Nav3 (NM_001191782) Rat Untagged Clone

CAT#: RN217762

Nav3 (untagged) - Rat neuron navigator 3 (Nav3)



  "NM_001191782" in other vectors (1)

CNY 22,420.00


货期*
9周

规格
    • 10 ug

Product images

经常一起买 (3)
TurboFectin Transfection Reagent (1 mL in 1 vial)
    • 1 ml in 1 vial

CNY 4,090.00


DH5α Chemically Competent Cells (≥10^8 cfu/μg of pUC19 DNA)
    • 5 x 200 ul

CNY 1,280.00


Forward sequencing primer VP1.5, Reverse sequencing primer XL39, 100pmoles each
    • 100 pmol

CNY 480.00

Specifications

Product Data
Type Rat Untagged Clone
Tag Tag Free
Synonyms RGD1306259
Vector pCMV6-Entry
E. coli Selection Kanamycin (25 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
>RN217762 representing NM_001191782
Red=Cloning site Blue=ORF Orange=Stop codon

TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
GCCGCGATCGCC

ATGCCTGTCCTTGGGGTTGCCTCAAAACTGAGACAGCCAGCTGTTGGGCCAAAGCCTGTTCACGCTGCTC
TTCCGATACCGAATCTTGGCATCAGTGTGTCACAGCGCTGTTCTTCAAGACCTTTGGAATTTGCTACACC
GGAGCGCTCAATTCTTTCTTGCCAGCTCACATTAAAATCAACCTGTGAGTTTGGAGAGAAGAAAGCCCTG
CAGGGAACAGCCAAGGACATCGAAGACAGCAAGATTTACACCGACTGGGCCAACCACTACCTGGCAAAAT
CGGGCCACAAGCGGCTGATCAAGGATTTGCAGCAGGACATTGCGGACGGGGTCCTTCTGGCAGATATTAT
ACAGATCATTGCAAATGAGAAAGTGGAAGATATCAATGGATGTCCGAGAAGTCAATCTCAGATGATTGAA
AATGTCGATGTCTGCCTTAGTTTTCTAGCAGCCCGAGGAGTAAATGTTCAAGGTCTATCTGCTGAAGAAA
TAAGAAATGGAAACCTAAAAGCCATCCTAGGGCTCTTCTTCAGCTTGTCTCGCTACAAGCAGCAGCAGCA
TCATCAACAACAGTATTACCAGTCCTTGGTAGAGCTTCAACAGCGAGTGACTCACGCTGCTCCTCAGTCA
GAAGCCAGCCAGGCCAAAACCCAGCAAGATATGCAGTCCAGTCTGACAGCCAGATATGCAGCTCAGTCTA
AGCACAGTGGAATTGCAACCAGTCAGAAAAAGCCTACTAGGTCAGTTCATGTCTCTAATCTATTGTTTGC
TAGTGATATTCACGTGAATGCCGATTCCTCCAAAGGACCTCAACCATCTTCAGGTATAAATGGAAACACA
CAGCCTCCCAGCACTTCTGGGCAACCCCCAGCCTCTGCCATCCCTTCCCCGAATGCCAGCAAGCCGTGGC
GCAGCAAGTCCATGAATGTCAAGCACAGTGCCACCTCCACCATGCTGACAGTGAAACAGCCAAGCCCAGC
CACCTCCCCCACACCATCTTCAGACAGACTGAAGCCCCCTGTCACAGAAGGGGTCAAAAGTGCTCCTTCG
GGGCAGAAATCTATGCTTGAAAAATTCAAGCTGGTTAATGCCCGGACAGCATTGCGCCCCCCTCAGGCTA
CCAGTTCAGGACCTAATGATAGTGGCAAAGATGATGATGCCTTTTCTGAATCAGGAGAAATGGAAGGTTT
TAACAGTGGTCTGAATAGTGGCGGCTCAACAAACAGCAGTCCCAAAGTGTCACCAAAATTAACCCCTCCA
