Gm1966 (NM_001277180) Mouse Untagged Clone

CAT#: MC229743

Gm1966 (untagged) - Mouse predicted gene 1966 (Gm1966), transcript variant 2

Datasheet
SDS

  "NM_001277180" in other vectors (1)

Reconstitution Protocol

USD 2,207.00

8 Weeks*

Size
    • 10 ug
Bulk Requests & Clone Modifications

Product Images

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Other products for "Gm1966"

Specifications

Product Data
Type Mouse Untagged Clone
Tag Tag Free
Symbol Gm1966
Vector pCMV6-Entry
E. coli Selection Kanamycin (25 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
>MC229743 representing NM_001277180
Red=Cloning site Blue=ORF Orange=Stop codon

TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
GCCGCGATCGCC

ATGGCAACAGAAAAGTGTATCCCTGACGAGCCTCAGTCCAGACGCAGGAGGAGGCTCCATCTCCAGAAGA
TGCTGACAGAAGTGGGACTGTCTGTTGACTACTGGCTGCCTAAGCTTCAGGAAAACCTAGGTGTGAGCTC
TGGCCAGGCCTTACAATATTTAGACAAAAGAGACCTCCAGAATCTGAAGTCCCAGACACAGCATGCTTGG
GAGAAAAAGGCTCTGGAGAAGCTGCTGGACCTCTCACAGCCAAATAGTGTTGCAGAGCTGCAGGAGACTC
CAAGGGAGATGATAAAGAACAGGCAGAGGCAGGCAGGACAGGCACTGCAGGCACTGAGAGCCTTGCAGTC
AGAAGGGAAGCACAGACAGGAAGAGGCAGTGAGGAGAAAAGGAGCAGAACTGAGACAAGCAATGGAGATC
CCTGAGGAGTGCTGGCCAACGGCTGAAGTGTCCCTAAAAGACATCACTGAAATAATGGAGAGACATCTCA
GTCACATGGAACGGACCCTGTCTCACAGTCAAAAGCTCTCAGATGGAGACCTGGTAAGATGGGCATCTGG
AGGGCTGGTCCTGCAGGGAATTTATAAGACCAACCACCCAAGAAGCCTGATTCAGAAGAGAGAAGAGCTA
CTCAGTGTCCCTAAGCAGTTCTCACTTGCTGGCCCAGTACATGGCACAGAGATAAAAACAAAGGAATTTT
CATCTTTTCAAGAACAAGCCATGTTTACACAGACTATAGAGAGGGTGGGTTTCAGTTCAACCCCCTTAGT
TAAAGGAGAAGGTTGGGGACTTAGTCTAGAAGCTGGTATGGGTCACAACAAACAGACAGAATCTGAAGAT
AACTACCAGTCCCATTCAAAGCAAACTTATTTTTGCTCAGCCAGGTTCAGCTACATCCCATTGGCCACCT
GCCATTTTCACATCAATGATCTTGAACTCTCCCAGGCTGCTCTCCAGGAACTAAAAAGTATTGAAGAAAT
CCTGGAGCAGACTACACACCACCGAGATGGACTACCCTTACTGAGGCACAGGGCTAAAAACTTTTTCCAC
AGGTTTGGCTCTCATGCTAACCAAGGCCCTGTGCACCTGGGGGGAATCTACTGCTGGAAAGCCATTTCAG
AAGGTTTCAAAAGTGAGCACTTGGCTGATGTAAAGCAGCAAGCAGAAGAGTCTTTGAATATTTACATTAT
GGGCAGTTATAGTGGCTTTGGAGTTAAAGTTGGTGCGAGTGTAAATATAACAAATTCAAAATCAAAAACA
GCATTTTACAGTAAAACTCATCTAAACTCGCAAACCAAGGTGCAACTATCTGTAGCCAAGATAGGTGGAC
CAGCAGAAGCAGATGGAATTGCCCAGTGGACAGCTGGCCTTGTAGCTAGCAATCAAACCTGGTCTGTTAT
TGATAGGGAACTGCAGTTGGTACCTATTTGGGACATTATCCTGTCCAGTCACAGAACTGAATTTAAGAAT
