Stard13 cDNA ORF clone, Rattus norvegicus(Norway rat)

The following Stard13 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Stard13 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
ORa57878 XM_017598426.1
Latest version!
Rattus norvegicus StAR-related lipid transfer domain containing 13 (Stard13), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
ORa57878 XM_017598427.1
Latest version!
Rattus norvegicus StAR-related lipid transfer domain containing 13 (Stard13), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
ORa57878 XM_017598423.1
Latest version!
Rattus norvegicus StAR-related lipid transfer domain containing 13 (Stard13), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
ORa57878 XM_017598425.1
Latest version!
Rattus norvegicus StAR-related lipid transfer domain containing 13 (Stard13), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
ORa57878 XM_017598424.1
Latest version!
Rattus norvegicus StAR-related lipid transfer domain containing 13 (Stard13), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
ORa57879 XM_017598428.1
Latest version!
Rattus norvegicus StAR-related lipid transfer domain containing 13 (Stard13), transcript variant X11, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
ORa57880 XM_017598429.1
Latest version!
Rattus norvegicus StAR-related lipid transfer domain containing 13 (Stard13), transcript variant X12, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
ORa13354 NM_001109060.1
Latest version!
Rattus norvegicus StAR-related lipid transfer domain containing 13 (Stard13), mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
ORa34519 XM_006248743.3
Latest version!
Rattus norvegicus StAR-related lipid transfer domain containing 13 (Stard13), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
ORa34524 XM_006248749.3
Latest version!
Rattus norvegicus StAR-related lipid transfer domain containing 13 (Stard13), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
ORa34524 XM_008768989.2
Latest version!
Rattus norvegicus StAR-related lipid transfer domain containing 13 (Stard13), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
ORa34524 XM_008768990.2
Latest version!
Rattus norvegicus StAR-related lipid transfer domain containing 13 (Stard13), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
ORa34525 XM_008768991.1
Latest version!
Rattus norvegicus StAR-related lipid transfer domain containing 13 (Stard13), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00

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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 ORa57878
    Clone ID Related Accession (Same CDS sequence) XM_017598426.1 , XM_017598425.1 , XM_017598423.1 , XM_017598424.1 , XM_017598427.1
    Accession Version XM_017598426.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3291bp)
    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 stAR-related lipid transfer protein 13 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005111.4) 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
    ATGTCAGCTG GAGTTCGGCC AAAGCTTAAG GTTCTCTCTG ACAGCCAAAG CAAAGAAAGA 
    GAAGAAATCG AGGCGAAGGA AGCATGTGAC TGGCTGCGAG CTGCCGGGTT CCCACAGTAC
    GCTCAGCTGT ATGAAGATTC GCAGTTTCCC ATCAACATTG CGGCTGTCAA AAAAGACCAT
    GATTTTCTTG AAAGGGACCT TGTAGAACCT CTTTGCAGAC GACTTAATAC GTTGAACAAG
    TGTGCCTCAA TGAGACTTGA TGTGAACTTC CAAAGGAAAA AGGGCGACGA CTCAGATGAG
    GAAGACCTGT GCATCAGCAA CAAATGGACT TTCCAGAGAA CCAGCCGCAG GTGGTCCCGT
    GTGGATGACC TGCATCCGCT CCTCCCCGGG GCAGACAGAA ACGGGTCCCC AGGAGGCCCT
    AGGATGAGAA ACACGGCCAG CAGTGAAAGC GTGCTCACAG ATCTGAGCGA GCCTGAGGTC
    TGCTCCATCC ACAGCGAAAG CAGCGGAGGC AGCGACGGCC GCGGCCAATC GGGGCATCAT
    TTTGCTGATG GCACGCCTGT GCTGGAGGGC ACCCTAGTCG GTGGCAGCCT CCCGCAGTCT
    CCCCGAGACA GTCTCAGCCA GTCTTTTCAC CCCAAGAATG AGAAACCCAC CAGGACCAGG
    GCCAAGTCAT TTCTGAGACG CATGGATACC CTGAGAGTGA AGGGAGCACT CGGGAGGCAT
    AAGGGACCAG GGCGAACAGG AGGCCTCGTT ATCAGCAGGC CCATGCTGCA GCAGGAGCCA
    GAGTCCTTTA AGACCATGCA GCATGTCCAG ATACCCAACG GAGATCTGCA GACCTCACCA
    CCAGCTGCCT GCAAGAAAGG CCTTCCAGGC TCCAGTAAAT CAAGCGGTGA GAACAGCCCC
    TTGGAGAGCA GCCGTGTGAG CACCCCATGT ATGAAGGAAC GCAAGTGCCA ACACGAGGCC
    AACAAGCGCG GTGGCATGTA CCTGGAGGAC CTGGATGTGC TGGCAGGGAC GACATTACCA
    GACACAGGGG ACCAAAACCA CATACACGGG TTTCACTCGC AAGAGAACCT GGTGGTCCAT
    GTTCCCAAGG ATCACAAACC AGGAACATTC CCCAAGGCAC TGTCTATAGA AAGCCTCTCG
    CCCACAGACA GCAGCAATGG GGTTAACTGG AGGACTGGGA GTATCTCCCT GGGCAGGCAA
    CAGGGCCCTG GCATAAGGGA ACCTAGACTC GTGTCATCCT GCCACAGGGC CAGCAGAGTC
    AGTATCTATG ACAACGTGCC CAGCTCACAT CTGTATGCCA GCACTGGAGA TCTGTTGGAC
    TTGGAGAAAG ACGGGCTCCT TCCACAGCTG GATGACATTA TACAGCATGT CAATGGCATA
    CAAGAGGTAG TGGATGACTG GTCAAGAAAT ATCTTGCCTG AACTGCAAAG TCACGATGCA
    GTGGCAGGGG ACCCTGGTCA ACCCCCATTT CAGTCTCCTC ATCAGATCAC TTTAGATTTT
    GAAGGCAACT CTGTCTCGGA AGGTCAGACA ACACCTAGTG ATGTGGAAAG GGACAGGACT
    TCTCTGAATG AATCGGACAC CACTGGGGTC AGAGAAAGAA GGGATTCTGG TGTGGGGGCC
    TCTCTGACCA GGCCAAACAG GCGCCTAAGG TGGAGTAGCT TCCAGCTCTC ACACCAGCCT
    CAGCTGTCTC CGGCCACGCC CCACATCAGC AGCCAGACGG CCGCCCAGCT GAACCTGCTC
    CAGCGCTTTT CTCTGCTTCG CCTCACAGCC ATCATGGAGA AGTACTCCAT GTCCAACAAG
    CACGGCTGGA CCTGCCTGTC TGCACAGAGC GCCCCGGGGG CCTTGCATGA CCTGGTTTCT
    GTGAATTCCA GGTCCGTCCC AAAGTTCATG AAGAGAATCA AAGCTCCTGA CTACAGAGAC
    AAGGCTGTCT TCGGTGTCCC GCTCATAGTC CATGTCCAGA GAACAGGACA GCCCCTGCCT
    CAGAGCATTC AACAAGCACT GAGGTATCTA CGTAGCAACT GTCTGGATCA GGTGGGTCTT
    TTCCGAAAGT CGGGAGTGAA GTCTCGAATC CATGCCCTAC GTCAGATGAA TGAGAACTTC
    CCTGACAACG TGAGCTATGA AGACCAGTCT GCCTATGACG TGGCAGATAT GGTAAAGCAG
    TTCTTCCGGG ACCTCCCTGA GCCCCTTTTC ACCAACAAGC TCAGTGAGAC CTTCCTCCAC
    ATCTATCAGT ACGTCCCCAA AGAACAGCGG CTGCAGGCCG TGCAGGCAGC CATCCTCCTG
    CTGGCGGATG AGAACCGGGA GGCCCTGCAG ACGCTCCTGT GCTTCCTGCA TGACGTAGTG
    AACTTGGTGG ACGAGAATCA GATGACGCCC ATGAATCTGG CCGTGTGCCT GGCCCCCTCC
    CTCTTTCATC TCAACTTGCT GAAAAAAGAA AGTTCCCCAA GAGTCATCCA GAAGAAATAC
    GCCACTGGGA AGCCAGATCA GAAAGACCTC AATGAAAATC TAGCCGCAGC TCAGGGGCTC
    GCCCACATGA TCACGGAATG CAACCGACTC TTCGAGGTTC CACACGAGAT GGTGGCCCAG
    TCTCGTAACT CCTACTTAGA GGCTGAGATC CACGCGCCCA GCCTAGAAGA CTTGGGAACT
    CAGCTGGCAG AGAATGGGGC AACTTTTCAC ACGTACCTGG AGCATCTTGT CCAAGGCCTC
    CAGAAAGAGG CTAAGGAGAA ATTCAAGGGG TGGGTCACGT GTTCCAGCCC TGACAACACG
    GACCTTGCTT TCAAAAAGGT GGGGGACGGG AACCCGCTGA AGCTGTGGAA GGCATCCGTG
    GAGGTGGAGG CACCGCCCTC CGTGGTGTTG AACCGCGTGC TGAGAGAACG TCACCTGTGG
    GATGAGGATT TCGTGCAGTG GAAGGTCGTG GAAACGTTGG ACAGACAGAC AGAAATATAC
    CAGTATGTGC TAAACAGCAT GGTTCCACAC CCCTCCAGAG ACTTCGTGGT GCTCAGGACC
    TGGAAGACCG ATTTGCCCAA AGGAATGTGC ACCCTGGTGT CCCTGTCTGT GGAGCATGAA
    GAAGCCCAGC TCATGGGTGA TGTGCGGGCG GTGGTGATGG ACTCTCAGTA CCTGATAGAG
    CCCTGTGGCT CCGGCAAGTC CAGGCTGACC CACATCTGCA GGATAGACCT GAAAGGCCAC
    TCCCCAGAAT GGTACAGCAA AGGCTTCGGA CACCTCTGTG CCGCAGAAGT TGCCAGAATT
    AGGAACTCTT TCCAGCCTCT CGTTGCTGAG GGTCCAGAAA CAAAAATCTA A

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

    RefSeq XP_017453915.1
    CDS361..3651
    Translation

    Target ORF information:

    RefSeq Version XM_017598426.1
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus StAR-related lipid transfer domain containing 13 (Stard13), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017598426.1

    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
    ATGTCAGCTG GAGTTCGGCC AAAGCTTAAG GTTCTCTCTG ACAGCCAAAG CAAAGAAAGA 
    GAAGAAATCG AGGCGAAGGA AGCATGTGAC TGGCTGCGAG CTGCCGGGTT CCCACAGTAC
    GCTCAGCTGT ATGAAGATTC GCAGTTTCCC ATCAACATTG CGGCTGTCAA AAAAGACCAT
    GATTTTCTTG AAAGGGACCT TGTAGAACCT CTTTGCAGAC GACTTAATAC GTTGAACAAG
    TGTGCCTCAA TGAGACTTGA TGTGAACTTC CAAAGGAAAA AGGGCGACGA CTCAGATGAG
    GAAGACCTGT GCATCAGCAA CAAATGGACT TTCCAGAGAA CCAGCCGCAG GTGGTCCCGT
    GTGGATGACC TGCATCCGCT CCTCCCCGGG GCAGACAGAA ACGGGTCCCC AGGAGGCCCT
    AGGATGAGAA ACACGGCCAG CAGTGAAAGC GTGCTCACAG ATCTGAGCGA GCCTGAGGTC
    TGCTCCATCC ACAGCGAAAG CAGCGGAGGC AGCGACGGCC GCGGCCAATC GGGGCATCAT
    TTTGCTGATG GCACGCCTGT GCTGGAGGGC ACCCTAGTCG GTGGCAGCCT CCCGCAGTCT
    CCCCGAGACA GTCTCAGCCA GTCTTTTCAC CCCAAGAATG AGAAACCCAC CAGGACCAGG
    GCCAAGTCAT TTCTGAGACG CATGGATACC CTGAGAGTGA AGGGAGCACT CGGGAGGCAT
    AAGGGACCAG GGCGAACAGG AGGCCTCGTT ATCAGCAGGC CCATGCTGCA GCAGGAGCCA
    GAGTCCTTTA AGACCATGCA GCATGTCCAG ATACCCAACG GAGATCTGCA GACCTCACCA
    CCAGCTGCCT GCAAGAAAGG CCTTCCAGGC TCCAGTAAAT CAAGCGGTGA GAACAGCCCC
    TTGGAGAGCA GCCGTGTGAG CACCCCATGT ATGAAGGAAC GCAAGTGCCA ACACGAGGCC
    AACAAGCGCG GTGGCATGTA CCTGGAGGAC CTGGATGTGC TGGCAGGGAC GACATTACCA
    GACACAGGGG ACCAAAACCA CATACACGGG TTTCACTCGC AAGAGAACCT GGTGGTCCAT
    GTTCCCAAGG ATCACAAACC AGGAACATTC CCCAAGGCAC TGTCTATAGA AAGCCTCTCG
    CCCACAGACA GCAGCAATGG GGTTAACTGG AGGACTGGGA GTATCTCCCT GGGCAGGCAA
    CAGGGCCCTG GCATAAGGGA ACCTAGACTC GTGTCATCCT GCCACAGGGC CAGCAGAGTC
    AGTATCTATG ACAACGTGCC CAGCTCACAT CTGTATGCCA GCACTGGAGA TCTGTTGGAC
    TTGGAGAAAG ACGGGCTCCT TCCACAGCTG GATGACATTA TACAGCATGT CAATGGCATA
    CAAGAGGTAG TGGATGACTG GTCAAGAAAT ATCTTGCCTG AACTGCAAAG TCACGATGCA
    GTGGCAGGGG ACCCTGGTCA ACCCCCATTT CAGTCTCCTC ATCAGATCAC TTTAGATTTT
    GAAGGCAACT CTGTCTCGGA AGGTCAGACA ACACCTAGTG ATGTGGAAAG GGACAGGACT
    TCTCTGAATG AATCGGACAC CACTGGGGTC AGAGAAAGAA GGGATTCTGG TGTGGGGGCC
    TCTCTGACCA GGCCAAACAG GCGCCTAAGG TGGAGTAGCT TCCAGCTCTC ACACCAGCCT
    CAGCTGTCTC CGGCCACGCC CCACATCAGC AGCCAGACGG CCGCCCAGCT GAACCTGCTC
    CAGCGCTTTT CTCTGCTTCG CCTCACAGCC ATCATGGAGA AGTACTCCAT GTCCAACAAG
    CACGGCTGGA CCTGCCTGTC TGCACAGAGC GCCCCGGGGG CCTTGCATGA CCTGGTTTCT
    GTGAATTCCA GGTCCGTCCC AAAGTTCATG AAGAGAATCA AAGCTCCTGA CTACAGAGAC
    AAGGCTGTCT TCGGTGTCCC GCTCATAGTC CATGTCCAGA GAACAGGACA GCCCCTGCCT
    CAGAGCATTC AACAAGCACT GAGGTATCTA CGTAGCAACT GTCTGGATCA GGTGGGTCTT
    TTCCGAAAGT CGGGAGTGAA GTCTCGAATC CATGCCCTAC GTCAGATGAA TGAGAACTTC
    CCTGACAACG TGAGCTATGA AGACCAGTCT GCCTATGACG TGGCAGATAT GGTAAAGCAG
    TTCTTCCGGG ACCTCCCTGA GCCCCTTTTC ACCAACAAGC TCAGTGAGAC CTTCCTCCAC
    ATCTATCAGT ACGTCCCCAA AGAACAGCGG CTGCAGGCCG TGCAGGCAGC CATCCTCCTG
    CTGGCGGATG AGAACCGGGA GGCCCTGCAG ACGCTCCTGT GCTTCCTGCA TGACGTAGTG
    AACTTGGTGG ACGAGAATCA GATGACGCCC ATGAATCTGG CCGTGTGCCT GGCCCCCTCC
    CTCTTTCATC TCAACTTGCT GAAAAAAGAA AGTTCCCCAA GAGTCATCCA GAAGAAATAC
    GCCACTGGGA AGCCAGATCA GAAAGACCTC AATGAAAATC TAGCCGCAGC TCAGGGGCTC
    GCCCACATGA TCACGGAATG CAACCGACTC TTCGAGGTTC CACACGAGAT GGTGGCCCAG
    TCTCGTAACT CCTACTTAGA GGCTGAGATC CACGCGCCCA GCCTAGAAGA CTTGGGAACT
    CAGCTGGCAG AGAATGGGGC AACTTTTCAC ACGTACCTGG AGCATCTTGT CCAAGGCCTC
    CAGAAAGAGG CTAAGGAGAA ATTCAAGGGG TGGGTCACGT GTTCCAGCCC TGACAACACG
    GACCTTGCTT TCAAAAAGGT GGGGGACGGG AACCCGCTGA AGCTGTGGAA GGCATCCGTG
    GAGGTGGAGG CACCGCCCTC CGTGGTGTTG AACCGCGTGC TGAGAGAACG TCACCTGTGG
    GATGAGGATT TCGTGCAGTG GAAGGTCGTG GAAACGTTGG ACAGACAGAC AGAAATATAC
    CAGTATGTGC TAAACAGCAT GGTTCCACAC CCCTCCAGAG ACTTCGTGGT GCTCAGGACC
    TGGAAGACCG ATTTGCCCAA AGGAATGTGC ACCCTGGTGT CCCTGTCTGT GGAGCATGAA
    GAAGCCCAGC TCATGGGTGA TGTGCGGGCG GTGGTGATGG ACTCTCAGTA CCTGATAGAG
    CCCTGTGGCT CCGGCAAGTC CAGGCTGACC CACATCTGCA GGATAGACCT GAAAGGCCAC
    TCCCCAGAAT GGTACAGCAA AGGCTTCGGA CACCTCTGTG CCGCAGAAGT TGCCAGAATT
    AGGAACTCTT TCCAGCCTCT CGTTGCTGAG GGTCCAGAAA CAAAAATCTA A

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

    CloneID ORa57878
    Clone ID Related Accession (Same CDS sequence) XM_017598426.1 , XM_017598425.1 , XM_017598423.1 , XM_017598424.1 , XM_017598427.1
    Accession Version XM_017598425.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3291bp)
    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 stAR-related lipid transfer protein 13 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005111.4) 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
    ATGTCAGCTG GAGTTCGGCC AAAGCTTAAG GTTCTCTCTG ACAGCCAAAG CAAAGAAAGA 
    GAAGAAATCG AGGCGAAGGA AGCATGTGAC TGGCTGCGAG CTGCCGGGTT CCCACAGTAC
    GCTCAGCTGT ATGAAGATTC GCAGTTTCCC ATCAACATTG CGGCTGTCAA AAAAGACCAT
    GATTTTCTTG AAAGGGACCT TGTAGAACCT CTTTGCAGAC GACTTAATAC GTTGAACAAG
    TGTGCCTCAA TGAGACTTGA TGTGAACTTC CAAAGGAAAA AGGGCGACGA CTCAGATGAG
    GAAGACCTGT GCATCAGCAA CAAATGGACT TTCCAGAGAA CCAGCCGCAG GTGGTCCCGT
    GTGGATGACC TGCATCCGCT CCTCCCCGGG GCAGACAGAA ACGGGTCCCC AGGAGGCCCT
    AGGATGAGAA ACACGGCCAG CAGTGAAAGC GTGCTCACAG ATCTGAGCGA GCCTGAGGTC
    TGCTCCATCC ACAGCGAAAG CAGCGGAGGC AGCGACGGCC GCGGCCAATC GGGGCATCAT
    TTTGCTGATG GCACGCCTGT GCTGGAGGGC ACCCTAGTCG GTGGCAGCCT CCCGCAGTCT
    CCCCGAGACA GTCTCAGCCA GTCTTTTCAC CCCAAGAATG AGAAACCCAC CAGGACCAGG
    GCCAAGTCAT TTCTGAGACG CATGGATACC CTGAGAGTGA AGGGAGCACT CGGGAGGCAT
    AAGGGACCAG GGCGAACAGG AGGCCTCGTT ATCAGCAGGC CCATGCTGCA GCAGGAGCCA
    GAGTCCTTTA AGACCATGCA GCATGTCCAG ATACCCAACG GAGATCTGCA GACCTCACCA
    CCAGCTGCCT GCAAGAAAGG CCTTCCAGGC TCCAGTAAAT CAAGCGGTGA GAACAGCCCC
    TTGGAGAGCA GCCGTGTGAG CACCCCATGT ATGAAGGAAC GCAAGTGCCA ACACGAGGCC
    AACAAGCGCG GTGGCATGTA CCTGGAGGAC CTGGATGTGC TGGCAGGGAC GACATTACCA
    GACACAGGGG ACCAAAACCA CATACACGGG TTTCACTCGC AAGAGAACCT GGTGGTCCAT
    GTTCCCAAGG ATCACAAACC AGGAACATTC CCCAAGGCAC TGTCTATAGA AAGCCTCTCG
    CCCACAGACA GCAGCAATGG GGTTAACTGG AGGACTGGGA GTATCTCCCT GGGCAGGCAA
    CAGGGCCCTG GCATAAGGGA ACCTAGACTC GTGTCATCCT GCCACAGGGC CAGCAGAGTC
    AGTATCTATG ACAACGTGCC CAGCTCACAT CTGTATGCCA GCACTGGAGA TCTGTTGGAC
    TTGGAGAAAG ACGGGCTCCT TCCACAGCTG GATGACATTA TACAGCATGT CAATGGCATA
    CAAGAGGTAG TGGATGACTG GTCAAGAAAT ATCTTGCCTG AACTGCAAAG TCACGATGCA
    GTGGCAGGGG ACCCTGGTCA ACCCCCATTT CAGTCTCCTC ATCAGATCAC TTTAGATTTT
    GAAGGCAACT CTGTCTCGGA AGGTCAGACA ACACCTAGTG ATGTGGAAAG GGACAGGACT
    TCTCTGAATG AATCGGACAC CACTGGGGTC AGAGAAAGAA GGGATTCTGG TGTGGGGGCC
    TCTCTGACCA GGCCAAACAG GCGCCTAAGG TGGAGTAGCT TCCAGCTCTC ACACCAGCCT
    CAGCTGTCTC CGGCCACGCC CCACATCAGC AGCCAGACGG CCGCCCAGCT GAACCTGCTC
    CAGCGCTTTT CTCTGCTTCG CCTCACAGCC ATCATGGAGA AGTACTCCAT GTCCAACAAG
    CACGGCTGGA CCTGCCTGTC TGCACAGAGC GCCCCGGGGG CCTTGCATGA CCTGGTTTCT
    GTGAATTCCA GGTCCGTCCC AAAGTTCATG AAGAGAATCA AAGCTCCTGA CTACAGAGAC
    AAGGCTGTCT TCGGTGTCCC GCTCATAGTC CATGTCCAGA GAACAGGACA GCCCCTGCCT
    CAGAGCATTC AACAAGCACT GAGGTATCTA CGTAGCAACT GTCTGGATCA GGTGGGTCTT
    TTCCGAAAGT CGGGAGTGAA GTCTCGAATC CATGCCCTAC GTCAGATGAA TGAGAACTTC
    CCTGACAACG TGAGCTATGA AGACCAGTCT GCCTATGACG TGGCAGATAT GGTAAAGCAG
    TTCTTCCGGG ACCTCCCTGA GCCCCTTTTC ACCAACAAGC TCAGTGAGAC CTTCCTCCAC
    ATCTATCAGT ACGTCCCCAA AGAACAGCGG CTGCAGGCCG TGCAGGCAGC CATCCTCCTG
    CTGGCGGATG AGAACCGGGA GGCCCTGCAG ACGCTCCTGT GCTTCCTGCA TGACGTAGTG
    AACTTGGTGG ACGAGAATCA GATGACGCCC ATGAATCTGG CCGTGTGCCT GGCCCCCTCC
    CTCTTTCATC TCAACTTGCT GAAAAAAGAA AGTTCCCCAA GAGTCATCCA GAAGAAATAC
    GCCACTGGGA AGCCAGATCA GAAAGACCTC AATGAAAATC TAGCCGCAGC TCAGGGGCTC
    GCCCACATGA TCACGGAATG CAACCGACTC TTCGAGGTTC CACACGAGAT GGTGGCCCAG
    TCTCGTAACT CCTACTTAGA GGCTGAGATC CACGCGCCCA GCCTAGAAGA CTTGGGAACT
    CAGCTGGCAG AGAATGGGGC AACTTTTCAC ACGTACCTGG AGCATCTTGT CCAAGGCCTC
    CAGAAAGAGG CTAAGGAGAA ATTCAAGGGG TGGGTCACGT GTTCCAGCCC TGACAACACG
    GACCTTGCTT TCAAAAAGGT GGGGGACGGG AACCCGCTGA AGCTGTGGAA GGCATCCGTG
    GAGGTGGAGG CACCGCCCTC CGTGGTGTTG AACCGCGTGC TGAGAGAACG TCACCTGTGG
    GATGAGGATT TCGTGCAGTG GAAGGTCGTG GAAACGTTGG ACAGACAGAC AGAAATATAC
    CAGTATGTGC TAAACAGCAT GGTTCCACAC CCCTCCAGAG ACTTCGTGGT GCTCAGGACC
    TGGAAGACCG ATTTGCCCAA AGGAATGTGC ACCCTGGTGT CCCTGTCTGT GGAGCATGAA
    GAAGCCCAGC TCATGGGTGA TGTGCGGGCG GTGGTGATGG ACTCTCAGTA CCTGATAGAG
    CCCTGTGGCT CCGGCAAGTC CAGGCTGACC CACATCTGCA GGATAGACCT GAAAGGCCAC
    TCCCCAGAAT GGTACAGCAA AGGCTTCGGA CACCTCTGTG CCGCAGAAGT TGCCAGAATT
    AGGAACTCTT TCCAGCCTCT CGTTGCTGAG GGTCCAGAAA CAAAAATCTA A

