ORF » Species Summary » Rattus norvegicus » Spata31d1b cDNA ORF clone

Spata31d1b cDNA ORF clone, Rattus norvegicus(Norway rat)

  • Gene

  • Clones

  • gRNAs

The following Spata31d1b gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Spata31d1b 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
ORa49604 XM_008771477.1
Latest version!		 Rattus norvegicus spermatogenesis associated 31 subfamily D, member 1B (Spata31d1b), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $391.30
$559.00
ORa20588 XM_001066615.5
Latest version!		 Rattus norvegicus spermatogenesis associated 31 subfamily D, member 1B (Spata31d1b), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00

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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)
    Spata31d1b ( XM_008771477.1 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_008769699.1 Rattus norvegicus spermatogenesis associated 31 subfamily D, member 1B (Spata31d1b), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID ORa49604
    Clone ID Related Accession (Same CDS sequence) XM_008771477.1
    Accession Version XM_008771477.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2298bp)
    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 putative spermatogenesis-associated protein 31D4 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 ##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## ##RefSeq-Attributes-START## ab initio :: 4% of CDS bases ##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
    ATGGCGGCTT GTTATCCAAG CGTCCCAGGA TGTGCCTGCT CGCCACAGGA GGAAGGGAAG 
    GAGAGAAGGC AAGACCTTAC AGATGGGGGA ACTTGCCAGG GAGAAGTGGA GCAGAGAAGA 
    AAGCTACAGA CAATCCAGCG AAGCCCTCCG AGGGAGCCCT CCGATGCCAG CTGCGATGAA 
    CTGCTGCCAC ATGGAGGTCC CCTCTTCCCT GTATGTGACA GATCTGGTGA TGTTGGTCAC 
    CAGCTCTCCC AGGCCATCCT CAAAGATGGC GCTGCCTCTC ACTTCTACGT GACTTCCACA 
    GCTCCTGTGA CAGAGGCCTC GTTTATTCTG TCCTCTCTGC TCACAGGAAG GCAGCCAGGA 
    CATCCAGCTC CAGCCGGTCC TCAGGAGCCT TTGCCGCTGG CTCAGTCTAT CCTCTCACCT 
    AACTGCTTTG CCCCCTTAGA GGGCTTCCAC TCAACCGCAC TGCTGCATGA CTCTCTGACA 
