ORF » Species Summary » Oncorhynchus mykiss » LOC110503963 cDNA ORF clone

LOC110503963 cDNA ORF clone, Oncorhynchus mykiss(rainbow trout)

The following LOC110503963 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC110503963 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
OOf31365 XM_021582648.1
Latest version!		 Oncorhynchus mykiss rho GTPase-activating protein 32-like (LOC110503963), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00
OOf31364 XM_021582646.1
Latest version!		 Oncorhynchus mykiss rho GTPase-activating protein 32-like (LOC110503963), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OOf31362 XM_021582644.1
Latest version!		 Oncorhynchus mykiss rho GTPase-activating protein 32-like (LOC110503963), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OOf31363 XM_021582645.1
Latest version!		 Oncorhynchus mykiss rho GTPase-activating protein 32-like (LOC110503963), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00

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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)
    LOC110503963 ( XM_021582648.1 ) cDNA ORF clone, Oncorhynchus mykiss(rainbow trout) -> XP_021438323.1 Oncorhynchus mykiss rho GTPase-activating protein 32-like (LOC110503963), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OOf31365
    Clone ID Related Accession (Same CDS sequence) XM_021582648.1
    Accession Version XM_021582648.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2928bp)
    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 1498406400000
    Organism Oncorhynchus mykiss(rainbow trout)
    Product rho GTPase-activating protein 32-like isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_035100.1) 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 :: Oncorhynchus mykiss Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 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
    ATGATGGAGG CTGGCTGTGG GGTTGCCGCG GTGATCGGGA ATGCTGCCTC AGGACCACAG 
    GGAAAACCAG GAAGTGGTGA CGTCCTTGAG GGGGCCATGT CACTGTGTAT TACACCAGAT 
    GAAGACAAGA ACCAGCCTGA TCCATACAAG AGCACTACTC CAACAGATAA GTCCCCACAA 
    GGGAGCACAA TGGCCATGGT ACGGAATGAT GAGCTCACAG AGCTTCCTGT CGAGCCTGAG 
    CCCACCCTGC GTTCCTGCAT CAGCACAGCC AGCATGAAGG TCAAAAACGT GAAGAAGCTG 
    ACGTTCCCCA GAGGTCATTT TCCCAGGCTG GCTGAGTGTG CCCACTTCCA CTATGAGACC 
    GTTGACTTTG GCACTGTGCA GCTGTCCTTT GCAGAAGAGC AAACTGAGGG GCAGAAGGCT 
    TGTCTGGACT CCAAGGAGCC ACTCTTCCTG GTTCAGATCT GCTGCCAGAG TCGGAGCTGG 
    TTGGTGAAGC GCTCCTATGA AGACTTCCGT GTGCTAGACA AACACCTCCA CCTTTGTATC 
    TATGACCGAC ACTTCTCCAA ACTCAATGAG CTGCCTCGCT TTGACTATCT GAAGGACACA 
    GTAGAGGAAA TAACCAAGAT GTTGGCAGCC TACCTGTCCC ATCTCTCAGC CATCGCTGAT 
    AACAAGATCA ACTGTAGTCC AGTGCTGACA TGGATGGAGA TTGATAACAA GGGCAACCGC 
    ATGCTGGTAG CTGAGGAGTC CTCCATCAAT GTTCCTGCCA TCGCCGCGGC CCACGTTATC 
    AAACGCTACA TTGCCCAGGC CACAGACGAG CTGACCTTTG AGGTAGGGGA CATTGTGTCA 
    GTCATTGACA TGCCTCCTAA AGAGGACACT GGCTGGTGGA GAGGGAAACA TGGTTTTCAG 
    GTTGGCTTCT TCCCCTGTGA CTGTGTGGAG CTGATCAGTG ACAGGATTCC CACCTGTGTG 
    TCCAGCTCTG TGCCAAAACC AGTGTGTCCA TCAGTTTGTA AGAAGCATGG GAAGCTGGTG 
    ACATTCCTGA GGAGCTTCAT GAAGTCCCGT CCACCCCCCC AGAAGCTGAG GCAGCGTGGG 
    ATCCTCAGGG AGAGGGTGTT TGGCTGTGAC CTGGGGGAAC ACCTCCTCAA CTCAGAACAT 
    GATGTCCCCC AGGTGATAAA ATGCTGTACT GAGTTCATTG AGAGACATGG TGTCGTGGAC 
    GGGATGTACA GACTCTCTGG GATCTCCTCC AACATCCAGA AACTGAGACA TGAGTTTGAC 
    TCGGAGGAGA TCCCAGACCT CAGTAGAGAT GTTTTCAAAC AGGATATCCA CTCCGTAGGG 
    TCCCTCTGTA AACTGTACTT TAGAGAGCTG CCCAACCCTC TGCTCACCTA CCAGCTCTAT 
    GAGAGATTCT CAGAGGCTGT GTCTGCAGCT ACTGATGAGG AGAGGCTGGT GAAGATCCAC 
    AATGTCATCC AGCAGCTTCC TCCTCCTCAC TACAGGACTC TGGAATTCCT CATGAGACAT 
    TTGTCCCAAC TAGCCACCTT CAGCCCTATT ACCAACATGC ACACCAAGAA CCTGGCCATC 
    GTCTGGGCTC CAAACTTGCT CAGGTCCAAG CAGATTGAGT CGGCCTGTTT TAGTGGAACC 
    GCAGCCTTTA TGGAGGTGCG TATCCAGTCA GTGGTGGTGG AGTTCATACT GAACAACACA 
    GAGTCACTCT TCAGCCGCAA GGTCAACACC CACAACCGGG AGAGCACAGG TACCAGTACC 
    CTATCCAGGC CCAAGTCTCT GCTGGTGTGC TCTCCCTCCA CTAAGCTCCT ATCTCTGGAG 
    GAAGCCCAGG CCCGTACCCA GGCCCAGTTG GGCTCCCCTG CTCCTACCCC CGTTCTGTCT 
    CACAGCGAGT ACATCGAGGT GGGGGAGGGA CCTGGGGCAC TGATGGGCAA GTTCCACACA 
    GTCATCGCGC TCCCCACTGA GAGTAAGAGG GCTCCTGGGA AGTTGAAAAA GTCCCCAGTG 
    GGAAGCTGGC GTTCATTCTT CCACCTGGGC AAGTCATCCT CCATGACCTC CAAACGCAAG 
    CTGAAGCGTC ACCCCAGCGA ACCCAATGAG ATCAAGAGCA TCTCGCTGCC AGGTGGTAGA 
    GGTGATAGTG GGACACTGCG CTCCACCAAA AGTGAAGAAT CTCTCACCTC TCTGCACAAT 
    TTGGAAAGGG AGCCCCAGAT GTACCGCCTA CCTAGACCAC ACTCCACCAG CGATGCCCTC 
    TCCACCGCAT TCAGGGATGA CCTGTGTGAT GCTAGGGTCA AAGGTGACCA CTACAATAAC 
    CAGGTCAAGG AGGTAGCACA TAGTGGTGCT GATGGTCCAG CCTTTGACCC AGCTGGCGTG 
    TTCCCTCCAC ATCAGGAGGA TGACCTTGAC CTCTGTCTTC CAGCCCCTGG CATGGCCTTT 
    CTGGACTTTG ACCCCATGTC CTTCCAGTGC AGCCCAGTGA GCCCACCAAC AGCTAAATCC 
    GCTCCTCAAC GCAAAGCAAG CGTCAACTGT AGGAAGCATG TCAGGGGTTC CAGTGAATCA 
    AAGCCCATCT CCTCGTCCCT CAATAAAGTC CTCAGTGACT CCCAGTCCCC TGACATCAGC 
    CCAGTCCATA GGAAAAGAGG GGAGAAAAAG AAAGTGGCTC GGGTCGTCTC CCCTGTGGTC 
    GAAACAGATG TGCACACTGT GTGTGTGTCT GCCCCACGCT GTGTCTCAGA TACCCAGGGG 
    GGTGACTCCT CCTCCCCTCC ACCTCTGGAT CTGTGTGAGG CCCAACTAGT GAGTGAGGAG 
    GGGAGTGAGG CTAGGGCACC CTGCCGGCCC CCCAGCCCAC CAAGCTTCAA CTCAACTGTC 
    ACAGACAGCC TGGCTTCACA AAACCCTCCG GATGCAGCGT TGTTTGTCCT GTCATACTGT 
    AGCAGCATTG TTTGTCTTAT GCCTCCCCAG GAACAGATGG GCTTGTGA

