Spata31d3 cDNA ORF clone, Rattus norvegicus(Norway rat)

The following Spata31d3 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Spata31d3 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
ORa54586 XM_017587651.1
Latest version!
Rattus norvegicus SPATA31 subfamily D, member 3 (Spata31d3), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
ORa59127 XM_017600681.1
Latest version!
Rattus norvegicus SPATA31 subfamily D, member 3 (Spata31d3), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
ORa37640 XM_008771468.2
Latest version!
Rattus norvegicus SPATA31 subfamily D, member 3 (Spata31d3), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00

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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 ORa54586
    Clone ID Related Accession (Same CDS sequence) XM_017587651.1
    Accession Version XM_017587651.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3471bp)
    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 spermatogenesis-associated protein 31D1 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (AC_000085.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    ATGGAGAACA TTTTCTCATC TCTGAATGGC CTCACGGAGA CATGGCTGAC CTTTGGCTCA 
    GCTTCCTACC ACAAATACCT CAGCTACATT CTTCTGAGTG GACTGGGGCT CCTGCTTCTG
    TACATCAGCT CCCTGATAGT GAGACTGCTT GCCCGGTCTC TGCAGAGAAA GAAATACGCC
    CCAAAGCTAC AGAACAACAT TAGGCACAGA AGGGGGAAAG CATTTAAACG TAAGAAAGCT
    GGCCAGAGAG ACCCTGAGAC AGCAAAGAAG CTGCAGATAA CCCTTCAAAG GGCTCCTGTG
    ACAGAAGCTC CGATTGCTCT ACCCTCTGGC TTCCCTGCAA ACCAACCGGG ACTTCCAGCT
    CTAGAAGCTC CTCTCCACAC TTCCCTCTCC ACCCTCTCGC AGGACCAAAT CACTCCTCCG
    GATGGCGTAT CTCCTTCTAC ACCCCTCAGG GCCTCCCTGT CACCCCAAGC TATTGCTCCC
    TTAAAGCCTG CAGTGTTGCT GACCCATACC CCATGCAAAA TGCTTACTTC TTCTCCACTT
    GCCACTCAGG AAGCACAGTT GGCTCTCCGA GCGGAGAGCC CTAGGGAGCA GTCCTCCAAT
    GCCTCAACGG CCAAAAGCAC CATCTATGAG TCAGCATCCT CTCAGTTGTG GTTCAGTGCT
    GAAGACCAGC CCCGGACAAA TTTGCCACAC GTGAAGCCCT ATGCTTCTCG AGGCTCATAC
    CGGAGACTCA CAAAGGTCCA TGCTGCGGAG CCTGAAGATC ATTTGTCCCC CGGCCCCGAT
    GTCTTAGCAC TCTTCAAGAG GCAAGAGAAA AGGGATGCTG ATGTCGCTGC ATATAAACTG
    AAAAAGGAGA AAACGGTATC TTTTTTAATA CCGGAAAGTA CTTCAGGGGA AATCTCAGCA
    TCATCTGCTG ATGTAGAGAA CGCGGACCTC TACCACCTTC TGGGTAAAAA AAAGGGAGAG
    CCTGGGGGCC CTCACCCACA GCAGGAGCCC TCTCACCTGA AGAACTCTGA AGACCAGTCA
    GAGATCAAGG ACAACCAGCT CTTCTGGGGT CTCCCTTCTC TACACAGTGA GTCCCTGAAA
    CATGAAGCTG CTAATTCAGT TAACAGTTAC CCAGAAAGGG ACGATTTCCA CAGGATCGCG
    GAGGCCTCCA CAGGACGTGA GTCTTCCAAC CTTACTTACC CCATACCTCT ACTCTTGCCT
    GAGAGTGACC AACAGGGGCA AACTGTACCT CAGTCTCAAA TCAAGCCTGA CTCTCCTACT
    GACTCTAAGG CCCAGACTCA ATCCAGACTC CCATTCCTGC CATCTTCTCC TCAATCCCAG
    CTTAGGATAT GCGGAGTGCG TTTTCACAGC CTAAAGGATG AGGGGCAGCC CCTCGCGCCG
    TATGAACTTC AGCAGCTGGA ATATAACTTA TTACAAAAAA CACTGCAAGG TTTTTTGGGT
    TTACCCACTC TGACCCAAAG ATTCCAAGAA GGTTTTGGTC CCTCACCTCC TAAAATCTCC
    TCAACCAGAC ATTCATCCAA GGCCCATGCT CCTAAGAAAA TCCTTCCTGG AGACTTCCCT
    TTCAACTATA AACTCGAGAG GAAACTAGAA CACCATCTTC GAAAGAGACT CATCCAACGT
    CGCTGGGGCC TGCCCCAGAG GATCCGGGAG TCCCTGTCTT TCATGAATCC TCACTCAAAA
    ATTCCTGAGG TCCCTGAGGC AAGGAACAGC CATGGACTCT CATGGATCTC TCACTATAAG
    TTCAACACGA ACAGCCTATC AGGTCTTGGG CTCAGCCAAA CTTCAAGCTT CCATAAAAAG
    CCCTTAGAGA GTCACTCTCT AAAGGCGAAA GACGTCAAAG TTCAGGGACA ATGTCCAGGA
    ATAGGCCAAA GAGATCACAT ACAGGGTGAC TCCAGTGGGG CTTTGATGAG CAGAGTACAT
    TCTAATTCTG AGACAGACCC AGAACTTCAG CTTCGGGATA TGTCTGGAAA AATTTCAAAG
    GCTTCATTGG TCAAGCAATG CCAGAGAGAA TGTGAAAGTT TCCTGCAAGA ACAGCTGGGA
    AGGAACACTA AAGAAATTAG TAGGGGTGAG ATGTCTAGTG CTGCTGACCG GTCAGGGCAT
    TCTACAAACA TGGCACAGAC TCCACCTGGG ACCTCCCCCA GACAAGTGGC ACCTTTGCTA
    AGTGAAGAAG ATGCACGGAA AGAACACGAG CACAGCTTGA CGCTTAGTGA TAACCAAGAA
    AAGGTACTGG AAGAACACAT CACAGACTTC GGCAGGAGGA TGGCATTCGG CCTTCCTCAA
    AGAGTTGAGG AATCCCTAGA GTCCTACTTG ACAAGAGCAG AGCCATCTCA ACCTTTCCCT
    CAGCTCCACA CTCGAGCCCA TAGCGTTTGT ACAGTGGATT CTGACAAGCC CTCCAGATTC
    CTTAGAAGAA ACACTAATGG AGATAGAAAG GGGACAGTGG ATTTAGTCCC CGTCCAACAC
    AGGCCTCTCC CTGCTGCCTG GCTTGCGGGC CACACACAGC CAGCCTCTGA GAACAAGAAG
    GTGTGTGTAG ACAAAGACCT TAGCATGGCC CCAAGTGGCC GAGAGCCGAT CAAGCACTGG
    ACACCCAGTA TGGCACACAA AGGCATCCGG CAACATTCTA GATCAGACAG CAGGCCTGAC
    CCAGAGCCAC CCATGAGCCC AGATGGGCCA ACAGAGGAGA GATTGGCTTC CAGCAACAAC
    ACACAGGGCT CTCAGGGAGA AAGGAAGAAC TGGAAAGACT GCTCCATGGC TGAGGGGTCC
    ACAGACCTAC ACAAGGGAGA GCAACTCCCT GGTCCTGACC CACAGTCCAC TAAGAACTTG
    AAAGGCACCC AGGACCTGTG CTCCCCAGGG AGCCATGCGA CTGAATGTCA GTCCCTGCAG
    GGAATGTCCG TTCCCCAGGA CTCTGAGACG CCTCACTCTA AAGAAACCCA AGGACACACA
    TCCTCCCCAG CACTGACACC TAAGAGTCAG CCTCTGGAAA ATCAGTTCCC CAACCAGGTG
    AAGGGCTTCT GGCAGAGGCT GTCCCCTGGG AGGAAACACA AAGGGCAGGA AAAGATCCTG
    GCCAGGGGCT GCTCCTCATT AATGCCAGTG AAGGGAGCAA GCCTCATCAA AGGGAGATGT
    GAGTTCTGTG GGAACACAGC AGCTCAGAAA TGTGTGAGAG AGCCTGGGAT GGTCCTCAGG
    AAACAGCTAG GGTTCAGGCA TTGGACAGTC ATTCCTTGTC CCCAGGCACC TGTGTCTCCC
    CTCATGGGGT CTGTAGAAGC TCAGCAAGAG TTGCAACTGC AGGCTCAGGC AGAGCCTGCC
    CAGAGGCTGC CCCACTTCTG CTGCAGAGCT TCCTGCTCTC AAGTGCAGAG GGCTGAGTCC
    TGCAGCCCAG GACAAGGGCA GACAGCCCTT GAGAGGTGCG GCACTACTGG AAAAGCTAAG
    ATGGTGGAGC CCTCCCCCAT GCATGCTTCT CCACCAAAGT CCTATCTGTA G