    CCAGAGTCTG CACTTCCCTT GAACCCTAAG CCTCTACCGG ACCCCACCCC ACCCTACCCA 
    TTCCCTTCTT TTCCTCTTCC GAAGAAAGAA GTGCAGAAGT CGGAAGCAGT CTTCCGGCCG 
    GAAACCGCTA GATCTCTGGT GGACGGACCC AATGAGGTGT CTGTGAATGT CCCACTAGTC 
    AAAGGCACTG GCTATGTAAG ACAGGCAATG CCAGCTGCCT CCCCACGGCA GCCTGCTGCT 
    GACAACCAGT TATCTTCAGG CTTGGATAAC CAGCGTCCCC CACCTACCCA TGTTTCTCAA 
    GCCTCTTTGC AGAAAGAAAC AAGGGCCTAC CATCTAGAGC CCGGACAGCT CTTTTCCCCC 
    AACTCTGATG CCCTGAAACT GCTCAAAAGG CTAGACCAGA AGGGGCGTGA TTTCCTGATG 
    GCAAAGGAAG AGGAGAACAA AGATTGTTTT ACAAAGTCAC CCAGTTCTTC GGAGAAGCTG 
    CCGCTGGGAA AGTCATTGGT TGAGCCACAA GATTTGGCGG CTTCTCACTC AGCAAGAAGC 
    AAGGTCACGC ACCAGCAGCT CCCTCACTCC AGGACTTCTG AAGACCACGA GGAACTCAAA 
    CCTGCCCAGC TCTTCTGGGG CCCCCCTTCA CTACACAGTG AGGCCCTGCG CCCTACTACT 
    TCCTTGTATG ACCGTTCCTC AACATTTGTC TGCTTCAACA GCATCGCCGA GGCCTCCATT 
    GCTGACTACT CCCATGCGAT TCTGCTTCCC ACGCCCCTCT CTGTGTATGG ATCACAGACC 
    TGGCTACAGC CCGAGCCCCA GTCTCATCCT ACATGTGACC CTCTTGCTGA GTCGCAGCCT 
    CAGCCTCAAC TCCAATACCC CGTCTCAGTC TTGACGCTTG CTCCTTCTCA ATCCGAGCTG 
    AGATACTGTG GGGTGCATTT TCACAGACCC CAGGGAGACG AGCAGGCTCT CGGACCTTCT 
    GCCACACAGT GCCTGGAATA CAACATCTTG AAAAAAGAGC AAGAGAGGGT GTGGGGTTTA 
    CCCTTGGTGA TCAAAAAATC CCAGAATGCC TTTTGCCCCT CCCCTCCCAA GTTCTTGTCT 
    GCAAGTCGCT CCTCCAAGGC CTGTACTCCT CGGCCCATCC TTCCTGGAGA CTTCCCCCTC 
    ACCGGGGAGC TCCAGAAGAA ACTGGAACAC CATCTCCGAA AGAGACTCAT TCAACGCCGC 
    TGGGGCCTGC CCCACAGGAT CGATGAGTCC CTGTCACTCA TGTGTCCTCA GCCAGAACAG 
    ACTGACATCT CTGAGTCCAG GAGGAGCCGT GGACTCTCGA AGACTCCTTT CTCTAAGAGC 
    CATGGCAACA AGGACTCGAA GGCCATTGGA CCTGGAGGAG CAGGAGGCTT TCTCTCTCGG 
    ATGCCTGAAG GTCATTCTCT GCAGCAGGAG ATTTTGGTCA AAGAACAGAC ATACAGTCAA 
    GATACTGGCC AAAACGACCG TCCCCAGGGC AACCTTCAGG AGGCGCCACA GAAGACGCAG 
    CCGGAGAGTC AGGAAGGCAG GCAGCCCGGC AAACTTTCAA GCCCTTCACA GGTGCACCAG 
    AAAGGAATTG AAAACATCCT GGAAGAACAC CTGATCAGGA AAATGAGGGA AATCAGTGGG 
    GGCGAGATCC CTAGCGCCGT GGACAGGTCG AGGCATTCTA TGACTGTGGC ACTGCCTGCA 
    CCTGAGACCT CCTCCAGACA CGTGGCACCT TTGGCAGGTG AGGAAGACGG ACTGACAGAG 
    CACCCCCACA GCTTGACGCT CAGTCCTAGC ANNNNNACAC AGAGAAGGGC ACGCCGGAGC 
    CTCCCTAGCC AGCTTTGA