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

    RefSeq XP_021438323.1
    CDS272..3199
    Translation

    Target ORF information:

    RefSeq Version XM_021582648.1
    Organism Oncorhynchus mykiss(rainbow trout)
    Definition Oncorhynchus mykiss rho GTPase-activating protein 32-like (LOC110503963), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021582648.1

    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
    ATGATGGAGG CTGGCTGTGG GGTTGCCGCG GTGATCGGGA ATGCTGCCTC AGGACCACAG 
    GGAAAACCAG GAAGTGGTGA CGTCCTTGAG GGGGCCATGT CACTGTGTAT TACACCAGAT 
    GAAGACAAGA ACCAGCCTGA TCCATACAAG AGCACTACTC CAACAGATAA GTCCCCACAA 
    GGGAGCACAA TGGCCATGGT ACGGAATGAT GAGCTCACAG AGCTTCCTGT CGAGCCTGAG 
    CCCACCCTGC GTTCCTGCAT CAGCACAGCC AGCATGAAGG TCAAAAACGT GAAGAAGCTG 
    ACGTTCCCCA GAGGTCATTT TCCCAGGCTG GCTGAGTGTG CCCACTTCCA CTATGAGACC 
    GTTGACTTTG GCACTGTGCA GCTGTCCTTT GCAGAAGAGC AAACTGAGGG GCAGAAGGCT 
    TGTCTGGACT CCAAGGAGCC ACTCTTCCTG GTTCAGATCT GCTGCCAGAG TCGGAGCTGG 
    TTGGTGAAGC GCTCCTATGA AGACTTCCGT GTGCTAGACA AACACCTCCA CCTTTGTATC 
    TATGACCGAC ACTTCTCCAA ACTCAATGAG CTGCCTCGCT TTGACTATCT GAAGGACACA 
    GTAGAGGAAA TAACCAAGAT GTTGGCAGCC TACCTGTCCC ATCTCTCAGC CATCGCTGAT 
    AACAAGATCA ACTGTAGTCC AGTGCTGACA TGGATGGAGA TTGATAACAA GGGCAACCGC 
    ATGCTGGTAG CTGAGGAGTC CTCCATCAAT GTTCCTGCCA TCGCCGCGGC CCACGTTATC 
    AAACGCTACA TTGCCCAGGC CACAGACGAG CTGACCTTTG AGGTAGGGGA CATTGTGTCA 
    GTCATTGACA TGCCTCCTAA AGAGGACACT GGCTGGTGGA GAGGGAAACA TGGTTTTCAG 
    GTTGGCTTCT TCCCCTGTGA CTGTGTGGAG CTGATCAGTG ACAGGATTCC CACCTGTGTG 
    TCCAGCTCTG TGCCAAAACC AGTGTGTCCA TCAGTTTGTA AGAAGCATGG GAAGCTGGTG 
    ACATTCCTGA GGAGCTTCAT GAAGTCCCGT CCACCCCCCC AGAAGCTGAG GCAGCGTGGG 
    ATCCTCAGGG AGAGGGTGTT TGGCTGTGAC CTGGGGGAAC ACCTCCTCAA CTCAGAACAT 
    GATGTCCCCC AGGTGATAAA ATGCTGTACT GAGTTCATTG AGAGACATGG TGTCGTGGAC 
    GGGATGTACA GACTCTCTGG GATCTCCTCC AACATCCAGA AACTGAGACA TGAGTTTGAC 
    TCGGAGGAGA TCCCAGACCT CAGTAGAGAT GTTTTCAAAC AGGATATCCA CTCCGTAGGG 
    TCCCTCTGTA AACTGTACTT TAGAGAGCTG CCCAACCCTC TGCTCACCTA CCAGCTCTAT 
    GAGAGATTCT CAGAGGCTGT GTCTGCAGCT ACTGATGAGG AGAGGCTGGT GAAGATCCAC 
    AATGTCATCC AGCAGCTTCC TCCTCCTCAC TACAGGACTC TGGAATTCCT CATGAGACAT 
    TTGTCCCAAC TAGCCACCTT CAGCCCTATT ACCAACATGC ACACCAAGAA CCTGGCCATC 
    GTCTGGGCTC CAAACTTGCT CAGGTCCAAG CAGATTGAGT CGGCCTGTTT TAGTGGAACC 
    GCAGCCTTTA TGGAGGTGCG TATCCAGTCA GTGGTGGTGG AGTTCATACT GAACAACACA 
    GAGTCACTCT TCAGCCGCAA GGTCAACACC CACAACCGGG AGAGCACAGG TACCAGTACC 
    CTATCCAGGC CCAAGTCTCT GCTGGTGTGC TCTCCCTCCA CTAAGCTCCT ATCTCTGGAG 
    GAAGCCCAGG CCCGTACCCA GGCCCAGTTG GGCTCCCCTG CTCCTACCCC CGTTCTGTCT 
    CACAGCGAGT ACATCGAGGT GGGGGAGGGA CCTGGGGCAC TGATGGGCAA GTTCCACACA 
    GTCATCGCGC TCCCCACTGA GAGTAAGAGG GCTCCTGGGA AGTTGAAAAA GTCCCCAGTG 
    GGAAGCTGGC GTTCATTCTT CCACCTGGGC AAGTCATCCT CCATGACCTC CAAACGCAAG 
    CTGAAGCGTC ACCCCAGCGA ACCCAATGAG ATCAAGAGCA TCTCGCTGCC AGGTGGTAGA 
    GGTGATAGTG GGACACTGCG CTCCACCAAA AGTGAAGAAT CTCTCACCTC TCTGCACAAT 
    TTGGAAAGGG AGCCCCAGAT GTACCGCCTA CCTAGACCAC ACTCCACCAG CGATGCCCTC 
    TCCACCGCAT TCAGGGATGA CCTGTGTGAT GCTAGGGTCA AAGGTGACCA CTACAATAAC 
    CAGGTCAAGG AGGTAGCACA TAGTGGTGCT GATGGTCCAG CCTTTGACCC AGCTGGCGTG 
    TTCCCTCCAC ATCAGGAGGA TGACCTTGAC CTCTGTCTTC CAGCCCCTGG CATGGCCTTT 
    CTGGACTTTG ACCCCATGTC CTTCCAGTGC AGCCCAGTGA GCCCACCAAC AGCTAAATCC 
    GCTCCTCAAC GCAAAGCAAG CGTCAACTGT AGGAAGCATG TCAGGGGTTC CAGTGAATCA 
    AAGCCCATCT CCTCGTCCCT CAATAAAGTC CTCAGTGACT CCCAGTCCCC TGACATCAGC 
    CCAGTCCATA GGAAAAGAGG GGAGAAAAAG AAAGTGGCTC GGGTCGTCTC CCCTGTGGTC 
    GAAACAGATG TGCACACTGT GTGTGTGTCT GCCCCACGCT GTGTCTCAGA TACCCAGGGG 
    GGTGACTCCT CCTCCCCTCC ACCTCTGGAT CTGTGTGAGG CCCAACTAGT GAGTGAGGAG 
    GGGAGTGAGG CTAGGGCACC CTGCCGGCCC CCCAGCCCAC CAAGCTTCAA CTCAACTGTC 
    ACAGACAGCC TGGCTTCACA AAACCCTCCG GATGCAGCGT TGTTTGTCCT GTCATACTGT 
    AGCAGCATTG TTTGTCTTAT GCCTCCCCAG GAACAGATGG GCTTGTGA

