Fry (NM_001170398) Rat Untagged Clone

CAT#: RN217798

Fry (untagged) - Rat furry homolog (Drosophila) (Fry)

SDS

  "NM_001170398" in other vectors (1)

Reconstitution Protocol

USD 3,050.00

11 Weeks*

Size
    • 10 ug
Bulk Requests & Clone Modifications

Product Images

Specifications

Product Data
Type Rat Untagged Clone
Tag Tag Free
Symbol Fry
Synonyms RGD1307034
Vector pCMV6-Entry
E. coli Selection Kanamycin (25 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
>RN217798 representing NM_001170398
Red=Cloning site Blue=ORF Orange=Stop codon

TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
GCCGCGATCGCC

ATGGCCAGCCAGCAGGATTCCGGCTTCTTTGAAATCAGTATCAAATATTTACTGAAATCCTGGAGTAACG
CTTCTCCAGTTGGCAACGGTTACATCAAGCCTCCAGTCCCACCTGCTTCAGGCACGCACAGGGAGAAAGG
ACCACCGGCCATGTTGCCGATCAATGTGGACCCAGACAGCAAGCCAGGAGAGTATGTCCTCAAGAGTGTA
TTTGTGAGCTTCACCACTCAGGCTGAGCGTAAGATTCGAATCATCATGGCAGAGCCTTTGGAAAAGCCAT
TGACAAAATCCCTGCAGCGTGGAGAAGACCCCCAGTTCGACCAGGTCATCAGCTCCATGAGTTCCCTCTC
TGAGTACTGCCTGCCCTCCATCCTGCGAACACTGTTTGACTGGTACAAAAGGCAGAACGGCATGGAGGAC
GAATCGCACGAGTACAGACCACGAACGAGCAATAAGTCCAAAAGTGACGAGCAGCAGCGAGACTATTTGA
TGGAGAGACGGGACCTCGCCATCGACTTTATCTTCTCTTTAGTGTTAATAGAGGTCTTGAAGCAGATCCC
CCTTCATCCTGTAATAGACGGCTTAGTACACGATATTATTAACTTGGCTTTCAAGCACTTTAAGTACAAA
GAAGGGTACCTGGGTCCCAACACCGGCAACATGCACATTGTAGCAGATCTGTACGCAGAGGTCATCGGAG
TGCTGGCCCAAGCCAAGTTCCCTGCTGTCAAGAAGAAGTTCATGGCAGAGCTGAAGGAGCTACGGCAGAA
AGAGCAGAGCCCCTATGTGGTGCAAAGTATCATCAGCTTAATAATGGGGGTAAAATTCTTCCGAATTAAG
ATGTACCCAGTGGAGGACTTCGAGGCGTCCCTCCAGTTCATGCAGGAATGTGCACATTATTTTCTGGAGG
TCAAAGACAAAGACATCAAGCACGCCTTAGCAGGGCTCTTTGTAGAAATCCTCGTCCCCGTGGCTGCCAC
TGTCAAAAATGAAGTCAACGTCCCCTGCCTCAGGAACTTTGTGGAGAGCCTGTACGACACAACGTTGGAA
CTCTCCTCTCGGAAAAAGCATTCCTTGGCCTTATACCCGCTGGTGACCTGCCTCCTCTGTGTCAGTCAGA
AGCAGCTGTTCCTTAACAGATGGCACGTTTTCCTCAACAACTGCCTGTCCAACCTTAAGAATAAAGACCC
CAAGATGGCTCGCGTCGCCTTGGAGTCTCTCTACAGATTACTGTGGGTTTACATGATTCGAATCAAATGT
GAAAGCAACACGGCCACTCAGAGCCGACTCATAACCATCACCACCACGCTTTTCCCCAAAGGGTCCCGCG
GCGTGGTGCCCAGGGATATGCCTCTGAACATCTTCGTGAAGATTATCCAGTTCATCGCCCAGGAACGTCT
