Rptor cDNA ORF clone, Rattus norvegicus(Norway rat)

The following Rptor gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Rptor cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1+/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID Accession No. Definition **Vector *Turnaround time Price (USD) Select
ORa57269 XM_017597165.1
Latest version!
Rattus norvegicus regulatory associated protein of MTOR, complex 1 (Rptor), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00
ORa57268 XM_017597164.1
Latest version!
Rattus norvegicus regulatory associated protein of MTOR, complex 1 (Rptor), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
ORa03034 NM_001134499.2
Latest version!
Rattus norvegicus regulatory associated protein of MTOR, complex 1 (Rptor), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $986.30
$1409.00

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

  • Reference Sequences (Refseq)
    CloneID ORa57269
    Clone ID Related Accession (Same CDS sequence) XM_017597165.1
    Accession Version XM_017597165.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2745bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-07-25
    Organism Rattus norvegicus(Norway rat)
    Product regulatory-associated protein of mTOR isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005109.4) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    ATGGGTGTGG AAAACAGGAG CCCCCCCGAG CAGCTGCCCA TCGTCCTACA GGTGCTGCTA 
    AGCCAGGTGC ACCGGCTGAG AGCCTTGGAC TTGCTGGGAC GATTTTTGGA CTTGGGCCCT
    TGGGCGGTGA GCTTGGCCCT GTCGGTGGGC ATCTTCCCCT ATGTACTGAA GCTGCTTCAG
    AGCTCGGCCC GAGAGCTGCG GCCACTCCTT GTCTTCATCT GGGCCAAAAT CCTCGCTGTG
    GACAGTTCAT GCCAGGCTGA CCTCGTGAAG GACAACGGTC ACAAGTACTT CCTGTCCGTC
    TTGGCAGACC CATACATGCC AGCTGAACAC AGGACCATGA CAGCCTTCAT TCTTGCTGTA
    ATCGTCAACA GCTACACAAC AGGGCAAGAA GCCTGCCTGC AGGGGAACCT GATTGCCATC
    TGTTTGGAGC AGCTCAGTGA CCCACACCCC TTGCTACGCC AGTGGGTGGC CATTTGCCTG
    GGAAGGATCT GGCAGAACTT TGATTCTGCA AGGTGGTGTG GGGTGAGAGA CAGCGCCCAC
    GAAAAACTCT ATAGCCTCCT CTCCGACCCC ATCCCTGAGG TACGATGTGC AGCTGTGTTT
    GCCCTTGGTA CCTTTGTGGG AAACTCTGCT GAGAGGACAG ACCACTCTAC TACCATTGAC
    CACAATGTGG CCATGATGCT GGCTCAGCTG ATTAATGATG GAAGCCCCAT GGTCCGGAAG
    GAGCTGGTGG TGGCTCTGAG TCACCTTGTA GTCCAATATG AGAGCAATTT CTGCACTGTG
    GCCCTGCAGT TCATGGAAGA GGAAAAGAAC TACCCCTTGC CTTCTCCAGC AGCCACAGAG
    GGAGGGAGCT TGACTCCAGT TCGAGACAGC CCGTGCACCC CCAGACTCCG GTCAGTGAGC
    TCCTATGGGA ACATCCGAGC CGTCACCACA GCTAGGAACC TGAACAAATC TTTGCAGAAC
    CTGAGCTTGA CGGAAGAATC GGGCAGCTCA GTGGCCTTCT CTCCCGGGAA CCTCAGTACA
    AGTAGTAGTG CCAGCAGCAC CTTGGGAAGC CCTGAGAACG AGGAGTATAT CCTGTCCTTC
    GAGACCATCG ACAAGATGCG GCGTGTGAGC TCCTATTCAG CGCTCAACTC CCTCATAGGA
    GTCTCCTTTA ATAGTGTCTA CACTCAGATT TGGAGAGTCT TACTGCATTT GGCCGCTGAT
    CCCTACCCAG ATGTTTCTGA CTTAGCCATG AAAGTCCTCA ACAGCATTGC TTACAAGGCC
    ACAGTCAACG CCCGGCCCCA GCGAATCCTC GACACATCCT CTCTCACACA GTCGGCCCCA
    GCCAGCCCAA CCAACAAGGG CATGCACATC CACCAGGTGG GAGGCTCCCC GCCAGCATCT
    AGCACCAGCA GCTGCAGCCT GACCAATGAT GTGGCCAAGC AGACGGTCAG CCGTGACCTG
    CCCTCCAGCC GCCCGGGTAC TGCCGGCCCC ACAGGGGCAC AGTACACCCC TCACTCCCAC
    CAGTTCCCTC GTACACGAAA GATGTTTGAC AAAGGCCCTG ATCAGACCAC AGACGATGCA
    GATGATGCTG CCGGACACAA GAGCTTCATT TGTGCCACTA TGCAGACGGG GTTCTGTGAC
    TGGAGTGCCC GCTACTTTGC CCAGCCGGTC ATGAAGATCC CTGAAGAGCA TGACCTAGAG
    AGTCAGATCC GCAAGGAGCG TGAGTGGCGG TTCCTGAGGA ACACTCGAGT CAGGAAGCAG
    GCACAGCAGG TCATCCAGAA GGGCATCACC AGACTGGATG ATCAGATATT TCTGAACAGG
    AACCCCGGCG TTCCCTCTGT GGTCAAATTC CACCCCTTTA CACCATGCAT AGCTGTTGCT