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

    RefSeq XP_008769699.1
    CDS1..2298
    Translation

    Target ORF information:

    RefSeq Version XM_008771477.1
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus spermatogenesis associated 31 subfamily D, member 1B (Spata31d1b), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008771477.1

    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
    ATGGCGGCTT GTTATCCAAG CGTCCCAGGA TGTGCCTGCT CGCCACAGGA GGAAGGGAAG 
    GAGAGAAGGC AAGACCTTAC AGATGGGGGA ACTTGCCAGG GAGAAGTGGA GCAGAGAAGA 
    AAGCTACAGA CAATCCAGCG AAGCCCTCCG AGGGAGCCCT CCGATGCCAG CTGCGATGAA 
    CTGCTGCCAC ATGGAGGTCC CCTCTTCCCT GTATGTGACA GATCTGGTGA TGTTGGTCAC 
    CAGCTCTCCC AGGCCATCCT CAAAGATGGC GCTGCCTCTC ACTTCTACGT GACTTCCACA 
    GCTCCTGTGA CAGAGGCCTC GTTTATTCTG TCCTCTCTGC TCACAGGAAG GCAGCCAGGA 
    CATCCAGCTC CAGCCGGTCC TCAGGAGCCT TTGCCGCTGG CTCAGTCTAT CCTCTCACCT 
    AACTGCTTTG CCCCCTTAGA GGGCTTCCAC TCAACCGCAC TGCTGCATGA CTCTCTGACA 
    CCAGAGTCTG CACTTCCCTT GAACCCTAAG CCTCTACCGG ACCCCACCCC ACCCTACCCA 
    TTCCCTTCTT TTCCTCTTCC GAAGAAAGAA GTGCAGAAGT CGGAAGCAGT CTTCCGGCCG 
    GAAACCGCTA GATCTCTGGT GGACGGACCC AATGAGGTGT CTGTGAATGT CCCACTAGTC 
    AAAGGCACTG GCTATGTAAG ACAGGCAATG CCAGCTGCCT CCCCACGGCA GCCTGCTGCT 
    GACAACCAGT TATCTTCAGG CTTGGATAAC CAGCGTCCCC CACCTACCCA TGTTTCTCAA 
    GCCTCTTTGC AGAAAGAAAC AAGGGCCTAC CATCTAGAGC CCGGACAGCT CTTTTCCCCC 
    AACTCTGATG CCCTGAAACT GCTCAAAAGG CTAGACCAGA AGGGGCGTGA TTTCCTGATG 
    GCAAAGGAAG AGGAGAACAA AGATTGTTTT ACAAAGTCAC CCAGTTCTTC GGAGAAGCTG 
    CCGCTGGGAA AGTCATTGGT TGAGCCACAA GATTTGGCGG CTTCTCACTC AGCAAGAAGC 
    AAGGTCACGC ACCAGCAGCT CCCTCACTCC AGGACTTCTG AAGACCACGA GGAACTCAAA 
    CCTGCCCAGC TCTTCTGGGG CCCCCCTTCA CTACACAGTG AGGCCCTGCG CCCTACTACT 
    TCCTTGTATG ACCGTTCCTC AACATTTGTC TGCTTCAACA GCATCGCCGA GGCCTCCATT 
    GCTGACTACT CCCATGCGAT TCTGCTTCCC ACGCCCCTCT CTGTGTATGG ATCACAGACC 
    TGGCTACAGC CCGAGCCCCA GTCTCATCCT ACATGTGACC CTCTTGCTGA GTCGCAGCCT 
    CAGCCTCAAC TCCAATACCC CGTCTCAGTC TTGACGCTTG CTCCTTCTCA ATCCGAGCTG 
    AGATACTGTG GGGTGCATTT TCACAGACCC CAGGGAGACG AGCAGGCTCT CGGACCTTCT 
    GCCACACAGT GCCTGGAATA CAACATCTTG AAAAAAGAGC AAGAGAGGGT GTGGGGTTTA 
    CCCTTGGTGA TCAAAAAATC CCAGAATGCC TTTTGCCCCT CCCCTCCCAA GTTCTTGTCT 
    GCAAGTCGCT CCTCCAAGGC CTGTACTCCT CGGCCCATCC TTCCTGGAGA CTTCCCCCTC 
    ACCGGGGAGC TCCAGAAGAA ACTGGAACAC CATCTCCGAA AGAGACTCAT TCAACGCCGC 
    TGGGGCCTGC CCCACAGGAT CGATGAGTCC CTGTCACTCA TGTGTCCTCA GCCAGAACAG 
    ACTGACATCT CTGAGTCCAG GAGGAGCCGT GGACTCTCGA AGACTCCTTT CTCTAAGAGC 
    CATGGCAACA AGGACTCGAA GGCCATTGGA CCTGGAGGAG CAGGAGGCTT TCTCTCTCGG 
    ATGCCTGAAG GTCATTCTCT GCAGCAGGAG ATTTTGGTCA AAGAACAGAC ATACAGTCAA 
    GATACTGGCC AAAACGACCG TCCCCAGGGC AACCTTCAGG AGGCGCCACA GAAGACGCAG 
    CCGGAGAGTC AGGAAGGCAG GCAGCCCGGC AAACTTTCAA GCCCTTCACA GGTGCACCAG 
    AAAGGAATTG AAAACATCCT GGAAGAACAC CTGATCAGGA AAATGAGGGA AATCAGTGGG 
    GGCGAGATCC CTAGCGCCGT GGACAGGTCG AGGCATTCTA TGACTGTGGC ACTGCCTGCA 
    CCTGAGACCT CCTCCAGACA CGTGGCACCT TTGGCAGGTG AGGAAGACGG ACTGACAGAG 
    CACCCCCACA GCTTGACGCT CAGTCCTAGC ANNNNNACAC AGAGAAGGGC ACGCCGGAGC 
    CTCCCTAGCC AGCTTTGA