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

    RefSeq XP_017453914.1
    CDS351..3641
    Translation

    Target ORF information:

    RefSeq Version XM_017598425.1
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus StAR-related lipid transfer domain containing 13 (Stard13), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017598425.1

    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
    ATGTCAGCTG GAGTTCGGCC AAAGCTTAAG GTTCTCTCTG ACAGCCAAAG CAAAGAAAGA 
    GAAGAAATCG AGGCGAAGGA AGCATGTGAC TGGCTGCGAG CTGCCGGGTT CCCACAGTAC
    GCTCAGCTGT ATGAAGATTC GCAGTTTCCC ATCAACATTG CGGCTGTCAA AAAAGACCAT
    GATTTTCTTG AAAGGGACCT TGTAGAACCT CTTTGCAGAC GACTTAATAC GTTGAACAAG
    TGTGCCTCAA TGAGACTTGA TGTGAACTTC CAAAGGAAAA AGGGCGACGA CTCAGATGAG
    GAAGACCTGT GCATCAGCAA CAAATGGACT TTCCAGAGAA CCAGCCGCAG GTGGTCCCGT
    GTGGATGACC TGCATCCGCT CCTCCCCGGG GCAGACAGAA ACGGGTCCCC AGGAGGCCCT
    AGGATGAGAA ACACGGCCAG CAGTGAAAGC GTGCTCACAG ATCTGAGCGA GCCTGAGGTC
    TGCTCCATCC ACAGCGAAAG CAGCGGAGGC AGCGACGGCC GCGGCCAATC GGGGCATCAT
    TTTGCTGATG GCACGCCTGT GCTGGAGGGC ACCCTAGTCG GTGGCAGCCT CCCGCAGTCT
    CCCCGAGACA GTCTCAGCCA GTCTTTTCAC CCCAAGAATG AGAAACCCAC CAGGACCAGG
    GCCAAGTCAT TTCTGAGACG CATGGATACC CTGAGAGTGA AGGGAGCACT CGGGAGGCAT
    AAGGGACCAG GGCGAACAGG AGGCCTCGTT ATCAGCAGGC CCATGCTGCA GCAGGAGCCA
    GAGTCCTTTA AGACCATGCA GCATGTCCAG ATACCCAACG GAGATCTGCA GACCTCACCA
    CCAGCTGCCT GCAAGAAAGG CCTTCCAGGC TCCAGTAAAT CAAGCGGTGA GAACAGCCCC
    TTGGAGAGCA GCCGTGTGAG CACCCCATGT ATGAAGGAAC GCAAGTGCCA ACACGAGGCC
    AACAAGCGCG GTGGCATGTA CCTGGAGGAC CTGGATGTGC TGGCAGGGAC GACATTACCA
    GACACAGGGG ACCAAAACCA CATACACGGG TTTCACTCGC AAGAGAACCT GGTGGTCCAT
    GTTCCCAAGG ATCACAAACC AGGAACATTC CCCAAGGCAC TGTCTATAGA AAGCCTCTCG
    CCCACAGACA GCAGCAATGG GGTTAACTGG AGGACTGGGA GTATCTCCCT GGGCAGGCAA
    CAGGGCCCTG GCATAAGGGA ACCTAGACTC GTGTCATCCT GCCACAGGGC CAGCAGAGTC
    AGTATCTATG ACAACGTGCC CAGCTCACAT CTGTATGCCA GCACTGGAGA TCTGTTGGAC
    TTGGAGAAAG ACGGGCTCCT TCCACAGCTG GATGACATTA TACAGCATGT CAATGGCATA
    CAAGAGGTAG TGGATGACTG GTCAAGAAAT ATCTTGCCTG AACTGCAAAG TCACGATGCA
    GTGGCAGGGG ACCCTGGTCA ACCCCCATTT CAGTCTCCTC ATCAGATCAC TTTAGATTTT
    GAAGGCAACT CTGTCTCGGA AGGTCAGACA ACACCTAGTG ATGTGGAAAG GGACAGGACT
    TCTCTGAATG AATCGGACAC CACTGGGGTC AGAGAAAGAA GGGATTCTGG TGTGGGGGCC
    TCTCTGACCA GGCCAAACAG GCGCCTAAGG TGGAGTAGCT TCCAGCTCTC ACACCAGCCT
    CAGCTGTCTC CGGCCACGCC CCACATCAGC AGCCAGACGG CCGCCCAGCT GAACCTGCTC
    CAGCGCTTTT CTCTGCTTCG CCTCACAGCC ATCATGGAGA AGTACTCCAT GTCCAACAAG
    CACGGCTGGA CCTGCCTGTC TGCACAGAGC GCCCCGGGGG CCTTGCATGA CCTGGTTTCT
    GTGAATTCCA GGTCCGTCCC AAAGTTCATG AAGAGAATCA AAGCTCCTGA CTACAGAGAC
    AAGGCTGTCT TCGGTGTCCC GCTCATAGTC CATGTCCAGA GAACAGGACA GCCCCTGCCT
    CAGAGCATTC AACAAGCACT GAGGTATCTA CGTAGCAACT GTCTGGATCA GGTGGGTCTT
    TTCCGAAAGT CGGGAGTGAA GTCTCGAATC CATGCCCTAC GTCAGATGAA TGAGAACTTC
    CCTGACAACG TGAGCTATGA AGACCAGTCT GCCTATGACG TGGCAGATAT GGTAAAGCAG
    TTCTTCCGGG ACCTCCCTGA GCCCCTTTTC ACCAACAAGC TCAGTGAGAC CTTCCTCCAC
    ATCTATCAGT ACGTCCCCAA AGAACAGCGG CTGCAGGCCG TGCAGGCAGC CATCCTCCTG
    CTGGCGGATG AGAACCGGGA GGCCCTGCAG ACGCTCCTGT GCTTCCTGCA TGACGTAGTG
    AACTTGGTGG ACGAGAATCA GATGACGCCC ATGAATCTGG CCGTGTGCCT GGCCCCCTCC
    CTCTTTCATC TCAACTTGCT GAAAAAAGAA AGTTCCCCAA GAGTCATCCA GAAGAAATAC
    GCCACTGGGA AGCCAGATCA GAAAGACCTC AATGAAAATC TAGCCGCAGC TCAGGGGCTC
    GCCCACATGA TCACGGAATG CAACCGACTC TTCGAGGTTC CACACGAGAT GGTGGCCCAG
    TCTCGTAACT CCTACTTAGA GGCTGAGATC CACGCGCCCA GCCTAGAAGA CTTGGGAACT
    CAGCTGGCAG AGAATGGGGC AACTTTTCAC ACGTACCTGG AGCATCTTGT CCAAGGCCTC
    CAGAAAGAGG CTAAGGAGAA ATTCAAGGGG TGGGTCACGT GTTCCAGCCC TGACAACACG
    GACCTTGCTT TCAAAAAGGT GGGGGACGGG AACCCGCTGA AGCTGTGGAA GGCATCCGTG
    GAGGTGGAGG CACCGCCCTC CGTGGTGTTG AACCGCGTGC TGAGAGAACG TCACCTGTGG
    GATGAGGATT TCGTGCAGTG GAAGGTCGTG GAAACGTTGG ACAGACAGAC AGAAATATAC
    CAGTATGTGC TAAACAGCAT GGTTCCACAC CCCTCCAGAG ACTTCGTGGT GCTCAGGACC
    TGGAAGACCG ATTTGCCCAA AGGAATGTGC ACCCTGGTGT CCCTGTCTGT GGAGCATGAA
    GAAGCCCAGC TCATGGGTGA TGTGCGGGCG GTGGTGATGG ACTCTCAGTA CCTGATAGAG
    CCCTGTGGCT CCGGCAAGTC CAGGCTGACC CACATCTGCA GGATAGACCT GAAAGGCCAC
    TCCCCAGAAT GGTACAGCAA AGGCTTCGGA CACCTCTGTG CCGCAGAAGT TGCCAGAATT
    AGGAACTCTT TCCAGCCTCT CGTTGCTGAG GGTCCAGAAA CAAAAATCTA A

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

    CloneID ORa57878
    Clone ID Related Accession (Same CDS sequence) XM_017598426.1 , XM_017598425.1 , XM_017598423.1 , XM_017598424.1 , XM_017598427.1
    Accession Version XM_017598423.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3291bp)
    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 stAR-related lipid transfer protein 13 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005111.4) 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
    ATGTCAGCTG GAGTTCGGCC AAAGCTTAAG GTTCTCTCTG ACAGCCAAAG CAAAGAAAGA 
    GAAGAAATCG AGGCGAAGGA AGCATGTGAC TGGCTGCGAG CTGCCGGGTT CCCACAGTAC
    GCTCAGCTGT ATGAAGATTC GCAGTTTCCC ATCAACATTG CGGCTGTCAA AAAAGACCAT
    GATTTTCTTG AAAGGGACCT TGTAGAACCT CTTTGCAGAC GACTTAATAC GTTGAACAAG
    TGTGCCTCAA TGAGACTTGA TGTGAACTTC CAAAGGAAAA AGGGCGACGA CTCAGATGAG
    GAAGACCTGT GCATCAGCAA CAAATGGACT TTCCAGAGAA CCAGCCGCAG GTGGTCCCGT
    GTGGATGACC TGCATCCGCT CCTCCCCGGG GCAGACAGAA ACGGGTCCCC AGGAGGCCCT
    AGGATGAGAA ACACGGCCAG CAGTGAAAGC GTGCTCACAG ATCTGAGCGA GCCTGAGGTC
    TGCTCCATCC ACAGCGAAAG CAGCGGAGGC AGCGACGGCC GCGGCCAATC GGGGCATCAT
    TTTGCTGATG GCACGCCTGT GCTGGAGGGC ACCCTAGTCG GTGGCAGCCT CCCGCAGTCT
    CCCCGAGACA GTCTCAGCCA GTCTTTTCAC CCCAAGAATG AGAAACCCAC CAGGACCAGG
    GCCAAGTCAT TTCTGAGACG CATGGATACC CTGAGAGTGA AGGGAGCACT CGGGAGGCAT
    AAGGGACCAG GGCGAACAGG AGGCCTCGTT ATCAGCAGGC CCATGCTGCA GCAGGAGCCA
    GAGTCCTTTA AGACCATGCA GCATGTCCAG ATACCCAACG GAGATCTGCA GACCTCACCA
    CCAGCTGCCT GCAAGAAAGG CCTTCCAGGC TCCAGTAAAT CAAGCGGTGA GAACAGCCCC
    TTGGAGAGCA GCCGTGTGAG CACCCCATGT ATGAAGGAAC GCAAGTGCCA ACACGAGGCC
    AACAAGCGCG GTGGCATGTA CCTGGAGGAC CTGGATGTGC TGGCAGGGAC GACATTACCA
    GACACAGGGG ACCAAAACCA CATACACGGG TTTCACTCGC AAGAGAACCT GGTGGTCCAT
    GTTCCCAAGG ATCACAAACC AGGAACATTC CCCAAGGCAC TGTCTATAGA AAGCCTCTCG
    CCCACAGACA GCAGCAATGG GGTTAACTGG AGGACTGGGA GTATCTCCCT GGGCAGGCAA
    CAGGGCCCTG GCATAAGGGA ACCTAGACTC GTGTCATCCT GCCACAGGGC CAGCAGAGTC
    AGTATCTATG ACAACGTGCC CAGCTCACAT CTGTATGCCA GCACTGGAGA TCTGTTGGAC
    TTGGAGAAAG ACGGGCTCCT TCCACAGCTG GATGACATTA TACAGCATGT CAATGGCATA
    CAAGAGGTAG TGGATGACTG GTCAAGAAAT ATCTTGCCTG AACTGCAAAG TCACGATGCA
    GTGGCAGGGG ACCCTGGTCA ACCCCCATTT CAGTCTCCTC ATCAGATCAC TTTAGATTTT
    GAAGGCAACT CTGTCTCGGA AGGTCAGACA ACACCTAGTG ATGTGGAAAG GGACAGGACT
    TCTCTGAATG AATCGGACAC CACTGGGGTC AGAGAAAGAA GGGATTCTGG TGTGGGGGCC
    TCTCTGACCA GGCCAAACAG GCGCCTAAGG TGGAGTAGCT TCCAGCTCTC ACACCAGCCT
    CAGCTGTCTC CGGCCACGCC CCACATCAGC AGCCAGACGG CCGCCCAGCT GAACCTGCTC
    CAGCGCTTTT CTCTGCTTCG CCTCACAGCC ATCATGGAGA AGTACTCCAT GTCCAACAAG
    CACGGCTGGA CCTGCCTGTC TGCACAGAGC GCCCCGGGGG CCTTGCATGA CCTGGTTTCT
    GTGAATTCCA GGTCCGTCCC AAAGTTCATG AAGAGAATCA AAGCTCCTGA CTACAGAGAC
    AAGGCTGTCT TCGGTGTCCC GCTCATAGTC CATGTCCAGA GAACAGGACA GCCCCTGCCT
    CAGAGCATTC AACAAGCACT GAGGTATCTA CGTAGCAACT GTCTGGATCA GGTGGGTCTT
    TTCCGAAAGT CGGGAGTGAA GTCTCGAATC CATGCCCTAC GTCAGATGAA TGAGAACTTC
    CCTGACAACG TGAGCTATGA AGACCAGTCT GCCTATGACG TGGCAGATAT GGTAAAGCAG
    TTCTTCCGGG ACCTCCCTGA GCCCCTTTTC ACCAACAAGC TCAGTGAGAC CTTCCTCCAC
    ATCTATCAGT ACGTCCCCAA AGAACAGCGG CTGCAGGCCG TGCAGGCAGC CATCCTCCTG
    CTGGCGGATG AGAACCGGGA GGCCCTGCAG ACGCTCCTGT GCTTCCTGCA TGACGTAGTG
    AACTTGGTGG ACGAGAATCA GATGACGCCC ATGAATCTGG CCGTGTGCCT GGCCCCCTCC
    CTCTTTCATC TCAACTTGCT GAAAAAAGAA AGTTCCCCAA GAGTCATCCA GAAGAAATAC
    GCCACTGGGA AGCCAGATCA GAAAGACCTC AATGAAAATC TAGCCGCAGC TCAGGGGCTC
    GCCCACATGA TCACGGAATG CAACCGACTC TTCGAGGTTC CACACGAGAT GGTGGCCCAG
    TCTCGTAACT CCTACTTAGA GGCTGAGATC CACGCGCCCA GCCTAGAAGA CTTGGGAACT
    CAGCTGGCAG AGAATGGGGC AACTTTTCAC ACGTACCTGG AGCATCTTGT CCAAGGCCTC
    CAGAAAGAGG CTAAGGAGAA ATTCAAGGGG TGGGTCACGT GTTCCAGCCC TGACAACACG
    GACCTTGCTT TCAAAAAGGT GGGGGACGGG AACCCGCTGA AGCTGTGGAA GGCATCCGTG
    GAGGTGGAGG CACCGCCCTC CGTGGTGTTG AACCGCGTGC TGAGAGAACG TCACCTGTGG
    GATGAGGATT TCGTGCAGTG GAAGGTCGTG GAAACGTTGG ACAGACAGAC AGAAATATAC
    CAGTATGTGC TAAACAGCAT GGTTCCACAC CCCTCCAGAG ACTTCGTGGT GCTCAGGACC
    TGGAAGACCG ATTTGCCCAA AGGAATGTGC ACCCTGGTGT CCCTGTCTGT GGAGCATGAA
    GAAGCCCAGC TCATGGGTGA TGTGCGGGCG GTGGTGATGG ACTCTCAGTA CCTGATAGAG
    CCCTGTGGCT CCGGCAAGTC CAGGCTGACC CACATCTGCA GGATAGACCT GAAAGGCCAC
    TCCCCAGAAT GGTACAGCAA AGGCTTCGGA CACCTCTGTG CCGCAGAAGT TGCCAGAATT
    AGGAACTCTT TCCAGCCTCT CGTTGCTGAG GGTCCAGAAA CAAAAATCTA A

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

    RefSeq XP_017453912.1
    CDS247..3537
    Translation

    Target ORF information:

    RefSeq Version XM_017598423.1
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus StAR-related lipid transfer domain containing 13 (Stard13), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017598423.1

    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
    ATGTCAGCTG GAGTTCGGCC AAAGCTTAAG GTTCTCTCTG ACAGCCAAAG CAAAGAAAGA 
    GAAGAAATCG AGGCGAAGGA AGCATGTGAC TGGCTGCGAG CTGCCGGGTT CCCACAGTAC
    GCTCAGCTGT ATGAAGATTC GCAGTTTCCC ATCAACATTG CGGCTGTCAA AAAAGACCAT
    GATTTTCTTG AAAGGGACCT TGTAGAACCT CTTTGCAGAC GACTTAATAC GTTGAACAAG
    TGTGCCTCAA TGAGACTTGA TGTGAACTTC CAAAGGAAAA AGGGCGACGA CTCAGATGAG
    GAAGACCTGT GCATCAGCAA CAAATGGACT TTCCAGAGAA CCAGCCGCAG GTGGTCCCGT
    GTGGATGACC TGCATCCGCT CCTCCCCGGG GCAGACAGAA ACGGGTCCCC AGGAGGCCCT
    AGGATGAGAA ACACGGCCAG CAGTGAAAGC GTGCTCACAG ATCTGAGCGA GCCTGAGGTC
    TGCTCCATCC ACAGCGAAAG CAGCGGAGGC AGCGACGGCC GCGGCCAATC GGGGCATCAT
    TTTGCTGATG GCACGCCTGT GCTGGAGGGC ACCCTAGTCG GTGGCAGCCT CCCGCAGTCT
    CCCCGAGACA GTCTCAGCCA GTCTTTTCAC CCCAAGAATG AGAAACCCAC CAGGACCAGG
    GCCAAGTCAT TTCTGAGACG CATGGATACC CTGAGAGTGA AGGGAGCACT CGGGAGGCAT
    AAGGGACCAG GGCGAACAGG AGGCCTCGTT ATCAGCAGGC CCATGCTGCA GCAGGAGCCA
    GAGTCCTTTA AGACCATGCA GCATGTCCAG ATACCCAACG GAGATCTGCA GACCTCACCA
    CCAGCTGCCT GCAAGAAAGG CCTTCCAGGC TCCAGTAAAT CAAGCGGTGA GAACAGCCCC
    TTGGAGAGCA GCCGTGTGAG CACCCCATGT ATGAAGGAAC GCAAGTGCCA ACACGAGGCC
    AACAAGCGCG GTGGCATGTA CCTGGAGGAC CTGGATGTGC TGGCAGGGAC GACATTACCA
    GACACAGGGG ACCAAAACCA CATACACGGG TTTCACTCGC AAGAGAACCT GGTGGTCCAT
    GTTCCCAAGG ATCACAAACC AGGAACATTC CCCAAGGCAC TGTCTATAGA AAGCCTCTCG
    CCCACAGACA GCAGCAATGG GGTTAACTGG AGGACTGGGA GTATCTCCCT GGGCAGGCAA
    CAGGGCCCTG GCATAAGGGA ACCTAGACTC GTGTCATCCT GCCACAGGGC CAGCAGAGTC
    AGTATCTATG ACAACGTGCC CAGCTCACAT CTGTATGCCA GCACTGGAGA TCTGTTGGAC
    TTGGAGAAAG ACGGGCTCCT TCCACAGCTG GATGACATTA TACAGCATGT CAATGGCATA
    CAAGAGGTAG TGGATGACTG GTCAAGAAAT ATCTTGCCTG AACTGCAAAG TCACGATGCA
    GTGGCAGGGG ACCCTGGTCA ACCCCCATTT CAGTCTCCTC ATCAGATCAC TTTAGATTTT
    GAAGGCAACT CTGTCTCGGA AGGTCAGACA ACACCTAGTG ATGTGGAAAG GGACAGGACT
    TCTCTGAATG AATCGGACAC CACTGGGGTC AGAGAAAGAA GGGATTCTGG TGTGGGGGCC
    TCTCTGACCA GGCCAAACAG GCGCCTAAGG TGGAGTAGCT TCCAGCTCTC ACACCAGCCT
    CAGCTGTCTC CGGCCACGCC CCACATCAGC AGCCAGACGG CCGCCCAGCT GAACCTGCTC
    CAGCGCTTTT CTCTGCTTCG CCTCACAGCC ATCATGGAGA AGTACTCCAT GTCCAACAAG
    CACGGCTGGA CCTGCCTGTC TGCACAGAGC GCCCCGGGGG CCTTGCATGA CCTGGTTTCT
    GTGAATTCCA GGTCCGTCCC AAAGTTCATG AAGAGAATCA AAGCTCCTGA CTACAGAGAC
    AAGGCTGTCT TCGGTGTCCC GCTCATAGTC CATGTCCAGA GAACAGGACA GCCCCTGCCT
    CAGAGCATTC AACAAGCACT GAGGTATCTA CGTAGCAACT GTCTGGATCA GGTGGGTCTT
    TTCCGAAAGT CGGGAGTGAA GTCTCGAATC CATGCCCTAC GTCAGATGAA TGAGAACTTC
    CCTGACAACG TGAGCTATGA AGACCAGTCT GCCTATGACG TGGCAGATAT GGTAAAGCAG
    TTCTTCCGGG ACCTCCCTGA GCCCCTTTTC ACCAACAAGC TCAGTGAGAC CTTCCTCCAC
    ATCTATCAGT ACGTCCCCAA AGAACAGCGG CTGCAGGCCG TGCAGGCAGC CATCCTCCTG
    CTGGCGGATG AGAACCGGGA GGCCCTGCAG ACGCTCCTGT GCTTCCTGCA TGACGTAGTG
    AACTTGGTGG ACGAGAATCA GATGACGCCC ATGAATCTGG CCGTGTGCCT GGCCCCCTCC
    CTCTTTCATC TCAACTTGCT GAAAAAAGAA AGTTCCCCAA GAGTCATCCA GAAGAAATAC
    GCCACTGGGA AGCCAGATCA GAAAGACCTC AATGAAAATC TAGCCGCAGC TCAGGGGCTC
    GCCCACATGA TCACGGAATG CAACCGACTC TTCGAGGTTC CACACGAGAT GGTGGCCCAG
    TCTCGTAACT CCTACTTAGA GGCTGAGATC CACGCGCCCA GCCTAGAAGA CTTGGGAACT
    CAGCTGGCAG AGAATGGGGC AACTTTTCAC ACGTACCTGG AGCATCTTGT CCAAGGCCTC
    CAGAAAGAGG CTAAGGAGAA ATTCAAGGGG TGGGTCACGT GTTCCAGCCC TGACAACACG
    GACCTTGCTT TCAAAAAGGT GGGGGACGGG AACCCGCTGA AGCTGTGGAA GGCATCCGTG
    GAGGTGGAGG CACCGCCCTC CGTGGTGTTG AACCGCGTGC TGAGAGAACG TCACCTGTGG
    GATGAGGATT TCGTGCAGTG GAAGGTCGTG GAAACGTTGG ACAGACAGAC AGAAATATAC
    CAGTATGTGC TAAACAGCAT GGTTCCACAC CCCTCCAGAG ACTTCGTGGT GCTCAGGACC
    TGGAAGACCG ATTTGCCCAA AGGAATGTGC ACCCTGGTGT CCCTGTCTGT GGAGCATGAA
    GAAGCCCAGC TCATGGGTGA TGTGCGGGCG GTGGTGATGG ACTCTCAGTA CCTGATAGAG
    CCCTGTGGCT CCGGCAAGTC CAGGCTGACC CACATCTGCA GGATAGACCT GAAAGGCCAC
    TCCCCAGAAT GGTACAGCAA AGGCTTCGGA CACCTCTGTG CCGCAGAAGT TGCCAGAATT
    AGGAACTCTT TCCAGCCTCT CGTTGCTGAG GGTCCAGAAA CAAAAATCTA A