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

    LOC110503963 ( XM_021582646.1 ) cDNA ORF clone, Oncorhynchus mykiss(rainbow trout) -> XP_021438321.1 Oncorhynchus mykiss rho GTPase-activating protein 32-like (LOC110503963), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OOf31364
    Clone ID Related Accession (Same CDS sequence) XM_021582646.1
    Accession Version XM_021582646.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4500bp)
    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 1498406400000
    Organism Oncorhynchus mykiss(rainbow trout)
    Product rho GTPase-activating protein 32-like isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_035100.1) 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 :: Oncorhynchus mykiss Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 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
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGTTGGCAG CCTACCTGTC CCATCTCTCA GCCATCGCTG ATAACAAGAT CAACTGTAGT 
    CCAGTGCTGA CATGGATGGA GATTGATAAC AAGGGCAACC GCATGCTGGT AGCTGAGGAG 
    TCCTCCATCA ATGTTCCTGC CATCGCCGCG GCCCACGTTA TCAAACGCTA CATTGCCCAG 
    GCCACAGACG AGCTGACCTT TGAGGTAGGG GACATTGTGT CAGTCATTGA CATGCCTCCT 
    AAAGAGGACA CTGGCTGGTG GAGAGGGAAA CATGGTTTTC AGGTTGGCTT CTTCCCCTGT 
    GACTGTGTGG AGCTGATCAG TGACAGGATT CCCACCTGTG TGTCCAGCTC TGTGCCAAAA 
    CCAGTGTGTC CATCAGTTTG TAAGAAGCAT GGGAAGCTGG TGACATTCCT GAGGAGCTTC 
    ATGAAGTCCC GTCCACCCCC CCAGAAGCTG AGGCAGCGTG GGATCCTCAG GGAGAGGGTG 
    TTTGGCTGTG ACCTGGGGGA ACACCTCCTC AACTCAGAAC ATGATGTCCC CCAGGTGATA 
    AAATGCTGTA CTGAGTTCAT TGAGAGACAT GGTGTCGTGG ACGGGATGTA CAGACTCTCT 
    GGGATCTCCT CCAACATCCA GAAACTGAGA CATGAGTTTG ACTCGGAGGA GATCCCAGAC 
    CTCAGTAGAG ATGTTTTCAA ACAGGATATC CACTCCGTAG GGTCCCTCTG TAAACTGTAC 
    TTTAGAGAGC TGCCCAACCC TCTGCTCACC TACCAGCTCT ATGAGAGATT CTCAGAGGCT 
    GTGTCTGCAG CTACTGATGA GGAGAGGCTG GTGAAGATCC ACAATGTCAT CCAGCAGCTT 
    CCTCCTCCTC ACTACAGGAC TCTGGAATTC CTCATGAGAC ATTTGTCCCA ACTAGCCACC 
    TTCAGCCCTA TTACCAACAT GCACACCAAG AACCTGGCCA TCGTCTGGGC TCCAAACTTG 
    CTCAGGTCCA AGCAGATTGA GTCGGCCTGT TTTAGTGGAA CCGCAGCCTT TATGGAGGTG 
    CGTATCCAGT CAGTGGTGGT GGAGTTCATA CTGAACAACA CAGAGTCACT CTTCAGCCGC 
    AAGGTCAACA CCCACAACCG GGAGAGCACA GGTACCAGTA CCCTATCCAG GCCCAAGTCT 
    CTGCTGGTGT GCTCTCCCTC CACTAAGCTC CTATCTCTGG AGGAAGCCCA GGCCCGTACC 
    CAGGCCCAGT TGGGCTCCCC TGCTCCTACC CCCGTTCTGT CTCACAGCGA GTACATCGAG 
    GTGGGGGAGG GACCTGGGGC ACTGATGGGC AAGTTCCACA CAGTCATCGC GCTCCCCACT 
    GAGAGTAAGA GGGCTCCTGG GAAGTTGAAA AAGTCCCCAG TGGGAAGCTG GCGTTCATTC 
    TTCCACCTGG GCAAGTCATC CTCCATGACC TCCAAACGCA AGCTGAAGCG TCACCCCAGC 
    GAACCCAATG AGATCAAGAG CATCTCGCTG CCAGGTGGTA GAGGTGATAG TGGGACACTG 
    CGCTCCACCA AAAGTGAAGA ATCTCTCACC TCTCTGCACA ATTTGGAAAG GGAGCCCCAG 
    ATGTACCGCC TACCTAGACC ACACTCCACC AGCGATGCCC TCTCCACCGC ATTCAGGGAT 
    GACCTGTGTG ATGCTAGGGT CAAAGGTGAC CACTACAATA ACCAGGTCAA GGAGGTAGCA 
    CATAGTGGTG CTGATGGTCC AGCCTTTGAC CCAGCTGGCG TGTTCCCTCC ACATCAGGAG 
    GATGACCTTG ACCTCTGTCT TCCAGCCCCT GGCATGGCCT TTCTGGACTT TGACCCCATG 
    TCCTTCCAGT GCAGCCCAGT GAGCCCACCA ACAGCTAAAT CCGCTCCTCA ACGCAAAGCA 
    AGCGTCAACT GTAGGAAGCA TGTCAGGGGT TCCAGTGAAT CAAAGCCCAT CTCCTCGTCC 
    CTCAATAAAG TCCTCAGTGA CTCCCAGTCC CCTGACATCA GCCCAGTCCA TAGGAAAAGA 
    GGGGAGAAAA AGAAAGTGGC TCGGGTCGTC TCCCCTGTGG TCGAAACAGA TGTGCACACT 