AAAGCAGGAAGCAAAAATTTCAGCAATAAAAAGTCTTTGCTGCAGCCAAAAGAAAAGGAGGAAAAGAACA
GGGACAAGAATAAGGCCTGTGCTGAGAAGCCAGGAAAAGAAGAGAAGGACCAGATGATGGATGCGACTCC
GAAAAAGACCTCAAAAATCGCAAGCTTGATCCCAAAGGGCAGCAAGACCGCAGCAGCCAAGAAAGACAGC
TTAATTCCGTCGTCGTCCAGCGGAATTCCAAAGCCAGGCTCAAAGGTGCCCACACCAAAGCAAACTATTT
CCCCTGGCAGTGCAGCAAGCAAAGAGTCTGAGAAATTCAGGACTAGCAAGGGAAGCTCTTCACAGGCCTT
CCAAAAGGCCATCACTATGGAGAAAACAAGCACGCCCAGCCTCTCTGCTCCTCTGGAGGGGAGGGAAGCT
AGCCAAGCATCTCCCTCTAGCTCCTGCGTTCTGCAGGTAGCACACAGCAGTGGACAGAGTCCTGGCAATG
GAGCTGTCCATCTTCCTCAGCAGCAACAGCATAGCCATCCTAACACTGCCACGGTGGCTCCATTCATTTA
CAGAGCACATTCAGAAAATGAAGGCACCCTTTTACCACCTGCTGACTCCTGTACTAGCCCCACCAAAATG
GATTCTTCCTATAGTAAGACAGCTAAGCAATGCCTAGAAGAGCTATCTGGTGAAGACCCTGAAGCCCGGA
GAATGCGCACAGTCAAGAACATAGCAGATCTGAGGCAGAACTTGGAAGAGACGATGTCCAGCCTTCGAGG
GACCCAGATAAGTCACAGCACCCTGGAGACAACCTTTGATACGACTGTGACAACTGAAGTGAATGGAAGG
GCCATCCCCAACCTGACAAGCCGACCTACCCCCATGACCTGGAGACTGGGTCAGGCGTGTCCTCGTCTAC
AGGCTGGAGATGCCCCCTCCATGGGCGCTGGATATTCTCGAAGTGGCACCAGCCGGTTCATCCACACGGA
CCCCTCCAGGTTTATGTATACAACACCTCTCCGCAGAGCTGCAGTCTCCCGTCTGGGAAACATGTCACAA
ATAGACATGAGCGAGAAAGCAAGCAGTGACCTGGATGTGTCTTCTGAAGTGGATGTTGGAGGATACATGA
GTGATGGTGATATCCTCGGGAAGAGTCTGAGGGCAGATGATATCAACAGTGGGTACATGACAGACGGTGG
GCTCAACCTATACACTAGAAGTCTTAACCGAGTGCCGGACACAGCAACTTCCAGGGATGTCATCCAGAGA
GGCGTTCACGATGTGACAGTGGACGCAGACAGCTGGGATGACAGCAGTTCCGTGAGCAGTGGTCTCAGTG
ATACACTTGATAACATTAGCACAGATGACCTCAACACCACGTCTTCCATCAGCTCCTACTCCAACATCAC
GGTCCCCTCCAGGAAGAACACTCAGCTGAAAACAGACACAGAGAAGCGTTCGACCACAGATGAGACCTGG
GATAGTCCGGAGGAGCTGAAGAAAACCGAGGAGGATTTGGACAGCCACGTCGATGGAGGCGCCAAGTGGA
AGGGTGTTGCTTCTGGACTTGCTGAAGACTCAGAGAAGACGGGGCAGAAAGCCAGCCTGTCCGTGGCTCA
GACAGGCTCCTGGAGGAGAGGCATGTCTGCCCAGGGAGGAACACCAGCGAGGCAGAAAACCAGCACGAGT
GCACTCAAGACCCCTGGGAAGACAGATGATGCCAAAGCTTCCGAGAAAGGGAAAACGCCTCTTAAAGGAT
CATCCTTGCAAAGGTCTCCTTCAGATGCAGGGAAAAGCAGCGGGGATGAAGGGAAAAAGCCACCCTCAGG
CATTGGAAGATCCACAGCCAGCAGTTCTTTTGGATATAAGAAGCCAAGTGGTGTAGGGGCCTCTACCATG
ATTACCAGCAGCGGCGCCACCATAACAAGCGGCTCAGCGACACTGGGAAAAATCCCCAAATCTGCTGCCA
TTGGTGGGAAGTCCAATGCAGGAAGGAAAACCAGCCTGGATGGGTCCCAGAATCAAGAGGATGTCATGCA
TGTGAGCTCTAAGGCCACCCTTCAGTACCGCAGTTTGCCCCGCCCTTCTAAGTCGGGCACCAGCGGTATC