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

    Spata31d1b ( XM_001066615.5 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_001066615.2 Rattus norvegicus spermatogenesis associated 31 subfamily D, member 1B (Spata31d1b), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID ORa20588
    Clone ID Related Accession (Same CDS sequence) XM_001066615.5
    Accession Version XM_001066615.5 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4023bp)
    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 putative spermatogenesis-associated protein 31D4 isoform X2
    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 On Jul 26, 2016 this sequence version replaced XM_001066615.4. ##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
    4021
    ATGGAGAACA TTTTCTCATC TCTGAATGGC CTCACAGAGA CATGGCTGAC CTTTGGCTCA 
    GCTTCCTACC ACATAGACCT TAGCTCCACT CTTCTGAGTG GACTGGGGCT CCTGCTTCTG 
    TACATCAGCT CCCTGATAGT GAGACTGCTT GCCCGGTCTC TGCAGAGAAA GAAATACGCC 
    CCAAAGCCAC AGGAGGAAGG GAAGGAGAGA AGGCAAGACC TTACAGATGG GGGAACTTGC 
    CAGGGAGAAG TGGAGCAGAG AAGAAAGCTA CAGACAATCC AGCGAAGCCC TCCGAGGGAG 
    CCCTCCGATG CCAGCTGCGA TGAACTGCTG CCACATGGAG GTCCCCTCTT CCCTGTATGT 
    GACAGATCTG GTGATGTTGG TCACCAGCTC TCCCAGGCCA TCCTCAAAGA TGGCGCTGCC 
    TCTCACTTCT ACGTGACTTC CACAGCTCCT GTGACAGAGG CCTCGTTTAT TCTGTCCTCT 
    CTGCTCACAG GAAGGCAGCC AGGACATCCA GCTCCAGCCG GTCCTCAGGA GCCTTTGCCG 
    CTGGCTCAGT CTATCCTCTC ACCTAACTGC TTTGCCCCCT TAGAGGGCTT CCACTCAACC 
    GCACTGCTGC ATGACTCTCT GACACCAGAG TCTGCACTTC CCTTGAACCC TAAGCCTCTA 
    CCGGACCCCA CCCCACCCTA CCCATTCCCT TCTTTTCCTC TTCCGAAGAA AGAAGTGCAG 
    AAGTCGGAAG CAGTCTTCCG GCCGGAAACC GCTAGATCTC TGGTGGACGG ACCCAATGAG 
    GTGTCTGTGA ATGTCCCACT AGTCAAAGGC ACTGGCTATG TAAGACAGGC AATGCCAGCT 
    GCCTCCCCAC GGCAGCCTGC TGCTGACAAC CAGTTATCTT CAGGCTTGGA TAACCAGCGT 
    CCCCCACCTA CCCATGTTTC TCAAGCCTCT TTGCAGAAAG AAACAAGGGC CTACCATCTA 
    GAGCCCGGAC AGCTCTTTTC CCCCAACTCT GATGCCCTGA AACTGCTCAA AAGGCTAGAC 
    CAGAAGGGGC GTGATTTCCT GATGGCAAAG GAAGAGGAGA ACAAAGATTG TTTTACAAAG 
    TCACCCAGTT CTTCGGAGAA GCTGCCGCTG GGAAAGTCAT TGGTTGAGCC ACAAGATTTG 