    GACAAGGACA GCATCTGTTT TTGGGACTGG GAGAAAGGAG AGAAACTGGA CTACTTCCAC
    AATGGTAACC CTCGGTACAC CAGAGTCACT GCTATGGAGT ACCTGAATGG GCAGGACTGC
    TCCTTGCTGC TGACAGCCAC AGACGATGGA GCCATCAGGG TCTGGAAAAA TTTTGCTGAT
    TTGGAAAAGA ATCCAGAGAT GGTGACTGCG TGGCAAGGGC TCTCAGACAT GCTTCCAACA
    ACACGAGGAG CTGGGATGGT GGTGGACTGG GAACAAGAAA CTGGCCTCCT CATGAGCTCA
    GGGGACGTGC GCATTGTCCG GATCTGGGAT ACCGACCGGG AGACGAAGGT CCAGGACATC
    CCCACGGGGG CCGACAGCTG TGTGACAAGT TTATCTTGTG ATTCGCACCG CTCACTCATT
    GTAGCTGGCC TGGGTGATGG CTCGATCCGT GTCTACGACA GGAGGATGGC ACTCAGTGAA
    TGCCGGGTCA TGACTTACCG AGAGCACACA GCATGGGTGG TAAAGGCCTA CCTGCAGAAG
    CACCCTGAGG GCCACATCGT GAGTGTGAGT GTCAATGGAG ATGTGCGATT CTTCGATCCT
    CGGATGCCTG AGTCTGTGAA TGTAATGCAG ATTGTGAAGG GGCTGACAGC CCTCGACATC
    CACCCCCAGG CAAACCTGAT CGCCTGTGGC TCCATGAACC AGTTCACAGC CATCTACAAC
    GGCAATGGGG AGCTGATCAA CAACATCAAA TACTACGATG GCTTCATGGG CCAGCGAGTC
    GGGGCCATCA GCTGCCTGGC TTTCCACCCA CACTGGCCTC ATCTGGCCGT CGGAAGCAAT
    GACTACTACA TTTCTGTATA TTCGGTGGAG AAGCGTGTCA GATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_017452654.1
    CDS2398..5142
    Translation

    Target ORF information:

    RefSeq Version XM_017597165.1
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus regulatory associated protein of MTOR, complex 1 (Rptor), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017597165.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    ATGGGTGTGG AAAACAGGAG CCCCCCCGAG CAGCTGCCCA TCGTCCTACA GGTGCTGCTA 
    AGCCAGGTGC ACCGGCTGAG AGCCTTGGAC TTGCTGGGAC GATTTTTGGA CTTGGGCCCT
    TGGGCGGTGA GCTTGGCCCT GTCGGTGGGC ATCTTCCCCT ATGTACTGAA GCTGCTTCAG
    AGCTCGGCCC GAGAGCTGCG GCCACTCCTT GTCTTCATCT GGGCCAAAAT CCTCGCTGTG
    GACAGTTCAT GCCAGGCTGA CCTCGTGAAG GACAACGGTC ACAAGTACTT CCTGTCCGTC
    TTGGCAGACC CATACATGCC AGCTGAACAC AGGACCATGA CAGCCTTCAT TCTTGCTGTA
    ATCGTCAACA GCTACACAAC AGGGCAAGAA GCCTGCCTGC AGGGGAACCT GATTGCCATC
    TGTTTGGAGC AGCTCAGTGA CCCACACCCC TTGCTACGCC AGTGGGTGGC CATTTGCCTG
    GGAAGGATCT GGCAGAACTT TGATTCTGCA AGGTGGTGTG GGGTGAGAGA CAGCGCCCAC
    GAAAAACTCT ATAGCCTCCT CTCCGACCCC ATCCCTGAGG TACGATGTGC AGCTGTGTTT
    GCCCTTGGTA CCTTTGTGGG AAACTCTGCT GAGAGGACAG ACCACTCTAC TACCATTGAC
    CACAATGTGG CCATGATGCT GGCTCAGCTG ATTAATGATG GAAGCCCCAT GGTCCGGAAG
    GAGCTGGTGG TGGCTCTGAG TCACCTTGTA GTCCAATATG AGAGCAATTT CTGCACTGTG
    GCCCTGCAGT TCATGGAAGA GGAAAAGAAC TACCCCTTGC CTTCTCCAGC AGCCACAGAG
    GGAGGGAGCT TGACTCCAGT TCGAGACAGC CCGTGCACCC CCAGACTCCG GTCAGTGAGC
    TCCTATGGGA ACATCCGAGC CGTCACCACA GCTAGGAACC TGAACAAATC TTTGCAGAAC
    CTGAGCTTGA CGGAAGAATC GGGCAGCTCA GTGGCCTTCT CTCCCGGGAA CCTCAGTACA
    AGTAGTAGTG CCAGCAGCAC CTTGGGAAGC CCTGAGAACG AGGAGTATAT CCTGTCCTTC
    GAGACCATCG ACAAGATGCG GCGTGTGAGC TCCTATTCAG CGCTCAACTC CCTCATAGGA
    GTCTCCTTTA ATAGTGTCTA CACTCAGATT TGGAGAGTCT TACTGCATTT GGCCGCTGAT
    CCCTACCCAG ATGTTTCTGA CTTAGCCATG AAAGTCCTCA ACAGCATTGC TTACAAGGCC
    ACAGTCAACG CCCGGCCCCA GCGAATCCTC GACACATCCT CTCTCACACA GTCGGCCCCA
    GCCAGCCCAA CCAACAAGGG CATGCACATC CACCAGGTGG GAGGCTCCCC GCCAGCATCT
    AGCACCAGCA GCTGCAGCCT GACCAATGAT GTGGCCAAGC AGACGGTCAG CCGTGACCTG
    CCCTCCAGCC GCCCGGGTAC TGCCGGCCCC ACAGGGGCAC AGTACACCCC TCACTCCCAC
    CAGTTCCCTC GTACACGAAA GATGTTTGAC AAAGGCCCTG ATCAGACCAC AGACGATGCA
    GATGATGCTG CCGGACACAA GAGCTTCATT TGTGCCACTA TGCAGACGGG GTTCTGTGAC
    TGGAGTGCCC GCTACTTTGC CCAGCCGGTC ATGAAGATCC CTGAAGAGCA TGACCTAGAG
    AGTCAGATCC GCAAGGAGCG TGAGTGGCGG TTCCTGAGGA ACACTCGAGT CAGGAAGCAG
    GCACAGCAGG TCATCCAGAA GGGCATCACC AGACTGGATG ATCAGATATT TCTGAACAGG