GGACTTTGCAATGAAGGAAATTATTTTTGACTTTCTTTGTGTGGGAAAACCGGCGAAAGCTTTCAGTCTC
AACCCAGAGAGAATGAACATTGGTTTGCGGGCGTTCCTGGTGATTGCCGATAGCTTACAACAAAAGGACG
GTGAGCCTCCCATGCCGGTGACTGGAGCCGTGCTCCCTTCAGGAAACACCCTGAGAGTGAAGAAAACGTA
TTTGAGTAAGACACTAACTGAAGAGGAAGCCAAAATGATAGGAATGTCCTTGTATTACTCTCAAGTCCGC
AAGGCGGTAGGCAACATCTTAAGACACCTTGATAAAGAAGTGGGGCGGTGCATGATGCTGACCAATGTCC
AGATGCTAAACAAAGAGCCGGAAGACATGATCACGGGTGAGAGAAAGCCCAAAATCGATCTCTTCCGGAC
CTGTGTTGCGGCAATCCCTCGCCTGCTACCTGATGGAGTGTCCAAAGTTGAACTGATCGACTTGCTGGCC
AGGCTCTCCATTCACATGGACGATGAACTGCGTCACATCGCACAGAACTCTCTTCAGGGACTGCTGGTCG
ACTTCTCCGACTGGAGGGAAGAAGTCCTGTTCGGCTTCACCAACTTCCTGCTCCGGGAAGTCAATGATGT
GCATCACACCCTCCTGGACTCCTCCCTGAAGTTGCTTCTGCAATTGCTCACCCAGTGGAAACTGGTCATA
CAGACACAGGGAAGAGTCTATGAACAGGCCAAGATCAGAAACTCAGAGCTCATTCCCAACGGCTCCGGCC
ACAGGATGCAGTCAGAACGAGGCCCGCACTGCAGTGTCCTCCACGCCGTGGAAGGCTTCGCCCTCGTCTT
GCTCTGCAGCTTCCAGATGGCCACACGCAAACTGTCCGTGTTGATCCTCAAGGAGATTCGAGCCCTCTTC
CTTGCCCTGGGTCAGCCCGAGGACGATGACAGGCCAATGATTGATGTCATGGATCAGCTGAGTTCTTCCA
TTCTTGAAAGTTTCATTCATGTGGCTGTGTCGGATTCGGCAACGTTACCTCCGACCCACAATGTGGACCT
CCAGTGGCTGGTGGAGTGGAACGCGGTCCTGGTCAACAGCCACTACGACGTGAAGAGCCCTTCCCACGTC
TGGATCTTCGCGCAGTCTGTCAAAGACCCCTGGGTCCTCTGCCTCTTCAGCTTCCTCCGGCAGGAAAACC
TGCCAAAGCACTGCCCCACAGCCCTCAGCTATGCCTGGCCGTACGCCTTCACCCGGCTGCAGTCCGTGAT
GCCGCTGGTAGATCCTAACAGCCCAGTCAACGCCAAGAAAACCAGCACAGCAAGCAGTGGAGACAACTAT
GTTACCTTGTGGAGAAATTACCTCATTCTCTGTTTCGGAGTTGCCAAACCCAGTATTATGAGCCCAGGAC
ACCTTCGAGCATCCACTCCAGAGATAATGGCAACAACTCCCGATGGTACAGTGAGCTACGATAACAAGGC
CATTGGCACGCCGTCAGTGGGCGTCCTGCTGAAGCAGTTGGTGCCTTTGATGAGGCTGGAGAGCATCGAA
ATCACAGAGTCCCTTGTTTTAGGGTTCGGAAGGACAAATTCCCTTGTTTTCAGAGAATTGGTTGAAGAAC
TCCATCCATTAATGAAGGAGGCTCTAGAGAGGAGACCAGAGAACAAGAAGCGCCGAGAACGGAGAGATTT
GCTGAGGCTGCAGCTGCTTCGGATATTCGAGCTCCTGGCAGACGCTAGTGTGATAAGTGACAGCACAAAT
GGAGCTTTAGAACGAGACACCTTAGCACTTGGAGCTTTGTTCTTGGAATACGTGGACTTGACCCGCATGC
TCCTAGAAGCTGAAAATGACAAAGAAGTCGAAATCCTTAAAGACATTCGAGCACATTTTAGCGCCATGGT
CGCCAACTTGATTCAGTGTGTTCCAGTTCACCACAGAAGATTTCTCTTCCCCCAGCAAAGCCTGCGGCAC
CATCTCTTCATCTTGTTCAGCCAGTGGGCCGGCCCCTTCAGTATCATGTTTACCCCTCTGGATCGGTACA
GTGACCGAAACCACCAGATCACAAGATACCAGTACTGTGCTCTGAAGGCAATGTCAGCGGTGCTGTGCTG