    GCGGCTTCTC ACTCAGCAAG AAGCAAGGTC ACGCACCAGC AGCTCCCTCA CTCCAGGACT 
    TCTGAAGACC ACGAGGAACT CAAACCTGCC CAGCTCTTCT GGGGCCCCCC TTCACTACAC 
    AGTGAGGCCC TGCGCCCTAC TACTTCCTTG TATGACCGTT CCTCAACATT TGTCTGCTTC 
    AACAGCATCG CCGAGGCCTC CATTGCTGAC TACTCCCATG CGATTCTGCT TCCCACGCCC 
    CTCTCTGTGT ATGGATCACA GACCTGGCTA CAGCCCGAGC CCCAGTCTCA TCCTACATGT 
    GACCCTCTTG CTGAGTCGCA GCCTCAGCCT CAACTCCAAT ACCCCGTCTC AGTCTTGACG 
    CTTGCTCCTT CTCAATCCGA GCTGAGATAC TGTGGGGTGC ATTTTCACAG ACCCCAGGGA 
    GACGAGCAGG CTCTCGGACC TTCTGCCACA CAGTGCCTGG AATACAACAT CTTGAAAAAA 
    GAGCAAGAGA GGGTGTGGGG TTTACCCTTG GTGATCAAAA AATCCCAGAA TGCCTTTTGC 
    CCCTCCCCTC CCAAGTTCTT GTCTGCAAGT CGCTCCTCCA AGGCCTGTAC TCCTCGGCCC 
    ATCCTTCCTG GAGACTTCCC CCTCACCGGG GAGCTCCAGA AGAAACTGGA ACACCATCTC 
    CGAAAGAGAC TCATTCAACG CCGCTGGGGC CTGCCCCACA GGATCGATGA GTCCCTGTCA 
    CTCATGTGTC CTCAGCCAGA ACAGACTGAC ATCTCTGAGT CCAGGAGGAG CCGTGGACTC 
    TCGAAGACTC CTTTCTCTAA GAGCCATGGC AACAAGGACT CGAAGGCCAT TGGACCTGGA 
    GGAGCAGGAG GCTTTCTCTC TCGGATGCCT GAAGGTCATT CTCTGCAGCA GGAGATTTTG 
    GTCAAAGAAC AGACATACAG TCAAGATACT GGCCAAAACG ACCGTCCCCA GGGCAACCTT 
    CAGGAGGCGC CACAGAAGAC GCAGCCGGAG AGTCAGGAAG GCAGGCAGCC CGGCAAACTT 
    TCAAGCCCTT CACAGGTGCA CCAGAAAGGA ATTGAAAACA TCCTGGAAGA ACACCTGATC 
    AGGAAAATGA GGGAAATCAG TGGGGGCGAG ATCCCTAGCG CCGTGGACAG GTCGAGGCAT 
    TCTATGACTG TGGCACTGCC TGCACCTGAG ACCTCCTCCA GACACGTGGC ACCTTTGGCA 
    GGTGAGGAAG ACGGACTGAC AGAGCACCCC CACAGCTTGA CGCTCAGTCC TAGCAAAGAA 
    AAGGTGCTGG AAGAACACAT CACAACCTTC GGCAGGAGGA TGGCGTTCGG CCTTCCTCAA 
    AGAGTTGAGG AATCCCTAGA GTCCTACTTG ACAAGAGCAG CGCCATCTCG ACCTTTCCAT 
    CAGCTCCACA CTCGAGCCCA CAGCGTTTGT ACAGTGGATT CTGACAAGCC CTCCAGGTTC 
    CTCAGAAGAA 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 AGGGCCTGTG 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 TGAAGGGCGC AAGCCTCATC 
    AAAGGGAGAT GTGAGTTCTG TGGGAACACA GCAGCTCAGA AATGTGTGAG AGAGCCTGGG 
    ATGGTCCTCA GGAAACAGCT AGGGTTCAGG CATTGGACAG TCATTCCTTG TCCCCAGGCA 
    CCTGTGTCTC CCCTCATGGG GTCTGTAGAA GCTCAGCAGG 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_001066615.2
    CDS35..4057
    Translation

