Dnajc13 (NM_001163026) Mouse Untagged Clone

CAT#: MC225242

Dnajc13 (untagged) - Mouse DnaJ (Hsp40) homolog, subfamily C, member 13 (Dnajc13), (10ug)

Datasheet
SDS

  "NM_001163026" in other vectors (2)

Reconstitution Protocol

USD 2,037.00

10 Weeks*

Size
    • 10 ug
Bulk Requests & Clone Modifications

Product Images

Frequently bought together (3)
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DH5α Chemically Competent Cells (≥10^8 cfu/μg of pUC19 DNA)
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Forward sequencing primer VP1.5, Reverse sequencing primer XL39, 100pmoles each
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Other products for "Dnajc13"

Specifications

Product Data
Type Mouse Untagged Clone
Tag Tag Free
Symbol Dnajc13
Synonyms D030002L11Rik; Gm1124; mKIAA0678; RME-8; Rme8
Vector pCMV6-Entry
E. coli Selection Kanamycin (25 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
>MC225242 representing NM_001163026
Red=Cloning site Blue=ORF Orange=Stop codon

TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
GCCGCGATCGCC

ATGAACATAATTAGGGAAAATAAGGATCTGGCATGTTTCTACACAACCAAGCACTCATGGAGGGGAAAGT
ATAAACGAGTCTTTTCAGTTGGAACCCATGCAGTTACTACCTATAATCCCAATACCTTAGAAGTAACAAA
TCAGTGGCCTTATGGAGACATTTGTAGCATCAGCCCTGTTGGGAAAGGACAAGGAACAGAGTTCAACCTC
ACATTTCGTAAAGGCAGTGGGAAGAAGTCAGAAACGTTGAAGTTTTCTACAGAGCACAGAACAGAGCTGC
TTACGGAGGCTTTGAGATTTAGAACTGACTTTGCAGAGGGAAAAATCACAGGAAGGAGATATAACTGCTA
CAAGCATCACTGGAGCGATGCAAAGAAACCTGTGGTTTTGGAAGTAACTCCTGGAGGCTTTGACCAAATA
AATCCTGTAACCAACAGAGTGCTGTGTTCCTATGACTACAGGAATATTGAAGGCTTCGTAGATCTCTCTG
ATTATCAGGGAGGATTTTGTATACTCTATGGAGGATTTAGTAGATTGCATTTATTTTCGTCAGAGCAAAG
AGAAGAGATCATTAAAAGTGCAATAGAACACGCTGGCAACTACATAGGTATCTCCCTGCGGATCAGGAAA
GAGCCACTGGAATTTGAGCAATATTTGAATCTTCGTTTTGGGAAATACAGCACTGATGAATCTATCACAT
CTTTGGCAGAGTTTGTGGTCCAAAAAATATCTCCTCGACATTCGGAACCTGTGAAAAGAGTTCTGGCGGT
CACAGAAACATGCTTAGTGGAGCGAGATCCAGCAACCTACAACATTGCAACATTGAAGCCCCTGGGAGAA
GTATTTGCATTGGTTTGTGACTCAGAAAACCCACAACTTTTTACCATTGAGTTTATAAAAGGGCAAGTTC
GGAAATACTCTTCAACAGAAAGAGATTCCTTGTTAGCAAGCTTGCTGGATGGAGTAAGAGCCTCTGGTAA
CAGAGATGTTTGTGTTAAGATGGCACCGACCCACAAAGGCCAGCGATGGGGGTTACTCAGCATGCCTATA
