Fry (NM_001170398) Rat Untagged Clone
CAT#: RN217798
Fry (untagged) - Rat furry homolog (Drosophila) (Fry)
"NM_001170398" in other vectors (1)
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 |
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Other Versions
SKU | Description | Size | Price |
---|---|---|---|
RR217798 | Fry (myc-DDK-tagged) - Rat furry homolog (Drosophila) (Fry) |
USD 3,050.00 |
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