    AACCCCGGCG TTCCCTCTGT GGTCAAATTC CACCCCTTTA CACCATGCAT AGCTGTTGCT
    GACAAGGACA GCATCTGTTT TTGGGACTGG GAGAAAGGAG AGAAACTGGA CTACTTCCAC
    AATGGTAACC CTCGGTACAC CAGAGTCACT GCTATGGAGT ACCTGAATGG GCAGGACTGC
    TCCTTGCTGC TGACAGCCAC AGACGATGGA GCCATCAGGG TCTGGAAAAA TTTTGCTGAT
    TTGGAAAAGA ATCCAGAGAT GGTGACTGCG TGGCAAGGGC TCTCAGACAT GCTTCCAACA
    ACACGAGGAG CTGGGATGGT GGTGGACTGG GAACAAGAAA CTGGCCTCCT CATGAGCTCA
    GGGGACGTGC GCATTGTCCG GATCTGGGAT ACCGACCGGG AGACGAAGGT CCAGGACATC
    CCCACGGGGG CCGACAGCTG TGTGACAAGT TTATCTTGTG ATTCGCACCG CTCACTCATT
    GTAGCTGGCC TGGGTGATGG CTCGATCCGT GTCTACGACA GGAGGATGGC ACTCAGTGAA
    TGCCGGGTCA TGACTTACCG AGAGCACACA GCATGGGTGG TAAAGGCCTA CCTGCAGAAG
    CACCCTGAGG GCCACATCGT GAGTGTGAGT GTCAATGGAG ATGTGCGATT CTTCGATCCT
    CGGATGCCTG AGTCTGTGAA TGTAATGCAG ATTGTGAAGG GGCTGACAGC CCTCGACATC
    CACCCCCAGG CAAACCTGAT CGCCTGTGGC TCCATGAACC AGTTCACAGC CATCTACAAC
    GGCAATGGGG AGCTGATCAA CAACATCAAA TACTACGATG GCTTCATGGG CCAGCGAGTC
    GGGGCCATCA GCTGCCTGGC TTTCCACCCA CACTGGCCTC ATCTGGCCGT CGGAAGCAAT
    GACTACTACA TTTCTGTATA TTCGGTGGAG AAGCGTGTCA GATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID ORa57268
    Clone ID Related Accession (Same CDS sequence) XM_017597164.1
    Accession Version XM_017597164.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3732bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-07-25
    Organism Rattus norvegicus(Norway rat)
    Product regulatory-associated protein of mTOR isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005109.4) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGGGTCCTC AGAAAGCTCT GGAAACCATC GGTGCAAATC TACAGAAGCA GTATGAGAAC 
    TGGCAGCCAA GGGCTCGGTA CAAGCAGAGC CTTGACCCCA CTGTGGATGA AGTCAAGAAA
    CTTTGCACAT CTCTGCGTCG GAACGCCAAG GAGGAACGGG TCCTCTTCCA CTATAATGGC
    CATGGGGTGC CCAGGCCTAC GGTGAATGGA GAGGTCTGGG TCTTCAACAA GAACTACACT
    CAGTACATCC CACTGTCCAT ATATGACCTG CAGACGTGGA TGGGCAGCCC ATCCATCTTT
    GTCTACGACT GCTCCAATGC TGGCCTCATC GTCAAGTCCT TCAAACAGTT CGCACTGCAG
    AGGGAGCAGG AACTAGAGGT AGCTGCAATT AACCCAAACC ATCCACTTGC CCAGATGCCC
    TTGCCTCCCT CAATGAAAAA CTGCATCCAG CTGGCAGCCT GTGAGGCCCA CGAGCTCCTG
    CCGATGATCC CTGACCTCCC AGCCGACCTG TTCACATCCT GCCTCACCAC TCCCATCAAG
    ATTGCTTTGC GCTGGTTTTG CATGCAGAAG TGTGTTAGTC TGGTGCCTGG AGTCACACTG
    GATTTGATAG AAAAGATCCC TGGCCGGCTG AATGACCGGA GAACCCCTCT GGGTGAACTG
    AACTGGATCT TCACAGCCAT CACAGACACC ATCGCCTGGA ATGTGCTCCC TCGGGATCTC
    TTTCAAAAGC TTTTCCGACA GGACCTGCTG GTGGCAAGTT TGTTTAGAAA TTTTTTATTG
    GCAGAAAGAA TCATGAGGTC GTATAACTGC ACCCCAGTAA GCAGCCCACG ACTTCCCCCA
    ACATACATGC ATGCCATGTG GCAGGCCTGG GACCTTGCTG TGGACATTTG CCTCTCTCAA
    CTGCCAACCA TCATCGAAGA GGGAACTGCC TTCAGGCACA GCCCATTCTT TGCTGAGCAG
    CTGACGGCAT TCCAGGTGTG GCTCACCATG GGTGTGGAAA ACAGGAGCCC CCCCGAGCAG
    CTGCCCATCG TCCTACAGGT GCTGCTAAGC CAGGTGCACC GGCTGAGAGC CTTGGACTTG
    CTGGGACGAT TTTTGGACTT GGGCCCTTGG GCGGTGAGCT TGGCCCTGTC GGTGGGCATC
    TTCCCCTATG TACTGAAGCT GCTTCAGAGC TCGGCCCGAG AGCTGCGGCC ACTCCTTGTC
    TTCATCTGGG CCAAAATCCT CGCTGTGGAC AGTTCATGCC AGGCTGACCT CGTGAAGGAC
    AACGGTCACA AGTACTTCCT GTCCGTCTTG GCAGACCCAT ACATGCCAGC TGAACACAGG
    ACCATGACAG CCTTCATTCT TGCTGTAATC GTCAACAGCT ACACAACAGG GCAAGAAGCC
    TGCCTGCAGG GGAACCTGAT TGCCATCTGT TTGGAGCAGC TCAGTGACCC ACACCCCTTG
    CTACGCCAGT GGGTGGCCAT TTGCCTGGGA AGGATCTGGC AGAACTTTGA TTCTGCAAGG
    TGGTGTGGGG TGAGAGACAG CGCCCACGAA AAACTCTATA GCCTCCTCTC CGACCCCATC
    CCTGAGGTAC GATGTGCAGC TGTGTTTGCC CTTGGTACCT TTGTGGGAAA CTCTGCTGAG
    AGGACAGACC ACTCTACTAC CATTGACCAC AATGTGGCCA TGATGCTGGC TCAGCTGATT