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

    RefSeq XP_017443140.1
    CDS36..3506
    Translation

    Target ORF information:

    RefSeq Version XM_017587651.1
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus SPATA31 subfamily D, member 3 (Spata31d3), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017587651.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    ATGGAGAACA TTTTCTCATC TCTGAATGGC CTCACGGAGA CATGGCTGAC CTTTGGCTCA 
    GCTTCCTACC ACAAATACCT CAGCTACATT CTTCTGAGTG GACTGGGGCT CCTGCTTCTG
    TACATCAGCT CCCTGATAGT GAGACTGCTT GCCCGGTCTC TGCAGAGAAA GAAATACGCC
    CCAAAGCTAC AGAACAACAT TAGGCACAGA AGGGGGAAAG CATTTAAACG TAAGAAAGCT
    GGCCAGAGAG ACCCTGAGAC AGCAAAGAAG CTGCAGATAA CCCTTCAAAG GGCTCCTGTG
    ACAGAAGCTC CGATTGCTCT ACCCTCTGGC TTCCCTGCAA ACCAACCGGG ACTTCCAGCT
    CTAGAAGCTC CTCTCCACAC TTCCCTCTCC ACCCTCTCGC AGGACCAAAT CACTCCTCCG
    GATGGCGTAT CTCCTTCTAC ACCCCTCAGG GCCTCCCTGT CACCCCAAGC TATTGCTCCC
    TTAAAGCCTG CAGTGTTGCT GACCCATACC CCATGCAAAA TGCTTACTTC TTCTCCACTT
    GCCACTCAGG AAGCACAGTT GGCTCTCCGA GCGGAGAGCC CTAGGGAGCA GTCCTCCAAT
    GCCTCAACGG CCAAAAGCAC CATCTATGAG TCAGCATCCT CTCAGTTGTG GTTCAGTGCT
    GAAGACCAGC CCCGGACAAA TTTGCCACAC GTGAAGCCCT ATGCTTCTCG AGGCTCATAC
    CGGAGACTCA CAAAGGTCCA TGCTGCGGAG CCTGAAGATC ATTTGTCCCC CGGCCCCGAT
    GTCTTAGCAC TCTTCAAGAG GCAAGAGAAA AGGGATGCTG ATGTCGCTGC ATATAAACTG
    AAAAAGGAGA AAACGGTATC TTTTTTAATA CCGGAAAGTA CTTCAGGGGA AATCTCAGCA
    TCATCTGCTG ATGTAGAGAA CGCGGACCTC TACCACCTTC TGGGTAAAAA AAAGGGAGAG
    CCTGGGGGCC CTCACCCACA GCAGGAGCCC TCTCACCTGA AGAACTCTGA AGACCAGTCA
    GAGATCAAGG ACAACCAGCT CTTCTGGGGT CTCCCTTCTC TACACAGTGA GTCCCTGAAA
    CATGAAGCTG CTAATTCAGT TAACAGTTAC CCAGAAAGGG ACGATTTCCA CAGGATCGCG
    GAGGCCTCCA CAGGACGTGA GTCTTCCAAC CTTACTTACC CCATACCTCT ACTCTTGCCT
    GAGAGTGACC AACAGGGGCA AACTGTACCT CAGTCTCAAA TCAAGCCTGA CTCTCCTACT
    GACTCTAAGG CCCAGACTCA ATCCAGACTC CCATTCCTGC CATCTTCTCC TCAATCCCAG
    CTTAGGATAT GCGGAGTGCG TTTTCACAGC CTAAAGGATG AGGGGCAGCC CCTCGCGCCG
    TATGAACTTC AGCAGCTGGA ATATAACTTA TTACAAAAAA CACTGCAAGG TTTTTTGGGT
    TTACCCACTC TGACCCAAAG ATTCCAAGAA GGTTTTGGTC CCTCACCTCC TAAAATCTCC
    TCAACCAGAC ATTCATCCAA GGCCCATGCT CCTAAGAAAA TCCTTCCTGG AGACTTCCCT
    TTCAACTATA AACTCGAGAG GAAACTAGAA CACCATCTTC GAAAGAGACT CATCCAACGT
    CGCTGGGGCC TGCCCCAGAG GATCCGGGAG TCCCTGTCTT TCATGAATCC TCACTCAAAA
    ATTCCTGAGG TCCCTGAGGC AAGGAACAGC CATGGACTCT CATGGATCTC TCACTATAAG
    TTCAACACGA ACAGCCTATC AGGTCTTGGG CTCAGCCAAA CTTCAAGCTT CCATAAAAAG
    CCCTTAGAGA GTCACTCTCT AAAGGCGAAA GACGTCAAAG TTCAGGGACA ATGTCCAGGA
    ATAGGCCAAA GAGATCACAT ACAGGGTGAC TCCAGTGGGG CTTTGATGAG CAGAGTACAT
    TCTAATTCTG AGACAGACCC AGAACTTCAG CTTCGGGATA TGTCTGGAAA AATTTCAAAG
    GCTTCATTGG TCAAGCAATG CCAGAGAGAA TGTGAAAGTT TCCTGCAAGA ACAGCTGGGA
    AGGAACACTA AAGAAATTAG TAGGGGTGAG ATGTCTAGTG CTGCTGACCG GTCAGGGCAT
    TCTACAAACA TGGCACAGAC TCCACCTGGG ACCTCCCCCA GACAAGTGGC ACCTTTGCTA
    AGTGAAGAAG ATGCACGGAA AGAACACGAG CACAGCTTGA CGCTTAGTGA TAACCAAGAA
    AAGGTACTGG AAGAACACAT CACAGACTTC GGCAGGAGGA TGGCATTCGG CCTTCCTCAA
    AGAGTTGAGG AATCCCTAGA GTCCTACTTG ACAAGAGCAG AGCCATCTCA ACCTTTCCCT
    CAGCTCCACA CTCGAGCCCA TAGCGTTTGT ACAGTGGATT CTGACAAGCC CTCCAGATTC
    CTTAGAAGAA ACACTAATGG AGATAGAAAG GGGACAGTGG ATTTAGTCCC CGTCCAACAC
    AGGCCTCTCC CTGCTGCCTG GCTTGCGGGC CACACACAGC CAGCCTCTGA GAACAAGAAG
    GTGTGTGTAG ACAAAGACCT TAGCATGGCC CCAAGTGGCC GAGAGCCGAT CAAGCACTGG
    ACACCCAGTA TGGCACACAA AGGCATCCGG CAACATTCTA GATCAGACAG CAGGCCTGAC
    CCAGAGCCAC CCATGAGCCC AGATGGGCCA ACAGAGGAGA GATTGGCTTC CAGCAACAAC
    ACACAGGGCT CTCAGGGAGA AAGGAAGAAC TGGAAAGACT GCTCCATGGC TGAGGGGTCC
    ACAGACCTAC ACAAGGGAGA GCAACTCCCT GGTCCTGACC CACAGTCCAC TAAGAACTTG
    AAAGGCACCC AGGACCTGTG CTCCCCAGGG AGCCATGCGA CTGAATGTCA GTCCCTGCAG
    GGAATGTCCG TTCCCCAGGA CTCTGAGACG CCTCACTCTA AAGAAACCCA AGGACACACA
    TCCTCCCCAG CACTGACACC TAAGAGTCAG CCTCTGGAAA ATCAGTTCCC CAACCAGGTG
    AAGGGCTTCT GGCAGAGGCT GTCCCCTGGG AGGAAACACA AAGGGCAGGA AAAGATCCTG
    GCCAGGGGCT GCTCCTCATT AATGCCAGTG AAGGGAGCAA GCCTCATCAA AGGGAGATGT
    GAGTTCTGTG GGAACACAGC AGCTCAGAAA TGTGTGAGAG AGCCTGGGAT GGTCCTCAGG
    AAACAGCTAG GGTTCAGGCA TTGGACAGTC ATTCCTTGTC CCCAGGCACC TGTGTCTCCC
    CTCATGGGGT CTGTAGAAGC TCAGCAAGAG TTGCAACTGC AGGCTCAGGC AGAGCCTGCC
    CAGAGGCTGC CCCACTTCTG CTGCAGAGCT TCCTGCTCTC AAGTGCAGAG GGCTGAGTCC
    TGCAGCCCAG GACAAGGGCA GACAGCCCTT GAGAGGTGCG GCACTACTGG AAAAGCTAAG
    ATGGTGGAGC CCTCCCCCAT GCATGCTTCT CCACCAAAGT CCTATCTGTA G