GACGAGGAAGTCGAGAGCCTTCACCTCAGATTCCTGGCTGCACCTCCTAATGGCAACTTTGCAGATGCTG
TATTCAGGTTCAACGCTAACATTTCCTACAGTGGAGTGCTGCATGCAGTAACACAGGATGGTCTCTTCTC
AGAAAACAAGGAAAAGCTAATCAATAATGCAATAACAGCACTGTTGTCTCAAGAGGGGGATGTTGTAGCC
TCAAATGCAGAACTTGAGAGCCAGTTCCAAGCTGTGAGGAGGCTTGTAGCCTCCAAAGCTGGTTTCCTGG
CCTTCACTCAGCTTCCAAAGTTTCGGGAGCGCCTAGGAATGAAGGTAGTGAAAGCACTCAAGAGAAGCAA
CAACGGAGTCATCCATGCGGCTGTGGATATGCTCTGTGCCCTCATGTGTCCTATGCATGATGACTATGAC
CTAAGACAAGAGCAGCTAAACAAAGCTTCTCTTCTCTCTTCAAAGAAGTTTCTGGAAAACTTATTGGAGA
AATTTAATTCCCATGTGGATCATGGGACCGGTGCCCTAGTAATTAGTTCACTCTTGGACTTCCTTACCTT
TGCCCTCTGTGCTCCATATAGTGAGACAACTGAAGGGCAGCAGTTTGATATGCTCTTAGAGATGGTAGCC
TCCAATGGAAGAACCCTTTTTAAACTCTTTCAGCATCCTTCCATGGCGATTGTGAAGGGAGCTGGATTGG
TTATGAAGGCAATAATAGAGGAAGGTGACAGAGAGATTGCTACTAAGATGCAGGAGCTCGCCCTAAGTGA
GGGTGCCTTACCTCGACACTTACACACTGCGATGTTTACAATCAGTTCAGATCAGCGCATGCTTACGAAT
AGACAGCTAAGTAGACATCTAGTGGGACTCTGGACCGCTGATAACACAACTGCCACAAACTTGTTGAAAC
GCATATTGCCGCCAGGCTTGTTGGCATACTTGGACAGTTCAGATCCAGTTCCGGAGAAGGATGCAGACCG
CATGCACGTCAGAGACAATGTGAAAATAGCAATGGATCAATATGGAAAATTTAATAAAGTTCCAGAGTGG
CAAAGACTAGCTGGAAAAGCTGCCAAAGAAGTTGAGAAGTTTGCCAAAGAAAAGGTTGACCTTGTGTTGA
TGCACTGGAGGGATAGGATGGGCATCGCTCAGAAAGAGAATATAAATCAAAAGCCAGTAGTTCTTCGAAA
GAGAAGACAAAGAATAAAAATAGAAGCAAACTGGGATCTCTTCTATTACAGGTTTAGTCAAGACCACGCT
AGATCGAACCTCATTTGGAATTTTAAAACACGAGAAGAACTGAAAGATGCCCTTGAGTCTGAGATGCGGA
CATTTAACATTGATAGGGAGCTGGGCAGCGCCAGTGTCATCTCCTGGAACCACCATGAGTTTGAGGTTAA
ATATGAGTGCCTGGCAGAGGAAATCAAAATAGGAGACTATTACTTGAGATTGTTATTGGAGGAGGATGAA
AATGAAGAAAGTGGATCAATAAAAAGATCGTATGAGTTTTTCAATGAGCTCTACCATCGCTTCCTGCTCA
CTCCAAAAGTTAACATGAAGTGTTTGTGTTTACAAGCCCTTGCTATCGTTTACGGCAGATGCCATGAAGA
AATAGGGCCCTTCACAGATACGAGATACATCATTGGGATGTTAGAAAGGTGCACTGATAAACTCGAGCGG
GATAGGCTGATCCTCTTCCTCAACAAGCTGATCCTTAATAAGAAAAACGTTAAGGATCTCATGGACTCAA
ACGGCATTAGAATTCTTGTGGACTTGCTAACTCTTGCACATCTCCATGTGAGCCGAGCGACAGTCCCCTT
GCAGAGCAATGTGATTGAAGCATCTCCAGATATGAAGAGAGAGAGCGAGAAGGAGTGGTATTTTGGCAAC
GCAGACAAAGAAAGGAGTGGGCCGTATGGATTTCATGAGATGCAAGAATTATGGGCCAAAGGAATGTTGA
ATGCAAAAACCAGATGTTGGGCTCAAGGCATGGATGGATGGCGACCGCTCCAGGCGATACCTCAGCTTAA
GTGGTGCCTGTTAGCCAGTGGGCAGGCTGTTCTGAATGAAACTGACCTTGCTACCTTAATACTGAACATG
TTGATCACAATGTGTGGATATTTTCCAAGCAGGGACCAGGATAATGCCATCATTCGTCCTCTGCCCAGAG