    AATGATGGAA GCCCCATGGT CCGGAAGGAG CTGGTGGTGG CTCTGAGTCA CCTTGTAGTC
    CAATATGAGA GCAATTTCTG CACTGTGGCC CTGCAGTTCA TGGAAGAGGA AAAGAACTAC
    CCCTTGCCTT CTCCAGCAGC CACAGAGGGA GGGAGCTTGA CTCCAGTTCG AGACAGCCCG
    TGCACCCCCA GACTCCGGTC AGTGAGCTCC TATGGGAACA TCCGAGCCGT CACCACAGCT
    AGGAACCTGA ACAAATCTTT GCAGAACCTG AGCTTGACGG AAGAATCGGG CAGCTCAGTG
    GCCTTCTCTC CCGGGAACCT CAGTACAAGT AGTAGTGCCA GCAGCACCTT GGGAAGCCCT
    GAGAACGAGG AGTATATCCT GTCCTTCGAG ACCATCGACA AGATGCGGCG TGTGAGCTCC
    TATTCAGCGC TCAACTCCCT CATAGGAGTC TCCTTTAATA GTGTCTACAC TCAGATTTGG
    AGAGTCTTAC TGCATTTGGC CGCTGATCCC TACCCAGATG TTTCTGACTT AGCCATGAAA
    GTCCTCAACA GCATTGCTTA CAAGGCCACA GTCAACGCCC GGCCCCAGCG AATCCTCGAC
    ACATCCTCTC TCACACAGTC GGCCCCAGCC AGCCCAACCA ACAAGGGCAT GCACATCCAC
    CAGGTGGGAG GCTCCCCGCC AGCATCTAGC ACCAGCAGCT GCAGCCTGAC CAATGATGTG
    GCCAAGCAGA CGGTCAGCCG TGACCTGCCC TCCAGCCGCC CGGGTACTGC CGGCCCCACA
    GGGGCACAGT ACACCCCTCA CTCCCACCAG TTCCCTCGTA CACGAAAGAT GTTTGACAAA
    GGCCCTGATC AGACCACAGA CGATGCAGAT GATGCTGCCG GACACAAGAG CTTCATTTGT
    GCCACTATGC AGACGGGGTT CTGTGACTGG AGTGCCCGCT ACTTTGCCCA GCCGGTCATG
    AAGATCCCTG AAGAGCATGA CCTAGAGAGT CAGATCCGCA AGGAGCGTGA GTGGCGGTTC
    CTGAGGAACA CTCGAGTCAG GAAGCAGGCA CAGCAGGTCA TCCAGAAGGG CATCACCAGA
    CTGGATGATC AGATATTTCT GAACAGGAAC CCCGGCGTTC CCTCTGTGGT CAAATTCCAC
    CCCTTTACAC CATGCATAGC TGTTGCTGAC AAGGACAGCA TCTGTTTTTG GGACTGGGAG
    AAAGGAGAGA AACTGGACTA CTTCCACAAT GGTAACCCTC GGTACACCAG AGTCACTGCT
    ATGGAGTACC TGAATGGGCA GGACTGCTCC TTGCTGCTGA CAGCCACAGA CGATGGAGCC
    ATCAGGGTCT GGAAAAATTT TGCTGATTTG GAAAAGAATC CAGAGATGGT GACTGCGTGG
    CAAGGGCTCT CAGACATGCT TCCAACAACA CGAGGAGCTG GGATGGTGGT GGACTGGGAA
    CAAGAAACTG GCCTCCTCAT GAGCTCAGGG GACGTGCGCA TTGTCCGGAT CTGGGATACC
    GACCGGGAGA CGAAGGTCCA GGACATCCCC ACGGGGGCCG ACAGCTGTGT GACAAGTTTA
    TCTTGTGATT CGCACCGCTC ACTCATTGTA GCTGGCCTGG GTGATGGCTC GATCCGTGTC
    TACGACAGGA GGATGGCACT CAGTGAATGC CGGGTCATGA CTTACCGAGA GCACACAGCA
    TGGGTGGTAA AGGCCTACCT GCAGAAGCAC CCTGAGGGCC ACATCGTGAG TGTGAGTGTC
    AATGGAGATG TGCGATTCTT CGATCCTCGG ATGCCTGAGT CTGTGAATGT AATGCAGATT
    GTGAAGGGGC TGACAGCCCT CGACATCCAC CCCCAGGCAA ACCTGATCGC CTGTGGCTCC
    ATGAACCAGT TCACAGCCAT CTACAACGGC AATGGGGAGC TGATCAACAA CATCAAATAC
    TACGATGGCT TCATGGGCCA GCGAGTCGGG GCCATCAGCT GCCTGGCTTT CCACCCACAC
    TGGCCTCATC TGGCCGTCGG AAGCAATGAC TACTACATTT CTGTATATTC GGTGGAGAAG
    CGTGTCAGAT AG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_017452653.1
    CDS567..4298
    Translation

    Target ORF information:

    RefSeq Version XM_017597164.1
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus regulatory associated protein of MTOR, complex 1 (Rptor), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017597164.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGGGTCCTC AGAAAGCTCT GGAAACCATC GGTGCAAATC TACAGAAGCA GTATGAGAAC 
    TGGCAGCCAA GGGCTCGGTA CAAGCAGAGC CTTGACCCCA CTGTGGATGA AGTCAAGAAA
    CTTTGCACAT CTCTGCGTCG GAACGCCAAG GAGGAACGGG TCCTCTTCCA CTATAATGGC
    CATGGGGTGC CCAGGCCTAC GGTGAATGGA GAGGTCTGGG TCTTCAACAA GAACTACACT
    CAGTACATCC CACTGTCCAT ATATGACCTG CAGACGTGGA TGGGCAGCCC ATCCATCTTT
    GTCTACGACT GCTCCAATGC TGGCCTCATC GTCAAGTCCT TCAAACAGTT CGCACTGCAG
    AGGGAGCAGG AACTAGAGGT AGCTGCAATT AACCCAAACC ATCCACTTGC CCAGATGCCC
    TTGCCTCCCT CAATGAAAAA CTGCATCCAG CTGGCAGCCT GTGAGGCCCA CGAGCTCCTG
    CCGATGATCC CTGACCTCCC AGCCGACCTG TTCACATCCT GCCTCACCAC TCCCATCAAG
    ATTGCTTTGC GCTGGTTTTG CATGCAGAAG TGTGTTAGTC TGGTGCCTGG AGTCACACTG