CGGCCCTGTTTTCGACAATGTCGGCCTCTCTCCGGATGGCTATCTGTATAAGTGGCTTGACAATATTCTG
GCTTGTCAAGATTTACGGGTTCATCAGCTTGGCTGTGAGGTCGTCATGTTGCTACTGGAGCTTAATCCTG
ACCAAATAAACCTTTTCAATTGGGCCATCGACCGCTGTTACACAGGTTCCTACCAGCTTGCTTCCGGCTG
CTTCAAAGCCATTGCAACCGTGTGCGGAAACAGGAACTACCCCTTCGACATAGTGACACTGCTGAACCTC
GTCCTCTTCAAGGCCTCGGACACCAACAGAGAGATTTACGAAGTCTCCATGCAGCTCATGCAGATCCTCA
AAGCGAAGCTCTTCCTGCACTCCAAGAAGGCCGCAGAACAGCGACCGGGCAGTGTTCTGTATGGAACGCA
CGGGCCATTGCCGCCTCTCTACAGTGTGTCGCTAGCCCTGCTGTCCCGAGAACTGGCCCGGATGTACCCG
GAGCTCACACTTCCCCTCTTCTCAGAGGTGAGCCAGCGATTCCCCACGACACACCCAAATGGACGGCAGA
TCATGCTCACCTACCTGTTGCCATGGCTACACAATATTGAACTGGTGGACAGCAGACTCCTCCTCCCGGG
CTCAAGTCCCAGCAGCCCCGAGGATGAAGTCAAGGACCGGGAAGGAGAAGTGACTGCCTCTCACGGGCTA
AAAGGGAAGGGCTGGGGCTCTCCGGAAGCCACCTCTCTGGTCCTGAATAACCTCATGTACATGACAGCCA
AGTACGGAGATGAAGTCCCAGGAGCAGAAATGGAAAATGCTTGGAACGCACTGGCCAACAACGAGAAATG
GAGTAACAACCTGAGGGTCACACTGCAGTTCCTCATCAGCCTGTGTGGGGTCAGCAGCGACACCATCCTT
CTGCCCTACATTAAAAAGGTGGCAATTTACTTGTGTCGGAATAATACCATCCAGACCATGGAAGAGCTCC
TCTTCGAGCTGCAGCAGACAGAGCCGGTGAACCCCATTGTCCAGCACTGTGACAACCCACCCTTCTATCG
GTTCACAGCTAGCAGCAAAGCCACAGCGGCTGCTTCAGGAACCACTTCGAGCAGTAACACTGTGGTTGCC
GGCCAGGACAGCTTCCCAGACCCTGAGGAGAGCAAGATACTGAAAGAATCTGATGACAGGTTTAGCAACG
TGATCCGAGCCCACACTCGCCTAGAGTCAAGATACAGCAACAGCTCCGGAGGGTCTTATGATGAGGATAA
AAATGATCCCATCTCTCCCTACACGGGCTGGTTGTTAAGTATTACGGAGGCCAAGCAGCCACAGCCTTTA
CCCATGCCGTGCACTGGAGGATGCTGGGCACCCTTGGTCGACTACCTCCCAGAGACCATCACTCCGCGGG
GCCCGCTGCACAGGTGTAACATTGCTGTGATTTTTATGACCGAGATGGTGGTGGATCACAGTGTGAGAGA
AGACTGGGCTCTTCACCTCCCACTGTTACTTCATGCTGTCTTCTTAGGTTTGGACCATTATCGGCCGGAA
GTCTTCGAGCACAGCAAAAAGCTGCTCCTTCACCTCCTCATCGCACTCTCTTGTAATAGCAACTTCCACG
CCATTGCCTCCGTACTCCTGCAGACCCGTGAGATGGGGGAAGTGAAGACGCTGACCATGCAGCCAGCCTA
CCAGCCAGAGTATCTCTACACGGGTGGCTTTGACTTCCTGAGAGAGGATCAGTCGTCGCCAGTGCCCGAC
TCCGGCCTGAGCTCAAGCTCCACTTCCTCCAGCATCAGTCTGGGGGGCAGCAGTGGGAACCTCCCACAGA
TGACCCAGGAGGTGGAAGATGTCGACGCGGCCGCTGAGTCGGACGAGAAGGCCAACAAGCTCATTGAGTT
TCTGACCACCAGGGCATTCGGGCCACTTTGGTGCCACGAGGACATCACACCCAAAAACCAGAACTCCAAG
AGCGCTGAGCAGCTTTCTAATTTCCTACGTCACGTTGTGTCTGTATTTAAGGATTCCAAGTCAGGTCTCC