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

    CloneID ORa57878
    Clone ID Related Accession (Same CDS sequence) XM_017598426.1 , XM_017598425.1 , XM_017598423.1 , XM_017598424.1 , XM_017598427.1
    Accession Version XM_017598424.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3291bp)
    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 stAR-related lipid transfer protein 13 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005111.4) 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
    ATGTCAGCTG GAGTTCGGCC AAAGCTTAAG GTTCTCTCTG ACAGCCAAAG CAAAGAAAGA 
    GAAGAAATCG AGGCGAAGGA AGCATGTGAC TGGCTGCGAG CTGCCGGGTT CCCACAGTAC
    GCTCAGCTGT ATGAAGATTC GCAGTTTCCC ATCAACATTG CGGCTGTCAA AAAAGACCAT
    GATTTTCTTG AAAGGGACCT TGTAGAACCT CTTTGCAGAC GACTTAATAC GTTGAACAAG
    TGTGCCTCAA TGAGACTTGA TGTGAACTTC CAAAGGAAAA AGGGCGACGA CTCAGATGAG
    GAAGACCTGT GCATCAGCAA CAAATGGACT TTCCAGAGAA CCAGCCGCAG GTGGTCCCGT
    GTGGATGACC TGCATCCGCT CCTCCCCGGG GCAGACAGAA ACGGGTCCCC AGGAGGCCCT
    AGGATGAGAA ACACGGCCAG CAGTGAAAGC GTGCTCACAG ATCTGAGCGA GCCTGAGGTC
    TGCTCCATCC ACAGCGAAAG CAGCGGAGGC AGCGACGGCC GCGGCCAATC GGGGCATCAT
    TTTGCTGATG GCACGCCTGT GCTGGAGGGC ACCCTAGTCG GTGGCAGCCT CCCGCAGTCT
    CCCCGAGACA GTCTCAGCCA GTCTTTTCAC CCCAAGAATG AGAAACCCAC CAGGACCAGG
    GCCAAGTCAT TTCTGAGACG CATGGATACC CTGAGAGTGA AGGGAGCACT CGGGAGGCAT
    AAGGGACCAG GGCGAACAGG AGGCCTCGTT ATCAGCAGGC CCATGCTGCA GCAGGAGCCA
    GAGTCCTTTA AGACCATGCA GCATGTCCAG ATACCCAACG GAGATCTGCA GACCTCACCA
    CCAGCTGCCT GCAAGAAAGG CCTTCCAGGC TCCAGTAAAT CAAGCGGTGA GAACAGCCCC
    TTGGAGAGCA GCCGTGTGAG CACCCCATGT ATGAAGGAAC GCAAGTGCCA ACACGAGGCC
    AACAAGCGCG GTGGCATGTA CCTGGAGGAC CTGGATGTGC TGGCAGGGAC GACATTACCA
    GACACAGGGG ACCAAAACCA CATACACGGG TTTCACTCGC AAGAGAACCT GGTGGTCCAT
    GTTCCCAAGG ATCACAAACC AGGAACATTC CCCAAGGCAC TGTCTATAGA AAGCCTCTCG
    CCCACAGACA GCAGCAATGG GGTTAACTGG AGGACTGGGA GTATCTCCCT GGGCAGGCAA
    CAGGGCCCTG GCATAAGGGA ACCTAGACTC GTGTCATCCT GCCACAGGGC CAGCAGAGTC
    AGTATCTATG ACAACGTGCC CAGCTCACAT CTGTATGCCA GCACTGGAGA TCTGTTGGAC
    TTGGAGAAAG ACGGGCTCCT TCCACAGCTG GATGACATTA TACAGCATGT CAATGGCATA
    CAAGAGGTAG TGGATGACTG GTCAAGAAAT ATCTTGCCTG AACTGCAAAG TCACGATGCA
    GTGGCAGGGG ACCCTGGTCA ACCCCCATTT CAGTCTCCTC ATCAGATCAC TTTAGATTTT
    GAAGGCAACT CTGTCTCGGA AGGTCAGACA ACACCTAGTG ATGTGGAAAG GGACAGGACT
    TCTCTGAATG AATCGGACAC CACTGGGGTC AGAGAAAGAA GGGATTCTGG TGTGGGGGCC
    TCTCTGACCA GGCCAAACAG GCGCCTAAGG TGGAGTAGCT TCCAGCTCTC ACACCAGCCT
    CAGCTGTCTC CGGCCACGCC CCACATCAGC AGCCAGACGG CCGCCCAGCT GAACCTGCTC
    CAGCGCTTTT CTCTGCTTCG CCTCACAGCC ATCATGGAGA AGTACTCCAT GTCCAACAAG
    CACGGCTGGA CCTGCCTGTC TGCACAGAGC GCCCCGGGGG CCTTGCATGA CCTGGTTTCT
    GTGAATTCCA GGTCCGTCCC AAAGTTCATG AAGAGAATCA AAGCTCCTGA CTACAGAGAC
    AAGGCTGTCT TCGGTGTCCC GCTCATAGTC CATGTCCAGA GAACAGGACA GCCCCTGCCT
    CAGAGCATTC AACAAGCACT GAGGTATCTA CGTAGCAACT GTCTGGATCA GGTGGGTCTT
    TTCCGAAAGT CGGGAGTGAA GTCTCGAATC CATGCCCTAC GTCAGATGAA TGAGAACTTC
    CCTGACAACG TGAGCTATGA AGACCAGTCT GCCTATGACG TGGCAGATAT GGTAAAGCAG
    TTCTTCCGGG ACCTCCCTGA GCCCCTTTTC ACCAACAAGC TCAGTGAGAC CTTCCTCCAC
    ATCTATCAGT ACGTCCCCAA AGAACAGCGG CTGCAGGCCG TGCAGGCAGC CATCCTCCTG
    CTGGCGGATG AGAACCGGGA GGCCCTGCAG ACGCTCCTGT GCTTCCTGCA TGACGTAGTG
    AACTTGGTGG ACGAGAATCA GATGACGCCC ATGAATCTGG CCGTGTGCCT GGCCCCCTCC
    CTCTTTCATC TCAACTTGCT GAAAAAAGAA AGTTCCCCAA GAGTCATCCA GAAGAAATAC
    GCCACTGGGA AGCCAGATCA GAAAGACCTC AATGAAAATC TAGCCGCAGC TCAGGGGCTC
    GCCCACATGA TCACGGAATG CAACCGACTC TTCGAGGTTC CACACGAGAT GGTGGCCCAG
    TCTCGTAACT CCTACTTAGA GGCTGAGATC CACGCGCCCA GCCTAGAAGA CTTGGGAACT
    CAGCTGGCAG AGAATGGGGC AACTTTTCAC ACGTACCTGG AGCATCTTGT CCAAGGCCTC
    CAGAAAGAGG CTAAGGAGAA ATTCAAGGGG TGGGTCACGT GTTCCAGCCC TGACAACACG
    GACCTTGCTT TCAAAAAGGT GGGGGACGGG AACCCGCTGA AGCTGTGGAA GGCATCCGTG
    GAGGTGGAGG CACCGCCCTC CGTGGTGTTG AACCGCGTGC TGAGAGAACG TCACCTGTGG
    GATGAGGATT TCGTGCAGTG GAAGGTCGTG GAAACGTTGG ACAGACAGAC AGAAATATAC
    CAGTATGTGC TAAACAGCAT GGTTCCACAC CCCTCCAGAG ACTTCGTGGT GCTCAGGACC
    TGGAAGACCG ATTTGCCCAA AGGAATGTGC ACCCTGGTGT CCCTGTCTGT GGAGCATGAA
    GAAGCCCAGC TCATGGGTGA TGTGCGGGCG GTGGTGATGG ACTCTCAGTA CCTGATAGAG
    CCCTGTGGCT CCGGCAAGTC CAGGCTGACC CACATCTGCA GGATAGACCT GAAAGGCCAC
    TCCCCAGAAT GGTACAGCAA AGGCTTCGGA CACCTCTGTG CCGCAGAAGT TGCCAGAATT
    AGGAACTCTT TCCAGCCTCT CGTTGCTGAG GGTCCAGAAA CAAAAATCTA A

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

    RefSeq XP_017453913.1
    CDS228..3518
    Translation

    Target ORF information:

    RefSeq Version XM_017598424.1
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus StAR-related lipid transfer domain containing 13 (Stard13), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017598424.1

    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
    ATGTCAGCTG GAGTTCGGCC AAAGCTTAAG GTTCTCTCTG ACAGCCAAAG CAAAGAAAGA 
    GAAGAAATCG AGGCGAAGGA AGCATGTGAC TGGCTGCGAG CTGCCGGGTT CCCACAGTAC
    GCTCAGCTGT ATGAAGATTC GCAGTTTCCC ATCAACATTG CGGCTGTCAA AAAAGACCAT
    GATTTTCTTG AAAGGGACCT TGTAGAACCT CTTTGCAGAC GACTTAATAC GTTGAACAAG
    TGTGCCTCAA TGAGACTTGA TGTGAACTTC CAAAGGAAAA AGGGCGACGA CTCAGATGAG
    GAAGACCTGT GCATCAGCAA CAAATGGACT TTCCAGAGAA CCAGCCGCAG GTGGTCCCGT
    GTGGATGACC TGCATCCGCT CCTCCCCGGG GCAGACAGAA ACGGGTCCCC AGGAGGCCCT
    AGGATGAGAA ACACGGCCAG CAGTGAAAGC GTGCTCACAG ATCTGAGCGA GCCTGAGGTC
    TGCTCCATCC ACAGCGAAAG CAGCGGAGGC AGCGACGGCC GCGGCCAATC GGGGCATCAT
    TTTGCTGATG GCACGCCTGT GCTGGAGGGC ACCCTAGTCG GTGGCAGCCT CCCGCAGTCT
    CCCCGAGACA GTCTCAGCCA GTCTTTTCAC CCCAAGAATG AGAAACCCAC CAGGACCAGG
    GCCAAGTCAT TTCTGAGACG CATGGATACC CTGAGAGTGA AGGGAGCACT CGGGAGGCAT
    AAGGGACCAG GGCGAACAGG AGGCCTCGTT ATCAGCAGGC CCATGCTGCA GCAGGAGCCA
    GAGTCCTTTA AGACCATGCA GCATGTCCAG ATACCCAACG GAGATCTGCA GACCTCACCA
    CCAGCTGCCT GCAAGAAAGG CCTTCCAGGC TCCAGTAAAT CAAGCGGTGA GAACAGCCCC
    TTGGAGAGCA GCCGTGTGAG CACCCCATGT ATGAAGGAAC GCAAGTGCCA ACACGAGGCC
    AACAAGCGCG GTGGCATGTA CCTGGAGGAC CTGGATGTGC TGGCAGGGAC GACATTACCA
    GACACAGGGG ACCAAAACCA CATACACGGG TTTCACTCGC AAGAGAACCT GGTGGTCCAT
    GTTCCCAAGG ATCACAAACC AGGAACATTC CCCAAGGCAC TGTCTATAGA AAGCCTCTCG
    CCCACAGACA GCAGCAATGG GGTTAACTGG AGGACTGGGA GTATCTCCCT GGGCAGGCAA
    CAGGGCCCTG GCATAAGGGA ACCTAGACTC GTGTCATCCT GCCACAGGGC CAGCAGAGTC
    AGTATCTATG ACAACGTGCC CAGCTCACAT CTGTATGCCA GCACTGGAGA TCTGTTGGAC
    TTGGAGAAAG ACGGGCTCCT TCCACAGCTG GATGACATTA TACAGCATGT CAATGGCATA
    CAAGAGGTAG TGGATGACTG GTCAAGAAAT ATCTTGCCTG AACTGCAAAG TCACGATGCA
    GTGGCAGGGG ACCCTGGTCA ACCCCCATTT CAGTCTCCTC ATCAGATCAC TTTAGATTTT
    GAAGGCAACT CTGTCTCGGA AGGTCAGACA ACACCTAGTG ATGTGGAAAG GGACAGGACT
    TCTCTGAATG AATCGGACAC CACTGGGGTC AGAGAAAGAA GGGATTCTGG TGTGGGGGCC
    TCTCTGACCA GGCCAAACAG GCGCCTAAGG TGGAGTAGCT TCCAGCTCTC ACACCAGCCT
    CAGCTGTCTC CGGCCACGCC CCACATCAGC AGCCAGACGG CCGCCCAGCT GAACCTGCTC
    CAGCGCTTTT CTCTGCTTCG CCTCACAGCC ATCATGGAGA AGTACTCCAT GTCCAACAAG
    CACGGCTGGA CCTGCCTGTC TGCACAGAGC GCCCCGGGGG CCTTGCATGA CCTGGTTTCT
    GTGAATTCCA GGTCCGTCCC AAAGTTCATG AAGAGAATCA AAGCTCCTGA CTACAGAGAC
    AAGGCTGTCT TCGGTGTCCC GCTCATAGTC CATGTCCAGA GAACAGGACA GCCCCTGCCT
    CAGAGCATTC AACAAGCACT GAGGTATCTA CGTAGCAACT GTCTGGATCA GGTGGGTCTT
    TTCCGAAAGT CGGGAGTGAA GTCTCGAATC CATGCCCTAC GTCAGATGAA TGAGAACTTC
    CCTGACAACG TGAGCTATGA AGACCAGTCT GCCTATGACG TGGCAGATAT GGTAAAGCAG
    TTCTTCCGGG ACCTCCCTGA GCCCCTTTTC ACCAACAAGC TCAGTGAGAC CTTCCTCCAC
    ATCTATCAGT ACGTCCCCAA AGAACAGCGG CTGCAGGCCG TGCAGGCAGC CATCCTCCTG
    CTGGCGGATG AGAACCGGGA GGCCCTGCAG ACGCTCCTGT GCTTCCTGCA TGACGTAGTG
    AACTTGGTGG ACGAGAATCA GATGACGCCC ATGAATCTGG CCGTGTGCCT GGCCCCCTCC
    CTCTTTCATC TCAACTTGCT GAAAAAAGAA AGTTCCCCAA GAGTCATCCA GAAGAAATAC
    GCCACTGGGA AGCCAGATCA GAAAGACCTC AATGAAAATC TAGCCGCAGC TCAGGGGCTC
    GCCCACATGA TCACGGAATG CAACCGACTC TTCGAGGTTC CACACGAGAT GGTGGCCCAG
    TCTCGTAACT CCTACTTAGA GGCTGAGATC CACGCGCCCA GCCTAGAAGA CTTGGGAACT
    CAGCTGGCAG AGAATGGGGC AACTTTTCAC ACGTACCTGG AGCATCTTGT CCAAGGCCTC
    CAGAAAGAGG CTAAGGAGAA ATTCAAGGGG TGGGTCACGT GTTCCAGCCC TGACAACACG
    GACCTTGCTT TCAAAAAGGT GGGGGACGGG AACCCGCTGA AGCTGTGGAA GGCATCCGTG
    GAGGTGGAGG CACCGCCCTC CGTGGTGTTG AACCGCGTGC TGAGAGAACG TCACCTGTGG
    GATGAGGATT TCGTGCAGTG GAAGGTCGTG GAAACGTTGG ACAGACAGAC AGAAATATAC
    CAGTATGTGC TAAACAGCAT GGTTCCACAC CCCTCCAGAG ACTTCGTGGT GCTCAGGACC
    TGGAAGACCG ATTTGCCCAA AGGAATGTGC ACCCTGGTGT CCCTGTCTGT GGAGCATGAA
    GAAGCCCAGC TCATGGGTGA TGTGCGGGCG GTGGTGATGG ACTCTCAGTA CCTGATAGAG
    CCCTGTGGCT CCGGCAAGTC CAGGCTGACC CACATCTGCA GGATAGACCT GAAAGGCCAC
    TCCCCAGAAT GGTACAGCAA AGGCTTCGGA CACCTCTGTG CCGCAGAAGT TGCCAGAATT
    AGGAACTCTT TCCAGCCTCT CGTTGCTGAG GGTCCAGAAA CAAAAATCTA A

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

    CloneID ORa57878
    Clone ID Related Accession (Same CDS sequence) XM_017598426.1 , XM_017598425.1 , XM_017598423.1 , XM_017598424.1 , XM_017598427.1
    Accession Version XM_017598427.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3291bp)
    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 stAR-related lipid transfer protein 13 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005111.4) 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
    ATGTCAGCTG GAGTTCGGCC AAAGCTTAAG GTTCTCTCTG ACAGCCAAAG CAAAGAAAGA 
    GAAGAAATCG AGGCGAAGGA AGCATGTGAC TGGCTGCGAG CTGCCGGGTT CCCACAGTAC
    GCTCAGCTGT ATGAAGATTC GCAGTTTCCC ATCAACATTG CGGCTGTCAA AAAAGACCAT
    GATTTTCTTG AAAGGGACCT TGTAGAACCT CTTTGCAGAC GACTTAATAC GTTGAACAAG
    TGTGCCTCAA TGAGACTTGA TGTGAACTTC CAAAGGAAAA AGGGCGACGA CTCAGATGAG
    GAAGACCTGT GCATCAGCAA CAAATGGACT TTCCAGAGAA CCAGCCGCAG GTGGTCCCGT
    GTGGATGACC TGCATCCGCT CCTCCCCGGG GCAGACAGAA ACGGGTCCCC AGGAGGCCCT
    AGGATGAGAA ACACGGCCAG CAGTGAAAGC GTGCTCACAG ATCTGAGCGA GCCTGAGGTC
    TGCTCCATCC ACAGCGAAAG CAGCGGAGGC AGCGACGGCC GCGGCCAATC GGGGCATCAT
    TTTGCTGATG GCACGCCTGT GCTGGAGGGC ACCCTAGTCG GTGGCAGCCT CCCGCAGTCT
    CCCCGAGACA GTCTCAGCCA GTCTTTTCAC CCCAAGAATG AGAAACCCAC CAGGACCAGG
    GCCAAGTCAT TTCTGAGACG CATGGATACC CTGAGAGTGA AGGGAGCACT CGGGAGGCAT
    AAGGGACCAG GGCGAACAGG AGGCCTCGTT ATCAGCAGGC CCATGCTGCA GCAGGAGCCA
    GAGTCCTTTA AGACCATGCA GCATGTCCAG ATACCCAACG GAGATCTGCA GACCTCACCA
    CCAGCTGCCT GCAAGAAAGG CCTTCCAGGC TCCAGTAAAT CAAGCGGTGA GAACAGCCCC
    TTGGAGAGCA GCCGTGTGAG CACCCCATGT ATGAAGGAAC GCAAGTGCCA ACACGAGGCC
    AACAAGCGCG GTGGCATGTA CCTGGAGGAC CTGGATGTGC TGGCAGGGAC GACATTACCA
    GACACAGGGG ACCAAAACCA CATACACGGG TTTCACTCGC AAGAGAACCT GGTGGTCCAT
    GTTCCCAAGG ATCACAAACC AGGAACATTC CCCAAGGCAC TGTCTATAGA AAGCCTCTCG
    CCCACAGACA GCAGCAATGG GGTTAACTGG AGGACTGGGA GTATCTCCCT GGGCAGGCAA
    CAGGGCCCTG GCATAAGGGA ACCTAGACTC GTGTCATCCT GCCACAGGGC CAGCAGAGTC
    AGTATCTATG ACAACGTGCC CAGCTCACAT CTGTATGCCA GCACTGGAGA TCTGTTGGAC
    TTGGAGAAAG ACGGGCTCCT TCCACAGCTG GATGACATTA TACAGCATGT CAATGGCATA
    CAAGAGGTAG TGGATGACTG GTCAAGAAAT ATCTTGCCTG AACTGCAAAG TCACGATGCA
    GTGGCAGGGG ACCCTGGTCA ACCCCCATTT CAGTCTCCTC ATCAGATCAC TTTAGATTTT
    GAAGGCAACT CTGTCTCGGA AGGTCAGACA ACACCTAGTG ATGTGGAAAG GGACAGGACT
    TCTCTGAATG AATCGGACAC CACTGGGGTC AGAGAAAGAA GGGATTCTGG TGTGGGGGCC
    TCTCTGACCA GGCCAAACAG GCGCCTAAGG TGGAGTAGCT TCCAGCTCTC ACACCAGCCT
    CAGCTGTCTC CGGCCACGCC CCACATCAGC AGCCAGACGG CCGCCCAGCT GAACCTGCTC
    CAGCGCTTTT CTCTGCTTCG CCTCACAGCC ATCATGGAGA AGTACTCCAT GTCCAACAAG
    CACGGCTGGA CCTGCCTGTC TGCACAGAGC GCCCCGGGGG CCTTGCATGA CCTGGTTTCT
    GTGAATTCCA GGTCCGTCCC AAAGTTCATG AAGAGAATCA AAGCTCCTGA CTACAGAGAC
    AAGGCTGTCT TCGGTGTCCC GCTCATAGTC CATGTCCAGA GAACAGGACA GCCCCTGCCT
    CAGAGCATTC AACAAGCACT GAGGTATCTA CGTAGCAACT GTCTGGATCA GGTGGGTCTT
    TTCCGAAAGT CGGGAGTGAA GTCTCGAATC CATGCCCTAC GTCAGATGAA TGAGAACTTC
    CCTGACAACG TGAGCTATGA AGACCAGTCT GCCTATGACG TGGCAGATAT GGTAAAGCAG
    TTCTTCCGGG ACCTCCCTGA GCCCCTTTTC ACCAACAAGC TCAGTGAGAC CTTCCTCCAC
    ATCTATCAGT ACGTCCCCAA AGAACAGCGG CTGCAGGCCG TGCAGGCAGC CATCCTCCTG
    CTGGCGGATG AGAACCGGGA GGCCCTGCAG ACGCTCCTGT GCTTCCTGCA TGACGTAGTG
    AACTTGGTGG ACGAGAATCA GATGACGCCC ATGAATCTGG CCGTGTGCCT GGCCCCCTCC
    CTCTTTCATC TCAACTTGCT GAAAAAAGAA AGTTCCCCAA GAGTCATCCA GAAGAAATAC
    GCCACTGGGA AGCCAGATCA GAAAGACCTC AATGAAAATC TAGCCGCAGC TCAGGGGCTC
    GCCCACATGA TCACGGAATG CAACCGACTC TTCGAGGTTC CACACGAGAT GGTGGCCCAG
    TCTCGTAACT CCTACTTAGA GGCTGAGATC CACGCGCCCA GCCTAGAAGA CTTGGGAACT
    CAGCTGGCAG AGAATGGGGC AACTTTTCAC ACGTACCTGG AGCATCTTGT CCAAGGCCTC
    CAGAAAGAGG CTAAGGAGAA ATTCAAGGGG TGGGTCACGT GTTCCAGCCC TGACAACACG
    GACCTTGCTT TCAAAAAGGT GGGGGACGGG AACCCGCTGA AGCTGTGGAA GGCATCCGTG
    GAGGTGGAGG CACCGCCCTC CGTGGTGTTG AACCGCGTGC TGAGAGAACG TCACCTGTGG
    GATGAGGATT TCGTGCAGTG GAAGGTCGTG GAAACGTTGG ACAGACAGAC AGAAATATAC
    CAGTATGTGC TAAACAGCAT GGTTCCACAC CCCTCCAGAG ACTTCGTGGT GCTCAGGACC
    TGGAAGACCG ATTTGCCCAA AGGAATGTGC ACCCTGGTGT CCCTGTCTGT GGAGCATGAA
    GAAGCCCAGC TCATGGGTGA TGTGCGGGCG GTGGTGATGG ACTCTCAGTA CCTGATAGAG
    CCCTGTGGCT CCGGCAAGTC CAGGCTGACC CACATCTGCA GGATAGACCT GAAAGGCCAC
    TCCCCAGAAT GGTACAGCAA AGGCTTCGGA CACCTCTGTG CCGCAGAAGT TGCCAGAATT
    AGGAACTCTT TCCAGCCTCT CGTTGCTGAG GGTCCAGAAA CAAAAATCTA A

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

    RefSeq XP_017453916.1
    CDS4720..8010
    Translation

    Target ORF information:

    RefSeq Version XM_017598427.1
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus StAR-related lipid transfer domain containing 13 (Stard13), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017598427.1