    GTGTGTGTGT CTGCCCCACG CTGTGTCTCA GATACCCAGG GGGGTGACTC CTCCTCCCCT 
    CCACCTCTGG ATCTGTGTGA GGCCCAACTA GTGAGTGAGG AGGGGAGTGA GGCTAGGGCA 
    CCCTGCCGGC CCCCCAGCCC ACCAAGCTTC AACTCAACTG TCACAGACAG CCTGGCTTCA 
    CAAAACCCTC CGGATGCAGG AACAGATGGG CTTGTGAATT CAGTGTCTGT CCTCCCTCCT 
    CACCCTCCGT TGACGAGTGC TGCCCGCAGG CTGGCCCTGG CCCTGGCTGA GTCTGCCCAG 
    AAGGCCACTC TGACCTCCCA GAGGAGGGGC ACCCAGCCCC CCTACCCTCT CCAGAGACAG 
    GACACCCCCC ACCCCCTGGA CAGACCCCCA CGACCCTCTG TTCTCCACCT CCAACCCTGC 
    TCTCAGGATT ACGGTGACCT CAAGGTCTCT TCTCCAGCCA CCCTCTTACC CATGGCTGGC 
    ACACCAGTTG AGAGTCCTTG TGACCGTTTC CCTGGCCATG AGAGAAAACG GGCCCCTGAA 
    GGACAAGTGG CCATGAGTAA CTTCACTCCC ACTGTCAGTT CCTTAGAGGC TGGAGCTCTA 
    CTGCTGGGCA GCACAGAGGT GAGGGACCAG AGGGAAGGGA GAGACCGGCC CCTGGGAGCT 
    GTAAAGACTG TACATCTACA GACGGTGTCC TCCTCGTATC TCAGTGGTGG GGCCTCCCCT 
    CCCATTCAAT CAGTCTGCTC CATTCAGAGC CCATTAGCTG CTGCTGTCCT TGCTAACACT 
    GACTCAGTCA ATGCATATAA CTATCAGACT GTTCTTGCTG AGGCGTCCAT GCCAGGGTCT 
    GTGGGGGAGA TCCCTCCACA TCGTCCTCTA CTGTCCTTAG TCAATCAGTA CAGCTCTGAT 
    GGAGAAAGAG CTATGAGGGA GGCTGAAGAT GTGTACAGAC ATCATCGGGT CAATCCAGCA 
    GGACAGGTAT CTGGACCTCC TCGGCCTGAC TATTTCCTTC CCCACCAGGC AGGGCCCAAG 
    AGCATGTACA AACCCACGTC TGACAGCTGC TACAATACAT TAGGCCTCCG GAACTACCCC 
    TCTAACTCCC CCCAGTATAG TGGTCAACCC CAACCCAGGG AAGAGTACAG CTCCAGTGGC 
    CACCACAGAT CCAGGGGACA ATGGCAGAGG ACTGAGGATA GAGCCCTGGG TTACCCCGGC 
    ATCCGCAGGG CACGCTCCTT CCATGCCCAG CAACCTATTC GTATTGAACT GGCAGACACC 
    CTGTTCTACG TCCAACGTCC AGCTGTCCAG GAAAAGGAGT ACAAATGGCT ACTCCAGTCA 
    GATGTCCAAC CTCTGCATCC ATACTTTGAG AATGGCTGTG TTCAGTACCG CTCCAGTCCC 
    TATTCAGACG CAGTGCCTCT AGAGGAGTCT TACTACTATG TGGACCCTTA CAGGACGAGC 
    CGCATCCGAC ACAGTCAGTC ATACACCATG CGCTCTACCA AGGATTGTGG ACATCCTGGT 
    TACCACTACC GTCCCTCACA CAACATCCCA CCCGCAAAAA GAGAACTCTT CTTAGAGAGC 
    AGGGATCCAG AGCGAGTCAT TTACAAGTCC TGGGACCACC CAGAGGGTTG TGACAGACCC 
    GTCTATCAGC CAATCAGGCA AGAGAATAGA GCCAGGCAGA GGCCCCAGGG CCCTATCATG 
    TCTCCTTATG AGAACCTGAA TCCTCCCCTC CCACAGAGTG ACATCAGGGG CAGAGATATC 
    AGTCACACCA GAAGCAGGTC AGACCCAGGT AATGCCTGGC TGCTGGCCAT CGACAGAGTG 
    GACAGCCAAC GTGAAGTACC TGCCATGTCT CCAATCTCTC CTGGTCAGCA GCTTTCAGAC 
    CCTAGTGATT ACATCAGGCA CCAGAGGGTT CATTGGCCAG GCGAGGAGCC AGTCCCTCCC 
    AGGAGAGAGA GCGTCTCCAG GAGAACCCAG CCCAAGCAGG GCACCCCGCA ACGATATCAG 
    CCACAGCATT GCAACGTCCC CATGCTCCTA GATGTTAAGA ACGTGGAGCA GGGTGAGGGT 
    GGTCATAGTA GAGGTTGTGA CAAGGACATG GTAATTATGG GCAACGCTGC TAACAGCTAC 
    TCTGCCCGAT TAAAACCAAG CATCCCCAGG AGACCACGAT CACAGAGCAT CAAAGAGCCT 
    CGTTACTACC ACCATGTCAA ATCACCTGTG GAACCAGATC ACCCTGGGTC CTTCTCCACT 
    CAGCCCCACA GGAGAACTCA GAGCACGAAG GCCATGCCCT CTCATTATAA TAACCTGGAG 
    GGGTACTACC CAGCTCCCAA GCCCAAACCC TCAGGATCTG GTAAGGCCAT GCCAGGGCCG 
    TTCCCTGGCC ACGGCTGCAT GCCCCCACAC AGCCACAGAC TGCTGTCACA TGGCCTAGTG 
    GGCCACGGGG CCTTTCTGCA GACAGGCCTC AGGCCGGAAG CTGGAGTCTA TGCTGAGTGA

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

    RefSeq XP_021438321.1
    CDS537..5036
    Translation

    Target ORF information:

    RefSeq Version XM_021582646.1
    Organism Oncorhynchus mykiss(rainbow trout)
    Definition Oncorhynchus mykiss rho GTPase-activating protein 32-like (LOC110503963), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021582646.1