    GATTTGATAG AAAAGATCCC TGGCCGGCTG AATGACCGGA GAACCCCTCT GGGTGAACTG
    AACTGGATCT TCACAGCCAT CACAGACACC ATCGCCTGGA ATGTGCTCCC TCGGGATCTC
    TTTCAAAAGC TTTTCCGACA GGACCTGCTG GTGGCAAGTT TGTTTAGAAA TTTTTTATTG
    GCAGAAAGAA TCATGAGGTC GTATAACTGC ACCCCAGTAA GCAGCCCACG ACTTCCCCCA
    ACATACATGC ATGCCATGTG GCAGGCCTGG GACCTTGCTG TGGACATTTG CCTCTCTCAA
    CTGCCAACCA TCATCGAAGA GGGAACTGCC TTCAGGCACA GCCCATTCTT TGCTGAGCAG
    CTGACGGCAT TCCAGGTGTG GCTCACCATG GGTGTGGAAA ACAGGAGCCC CCCCGAGCAG
    CTGCCCATCG TCCTACAGGT GCTGCTAAGC CAGGTGCACC GGCTGAGAGC CTTGGACTTG
    CTGGGACGAT TTTTGGACTT GGGCCCTTGG GCGGTGAGCT TGGCCCTGTC GGTGGGCATC
    TTCCCCTATG TACTGAAGCT GCTTCAGAGC TCGGCCCGAG AGCTGCGGCC ACTCCTTGTC
    TTCATCTGGG CCAAAATCCT CGCTGTGGAC AGTTCATGCC AGGCTGACCT CGTGAAGGAC
    AACGGTCACA AGTACTTCCT GTCCGTCTTG GCAGACCCAT ACATGCCAGC TGAACACAGG
    ACCATGACAG CCTTCATTCT TGCTGTAATC GTCAACAGCT ACACAACAGG GCAAGAAGCC
    TGCCTGCAGG GGAACCTGAT TGCCATCTGT TTGGAGCAGC TCAGTGACCC ACACCCCTTG
    CTACGCCAGT GGGTGGCCAT TTGCCTGGGA AGGATCTGGC AGAACTTTGA TTCTGCAAGG
    TGGTGTGGGG TGAGAGACAG CGCCCACGAA AAACTCTATA GCCTCCTCTC CGACCCCATC
    CCTGAGGTAC GATGTGCAGC TGTGTTTGCC CTTGGTACCT TTGTGGGAAA CTCTGCTGAG
    AGGACAGACC ACTCTACTAC CATTGACCAC AATGTGGCCA TGATGCTGGC TCAGCTGATT
    AATGATGGAA GCCCCATGGT CCGGAAGGAG CTGGTGGTGG CTCTGAGTCA CCTTGTAGTC
    CAATATGAGA GCAATTTCTG CACTGTGGCC CTGCAGTTCA TGGAAGAGGA AAAGAACTAC
    CCCTTGCCTT CTCCAGCAGC CACAGAGGGA GGGAGCTTGA CTCCAGTTCG AGACAGCCCG
    TGCACCCCCA GACTCCGGTC AGTGAGCTCC TATGGGAACA TCCGAGCCGT CACCACAGCT
    AGGAACCTGA ACAAATCTTT GCAGAACCTG AGCTTGACGG AAGAATCGGG CAGCTCAGTG
    GCCTTCTCTC CCGGGAACCT CAGTACAAGT AGTAGTGCCA GCAGCACCTT GGGAAGCCCT
    GAGAACGAGG AGTATATCCT GTCCTTCGAG ACCATCGACA AGATGCGGCG TGTGAGCTCC
    TATTCAGCGC TCAACTCCCT CATAGGAGTC TCCTTTAATA GTGTCTACAC TCAGATTTGG
    AGAGTCTTAC TGCATTTGGC CGCTGATCCC TACCCAGATG TTTCTGACTT AGCCATGAAA
    GTCCTCAACA GCATTGCTTA CAAGGCCACA GTCAACGCCC GGCCCCAGCG AATCCTCGAC
    ACATCCTCTC TCACACAGTC GGCCCCAGCC AGCCCAACCA ACAAGGGCAT GCACATCCAC
    CAGGTGGGAG GCTCCCCGCC AGCATCTAGC ACCAGCAGCT GCAGCCTGAC CAATGATGTG
    GCCAAGCAGA CGGTCAGCCG TGACCTGCCC TCCAGCCGCC CGGGTACTGC CGGCCCCACA
    GGGGCACAGT ACACCCCTCA CTCCCACCAG TTCCCTCGTA CACGAAAGAT GTTTGACAAA
    GGCCCTGATC AGACCACAGA CGATGCAGAT GATGCTGCCG GACACAAGAG CTTCATTTGT
    GCCACTATGC AGACGGGGTT CTGTGACTGG AGTGCCCGCT ACTTTGCCCA GCCGGTCATG
    AAGATCCCTG AAGAGCATGA CCTAGAGAGT CAGATCCGCA AGGAGCGTGA GTGGCGGTTC
    CTGAGGAACA CTCGAGTCAG GAAGCAGGCA CAGCAGGTCA TCCAGAAGGG CATCACCAGA
    CTGGATGATC AGATATTTCT GAACAGGAAC CCCGGCGTTC CCTCTGTGGT CAAATTCCAC
    CCCTTTACAC CATGCATAGC TGTTGCTGAC AAGGACAGCA TCTGTTTTTG GGACTGGGAG
    AAAGGAGAGA AACTGGACTA CTTCCACAAT GGTAACCCTC GGTACACCAG AGTCACTGCT
    ATGGAGTACC TGAATGGGCA GGACTGCTCC TTGCTGCTGA CAGCCACAGA CGATGGAGCC
    ATCAGGGTCT GGAAAAATTT TGCTGATTTG GAAAAGAATC CAGAGATGGT GACTGCGTGG
    CAAGGGCTCT CAGACATGCT TCCAACAACA CGAGGAGCTG GGATGGTGGT GGACTGGGAA
    CAAGAAACTG GCCTCCTCAT GAGCTCAGGG GACGTGCGCA TTGTCCGGAT CTGGGATACC
    GACCGGGAGA CGAAGGTCCA GGACATCCCC ACGGGGGCCG ACAGCTGTGT GACAAGTTTA
    TCTTGTGATT CGCACCGCTC ACTCATTGTA GCTGGCCTGG GTGATGGCTC GATCCGTGTC
    TACGACAGGA GGATGGCACT CAGTGAATGC CGGGTCATGA CTTACCGAGA GCACACAGCA
    TGGGTGGTAA AGGCCTACCT GCAGAAGCAC CCTGAGGGCC ACATCGTGAG TGTGAGTGTC
    AATGGAGATG TGCGATTCTT CGATCCTCGG ATGCCTGAGT CTGTGAATGT AATGCAGATT
    GTGAAGGGGC TGACAGCCCT CGACATCCAC CCCCAGGCAA ACCTGATCGC CTGTGGCTCC
    ATGAACCAGT TCACAGCCAT CTACAACGGC AATGGGGAGC TGATCAACAA CATCAAATAC
    TACGATGGCT TCATGGGCCA GCGAGTCGGG GCCATCAGCT GCCTGGCTTT CCACCCACAC