    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
    ATGTCAGCTG GAGTTCGGCC AAAGCTTAAG GTTCTCTCTG ACAGCCAAAG CAAAGAAAGA 
    GAAGAAATCG AGGCGAAGGA AGCATGTGAC TGGCTGCGAG CTGCCGGGTT CCCACAGTAC
    GCTCAGCTGT ATGAAGATTC GCAGTTTCCC ATCAACATTG CGGCTGTCAA AAAAGACCAT
    GATTTTCTTG AAAGGGACCT TGTAGAACCT CTTTGCAGAC GACTTAATAC GTTGAACAAG
    TGTGCCTCAA TGAGACTTGA TGTGAACTTC CAAAGGAAAA AGGGCGACGA CTCAGATGAG
    GAAGACCTGT GCATCAGCAA CAAATGGACT TTCCAGAGAA CCAGCCGCAG GTGGTCCCGT
    GTGGATGACC TGCATCCGCT CCTCCCCGGG GCAGACAGAA ACGGGTCCCC AGGAGGCCCT
    AGGATGAGAA ACACGGCCAG CAGTGAAAGC GTGCTCACAG ATCTGAGCGA GCCTGAGGTC
    TGCTCCATCC ACAGCGAAAG CAGCGGAGGC AGCGACGGCC GCGGCCAATC GGGGCATCAT
    TTTGCTGATG GCACGCCTGT GCTGGAGGGC ACCCTAGTCG GTGGCAGCCT CCCGCAGTCT
    CCCCGAGACA GTCTCAGCCA GTCTTTTCAC CCCAAGAATG AGAAACCCAC CAGGACCAGG
    GCCAAGTCAT TTCTGAGACG CATGGATACC CTGAGAGTGA AGGGAGCACT CGGGAGGCAT
    AAGGGACCAG GGCGAACAGG AGGCCTCGTT ATCAGCAGGC CCATGCTGCA GCAGGAGCCA
    GAGTCCTTTA AGACCATGCA GCATGTCCAG ATACCCAACG GAGATCTGCA GACCTCACCA
    CCAGCTGCCT GCAAGAAAGG CCTTCCAGGC TCCAGTAAAT CAAGCGGTGA GAACAGCCCC
    TTGGAGAGCA GCCGTGTGAG CACCCCATGT ATGAAGGAAC GCAAGTGCCA ACACGAGGCC
    AACAAGCGCG GTGGCATGTA CCTGGAGGAC CTGGATGTGC TGGCAGGGAC GACATTACCA
    GACACAGGGG ACCAAAACCA CATACACGGG TTTCACTCGC AAGAGAACCT GGTGGTCCAT
    GTTCCCAAGG ATCACAAACC AGGAACATTC CCCAAGGCAC TGTCTATAGA AAGCCTCTCG
    CCCACAGACA GCAGCAATGG GGTTAACTGG AGGACTGGGA GTATCTCCCT GGGCAGGCAA
    CAGGGCCCTG GCATAAGGGA ACCTAGACTC GTGTCATCCT GCCACAGGGC CAGCAGAGTC
    AGTATCTATG ACAACGTGCC CAGCTCACAT CTGTATGCCA GCACTGGAGA TCTGTTGGAC
    TTGGAGAAAG ACGGGCTCCT TCCACAGCTG GATGACATTA TACAGCATGT CAATGGCATA
    CAAGAGGTAG TGGATGACTG GTCAAGAAAT ATCTTGCCTG AACTGCAAAG TCACGATGCA
    GTGGCAGGGG ACCCTGGTCA ACCCCCATTT CAGTCTCCTC ATCAGATCAC TTTAGATTTT
    GAAGGCAACT CTGTCTCGGA AGGTCAGACA ACACCTAGTG ATGTGGAAAG GGACAGGACT
    TCTCTGAATG AATCGGACAC CACTGGGGTC AGAGAAAGAA GGGATTCTGG TGTGGGGGCC
    TCTCTGACCA GGCCAAACAG GCGCCTAAGG TGGAGTAGCT TCCAGCTCTC ACACCAGCCT
    CAGCTGTCTC CGGCCACGCC CCACATCAGC AGCCAGACGG CCGCCCAGCT GAACCTGCTC
    CAGCGCTTTT CTCTGCTTCG CCTCACAGCC ATCATGGAGA AGTACTCCAT GTCCAACAAG
    CACGGCTGGA CCTGCCTGTC TGCACAGAGC GCCCCGGGGG CCTTGCATGA CCTGGTTTCT
    GTGAATTCCA GGTCCGTCCC AAAGTTCATG AAGAGAATCA AAGCTCCTGA CTACAGAGAC
    AAGGCTGTCT TCGGTGTCCC GCTCATAGTC CATGTCCAGA GAACAGGACA GCCCCTGCCT
    CAGAGCATTC AACAAGCACT GAGGTATCTA CGTAGCAACT GTCTGGATCA GGTGGGTCTT
    TTCCGAAAGT CGGGAGTGAA GTCTCGAATC CATGCCCTAC GTCAGATGAA TGAGAACTTC
    CCTGACAACG TGAGCTATGA AGACCAGTCT GCCTATGACG TGGCAGATAT GGTAAAGCAG
    TTCTTCCGGG ACCTCCCTGA GCCCCTTTTC ACCAACAAGC TCAGTGAGAC CTTCCTCCAC
    ATCTATCAGT ACGTCCCCAA AGAACAGCGG CTGCAGGCCG TGCAGGCAGC CATCCTCCTG
    CTGGCGGATG AGAACCGGGA GGCCCTGCAG ACGCTCCTGT GCTTCCTGCA TGACGTAGTG
    AACTTGGTGG ACGAGAATCA GATGACGCCC ATGAATCTGG CCGTGTGCCT GGCCCCCTCC
    CTCTTTCATC TCAACTTGCT GAAAAAAGAA AGTTCCCCAA GAGTCATCCA GAAGAAATAC
    GCCACTGGGA AGCCAGATCA GAAAGACCTC AATGAAAATC TAGCCGCAGC TCAGGGGCTC
    GCCCACATGA TCACGGAATG CAACCGACTC TTCGAGGTTC CACACGAGAT GGTGGCCCAG
    TCTCGTAACT CCTACTTAGA GGCTGAGATC CACGCGCCCA GCCTAGAAGA CTTGGGAACT
    CAGCTGGCAG AGAATGGGGC AACTTTTCAC ACGTACCTGG AGCATCTTGT CCAAGGCCTC
    CAGAAAGAGG CTAAGGAGAA ATTCAAGGGG TGGGTCACGT GTTCCAGCCC TGACAACACG
    GACCTTGCTT TCAAAAAGGT GGGGGACGGG AACCCGCTGA AGCTGTGGAA GGCATCCGTG
    GAGGTGGAGG CACCGCCCTC CGTGGTGTTG AACCGCGTGC TGAGAGAACG TCACCTGTGG
    GATGAGGATT TCGTGCAGTG GAAGGTCGTG GAAACGTTGG ACAGACAGAC AGAAATATAC
    CAGTATGTGC TAAACAGCAT GGTTCCACAC CCCTCCAGAG ACTTCGTGGT GCTCAGGACC
    TGGAAGACCG ATTTGCCCAA AGGAATGTGC ACCCTGGTGT CCCTGTCTGT GGAGCATGAA
    GAAGCCCAGC TCATGGGTGA TGTGCGGGCG GTGGTGATGG ACTCTCAGTA CCTGATAGAG
    CCCTGTGGCT CCGGCAAGTC CAGGCTGACC CACATCTGCA GGATAGACCT GAAAGGCCAC
    TCCCCAGAAT GGTACAGCAA AGGCTTCGGA CACCTCTGTG CCGCAGAAGT TGCCAGAATT
    AGGAACTCTT TCCAGCCTCT CGTTGCTGAG GGTCCAGAAA CAAAAATCTA A

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

    CloneID ORa57879
    Clone ID Related Accession (Same CDS sequence) XM_017598428.1
    Accession Version XM_017598428.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3351bp)
    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 stAR-related lipid transfer protein 13 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005111.4) 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
    ATGAGCAGCC CACGCAGAGC GCTGTATGCG CCTCTCCGGA GATCACTGAG CGAGCAGCTG 
    CGGGACTCCA GCGCCAGAGC CTGGGATCTG CTGTGGAGGA ACGTCCGTGA GAGGCGGCTG
    GCAGAAATCG AGGCGAAGGA AGCATGTGAC TGGCTGCGAG CTGCCGGGTT CCCACAGTAC
    GCTCAGCTGT ATGAAGATTC GCAGTTTCCC ATCAACATTG CGGCTGTCAA AAAAGACCAT
    GATTTTCTTG AAAGGGACCT TGTAGAACCT CTTTGCAGAC GACTTAATAC GTTGAACAAG
    TGTGCCTCAA TGAGACTTGA TGTGAACTTC CAAAGGAAAA AGGGCGACGA CTCAGATGAG
    GAAGACCTGT GCATCAGCAA CAAATGGACT TTCCAGAGAA CCAGCCGCAG GTGGTCCCGT
    GTGGATGACC TGCATCCGCT CCTCCCCGGG GCAGACAGAA ACGGGTCCCC AGGAGGCCCT
    AGGATGAGAA ACACGGCCAG CAGTGAAAGC GTGCTCACAG ATCTGAGCGA GCCTGAGGTC
    TGCTCCATCC ACAGCGAAAG CAGCGGAGGC AGCGACGGCC GCGGCCAATC GGGGCATCAT
    TTTGCTGATG GCACGCCTGT GCTGGAGGGC ACCCTAGTCG GTGGCAGCCT CCCGCAGTCT
    CCCCGAGACA GTCTCAGCCA GTCTTTTCAC CCCAAGAATG AGAAACCCAC CAGGACCAGG
    GCCAAGTCAT TTCTGAGACG CATGGATACC CTGAGAGTGA AGGGAGCACT CGGGAGGCAT
    AAGGGACCAG GGCGAACAGG AGGCCTCGTT ATCAGCAGGC CCATGCTGCA GCAGGAGCCA
    GAGTCCTTTA AGACCATGCA GCATGTCCAG ATACCCAACG GAGATCTGCA GACCTCACCA
    CCAGCTGCCT GCAAGAAAGG CCTTCCAGGC TCCAGTAAAT CAAGCGGTGA GAACAGCCCC
    TTGGAGAGCA GCCGTGTGAG CACCCCATGT ATGAAGGAAC GCAAGTGCCA ACACGAGGCC
    AACAAGCGCG GTGGCATGTA CCTGGAGGAC CTGGATGTGC TGGCAGGGAC GACATTACCA
    GACACAGGGG ACCAAAACCA CATACACGGG TTTCACTCGC AAGAGAACCT GGTGGTCCAT
    GTTCCCAAGG ATCACAAACC AGGAACATTC CCCAAGGCAC TGTCTATAGA AAGCCTCTCG
    CCCACAGACA GCAGCAATGG GGTTAACTGG AGGACTGGGA GTATCTCCCT GGGCAGGCAA
    CAGGGCCCTG GCATAAGGGA ACCTAGACTC GTGTCATCCT GCCACAGGGC CAGCAGAGTC
    AGTATCTATG ACAACGTGCC CAGCTCACAT CTGTATGCCA GCACTGGAGA TCTGTTGGAC
    TTGGAGAAAG ACGGGCTCCT TCCACAGCTG GATGACATTA TACAGCATGT CAATGGCATA
    CAAGAGGTAG TGGATGACTG GTCAAGAAAT ATCTTGCCTG AACTGCAAAG TCACGATGCA
    GTGGCAGGGG ACCCTGGTCA ACCCCCATTT CAGTCTCCTC ATCAGATCAC TTTAGATTTT
    GAAGGCAACT CTGTCTCGGA AGGTCAGACA ACACCTAGTG ATGTGGAAAG GGACAGGACT
    TCTCTGAATG AATCGGACAC CACTGGGGTC AGAGAAAGAA GGGATTCTGG TGTGGGGGCC
    TCTCTGACCA GGCCAAACAG GCGCCTAAGG TGGAGTAGCT TCCAGCTCTC ACACCAGCCT
    CAGCTGTCTC CGGCCACGCC CCACATCAGC AGCCAGACGG CCGCCCAGCT GAACCTGCTC
    CAGCGCTTTT CTCTGCTTCG CCTCACAGCC ATCATGGAGA AGTACTCCAT GTCCAACAAG
    CACGGCTGGA CCTGCCTGTC TGCACAGAGC GCCCCGGGGG CCTTGCATGA CCTGGTTTCT
    GTGAATTCCA GGTCCGTCCC AAAGTTCATG AAGAGAATCA AAGCTCCTGA CTACAGAGAC
    AAGGCTGTCT TCGGTGTCCC GCTCATAGTC CATGTCCAGA GAACAGGACA GCCCCTGCCT
    CAGAGCATTC AACAAGCACT GAGGTATCTA CGTAGCAACT GTCTGGATCA GGTGGGTCTT
    TTCCGAAAGT CGGGAGTGAA GTCTCGAATC CATGCCCTAC GTCAGATGAA TGAGAACTTC
    CCTGACAACG TGAGCTATGA AGACCAGTCT GCCTATGACG TGGCAGATAT GGTAAAGCAG
    TTCTTCCGGG ACCTCCCTGA GCCCCTTTTC ACCAACAAGC TCAGTGAGAC CTTCCTCCAC
    ATCTATCAGT ACGTCCCCAA AGAACAGCGG CTGCAGGCCG TGCAGGCAGC CATCCTCCTG
    CTGGCGGATG AGAACCGGGA GGCCCTGCAG ACGCTCCTGT GCTTCCTGCA TGACGTAGTG
    AACTTGGTGG ACGAGAATCA GATGACGCCC ATGAATCTGG CCGTGTGCCT GGCCCCCTCC
    CTCTTTCATC TCAACTTGCT GAAAAAAGAA AGTTCCCCAA GAGTCATCCA GAAGAAATAC
    GCCACTGGGA AGCCAGATCA GAAAGACCTC AATGAAAATC TAGCCGCAGC TCAGGGGCTC
    GCCCACATGA TCACGGAATG CAACCGACTC TTCGAGGTTC CACACGAGAT GGTGGCCCAG
    TCTCGTAACT CCTACTTAGA GGCTGAGATC CACGCGCCCA GCCTAGAAGA CTTGGGAACT
    CAGCTGGCAG AGAATGGGGC AACTTTTCAC ACGTACCTGG AGCATCTTGT CCAAGGCCTC
    CAGAAAGAGG CTAAGGAGAA ATTCAAGGGG TGGGTCACGT GTTCCAGCCC TGACAACACG
    GACCTTGCTT TCAAAAAGGT GGGGGACGGG AACCCGCTGA AGCTGTGGAA GGCATCCGTG
    GAGGTGGAGG CACCGCCCTC CGTGGTGTTG AACCGCGTGC TGAGAGAACG TCACCTGTGG
    GATGAGGATT TCGTGCAGTG GAAGGTCGTG GAAACGTTGG ACAGACAGAC AGAAATATAC
    CAGTATGTGC TAAACAGCAT GGTTCCACAC CCCTCCAGAG ACTTCGTGGT GCTCAGGACC
    TGGAAGACCG ATTTGCCCAA AGGAATGTGC ACCCTGGTGT CCCTGTCTGT GGAGCATGAA
    GAAGCCCAGC TCATGGGTGA TGTGCGGGCG GTGGTGATGG ACTCTCAGTA CCTGATAGAG
    CCCTGTGGCT CCGGCAAGTC CAGGCTGACC CACATCTGCA GGATAGACCT GAAAGGCCAC
    TCCCCAGAAT GGTACAGCAA AGGCTTCGGA CACCTCTGTG CCGCAGAAGT TGCCAGAATT
    AGGAACTCTT TCCAGCCTCT CGTTGCTGAG GGTCCAGAAA CAAAAATCTA A

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

    RefSeq XP_017453917.1
    CDS177..3527
    Translation

    Target ORF information:

    RefSeq Version XM_017598428.1
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus StAR-related lipid transfer domain containing 13 (Stard13), transcript variant X11, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017598428.1

    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
    ATGAGCAGCC CACGCAGAGC GCTGTATGCG CCTCTCCGGA GATCACTGAG CGAGCAGCTG 
    CGGGACTCCA GCGCCAGAGC CTGGGATCTG CTGTGGAGGA ACGTCCGTGA GAGGCGGCTG
    GCAGAAATCG AGGCGAAGGA AGCATGTGAC TGGCTGCGAG CTGCCGGGTT CCCACAGTAC
    GCTCAGCTGT ATGAAGATTC GCAGTTTCCC ATCAACATTG CGGCTGTCAA AAAAGACCAT
    GATTTTCTTG AAAGGGACCT TGTAGAACCT CTTTGCAGAC GACTTAATAC GTTGAACAAG
    TGTGCCTCAA TGAGACTTGA TGTGAACTTC CAAAGGAAAA AGGGCGACGA CTCAGATGAG
    GAAGACCTGT GCATCAGCAA CAAATGGACT TTCCAGAGAA CCAGCCGCAG GTGGTCCCGT
    GTGGATGACC TGCATCCGCT CCTCCCCGGG GCAGACAGAA ACGGGTCCCC AGGAGGCCCT
    AGGATGAGAA ACACGGCCAG CAGTGAAAGC GTGCTCACAG ATCTGAGCGA GCCTGAGGTC
    TGCTCCATCC ACAGCGAAAG CAGCGGAGGC AGCGACGGCC GCGGCCAATC GGGGCATCAT
    TTTGCTGATG GCACGCCTGT GCTGGAGGGC ACCCTAGTCG GTGGCAGCCT CCCGCAGTCT
    CCCCGAGACA GTCTCAGCCA GTCTTTTCAC CCCAAGAATG AGAAACCCAC CAGGACCAGG
    GCCAAGTCAT TTCTGAGACG CATGGATACC CTGAGAGTGA AGGGAGCACT CGGGAGGCAT
    AAGGGACCAG GGCGAACAGG AGGCCTCGTT ATCAGCAGGC CCATGCTGCA GCAGGAGCCA
    GAGTCCTTTA AGACCATGCA GCATGTCCAG ATACCCAACG GAGATCTGCA GACCTCACCA
    CCAGCTGCCT GCAAGAAAGG CCTTCCAGGC TCCAGTAAAT CAAGCGGTGA GAACAGCCCC
    TTGGAGAGCA GCCGTGTGAG CACCCCATGT ATGAAGGAAC GCAAGTGCCA ACACGAGGCC
    AACAAGCGCG GTGGCATGTA CCTGGAGGAC CTGGATGTGC TGGCAGGGAC GACATTACCA
    GACACAGGGG ACCAAAACCA CATACACGGG TTTCACTCGC AAGAGAACCT GGTGGTCCAT
    GTTCCCAAGG ATCACAAACC AGGAACATTC CCCAAGGCAC TGTCTATAGA AAGCCTCTCG
    CCCACAGACA GCAGCAATGG GGTTAACTGG AGGACTGGGA GTATCTCCCT GGGCAGGCAA
    CAGGGCCCTG GCATAAGGGA ACCTAGACTC GTGTCATCCT GCCACAGGGC CAGCAGAGTC
    AGTATCTATG ACAACGTGCC CAGCTCACAT CTGTATGCCA GCACTGGAGA TCTGTTGGAC
    TTGGAGAAAG ACGGGCTCCT TCCACAGCTG GATGACATTA TACAGCATGT CAATGGCATA
    CAAGAGGTAG TGGATGACTG GTCAAGAAAT ATCTTGCCTG AACTGCAAAG TCACGATGCA
    GTGGCAGGGG ACCCTGGTCA ACCCCCATTT CAGTCTCCTC ATCAGATCAC TTTAGATTTT
    GAAGGCAACT CTGTCTCGGA AGGTCAGACA ACACCTAGTG ATGTGGAAAG GGACAGGACT
    TCTCTGAATG AATCGGACAC CACTGGGGTC AGAGAAAGAA GGGATTCTGG TGTGGGGGCC
    TCTCTGACCA GGCCAAACAG GCGCCTAAGG TGGAGTAGCT TCCAGCTCTC ACACCAGCCT
    CAGCTGTCTC CGGCCACGCC CCACATCAGC AGCCAGACGG CCGCCCAGCT GAACCTGCTC
    CAGCGCTTTT CTCTGCTTCG CCTCACAGCC ATCATGGAGA AGTACTCCAT GTCCAACAAG
    CACGGCTGGA CCTGCCTGTC TGCACAGAGC GCCCCGGGGG CCTTGCATGA CCTGGTTTCT
    GTGAATTCCA GGTCCGTCCC AAAGTTCATG AAGAGAATCA AAGCTCCTGA CTACAGAGAC
    AAGGCTGTCT TCGGTGTCCC GCTCATAGTC CATGTCCAGA GAACAGGACA GCCCCTGCCT
    CAGAGCATTC AACAAGCACT GAGGTATCTA CGTAGCAACT GTCTGGATCA GGTGGGTCTT
    TTCCGAAAGT CGGGAGTGAA GTCTCGAATC CATGCCCTAC GTCAGATGAA TGAGAACTTC
    CCTGACAACG TGAGCTATGA AGACCAGTCT GCCTATGACG TGGCAGATAT GGTAAAGCAG
    TTCTTCCGGG ACCTCCCTGA GCCCCTTTTC ACCAACAAGC TCAGTGAGAC CTTCCTCCAC
    ATCTATCAGT ACGTCCCCAA AGAACAGCGG CTGCAGGCCG TGCAGGCAGC CATCCTCCTG
    CTGGCGGATG AGAACCGGGA GGCCCTGCAG ACGCTCCTGT GCTTCCTGCA TGACGTAGTG
    AACTTGGTGG ACGAGAATCA GATGACGCCC ATGAATCTGG CCGTGTGCCT GGCCCCCTCC
    CTCTTTCATC TCAACTTGCT GAAAAAAGAA AGTTCCCCAA GAGTCATCCA GAAGAAATAC
    GCCACTGGGA AGCCAGATCA GAAAGACCTC AATGAAAATC TAGCCGCAGC TCAGGGGCTC
    GCCCACATGA TCACGGAATG CAACCGACTC TTCGAGGTTC CACACGAGAT GGTGGCCCAG
    TCTCGTAACT CCTACTTAGA GGCTGAGATC CACGCGCCCA GCCTAGAAGA CTTGGGAACT
    CAGCTGGCAG AGAATGGGGC AACTTTTCAC ACGTACCTGG AGCATCTTGT CCAAGGCCTC
    CAGAAAGAGG CTAAGGAGAA ATTCAAGGGG TGGGTCACGT GTTCCAGCCC TGACAACACG
    GACCTTGCTT TCAAAAAGGT GGGGGACGGG AACCCGCTGA AGCTGTGGAA GGCATCCGTG
    GAGGTGGAGG CACCGCCCTC CGTGGTGTTG AACCGCGTGC TGAGAGAACG TCACCTGTGG
    GATGAGGATT TCGTGCAGTG GAAGGTCGTG GAAACGTTGG ACAGACAGAC AGAAATATAC
    CAGTATGTGC TAAACAGCAT GGTTCCACAC CCCTCCAGAG ACTTCGTGGT GCTCAGGACC
    TGGAAGACCG ATTTGCCCAA AGGAATGTGC ACCCTGGTGT CCCTGTCTGT GGAGCATGAA
    GAAGCCCAGC TCATGGGTGA TGTGCGGGCG GTGGTGATGG ACTCTCAGTA CCTGATAGAG
    CCCTGTGGCT CCGGCAAGTC CAGGCTGACC CACATCTGCA GGATAGACCT GAAAGGCCAC
    TCCCCAGAAT GGTACAGCAA AGGCTTCGGA CACCTCTGTG CCGCAGAAGT TGCCAGAATT
    AGGAACTCTT TCCAGCCTCT CGTTGCTGAG GGTCCAGAAA CAAAAATCTA A

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

    CloneID ORa57880
    Clone ID Related Accession (Same CDS sequence) XM_017598429.1
    Accession Version XM_017598429.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3294bp)
    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 stAR-related lipid transfer protein 13 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005111.4) 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
    ATGAGCAGCC CACGCAGAGC GCTGTATGCG CCTCTCCGGA GATCACTGAG CGAGCAGCTG 
    CGGGACTCCA GCGCCAGAGC CTGGGATCTG CTGTGGAGGA ACGTCCGTGA GAGGCGGCTG
    GCAGAAATCG AGGCGAAGGA AGCATGTGAC TGGCTGCGAG CTGCCGGGTT CCCACAGTAC
    GCTCAGCTGT ATGAAGATTC GCAGTTTCCC ATCAACATTG CGGCTGTCAA AAAAGACCAT
    GATTTTCTTG AAAGGGACCT TGTAGAACCT CTTTGCAGAC GACTTAATAC GTTGAACAAG
    TGTGCCTCAA TGAGACTTGA TGTGAACTTC CAAAGGAAAA AGGGCGACGA CTCAGATGAG
    GAAGACCTGT GCATCAGCAA CAAATGGACT TTCCAGAGAA CCAGCCGCAG GTGGTCCCGT
    GTGGATGACC TGCATCCGCT CCTCCCCGGG GCAGACAGAA ACGGGTCCCC AGGAGGCCCT
    AGGATGAGAA ACACGGCCAG CAGTGAAAGC GTGCTCACAG ATCTGAGCGA GCCTGAGGTC
    TGCTCCATCC ACAGCGAAAG CAGCGGAGGC AGCGACGGCC GCGGCCAATC GGGGCATCAT
    TTTGCTGATG GCACGCCTGT GCTGGAGGGC ACCCTAGTCG GTGGCAGCCT CCCGCAGTCT
    CCCCGAGACA GTCTCAGCCA GTCTTTTCAC CCCAAGAATG AGAAACCCAC CAGGACCAGG
    GCCAAGTCAT TTCTGAGACG CATGGATACC CTGAGAGTGA AGGGAGCACT CGGGAGGCAT
    AAGGGACCAG GGCGAACAGG AGGCCTCGTT ATCAGCAGGC CCATGCTGCA GCAGGAGCCA
    GAGTCCTTTA AGACCATGCA GCATGTCCAG ATACCCAACG GAGATCTGCA GACCTCACCA
    CCAGCTGCCT GCAAGAAAGG CCTTCCAGGC TCCAGTAAAT CAAGCGGTGA GAACAGCCCC
    TTGGAGAGCA GCCGTGTGAG CACCCCATGT ATGAAGGAAC GCAAGTGCCA ACACGAGGCC
    AACAAGCGCG GTGGCATGTA CCTGGAGGAC CTGGATGTGC TGGCAGGGAC GACATTACCA
    GACACAGGGG ACCAAAACCA CATACACGGG TTTCACTCGC AAGAGAACCT GGTGGTCCAT
    GTTCCCAAGG ATCACAAACC AGGAACATTC CCCAAGGCAC TGTCTATAGA AAGCCTCTCG
    CCCACAGACA GCAGCAATGG GGTTAACTGG AGGACTGGGA GTATCTCCCT GGGCAGGCAA
    CAGGGCCCTG GCATAAGGGA ACCTAGACTC GTGTCATCCT GCCACAGGGC CAGCAGAGTC
    AGTATCTATG ACAACGTGCC CAGCTCACAT CTGTATGCCA GCACTGGAGA TCTGTTGGAC
    TTGGAGAAAG ACGGGCTCCT TCCACAGCTG GATGACATTA TACAGCATGT CAATGGCATA
    CAAGAGGTAG TGGATGACTG GTCAAGAAAT ATCTTGCCTG AACTGCAAAG TCACGATGCA
    GTGGCAGGGG ACCCTGGTCA ACCCCCATTT CAGTCTCCTC ATCAGATCAC TTTAGATTTT
    GAAGGCAACT CTGTCTCGGA AGGTCAGACA ACACCTAGTG ATGTGGAAAG GGACAGGACT
    TCTCTGAATG AATCGGACAC CACTGGGGTC AGAGAAAGAA GGGATTCTGG TGTGGGGGCC
    TCTCTGACCA GGCCAAACAG GCGCCTAAGG TGGAGTAGCT TCCAGCTCTC ACACCAGCCT
    CAGCTGTCTC CGGCCACGCC CCACATCAGC AGCCAGACGG CCGCCCAGCT GAACCTGCTC
    CAGCGCTTTT CTCTGCTTCG CCTCACAGCC ATCATGGAGA AGTACTCCAT GTCCAACAAG
    CACGGCTGGA CCTGGTCCGT CCCAAAGTTC ATGAAGAGAA TCAAAGCTCC TGACTACAGA
    GACAAGGCTG TCTTCGGTGT CCCGCTCATA GTCCATGTCC AGAGAACAGG ACAGCCCCTG
    CCTCAGAGCA TTCAACAAGC ACTGAGGTAT CTACGTAGCA ACTGTCTGGA TCAGGTGGGT
    CTTTTCCGAA AGTCGGGAGT GAAGTCTCGA ATCCATGCCC TACGTCAGAT GAATGAGAAC
    TTCCCTGACA ACGTGAGCTA TGAAGACCAG TCTGCCTATG ACGTGGCAGA TATGGTAAAG
    CAGTTCTTCC GGGACCTCCC TGAGCCCCTT TTCACCAACA AGCTCAGTGA GACCTTCCTC
    CACATCTATC AGTACGTCCC CAAAGAACAG CGGCTGCAGG CCGTGCAGGC AGCCATCCTC
    CTGCTGGCGG ATGAGAACCG GGAGGCCCTG CAGACGCTCC TGTGCTTCCT GCATGACGTA
    GTGAACTTGG TGGACGAGAA TCAGATGACG CCCATGAATC TGGCCGTGTG CCTGGCCCCC
    TCCCTCTTTC ATCTCAACTT GCTGAAAAAA GAAAGTTCCC CAAGAGTCAT CCAGAAGAAA
    TACGCCACTG GGAAGCCAGA TCAGAAAGAC CTCAATGAAA ATCTAGCCGC AGCTCAGGGG
    CTCGCCCACA TGATCACGGA ATGCAACCGA CTCTTCGAGG TTCCACACGA GATGGTGGCC
    CAGTCTCGTA ACTCCTACTT AGAGGCTGAG ATCCACGCGC CCAGCCTAGA AGACTTGGGA
    ACTCAGCTGG CAGAGAATGG GGCAACTTTT CACACGTACC TGGAGCATCT TGTCCAAGGC
    CTCCAGAAAG AGGCTAAGGA GAAATTCAAG GGGTGGGTCA CGTGTTCCAG CCCTGACAAC
    ACGGACCTTG CTTTCAAAAA GGTGGGGGAC GGGAACCCGC TGAAGCTGTG GAAGGCATCC
    GTGGAGGTGG AGGCACCGCC CTCCGTGGTG TTGAACCGCG TGCTGAGAGA ACGTCACCTG
    TGGGATGAGG ATTTCGTGCA GTGGAAGGTC GTGGAAACGT TGGACAGACA GACAGAAATA
    TACCAGTATG TGCTAAACAG CATGGTTCCA CACCCCTCCA GAGACTTCGT GGTGCTCAGG
    ACCTGGAAGA CCGATTTGCC CAAAGGAATG TGCACCCTGG TGTCCCTGTC TGTGGAGCAT
    GAAGAAGCCC AGCTCATGGG TGATGTGCGG GCGGTGGTGA TGGACTCTCA GTACCTGATA
    GAGCCCTGTG GCTCCGGCAA GTCCAGGCTG ACCCACATCT GCAGGATAGA CCTGAAAGGC
    CACTCCCCAG AATGGTACAG CAAAGGCTTC GGACACCTCT GTGCCGCAGA AGTTGCCAGA
    ATTAGGAACT CTTTCCAGCC TCTCGTTGCT GAGGGTCCAG AAACAAAAAT CTAA