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

    CloneID ORa59127
    Clone ID Related Accession (Same CDS sequence) XM_017600681.1
    Accession Version XM_017600681.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3843bp)
    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 spermatogenesis-associated protein 31D1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005116.4) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGGAGAACA TTTTCTCATC TCTGAATGGC CTCACGGAGA CATGGCTGAC CTTTGGCTCA 
    GCTTCCTACC ACAAATACCT CAGCTACATT CTTCTGAGTG GACTGGGGCT CCTGCTTCTG
    TACATCAGCT CCCTGATAGT GAGACTGCTT GCCCGGTCTC TGCAGAGAAA GAAATACGCC
    CCAAAGCTAC AGAACAACAT TAGGCACAGA AGGGGGAAAG CATTTAAACG TAAGAAAGCT
    GGCCAGAGAG ACCCTGAGAC AGCAAAGAAG CTGCAGATAA CCCTTCAAAG GGCTCCTGTG
    ACAGAAGCTC CGATTGCTCT ACCCTCTGGC TTCCCTGCAA ACCAACCGGG ACTTCCAGCT
    CTAGAAGCTC CTCTCCACAC TTCCCTCTCC ACCCTCTCGC AGGACCAAAT CACTCCTCCG
    GATGGCGTAT CTCCTTCTAC ACCCCTCAGG GCCTCCCTGT CACCCCAAGC TATTGCTCCC
    TTAAAGCCTG CAGTGTTGCT GACCCATACC CCATGCAAAA TGCTTACTTC TTCTCCACTT
    GCCACTCAGG AAGCACAGTT GGCTCTCCGA GCGGAGAGCC CTAGGGAGCA GTCCTCCAAT
    GCCTCAACGG CCAAAAGCAC CATCTATGAG TCAGCATCCT CTCAGTTGTG GTTCAGTGCT
    GAAGACCAGC CCCGGACAAA TTTGCCACAC GTGAAGCCCT ATGCTTCTCG AGGCTCATAC
    CGGAGACTCA CAAAGGTCCA TGCTGCGGAG CCTGAAGATC ATTTGTCCCC CGGCCCCGAT
    GTCTTAGCAC TCTTCAAGAG GCAAGAGAAA AGGGATGCTG ATGTCGCTGC ATATAAACTG
    AAAAAGGAGA AAACGGTATC TTTTTTAATA CCGGAAAGTA CTTCAGGGGA AATCTCAGCA
    TCATCTGCTG ATGTAGAGAA CGCGGACCTC TACCACCTTC TGGGTAAAAA AAAGGGAGAG
    CCTGGGGGCC CTCACCCACA GCAGGAGCCC TCTCACCTGA AGAACTCTGA AGACCAGTCA
    GAGATCAAGG ACAACCAGCT CTTCTGGGGT CTCCCTTCTC TACACAGTGA GTCCCTGAAA
    CATGAAGCTG CTAATTCAGT TAACAGTTAC CCAGAAAGGG ACGATTTCCA CAGGATCGCG
    GAGGCCTCCA CAGGACGTGA GTCTTCCAAC CTTACTTACC CCATACCTCT ACTCTTGCCT
    GAGAGTGACC AACAGGGGCA AACTGTACCT CAGTCTCAAA TCAAGCCTGA CTCTCCTACT
    GACTCTAAGG CCCAGACTCA ATCCAGACTC CCATTCCTGC CATCTTCTCC TCAATCCCAG
    CTTAGGATAT GCGGAGTGCG TTTTCACAGC CTAAAGGATG AGGGGCAGCC CCTCGCGCCG
    TATGAACTTC AGCAGCTGGA ATATAACTTA TTACAAAAAA CACTGCAAGG TTTTTTGGGT
    TTACCCACTC TGACCCAAAG ATTCCAAGAA GGTTTTGGTC CCTCACCTCC TAAAATCTCC
    TCAACCAGAC ATTCATCCAA GGCCCATGCT CCTAAGAAAA TCCTTCCTGG AGACTTCCCT
    TTCAACTATA AACTCGAGAG GAAACTAGAA CACCATCTTC GAAAGAGACT CATCCAACGT
    CGCTGGGGCC TGCCCCAGAG GATCCGGGAG TCCCTGTCTT TCATGAATCC TCACTCAAAA
    ATTCCTGAGG TCCCTGAGGC AAGGAACAGC CATGGACTCT CATGGATCTC TCACTATAAG
    TTCAACACGA ACAGCCTATC AGGTCTTGGG CTCAGCCAAA CTTCAAGCTT CCATAAAAAG
    CCCTTAGAGA GTCACTCTCT AAAGGCGAAA GACGTCAAAG TTCAGGGACA ATGTCCAGGA
    ATAGGCCAAA GAGATCACAT ACAGGGTGAC TCCAGTGGGG CTTTGATGAG CAGAGTACAT
    TCTAATTCTG AGACAGACCC AGAACTTCAG CTTCGGGATA TGTCTGGAAA AATTTCAAAG
    GCTTCATTGG TCAAGCAATG CCAGAGAGAA TGTGAAAGTT TCCTGCAAGA ACAGCTGGGA
    AGGAACACTA AAGAAATTAG TAGGGGTGAG ATGTCTAGTG CTGCTGACCG GTCAGGGCAT
    TCTACAAACA TGGCACAGAC TCCACCTGGG ACCTCCCCCA GACAAGTGGC ACCTTTGCTA
    AGTGAAGAAG ATGCACGGAA AGAACACGAG CACAGCTTGA CGCTTAGTGA TAACCAAGAA
    AAGGTACTGG AAGAACACAT CACAGACTTC GGCAGGAGGA TGGCATTCGG CCTTCCTCAA
    AGAGTTGAGG AATCCCTAGA GTCCTACTTG ACAAGAGCAG AGCCATCTCA ACCTTTCCCT
    CAGCTCCACA CTCGAGCCCA TAGCGTTTGT ACAGTGGATT CTGACAAGCC CTCCAGATTC
    CTTAGAAGAA ACACTAATGG AGATAGAAAG GGGACAGTGG ATTTAGTCCC CGTCCAACAC
    AGGCCTCTCC CTGCTGCCTG GCTTGCGGGC CACACACAGC CAGCCTCTGA GAACAAGAAG
    GTGTGTGTAG ACAAAGACCT TAGCATGGCC CCAAGTGGCC GAGAGCCGAT CAAGCACTGG
    ACACCCAGTA TGGCACACAA AGGCATCCGG CAACATTCTA GATCAGACAG CAGGCCTGAC
    CCAGAGCCAC CCATGAGCCC AGATGGGCCA ACAGAGGAGA GATTGGCTTC CAGCAACAAC
    ACACAGGGCT CTCAGGGAGA AAGGAAGAAC TGGAAAGACT GCTCCATGGC TGAGGGGTCC
    ACAGACCTAC ACAAGGGAGA GCAACTCCCT GGTCCTGACC CACAGTCCAC TAAGAACTTG
    AAAGGCACCC AGGACCTGTG CTCCCCAGGG AGCCATGCGA CTGAATGTCA GTCCCTGCAG
    GGAATGTCCG TTCCCCAGGA CTCTGAGACG CCTCACTCTA AAAGTCAGGT GTCCACAGAA
    GTCGTGCCAA ACTCAGAGGG CGAGACACAC ATCCAGGTGC CAGACCTGCC CGCCACAGCC
    TTTGCCTCAG AAGAAATGAC TTCCAAACCC CGGGGCCCCT CCAGTGGGGA CATGGCGGTT
    TCTCAGGTGC TGCATGTGCA CTTCCCCTCT GTGGGCATCA ACATGGAGCC ACGGCAGGGT
    CCCTGGGTCC CTGCATATGT CTCAGGCAAG AGCAAGAACA AGGACTGTCC CCCAGCTGCC
    AGAGGAGTGC CCCCACTGGT AACTGAGGCA GGAAAGCTTG GTGGAGGGGA TGCAGGCTTA
    GGGACATCCC AGACCAGAGG GAAGAGACAC TGTGCTCAGG CCAGGGCAGC AGAGGAAACC
    CAAGGACACA CATCCTCCCC AGCACTGACA CCTAAGAGTC AGCCTCTGGA AAATCAGTTC
    CCCAACCAGG TGAAGGGCTT CTGGCAGAGG CTGTCCCCTG GGAGGAAACA CAAAGGGCAG
    GAAAAGATCC TGGCCAGGGG CTGCTCCTCA TTAATGCCAG TGAAGGGAGC AAGCCTCATC
    AAAGGGAGAT GTGAGTTCTG TGGGAACACA GCAGCTCAGA AATGTGTGAG AGAGCCTGGG
    ATGGTCCTCA GGAAACAGCT AGGGTTCAGG CATTGGACAG TCATTCCTTG TCCCCAGGCA
    CCTGTGTCTC CCCTCATGGG GTCTGTAGAA GCTCAGCAAG AGTTGCAACT GCAGGCTCAG
    GCAGAGCCTG CCCAGAGGCT GCCCCACTTC TGCTGCAGAG CTTCCTGCTC TCAAGTGCAG
    AGGGCTGAGT CCTGCAGCCC AGGACAAGGG CAGACAGCCC TTGAGAGGTG CGGCACTACT
    GGAAAAGCTA AGATGGTGGA GCCCTCCCCC ATGCATGCTT CTCCACCAAA GTCCTATCTG
    TAG

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

    RefSeq XP_017456170.1
    CDS52..3894
    Translation

    Target ORF information:

    RefSeq Version XM_017600681.1
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus SPATA31 subfamily D, member 3 (Spata31d3), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017600681.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGGAGAACA TTTTCTCATC TCTGAATGGC CTCACGGAGA CATGGCTGAC CTTTGGCTCA 
    GCTTCCTACC ACAAATACCT CAGCTACATT CTTCTGAGTG GACTGGGGCT CCTGCTTCTG
    TACATCAGCT CCCTGATAGT GAGACTGCTT GCCCGGTCTC TGCAGAGAAA GAAATACGCC
    CCAAAGCTAC AGAACAACAT TAGGCACAGA AGGGGGAAAG CATTTAAACG TAAGAAAGCT
    GGCCAGAGAG ACCCTGAGAC AGCAAAGAAG CTGCAGATAA CCCTTCAAAG GGCTCCTGTG
    ACAGAAGCTC CGATTGCTCT ACCCTCTGGC TTCCCTGCAA ACCAACCGGG ACTTCCAGCT
    CTAGAAGCTC CTCTCCACAC TTCCCTCTCC ACCCTCTCGC AGGACCAAAT CACTCCTCCG
    GATGGCGTAT CTCCTTCTAC ACCCCTCAGG GCCTCCCTGT CACCCCAAGC TATTGCTCCC
    TTAAAGCCTG CAGTGTTGCT GACCCATACC CCATGCAAAA TGCTTACTTC TTCTCCACTT
    GCCACTCAGG AAGCACAGTT GGCTCTCCGA GCGGAGAGCC CTAGGGAGCA GTCCTCCAAT
    GCCTCAACGG CCAAAAGCAC CATCTATGAG TCAGCATCCT CTCAGTTGTG GTTCAGTGCT
    GAAGACCAGC CCCGGACAAA TTTGCCACAC GTGAAGCCCT ATGCTTCTCG AGGCTCATAC
    CGGAGACTCA CAAAGGTCCA TGCTGCGGAG CCTGAAGATC ATTTGTCCCC CGGCCCCGAT
    GTCTTAGCAC TCTTCAAGAG GCAAGAGAAA AGGGATGCTG ATGTCGCTGC ATATAAACTG
    AAAAAGGAGA AAACGGTATC TTTTTTAATA CCGGAAAGTA CTTCAGGGGA AATCTCAGCA
    TCATCTGCTG ATGTAGAGAA CGCGGACCTC TACCACCTTC TGGGTAAAAA AAAGGGAGAG
    CCTGGGGGCC CTCACCCACA GCAGGAGCCC TCTCACCTGA AGAACTCTGA AGACCAGTCA
    GAGATCAAGG ACAACCAGCT CTTCTGGGGT CTCCCTTCTC TACACAGTGA GTCCCTGAAA
    CATGAAGCTG CTAATTCAGT TAACAGTTAC CCAGAAAGGG ACGATTTCCA CAGGATCGCG
    GAGGCCTCCA CAGGACGTGA GTCTTCCAAC CTTACTTACC CCATACCTCT ACTCTTGCCT
    GAGAGTGACC AACAGGGGCA AACTGTACCT CAGTCTCAAA TCAAGCCTGA CTCTCCTACT
    GACTCTAAGG CCCAGACTCA ATCCAGACTC CCATTCCTGC CATCTTCTCC TCAATCCCAG
    CTTAGGATAT GCGGAGTGCG TTTTCACAGC CTAAAGGATG AGGGGCAGCC CCTCGCGCCG
    TATGAACTTC AGCAGCTGGA ATATAACTTA TTACAAAAAA CACTGCAAGG TTTTTTGGGT
    TTACCCACTC TGACCCAAAG ATTCCAAGAA GGTTTTGGTC CCTCACCTCC TAAAATCTCC
    TCAACCAGAC ATTCATCCAA GGCCCATGCT CCTAAGAAAA TCCTTCCTGG AGACTTCCCT
    TTCAACTATA AACTCGAGAG GAAACTAGAA CACCATCTTC GAAAGAGACT CATCCAACGT
    CGCTGGGGCC TGCCCCAGAG GATCCGGGAG TCCCTGTCTT TCATGAATCC TCACTCAAAA
    ATTCCTGAGG TCCCTGAGGC AAGGAACAGC CATGGACTCT CATGGATCTC TCACTATAAG
    TTCAACACGA ACAGCCTATC AGGTCTTGGG CTCAGCCAAA CTTCAAGCTT CCATAAAAAG
    CCCTTAGAGA GTCACTCTCT AAAGGCGAAA GACGTCAAAG TTCAGGGACA ATGTCCAGGA
    ATAGGCCAAA GAGATCACAT ACAGGGTGAC TCCAGTGGGG CTTTGATGAG CAGAGTACAT
    TCTAATTCTG AGACAGACCC AGAACTTCAG CTTCGGGATA TGTCTGGAAA AATTTCAAAG
    GCTTCATTGG TCAAGCAATG CCAGAGAGAA TGTGAAAGTT TCCTGCAAGA ACAGCTGGGA
    AGGAACACTA AAGAAATTAG TAGGGGTGAG ATGTCTAGTG CTGCTGACCG GTCAGGGCAT
    TCTACAAACA TGGCACAGAC TCCACCTGGG ACCTCCCCCA GACAAGTGGC ACCTTTGCTA
    AGTGAAGAAG ATGCACGGAA AGAACACGAG CACAGCTTGA CGCTTAGTGA TAACCAAGAA
    AAGGTACTGG AAGAACACAT CACAGACTTC GGCAGGAGGA TGGCATTCGG CCTTCCTCAA
    AGAGTTGAGG AATCCCTAGA GTCCTACTTG ACAAGAGCAG AGCCATCTCA ACCTTTCCCT
    CAGCTCCACA CTCGAGCCCA TAGCGTTTGT ACAGTGGATT CTGACAAGCC CTCCAGATTC
    CTTAGAAGAA ACACTAATGG AGATAGAAAG GGGACAGTGG ATTTAGTCCC CGTCCAACAC
    AGGCCTCTCC CTGCTGCCTG GCTTGCGGGC CACACACAGC CAGCCTCTGA GAACAAGAAG
    GTGTGTGTAG ACAAAGACCT TAGCATGGCC CCAAGTGGCC GAGAGCCGAT CAAGCACTGG
    ACACCCAGTA TGGCACACAA AGGCATCCGG CAACATTCTA GATCAGACAG CAGGCCTGAC
    CCAGAGCCAC CCATGAGCCC AGATGGGCCA ACAGAGGAGA GATTGGCTTC CAGCAACAAC
    ACACAGGGCT CTCAGGGAGA AAGGAAGAAC TGGAAAGACT GCTCCATGGC TGAGGGGTCC
    ACAGACCTAC ACAAGGGAGA GCAACTCCCT GGTCCTGACC CACAGTCCAC TAAGAACTTG
    AAAGGCACCC AGGACCTGTG CTCCCCAGGG AGCCATGCGA CTGAATGTCA GTCCCTGCAG
    GGAATGTCCG TTCCCCAGGA CTCTGAGACG CCTCACTCTA AAAGTCAGGT GTCCACAGAA
    GTCGTGCCAA ACTCAGAGGG CGAGACACAC ATCCAGGTGC CAGACCTGCC CGCCACAGCC
    TTTGCCTCAG AAGAAATGAC TTCCAAACCC CGGGGCCCCT CCAGTGGGGA CATGGCGGTT
    TCTCAGGTGC TGCATGTGCA CTTCCCCTCT GTGGGCATCA ACATGGAGCC ACGGCAGGGT
    CCCTGGGTCC CTGCATATGT CTCAGGCAAG AGCAAGAACA AGGACTGTCC CCCAGCTGCC
    AGAGGAGTGC CCCCACTGGT AACTGAGGCA GGAAAGCTTG GTGGAGGGGA TGCAGGCTTA
    GGGACATCCC AGACCAGAGG GAAGAGACAC TGTGCTCAGG CCAGGGCAGC AGAGGAAACC
    CAAGGACACA CATCCTCCCC AGCACTGACA CCTAAGAGTC AGCCTCTGGA AAATCAGTTC
    CCCAACCAGG TGAAGGGCTT CTGGCAGAGG CTGTCCCCTG GGAGGAAACA CAAAGGGCAG
    GAAAAGATCC TGGCCAGGGG CTGCTCCTCA TTAATGCCAG TGAAGGGAGC AAGCCTCATC
    AAAGGGAGAT GTGAGTTCTG TGGGAACACA GCAGCTCAGA AATGTGTGAG AGAGCCTGGG
    ATGGTCCTCA GGAAACAGCT AGGGTTCAGG CATTGGACAG TCATTCCTTG TCCCCAGGCA
    CCTGTGTCTC CCCTCATGGG GTCTGTAGAA GCTCAGCAAG AGTTGCAACT GCAGGCTCAG
    GCAGAGCCTG CCCAGAGGCT GCCCCACTTC TGCTGCAGAG CTTCCTGCTC TCAAGTGCAG
    AGGGCTGAGT CCTGCAGCCC AGGACAAGGG CAGACAGCCC TTGAGAGGTG CGGCACTACT
    GGAAAAGCTA AGATGGTGGA GCCCTCCCCC ATGCATGCTT CTCCACCAAA GTCCTATCTG
    TAG