TGAAAAGACTGCTGTCAGATAGCACCTGCCTTCCCCATGTCATCCAGTTACTGCTGACCTTTGACCCTAT
CCTTGTTGAGAAAGTTGCCATCTTACTACATCACATTATGCAAGATAACCCACAGTTACCTCGCCTCTAT
CTCAGCGGAGTGTTTTTCTTCATCATGATGTATACAGGTTCCAACGTGCTTCCTGTTGCTCGGTTTTTAA
AATATACACACAGCAAACAGGCTTTCAAGTCTGAGGAGACTAAAGGACAAGATATTTTTCAGAGAAGTAT
ACTTGGACATATCTTACCTGAAGCAATGGTTTGCTACCTAGAAAATTATGAACCTGAGAAGTTTTCTGAG
ATTTTCCTTGGTGAATTTGACACTCCAGAAGCAATCTGGAGCAGTGAGATGCGGCGTCTCATGATAGAGA
AGATTGCTGCCCATCTTGCTGACTTCACCCCTCGCCTGCAGAGCAATACAAGAGCACTTTATCAATACTG
TCCCATCCCGGTTATTAATTATCCACAGCTAGAAAATGAACTATTCTGTAATATTTATTACCTCAAACAA
CTTTGTGATACACTCCGGTTTCCAGATTGGCCAATTAAAGACCCAGTTAAGCTTCTGAAAGATTCCCTTG
ACGCTTGGAAGAAGGAAGTAGAAAAGAAGCCACCTATGATGTCCATAGACGATGCTTATGAAGTGCTTAA
TCTGCCTATAGGCCAGGGGCTGCATGATGAAAGCAAGATCAGAAAAGCTTACTTTAGACTGGCACAGAAA
TACCACCCGGATAAGAACCCGGAAGGAAGGGACATGTTTGAAAAAGTAAATAAAGCATATGAATTTCTAT
GTACCAAGTCAACAAAAATAGTGGATGGGCCAGATCCAGAGAATATAATTTTAATTCTGAAAACACAGAG
CATCCTTTTCAACCGCCATAAAGAAGAGTTACAGCCTTATAAATATGCAGGATATCCCATGCTAATTAGG
ACCATAACAATGGAGACTTCAGATGACCTCCTCTTCTCAAAAGAATCACCACTGTTGCCTGCGGCTGCAG
AGCTGGCTTTCCACACAGTCAACTGCTCAGCCCTCAACGCTGAAGAGCTCAGGAGAGAGAATGGCTTAGA
GGTATTACAGGAGGCATTTAGTCGCTGTGTGGCTGTCCTGAATCGCTCCAGTAAGCCAAGTGACATGTCA
GTGCAGGTGTGTGGACACATAAGCAGATGCTACAGTGTGGCTGCCCAGTTTGAAGAGTGCCGGGAGAAGA
TCACAGAAATGCCTGGCATCATCAAGGACCTCTGCCGGGTGCTGTATTTTGGCAAGTGTATCCCACGGGT
GGCCGCCCTCGCAGTAGAATGTGTCAGCTCTTTCGCTGTGGATTTCTGGCTACAGACACATCTATTTCAG
GCTGGAATTTTGTGGTATCTGCTTGTTTATCTGTTTAACTATGACTATACATTGGAAGAGAGTGGCATTC
AGAAAAATGAAGAAACAAACCAGCAGGAAGTAGCCAACAGTCTTGCCAAACTCAGTGTCCATGCTCTGAG
TCGCCTTGGTGGGTATTTGTCTGAAGACCAAGCAACCCCAGAAAATCCAACTGTAAGGAAGAGTTTAGCT
GGCATGCTGACACCCTACATTGCTCGAAAGCTAGCTGTAGCTAGTGCTACTGAGACCCTGAAGATGCTTA
ACAGCAACACAGAGAGCCCGTATTTGATGTGGAACAACTCTACAAGGGCAGAACTGCTTGAGTTTCTTGA
GTCACAACAAGAAAATATGATCAAAAAGGGTGATTGTGACAAAACTTATGGGGCAGAATTTGTCTACAGT
GAACACGCCAAAGAACTTATCGTGGGTGAGATTTTTGTTAGAGTCTATAATGAAGTCCCAACTTTCCAGC
TAGAGGTTCCTAAAGAGTTTGCTGCAAGTCTGTTGGATTACATAGGCTCTCAGGCCCAGTACCTCCACAC
GTTCATGGCCATCACTCATGCTGCAAAAGTGGAGTCGGAGCAACATGGGGACCGCTTACCAAGAGTGGAA
ATGGCTTTGGAGGCTCTGAGAAATGTGATCAAATACAACCCAGGTTCTGAAAGTGAATGCATCGGGCACT