GCTCTTCAACTGGCTAACTGCCTCAAAGACCACTACACTGCTCTGACTGAACTAGCTGCCCAGATTCAAG
AAGGGGAAGAATTTCTGACTGCTAGAAAAGAAGCTAAGCTTTTCCTAGAGAATGTGAAAGGCTGGGAGGT
TTCTGATCCTGAAGAACAGCTTAGGAAGTTAGTAGATTTTATGCAAACATTGAGTCAAAAAATAAAAAGT
TATGACATTTGGATTAACACATGCCTCATAGATTGGGATCTGCAAAATTTTCTAATAAACATTGTCAACT
TCTGCAAAAATTCACCCACTTATAAAACTCACTTTATTAAATCTCAGTTGTGCAGCCTTCTAGAACCTCA
TGTCTACAAAGTGACAAACTTTCCTCAGGCACAATCCATCATACAGTGGATCAATCAGTCAGAGTCAGAG
GAAGAACTAGTCAAAATTACCTCATTTTCTGAATTCATTAACACCTTAAAGAAAACCCACAAATACCTAA
TGGAAGAGAGTTTCAAAACTGAGCCCCCAGAAAGAGTGGAAGAAGCAAAGAGAATGGCTACATATGAAGT
CACCACAGCTCTCAGCTCCTTCTTGAAGTACCTCAGAGAAACACAGCAGCCAGACATGCAGCTGTTGCTA
CTCTCCATTGCTACTGGTGTAGGCTATCAGTTGGTAAACAGTATTTTTCAGCATCTTCTGGGGTGTGATG
AGTTAAACTTCCTCTTGGATCAAATGGAAAATAACGAACATAAATACCAAGAACTGAAAAATATTTGCAA
TTACAGAGCCCAGGCATTCTTGGTGCTCACAGCCCTAAGAGCCACAGTTGAAATCACAGATGTTTCTACA
GAAGAGAAAGGACAACGTTTGACATTAATACAACAACATATGGGGTCACTGTTGTCTGAAGAAGTTGCAC
ATGTCCTCACAAAACATGGAGAACATCATGACTGGGAAAGGCTGGAGAATGATTTGAGATTACTCATTGA
GGGGGACTATAAAGCCACCACCCATTCCTTACAAATGGATGAAGTAAAAAAACAATTGCAAAGTCTCTGC
CATGAAAAGAAACAGACTTATAAACAACAAGGTAATGAAAACAGAACAAAAGAAATGATAGAAAATGGAC
ATTTCCTGGACTTACTCCAACGTCTAGGCCTAGACAATTACTATCCAAAAAGCATGCACAGAGCTGACTT
CCATCTGATCTATAAAACCTCTGTGTACAATTCACAGCCAAAGTCTGAAAAGGAGCTTCCATTCTATTTC
CTACAAAAGCTACTGATGTTGGATTATGGGTTGAGACATCTTGCTTTAAATGATGATGAAAGCATAAAAA
AACAGATCTCCATAGGGTCCTCCAATCATGAAAATGAAGACTTTGATCCATATGAGGATGTCATTAAAGA
CAATGACAGTCCTGGCTATCTTTCAGACACTGAGTCCTGGCCCCACATTCACCCAATGGATATCCAGATG
GCCATTTTACACTGTGCAGATGATCATACCAGGCAATATATTTTGTCCAAGCTTTCCATTTGTCAATATG
CACTCCCTCTTGTGGTACCAAATCCCAACACTTCTCAGGTTGAATTTTGTCTCTGGTCTCTCAGACAAAT
TAGGAAAAATTGGCAAGATGCAAGTAAATCTCCACAGGACAAGAGCTACAGTCACAGAAATCAGCAGATG
TGTCGTGTCTCTACCCCCATTGTGTCCTTCATTAGAGTTGGAAACGGCCTCTCTGCTTCCAAATCTCAGA
TCATGAACTCTCTTCTCAGTAAACGTAAACATGATGTGTTTTTTCACAGACACTGCAGAGGAAGCAACAA
ACACTGTCTCCTGATGCAGGGAGTGGTGGAAATCTGCTGGTTCTGTCCAGCTGGCCAAGGTGAGGACATG
TTTGACAAGTGTCTGATGTTCACCAATCTTCATGGAGATGCCAAGGAACATAGCCAACAACTCAGTTTCC
TCCAAGATGTCTCTTCTATCATTGTGATCCTCATGTCAACTTCTGATAACAATAAAGAAAACCAAGAGCT
TGTCAGACACCTCTGTCAGTCATCAACACCTTTGATCTGCTTGATTGATGACAAAGAAAAGGCCATAGCA