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

    RefSeq XP_017453918.1
    CDS146..3439
    Translation

    Target ORF information:

    RefSeq Version XM_017598429.1
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus StAR-related lipid transfer domain containing 13 (Stard13), transcript variant X12, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017598429.1

    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
    ATGAGCAGCC CACGCAGAGC GCTGTATGCG CCTCTCCGGA GATCACTGAG CGAGCAGCTG 
    CGGGACTCCA GCGCCAGAGC CTGGGATCTG CTGTGGAGGA ACGTCCGTGA GAGGCGGCTG
    GCAGAAATCG AGGCGAAGGA AGCATGTGAC TGGCTGCGAG CTGCCGGGTT CCCACAGTAC
    GCTCAGCTGT ATGAAGATTC GCAGTTTCCC ATCAACATTG CGGCTGTCAA AAAAGACCAT
    GATTTTCTTG AAAGGGACCT TGTAGAACCT CTTTGCAGAC GACTTAATAC GTTGAACAAG
    TGTGCCTCAA TGAGACTTGA TGTGAACTTC CAAAGGAAAA AGGGCGACGA CTCAGATGAG
    GAAGACCTGT GCATCAGCAA CAAATGGACT TTCCAGAGAA CCAGCCGCAG GTGGTCCCGT
    GTGGATGACC TGCATCCGCT CCTCCCCGGG GCAGACAGAA ACGGGTCCCC AGGAGGCCCT
    AGGATGAGAA ACACGGCCAG CAGTGAAAGC GTGCTCACAG ATCTGAGCGA GCCTGAGGTC
    TGCTCCATCC ACAGCGAAAG CAGCGGAGGC AGCGACGGCC GCGGCCAATC GGGGCATCAT
    TTTGCTGATG GCACGCCTGT GCTGGAGGGC ACCCTAGTCG GTGGCAGCCT CCCGCAGTCT
    CCCCGAGACA GTCTCAGCCA GTCTTTTCAC CCCAAGAATG AGAAACCCAC CAGGACCAGG
    GCCAAGTCAT TTCTGAGACG CATGGATACC CTGAGAGTGA AGGGAGCACT CGGGAGGCAT
    AAGGGACCAG GGCGAACAGG AGGCCTCGTT ATCAGCAGGC CCATGCTGCA GCAGGAGCCA
    GAGTCCTTTA AGACCATGCA GCATGTCCAG ATACCCAACG GAGATCTGCA GACCTCACCA
    CCAGCTGCCT GCAAGAAAGG CCTTCCAGGC TCCAGTAAAT CAAGCGGTGA GAACAGCCCC
    TTGGAGAGCA GCCGTGTGAG CACCCCATGT ATGAAGGAAC GCAAGTGCCA ACACGAGGCC
    AACAAGCGCG GTGGCATGTA CCTGGAGGAC CTGGATGTGC TGGCAGGGAC GACATTACCA
    GACACAGGGG ACCAAAACCA CATACACGGG TTTCACTCGC AAGAGAACCT GGTGGTCCAT
    GTTCCCAAGG ATCACAAACC AGGAACATTC CCCAAGGCAC TGTCTATAGA AAGCCTCTCG
    CCCACAGACA GCAGCAATGG GGTTAACTGG AGGACTGGGA GTATCTCCCT GGGCAGGCAA
    CAGGGCCCTG GCATAAGGGA ACCTAGACTC GTGTCATCCT GCCACAGGGC CAGCAGAGTC
    AGTATCTATG ACAACGTGCC CAGCTCACAT CTGTATGCCA GCACTGGAGA TCTGTTGGAC
    TTGGAGAAAG ACGGGCTCCT TCCACAGCTG GATGACATTA TACAGCATGT CAATGGCATA
    CAAGAGGTAG TGGATGACTG GTCAAGAAAT ATCTTGCCTG AACTGCAAAG TCACGATGCA
    GTGGCAGGGG ACCCTGGTCA ACCCCCATTT CAGTCTCCTC ATCAGATCAC TTTAGATTTT
    GAAGGCAACT CTGTCTCGGA AGGTCAGACA ACACCTAGTG ATGTGGAAAG GGACAGGACT
    TCTCTGAATG AATCGGACAC CACTGGGGTC AGAGAAAGAA GGGATTCTGG TGTGGGGGCC
    TCTCTGACCA GGCCAAACAG GCGCCTAAGG TGGAGTAGCT TCCAGCTCTC ACACCAGCCT
    CAGCTGTCTC CGGCCACGCC CCACATCAGC AGCCAGACGG CCGCCCAGCT GAACCTGCTC
    CAGCGCTTTT CTCTGCTTCG CCTCACAGCC ATCATGGAGA AGTACTCCAT GTCCAACAAG
    CACGGCTGGA CCTGGTCCGT CCCAAAGTTC ATGAAGAGAA TCAAAGCTCC TGACTACAGA
    GACAAGGCTG TCTTCGGTGT CCCGCTCATA GTCCATGTCC AGAGAACAGG ACAGCCCCTG
    CCTCAGAGCA TTCAACAAGC ACTGAGGTAT CTACGTAGCA ACTGTCTGGA TCAGGTGGGT
    CTTTTCCGAA AGTCGGGAGT GAAGTCTCGA ATCCATGCCC TACGTCAGAT GAATGAGAAC
    TTCCCTGACA ACGTGAGCTA TGAAGACCAG TCTGCCTATG ACGTGGCAGA TATGGTAAAG
    CAGTTCTTCC GGGACCTCCC TGAGCCCCTT TTCACCAACA AGCTCAGTGA GACCTTCCTC
    CACATCTATC AGTACGTCCC CAAAGAACAG CGGCTGCAGG CCGTGCAGGC AGCCATCCTC
    CTGCTGGCGG ATGAGAACCG GGAGGCCCTG CAGACGCTCC TGTGCTTCCT GCATGACGTA
    GTGAACTTGG TGGACGAGAA TCAGATGACG CCCATGAATC TGGCCGTGTG CCTGGCCCCC
    TCCCTCTTTC ATCTCAACTT GCTGAAAAAA GAAAGTTCCC CAAGAGTCAT CCAGAAGAAA
    TACGCCACTG GGAAGCCAGA TCAGAAAGAC CTCAATGAAA ATCTAGCCGC AGCTCAGGGG
    CTCGCCCACA TGATCACGGA ATGCAACCGA CTCTTCGAGG TTCCACACGA GATGGTGGCC
    CAGTCTCGTA ACTCCTACTT AGAGGCTGAG ATCCACGCGC CCAGCCTAGA AGACTTGGGA
    ACTCAGCTGG CAGAGAATGG GGCAACTTTT CACACGTACC TGGAGCATCT TGTCCAAGGC
    CTCCAGAAAG AGGCTAAGGA GAAATTCAAG GGGTGGGTCA CGTGTTCCAG CCCTGACAAC
    ACGGACCTTG CTTTCAAAAA GGTGGGGGAC GGGAACCCGC TGAAGCTGTG GAAGGCATCC
    GTGGAGGTGG AGGCACCGCC CTCCGTGGTG TTGAACCGCG TGCTGAGAGA ACGTCACCTG
    TGGGATGAGG ATTTCGTGCA GTGGAAGGTC GTGGAAACGT TGGACAGACA GACAGAAATA
    TACCAGTATG TGCTAAACAG CATGGTTCCA CACCCCTCCA GAGACTTCGT GGTGCTCAGG
    ACCTGGAAGA CCGATTTGCC CAAAGGAATG TGCACCCTGG TGTCCCTGTC TGTGGAGCAT
    GAAGAAGCCC AGCTCATGGG TGATGTGCGG GCGGTGGTGA TGGACTCTCA GTACCTGATA
    GAGCCCTGTG GCTCCGGCAA GTCCAGGCTG ACCCACATCT GCAGGATAGA CCTGAAAGGC
    CACTCCCCAG AATGGTACAG CAAAGGCTTC GGACACCTCT GTGCCGCAGA AGTTGCCAGA
    ATTAGGAACT CTTTCCAGCC TCTCGTTGCT GAGGGTCCAG AAACAAAAAT CTAA

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

    CloneID ORa13354
    Clone ID Related Accession (Same CDS sequence) NM_001109060.1
    Accession Version NM_001109060.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3339bp)
    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 2017-10-01
    Organism Rattus norvegicus(Norway rat)
    Product stAR-related lipid transfer protein 13
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CH474108.1. On or before Oct 4, 2007 this sequence version replaced XM_573341.2, XM_001056759.1, XM_001056824.1. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMD00052296, SAMD00052297 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## gene product(s) localized to mito. :: inferred from homology ##RefSeq-Attributes-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
    ATGTTCAGTC AGGTGCCCAG GACGCCGGCT GCAGGCTGCT ACTGTCTAAA TCCCTTGACA 
    CCTGAGAGCC AGGAGATGTA CTTGCGATTT GATCAGACTG CCAGACGCTC TCCCTACAGG
    ATGAGCCGGA TCCTAGCGCG CCATCACCTA GTGACTAAAA TTCAGCAAGA AATCGAGGCG
    AAGGAAGCAT GTGACTGGCT GCGAGCTGCC GGGTTCCCAC AGTACGCTCA GCTGTATGAA
    GATTCGCAGT TTCCCATCAA CATTGCGGCT GTCAAAAAAG ACCATGATTT TCTTGAAAGG
    GACCTTGTAG AACCTCTTTG CAGACGACTT AATACGTTGA ACAAGTGTGC CTCAATGAGA
    CTTGATGTGA ACTTCCAAAG GAAAAAGGGC GACGACTCAG ATGAGGAAGA CCTGTGCATC
    AGCAACAAAT GGACTTTCCA GAGAACCAGC CGCAGGTGGT CCCGTGTGGA TGACCTGCAT
    CCGCTCCTCC CCGGGGCAGA CAGAAACGGG TCCCCAGGAG GCCCTAGGAT GAGAAACACG
    GCCAGCAGTG AAAGCGTGCT CACAGATCTG AGCGAGCCTG AGGTCTGCTC CATCCACAGC
    GAAAGCAGCG GAGGCAGCGA CGGCCGCGGC CAATCGGGGC ATCATTTTGC TGATGGCACG
    CCTGTGCTGG AGGGCACCCT AGTCGGTGGC AGCCTCCCGC AGTCTCCCCG AGACAGTCTC
    AGCCAGTCTT TTCACCCCAA GAATGAGAAA CCCACCAGGA CCAGGGCCAA GTCATTTCTG
    AGACGCATGG ATACCCTGAG AGTGAAGGGA GCACTCGGGA GGCATAAGGG ACCAGGGCGA
    ACAGGAGGCC TCGTTATCAG CAGGCCCATG CTGCAGCAGG AGCCAGAGTC CTTTAAGACC
    ATGCAGCATG TCCAGATACC CAACGGAGAT CTGCAGACCT CACCACCAGC TGCCTGCAAG
    AAAGGCCTTC CAGGCTCCAG TAAATCAAGC GGTGAGAACA GCCCCTTGGA GAGCAGCCGT
    GTGAGCACCC CATGTATGAA GGAACGCAAG TGCCAACACG AGGCCAACAA GCGCGGTGGC
    ATGTACCTGG AGGACCTGGA TGTGCTGGCA GGGACGACAT TACCAGACAC AGGGGACCAA
    AACCACATAC ACGGGTTTCA CTCGCAAGAG AACCTGGTGG TCCATGTTCC CAAGGATCAC
    AAACCAGGAA CATTCCCCAA GGCACTGTCT ATAGAAAGCC TCTCGCCCAC AGACAGCAGC
    AATGGGGTTA ACTGGAGGAC TGGGAGTATC TCCCTGGGCA GGCAACAGGG CCCTGGCATA
    AGGGAACCTA GACTCGTGTC ATCCTGCCAC AGGGCCAGCA GAGTCAGTAT CTATGACAAC
    GTGCCCAGCT CACATCTGTA TGCCAGCACT GGAGATCTGT TGGACTTGGA GAAAGACGGG
    CTCCTTCCAC AGCTGGATGA CATTATACAG CATGTCAATG GCATACAAGA GGTAGTGGAT
    GACTGGTCAA GAAATATCTT GCCTGAACTG CAAAGTCACG ATGCAGTGGC AGGGGACCCT
    GGTCAACCCC CATTTCAGTC TCCTCATCAG ATCACTTTAG ATTTTGAAGG CAACTCTGTC
    TCGGAAGGTC AGACAACACC TAGTGATGTG GAAAGGGACA GGACTTCTCT GAATGAATCG
    GACACCACTG GGGTCAGAGA AAGAAGGGAT TCTGGTGTGG GGGCCTCTCT GACCAGGCCA
    AACAGGCGCC TAAGGTGGAG TAGCTTCCAG CTCTCACACC AGCCTCAGCT GTCTCCGGCC
    ACGCCCCACA TCAGCAGCCA GACGGCCGCC CAGCTGAACC TGCTCCAGCG CTTTTCTCTG
    CTTCGCCTCA CAGCCATCAT GGAGAAGTAC TCCATGTCCA ACAAGCACGG CTGGACCTGG
    TCCGTCCCAA AGTTCATGAA GAGAATCAAA GCTCCTGACT ACAGAGACAA GGCTGTCTTC
    GGTGTCCCGC TCATAGTCCA TGTCCAGAGA ACAGGACAGC CCCTGCCTCA GAGCATTCAA
    CAAGCACTGA GGTATCTACG TAGCAACTGT CTGGATCAGG TGGGTCTTTT CCGAAAGTCG
    GGAGTGAAGT CTCGAATCCA TGCCCTACGT CAGATGAATG AGAACTTCCC TGACAACGTG
    AGCTATGAAG ACCAGTCTGC CTATGACGTG GCAGATATGG TAAAGCAGTT CTTCCGGGAC
    CTCCCTGAGC CCCTTTTCAC CAACAAGCTC AGTGAGACCT TCCTCCACAT CTATCAGTAC
    GTCCCCAAAG AACAGCGGCT GCAGGCCGTG CAGGCAGCCA TCCTCCTGCT GGCGGATGAG
    AACCGGGAGG CCCTGCAGAC GCTCCTGTGC TTCCTGCATG ACGTAGTGAA CTTGGTGGAC
    GAGAATCAGA TGACGCCCAT GAATCTGGCC GTGTGCCTGG CCCCCTCCCT CTTTCATCTC
    AACTTGCTGA AAAAAGAAAG TTCCCCAAGA GTCATCCAGA AGAAATACGC CACTGGGAAG
    CCAGATCAGA AAGACCTCAA TGAAAATCTA GCCGCAGCTC AGGGGCTCGC CCACATGATC
    ACGGAATGCA ACCGACTCTT CGAGGTTCCA CACGAGATGG TGGCCCAGTC TCGTAACTCC
    TACTTAGAGG CTGAGATCCA CGCGCCCAGC CTAGAAGACT TGGGAACTCA GCTGGCAGAG
    AATGGGGCAA CTTTTCACAC GTACCTGGAG CATCTTGTCC AAGGCCTCCA GAAAGAGGCT
    AAGGAGAAAT TCAAGGGGTG GGTCACGTGT TCCAGCCCTG ACAACACGGA CCTTGCTTTC
    AAAAAGGTGG GGGACGGGAA CCCGCTGAAG CTGTGGAAGG CATCCGTGGA GGTGGAGGCA
    CCGCCCTCCG TGGTGTTGAA CCGCGTGCTG AGAGAACGTC ACCTGTGGGA TGAGGATTTC
    GTGCAGTGGA AGGTCGTGGA AACGTTGGAC AGACAGACAG AAATATACCA GTATGTGCTA
    AACAGCATGG TTCCACACCC CTCCAGAGAC TTCGTGGTGC TCAGGACCTG GAAGACCGAT
    TTGCCCAAAG GAATGTGCAC CCTGGTGTCC CTGTCTGTGG AGCATGAAGA AGCCCAGCTC
    ATGGGTGGTG TGCGGGCGGT GGTGATGGAC TCTCAGTACC TGATAGAGCC CTGTGGCTCC
    GGCAAGTCCA GGCTGACCCA CATCTGCAGG ATAGACCTGA AAGGCCACTC CCCAGAATGG
    TACAGCAAAG GCTTCGGACA CCTCTGTGCC GCAGAAGTTG CCAGAATTAG GAACTCTTTC
    CAGCCTCTCG TTGCTGAGGG TCCAGAAACA AAAATCTAA

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

    RefSeq NP_001102530.1
    CDS106..3444
    Translation

    Target ORF information:

    RefSeq Version NM_001109060.1
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus StAR-related lipid transfer domain containing 13 (Stard13), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001109060.1

    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
    ATGTTCAGTC AGGTGCCCAG GACGCCGGCT GCAGGCTGCT ACTGTCTAAA TCCCTTGACA 
    CCTGAGAGCC AGGAGATGTA CTTGCGATTT GATCAGACTG CCAGACGCTC TCCCTACAGG
    ATGAGCCGGA TCCTAGCGCG CCATCACCTA GTGACTAAAA TTCAGCAAGA AATCGAGGCG
    AAGGAAGCAT GTGACTGGCT GCGAGCTGCC GGGTTCCCAC AGTACGCTCA GCTGTATGAA
    GATTCGCAGT TTCCCATCAA CATTGCGGCT GTCAAAAAAG ACCATGATTT TCTTGAAAGG
    GACCTTGTAG AACCTCTTTG CAGACGACTT AATACGTTGA ACAAGTGTGC CTCAATGAGA
    CTTGATGTGA ACTTCCAAAG GAAAAAGGGC GACGACTCAG ATGAGGAAGA CCTGTGCATC
    AGCAACAAAT GGACTTTCCA GAGAACCAGC CGCAGGTGGT CCCGTGTGGA TGACCTGCAT
    CCGCTCCTCC CCGGGGCAGA CAGAAACGGG TCCCCAGGAG GCCCTAGGAT GAGAAACACG
    GCCAGCAGTG AAAGCGTGCT CACAGATCTG AGCGAGCCTG AGGTCTGCTC CATCCACAGC
    GAAAGCAGCG GAGGCAGCGA CGGCCGCGGC CAATCGGGGC ATCATTTTGC TGATGGCACG
    CCTGTGCTGG AGGGCACCCT AGTCGGTGGC AGCCTCCCGC AGTCTCCCCG AGACAGTCTC
    AGCCAGTCTT TTCACCCCAA GAATGAGAAA CCCACCAGGA CCAGGGCCAA GTCATTTCTG
    AGACGCATGG ATACCCTGAG AGTGAAGGGA GCACTCGGGA GGCATAAGGG ACCAGGGCGA
    ACAGGAGGCC TCGTTATCAG CAGGCCCATG CTGCAGCAGG AGCCAGAGTC CTTTAAGACC
    ATGCAGCATG TCCAGATACC CAACGGAGAT CTGCAGACCT CACCACCAGC TGCCTGCAAG
    AAAGGCCTTC CAGGCTCCAG TAAATCAAGC GGTGAGAACA GCCCCTTGGA GAGCAGCCGT
    GTGAGCACCC CATGTATGAA GGAACGCAAG TGCCAACACG AGGCCAACAA GCGCGGTGGC
    ATGTACCTGG AGGACCTGGA TGTGCTGGCA GGGACGACAT TACCAGACAC AGGGGACCAA
    AACCACATAC ACGGGTTTCA CTCGCAAGAG AACCTGGTGG TCCATGTTCC CAAGGATCAC
    AAACCAGGAA CATTCCCCAA GGCACTGTCT ATAGAAAGCC TCTCGCCCAC AGACAGCAGC
    AATGGGGTTA ACTGGAGGAC TGGGAGTATC TCCCTGGGCA GGCAACAGGG CCCTGGCATA
    AGGGAACCTA GACTCGTGTC ATCCTGCCAC AGGGCCAGCA GAGTCAGTAT CTATGACAAC
    GTGCCCAGCT CACATCTGTA TGCCAGCACT GGAGATCTGT TGGACTTGGA GAAAGACGGG
    CTCCTTCCAC AGCTGGATGA CATTATACAG CATGTCAATG GCATACAAGA GGTAGTGGAT
    GACTGGTCAA GAAATATCTT GCCTGAACTG CAAAGTCACG ATGCAGTGGC AGGGGACCCT
    GGTCAACCCC CATTTCAGTC TCCTCATCAG ATCACTTTAG ATTTTGAAGG CAACTCTGTC
    TCGGAAGGTC AGACAACACC TAGTGATGTG GAAAGGGACA GGACTTCTCT GAATGAATCG
    GACACCACTG GGGTCAGAGA AAGAAGGGAT TCTGGTGTGG GGGCCTCTCT GACCAGGCCA
    AACAGGCGCC TAAGGTGGAG TAGCTTCCAG CTCTCACACC AGCCTCAGCT GTCTCCGGCC
    ACGCCCCACA TCAGCAGCCA GACGGCCGCC CAGCTGAACC TGCTCCAGCG CTTTTCTCTG
    CTTCGCCTCA CAGCCATCAT GGAGAAGTAC TCCATGTCCA ACAAGCACGG CTGGACCTGG
    TCCGTCCCAA AGTTCATGAA GAGAATCAAA GCTCCTGACT ACAGAGACAA GGCTGTCTTC
    GGTGTCCCGC TCATAGTCCA TGTCCAGAGA ACAGGACAGC CCCTGCCTCA GAGCATTCAA
    CAAGCACTGA GGTATCTACG TAGCAACTGT CTGGATCAGG TGGGTCTTTT CCGAAAGTCG
    GGAGTGAAGT CTCGAATCCA TGCCCTACGT CAGATGAATG AGAACTTCCC TGACAACGTG
    AGCTATGAAG ACCAGTCTGC CTATGACGTG GCAGATATGG TAAAGCAGTT CTTCCGGGAC
    CTCCCTGAGC CCCTTTTCAC CAACAAGCTC AGTGAGACCT TCCTCCACAT CTATCAGTAC
    GTCCCCAAAG AACAGCGGCT GCAGGCCGTG CAGGCAGCCA TCCTCCTGCT GGCGGATGAG
    AACCGGGAGG CCCTGCAGAC GCTCCTGTGC TTCCTGCATG ACGTAGTGAA CTTGGTGGAC
    GAGAATCAGA TGACGCCCAT GAATCTGGCC GTGTGCCTGG CCCCCTCCCT CTTTCATCTC
    AACTTGCTGA AAAAAGAAAG TTCCCCAAGA GTCATCCAGA AGAAATACGC CACTGGGAAG
    CCAGATCAGA AAGACCTCAA TGAAAATCTA GCCGCAGCTC AGGGGCTCGC CCACATGATC
    ACGGAATGCA ACCGACTCTT CGAGGTTCCA CACGAGATGG TGGCCCAGTC TCGTAACTCC
    TACTTAGAGG CTGAGATCCA CGCGCCCAGC CTAGAAGACT TGGGAACTCA GCTGGCAGAG
    AATGGGGCAA CTTTTCACAC GTACCTGGAG CATCTTGTCC AAGGCCTCCA GAAAGAGGCT
    AAGGAGAAAT TCAAGGGGTG GGTCACGTGT TCCAGCCCTG ACAACACGGA CCTTGCTTTC
    AAAAAGGTGG GGGACGGGAA CCCGCTGAAG CTGTGGAAGG CATCCGTGGA GGTGGAGGCA
    CCGCCCTCCG TGGTGTTGAA CCGCGTGCTG AGAGAACGTC ACCTGTGGGA TGAGGATTTC
    GTGCAGTGGA AGGTCGTGGA AACGTTGGAC AGACAGACAG AAATATACCA GTATGTGCTA
    AACAGCATGG TTCCACACCC CTCCAGAGAC TTCGTGGTGC TCAGGACCTG GAAGACCGAT
    TTGCCCAAAG GAATGTGCAC CCTGGTGTCC CTGTCTGTGG AGCATGAAGA AGCCCAGCTC
    ATGGGTGGTG TGCGGGCGGT GGTGATGGAC TCTCAGTACC TGATAGAGCC CTGTGGCTCC
    GGCAAGTCCA GGCTGACCCA CATCTGCAGG ATAGACCTGA AAGGCCACTC CCCAGAATGG
    TACAGCAAAG GCTTCGGACA CCTCTGTGCC GCAGAAGTTG CCAGAATTAG GAACTCTTTC
    CAGCCTCTCG TTGCTGAGGG TCCAGAAACA AAAATCTAA