    TGGCCTCATC TGGCCGTCGG AAGCAATGAC TACTACATTT CTGTATATTC GGTGGAGAAG
    CGTGTCAGAT AG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID ORa03034
    Clone ID Related Accession (Same CDS sequence) NM_001134499.2
    Accession Version NM_001134499.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4008bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2018-05-27
    Organism Rattus norvegicus(Norway rat)
    Product regulatory-associated protein of mTOR
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AABR07030912.1 and AABR07030914.1. On Oct 1, 2009 this sequence version replaced NM_001134499.1. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMD00052296, SAMD00052297 [ECO:0000348] ##Evidence-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    ATGGAGTCGG AGATGCTGCA GTCGCCTCTT ATGGGACTCG GGGAGGAAGA TGAGGCAGAC 
    CTTACAGATT GGAACTTGCC TTTGGCGTTT ATGAAAAAGA GACATTGTGA GAAAATTGAA
    GGCTCCAAAT CTTTAGCACA GAGCTGGAGA ATGAAGGATC GGATGAAGAC CGTCAGTGTG
    GCCTTGGTCC TGTGCCTGAA TGTGGGTGTG GATCCTCCAG ATGTGGTGAA GACCACACCT
    TGTGCTCGAT TGGAATGCTG GATTGATCCT CTGTCTATGG GTCCTCAGAA AGCTCTGGAA
    ACCATCGGTG CAAATCTACA GAAGCAGTAT GAGAACTGGC AGCCAAGGGC TCGGTACAAG
    CAGAGCCTTG ACCCCACTGT GGATGAAGTC AAGAAACTTT GCACATCTCT GCGTCGGAAC
    GCCAAGGAGG AACGGGTCCT CTTCCACTAT AATGGCCATG GGGTGCCCAG GCCTACGGTG
    AATGGAGAGG TCTGGGTCTT CAACAAGAAC TACACTCAGT ACATCCCACT GTCCATATAT
    GACCTGCAGA CGTGGATGGG CAGCCCATCC ATCTTTGTCT ACGACTGCTC CAATGCTGGC
    CTCATCGTCA AGTCCTTCAA ACAGTTCGCA CTGCAGAGGG AGCAGGAACT AGAGGTAGCT
    GCAATTAACC CAAACCATCC ACTTGCCCAG ATGCCCTTGC CTCCCTCAAT GAAAAACTGC
    ATCCAGCTGG CAGCCTGTGA GGCCCACGAG CTCCTGCCGA TGATCCCTGA CCTCCCAGCC
    GACCTGTTCA CATCCTGCCT CACCACTCCC ATCAAGATTG CTTTGCGCTG GTTTTGCATG
    CAGAAGTGTG TTAGTCTGGT GCCTGGAGTC ACACTGGATT TGATAGAAAA GATCCCTGGC
    CGGCTGAATG ACCGGAGAAC CCCTCTGGGT GAACTGAACT GGATCTTCAC AGCCATCACA
    GACACCATCG CCTGGAATGT GCTCCCTCGG GATCTCTTTC AAAAGCTTTT CCGACAGGAC
    CTGCTGGTGG CAAGTTTGTT TAGAAATTTT TTATTGGCAG AAAGAATCAT GAGGTCGTAT
    AACTGCACCC CAGTAAGCAG CCCACGACTT CCCCCAACAT ACATGCATGC CATGTGGCAG
    GCCTGGGACC TTGCTGTGGA CATTTGCCTC TCTCAACTGC CAACCATCAT CGAAGAGGGA
    ACTGCCTTCA GGCACAGCCC ATTCTTTGCT GAGCAGCTGA CGGCATTCCA GGTGTGGCTC
    ACCATGGGTG TGGAAAACAG GAGCCCCCCC GAGCAGCTGC CCATCGTCCT ACAGGTGCTG
    CTAAGCCAGG TGCACCGGCT GAGAGCCTTG GACTTGCTGG GACGATTTTT GGACTTGGGC
    CCTTGGGCGG TGAGCTTGGC CCTGTCGGTG GGCATCTTCC CCTATGTACT GAAGCTGCTT
    CAGAGCTCGG CCCGAGAGCT GCGGCCACTC CTTGTCTTCA TCTGGGCCAA AATCCTCGCT
    GTGGACAGTT CATGCCAGGC TGACCTCGTG AAGGACAACG GTCACAAGTA CTTCCTGTCC
    GTCTTGGCAG ACCCATACAT GCCAGCTGAA CACAGGACCA TGACAGCCTT CATTCTTGCT
    GTAATCGTCA ACAGCTACAC AACAGGGCAA GAAGCCTGCC TGCAGGGGAA CCTGATTGCC
    ATCTGTTTGG AGCAGCTCAG TGACCCACAC CCCTTGCTAC GCCAGTGGGT GGCCATTTGC
    CTGGGAAGGA TCTGGCAGAA CTTTGATTCT GCAAGGTGGT GTGGGGTGAG AGACAGCGCC
    CACGAAAAAC TCTATAGCCT CCTCTCCGAC CCCATCCCTG AGGTACGATG TGCAGCTGTG
    TTTGCCCTTG GTACCTTTGT GGGAAACTCT GCTGAGAGGA CAGACCACTC TACTACCATT
    GACCACAATG TGGCCATGAT GCTGGCTCAG CTGATTAATG ATGGAAGCCC CATGGTCCGG
    AAGGAGCTGG TGGTGGCTCT GAGTCACCTT GTAGTCCAAT ATGAGAGCAA TTTCTGCACT
    GTGGCCCTGC AGTTCATGGA AGAGGAAAAG AACTACCCCT TGCCTTCTCC AGCAGCCACA
    GAGGGAGGGA GCTTGACTCC AGTTCGAGAC AGCCCGTGCA CCCCCAGACT CCGGTCAGTG
    AGCTCCTATG GGAACATCCG AGCCGTCACC ACAGCTAGGA ACCTGAACAA ATCTTTGCAG
    AACCTGAGCT TGACGGAAGA ATCGGGCAGC TCAGTGGCCT TCTCTCCCGG GAACCTCAGT
    ACAAGTAGTA GTGCCAGCAG CACCTTGGGA AGCCCTGAGA ACGAGGAGTA TATCCTGTCC