    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
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGTTGGCAG CCTACCTGTC CCATCTCTCA GCCATCGCTG ATAACAAGAT CAACTGTAGT 
    CCAGTGCTGA CATGGATGGA GATTGATAAC AAGGGCAACC GCATGCTGGT AGCTGAGGAG 
    TCCTCCATCA ATGTTCCTGC CATCGCCGCG GCCCACGTTA TCAAACGCTA CATTGCCCAG 
    GCCACAGACG AGCTGACCTT TGAGGTAGGG GACATTGTGT CAGTCATTGA CATGCCTCCT 
    AAAGAGGACA CTGGCTGGTG GAGAGGGAAA CATGGTTTTC AGGTTGGCTT CTTCCCCTGT 
    GACTGTGTGG AGCTGATCAG TGACAGGATT CCCACCTGTG TGTCCAGCTC TGTGCCAAAA 
    CCAGTGTGTC CATCAGTTTG TAAGAAGCAT GGGAAGCTGG TGACATTCCT GAGGAGCTTC 
    ATGAAGTCCC GTCCACCCCC CCAGAAGCTG AGGCAGCGTG GGATCCTCAG GGAGAGGGTG 
    TTTGGCTGTG ACCTGGGGGA ACACCTCCTC AACTCAGAAC ATGATGTCCC CCAGGTGATA 
    AAATGCTGTA CTGAGTTCAT TGAGAGACAT GGTGTCGTGG ACGGGATGTA CAGACTCTCT 
    GGGATCTCCT CCAACATCCA GAAACTGAGA CATGAGTTTG ACTCGGAGGA GATCCCAGAC 
    CTCAGTAGAG ATGTTTTCAA ACAGGATATC CACTCCGTAG GGTCCCTCTG TAAACTGTAC 
    TTTAGAGAGC TGCCCAACCC TCTGCTCACC TACCAGCTCT ATGAGAGATT CTCAGAGGCT 
    GTGTCTGCAG CTACTGATGA GGAGAGGCTG GTGAAGATCC ACAATGTCAT CCAGCAGCTT 
    CCTCCTCCTC ACTACAGGAC TCTGGAATTC CTCATGAGAC ATTTGTCCCA ACTAGCCACC 
    TTCAGCCCTA TTACCAACAT GCACACCAAG AACCTGGCCA TCGTCTGGGC TCCAAACTTG 
    CTCAGGTCCA AGCAGATTGA GTCGGCCTGT TTTAGTGGAA CCGCAGCCTT TATGGAGGTG 
    CGTATCCAGT CAGTGGTGGT GGAGTTCATA CTGAACAACA CAGAGTCACT CTTCAGCCGC 
    AAGGTCAACA CCCACAACCG GGAGAGCACA GGTACCAGTA CCCTATCCAG GCCCAAGTCT 
    CTGCTGGTGT GCTCTCCCTC CACTAAGCTC CTATCTCTGG AGGAAGCCCA GGCCCGTACC 
    CAGGCCCAGT TGGGCTCCCC TGCTCCTACC CCCGTTCTGT CTCACAGCGA GTACATCGAG 
    GTGGGGGAGG GACCTGGGGC ACTGATGGGC AAGTTCCACA CAGTCATCGC GCTCCCCACT 
    GAGAGTAAGA GGGCTCCTGG GAAGTTGAAA AAGTCCCCAG TGGGAAGCTG GCGTTCATTC 
    TTCCACCTGG GCAAGTCATC CTCCATGACC TCCAAACGCA AGCTGAAGCG TCACCCCAGC 
    GAACCCAATG AGATCAAGAG CATCTCGCTG CCAGGTGGTA GAGGTGATAG TGGGACACTG 
    CGCTCCACCA AAAGTGAAGA ATCTCTCACC TCTCTGCACA ATTTGGAAAG GGAGCCCCAG 
    ATGTACCGCC TACCTAGACC ACACTCCACC AGCGATGCCC TCTCCACCGC ATTCAGGGAT 
    GACCTGTGTG ATGCTAGGGT CAAAGGTGAC CACTACAATA ACCAGGTCAA GGAGGTAGCA 
    CATAGTGGTG CTGATGGTCC AGCCTTTGAC CCAGCTGGCG TGTTCCCTCC ACATCAGGAG 
    GATGACCTTG ACCTCTGTCT TCCAGCCCCT GGCATGGCCT TTCTGGACTT TGACCCCATG 
    TCCTTCCAGT GCAGCCCAGT GAGCCCACCA ACAGCTAAAT CCGCTCCTCA ACGCAAAGCA 
    AGCGTCAACT GTAGGAAGCA TGTCAGGGGT TCCAGTGAAT CAAAGCCCAT CTCCTCGTCC 
    CTCAATAAAG TCCTCAGTGA CTCCCAGTCC CCTGACATCA GCCCAGTCCA TAGGAAAAGA 
    GGGGAGAAAA AGAAAGTGGC TCGGGTCGTC TCCCCTGTGG TCGAAACAGA TGTGCACACT 
    GTGTGTGTGT CTGCCCCACG CTGTGTCTCA GATACCCAGG GGGGTGACTC CTCCTCCCCT 
    CCACCTCTGG ATCTGTGTGA GGCCCAACTA GTGAGTGAGG AGGGGAGTGA GGCTAGGGCA 
    CCCTGCCGGC CCCCCAGCCC ACCAAGCTTC AACTCAACTG TCACAGACAG CCTGGCTTCA 
    CAAAACCCTC CGGATGCAGG AACAGATGGG CTTGTGAATT CAGTGTCTGT CCTCCCTCCT 
    CACCCTCCGT TGACGAGTGC TGCCCGCAGG CTGGCCCTGG CCCTGGCTGA GTCTGCCCAG 
    AAGGCCACTC TGACCTCCCA GAGGAGGGGC ACCCAGCCCC CCTACCCTCT CCAGAGACAG 
    GACACCCCCC ACCCCCTGGA CAGACCCCCA CGACCCTCTG TTCTCCACCT CCAACCCTGC 
    TCTCAGGATT ACGGTGACCT CAAGGTCTCT TCTCCAGCCA CCCTCTTACC CATGGCTGGC 
    ACACCAGTTG AGAGTCCTTG TGACCGTTTC CCTGGCCATG AGAGAAAACG GGCCCCTGAA 
    GGACAAGTGG CCATGAGTAA CTTCACTCCC ACTGTCAGTT CCTTAGAGGC TGGAGCTCTA 
    CTGCTGGGCA GCACAGAGGT GAGGGACCAG AGGGAAGGGA GAGACCGGCC CCTGGGAGCT 
    GTAAAGACTG TACATCTACA GACGGTGTCC TCCTCGTATC TCAGTGGTGG GGCCTCCCCT 
    CCCATTCAAT CAGTCTGCTC CATTCAGAGC CCATTAGCTG CTGCTGTCCT TGCTAACACT 
    GACTCAGTCA ATGCATATAA CTATCAGACT GTTCTTGCTG AGGCGTCCAT GCCAGGGTCT 
    GTGGGGGAGA TCCCTCCACA TCGTCCTCTA CTGTCCTTAG TCAATCAGTA CAGCTCTGAT 
    GGAGAAAGAG CTATGAGGGA GGCTGAAGAT GTGTACAGAC ATCATCGGGT CAATCCAGCA 
    GGACAGGTAT CTGGACCTCC TCGGCCTGAC TATTTCCTTC CCCACCAGGC AGGGCCCAAG 
    AGCATGTACA AACCCACGTC TGACAGCTGC TACAATACAT TAGGCCTCCG GAACTACCCC 
    TCTAACTCCC CCCAGTATAG TGGTCAACCC CAACCCAGGG AAGAGTACAG CTCCAGTGGC 
    CACCACAGAT CCAGGGGACA ATGGCAGAGG ACTGAGGATA GAGCCCTGGG TTACCCCGGC 
    ATCCGCAGGG CACGCTCCTT CCATGCCCAG CAACCTATTC GTATTGAACT GGCAGACACC 
    CTGTTCTACG TCCAACGTCC AGCTGTCCAG GAAAAGGAGT ACAAATGGCT ACTCCAGTCA 
    GATGTCCAAC CTCTGCATCC ATACTTTGAG AATGGCTGTG TTCAGTACCG CTCCAGTCCC 
    TATTCAGACG CAGTGCCTCT AGAGGAGTCT TACTACTATG TGGACCCTTA CAGGACGAGC 
    CGCATCCGAC ACAGTCAGTC ATACACCATG CGCTCTACCA AGGATTGTGG ACATCCTGGT 
    TACCACTACC GTCCCTCACA CAACATCCCA CCCGCAAAAA GAGAACTCTT CTTAGAGAGC 
    AGGGATCCAG AGCGAGTCAT TTACAAGTCC TGGGACCACC CAGAGGGTTG TGACAGACCC 
    GTCTATCAGC CAATCAGGCA AGAGAATAGA GCCAGGCAGA GGCCCCAGGG CCCTATCATG 
    TCTCCTTATG AGAACCTGAA TCCTCCCCTC CCACAGAGTG ACATCAGGGG CAGAGATATC 
    AGTCACACCA GAAGCAGGTC AGACCCAGGT AATGCCTGGC TGCTGGCCAT CGACAGAGTG 
    GACAGCCAAC GTGAAGTACC TGCCATGTCT CCAATCTCTC CTGGTCAGCA GCTTTCAGAC 
    CCTAGTGATT ACATCAGGCA CCAGAGGGTT CATTGGCCAG GCGAGGAGCC AGTCCCTCCC 
    AGGAGAGAGA GCGTCTCCAG GAGAACCCAG CCCAAGCAGG GCACCCCGCA ACGATATCAG 
    CCACAGCATT GCAACGTCCC CATGCTCCTA GATGTTAAGA ACGTGGAGCA GGGTGAGGGT 
    GGTCATAGTA GAGGTTGTGA CAAGGACATG GTAATTATGG GCAACGCTGC TAACAGCTAC 
    TCTGCCCGAT TAAAACCAAG CATCCCCAGG AGACCACGAT CACAGAGCAT CAAAGAGCCT 
    CGTTACTACC ACCATGTCAA ATCACCTGTG GAACCAGATC ACCCTGGGTC CTTCTCCACT 
    CAGCCCCACA GGAGAACTCA GAGCACGAAG GCCATGCCCT CTCATTATAA TAACCTGGAG 
    GGGTACTACC CAGCTCCCAA GCCCAAACCC TCAGGATCTG GTAAGGCCAT GCCAGGGCCG 
    TTCCCTGGCC ACGGCTGCAT GCCCCCACAC AGCCACAGAC TGCTGTCACA TGGCCTAGTG 
    GGCCACGGGG CCTTTCTGCA GACAGGCCTC AGGCCGGAAG CTGGAGTCTA TGCTGAGTGA