    Target ORF information:

    RefSeq Version XM_001066615.5
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus spermatogenesis associated 31 subfamily D, member 1B (Spata31d1b), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_001066615.5

    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
    4021
    ATGGAGAACA TTTTCTCATC TCTGAATGGC CTCACAGAGA CATGGCTGAC CTTTGGCTCA 
    GCTTCCTACC ACATAGACCT TAGCTCCACT CTTCTGAGTG GACTGGGGCT CCTGCTTCTG 
    TACATCAGCT CCCTGATAGT GAGACTGCTT GCCCGGTCTC TGCAGAGAAA GAAATACGCC 
    CCAAAGCCAC AGGAGGAAGG GAAGGAGAGA AGGCAAGACC TTACAGATGG GGGAACTTGC 
    CAGGGAGAAG TGGAGCAGAG AAGAAAGCTA CAGACAATCC AGCGAAGCCC TCCGAGGGAG 
    CCCTCCGATG CCAGCTGCGA TGAACTGCTG CCACATGGAG GTCCCCTCTT CCCTGTATGT 
    GACAGATCTG GTGATGTTGG TCACCAGCTC TCCCAGGCCA TCCTCAAAGA TGGCGCTGCC 
    TCTCACTTCT ACGTGACTTC CACAGCTCCT GTGACAGAGG CCTCGTTTAT TCTGTCCTCT 
    CTGCTCACAG GAAGGCAGCC AGGACATCCA GCTCCAGCCG GTCCTCAGGA GCCTTTGCCG 
    CTGGCTCAGT CTATCCTCTC ACCTAACTGC TTTGCCCCCT TAGAGGGCTT CCACTCAACC 
    GCACTGCTGC ATGACTCTCT GACACCAGAG TCTGCACTTC CCTTGAACCC TAAGCCTCTA 
    CCGGACCCCA CCCCACCCTA CCCATTCCCT TCTTTTCCTC TTCCGAAGAA AGAAGTGCAG 
    AAGTCGGAAG CAGTCTTCCG GCCGGAAACC GCTAGATCTC TGGTGGACGG ACCCAATGAG 
    GTGTCTGTGA ATGTCCCACT AGTCAAAGGC ACTGGCTATG TAAGACAGGC AATGCCAGCT 
    GCCTCCCCAC GGCAGCCTGC TGCTGACAAC CAGTTATCTT CAGGCTTGGA TAACCAGCGT 
    CCCCCACCTA CCCATGTTTC TCAAGCCTCT TTGCAGAAAG AAACAAGGGC CTACCATCTA 
    GAGCCCGGAC AGCTCTTTTC CCCCAACTCT GATGCCCTGA AACTGCTCAA AAGGCTAGAC 
    CAGAAGGGGC GTGATTTCCT GATGGCAAAG GAAGAGGAGA ACAAAGATTG TTTTACAAAG 
    TCACCCAGTT CTTCGGAGAA GCTGCCGCTG GGAAAGTCAT TGGTTGAGCC ACAAGATTTG 
    GCGGCTTCTC ACTCAGCAAG AAGCAAGGTC ACGCACCAGC AGCTCCCTCA CTCCAGGACT 
    TCTGAAGACC ACGAGGAACT CAAACCTGCC CAGCTCTTCT GGGGCCCCCC TTCACTACAC 
    AGTGAGGCCC TGCGCCCTAC TACTTCCTTG TATGACCGTT CCTCAACATT TGTCTGCTTC 