AATATTTCTGGTAAAAGAATGAAAATTGGCATCAAGAATAGAAATGAGGCAGAATTAACAGAGGAGCTCA
CCAAAGCCATCAAACATTTTCTAGTGCTCTCTAACACTGCTCTCAGTTTAGAGGACTGTTCACAGACAGC
TCGAGAACAAGGATTCCTTATTGATGAAGACCAGAGAGACTGCAAGGAAGCTAAAGAAAAGGCTCAGAGT
ATAATGGTCCTCCTGGAGGAATACAAGTTATCTCAGATAAAAGAAAATTTACTACCCCTTCAAGGACAAC
TTTGGCACCTTTGGTGTAAAAAAGACAAAGAATTCTATCATCTGAGAGAAAAGGGGAATCGGAGCATAGA
ACTACACAAGAGTGAGATTGAAACAGAGAAAAGAATAATTCGACGTCAACAGTTGGAAAAAGCCTTTCCT
CTCAGTGATTTAATGTGCTCTGTTCTTGGACTCCTCCAATACTACTCAGAAACCCATAACAAACTCTACT
TTTTGCAGTGGCTCACTCTGTTTTTTGACAACCTGACAATAGAACACCGGGAAAAATTACATGAAAAGCA
GAGATCTTTGTGGTTAAGGATACAAACAGAAAAGCAAAGAGAACAGAAGAGTGCCTACCTGACACACTGT
CAGAAGCACATGGATGCCATCTCCGTAGAGATTCATGACTGTACTTTAGGAATTGAGCACCTTCTCCGAG
AAGTTGGCCAGATCTATGAAGCTCTGGAAGAAACTTCTCCCTCTAGAGATAGCCTTTTTCTTTACCTACC
TCAAATTGCTGCAGACCTGATGATAGCTGGTGTTCCCATTGAGCTGATGGATGGGGATGCTTCATATGTG
CCTCTAAGGTGGGTAGCAGCTATTTTTGACAAGGTCTCAGAGAAAGTTAAAGACAAAAGGATGTTTGTTC
TCTCTGCCCTTGGCCTGCAGAGCTCAGGGAAGTCTACCCTGCTGAATGCCCTGTTTGGGCTGCAGTTCAC
AGTCAGTGCAGGCAGGTGTACCAATGGGGCCTATATGCAGCTCCTGAAGGTGGAAGAGACATTCACAAAA
GAACTCGGCTTTACATATGTGCTTGTTATAGACACAGAAGGACTTCGGGCTCCAGAACTCAACAACAAAT
CTCAGAATTGGGACCATGAGTTGGCAACATTAGTCATTGGTCTTGGAAACTTGACTCTGATCAATATTTT
TGGGGAGAATCCCTCAGAGATTCAGGACATTCTACAAATATCTGTTCAAGCATTTCTGAGAATGAAACAA
GTAAATATCTCCCCCAGTTGCCTCTTTGTCCATCAAAATGTGGGAGAAGTCACAGCAAAAGACCAAACTA
TGGAAGGACGGAGGAGACTGGAGCAGAAACTGGATGAAATGACTGCATTGGCTGCTGAGTTGGAAGAGTG
CTCAAACATAACCAGCTTCAGTGATGTAATTGAGTTTGATGCCAATTGGCATGTCTACTACTTTGCTCAC
CTCTGGGATGGTAATCCCCCAATGGCCCCTCCCAATCCTCGCTATTGCTACAATGTCCAGGAACTAAGAA
ATGCAATTCTTTCAACTACCCAGAAGGAATCTAGGGGAAGGATCTTAAAAATCTCAGATTTCAAATTCCG
AGTTCATGATTTGTGGAAAGCTATTGTCAGTGAAAACTTCATTTTCAGTTTCAGGAACACACAAGAGGTC
ATAGCCATGAGCAAACTGGAAACCATGTATAGCCACTGGACCTGGGAGCTAAGGAGTCATGTACTGGACT
TACAGAATCAGCTGGGCAATCAGATTCAAAATGGTAAAATCCTGACACTCACCTCTAATTTGCTGGAGGA
TCCACTTGGTAAGAAATATGAAACTATCAAACAAGAATTTAACAAATATTTTGAAGAAGACCCAGATAGT
GAAATATTGGTTCAGTGGAAAGCAAATTTTGAACACAAGCTACAAATCCTTAAAGACACACTCATTTCAG
ATACCAGAAGGAAATGCAATGAACATATCAGTCTTAAAAAAAGCCAAGAAATACTTGATAACCGAAAGTC
ACAATATGAAAATCAGTTGTTAGAGAGGAGCAGAAAGTTAGCTTTAAATTTGAAGGGTAAGGAATTAAGT
GATGAAGAGTTGCATGAGAAATTCAGTCAACTTTGGACAAGTTGGATTTATGATGTATCTTCCAATGTTC