ATCTGGAGCAGCACCTGAGCGAGGTTGCCCTGCAGACTGCCCTCGCAAGCTCTTCCAGGCACTACGCAGG
CCGATCTTTCCAGATCTTCCGGGCCCTCAAACAACCCCTGTCGGCGCATGCCCTGTCTGACCTCCTGTCC
AGATTGGTGGAGGTGATCGGAGAGCATGGTGATGAGATTCAGGGATACGTGATGGAAGCACTCTTGACCT
TGGAAGCCGCAGTGGACAACTTGTCGGATTGCTTGAAGAACAGTGACCTCTTCACAGTGTTATCTCGTTC
TTCCTCACCAGATCTAAGCTCTAGCAGTAAACTGACAGCAAGCAGGAAAAGTACCGGACAGCTGAACGTC
AGCCCCGGGACTCCCAGCGGCAGCACCGCGACCGCAGAGCGCAGCCGGCACCAAAGAAGCTTCTCCGTGC
CCAAGAAGTTTGGTGTCGTTGACCGATCCTCGGACCCGCCTCGAAGCGCTACCCTGGATAGGATTCAGGC
TTGCACTCAGCAAGGCCTTTCCTCAAAAACCAGAAGCAGCTCCTCCCTGAAGGAGAGCCTCACAGACCCT
TCCCACGTAAACCATCCCACCAACCTGCTGGCCACCATCTTCTGGGTCACGGTGGCCCTGATGGAGTCTG
ACTTTGAGTTTGAATACCTGATGGCCTTGAGGCTCCTGAACCGACTGCTGGCACAGATGCCACTGGAGAA
AGCCGAGAACCGAGAGAAGCTCGAGAAACTCCAGGCGCAGCTCAAGTGGGCAGACTTCCCGGGGCTGCAG
CAGCTGCTGCTGAAGGGCTTCACCTCTCTCACCACCACGGACCTGACCCTGCAGCTTTTCAGCTTGCTGA
CACCAGTGTCCAGAGTGCCCATGGTGGACTCGTCCCAAGCTATCGGATTTCCGCTGAATGTCTTGTGTCT
CCTGCCTCAGCTGATCCAGCATTTTGAAAATCCCAATCAGTTCTGTAAGGGCATCGCCGAAAGGATTTCT
CAGGTTTGCTTGGAAGAAAAGAATCCTAAACTTTCAAATCTGGCCCACGTCATGACCCTTTACAAAACAC
ACAGCTACACAAGGGACTGCGCCACGTGGGTCAACGTCGTCTGCCGCTACCTTCACGAAGCCTATGCTGA
CATCACCCTGAACATGGTCACCTACCTGGCAGAGTTGTTGGAGAAAGGCCTTCCCAGCATGCAACAGCCA
CTCCTCCAGGTCATCTACTGTCTGCTGAGCTACATGGACCTCTCTGTAGTTCCTGGCAAGCAGTTTAACA
TGGAAGTCCTGAAGACCATTGAGAAATACGTACAGAGCATTCACTGGAGGGAAGCGTTGAACATCTTGAA
GCTGGTCGTTTCTCGGTCAGCCAGCCTGGTATTGCCTTCCTACCAGCACAGTGACCTCTCCAAGATAGAA
CTCCACCGGGTGTGGACCAGCGCCTCGAAGGAACTGCCGGGCAAGACCCTGGATTTCCACTTTGACATCT
CAGAGACTCCGATCATTGGGAGACGGTATGATGAACTCCAGAATTCCTCCGGACGGGATGGGAAACCTAG
GGCCATGGCTGTCACCCGGAGTGCATCCTCCACCTCCTCAGGCTCTAACTCCAATGTCCTTGTTCCTGTG
AGCTGGAAAAGACCCCAGTATTCTCAGAAAAGAACAAAAGAGAAGCTGGTGCACGTCCTCTCTCTGTGCG
GCCAGGAAGTCGGACTAAGCAAAAACCCGTCTGTGATTTTTTCCTCGTGTGGAGACCTGGATCTGCCGGA
GCATCAGACGAGCCTGGTGTCGTCCGAGGACGGCACCCGGGAGCAGGAGAACATGGATGACGCCAACAGC
GAGCAGCAGTTCAGAGTCTTCAGGGACTTCGACTTCCTGGACGTGGAACTGGAGGACGGGGAGGGGGAGA
GTATGGACAACTTCAACTGGGGAGTGCGCAGGCGCTCCCTGGACAGCCTGGACAAGTGCGACATGCAGAC
CCTGGAGGAGCGCCAGCTCTCTAGAAGCACTCCCAGCCTAAACAAGATGAGCCACGAGGATTCAGATGAG