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

    LOC110503963 ( XM_021582644.1 ) cDNA ORF clone, Oncorhynchus mykiss(rainbow trout) -> XP_021438319.1 Oncorhynchus mykiss rho GTPase-activating protein 32-like (LOC110503963), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OOf31362
    Clone ID Related Accession (Same CDS sequence) XM_021582644.1
    Accession Version XM_021582644.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5118bp)
    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 1498406400000
    Organism Oncorhynchus mykiss(rainbow trout)
    Product rho GTPase-activating protein 32-like isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_035100.1) 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 :: Oncorhynchus mykiss Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 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
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    ATGATGGAGG CTGGCTGTGG GGTTGCCGCG GTGATCGGGA ATGCTGCCTC AGGACCACAG 
    GGAAAACCAG GAAGTGGTGA CGTCCTTGAG GGGGCCATGT CACTGTGTAT TACACCAGAT 
    GAAGACAAGA ACCAGCCTGA TCCATACAAG AGCACTACTC CAACAGATAA GTCCCCACAA 
    GGGAGCACAA TGGCCATGGT ACGGAATGAT GAGCTCACAG AGCTTCCTGT CGAGCCTGAG 
    CCCACCCTGC GTTCCTGCAT CAGCACAGCC AGCATGAAGG TCAAAAACGT GAAGAAGCTG 
    ACGTTCCCCA GAGGTCATTT TCCCAGGCTG GCTGAGTGTG CCCACTTCCA CTATGAGACC 
    GTTGACTTTG GCACTGTGCA GCTGTCCTTT GCAGAAGAGC AAACTGAGGG GCAGAAGGCT 
    TGTCTGGACT CCAAGGAGCC ACTCTTCCTG GTTCAGATCT GCTGCCAGAG TCGGAGCTGG 
    TTGGTGAAGC GCTCCTATGA AGACTTCCGT GTGCTAGACA AACACCTCCA CCTTTGTATC 
    TATGACCGAC ACTTCTCCAA ACTCAATGAG CTGCCTCGCT TTGACTATCT GAAGGACACA 
    GTAGAGGAAA TAACCAAGAT GTTGGCAGCC TACCTGTCCC ATCTCTCAGC CATCGCTGAT 
    AACAAGATCA ACTGTAGTCC AGTGCTGACA TGGATGGAGA TTGATAACAA GGGCAACCGC 
    ATGCTGGTAG CTGAGGAGTC CTCCATCAAT GTTCCTGCCA TCGCCGCGGC CCACGTTATC 
    AAACGCTACA TTGCCCAGGC CACAGACGAG CTGACCTTTG AGGTAGGGGA CATTGTGTCA 
    GTCATTGACA TGCCTCCTAA AGAGGACACT GGCTGGTGGA GAGGGAAACA TGGTTTTCAG 
    GTTGGCTTCT TCCCCTGTGA CTGTGTGGAG CTGATCAGTG ACAGGATTCC CACCTGTGTG 
    TCCAGCTCTG TGCCAAAACC AGTGTGTCCA TCAGTTTGTA AGAAGCATGG GAAGCTGGTG 
    ACATTCCTGA GGAGCTTCAT GAAGTCCCGT CCACCCCCCC AGAAGCTGAG GCAGCGTGGG 
    ATCCTCAGGG AGAGGGTGTT TGGCTGTGAC CTGGGGGAAC ACCTCCTCAA CTCAGAACAT 
    GATGTCCCCC AGGTGATAAA ATGCTGTACT GAGTTCATTG AGAGACATGG TGTCGTGGAC 
    GGGATGTACA GACTCTCTGG GATCTCCTCC AACATCCAGA AACTGAGACA TGAGTTTGAC 
    TCGGAGGAGA TCCCAGACCT CAGTAGAGAT GTTTTCAAAC AGGATATCCA CTCCGTAGGG 
    TCCCTCTGTA AACTGTACTT TAGAGAGCTG CCCAACCCTC TGCTCACCTA CCAGCTCTAT 
    GAGAGATTCT CAGAGGCTGT GTCTGCAGCT ACTGATGAGG AGAGGCTGGT GAAGATCCAC 
    AATGTCATCC AGCAGCTTCC TCCTCCTCAC TACAGGACTC TGGAATTCCT CATGAGACAT 
    TTGTCCCAAC TAGCCACCTT CAGCCCTATT ACCAACATGC ACACCAAGAA CCTGGCCATC 
    GTCTGGGCTC CAAACTTGCT CAGGTCCAAG CAGATTGAGT CGGCCTGTTT TAGTGGAACC 
    GCAGCCTTTA TGGAGGTGCG TATCCAGTCA GTGGTGGTGG AGTTCATACT GAACAACACA 
    GAGTCACTCT TCAGCCGCAA GGTCAACACC CACAACCGGG AGAGCACAGG TACCAGTACC 
    CTATCCAGGC CCAAGTCTCT GCTGGTGTGC TCTCCCTCCA CTAAGCTCCT ATCTCTGGAG 
    GAAGCCCAGG CCCGTACCCA GGCCCAGTTG GGCTCCCCTG CTCCTACCCC CGTTCTGTCT 
    CACAGCGAGT ACATCGAGGT GGGGGAGGGA CCTGGGGCAC TGATGGGCAA GTTCCACACA 
    GTCATCGCGC TCCCCACTGA GAGTAAGAGG GCTCCTGGGA AGTTGAAAAA GTCCCCAGTG 
    GGAAGCTGGC GTTCATTCTT CCACCTGGGC AAGTCATCCT CCATGACCTC CAAACGCAAG 
    CTGAAGCGTC ACCCCAGCGA ACCCAATGAG ATCAAGAGCA TCTCGCTGCC AGGTGGTAGA 
    GGTGATAGTG GGACACTGCG CTCCACCAAA AGTGAAGAAT CTCTCACCTC TCTGCACAAT 