    AACAGCATCG CCGAGGCCTC CATTGCTGAC TACTCCCATG CGATTCTGCT TCCCACGCCC 
    CTCTCTGTGT ATGGATCACA GACCTGGCTA CAGCCCGAGC CCCAGTCTCA TCCTACATGT 
    GACCCTCTTG CTGAGTCGCA GCCTCAGCCT CAACTCCAAT ACCCCGTCTC AGTCTTGACG 
    CTTGCTCCTT CTCAATCCGA GCTGAGATAC TGTGGGGTGC ATTTTCACAG ACCCCAGGGA 
    GACGAGCAGG CTCTCGGACC TTCTGCCACA CAGTGCCTGG AATACAACAT CTTGAAAAAA 
    GAGCAAGAGA GGGTGTGGGG TTTACCCTTG GTGATCAAAA AATCCCAGAA TGCCTTTTGC 
    CCCTCCCCTC CCAAGTTCTT GTCTGCAAGT CGCTCCTCCA AGGCCTGTAC TCCTCGGCCC 
    ATCCTTCCTG GAGACTTCCC CCTCACCGGG GAGCTCCAGA AGAAACTGGA ACACCATCTC 
    CGAAAGAGAC TCATTCAACG CCGCTGGGGC CTGCCCCACA GGATCGATGA GTCCCTGTCA 
    CTCATGTGTC CTCAGCCAGA ACAGACTGAC ATCTCTGAGT CCAGGAGGAG CCGTGGACTC 
    TCGAAGACTC CTTTCTCTAA GAGCCATGGC AACAAGGACT CGAAGGCCAT TGGACCTGGA 
    GGAGCAGGAG GCTTTCTCTC TCGGATGCCT GAAGGTCATT CTCTGCAGCA GGAGATTTTG 
    GTCAAAGAAC AGACATACAG TCAAGATACT GGCCAAAACG ACCGTCCCCA GGGCAACCTT 
    CAGGAGGCGC CACAGAAGAC GCAGCCGGAG AGTCAGGAAG GCAGGCAGCC CGGCAAACTT 
    TCAAGCCCTT CACAGGTGCA CCAGAAAGGA ATTGAAAACA TCCTGGAAGA ACACCTGATC 
    AGGAAAATGA GGGAAATCAG TGGGGGCGAG ATCCCTAGCG CCGTGGACAG GTCGAGGCAT 
    TCTATGACTG TGGCACTGCC TGCACCTGAG ACCTCCTCCA GACACGTGGC ACCTTTGGCA 
    GGTGAGGAAG ACGGACTGAC AGAGCACCCC CACAGCTTGA CGCTCAGTCC TAGCAAAGAA 
    AAGGTGCTGG AAGAACACAT CACAACCTTC GGCAGGAGGA TGGCGTTCGG CCTTCCTCAA 
    AGAGTTGAGG AATCCCTAGA GTCCTACTTG ACAAGAGCAG CGCCATCTCG ACCTTTCCAT 
    CAGCTCCACA CTCGAGCCCA CAGCGTTTGT ACAGTGGATT CTGACAAGCC CTCCAGGTTC 
    CTCAGAAGAA 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 AGGGCCTGTG 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 TGAAGGGCGC AAGCCTCATC 
    AAAGGGAGAT GTGAGTTCTG TGGGAACACA GCAGCTCAGA AATGTGTGAG AGAGCCTGGG 
    ATGGTCCTCA GGAAACAGCT AGGGTTCAGG CATTGGACAG TCATTCCTTG TCCCCAGGCA 
    CCTGTGTCTC CCCTCATGGG GTCTGTAGAA GCTCAGCAGG 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.

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