    TTCGAGACCA TCGACAAGAT GCGGCGTGTG AGCTCCTATT CAGCGCTCAA CTCCCTCATA
    GGAGTCTCCT TTAATAGTGT CTACACTCAG ATTTGGAGAG TCTTACTGCA TTTGGCCGCT
    GATCCCTACC CAGATGTTTC TGACTTAGCC ATGAAAGTCC TCAACAGCAT TGCTTACAAG
    GCCACAGTCA ACGCCCGGCC CCAGCGAATC CTCGACACAT CCTCTCTCAC ACAGTCGGCC
    CCAGCCAGCC CAACCAACAA GGGCATGCAC ATCCACCAGG TGGGAGGCTC CCCGCCAGCA
    TCTAGCACCA GCAGCTGCAG CCTGACCAAT GATGTGGCCA AGCAGACGGT CAGCCGTGAC
    CTGCCCTCCA GCCGCCCGGG TACTGCCGGC CCCACAGGGG CACAGTACAC CCCTCACTCC
    CACCAGTTCC CTCGTACACG AAAGATGTTT GACAAAGGCC CTGATCAGAC CACAGACGAT
    GCAGATGATG CTGCCGGACA CAAGAGCTTC ATTTGTGCCA CTATGCAGAC GGGGTTCTGT
    GACTGGAGTG CCCGCTACTT TGCCCAGCCG GTCATGAAGA TCCCTGAAGA GCATGACCTA
    GAGAGTCAGA TCCGCAAGGA GCGTGAGTGG CGGTTCCTGA GGAACACTCG AGTCAGGAAG
    CAGGCACAGC AGGTCATCCA GAAGGGCATC ACCAGACTGG ATGATCAGAT ATTTCTGAAC
    AGGAACCCCG GCGTTCCCTC TGTGGTCAAA TTCCACCCCT TTACACCATG CATAGCTGTT
    GCTGACAAGG ACAGCATCTG TTTTTGGGAC TGGGAGAAAG GAGAGAAACT GGACTACTTC
    CACAATGGTA ACCCTCGGTA CACCAGAGTC ACTGCTATGG AGTACCTGAA TGGGCAGGAC
    TGCTCCTTGC TGCTGACAGC CACAGACGAT GGAGCCATCA GGGTCTGGAA AAATTTTGCT
    GATTTGGAAA AGAATCCAGA GATGGTGACT GCGTGGCAAG GGCTCTCAGA CATGCTTCCA
    ACAACACGAG GAGCTGGGAT GGTGGTGGAC TGGGAACAAG AAACTGGCCT CCTCATGAGC
    TCAGGGGACG TGCGCATTGT CCGGATCTGG GATACCGACC GGGAGACGAA GGTCCAGGAC
    ATCCCCACGG GGGCCGACAG CTGTGTGACA AGTTTATCTT GTGATTCGCA CCGCTCACTC
    ATTGTAGCTG GCCTGGGTGA TGGCTCGATC CGTGTCTACG ACAGGAGGAT GGCACTCAGT
    GAATGCCGGG TCATGACTTA CCGAGAGCAC ACAGCATGGG TGGTAAAGGC CTACCTGCAG
    AAGCACCCTG AGGGCCACAT CGTGAGTGTG AGTGTCAATG GAGATGTGCG ATTCTTCGAT
    CCTCGGATGC CTGAGTCTGT GAATGTAATG CAGATTGTGA AGGGGCTGAC AGCCCTCGAC
    ATCCACCCCC AGGCAAACCT GATCGCCTGT GGCTCCATGA ACCAGTTCAC AGCCATCTAC
    AACGGCAATG GGGAGCTGAT CAACAACATC AAATACTACG ATGGCTTCAT GGGCCAGCGA
    GTCGGGGCCA TCAGCTGCCT GGCTTTCCAC CCACACTGGC CTCATCTGGC CGTCGGAAGC
    AATGACTACT ACATTTCTGT ATATTCGGTG GAGAAGCGTG TCAGATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001127971.2
    CDS914..4921
    Translation

    Target ORF information:

    RefSeq Version NM_001134499.2
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus regulatory associated protein of MTOR, complex 1 (Rptor), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001134499.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    ATGGAGTCGG AGATGCTGCA GTCGCCTCTT ATGGGACTCG GGGAGGAAGA TGAGGCAGAC 
    CTTACAGATT GGAACTTGCC TTTGGCGTTT ATGAAAAAGA GACATTGTGA GAAAATTGAA
    GGCTCCAAAT CTTTAGCACA GAGCTGGAGA ATGAAGGATC GGATGAAGAC CGTCAGTGTG
    GCCTTGGTCC TGTGCCTGAA TGTGGGTGTG GATCCTCCAG ATGTGGTGAA GACCACACCT
    TGTGCTCGAT TGGAATGCTG GATTGATCCT CTGTCTATGG GTCCTCAGAA AGCTCTGGAA
    ACCATCGGTG CAAATCTACA GAAGCAGTAT GAGAACTGGC AGCCAAGGGC TCGGTACAAG
    CAGAGCCTTG ACCCCACTGT GGATGAAGTC AAGAAACTTT GCACATCTCT GCGTCGGAAC
    GCCAAGGAGG AACGGGTCCT CTTCCACTAT AATGGCCATG GGGTGCCCAG GCCTACGGTG
    AATGGAGAGG TCTGGGTCTT CAACAAGAAC TACACTCAGT ACATCCCACT GTCCATATAT
    GACCTGCAGA CGTGGATGGG CAGCCCATCC ATCTTTGTCT ACGACTGCTC CAATGCTGGC
    CTCATCGTCA AGTCCTTCAA ACAGTTCGCA CTGCAGAGGG AGCAGGAACT AGAGGTAGCT
    GCAATTAACC CAAACCATCC ACTTGCCCAG ATGCCCTTGC CTCCCTCAAT GAAAAACTGC
    ATCCAGCTGG CAGCCTGTGA GGCCCACGAG CTCCTGCCGA TGATCCCTGA CCTCCCAGCC
    GACCTGTTCA CATCCTGCCT CACCACTCCC ATCAAGATTG CTTTGCGCTG GTTTTGCATG
    CAGAAGTGTG TTAGTCTGGT GCCTGGAGTC ACACTGGATT TGATAGAAAA GATCCCTGGC
    CGGCTGAATG ACCGGAGAAC CCCTCTGGGT GAACTGAACT GGATCTTCAC AGCCATCACA
    GACACCATCG CCTGGAATGT GCTCCCTCGG GATCTCTTTC AAAAGCTTTT CCGACAGGAC