TCATCGGAGGAGGACCTCACCGCCAGCCAGATCCTGGAACATTCAGACCTTATCATGAATCTCTCCCCCT
CCGAGGAGGCCAATCCTATGGAGCTGCTGACCAGCGCCTGCGACTCCACCCCGGCAGACCCTCATCCCTT
CAATGCCAGGATAACAAACTTCGAGGCCTCTTTGCCTGATATCAATAATCTGCAGATTTCGGAGGGGTCA
AAGGCTGAGGTAGTCCCGGAAGAGGAAGACACCACCGTGCATGAAGACGATCTTTCAAGCTCCATCAATG
AGCTCCCAGCAACGTTTGAATGCAGTGACAGCTTCAGCCTGGATATGACGGAGGCGGAGGAAAAAGGCAA
TCGGGGCCTGGACCAGTACACTCTCGCCAGCTTTGGAGAAGGTGACAGAGGCGTGTCTCCCCCTCCCTCT
CCCTTCTTCTCGGCCATCCTTGCGGCCTTCCAGCCGGTCTCCTGTGATGACGCTGAGGAAGCCTGGCGCA
GCCACATTAACCAGCTCATGTGTGACTCAGACGGCTCCTGTGCTGTGTACACATTTCATGTGTTCTCCTC
TCTGTTTAAGAATATTCAAAAGAGGTTCTGCTTCCTAACCTGTGATGCAGCCAGTTACCTTGGCGATAAC
CTCCGGGGAATCGGGTCCAAATTTGTCAGCTCTTCCCAGATGCTTACCTCCTGCTCTGAGTGCCCTACAC
TGTTCGTGGACGCAGAGACTCTCCTTTCCTGTGGGCTCCTGGACAAGCTGAAGTTCAGCGTGTTGGAACT
GCAAGAGTATTTGGACACATACAACAACAGGAAGGAGGCCACGCTCTCGTGGCTTGCCAACTGTAAGGCA
ACATTTGCAGGCGGCTCCAGGGATGAGGTGATTACCTGCCAACCCGGGGACTCGGAAGAAAAGCAACTGG
AGCTGTGTCAGAGACTGTACAAGCTGCACTTTCAGCTGCTCCTGCTCTACCAATCCTACTGCAAGCTCAT
TGGCCAGGTGCACGAAGTGAGCTCAGTGCCCGAGCTGCTGAACATGTCCAGAGAACTGAGTGATCTGAAG
AGGAAGCTGAAAGAAGCCACTGCAGCCATCTCCACGGACCCACTGTACATCGAGGGGGCGTGGTCAGAAC
CAACCTTCACATCCACTGAGGCAGCCATCCAGTCCATGCTGGAGTGCCTGAAGAACAATGACCTTGGCAA
AGCACTGCGACAGATCAAGGAGTGCAGAAGCCTGTGGCCCAATGACATCTTTGGAAGCAGCTCTGATGAT
GAGGTCCAGACACTCCTGAATATTTATTTCCGTCACCAAACATTGGGACAGACGGGTACTTATGCCCTGG
TGGGGTCTAACCATAGCCTGACTGAAATCTGCACCAAGCTCATGGAGCTGAACATGGAGATCCGAGACAT
GATCCGCAGGGCCCAGAGCTCCCGGGTCCTCACAACCTTTCTCCCAGACTCCAGTGTTTCCGGCACTAGT
CTCTGA

ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT
ACAAGGATGACGACGATAAGGTTTAA
Restriction Sites SgfI-MluI     
ACCN NM_001170398
ORF Size 9036 bp
Insert Size 9036
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 clone expresses the complete ORF with c-terminal tags of Myc-DDK.
Reference Data
RefSeq NM_001170398.1, NP_001163869.1
RefSeq Size 10792
RefSeq ORF 9036
Locus ID 304244

Other Versions

SKU Description Size Price
RR217798 Fry (myc-DDK-tagged) - Rat furry homolog (Drosophila) (Fry)
    • 10 ug

USD 3,050.00

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