CCTGGGAGAGGTGGTCACAGATCCAGCACCAGCAGCATTGATTCCAATGTCAGCAGCAAGTCAGCTGGGG
CCACCACCTCTAAACTGAGAGAACCCACTAAGATCGGCTCAGGGCGCTCGAGTCCAGTCACTGTCAACCA
AACTGACAAAGAAAAGGAGAAAGTAGCAGTGTCGGATTCAGACAGTGTTTCCTTGTCAGGTTCCCCCAAA
TCCAGCCCCACCTCTGCCAGTGCCTGCGGTACTCAAGGGCTCAGACAGCCAGGGTCCAAATATCCAGATA
TTGCCTCGCCTACATTCAGAAGGTTGTTCGGTGCCAAGGCAGGTGGCAAATCTGCCTCCGCACCTAATAC
TGAGGGGGTGAAATCCTCCTCGGTAGTGCCCAGCCCTAGTACCTCTTTAGCCCGACAAGGCAGTCTGGAG
TCACCGTCGTCCGGTACGGGAAGCATGGGCAGTGCTGGTGGGCTGAGCGGCAGCAGCAGCCCTCTCTTCA
ATAAACCCTCAGACCTAACTACAGATGTTATAAGCTTAAGTCACTCCTTGGCTTCCAGCCCAGCGTCGGT
TCACTCTTTCACATCCGGTGGGCTTGTGTGGGCTGCCAATCTGAGCAGTTCCTCTGCCGGCAGCAAGGAC
ACTCCAAGTTACCAGTCCATGACTAGTCTCCATACGAGCTCTGAGTCCATTGATCTGCCCCTCAGCCATC
ATGGCTCCCTGTCTGGACTGACCACAGGCACTCACGAGGTGCAGAGCCTGCTCATGAGAACGGGTAGTGT
GAGATCTACTCTCTCAGAAAGCATGCAGCTTGACAGAAATACACTACCCAAAAAGGGACTAAGATACACC
CCATCATCTCGGCAGGCCAACCAGGAAGAAGGCAAAGAGTGGCTACGTTCACATTCCACTGGCGGGCTGC
AGGATACTGGCAGCCAGTCCCCCTTGGTGTCTCCTTCTGCCATGTCATCTTCAGCCACCGGAAAATACCA
CTTTTCCAACTTGGTGAGTCCCACCAACCTGTCTCAGTTTAACCTGCCTGGACCCAGCATGATGCGTTCC
AACAGCATCCCCGCCCAGGACTCCTCCTTCGACCTCTATGATGATGCCCAGCTTTGCGGAAGTGCCACGT
CTCTGGAGGAAAGGCCACGTGCCATCAGCCACTCGGGCTCGTTCAGAGACAGCATGGAGGAAGTTCATGG
CTCCTCGCTCTCCTTGGTCTCCAGCACATCCTCTCTTTACTCTACGGCTGAGGAGAAGGCTCATTCAGAG
CAAATCCATAAGCTACGGAGAGAACTGGTTGCCTCCCAGGAGAAAGTTGCTACCCTCACATCTCAGCTGT
CAGCAAACGCTCACCTTGTAGCAGCTTTTGAAAAGAGTTTAGGGAATATGACTGGCCGTTTACAAAGTCT
AACCATGACAGCGGAACAAAAGGAATCTGAACTTATAGAACTACGGGAAACCATTGAAATGCTGAAAGCC
CAGAACTCTGCTGCCCAGGCCGCCATTCAGGGTGCGCTGAATGGCCCAGACCACCCTCCCAAAGATCTCC
GCATCAGAAGACAGCACTCCTCTGAAAGCGTTTCTAGTATCAACAGTGCCACAAGCCATTCCAGCATTGG
CAGTGGCAATGATGCTGACTCCAAGAAAAAGAAGAAGAAAAACTGGGTGAACTCTAGAGGAAGTGAGCTG
AGAAGTTCTTTCAAGCAAGCCTTTGGAAAGAAAAAGTCCACCAAGCCACCCTCCTCGCATTCGGACATTG
AAGAGCTGACAGACTCGTCCCTACCCGCGTCCCCCAAGCTACCCCACAATGCTGGCGAGAGTGGCTCCTC
GTCCATGAAGCCCTCACAGTCAGCCTCAGCGATCTGTGAATGCACAGAGGCTGAGGCCGAGATCATTCTG
CAGTTGAAGAGCGAGCTCAGGGAAAAGGAATTAAAATTAACAGATATAAGGTTGGAGGCCCTCAGCTCCG
CTCACCATCTCGATCAGATCCGGGAAGCCATGAACCGGATGCAGAATGAGATTGAAATATTGAAGGCTGA
AAATGACCGGCTGAAGGCGGAGACCGGAAACACAGCTAAACCTGCCAGGCCCCCCTCTGAGTCCTCAAGC