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

    CloneID ORa37640
    Clone ID Related Accession (Same CDS sequence) XM_008771468.2
    Accession Version XM_008771468.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3999bp)
    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 spermatogenesis-associated protein 31D1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005116.4) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_008771468.1. ##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
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    ATGGAGAACA TTTTCTCATC TCTGAATGGC CTCACGGAGA CATGGCTGAC CTTTGGCTCA 
    GCTTCCTACC ACAAATACCT CAGCTACATT CTTCTGAGTG GACTGGGGCT CCTGCTTCTG
    TACATCAGCT CCCTGATAGT GAGACTGCTT GCCCGGTCTC TGCAGAGAAA GAAATACGCC
    CCAAAGCTAC AGAACAACAT TAGGCACAGA AGGGGGAAAG CATTTAAACG TAAGAAAGCT
    GGCCAGAGAG ACCCTGAGAC AGCAAAGAAG CTGCAGATAA CCCTTCAAAG CAAACCACAT
    AATCCCACAG GCTTTCGGCA ACTGCTATGG TCAGAGCCCC TCTGTAGTAT ATATAACAAA
    ACAAGTCCTC TGGTCAGCTA CCTGCTCTCT CAGGCTCCCC TGGAAGACGG TGGTGATGCC
    GCTTTGGTGT CCTCTTTGCC TTCTAGGGCT CCTGTGACAG AAGCTCCGAT TGCTCTACCC
    TCTGGCTTCC CTGCAAACCA ACCGGGACTT CCAGCTCTAG AAGCTCCTCT CCACACTTCC
    CTCTCCACCC TCTCGCAGGA CCAAATCACT CCTCCGGATG GCGTATCTCC TTCTACACCC
    CTCAGGGCCT CCCTGTCACC CCAAGCTATT GCTCCCTTAA AGCCTGCAGT GTTGCTGACC
    CATACCCCAT GCAAAATGCT TACTTCTTCT CCACTTGCCA CTCAGGAAGC ACAGTTGGCT
    CTCCGAGCGG AGAGCCCTAG GGAGCAGTCC TCCAATGCCT CAACGGCCAA AAGCACCATC
    TATGAGTCAG CATCCTCTCA GTTGTGGTTC AGTGCTGAAG ACCAGCCCCG GACAAATTTG
    CCACACGTGA AGCCCTATGC TTCTCGAGGC TCATACCGGA GACTCACAAA GGTCCATGCT
    GCGGAGCCTG AAGATCATTT GTCCCCCGGC CCCGATGTCT TAGCACTCTT CAAGAGGCAA
    GAGAAAAGGG ATGCTGATGT CGCTGCATAT AAACTGAAAA AGGAGAAAAC GGTATCTTTT
    TTAATACCGG AAAGTACTTC AGGGGAAATC TCAGCATCAT CTGCTGATGT AGAGAACGCG
    GACCTCTACC ACCTTCTGGG TAAAAAAAAG GGAGAGCCTG GGGGCCCTCA CCCACAGCAG
    GAGCCCTCTC ACCTGAAGAA CTCTGAAGAC CAGTCAGAGA TCAAGGACAA CCAGCTCTTC
    TGGGGTCTCC CTTCTCTACA CAGTGAGTCC CTGAAACATG AAGCTGCTAA TTCAGTTAAC
    AGTTACCCAG AAAGGGACGA TTTCCACAGG ATCGCGGAGG CCTCCACAGG ACGTGAGTCT
    TCCAACCTTA CTTACCCCAT ACCTCTACTC TTGCCTGAGA GTGACCAACA GGGGCAAACT
    GTACCTCAGT CTCAAATCAA GCCTGACTCT CCTACTGACT CTAAGGCCCA GACTCAATCC
    AGACTCCCAT TCCTGCCATC TTCTCCTCAA TCCCAGCTTA GGATATGCGG AGTGCGTTTT
    CACAGCCTAA AGGATGAGGG GCAGCCCCTC GCGCCGTATG AACTTCAGCA GCTGGAATAT
    AACTTATTAC AAAAAACACT GCAAGGTTTT TTGGGTTTAC CCACTCTGAC CCAAAGATTC
    CAAGAAGGTT TTGGTCCCTC ACCTCCTAAA ATCTCCTCAA CCAGACATTC ATCCAAGGCC
    CATGCTCCTA AGAAAATCCT TCCTGGAGAC TTCCCTTTCA ACTATAAACT CGAGAGGAAA