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

    CloneID ORa34519
    Clone ID Related Accession (Same CDS sequence) XM_006248743.3
    Accession Version XM_006248743.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3396bp)
    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 stAR-related lipid transfer protein 13 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005111.4) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_006248743.2. ##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
    ATGTTCAGTC AGGTGCCCAG GACGCCGGCT GCAGGCTGCT ACTGTCTAAA TCCCTTGACA 
    CCTGAGAGCC AGGAGATGTA CTTGCGATTT GATCAGACTG CCAGACGCTC TCCCTACAGG
    ATGAGCCGGA TCCTAGCGCG CCATCACCTA GTGACTAAAA TTCAGCAAGA AATCGAGGCG
    AAGGAAGCAT GTGACTGGCT GCGAGCTGCC GGGTTCCCAC AGTACGCTCA GCTGTATGAA
    GATTCGCAGT TTCCCATCAA CATTGCGGCT GTCAAAAAAG ACCATGATTT TCTTGAAAGG
    GACCTTGTAG AACCTCTTTG CAGACGACTT AATACGTTGA ACAAGTGTGC CTCAATGAGA
    CTTGATGTGA ACTTCCAAAG GAAAAAGGGC GACGACTCAG ATGAGGAAGA CCTGTGCATC
    AGCAACAAAT GGACTTTCCA GAGAACCAGC CGCAGGTGGT CCCGTGTGGA TGACCTGCAT
    CCGCTCCTCC CCGGGGCAGA CAGAAACGGG TCCCCAGGAG GCCCTAGGAT GAGAAACACG
    GCCAGCAGTG AAAGCGTGCT CACAGATCTG AGCGAGCCTG AGGTCTGCTC CATCCACAGC
    GAAAGCAGCG GAGGCAGCGA CGGCCGCGGC CAATCGGGGC ATCATTTTGC TGATGGCACG
    CCTGTGCTGG AGGGCACCCT AGTCGGTGGC AGCCTCCCGC AGTCTCCCCG AGACAGTCTC
    AGCCAGTCTT TTCACCCCAA GAATGAGAAA CCCACCAGGA CCAGGGCCAA GTCATTTCTG
    AGACGCATGG ATACCCTGAG AGTGAAGGGA GCACTCGGGA GGCATAAGGG ACCAGGGCGA
    ACAGGAGGCC TCGTTATCAG CAGGCCCATG CTGCAGCAGG AGCCAGAGTC CTTTAAGACC
    ATGCAGCATG TCCAGATACC CAACGGAGAT CTGCAGACCT CACCACCAGC TGCCTGCAAG
    AAAGGCCTTC CAGGCTCCAG TAAATCAAGC GGTGAGAACA GCCCCTTGGA GAGCAGCCGT
    GTGAGCACCC CATGTATGAA GGAACGCAAG TGCCAACACG AGGCCAACAA GCGCGGTGGC
    ATGTACCTGG AGGACCTGGA TGTGCTGGCA GGGACGACAT TACCAGACAC AGGGGACCAA
    AACCACATAC ACGGGTTTCA CTCGCAAGAG AACCTGGTGG TCCATGTTCC CAAGGATCAC
    AAACCAGGAA CATTCCCCAA GGCACTGTCT ATAGAAAGCC TCTCGCCCAC AGACAGCAGC
    AATGGGGTTA ACTGGAGGAC TGGGAGTATC TCCCTGGGCA GGCAACAGGG CCCTGGCATA
    AGGGAACCTA GACTCGTGTC ATCCTGCCAC AGGGCCAGCA GAGTCAGTAT CTATGACAAC
    GTGCCCAGCT CACATCTGTA TGCCAGCACT GGAGATCTGT TGGACTTGGA GAAAGACGGG
    CTCCTTCCAC AGCTGGATGA CATTATACAG CATGTCAATG GCATACAAGA GGTAGTGGAT
    GACTGGTCAA GAAATATCTT GCCTGAACTG CAAAGTCACG ATGCAGTGGC AGGGGACCCT
    GGTCAACCCC CATTTCAGTC TCCTCATCAG ATCACTTTAG ATTTTGAAGG CAACTCTGTC
    TCGGAAGGTC AGACAACACC TAGTGATGTG GAAAGGGACA GGACTTCTCT GAATGAATCG
    GACACCACTG GGGTCAGAGA AAGAAGGGAT TCTGGTGTGG GGGCCTCTCT GACCAGGCCA
    AACAGGCGCC TAAGGTGGAG TAGCTTCCAG CTCTCACACC AGCCTCAGCT GTCTCCGGCC
    ACGCCCCACA TCAGCAGCCA GACGGCCGCC CAGCTGAACC TGCTCCAGCG CTTTTCTCTG
    CTTCGCCTCA CAGCCATCAT GGAGAAGTAC TCCATGTCCA ACAAGCACGG CTGGACCTGC
    CTGTCTGCAC AGAGCGCCCC GGGGGCCTTG CATGACCTGG TTTCTGTGAA TTCCAGGTCC
    GTCCCAAAGT TCATGAAGAG AATCAAAGCT CCTGACTACA GAGACAAGGC TGTCTTCGGT
    GTCCCGCTCA TAGTCCATGT CCAGAGAACA GGACAGCCCC TGCCTCAGAG CATTCAACAA
    GCACTGAGGT ATCTACGTAG CAACTGTCTG GATCAGGTGG GTCTTTTCCG AAAGTCGGGA
    GTGAAGTCTC GAATCCATGC CCTACGTCAG ATGAATGAGA ACTTCCCTGA CAACGTGAGC
    TATGAAGACC AGTCTGCCTA TGACGTGGCA GATATGGTAA AGCAGTTCTT CCGGGACCTC
    CCTGAGCCCC TTTTCACCAA CAAGCTCAGT GAGACCTTCC TCCACATCTA TCAGTACGTC
    CCCAAAGAAC AGCGGCTGCA GGCCGTGCAG GCAGCCATCC TCCTGCTGGC GGATGAGAAC
    CGGGAGGCCC TGCAGACGCT CCTGTGCTTC CTGCATGACG TAGTGAACTT GGTGGACGAG
    AATCAGATGA CGCCCATGAA TCTGGCCGTG TGCCTGGCCC CCTCCCTCTT TCATCTCAAC
    TTGCTGAAAA AAGAAAGTTC CCCAAGAGTC ATCCAGAAGA AATACGCCAC TGGGAAGCCA
    GATCAGAAAG ACCTCAATGA AAATCTAGCC GCAGCTCAGG GGCTCGCCCA CATGATCACG
    GAATGCAACC GACTCTTCGA GGTTCCACAC GAGATGGTGG CCCAGTCTCG TAACTCCTAC
    TTAGAGGCTG AGATCCACGC GCCCAGCCTA GAAGACTTGG GAACTCAGCT GGCAGAGAAT
    GGGGCAACTT TTCACACGTA CCTGGAGCAT CTTGTCCAAG GCCTCCAGAA AGAGGCTAAG
    GAGAAATTCA AGGGGTGGGT CACGTGTTCC AGCCCTGACA ACACGGACCT TGCTTTCAAA
    AAGGTGGGGG ACGGGAACCC GCTGAAGCTG TGGAAGGCAT CCGTGGAGGT GGAGGCACCG
    CCCTCCGTGG TGTTGAACCG CGTGCTGAGA GAACGTCACC TGTGGGATGA GGATTTCGTG
    CAGTGGAAGG TCGTGGAAAC GTTGGACAGA CAGACAGAAA TATACCAGTA TGTGCTAAAC
    AGCATGGTTC CACACCCCTC CAGAGACTTC GTGGTGCTCA GGACCTGGAA GACCGATTTG
    CCCAAAGGAA TGTGCACCCT GGTGTCCCTG TCTGTGGAGC ATGAAGAAGC CCAGCTCATG
    GGTGATGTGC GGGCGGTGGT GATGGACTCT CAGTACCTGA TAGAGCCCTG TGGCTCCGGC
    AAGTCCAGGC TGACCCACAT CTGCAGGATA GACCTGAAAG GCCACTCCCC AGAATGGTAC
    AGCAAAGGCT TCGGACACCT CTGTGCCGCA GAAGTTGCCA GAATTAGGAA CTCTTTCCAG
    CCTCTCGTTG CTGAGGGTCC AGAAACAAAA ATCTAA

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

    RefSeq XP_006248805.1
    CDS1291..4686
    Translation

    Target ORF information:

    RefSeq Version XM_006248743.3
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus StAR-related lipid transfer domain containing 13 (Stard13), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_006248743.3

    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
    ATGTTCAGTC AGGTGCCCAG GACGCCGGCT GCAGGCTGCT ACTGTCTAAA TCCCTTGACA 
    CCTGAGAGCC AGGAGATGTA CTTGCGATTT GATCAGACTG CCAGACGCTC TCCCTACAGG
    ATGAGCCGGA TCCTAGCGCG CCATCACCTA GTGACTAAAA TTCAGCAAGA AATCGAGGCG
    AAGGAAGCAT GTGACTGGCT GCGAGCTGCC GGGTTCCCAC AGTACGCTCA GCTGTATGAA
    GATTCGCAGT TTCCCATCAA CATTGCGGCT GTCAAAAAAG ACCATGATTT TCTTGAAAGG
    GACCTTGTAG AACCTCTTTG CAGACGACTT AATACGTTGA ACAAGTGTGC CTCAATGAGA
    CTTGATGTGA ACTTCCAAAG GAAAAAGGGC GACGACTCAG ATGAGGAAGA CCTGTGCATC
    AGCAACAAAT GGACTTTCCA GAGAACCAGC CGCAGGTGGT CCCGTGTGGA TGACCTGCAT
    CCGCTCCTCC CCGGGGCAGA CAGAAACGGG TCCCCAGGAG GCCCTAGGAT GAGAAACACG
    GCCAGCAGTG AAAGCGTGCT CACAGATCTG AGCGAGCCTG AGGTCTGCTC CATCCACAGC
    GAAAGCAGCG GAGGCAGCGA CGGCCGCGGC CAATCGGGGC ATCATTTTGC TGATGGCACG
    CCTGTGCTGG AGGGCACCCT AGTCGGTGGC AGCCTCCCGC AGTCTCCCCG AGACAGTCTC
    AGCCAGTCTT TTCACCCCAA GAATGAGAAA CCCACCAGGA CCAGGGCCAA GTCATTTCTG
    AGACGCATGG ATACCCTGAG AGTGAAGGGA GCACTCGGGA GGCATAAGGG ACCAGGGCGA
    ACAGGAGGCC TCGTTATCAG CAGGCCCATG CTGCAGCAGG AGCCAGAGTC CTTTAAGACC
    ATGCAGCATG TCCAGATACC CAACGGAGAT CTGCAGACCT CACCACCAGC TGCCTGCAAG
    AAAGGCCTTC CAGGCTCCAG TAAATCAAGC GGTGAGAACA GCCCCTTGGA GAGCAGCCGT
    GTGAGCACCC CATGTATGAA GGAACGCAAG TGCCAACACG AGGCCAACAA GCGCGGTGGC
    ATGTACCTGG AGGACCTGGA TGTGCTGGCA GGGACGACAT TACCAGACAC AGGGGACCAA
    AACCACATAC ACGGGTTTCA CTCGCAAGAG AACCTGGTGG TCCATGTTCC CAAGGATCAC
    AAACCAGGAA CATTCCCCAA GGCACTGTCT ATAGAAAGCC TCTCGCCCAC AGACAGCAGC
    AATGGGGTTA ACTGGAGGAC TGGGAGTATC TCCCTGGGCA GGCAACAGGG CCCTGGCATA
    AGGGAACCTA GACTCGTGTC ATCCTGCCAC AGGGCCAGCA GAGTCAGTAT CTATGACAAC
    GTGCCCAGCT CACATCTGTA TGCCAGCACT GGAGATCTGT TGGACTTGGA GAAAGACGGG
    CTCCTTCCAC AGCTGGATGA CATTATACAG CATGTCAATG GCATACAAGA GGTAGTGGAT
    GACTGGTCAA GAAATATCTT GCCTGAACTG CAAAGTCACG ATGCAGTGGC AGGGGACCCT
    GGTCAACCCC CATTTCAGTC TCCTCATCAG ATCACTTTAG ATTTTGAAGG CAACTCTGTC
    TCGGAAGGTC AGACAACACC TAGTGATGTG GAAAGGGACA GGACTTCTCT GAATGAATCG
    GACACCACTG GGGTCAGAGA AAGAAGGGAT TCTGGTGTGG GGGCCTCTCT GACCAGGCCA
    AACAGGCGCC TAAGGTGGAG TAGCTTCCAG CTCTCACACC AGCCTCAGCT GTCTCCGGCC
    ACGCCCCACA TCAGCAGCCA GACGGCCGCC CAGCTGAACC TGCTCCAGCG CTTTTCTCTG
    CTTCGCCTCA CAGCCATCAT GGAGAAGTAC TCCATGTCCA ACAAGCACGG CTGGACCTGC
    CTGTCTGCAC AGAGCGCCCC GGGGGCCTTG CATGACCTGG TTTCTGTGAA TTCCAGGTCC
    GTCCCAAAGT TCATGAAGAG AATCAAAGCT CCTGACTACA GAGACAAGGC TGTCTTCGGT
    GTCCCGCTCA TAGTCCATGT CCAGAGAACA GGACAGCCCC TGCCTCAGAG CATTCAACAA
    GCACTGAGGT ATCTACGTAG CAACTGTCTG GATCAGGTGG GTCTTTTCCG AAAGTCGGGA
    GTGAAGTCTC GAATCCATGC CCTACGTCAG ATGAATGAGA ACTTCCCTGA CAACGTGAGC
    TATGAAGACC AGTCTGCCTA TGACGTGGCA GATATGGTAA AGCAGTTCTT CCGGGACCTC
    CCTGAGCCCC TTTTCACCAA CAAGCTCAGT GAGACCTTCC TCCACATCTA TCAGTACGTC
    CCCAAAGAAC AGCGGCTGCA GGCCGTGCAG GCAGCCATCC TCCTGCTGGC GGATGAGAAC
    CGGGAGGCCC TGCAGACGCT CCTGTGCTTC CTGCATGACG TAGTGAACTT GGTGGACGAG
    AATCAGATGA CGCCCATGAA TCTGGCCGTG TGCCTGGCCC CCTCCCTCTT TCATCTCAAC
    TTGCTGAAAA AAGAAAGTTC CCCAAGAGTC ATCCAGAAGA AATACGCCAC TGGGAAGCCA
    GATCAGAAAG ACCTCAATGA AAATCTAGCC GCAGCTCAGG GGCTCGCCCA CATGATCACG
    GAATGCAACC GACTCTTCGA GGTTCCACAC GAGATGGTGG CCCAGTCTCG TAACTCCTAC
    TTAGAGGCTG AGATCCACGC GCCCAGCCTA GAAGACTTGG GAACTCAGCT GGCAGAGAAT
    GGGGCAACTT TTCACACGTA CCTGGAGCAT CTTGTCCAAG GCCTCCAGAA AGAGGCTAAG
    GAGAAATTCA AGGGGTGGGT CACGTGTTCC AGCCCTGACA ACACGGACCT TGCTTTCAAA
    AAGGTGGGGG ACGGGAACCC GCTGAAGCTG TGGAAGGCAT CCGTGGAGGT GGAGGCACCG
    CCCTCCGTGG TGTTGAACCG CGTGCTGAGA GAACGTCACC TGTGGGATGA GGATTTCGTG
    CAGTGGAAGG TCGTGGAAAC GTTGGACAGA CAGACAGAAA TATACCAGTA TGTGCTAAAC
    AGCATGGTTC CACACCCCTC CAGAGACTTC GTGGTGCTCA GGACCTGGAA GACCGATTTG
    CCCAAAGGAA TGTGCACCCT GGTGTCCCTG TCTGTGGAGC ATGAAGAAGC CCAGCTCATG
    GGTGATGTGC GGGCGGTGGT GATGGACTCT CAGTACCTGA TAGAGCCCTG TGGCTCCGGC
    AAGTCCAGGC TGACCCACAT CTGCAGGATA GACCTGAAAG GCCACTCCCC AGAATGGTAC
    AGCAAAGGCT TCGGACACCT CTGTGCCGCA GAAGTTGCCA GAATTAGGAA CTCTTTCCAG
    CCTCTCGTTG CTGAGGGTCC AGAAACAAAA ATCTAA

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

    CloneID ORa34524
    Clone ID Related Accession (Same CDS sequence) XM_008768990.2 , XM_006248749.3 , XM_008768989.2
    Accession Version XM_008768990.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3042bp)
    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 stAR-related lipid transfer protein 13 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005111.4) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_008768990.1. ##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
    ATGAGACTTG ATGTGAACTT CCAAAGGAAA AAGGGCGACG ACTCAGATGA GGAAGACCTG 
    TGCATCAGCA ACAAATGGAC TTTCCAGAGA ACCAGCCGCA GGTGGTCCCG TGTGGATGAC
    CTGCATCCGC TCCTCCCCGG GGCAGACAGA AACGGGTCCC CAGGAGGCCC TAGGATGAGA
    AACACGGCCA GCAGTGAAAG CGTGCTCACA GATCTGAGCG AGCCTGAGGT CTGCTCCATC
    CACAGCGAAA GCAGCGGAGG CAGCGACGGC CGCGGCCAAT CGGGGCATCA TTTTGCTGAT
    GGCACGCCTG TGCTGGAGGG CACCCTAGTC GGTGGCAGCC TCCCGCAGTC TCCCCGAGAC
    AGTCTCAGCC AGTCTTTTCA CCCCAAGAAT GAGAAACCCA CCAGGACCAG GGCCAAGTCA
    TTTCTGAGAC GCATGGATAC CCTGAGAGTG AAGGGAGCAC TCGGGAGGCA TAAGGGACCA
    GGGCGAACAG GAGGCCTCGT TATCAGCAGG CCCATGCTGC AGCAGGAGCC AGAGTCCTTT
    AAGACCATGC AGCATGTCCA GATACCCAAC GGAGATCTGC AGACCTCACC ACCAGCTGCC
    TGCAAGAAAG GCCTTCCAGG CTCCAGTAAA TCAAGCGGTG AGAACAGCCC CTTGGAGAGC
    AGCCGTGTGA GCACCCCATG TATGAAGGAA CGCAAGTGCC AACACGAGGC CAACAAGCGC
    GGTGGCATGT ACCTGGAGGA CCTGGATGTG CTGGCAGGGA CGACATTACC AGACACAGGG
    GACCAAAACC ACATACACGG GTTTCACTCG CAAGAGAACC TGGTGGTCCA TGTTCCCAAG
    GATCACAAAC CAGGAACATT CCCCAAGGCA CTGTCTATAG AAAGCCTCTC GCCCACAGAC
    AGCAGCAATG GGGTTAACTG GAGGACTGGG AGTATCTCCC TGGGCAGGCA ACAGGGCCCT
    GGCATAAGGG AACCTAGACT CGTGTCATCC TGCCACAGGG CCAGCAGAGT CAGTATCTAT
    GACAACGTGC CCAGCTCACA TCTGTATGCC AGCACTGGAG ATCTGTTGGA CTTGGAGAAA
    GACGGGCTCC TTCCACAGCT GGATGACATT ATACAGCATG TCAATGGCAT ACAAGAGGTA
    GTGGATGACT GGTCAAGAAA TATCTTGCCT GAACTGCAAA GTCACGATGC AGTGGCAGGG
    GACCCTGGTC AACCCCCATT TCAGTCTCCT CATCAGATCA CTTTAGATTT TGAAGGCAAC
    TCTGTCTCGG AAGGTCAGAC AACACCTAGT GATGTGGAAA GGGACAGGAC TTCTCTGAAT
    GAATCGGACA CCACTGGGGT CAGAGAAAGA AGGGATTCTG GTGTGGGGGC CTCTCTGACC
    AGGCCAAACA GGCGCCTAAG GTGGAGTAGC TTCCAGCTCT CACACCAGCC TCAGCTGTCT
    CCGGCCACGC CCCACATCAG CAGCCAGACG GCCGCCCAGC TGAACCTGCT CCAGCGCTTT
    TCTCTGCTTC GCCTCACAGC CATCATGGAG AAGTACTCCA TGTCCAACAA GCACGGCTGG
    ACCTGCCTGT CTGCACAGAG CGCCCCGGGG GCCTTGCATG ACCTGGTTTC TGTGAATTCC
    AGGTCCGTCC CAAAGTTCAT GAAGAGAATC AAAGCTCCTG ACTACAGAGA CAAGGCTGTC
    TTCGGTGTCC CGCTCATAGT CCATGTCCAG AGAACAGGAC AGCCCCTGCC TCAGAGCATT
    CAACAAGCAC TGAGGTATCT ACGTAGCAAC TGTCTGGATC AGGTGGGTCT TTTCCGAAAG
    TCGGGAGTGA AGTCTCGAAT CCATGCCCTA CGTCAGATGA ATGAGAACTT CCCTGACAAC
    GTGAGCTATG AAGACCAGTC TGCCTATGAC GTGGCAGATA TGGTAAAGCA GTTCTTCCGG
    GACCTCCCTG AGCCCCTTTT CACCAACAAG CTCAGTGAGA CCTTCCTCCA CATCTATCAG
    TACGTCCCCA AAGAACAGCG GCTGCAGGCC GTGCAGGCAG CCATCCTCCT GCTGGCGGAT
    GAGAACCGGG AGGCCCTGCA GACGCTCCTG TGCTTCCTGC ATGACGTAGT GAACTTGGTG
    GACGAGAATC AGATGACGCC CATGAATCTG GCCGTGTGCC TGGCCCCCTC CCTCTTTCAT
    CTCAACTTGC TGAAAAAAGA AAGTTCCCCA AGAGTCATCC AGAAGAAATA CGCCACTGGG
    AAGCCAGATC AGAAAGACCT CAATGAAAAT CTAGCCGCAG CTCAGGGGCT CGCCCACATG
    ATCACGGAAT GCAACCGACT CTTCGAGGTT CCACACGAGA TGGTGGCCCA GTCTCGTAAC
    TCCTACTTAG AGGCTGAGAT CCACGCGCCC AGCCTAGAAG ACTTGGGAAC TCAGCTGGCA
    GAGAATGGGG CAACTTTTCA CACGTACCTG GAGCATCTTG TCCAAGGCCT CCAGAAAGAG
    GCTAAGGAGA AATTCAAGGG GTGGGTCACG TGTTCCAGCC CTGACAACAC GGACCTTGCT
    TTCAAAAAGG TGGGGGACGG GAACCCGCTG AAGCTGTGGA AGGCATCCGT GGAGGTGGAG
    GCACCGCCCT CCGTGGTGTT GAACCGCGTG CTGAGAGAAC GTCACCTGTG GGATGAGGAT
    TTCGTGCAGT GGAAGGTCGT GGAAACGTTG GACAGACAGA CAGAAATATA CCAGTATGTG
    CTAAACAGCA TGGTTCCACA CCCCTCCAGA GACTTCGTGG TGCTCAGGAC CTGGAAGACC
    GATTTGCCCA AAGGAATGTG CACCCTGGTG TCCCTGTCTG TGGAGCATGA AGAAGCCCAG
    CTCATGGGTG ATGTGCGGGC GGTGGTGATG GACTCTCAGT ACCTGATAGA GCCCTGTGGC
    TCCGGCAAGT CCAGGCTGAC CCACATCTGC AGGATAGACC TGAAAGGCCA CTCCCCAGAA
    TGGTACAGCA AAGGCTTCGG ACACCTCTGT GCCGCAGAAG TTGCCAGAAT TAGGAACTCT
    TTCCAGCCTC TCGTTGCTGA GGGTCCAGAA ACAAAAATCT AA

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

    RefSeq XP_008767212.1
    CDS683..3724
    Translation

    Target ORF information:

    RefSeq Version XM_008768990.2
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus StAR-related lipid transfer domain containing 13 (Stard13), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_008768990.2

    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
    ATGAGACTTG ATGTGAACTT CCAAAGGAAA AAGGGCGACG ACTCAGATGA GGAAGACCTG 
    TGCATCAGCA ACAAATGGAC TTTCCAGAGA ACCAGCCGCA GGTGGTCCCG TGTGGATGAC
    CTGCATCCGC TCCTCCCCGG GGCAGACAGA AACGGGTCCC CAGGAGGCCC TAGGATGAGA
    AACACGGCCA GCAGTGAAAG CGTGCTCACA GATCTGAGCG AGCCTGAGGT CTGCTCCATC
    CACAGCGAAA GCAGCGGAGG CAGCGACGGC CGCGGCCAAT CGGGGCATCA TTTTGCTGAT
    GGCACGCCTG TGCTGGAGGG CACCCTAGTC GGTGGCAGCC TCCCGCAGTC TCCCCGAGAC
    AGTCTCAGCC AGTCTTTTCA CCCCAAGAAT GAGAAACCCA CCAGGACCAG GGCCAAGTCA
    TTTCTGAGAC GCATGGATAC CCTGAGAGTG AAGGGAGCAC TCGGGAGGCA TAAGGGACCA
    GGGCGAACAG GAGGCCTCGT TATCAGCAGG CCCATGCTGC AGCAGGAGCC AGAGTCCTTT
    AAGACCATGC AGCATGTCCA GATACCCAAC GGAGATCTGC AGACCTCACC ACCAGCTGCC
    TGCAAGAAAG GCCTTCCAGG CTCCAGTAAA TCAAGCGGTG AGAACAGCCC CTTGGAGAGC
    AGCCGTGTGA GCACCCCATG TATGAAGGAA CGCAAGTGCC AACACGAGGC CAACAAGCGC
    GGTGGCATGT ACCTGGAGGA CCTGGATGTG CTGGCAGGGA CGACATTACC AGACACAGGG
    GACCAAAACC ACATACACGG GTTTCACTCG CAAGAGAACC TGGTGGTCCA TGTTCCCAAG
    GATCACAAAC CAGGAACATT CCCCAAGGCA CTGTCTATAG AAAGCCTCTC GCCCACAGAC
    AGCAGCAATG GGGTTAACTG GAGGACTGGG AGTATCTCCC TGGGCAGGCA ACAGGGCCCT
    GGCATAAGGG AACCTAGACT CGTGTCATCC TGCCACAGGG CCAGCAGAGT CAGTATCTAT
    GACAACGTGC CCAGCTCACA TCTGTATGCC AGCACTGGAG ATCTGTTGGA CTTGGAGAAA
    GACGGGCTCC TTCCACAGCT GGATGACATT ATACAGCATG TCAATGGCAT ACAAGAGGTA
    GTGGATGACT GGTCAAGAAA TATCTTGCCT GAACTGCAAA GTCACGATGC AGTGGCAGGG
    GACCCTGGTC AACCCCCATT TCAGTCTCCT CATCAGATCA CTTTAGATTT TGAAGGCAAC
    TCTGTCTCGG AAGGTCAGAC AACACCTAGT GATGTGGAAA GGGACAGGAC TTCTCTGAAT
    GAATCGGACA CCACTGGGGT CAGAGAAAGA AGGGATTCTG GTGTGGGGGC CTCTCTGACC
    AGGCCAAACA GGCGCCTAAG GTGGAGTAGC TTCCAGCTCT CACACCAGCC TCAGCTGTCT
    CCGGCCACGC CCCACATCAG CAGCCAGACG GCCGCCCAGC TGAACCTGCT CCAGCGCTTT
    TCTCTGCTTC GCCTCACAGC CATCATGGAG AAGTACTCCA TGTCCAACAA GCACGGCTGG
    ACCTGCCTGT CTGCACAGAG CGCCCCGGGG GCCTTGCATG ACCTGGTTTC TGTGAATTCC
    AGGTCCGTCC CAAAGTTCAT GAAGAGAATC AAAGCTCCTG ACTACAGAGA CAAGGCTGTC
    TTCGGTGTCC CGCTCATAGT CCATGTCCAG AGAACAGGAC AGCCCCTGCC TCAGAGCATT
    CAACAAGCAC TGAGGTATCT ACGTAGCAAC TGTCTGGATC AGGTGGGTCT TTTCCGAAAG
    TCGGGAGTGA AGTCTCGAAT CCATGCCCTA CGTCAGATGA ATGAGAACTT CCCTGACAAC
    GTGAGCTATG AAGACCAGTC TGCCTATGAC GTGGCAGATA TGGTAAAGCA GTTCTTCCGG
    GACCTCCCTG AGCCCCTTTT CACCAACAAG CTCAGTGAGA CCTTCCTCCA CATCTATCAG
    TACGTCCCCA AAGAACAGCG GCTGCAGGCC GTGCAGGCAG CCATCCTCCT GCTGGCGGAT
    GAGAACCGGG AGGCCCTGCA GACGCTCCTG TGCTTCCTGC ATGACGTAGT GAACTTGGTG
    GACGAGAATC AGATGACGCC CATGAATCTG GCCGTGTGCC TGGCCCCCTC CCTCTTTCAT
    CTCAACTTGC TGAAAAAAGA AAGTTCCCCA AGAGTCATCC AGAAGAAATA CGCCACTGGG
    AAGCCAGATC AGAAAGACCT CAATGAAAAT CTAGCCGCAG CTCAGGGGCT CGCCCACATG
    ATCACGGAAT GCAACCGACT CTTCGAGGTT CCACACGAGA TGGTGGCCCA GTCTCGTAAC
    TCCTACTTAG AGGCTGAGAT CCACGCGCCC AGCCTAGAAG ACTTGGGAAC TCAGCTGGCA
    GAGAATGGGG CAACTTTTCA CACGTACCTG GAGCATCTTG TCCAAGGCCT CCAGAAAGAG
    GCTAAGGAGA AATTCAAGGG GTGGGTCACG TGTTCCAGCC CTGACAACAC GGACCTTGCT
    TTCAAAAAGG TGGGGGACGG GAACCCGCTG AAGCTGTGGA AGGCATCCGT GGAGGTGGAG
    GCACCGCCCT CCGTGGTGTT GAACCGCGTG CTGAGAGAAC GTCACCTGTG GGATGAGGAT
    TTCGTGCAGT GGAAGGTCGT GGAAACGTTG GACAGACAGA CAGAAATATA CCAGTATGTG
    CTAAACAGCA TGGTTCCACA CCCCTCCAGA GACTTCGTGG TGCTCAGGAC CTGGAAGACC
    GATTTGCCCA AAGGAATGTG CACCCTGGTG TCCCTGTCTG TGGAGCATGA AGAAGCCCAG
    CTCATGGGTG ATGTGCGGGC GGTGGTGATG GACTCTCAGT ACCTGATAGA GCCCTGTGGC
    TCCGGCAAGT CCAGGCTGAC CCACATCTGC AGGATAGACC TGAAAGGCCA CTCCCCAGAA
    TGGTACAGCA AAGGCTTCGG ACACCTCTGT GCCGCAGAAG TTGCCAGAAT TAGGAACTCT
    TTCCAGCCTC TCGTTGCTGA GGGTCCAGAA ACAAAAATCT AA

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

    CloneID ORa34524
    Clone ID Related Accession (Same CDS sequence) XM_008768990.2 , XM_006248749.3 , XM_008768989.2
    Accession Version XM_006248749.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3042bp)
    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 stAR-related lipid transfer protein 13 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005111.4) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_006248749.2. ##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
    ATGAGACTTG ATGTGAACTT CCAAAGGAAA AAGGGCGACG ACTCAGATGA GGAAGACCTG 
    TGCATCAGCA ACAAATGGAC TTTCCAGAGA ACCAGCCGCA GGTGGTCCCG TGTGGATGAC
    CTGCATCCGC TCCTCCCCGG GGCAGACAGA AACGGGTCCC CAGGAGGCCC TAGGATGAGA
    AACACGGCCA GCAGTGAAAG CGTGCTCACA GATCTGAGCG AGCCTGAGGT CTGCTCCATC
    CACAGCGAAA GCAGCGGAGG CAGCGACGGC CGCGGCCAAT CGGGGCATCA TTTTGCTGAT
    GGCACGCCTG TGCTGGAGGG CACCCTAGTC GGTGGCAGCC TCCCGCAGTC TCCCCGAGAC
    AGTCTCAGCC AGTCTTTTCA CCCCAAGAAT GAGAAACCCA CCAGGACCAG GGCCAAGTCA
    TTTCTGAGAC GCATGGATAC CCTGAGAGTG AAGGGAGCAC TCGGGAGGCA TAAGGGACCA
    GGGCGAACAG GAGGCCTCGT TATCAGCAGG CCCATGCTGC AGCAGGAGCC AGAGTCCTTT
    AAGACCATGC AGCATGTCCA GATACCCAAC GGAGATCTGC AGACCTCACC ACCAGCTGCC
    TGCAAGAAAG GCCTTCCAGG CTCCAGTAAA TCAAGCGGTG AGAACAGCCC CTTGGAGAGC
    AGCCGTGTGA GCACCCCATG TATGAAGGAA CGCAAGTGCC AACACGAGGC CAACAAGCGC
    GGTGGCATGT ACCTGGAGGA CCTGGATGTG CTGGCAGGGA CGACATTACC AGACACAGGG
    GACCAAAACC ACATACACGG GTTTCACTCG CAAGAGAACC TGGTGGTCCA TGTTCCCAAG
    GATCACAAAC CAGGAACATT CCCCAAGGCA CTGTCTATAG AAAGCCTCTC GCCCACAGAC
    AGCAGCAATG GGGTTAACTG GAGGACTGGG AGTATCTCCC TGGGCAGGCA ACAGGGCCCT
    GGCATAAGGG AACCTAGACT CGTGTCATCC TGCCACAGGG CCAGCAGAGT CAGTATCTAT
    GACAACGTGC CCAGCTCACA TCTGTATGCC AGCACTGGAG ATCTGTTGGA CTTGGAGAAA
    GACGGGCTCC TTCCACAGCT GGATGACATT ATACAGCATG TCAATGGCAT ACAAGAGGTA
    GTGGATGACT GGTCAAGAAA TATCTTGCCT GAACTGCAAA GTCACGATGC AGTGGCAGGG
    GACCCTGGTC AACCCCCATT TCAGTCTCCT CATCAGATCA CTTTAGATTT TGAAGGCAAC
    TCTGTCTCGG AAGGTCAGAC AACACCTAGT GATGTGGAAA GGGACAGGAC TTCTCTGAAT
    GAATCGGACA CCACTGGGGT CAGAGAAAGA AGGGATTCTG GTGTGGGGGC CTCTCTGACC
    AGGCCAAACA GGCGCCTAAG GTGGAGTAGC TTCCAGCTCT CACACCAGCC TCAGCTGTCT
    CCGGCCACGC CCCACATCAG CAGCCAGACG GCCGCCCAGC TGAACCTGCT CCAGCGCTTT
    TCTCTGCTTC GCCTCACAGC CATCATGGAG AAGTACTCCA TGTCCAACAA GCACGGCTGG
    ACCTGCCTGT CTGCACAGAG CGCCCCGGGG GCCTTGCATG ACCTGGTTTC TGTGAATTCC
    AGGTCCGTCC CAAAGTTCAT GAAGAGAATC AAAGCTCCTG ACTACAGAGA CAAGGCTGTC
    TTCGGTGTCC CGCTCATAGT CCATGTCCAG AGAACAGGAC AGCCCCTGCC TCAGAGCATT
    CAACAAGCAC TGAGGTATCT ACGTAGCAAC TGTCTGGATC AGGTGGGTCT TTTCCGAAAG
    TCGGGAGTGA AGTCTCGAAT CCATGCCCTA CGTCAGATGA ATGAGAACTT CCCTGACAAC
    GTGAGCTATG AAGACCAGTC TGCCTATGAC GTGGCAGATA TGGTAAAGCA GTTCTTCCGG
    GACCTCCCTG AGCCCCTTTT CACCAACAAG CTCAGTGAGA CCTTCCTCCA CATCTATCAG
    TACGTCCCCA AAGAACAGCG GCTGCAGGCC GTGCAGGCAG CCATCCTCCT GCTGGCGGAT
    GAGAACCGGG AGGCCCTGCA GACGCTCCTG TGCTTCCTGC ATGACGTAGT GAACTTGGTG
    GACGAGAATC AGATGACGCC CATGAATCTG GCCGTGTGCC TGGCCCCCTC CCTCTTTCAT
    CTCAACTTGC TGAAAAAAGA AAGTTCCCCA AGAGTCATCC AGAAGAAATA CGCCACTGGG
    AAGCCAGATC AGAAAGACCT CAATGAAAAT CTAGCCGCAG CTCAGGGGCT CGCCCACATG
    ATCACGGAAT GCAACCGACT CTTCGAGGTT CCACACGAGA TGGTGGCCCA GTCTCGTAAC
    TCCTACTTAG AGGCTGAGAT CCACGCGCCC AGCCTAGAAG ACTTGGGAAC TCAGCTGGCA
    GAGAATGGGG CAACTTTTCA CACGTACCTG GAGCATCTTG TCCAAGGCCT CCAGAAAGAG
    GCTAAGGAGA AATTCAAGGG GTGGGTCACG TGTTCCAGCC CTGACAACAC GGACCTTGCT
    TTCAAAAAGG TGGGGGACGG GAACCCGCTG AAGCTGTGGA AGGCATCCGT GGAGGTGGAG
    GCACCGCCCT CCGTGGTGTT GAACCGCGTG CTGAGAGAAC GTCACCTGTG GGATGAGGAT
    TTCGTGCAGT GGAAGGTCGT GGAAACGTTG GACAGACAGA CAGAAATATA CCAGTATGTG
    CTAAACAGCA TGGTTCCACA CCCCTCCAGA GACTTCGTGG TGCTCAGGAC CTGGAAGACC
    GATTTGCCCA AAGGAATGTG CACCCTGGTG TCCCTGTCTG TGGAGCATGA AGAAGCCCAG
    CTCATGGGTG ATGTGCGGGC GGTGGTGATG GACTCTCAGT ACCTGATAGA GCCCTGTGGC
    TCCGGCAAGT CCAGGCTGAC CCACATCTGC AGGATAGACC TGAAAGGCCA CTCCCCAGAA
    TGGTACAGCA AAGGCTTCGG ACACCTCTGT GCCGCAGAAG TTGCCAGAAT TAGGAACTCT
    TTCCAGCCTC TCGTTGCTGA GGGTCCAGAA ACAAAAATCT AA

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

    RefSeq XP_006248811.1
    CDS1299..4340
    Translation

    Target ORF information:

    RefSeq Version XM_006248749.3
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus StAR-related lipid transfer domain containing 13 (Stard13), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_006248749.3

    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
    ATGAGACTTG ATGTGAACTT CCAAAGGAAA AAGGGCGACG ACTCAGATGA GGAAGACCTG 
    TGCATCAGCA ACAAATGGAC TTTCCAGAGA ACCAGCCGCA GGTGGTCCCG TGTGGATGAC
    CTGCATCCGC TCCTCCCCGG GGCAGACAGA AACGGGTCCC CAGGAGGCCC TAGGATGAGA
    AACACGGCCA GCAGTGAAAG CGTGCTCACA GATCTGAGCG AGCCTGAGGT CTGCTCCATC
    CACAGCGAAA GCAGCGGAGG CAGCGACGGC CGCGGCCAAT CGGGGCATCA TTTTGCTGAT
    GGCACGCCTG TGCTGGAGGG CACCCTAGTC GGTGGCAGCC TCCCGCAGTC TCCCCGAGAC
    AGTCTCAGCC AGTCTTTTCA CCCCAAGAAT GAGAAACCCA CCAGGACCAG GGCCAAGTCA
    TTTCTGAGAC GCATGGATAC CCTGAGAGTG AAGGGAGCAC TCGGGAGGCA TAAGGGACCA
    GGGCGAACAG GAGGCCTCGT TATCAGCAGG CCCATGCTGC AGCAGGAGCC AGAGTCCTTT
    AAGACCATGC AGCATGTCCA GATACCCAAC GGAGATCTGC AGACCTCACC ACCAGCTGCC
    TGCAAGAAAG GCCTTCCAGG CTCCAGTAAA TCAAGCGGTG AGAACAGCCC CTTGGAGAGC
    AGCCGTGTGA GCACCCCATG TATGAAGGAA CGCAAGTGCC AACACGAGGC CAACAAGCGC
    GGTGGCATGT ACCTGGAGGA CCTGGATGTG CTGGCAGGGA CGACATTACC AGACACAGGG
    GACCAAAACC ACATACACGG GTTTCACTCG CAAGAGAACC TGGTGGTCCA TGTTCCCAAG
    GATCACAAAC CAGGAACATT CCCCAAGGCA CTGTCTATAG AAAGCCTCTC GCCCACAGAC
    AGCAGCAATG GGGTTAACTG GAGGACTGGG AGTATCTCCC TGGGCAGGCA ACAGGGCCCT
    GGCATAAGGG AACCTAGACT CGTGTCATCC TGCCACAGGG CCAGCAGAGT CAGTATCTAT
    GACAACGTGC CCAGCTCACA TCTGTATGCC AGCACTGGAG ATCTGTTGGA CTTGGAGAAA
    GACGGGCTCC TTCCACAGCT GGATGACATT ATACAGCATG TCAATGGCAT ACAAGAGGTA
    GTGGATGACT GGTCAAGAAA TATCTTGCCT GAACTGCAAA GTCACGATGC AGTGGCAGGG
    GACCCTGGTC AACCCCCATT TCAGTCTCCT CATCAGATCA CTTTAGATTT TGAAGGCAAC
    TCTGTCTCGG AAGGTCAGAC AACACCTAGT GATGTGGAAA GGGACAGGAC TTCTCTGAAT
    GAATCGGACA CCACTGGGGT CAGAGAAAGA AGGGATTCTG GTGTGGGGGC CTCTCTGACC
    AGGCCAAACA GGCGCCTAAG GTGGAGTAGC TTCCAGCTCT CACACCAGCC TCAGCTGTCT
    CCGGCCACGC CCCACATCAG CAGCCAGACG GCCGCCCAGC TGAACCTGCT CCAGCGCTTT
    TCTCTGCTTC GCCTCACAGC CATCATGGAG AAGTACTCCA TGTCCAACAA GCACGGCTGG
    ACCTGCCTGT CTGCACAGAG CGCCCCGGGG GCCTTGCATG ACCTGGTTTC TGTGAATTCC
    AGGTCCGTCC CAAAGTTCAT GAAGAGAATC AAAGCTCCTG ACTACAGAGA CAAGGCTGTC
    TTCGGTGTCC CGCTCATAGT CCATGTCCAG AGAACAGGAC AGCCCCTGCC TCAGAGCATT
    CAACAAGCAC TGAGGTATCT ACGTAGCAAC TGTCTGGATC AGGTGGGTCT TTTCCGAAAG
    TCGGGAGTGA AGTCTCGAAT CCATGCCCTA CGTCAGATGA ATGAGAACTT CCCTGACAAC
    GTGAGCTATG AAGACCAGTC TGCCTATGAC GTGGCAGATA TGGTAAAGCA GTTCTTCCGG
    GACCTCCCTG AGCCCCTTTT CACCAACAAG CTCAGTGAGA CCTTCCTCCA CATCTATCAG
    TACGTCCCCA AAGAACAGCG GCTGCAGGCC GTGCAGGCAG CCATCCTCCT GCTGGCGGAT
    GAGAACCGGG AGGCCCTGCA GACGCTCCTG TGCTTCCTGC ATGACGTAGT GAACTTGGTG
    GACGAGAATC AGATGACGCC CATGAATCTG GCCGTGTGCC TGGCCCCCTC CCTCTTTCAT
    CTCAACTTGC TGAAAAAAGA AAGTTCCCCA AGAGTCATCC AGAAGAAATA CGCCACTGGG
    AAGCCAGATC AGAAAGACCT CAATGAAAAT CTAGCCGCAG CTCAGGGGCT CGCCCACATG
    ATCACGGAAT GCAACCGACT CTTCGAGGTT CCACACGAGA TGGTGGCCCA GTCTCGTAAC
    TCCTACTTAG AGGCTGAGAT CCACGCGCCC AGCCTAGAAG ACTTGGGAAC TCAGCTGGCA
    GAGAATGGGG CAACTTTTCA CACGTACCTG GAGCATCTTG TCCAAGGCCT CCAGAAAGAG
    GCTAAGGAGA AATTCAAGGG GTGGGTCACG TGTTCCAGCC CTGACAACAC GGACCTTGCT
    TTCAAAAAGG TGGGGGACGG GAACCCGCTG AAGCTGTGGA AGGCATCCGT GGAGGTGGAG
    GCACCGCCCT CCGTGGTGTT GAACCGCGTG CTGAGAGAAC GTCACCTGTG GGATGAGGAT
    TTCGTGCAGT GGAAGGTCGT GGAAACGTTG GACAGACAGA CAGAAATATA CCAGTATGTG
    CTAAACAGCA TGGTTCCACA CCCCTCCAGA GACTTCGTGG TGCTCAGGAC CTGGAAGACC
    GATTTGCCCA AAGGAATGTG CACCCTGGTG TCCCTGTCTG TGGAGCATGA AGAAGCCCAG
    CTCATGGGTG ATGTGCGGGC GGTGGTGATG GACTCTCAGT ACCTGATAGA GCCCTGTGGC
    TCCGGCAAGT CCAGGCTGAC CCACATCTGC AGGATAGACC TGAAAGGCCA CTCCCCAGAA
    TGGTACAGCA AAGGCTTCGG ACACCTCTGT GCCGCAGAAG TTGCCAGAAT TAGGAACTCT
    TTCCAGCCTC TCGTTGCTGA GGGTCCAGAA ACAAAAATCT AA