CTCATGTCACAGAGCCTAACATTGATTTGGACTCCGAAAATATCCTTCTGGAATATTTCAAGAAGGACAA
AAATATTGTGGAAAGACTAAAAATAACGTCTGGAGAAAAGTTTGAAATCATGTATGACAAACATATTCAA
ATGACAAAAAAATGCCATTTTCATAGAATGAGTTCAGAAACCTGTCATGTTGAATCCATCAAAAAGACAA
CCAACAACATTCAGTTAAAATTTACAGAAACACTTAAAAACATTTTGAAGCAAAAGCATGATTACAGTGA
CAATTACTTTCATGAAATCTTGAAGATCATAGAAAATGAGCTGAAATCTGAACCCTGTGAGGGAGACTAC
ACATTTACCAGAGACTACGTCTTTGACTTATCCTTGTACTTATTTCAAACAGCATCCAAGTATTTCAAGA
AAATGCATGAGGCATTCAAGAGTGCAAATGACCCTGTGAACTATCTGGAGAGAAAGAAAGATGATTTCTT
TATAAATTTTAAGATCTCCTGCCAAGGTACAACCTCAATCACATCCTTTGTTGACTTCCTATGGCGCAAG
CTCATGCCTGCTATCTATGACACCATATGGAAAATAATGGTTCAAAGAATAGCTGGAGACATGCGAGCCA
CCTGCCCTGAATTCAATGGAAACAGAGCTAACCTGGAGAAACATATTCTCTACTCTCTAGCAGAAGAAGA
AAATTTTGATAAATACTGGAAATACATTCAAAAGCCAAAAGAATTTTTCAGGGATTACATTAGAGAGCAC
ATTACAAGATACTGTTCAGAAAAAGGAAATGAAAATATAAAAAAATTTTTAAACATAAGTTTAGGTGACA
TCAAGAATACCATCCTTTCTGCCATACATAAGTCCACAAAGGTAGCTAAAGCTAAAGGCAGCACTGCATC
TGGCTGGCTGGATTTGTTCTGTGATCACCTAGGGAGCAATCTCATCTTCCCAAGGAGAGACCTGGTAAGC
ATGGAGCACCAGGAGCTAATGGATACTGAGTTCCTCAAAGAAGCCATGAGCAAAGCTTTGGATCCTGCAA
TGAGGGAAGTAGAAGCGTATTTTTCATGTATGCACATGGGTGAAATTGTTCCTGACATTGAGGAAATTCT
CTCTGAACATCTCTGTGGCTGCTGGAAACAGTGTCCCTTTTGTAATGCAATTTGTACAAACACAATTCCC
CAACATGAAGAAGACCACAGTGTGCCATTCCACCGGCCTCAGGCTGTCAGTGGTTTTTCTTATCATAAAA
CAGACCACTTCGTCACTGATGTTTGTACTAGTGATGTAGCAAGTGATTCTACCTTCGTTTTAGATGACCT
CCGGGAATTCAGATACAAGAAATATCGAGAAGCAGGAGGTGATTATGCCACATGGAGCATCACCCCAGAC
TCATCCAACCAGCCATATTGGAAATGGTTTGTCTGTCATTTCAGATCAAAGCTAGAAGGGGCATATGGCA
AAAGATTTATAGGGAAAGGTAGAATTCCAGCTTCATGGACTAAAATCACAAAGCAAGATGTCTTGAATGA
CTTAAAAAAATAA

ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT
ACAAGGATGACGACGATAAGGTTTAA
Restriction Sites SgfI-MluI     
ACCN NM_001277180
Insert Size 7293 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.
Reference Data
RefSeq NM_001277180.1, NP_001264109.1
RefSeq Size 8687 bp
RefSeq ORF 7293 bp
Locus ID 434223
Cytogenetics 7 E3

Other Versions

SKU Description Size Price
MR231954 Gm1966 (myc-DDK-tagged) - Mouse predicted gene 1966 (Gm1966), transcript variant 2
    • 10 ug

USD 2,206.00

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Product Citations

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