    CTAGAACACC ATCTTCGAAA GAGACTCATC CAACGTCGCT GGGGCCTGCC CCAGAGGATC
    CGGGAGTCCC TGTCTTTCAT GAATCCTCAC TCAAAAATTC CTGAGGTCCC TGAGGCAAGG
    AACAGCCATG GACTCTCATG GATCTCTCAC TATAAGTTCA ACACGAACAG CCTATCAGGT
    CTTGGGCTCA GCCAAACTTC AAGCTTCCAT AAAAAGCCCT TAGAGAGTCA CTCTCTAAAG
    GCGAAAGACG TCAAAGTTCA GGGACAATGT CCAGGAATAG GCCAAAGAGA TCACATACAG
    GGTGACTCCA GTGGGGCTTT GATGAGCAGA GTACATTCTA ATTCTGAGAC AGACCCAGAA
    CTTCAGCTTC GGGATATGTC TGGAAAAATT TCAAAGGCTT CATTGGTCAA GCAATGCCAG
    AGAGAATGTG AAAGTTTCCT GCAAGAACAG CTGGGAAGGA ACACTAAAGA AATTAGTAGG
    GGTGAGATGT CTAGTGCTGC TGACCGGTCA GGGCATTCTA CAAACATGGC ACAGACTCCA
    CCTGGGACCT CCCCCAGACA AGTGGCACCT TTGCTAAGTG AAGAAGATGC ACGGAAAGAA
    CACGAGCACA GCTTGACGCT TAGTGATAAC CAAGAAAAGG TACTGGAAGA ACACATCACA
    GACTTCGGCA GGAGGATGGC ATTCGGCCTT CCTCAAAGAG TTGAGGAATC CCTAGAGTCC
    TACTTGACAA GAGCAGAGCC ATCTCAACCT TTCCCTCAGC TCCACACTCG AGCCCATAGC
    GTTTGTACAG TGGATTCTGA CAAGCCCTCC AGATTCCTTA GAAGAAACAC TAATGGAGAT
    AGAAAGGGGA CAGTGGATTT AGTCCCCGTC CAACACAGGC CTCTCCCTGC TGCCTGGCTT
    GCGGGCCACA CACAGCCAGC CTCTGAGAAC AAGAAGGTGT GTGTAGACAA AGACCTTAGC
    ATGGCCCCAA GTGGCCGAGA GCCGATCAAG CACTGGACAC CCAGTATGGC ACACAAAGGC
    ATCCGGCAAC ATTCTAGATC AGACAGCAGG CCTGACCCAG AGCCACCCAT GAGCCCAGAT
    GGGCCAACAG AGGAGAGATT GGCTTCCAGC AACAACACAC AGGGCTCTCA GGGAGAAAGG
    AAGAACTGGA AAGACTGCTC CATGGCTGAG GGGTCCACAG ACCTACACAA GGGAGAGCAA
    CTCCCTGGTC CTGACCCACA GTCCACTAAG AACTTGAAAG GCACCCAGGA CCTGTGCTCC
    CCAGGGAGCC ATGCGACTGA ATGTCAGTCC CTGCAGGGAA TGTCCGTTCC CCAGGACTCT
    GAGACGCCTC ACTCTAAAAG TCAGGTGTCC ACAGAAGTCG TGCCAAACTC AGAGGGCGAG
    ACACACATCC AGGTGCCAGA CCTGCCCGCC ACAGCCTTTG CCTCAGAAGA AATGACTTCC
    AAACCCCGGG GCCCCTCCAG TGGGGACATG GCGGTTTCTC AGGTGCTGCA TGTGCACTTC
    CCCTCTGTGG GCATCAACAT GGAGCCACGG CAGGGTCCCT GGGTCCCTGC ATATGTCTCA
    GGCAAGAGCA AGAACAAGGA CTGTCCCCCA GCTGCCAGAG GAGTGCCCCC ACTGGTAACT
    GAGGCAGGAA AGCTTGGTGG AGGGGATGCA GGCTTAGGGA CATCCCAGAC CAGAGGGAAG
    AGACACTGTG CTCAGGCCAG GGCAGCAGAG GAAACCCAAG GACACACATC CTCCCCAGCA
    CTGACACCTA AGAGTCAGCC TCTGGAAAAT CAGTTCCCCA ACCAGGTGAA GGGCTTCTGG
    CAGAGGCTGT CCCCTGGGAG GAAACACAAA GGGCAGGAAA AGATCCTGGC CAGGGGCTGC
    TCCTCATTAA TGCCAGTGAA GGGAGCAAGC CTCATCAAAG GGAGATGTGA GTTCTGTGGG
    AACACAGCAG CTCAGAAATG TGTGAGAGAG CCTGGGATGG TCCTCAGGAA ACAGCTAGGG
    TTCAGGCATT GGACAGTCAT TCCTTGTCCC CAGGCACCTG TGTCTCCCCT CATGGGGTCT
    GTAGAAGCTC AGCAAGAGTT GCAACTGCAG GCTCAGGCAG AGCCTGCCCA GAGGCTGCCC
    CACTTCTGCT GCAGAGCTTC CTGCTCTCAA GTGCAGAGGG CTGAGTCCTG CAGCCCAGGA
    CAAGGGCAGA CAGCCCTTGA GAGGTGCGGC ACTACTGGAA AAGCTAAGAT GGTGGAGCCC
    TCCCCCATGC ATGCTTCTCC ACCAAAGTCC TATCTGTAG