    TTGGAAAGGG AGCCCCAGAT GTACCGCCTA CCTAGACCAC ACTCCACCAG CGATGCCCTC 
    TCCACCGCAT TCAGGGATGA CCTGTGTGAT GCTAGGGTCA AAGGTGACCA CTACAATAAC 
    CAGGTCAAGG AGGTAGCACA TAGTGGTGCT GATGGTCCAG CCTTTGACCC AGCTGGCGTG 
    TTCCCTCCAC ATCAGGAGGA TGACCTTGAC CTCTGTCTTC CAGCCCCTGG CATGGCCTTT 
    CTGGACTTTG ACCCCATGTC CTTCCAGTGC AGCCCAGTGA GCCCACCAAC AGCTAAATCC 
    GCTCCTCAAC GCAAAGCAAG CGTCAACTGT AGGAAGCATG TCAGGGGTTC CAGTGAATCA 
    AAGCCCATCT CCTCGTCCCT CAATAAAGTC CTCAGTGACT CCCAGTCCCC TGACATCAGC 
    CCAGTCCATA GGAAAAGAGG GGAGAAAAAG AAAGTGGCTC GGGTCGTCTC CCCTGTGGTC 
    GAAACAGATG TGCACACTGT GTGTGTGTCT GCCCCACGCT GTGTCTCAGA TACCCAGGGG 
    GGTGACTCCT CCTCCCCTCC ACCTCTGGAT CTGTGTGAGG CCCAACTAGT GAGTGAGGAG 
    GGGAGTGAGG CTAGGGCACC CTGCCGGCCC CCCAGCCCAC CAAGCTTCAA CTCAACTGTC 
    ACAGACAGCC TGGCTTCACA AAACCCTCCG GATGCAGGAA CAGATGGGCT TGTGAATTCA 
    GTGTCTGTCC TCCCTCCTCA CCCTCCGTTG ACGAGTGCTG CCCGCAGGCT GGCCCTGGCC 
    CTGGCTGAGT CTGCCCAGAA GGCCACTCTG ACCTCCCAGA GGAGGGGCAC CCAGCCCCCC 
    TACCCTCTCC AGAGACAGGA CACCCCCCAC CCCCTGGACA GACCCCCACG ACCCTCTGTT 
    CTCCACCTCC AACCCTGCTC TCAGGATTAC GGTGACCTCA AGGTCTCTTC TCCAGCCACC 
    CTCTTACCCA TGGCTGGCAC ACCAGTTGAG AGTCCTTGTG ACCGTTTCCC TGGCCATGAG 
    AGAAAACGGG CCCCTGAAGG ACAAGTGGCC ATGAGTAACT TCACTCCCAC TGTCAGTTCC 
    TTAGAGGCTG GAGCTCTACT GCTGGGCAGC ACAGAGGTGA GGGACCAGAG GGAAGGGAGA 
    GACCGGCCCC TGGGAGCTGT AAAGACTGTA CATCTACAGA CGGTGTCCTC CTCGTATCTC 
    AGTGGTGGGG CCTCCCCTCC CATTCAATCA GTCTGCTCCA TTCAGAGCCC ATTAGCTGCT 
    GCTGTCCTTG CTAACACTGA CTCAGTCAAT GCATATAACT ATCAGACTGT TCTTGCTGAG 
    GCGTCCATGC CAGGGTCTGT GGGGGAGATC CCTCCACATC GTCCTCTACT GTCCTTAGTC 
    AATCAGTACA GCTCTGATGG AGAAAGAGCT ATGAGGGAGG CTGAAGATGT GTACAGACAT 
    CATCGGGTCA ATCCAGCAGG ACAGGTATCT GGACCTCCTC GGCCTGACTA TTTCCTTCCC 
    CACCAGGCAG GGCCCAAGAG CATGTACAAA CCCACGTCTG ACAGCTGCTA CAATACATTA 
    GGCCTCCGGA ACTACCCCTC TAACTCCCCC CAGTATAGTG GTCAACCCCA ACCCAGGGAA 
    GAGTACAGCT CCAGTGGCCA CCACAGATCC AGGGGACAAT GGCAGAGGAC TGAGGATAGA 
    GCCCTGGGTT ACCCCGGCAT CCGCAGGGCA CGCTCCTTCC ATGCCCAGCA ACCTATTCGT 
    ATTGAACTGG CAGACACCCT GTTCTACGTC CAACGTCCAG CTGTCCAGGA AAAGGAGTAC 
    AAATGGCTAC TCCAGTCAGA TGTCCAACCT CTGCATCCAT ACTTTGAGAA TGGCTGTGTT 
    CAGTACCGCT CCAGTCCCTA TTCAGACGCA GTGCCTCTAG AGGAGTCTTA CTACTATGTG 
    GACCCTTACA GGACGAGCCG CATCCGACAC AGTCAGTCAT ACACCATGCG CTCTACCAAG 
    GATTGTGGAC ATCCTGGTTA CCACTACCGT CCCTCACACA ACATCCCACC CGCAAAAAGA 
    GAACTCTTCT TAGAGAGCAG GGATCCAGAG CGAGTCATTT ACAAGTCCTG GGACCACCCA 
    GAGGGTTGTG ACAGACCCGT CTATCAGCCA ATCAGGCAAG AGAATAGAGC CAGGCAGAGG 
    CCCCAGGGCC CTATCATGTC TCCTTATGAG AACCTGAATC CTCCCCTCCC ACAGAGTGAC 
    ATCAGGGGCA GAGATATCAG TCACACCAGA AGCAGGTCAG ACCCAGGTAA TGCCTGGCTG 
    CTGGCCATCG ACAGAGTGGA CAGCCAACGT GAAGTACCTG CCATGTCTCC AATCTCTCCT 
    GGTCAGCAGC TTTCAGACCC TAGTGATTAC ATCAGGCACC AGAGGGTTCA TTGGCCAGGC 
    GAGGAGCCAG TCCCTCCCAG GAGAGAGAGC GTCTCCAGGA GAACCCAGCC CAAGCAGGGC 
    ACCCCGCAAC GATATCAGCC ACAGCATTGC AACGTCCCCA TGCTCCTAGA TGTTAAGAAC 
    GTGGAGCAGG GTGAGGGTGG TCATAGTAGA GGTTGTGACA AGGACATGGT AATTATGGGC 
    AACGCTGCTA ACAGCTACTC TGCCCGATTA AAACCAAGCA TCCCCAGGAG ACCACGATCA 
    CAGAGCATCA AAGAGCCTCG TTACTACCAC CATGTCAAAT CACCTGTGGA ACCAGATCAC 
    CCTGGGTCCT TCTCCACTCA GCCCCACAGG AGAACTCAGA GCACGAAGGC CATGCCCTCT 
    CATTATAATA ACCTGGAGGG GTACTACCCA GCTCCCAAGC CCAAACCCTC AGGATCTGGT 
    AAGGCCATGC CAGGGCCGTT CCCTGGCCAC GGCTGCATGC CCCCACACAG CCACAGACTG 
    CTGTCACATG GCCTAGTGGG CCACGGGGCC TTTCTGCAGA CAGGCCTCAG GCCGGAAGCT 
    GGAGTCTATG CTGAGTGA