    CTGCTGGTGG CAAGTTTGTT TAGAAATTTT TTATTGGCAG AAAGAATCAT GAGGTCGTAT
    AACTGCACCC CAGTAAGCAG CCCACGACTT CCCCCAACAT ACATGCATGC CATGTGGCAG
    GCCTGGGACC TTGCTGTGGA CATTTGCCTC TCTCAACTGC CAACCATCAT CGAAGAGGGA
    ACTGCCTTCA GGCACAGCCC ATTCTTTGCT GAGCAGCTGA CGGCATTCCA GGTGTGGCTC
    ACCATGGGTG TGGAAAACAG GAGCCCCCCC GAGCAGCTGC CCATCGTCCT ACAGGTGCTG
    CTAAGCCAGG TGCACCGGCT GAGAGCCTTG GACTTGCTGG GACGATTTTT GGACTTGGGC
    CCTTGGGCGG TGAGCTTGGC CCTGTCGGTG GGCATCTTCC CCTATGTACT GAAGCTGCTT
    CAGAGCTCGG CCCGAGAGCT GCGGCCACTC CTTGTCTTCA TCTGGGCCAA AATCCTCGCT
    GTGGACAGTT CATGCCAGGC TGACCTCGTG AAGGACAACG GTCACAAGTA CTTCCTGTCC
    GTCTTGGCAG ACCCATACAT GCCAGCTGAA CACAGGACCA TGACAGCCTT CATTCTTGCT
    GTAATCGTCA ACAGCTACAC AACAGGGCAA GAAGCCTGCC TGCAGGGGAA CCTGATTGCC
    ATCTGTTTGG AGCAGCTCAG TGACCCACAC CCCTTGCTAC GCCAGTGGGT GGCCATTTGC
    CTGGGAAGGA TCTGGCAGAA CTTTGATTCT GCAAGGTGGT GTGGGGTGAG AGACAGCGCC
    CACGAAAAAC TCTATAGCCT CCTCTCCGAC CCCATCCCTG AGGTACGATG TGCAGCTGTG
    TTTGCCCTTG GTACCTTTGT GGGAAACTCT GCTGAGAGGA CAGACCACTC TACTACCATT
    GACCACAATG TGGCCATGAT GCTGGCTCAG CTGATTAATG ATGGAAGCCC CATGGTCCGG
    AAGGAGCTGG TGGTGGCTCT GAGTCACCTT GTAGTCCAAT ATGAGAGCAA TTTCTGCACT
    GTGGCCCTGC AGTTCATGGA AGAGGAAAAG AACTACCCCT TGCCTTCTCC AGCAGCCACA
    GAGGGAGGGA GCTTGACTCC AGTTCGAGAC AGCCCGTGCA CCCCCAGACT CCGGTCAGTG
    AGCTCCTATG GGAACATCCG AGCCGTCACC ACAGCTAGGA ACCTGAACAA ATCTTTGCAG
    AACCTGAGCT TGACGGAAGA ATCGGGCAGC TCAGTGGCCT TCTCTCCCGG GAACCTCAGT
    ACAAGTAGTA GTGCCAGCAG CACCTTGGGA AGCCCTGAGA ACGAGGAGTA TATCCTGTCC
    TTCGAGACCA TCGACAAGAT GCGGCGTGTG AGCTCCTATT CAGCGCTCAA CTCCCTCATA
    GGAGTCTCCT TTAATAGTGT CTACACTCAG ATTTGGAGAG TCTTACTGCA TTTGGCCGCT
    GATCCCTACC CAGATGTTTC TGACTTAGCC ATGAAAGTCC TCAACAGCAT TGCTTACAAG
    GCCACAGTCA ACGCCCGGCC CCAGCGAATC CTCGACACAT CCTCTCTCAC ACAGTCGGCC
    CCAGCCAGCC CAACCAACAA GGGCATGCAC ATCCACCAGG TGGGAGGCTC CCCGCCAGCA
    TCTAGCACCA GCAGCTGCAG CCTGACCAAT GATGTGGCCA AGCAGACGGT CAGCCGTGAC
    CTGCCCTCCA GCCGCCCGGG TACTGCCGGC CCCACAGGGG CACAGTACAC CCCTCACTCC
    CACCAGTTCC CTCGTACACG AAAGATGTTT GACAAAGGCC CTGATCAGAC CACAGACGAT
    GCAGATGATG CTGCCGGACA CAAGAGCTTC ATTTGTGCCA CTATGCAGAC GGGGTTCTGT
    GACTGGAGTG CCCGCTACTT TGCCCAGCCG GTCATGAAGA TCCCTGAAGA GCATGACCTA
    GAGAGTCAGA TCCGCAAGGA GCGTGAGTGG CGGTTCCTGA GGAACACTCG AGTCAGGAAG
    CAGGCACAGC AGGTCATCCA GAAGGGCATC ACCAGACTGG ATGATCAGAT ATTTCTGAAC
    AGGAACCCCG GCGTTCCCTC TGTGGTCAAA TTCCACCCCT TTACACCATG CATAGCTGTT
    GCTGACAAGG ACAGCATCTG TTTTTGGGAC TGGGAGAAAG GAGAGAAACT GGACTACTTC
    CACAATGGTA ACCCTCGGTA CACCAGAGTC ACTGCTATGG AGTACCTGAA TGGGCAGGAC
    TGCTCCTTGC TGCTGACAGC CACAGACGAT GGAGCCATCA GGGTCTGGAA AAATTTTGCT
    GATTTGGAAA AGAATCCAGA GATGGTGACT GCGTGGCAAG GGCTCTCAGA CATGCTTCCA
    ACAACACGAG GAGCTGGGAT GGTGGTGGAC TGGGAACAAG AAACTGGCCT CCTCATGAGC
    TCAGGGGACG TGCGCATTGT CCGGATCTGG GATACCGACC GGGAGACGAA GGTCCAGGAC
    ATCCCCACGG GGGCCGACAG CTGTGTGACA AGTTTATCTT GTGATTCGCA CCGCTCACTC
    ATTGTAGCTG GCCTGGGTGA TGGCTCGATC CGTGTCTACG ACAGGAGGAT GGCACTCAGT
    GAATGCCGGG TCATGACTTA CCGAGAGCAC ACAGCATGGG TGGTAAAGGC CTACCTGCAG
    AAGCACCCTG AGGGCCACAT CGTGAGTGTG AGTGTCAATG GAGATGTGCG ATTCTTCGAT
    CCTCGGATGC CTGAGTCTGT GAATGTAATG CAGATTGTGA AGGGGCTGAC AGCCCTCGAC
    ATCCACCCCC AGGCAAACCT GATCGCCTGT GGCTCCATGA ACCAGTTCAC AGCCATCTAC
    AACGGCAATG GGGAGCTGAT CAACAACATC AAATACTACG ATGGCTTCAT GGGCCAGCGA
    GTCGGGGCCA TCAGCTGCCT GGCTTTCCAC CCACACTGGC CTCATCTGGC CGTCGGAAGC
    AATGACTACT ACATTTCTGT ATATTCGGTG GAGAAGCGTG TCAGATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.