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

    RefSeq XP_008769690.1
    CDS52..4050
    Translation

    Target ORF information:

    RefSeq Version XM_008771468.2
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus SPATA31 subfamily D, member 3 (Spata31d3), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_008771468.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    ATGGAGAACA TTTTCTCATC TCTGAATGGC CTCACGGAGA CATGGCTGAC CTTTGGCTCA 
    GCTTCCTACC ACAAATACCT CAGCTACATT CTTCTGAGTG GACTGGGGCT CCTGCTTCTG
    TACATCAGCT CCCTGATAGT GAGACTGCTT GCCCGGTCTC TGCAGAGAAA GAAATACGCC
    CCAAAGCTAC AGAACAACAT TAGGCACAGA AGGGGGAAAG CATTTAAACG TAAGAAAGCT
    GGCCAGAGAG ACCCTGAGAC AGCAAAGAAG CTGCAGATAA CCCTTCAAAG CAAACCACAT
    AATCCCACAG GCTTTCGGCA ACTGCTATGG TCAGAGCCCC TCTGTAGTAT ATATAACAAA
    ACAAGTCCTC TGGTCAGCTA CCTGCTCTCT CAGGCTCCCC TGGAAGACGG TGGTGATGCC
    GCTTTGGTGT CCTCTTTGCC TTCTAGGGCT CCTGTGACAG AAGCTCCGAT TGCTCTACCC
    TCTGGCTTCC CTGCAAACCA ACCGGGACTT CCAGCTCTAG AAGCTCCTCT CCACACTTCC
    CTCTCCACCC TCTCGCAGGA CCAAATCACT CCTCCGGATG GCGTATCTCC TTCTACACCC
    CTCAGGGCCT CCCTGTCACC CCAAGCTATT GCTCCCTTAA AGCCTGCAGT GTTGCTGACC
    CATACCCCAT GCAAAATGCT TACTTCTTCT CCACTTGCCA CTCAGGAAGC ACAGTTGGCT
    CTCCGAGCGG AGAGCCCTAG GGAGCAGTCC TCCAATGCCT CAACGGCCAA AAGCACCATC
    TATGAGTCAG CATCCTCTCA GTTGTGGTTC AGTGCTGAAG ACCAGCCCCG GACAAATTTG
    CCACACGTGA AGCCCTATGC TTCTCGAGGC TCATACCGGA GACTCACAAA GGTCCATGCT
    GCGGAGCCTG AAGATCATTT GTCCCCCGGC CCCGATGTCT TAGCACTCTT CAAGAGGCAA
    GAGAAAAGGG ATGCTGATGT CGCTGCATAT AAACTGAAAA AGGAGAAAAC GGTATCTTTT
    TTAATACCGG AAAGTACTTC AGGGGAAATC TCAGCATCAT CTGCTGATGT AGAGAACGCG
    GACCTCTACC ACCTTCTGGG TAAAAAAAAG GGAGAGCCTG GGGGCCCTCA CCCACAGCAG
    GAGCCCTCTC ACCTGAAGAA CTCTGAAGAC CAGTCAGAGA TCAAGGACAA CCAGCTCTTC
    TGGGGTCTCC CTTCTCTACA CAGTGAGTCC CTGAAACATG AAGCTGCTAA TTCAGTTAAC
    AGTTACCCAG AAAGGGACGA TTTCCACAGG ATCGCGGAGG CCTCCACAGG ACGTGAGTCT
    TCCAACCTTA CTTACCCCAT ACCTCTACTC TTGCCTGAGA GTGACCAACA GGGGCAAACT
    GTACCTCAGT CTCAAATCAA GCCTGACTCT CCTACTGACT CTAAGGCCCA GACTCAATCC
    AGACTCCCAT TCCTGCCATC TTCTCCTCAA TCCCAGCTTA GGATATGCGG AGTGCGTTTT
    CACAGCCTAA AGGATGAGGG GCAGCCCCTC GCGCCGTATG AACTTCAGCA GCTGGAATAT
    AACTTATTAC AAAAAACACT GCAAGGTTTT TTGGGTTTAC CCACTCTGAC CCAAAGATTC
    CAAGAAGGTT TTGGTCCCTC ACCTCCTAAA ATCTCCTCAA CCAGACATTC ATCCAAGGCC
    CATGCTCCTA AGAAAATCCT TCCTGGAGAC TTCCCTTTCA ACTATAAACT CGAGAGGAAA
    CTAGAACACC ATCTTCGAAA GAGACTCATC CAACGTCGCT GGGGCCTGCC CCAGAGGATC
    CGGGAGTCCC TGTCTTTCAT GAATCCTCAC TCAAAAATTC CTGAGGTCCC TGAGGCAAGG