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

    CloneID ORa34524
    Clone ID Related Accession (Same CDS sequence) XM_008768990.2 , XM_006248749.3 , XM_008768989.2
    Accession Version XM_008768989.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3042bp)
    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 stAR-related lipid transfer protein 13 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005111.4) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_008768989.1. ##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
    ATGAGACTTG ATGTGAACTT CCAAAGGAAA AAGGGCGACG ACTCAGATGA GGAAGACCTG 
    TGCATCAGCA ACAAATGGAC TTTCCAGAGA ACCAGCCGCA GGTGGTCCCG TGTGGATGAC
    CTGCATCCGC TCCTCCCCGG GGCAGACAGA AACGGGTCCC CAGGAGGCCC TAGGATGAGA
    AACACGGCCA GCAGTGAAAG CGTGCTCACA GATCTGAGCG AGCCTGAGGT CTGCTCCATC
    CACAGCGAAA GCAGCGGAGG CAGCGACGGC CGCGGCCAAT CGGGGCATCA TTTTGCTGAT
    GGCACGCCTG TGCTGGAGGG CACCCTAGTC GGTGGCAGCC TCCCGCAGTC TCCCCGAGAC
    AGTCTCAGCC AGTCTTTTCA CCCCAAGAAT GAGAAACCCA CCAGGACCAG GGCCAAGTCA
    TTTCTGAGAC GCATGGATAC CCTGAGAGTG AAGGGAGCAC TCGGGAGGCA TAAGGGACCA
    GGGCGAACAG GAGGCCTCGT TATCAGCAGG CCCATGCTGC AGCAGGAGCC AGAGTCCTTT
    AAGACCATGC AGCATGTCCA GATACCCAAC GGAGATCTGC AGACCTCACC ACCAGCTGCC
    TGCAAGAAAG GCCTTCCAGG CTCCAGTAAA TCAAGCGGTG AGAACAGCCC CTTGGAGAGC
    AGCCGTGTGA GCACCCCATG TATGAAGGAA CGCAAGTGCC AACACGAGGC CAACAAGCGC
    GGTGGCATGT ACCTGGAGGA CCTGGATGTG CTGGCAGGGA CGACATTACC AGACACAGGG
    GACCAAAACC ACATACACGG GTTTCACTCG CAAGAGAACC TGGTGGTCCA TGTTCCCAAG
    GATCACAAAC CAGGAACATT CCCCAAGGCA CTGTCTATAG AAAGCCTCTC GCCCACAGAC
    AGCAGCAATG GGGTTAACTG GAGGACTGGG AGTATCTCCC TGGGCAGGCA ACAGGGCCCT
    GGCATAAGGG AACCTAGACT CGTGTCATCC TGCCACAGGG CCAGCAGAGT CAGTATCTAT
    GACAACGTGC CCAGCTCACA TCTGTATGCC AGCACTGGAG ATCTGTTGGA CTTGGAGAAA
    GACGGGCTCC TTCCACAGCT GGATGACATT ATACAGCATG TCAATGGCAT ACAAGAGGTA
    GTGGATGACT GGTCAAGAAA TATCTTGCCT GAACTGCAAA GTCACGATGC AGTGGCAGGG
    GACCCTGGTC AACCCCCATT TCAGTCTCCT CATCAGATCA CTTTAGATTT TGAAGGCAAC
    TCTGTCTCGG AAGGTCAGAC AACACCTAGT GATGTGGAAA GGGACAGGAC TTCTCTGAAT
    GAATCGGACA CCACTGGGGT CAGAGAAAGA AGGGATTCTG GTGTGGGGGC CTCTCTGACC
    AGGCCAAACA GGCGCCTAAG GTGGAGTAGC TTCCAGCTCT CACACCAGCC TCAGCTGTCT
    CCGGCCACGC CCCACATCAG CAGCCAGACG GCCGCCCAGC TGAACCTGCT CCAGCGCTTT
    TCTCTGCTTC GCCTCACAGC CATCATGGAG AAGTACTCCA TGTCCAACAA GCACGGCTGG
    ACCTGCCTGT CTGCACAGAG CGCCCCGGGG GCCTTGCATG ACCTGGTTTC TGTGAATTCC
    AGGTCCGTCC CAAAGTTCAT GAAGAGAATC AAAGCTCCTG ACTACAGAGA CAAGGCTGTC
    TTCGGTGTCC CGCTCATAGT CCATGTCCAG AGAACAGGAC AGCCCCTGCC TCAGAGCATT
    CAACAAGCAC TGAGGTATCT ACGTAGCAAC TGTCTGGATC AGGTGGGTCT TTTCCGAAAG
    TCGGGAGTGA AGTCTCGAAT CCATGCCCTA CGTCAGATGA ATGAGAACTT CCCTGACAAC
    GTGAGCTATG AAGACCAGTC TGCCTATGAC GTGGCAGATA TGGTAAAGCA GTTCTTCCGG
    GACCTCCCTG AGCCCCTTTT CACCAACAAG CTCAGTGAGA CCTTCCTCCA CATCTATCAG
    TACGTCCCCA AAGAACAGCG GCTGCAGGCC GTGCAGGCAG CCATCCTCCT GCTGGCGGAT
    GAGAACCGGG AGGCCCTGCA GACGCTCCTG TGCTTCCTGC ATGACGTAGT GAACTTGGTG
    GACGAGAATC AGATGACGCC CATGAATCTG GCCGTGTGCC TGGCCCCCTC CCTCTTTCAT
    CTCAACTTGC TGAAAAAAGA AAGTTCCCCA AGAGTCATCC AGAAGAAATA CGCCACTGGG
    AAGCCAGATC AGAAAGACCT CAATGAAAAT CTAGCCGCAG CTCAGGGGCT CGCCCACATG
    ATCACGGAAT GCAACCGACT CTTCGAGGTT CCACACGAGA TGGTGGCCCA GTCTCGTAAC
    TCCTACTTAG AGGCTGAGAT CCACGCGCCC AGCCTAGAAG ACTTGGGAAC TCAGCTGGCA
    GAGAATGGGG CAACTTTTCA CACGTACCTG GAGCATCTTG TCCAAGGCCT CCAGAAAGAG
    GCTAAGGAGA AATTCAAGGG GTGGGTCACG TGTTCCAGCC CTGACAACAC GGACCTTGCT
    TTCAAAAAGG TGGGGGACGG GAACCCGCTG AAGCTGTGGA AGGCATCCGT GGAGGTGGAG
    GCACCGCCCT CCGTGGTGTT GAACCGCGTG CTGAGAGAAC GTCACCTGTG GGATGAGGAT
    TTCGTGCAGT GGAAGGTCGT GGAAACGTTG GACAGACAGA CAGAAATATA CCAGTATGTG
    CTAAACAGCA TGGTTCCACA CCCCTCCAGA GACTTCGTGG TGCTCAGGAC CTGGAAGACC
    GATTTGCCCA AAGGAATGTG CACCCTGGTG TCCCTGTCTG TGGAGCATGA AGAAGCCCAG
    CTCATGGGTG ATGTGCGGGC GGTGGTGATG GACTCTCAGT ACCTGATAGA GCCCTGTGGC
    TCCGGCAAGT CCAGGCTGAC CCACATCTGC AGGATAGACC TGAAAGGCCA CTCCCCAGAA
    TGGTACAGCA AAGGCTTCGG ACACCTCTGT GCCGCAGAAG TTGCCAGAAT TAGGAACTCT
    TTCCAGCCTC TCGTTGCTGA GGGTCCAGAA ACAAAAATCT AA

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

    RefSeq XP_008767211.1
    CDS688..3729
    Translation

    Target ORF information:

    RefSeq Version XM_008768989.2
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus StAR-related lipid transfer domain containing 13 (Stard13), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_008768989.2

    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
    ATGAGACTTG ATGTGAACTT CCAAAGGAAA AAGGGCGACG ACTCAGATGA GGAAGACCTG 
    TGCATCAGCA ACAAATGGAC TTTCCAGAGA ACCAGCCGCA GGTGGTCCCG TGTGGATGAC
    CTGCATCCGC TCCTCCCCGG GGCAGACAGA AACGGGTCCC CAGGAGGCCC TAGGATGAGA
    AACACGGCCA GCAGTGAAAG CGTGCTCACA GATCTGAGCG AGCCTGAGGT CTGCTCCATC
    CACAGCGAAA GCAGCGGAGG CAGCGACGGC CGCGGCCAAT CGGGGCATCA TTTTGCTGAT
    GGCACGCCTG TGCTGGAGGG CACCCTAGTC GGTGGCAGCC TCCCGCAGTC TCCCCGAGAC
    AGTCTCAGCC AGTCTTTTCA CCCCAAGAAT GAGAAACCCA CCAGGACCAG GGCCAAGTCA
    TTTCTGAGAC GCATGGATAC CCTGAGAGTG AAGGGAGCAC TCGGGAGGCA TAAGGGACCA
    GGGCGAACAG GAGGCCTCGT TATCAGCAGG CCCATGCTGC AGCAGGAGCC AGAGTCCTTT
    AAGACCATGC AGCATGTCCA GATACCCAAC GGAGATCTGC AGACCTCACC ACCAGCTGCC
    TGCAAGAAAG GCCTTCCAGG CTCCAGTAAA TCAAGCGGTG AGAACAGCCC CTTGGAGAGC
    AGCCGTGTGA GCACCCCATG TATGAAGGAA CGCAAGTGCC AACACGAGGC CAACAAGCGC
    GGTGGCATGT ACCTGGAGGA CCTGGATGTG CTGGCAGGGA CGACATTACC AGACACAGGG
    GACCAAAACC ACATACACGG GTTTCACTCG CAAGAGAACC TGGTGGTCCA TGTTCCCAAG
    GATCACAAAC CAGGAACATT CCCCAAGGCA CTGTCTATAG AAAGCCTCTC GCCCACAGAC
    AGCAGCAATG GGGTTAACTG GAGGACTGGG AGTATCTCCC TGGGCAGGCA ACAGGGCCCT
    GGCATAAGGG AACCTAGACT CGTGTCATCC TGCCACAGGG CCAGCAGAGT CAGTATCTAT
    GACAACGTGC CCAGCTCACA TCTGTATGCC AGCACTGGAG ATCTGTTGGA CTTGGAGAAA
    GACGGGCTCC TTCCACAGCT GGATGACATT ATACAGCATG TCAATGGCAT ACAAGAGGTA
    GTGGATGACT GGTCAAGAAA TATCTTGCCT GAACTGCAAA GTCACGATGC AGTGGCAGGG
    GACCCTGGTC AACCCCCATT TCAGTCTCCT CATCAGATCA CTTTAGATTT TGAAGGCAAC
    TCTGTCTCGG AAGGTCAGAC AACACCTAGT GATGTGGAAA GGGACAGGAC TTCTCTGAAT
    GAATCGGACA CCACTGGGGT CAGAGAAAGA AGGGATTCTG GTGTGGGGGC CTCTCTGACC
    AGGCCAAACA GGCGCCTAAG GTGGAGTAGC TTCCAGCTCT CACACCAGCC TCAGCTGTCT
    CCGGCCACGC CCCACATCAG CAGCCAGACG GCCGCCCAGC TGAACCTGCT CCAGCGCTTT
    TCTCTGCTTC GCCTCACAGC CATCATGGAG AAGTACTCCA TGTCCAACAA GCACGGCTGG
    ACCTGCCTGT CTGCACAGAG CGCCCCGGGG GCCTTGCATG ACCTGGTTTC TGTGAATTCC
    AGGTCCGTCC CAAAGTTCAT GAAGAGAATC AAAGCTCCTG ACTACAGAGA CAAGGCTGTC
    TTCGGTGTCC CGCTCATAGT CCATGTCCAG AGAACAGGAC AGCCCCTGCC TCAGAGCATT
    CAACAAGCAC TGAGGTATCT ACGTAGCAAC TGTCTGGATC AGGTGGGTCT TTTCCGAAAG
    TCGGGAGTGA AGTCTCGAAT CCATGCCCTA CGTCAGATGA ATGAGAACTT CCCTGACAAC
    GTGAGCTATG AAGACCAGTC TGCCTATGAC GTGGCAGATA TGGTAAAGCA GTTCTTCCGG
    GACCTCCCTG AGCCCCTTTT CACCAACAAG CTCAGTGAGA CCTTCCTCCA CATCTATCAG
    TACGTCCCCA AAGAACAGCG GCTGCAGGCC GTGCAGGCAG CCATCCTCCT GCTGGCGGAT
    GAGAACCGGG AGGCCCTGCA GACGCTCCTG TGCTTCCTGC ATGACGTAGT GAACTTGGTG
    GACGAGAATC AGATGACGCC CATGAATCTG GCCGTGTGCC TGGCCCCCTC CCTCTTTCAT
    CTCAACTTGC TGAAAAAAGA AAGTTCCCCA AGAGTCATCC AGAAGAAATA CGCCACTGGG
    AAGCCAGATC AGAAAGACCT CAATGAAAAT CTAGCCGCAG CTCAGGGGCT CGCCCACATG
    ATCACGGAAT GCAACCGACT CTTCGAGGTT CCACACGAGA TGGTGGCCCA GTCTCGTAAC
    TCCTACTTAG AGGCTGAGAT CCACGCGCCC AGCCTAGAAG ACTTGGGAAC TCAGCTGGCA
    GAGAATGGGG CAACTTTTCA CACGTACCTG GAGCATCTTG TCCAAGGCCT CCAGAAAGAG
    GCTAAGGAGA AATTCAAGGG GTGGGTCACG TGTTCCAGCC CTGACAACAC GGACCTTGCT
    TTCAAAAAGG TGGGGGACGG GAACCCGCTG AAGCTGTGGA AGGCATCCGT GGAGGTGGAG
    GCACCGCCCT CCGTGGTGTT GAACCGCGTG CTGAGAGAAC GTCACCTGTG GGATGAGGAT
    TTCGTGCAGT GGAAGGTCGT GGAAACGTTG GACAGACAGA CAGAAATATA CCAGTATGTG
    CTAAACAGCA TGGTTCCACA CCCCTCCAGA GACTTCGTGG TGCTCAGGAC CTGGAAGACC
    GATTTGCCCA AAGGAATGTG CACCCTGGTG TCCCTGTCTG TGGAGCATGA AGAAGCCCAG
    CTCATGGGTG ATGTGCGGGC GGTGGTGATG GACTCTCAGT ACCTGATAGA GCCCTGTGGC
    TCCGGCAAGT CCAGGCTGAC CCACATCTGC AGGATAGACC TGAAAGGCCA CTCCCCAGAA
    TGGTACAGCA AAGGCTTCGG ACACCTCTGT GCCGCAGAAG TTGCCAGAAT TAGGAACTCT
    TTCCAGCCTC TCGTTGCTGA GGGTCCAGAA ACAAAAATCT AA

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

    CloneID ORa34525
    Clone ID Related Accession (Same CDS sequence) XM_008768991.1
    Accession Version XM_008768991.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3018bp)
    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 stAR-related lipid transfer protein 13 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005111.4) 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
    ATGATCGAGG GCGACGACTC AGATGAGGAA GACCTGTGCA TCAGCAACAA ATGGACTTTC 
    CAGAGAACCA GCCGCAGGTG GTCCCGTGTG GATGACCTGC ATCCGCTCCT CCCCGGGGCA
    GACAGAAACG GGTCCCCAGG AGGCCCTAGG ATGAGAAACA CGGCCAGCAG TGAAAGCGTG
    CTCACAGATC TGAGCGAGCC TGAGGTCTGC TCCATCCACA GCGAAAGCAG CGGAGGCAGC
    GACGGCCGCG GCCAATCGGG GCATCATTTT GCTGATGGCA CGCCTGTGCT GGAGGGCACC
    CTAGTCGGTG GCAGCCTCCC GCAGTCTCCC CGAGACAGTC TCAGCCAGTC TTTTCACCCC
    AAGAATGAGA AACCCACCAG GACCAGGGCC AAGTCATTTC TGAGACGCAT GGATACCCTG
    AGAGTGAAGG GAGCACTCGG GAGGCATAAG GGACCAGGGC GAACAGGAGG CCTCGTTATC
    AGCAGGCCCA TGCTGCAGCA GGAGCCAGAG TCCTTTAAGA CCATGCAGCA TGTCCAGATA
    CCCAACGGAG ATCTGCAGAC CTCACCACCA GCTGCCTGCA AGAAAGGCCT TCCAGGCTCC
    AGTAAATCAA GCGGTGAGAA CAGCCCCTTG GAGAGCAGCC GTGTGAGCAC CCCATGTATG
    AAGGAACGCA AGTGCCAACA CGAGGCCAAC AAGCGCGGTG GCATGTACCT GGAGGACCTG
    GATGTGCTGG CAGGGACGAC ATTACCAGAC ACAGGGGACC AAAACCACAT ACACGGGTTT
    CACTCGCAAG AGAACCTGGT GGTCCATGTT CCCAAGGATC ACAAACCAGG AACATTCCCC
    AAGGCACTGT CTATAGAAAG CCTCTCGCCC ACAGACAGCA GCAATGGGGT TAACTGGAGG
    ACTGGGAGTA TCTCCCTGGG CAGGCAACAG GGCCCTGGCA TAAGGGAACC TAGACTCGTG
    TCATCCTGCC ACAGGGCCAG CAGAGTCAGT ATCTATGACA ACGTGCCCAG CTCACATCTG
    TATGCCAGCA CTGGAGATCT GTTGGACTTG GAGAAAGACG GGCTCCTTCC ACAGCTGGAT
    GACATTATAC AGCATGTCAA TGGCATACAA GAGGTAGTGG ATGACTGGTC AAGAAATATC
    TTGCCTGAAC TGCAAAGTCA CGATGCAGTG GCAGGGGACC CTGGTCAACC CCCATTTCAG
    TCTCCTCATC AGATCACTTT AGATTTTGAA GGCAACTCTG TCTCGGAAGG TCAGACAACA
    CCTAGTGATG TGGAAAGGGA CAGGACTTCT CTGAATGAAT CGGACACCAC TGGGGTCAGA
    GAAAGAAGGG ATTCTGGTGT GGGGGCCTCT CTGACCAGGC CAAACAGGCG CCTAAGGTGG
    AGTAGCTTCC AGCTCTCACA CCAGCCTCAG CTGTCTCCGG CCACGCCCCA CATCAGCAGC
    CAGACGGCCG CCCAGCTGAA CCTGCTCCAG CGCTTTTCTC TGCTTCGCCT CACAGCCATC
    ATGGAGAAGT ACTCCATGTC CAACAAGCAC GGCTGGACCT GCCTGTCTGC ACAGAGCGCC
    CCGGGGGCCT TGCATGACCT GGTTTCTGTG AATTCCAGGT CCGTCCCAAA GTTCATGAAG
    AGAATCAAAG CTCCTGACTA CAGAGACAAG GCTGTCTTCG GTGTCCCGCT CATAGTCCAT
    GTCCAGAGAA CAGGACAGCC CCTGCCTCAG AGCATTCAAC AAGCACTGAG GTATCTACGT
    AGCAACTGTC TGGATCAGGT GGGTCTTTTC CGAAAGTCGG GAGTGAAGTC TCGAATCCAT
    GCCCTACGTC AGATGAATGA GAACTTCCCT GACAACGTGA GCTATGAAGA CCAGTCTGCC
    TATGACGTGG CAGATATGGT AAAGCAGTTC TTCCGGGACC TCCCTGAGCC CCTTTTCACC
    AACAAGCTCA GTGAGACCTT CCTCCACATC TATCAGTACG TCCCCAAAGA ACAGCGGCTG
    CAGGCCGTGC AGGCAGCCAT CCTCCTGCTG GCGGATGAGA ACCGGGAGGC CCTGCAGACG
    CTCCTGTGCT TCCTGCATGA CGTAGTGAAC TTGGTGGACG AGAATCAGAT GACGCCCATG
    AATCTGGCCG TGTGCCTGGC CCCCTCCCTC TTTCATCTCA ACTTGCTGAA AAAAGAAAGT
    TCCCCAAGAG TCATCCAGAA GAAATACGCC ACTGGGAAGC CAGATCAGAA AGACCTCAAT
    GAAAATCTAG CCGCAGCTCA GGGGCTCGCC CACATGATCA CGGAATGCAA CCGACTCTTC
    GAGGTTCCAC ACGAGATGGT GGCCCAGTCT CGTAACTCCT ACTTAGAGGC TGAGATCCAC
    GCGCCCAGCC TAGAAGACTT GGGAACTCAG CTGGCAGAGA ATGGGGCAAC TTTTCACACG
    TACCTGGAGC ATCTTGTCCA AGGCCTCCAG AAAGAGGCTA AGGAGAAATT CAAGGGGTGG
    GTCACGTGTT CCAGCCCTGA CAACACGGAC CTTGCTTTCA AAAAGGTGGG GGACGGGAAC
    CCGCTGAAGC TGTGGAAGGC ATCCGTGGAG GTGGAGGCAC CGCCCTCCGT GGTGTTGAAC
    CGCGTGCTGA GAGAACGTCA CCTGTGGGAT GAGGATTTCG TGCAGTGGAA GGTCGTGGAA
    ACGTTGGACA GACAGACAGA AATATACCAG TATGTGCTAA ACAGCATGGT TCCACACCCC
    TCCAGAGACT TCGTGGTGCT CAGGACCTGG AAGACCGATT TGCCCAAAGG AATGTGCACC
    CTGGTGTCCC TGTCTGTGGA GCATGAAGAA GCCCAGCTCA TGGGTGATGT GCGGGCGGTG
    GTGATGGACT CTCAGTACCT GATAGAGCCC TGTGGCTCCG GCAAGTCCAG GCTGACCCAC
    ATCTGCAGGA TAGACCTGAA AGGCCACTCC CCAGAATGGT ACAGCAAAGG CTTCGGACAC
    CTCTGTGCCG CAGAAGTTGC CAGAATTAGG AACTCTTTCC AGCCTCTCGT TGCTGAGGGT
    CCAGAAACAA AAATCTAA

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

    RefSeq XP_008767213.1
    CDS93..3110
    Translation

    Target ORF information:

    RefSeq Version XM_008768991.1
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus StAR-related lipid transfer domain containing 13 (Stard13), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_008768991.1

    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
    ATGATCGAGG GCGACGACTC AGATGAGGAA GACCTGTGCA TCAGCAACAA ATGGACTTTC 
    CAGAGAACCA GCCGCAGGTG GTCCCGTGTG GATGACCTGC ATCCGCTCCT CCCCGGGGCA
    GACAGAAACG GGTCCCCAGG AGGCCCTAGG ATGAGAAACA CGGCCAGCAG TGAAAGCGTG
    CTCACAGATC TGAGCGAGCC TGAGGTCTGC TCCATCCACA GCGAAAGCAG CGGAGGCAGC
    GACGGCCGCG GCCAATCGGG GCATCATTTT GCTGATGGCA CGCCTGTGCT GGAGGGCACC
    CTAGTCGGTG GCAGCCTCCC GCAGTCTCCC CGAGACAGTC TCAGCCAGTC TTTTCACCCC
    AAGAATGAGA AACCCACCAG GACCAGGGCC AAGTCATTTC TGAGACGCAT GGATACCCTG
    AGAGTGAAGG GAGCACTCGG GAGGCATAAG GGACCAGGGC GAACAGGAGG CCTCGTTATC
    AGCAGGCCCA TGCTGCAGCA GGAGCCAGAG TCCTTTAAGA CCATGCAGCA TGTCCAGATA
    CCCAACGGAG ATCTGCAGAC CTCACCACCA GCTGCCTGCA AGAAAGGCCT TCCAGGCTCC
    AGTAAATCAA GCGGTGAGAA CAGCCCCTTG GAGAGCAGCC GTGTGAGCAC CCCATGTATG
    AAGGAACGCA AGTGCCAACA CGAGGCCAAC AAGCGCGGTG GCATGTACCT GGAGGACCTG
    GATGTGCTGG CAGGGACGAC ATTACCAGAC ACAGGGGACC AAAACCACAT ACACGGGTTT
    CACTCGCAAG AGAACCTGGT GGTCCATGTT CCCAAGGATC ACAAACCAGG AACATTCCCC
    AAGGCACTGT CTATAGAAAG CCTCTCGCCC ACAGACAGCA GCAATGGGGT TAACTGGAGG
    ACTGGGAGTA TCTCCCTGGG CAGGCAACAG GGCCCTGGCA TAAGGGAACC TAGACTCGTG
    TCATCCTGCC ACAGGGCCAG CAGAGTCAGT ATCTATGACA ACGTGCCCAG CTCACATCTG
    TATGCCAGCA CTGGAGATCT GTTGGACTTG GAGAAAGACG GGCTCCTTCC ACAGCTGGAT
    GACATTATAC AGCATGTCAA TGGCATACAA GAGGTAGTGG ATGACTGGTC AAGAAATATC
    TTGCCTGAAC TGCAAAGTCA CGATGCAGTG GCAGGGGACC CTGGTCAACC CCCATTTCAG
    TCTCCTCATC AGATCACTTT AGATTTTGAA GGCAACTCTG TCTCGGAAGG TCAGACAACA
    CCTAGTGATG TGGAAAGGGA CAGGACTTCT CTGAATGAAT CGGACACCAC TGGGGTCAGA
    GAAAGAAGGG ATTCTGGTGT GGGGGCCTCT CTGACCAGGC CAAACAGGCG CCTAAGGTGG
    AGTAGCTTCC AGCTCTCACA CCAGCCTCAG CTGTCTCCGG CCACGCCCCA CATCAGCAGC
    CAGACGGCCG CCCAGCTGAA CCTGCTCCAG CGCTTTTCTC TGCTTCGCCT CACAGCCATC
    ATGGAGAAGT ACTCCATGTC CAACAAGCAC GGCTGGACCT GCCTGTCTGC ACAGAGCGCC
    CCGGGGGCCT TGCATGACCT GGTTTCTGTG AATTCCAGGT CCGTCCCAAA GTTCATGAAG
    AGAATCAAAG CTCCTGACTA CAGAGACAAG GCTGTCTTCG GTGTCCCGCT CATAGTCCAT
    GTCCAGAGAA CAGGACAGCC CCTGCCTCAG AGCATTCAAC AAGCACTGAG GTATCTACGT
    AGCAACTGTC TGGATCAGGT GGGTCTTTTC CGAAAGTCGG GAGTGAAGTC TCGAATCCAT
    GCCCTACGTC AGATGAATGA GAACTTCCCT GACAACGTGA GCTATGAAGA CCAGTCTGCC
    TATGACGTGG CAGATATGGT AAAGCAGTTC TTCCGGGACC TCCCTGAGCC CCTTTTCACC
    AACAAGCTCA GTGAGACCTT CCTCCACATC TATCAGTACG TCCCCAAAGA ACAGCGGCTG
    CAGGCCGTGC AGGCAGCCAT CCTCCTGCTG GCGGATGAGA ACCGGGAGGC CCTGCAGACG
    CTCCTGTGCT TCCTGCATGA CGTAGTGAAC TTGGTGGACG AGAATCAGAT GACGCCCATG
    AATCTGGCCG TGTGCCTGGC CCCCTCCCTC TTTCATCTCA ACTTGCTGAA AAAAGAAAGT
    TCCCCAAGAG TCATCCAGAA GAAATACGCC ACTGGGAAGC CAGATCAGAA AGACCTCAAT
    GAAAATCTAG CCGCAGCTCA GGGGCTCGCC CACATGATCA CGGAATGCAA CCGACTCTTC
    GAGGTTCCAC ACGAGATGGT GGCCCAGTCT CGTAACTCCT ACTTAGAGGC TGAGATCCAC
    GCGCCCAGCC TAGAAGACTT GGGAACTCAG CTGGCAGAGA ATGGGGCAAC TTTTCACACG
    TACCTGGAGC ATCTTGTCCA AGGCCTCCAG AAAGAGGCTA AGGAGAAATT CAAGGGGTGG
    GTCACGTGTT CCAGCCCTGA CAACACGGAC CTTGCTTTCA AAAAGGTGGG GGACGGGAAC
    CCGCTGAAGC TGTGGAAGGC ATCCGTGGAG GTGGAGGCAC CGCCCTCCGT GGTGTTGAAC
    CGCGTGCTGA GAGAACGTCA CCTGTGGGAT GAGGATTTCG TGCAGTGGAA GGTCGTGGAA
    ACGTTGGACA GACAGACAGA AATATACCAG TATGTGCTAA ACAGCATGGT TCCACACCCC
    TCCAGAGACT TCGTGGTGCT CAGGACCTGG AAGACCGATT TGCCCAAAGG AATGTGCACC
    CTGGTGTCCC TGTCTGTGGA GCATGAAGAA GCCCAGCTCA TGGGTGATGT GCGGGCGGTG
    GTGATGGACT CTCAGTACCT GATAGAGCCC TGTGGCTCCG GCAAGTCCAG GCTGACCCAC
    ATCTGCAGGA TAGACCTGAA AGGCCACTCC CCAGAATGGT ACAGCAAAGG CTTCGGACAC
    CTCTGTGCCG CAGAAGTTGC CAGAATTAGG AACTCTTTCC AGCCTCTCGT TGCTGAGGGT
    CCAGAAACAA AAATCTAA

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