ACAGCCTCCTCTTCTTCTTCTCGCCAGTCCTTAGGGCTTTCACTCAACAATCTGAACATCACAGAGTCTG
TTACCTCAGATATTTTGCTAGACGACACTGGTGATGCGACTGGACATAAGGATGGCCGCCCTGTGAAAAT
TATAGTATCCATCAGTAAGGGCTACGGTCGAGCCAAGGACCAGAAGTCTCAGGCATATTTGATAGGATCG
ATTGGTGTGAGTGGAAAAACTAAATGGGATGTCTTAGATGGTGTCATTAGGCGTCTCTTTAAGGAATATG
TGTTCCGAATTGATACATCCTCTAGTCTTGGTCTGAGCTCTGACTGTATTGCCAGCTACTGTGTAGGAGA
TTTAATTAGATCTCATAACCTAGAAGTGCCTGAACTGCTACCTTGTGGATACCTGGTTGGAGATAATAAT
ATCATCACTGTGAACCTGAAAGGGGTAGAAGAAAATAGTTTGGACAGTTTTGTTTTTGATACGCTGATTC
CTAAACCAATTACCCAAAGGTACTTTAATTTGCTGATGGAGCACCACAGAATTATACTCTCAGGACCAAG
TGGTACCGGAAAGACCTATTTAGCAAACAAACTTGCTGAATATGTAATAACCAAATCTGGGAGGAAAAAG
ACAGAGGATGCAATTGCTACTTTCAATGTGGACCACAAGTCAAGTAAGGAATTGCAGCAGTATCTTGCCA
ACCTGGCTGAGCAGTGCAGTGCAGACAATAATGGGGTAGAGCTCCCTGTTGTCATAATTCTGGATAATCT
TCACCACGTGGGTTCCTTGAGTGATATCTTCAATGGTTTTCTCAATTGTAAATACAACAAATGTCCTTAT
ATTATTGGAACCATGAATCAGGGAGTGTCTTCGTCACCAAATTTAGAACTACATCACAATTTCAGGTGGG
TTTTATGTGCAAATCACATGGAACCTGTAAAAGGCTTTTTAGGCAGGTATCTTCGAAGGAAACTGATAGA
GATGGAAATTGAAAGGAATATACGTAATAACGACCTAGTCAAAATTATAGATTGGATCCCTAAGACGTGG
CATCATCTCAATAGTGTTTTGGAAACACATAGTTCTTCTGATGTCACCATTGGTCCTCGGCTCTTCCTTC
CTTGCCCCATGGATGTGGAAGGTTCTAGGGTGTGGTTCATGGATCTTTGGAATTATTCCTTGGTACCTTA
TGTTCTGGAGGCAGTGAGGGAAGGCCTACAGATGTATGGTAAACGTGCACCATGGGAAGATCCCTCCAAG
TGGGTCCTTGACACATACCCGTGGAGTTCTGCGTCCTTGCCTCAGGAGGGCCCAGCATTGCTGCAGCTGC
GACCAGAAGATGTTGGGTACGAGGGCTGCACATCTACAAAGGAAGCCACAACGTCAAAGCACATTCCCCA
GACTGACACAGAGGGGGACCCCTTGATGAATATGCTAATGAAGCTCCAAGAAGCAGCCAATTACCCGGGC
ACACAGAGCTGTGACAGTGACAGCGTCAGCCACCATGAAGACATTTTGGATACATCTATTGAATCCACCC
TCTAA


ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT
ACAAGGATGACGACGATAAGGTTTAA
Restriction Sites SgfI-MluI     
ACCN NM_001191782
Insert Size 7005 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).
OTI Annotation Clone contains native stop codon, and expresses the complete ORF without any c-terminal tag.
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_001191782.1, NP_001178711.1
RefSeq Size 7586 bp
RefSeq ORF 7005 bp
Locus ID 314814
*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.

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