    AACAGCCATG GACTCTCATG GATCTCTCAC TATAAGTTCA ACACGAACAG CCTATCAGGT
    CTTGGGCTCA GCCAAACTTC AAGCTTCCAT AAAAAGCCCT TAGAGAGTCA CTCTCTAAAG
    GCGAAAGACG TCAAAGTTCA GGGACAATGT CCAGGAATAG GCCAAAGAGA TCACATACAG
    GGTGACTCCA GTGGGGCTTT GATGAGCAGA GTACATTCTA ATTCTGAGAC AGACCCAGAA
    CTTCAGCTTC GGGATATGTC TGGAAAAATT TCAAAGGCTT CATTGGTCAA GCAATGCCAG
    AGAGAATGTG AAAGTTTCCT GCAAGAACAG CTGGGAAGGA ACACTAAAGA AATTAGTAGG
    GGTGAGATGT CTAGTGCTGC TGACCGGTCA GGGCATTCTA CAAACATGGC ACAGACTCCA
    CCTGGGACCT CCCCCAGACA AGTGGCACCT TTGCTAAGTG AAGAAGATGC ACGGAAAGAA
    CACGAGCACA GCTTGACGCT TAGTGATAAC CAAGAAAAGG TACTGGAAGA ACACATCACA
    GACTTCGGCA GGAGGATGGC ATTCGGCCTT CCTCAAAGAG TTGAGGAATC CCTAGAGTCC
    TACTTGACAA GAGCAGAGCC ATCTCAACCT TTCCCTCAGC TCCACACTCG AGCCCATAGC
    GTTTGTACAG TGGATTCTGA CAAGCCCTCC AGATTCCTTA GAAGAAACAC TAATGGAGAT
    AGAAAGGGGA CAGTGGATTT AGTCCCCGTC CAACACAGGC CTCTCCCTGC TGCCTGGCTT
    GCGGGCCACA CACAGCCAGC CTCTGAGAAC AAGAAGGTGT GTGTAGACAA AGACCTTAGC
    ATGGCCCCAA GTGGCCGAGA GCCGATCAAG CACTGGACAC CCAGTATGGC ACACAAAGGC
    ATCCGGCAAC ATTCTAGATC AGACAGCAGG CCTGACCCAG AGCCACCCAT GAGCCCAGAT
    GGGCCAACAG AGGAGAGATT GGCTTCCAGC AACAACACAC AGGGCTCTCA GGGAGAAAGG
    AAGAACTGGA AAGACTGCTC CATGGCTGAG GGGTCCACAG ACCTACACAA GGGAGAGCAA
    CTCCCTGGTC CTGACCCACA GTCCACTAAG AACTTGAAAG GCACCCAGGA CCTGTGCTCC
    CCAGGGAGCC ATGCGACTGA ATGTCAGTCC CTGCAGGGAA TGTCCGTTCC CCAGGACTCT
    GAGACGCCTC ACTCTAAAAG TCAGGTGTCC ACAGAAGTCG TGCCAAACTC AGAGGGCGAG
    ACACACATCC AGGTGCCAGA CCTGCCCGCC ACAGCCTTTG CCTCAGAAGA AATGACTTCC
    AAACCCCGGG GCCCCTCCAG TGGGGACATG GCGGTTTCTC AGGTGCTGCA TGTGCACTTC
    CCCTCTGTGG GCATCAACAT GGAGCCACGG CAGGGTCCCT GGGTCCCTGC ATATGTCTCA
    GGCAAGAGCA AGAACAAGGA CTGTCCCCCA GCTGCCAGAG GAGTGCCCCC ACTGGTAACT
    GAGGCAGGAA AGCTTGGTGG AGGGGATGCA GGCTTAGGGA CATCCCAGAC CAGAGGGAAG
    AGACACTGTG CTCAGGCCAG GGCAGCAGAG GAAACCCAAG GACACACATC CTCCCCAGCA
    CTGACACCTA AGAGTCAGCC TCTGGAAAAT CAGTTCCCCA ACCAGGTGAA GGGCTTCTGG
    CAGAGGCTGT CCCCTGGGAG GAAACACAAA GGGCAGGAAA AGATCCTGGC CAGGGGCTGC
    TCCTCATTAA TGCCAGTGAA GGGAGCAAGC CTCATCAAAG GGAGATGTGA GTTCTGTGGG
    AACACAGCAG CTCAGAAATG TGTGAGAGAG CCTGGGATGG TCCTCAGGAA ACAGCTAGGG
    TTCAGGCATT GGACAGTCAT TCCTTGTCCC CAGGCACCTG TGTCTCCCCT CATGGGGTCT
    GTAGAAGCTC AGCAAGAGTT GCAACTGCAG GCTCAGGCAG AGCCTGCCCA GAGGCTGCCC
    CACTTCTGCT GCAGAGCTTC CTGCTCTCAA GTGCAGAGGG CTGAGTCCTG CAGCCCAGGA
    CAAGGGCAGA CAGCCCTTGA GAGGTGCGGC ACTACTGGAA AAGCTAAGAT GGTGGAGCCC
    TCCCCCATGC ATGCTTCTCC ACCAAAGTCC TATCTGTAG

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