TTAAGTTAATATTTTCTCTTCTCCGAGTCCATGGAGCTGGTCAAGTGCAGCAGCTGGCGTTAGAGGTTGT
GAATATAGTGACATCCAACCAAGACTGTGTCAATAACATTGCAGAATCCATGGTTTTGTCCAACTTATTG
GCTCTTCTACACTCATTGCCATCGAGCCGTCAGCTTGTCCTGGAGACTCTTTATGCTTTGGCATCAAATA
CAAAGATAATCAAAGAAGCCATGGCAAAAGGAGCTTTGATTTATTTATTGGATATGTTCTGCAATTCAAC
ACACCCTCAGGTTCGGTCCCAGACAGCTGAACTTTTTGCCAAAATGACAGCAGACAAACTAATAGGTCCA
AAGGTGCGGATTACATTGATGAAATTTCTGCCCAGCGTGTTCATGGATGCCATGAGAGACAACCCTGAAG
CTGCTGTGCATATATTTGAGGGAACTCACGAAAATCCAGAGCTGATCTGGAACGACAGCTCCAGAGATAA
GGTTTCCACAACTGTGAGAGAGATGATGCTGGAGCACTTTAAAAATCAACGGGACAACCCTGATGTGAAC
TGGAAGTTGCCTGAAGACTTTGCTGTGGTGTTCGGAGAAGCAGAGGGGGAGCTTGCTGTTGGAGGCGTTT
TCTTGAGGATCTTTATTGCACAGCCAGCTTGGGTGCTGAGGAAACCCAGAGAATTTCTTATTGCACTGCT
AGAAAAATTAACTGAGCTCCTGGAGAAGAACAATCCACATGGAGAAACTCTGGAAACACTGACCATGGCG
ACGGTCTGTCTCTTCAGTGCACAGCCTCAGTTGGCAGATCAAGTCCCGCCATTGGGCCATCTTCCCAAAG
TTATCCAGGCGATGAATCACAGAAACAATGCCATTCCTAAGAGTGCAATTCGGGTTATTCACGTCCTGTC
TGACAATGAGCTGTGTGTCCGAGCCATGGCGTCCTTGGAGACCATTGGCCCACTGATGAATGGAATGCGA
AAGCGAGCAGATACTGTGGGCCTGGCCTGTGAAGCCATCAACCGCATGTTCCAGAAGGAGCAGAGTGAGC
TGGTAGCGCAGGCATTGAAAGCAGAGTTGGTCCCATACCTCTTAAAGCTGCTTGAAGGCGTAGGCCTTGA
AAACCTCGACAGTCCTGCTGCCACCAAGGCCCAGATTGTCAAAGCTCTTAAGGCAATGACTCGAAGTCTG
CAGTATGGAGAACAGGTGAGTGAAATCCTCTCTCGGTCTTCAGTCTGGAGTGCCTTCAAAGACCAGAAAC
ATGACTTGTTCATTTCTGACTCCCAAACAGCAGGATACCTCACAGGACCTGGAGTTGCTGGCTACCTTAC
AGCAGGTACATCCTCATCAGCCATGTCTAATCTGCCGCCTCCCGTAGACCATGAGGCAGGAGACCTTGGC
TATCAGACTTGA

ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT
ACAAGGATGACGACGATAAGGTTTAA
Restriction Sites SgfI-MluI     
ACCN NM_001163026
Insert Size 6732 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.
Reference Data
RefSeq NM_001163026.1, NP_001156498.1
RefSeq Size 7697 bp
RefSeq ORF 6732 bp
Locus ID 235567
Cytogenetics 9 F1

Other Versions

SKU Description Size Price
MG212885 Dnajc13 (tGFP-tagged) - Mouse DnaJ (Hsp40) homolog subfamily C member 13 (Dnajc13), (10ug)
    • 10 ug

USD 2,051.00

MR212885 Dnajc13 (Myc-DDK-tagged) - Mouse DnaJ (Hsp40) homolog, subfamily C, member 13 (Dnajc13)
    • 10 ug

USD 1,851.00

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Product Citations

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