGTGACATTCATTGAGGCTCAGCCAGAGCCAACAGCTGCCCCAACAGACATATTTCCTGC CACGGGCCAACCACAGAGCTGCAGCCCAGGCCGAGCTAGGAAGCCAGAAGGAACAGAGAAGCCAGTGCTC ACATCCTCCCCCGCCATTATCATTGCAGATCTTCATAGCCTGTCTCCCAAGCAGAGTGAGCCCCTTCTTG CTGAAGAAGGAGAGAAAAAGGAGGACGAAGAAATACAAGGTGCCACAGCTCACTGCCCCCTCTCCACTCA ACTGTCAGACCCGGATGACTTCACTGGCCTTGAAACATCCAGCCTCCTACAGCATGGAGACACTGTCCTT CATATCAGTGAGGAGAACGGCACGGAGAATCCCCTGCTGTCCAGCCAGTTCACTTTCACTCCTCCCGAGC TGGGAGACACAGACTCAGCACTAGATGAGTCCCACGTTTAG ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT ACAAGGATGACGACGATAAGGTTTAA |
Restriction Sites | SgfI-MluI |
ACCN | NM_175510 |
Insert Size | 9981 bp |
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). |
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. |
Note | Plasmids are not sterile. For experiments where strict sterility is required, filtration with 0.22um filter is required. |
Reference Data | |
RefSeq | NM_175510.3, NP_780719.2 |
RefSeq Size | 13533 bp |
RefSeq ORF | 9981 bp |
Locus ID | 329178 |
UniProt ID | Q8BLN6 |
Gene Summary | Component of the NALCN sodium channel complex, required for channel regulation. This complex is a cation channel activated by neuropeptides substance P, neurotensin, and extracellular calcium that regulates neuronal excitability by controlling the sizes of NALCN-dependent sodium-leak current. UNC80 is essential for NALCN sensitivity to extracellular calcium.[UniProtKB/Swiss-Prot Function] |
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