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

    RefSeq XP_021438319.1
    CDS270..5387
    Translation

    Target ORF information:

    RefSeq Version XM_021582644.1
    Organism Oncorhynchus mykiss(rainbow trout)
    Definition Oncorhynchus mykiss rho GTPase-activating protein 32-like (LOC110503963), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021582644.1

    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
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    ATGATGGAGG CTGGCTGTGG GGTTGCCGCG GTGATCGGGA ATGCTGCCTC AGGACCACAG 
    GGAAAACCAG GAAGTGGTGA CGTCCTTGAG GGGGCCATGT CACTGTGTAT TACACCAGAT 
    GAAGACAAGA ACCAGCCTGA TCCATACAAG AGCACTACTC CAACAGATAA GTCCCCACAA 
    GGGAGCACAA TGGCCATGGT ACGGAATGAT GAGCTCACAG AGCTTCCTGT CGAGCCTGAG 
    CCCACCCTGC GTTCCTGCAT CAGCACAGCC AGCATGAAGG TCAAAAACGT GAAGAAGCTG 
    ACGTTCCCCA GAGGTCATTT TCCCAGGCTG GCTGAGTGTG CCCACTTCCA CTATGAGACC 
    GTTGACTTTG GCACTGTGCA GCTGTCCTTT GCAGAAGAGC AAACTGAGGG GCAGAAGGCT 
    TGTCTGGACT CCAAGGAGCC ACTCTTCCTG GTTCAGATCT GCTGCCAGAG TCGGAGCTGG 
    TTGGTGAAGC GCTCCTATGA AGACTTCCGT GTGCTAGACA AACACCTCCA CCTTTGTATC 
    TATGACCGAC ACTTCTCCAA ACTCAATGAG CTGCCTCGCT TTGACTATCT GAAGGACACA 
    GTAGAGGAAA TAACCAAGAT GTTGGCAGCC TACCTGTCCC ATCTCTCAGC CATCGCTGAT 
    AACAAGATCA ACTGTAGTCC AGTGCTGACA TGGATGGAGA TTGATAACAA GGGCAACCGC 
    ATGCTGGTAG CTGAGGAGTC CTCCATCAAT GTTCCTGCCA TCGCCGCGGC CCACGTTATC 
    AAACGCTACA TTGCCCAGGC CACAGACGAG CTGACCTTTG AGGTAGGGGA CATTGTGTCA 
    GTCATTGACA TGCCTCCTAA AGAGGACACT GGCTGGTGGA GAGGGAAACA TGGTTTTCAG 
    GTTGGCTTCT TCCCCTGTGA CTGTGTGGAG CTGATCAGTG ACAGGATTCC CACCTGTGTG 
    TCCAGCTCTG TGCCAAAACC AGTGTGTCCA TCAGTTTGTA AGAAGCATGG GAAGCTGGTG 
    ACATTCCTGA GGAGCTTCAT GAAGTCCCGT CCACCCCCCC AGAAGCTGAG GCAGCGTGGG 
    ATCCTCAGGG AGAGGGTGTT TGGCTGTGAC CTGGGGGAAC ACCTCCTCAA CTCAGAACAT 
    GATGTCCCCC AGGTGATAAA ATGCTGTACT GAGTTCATTG AGAGACATGG TGTCGTGGAC 
    GGGATGTACA GACTCTCTGG GATCTCCTCC AACATCCAGA AACTGAGACA TGAGTTTGAC 
    TCGGAGGAGA TCCCAGACCT CAGTAGAGAT GTTTTCAAAC AGGATATCCA CTCCGTAGGG 
    TCCCTCTGTA AACTGTACTT TAGAGAGCTG CCCAACCCTC TGCTCACCTA CCAGCTCTAT 
    GAGAGATTCT CAGAGGCTGT GTCTGCAGCT ACTGATGAGG AGAGGCTGGT GAAGATCCAC 
    AATGTCATCC AGCAGCTTCC TCCTCCTCAC TACAGGACTC TGGAATTCCT CATGAGACAT 
    TTGTCCCAAC TAGCCACCTT CAGCCCTATT ACCAACATGC ACACCAAGAA CCTGGCCATC 
    GTCTGGGCTC CAAACTTGCT CAGGTCCAAG CAGATTGAGT CGGCCTGTTT TAGTGGAACC 
    GCAGCCTTTA TGGAGGTGCG TATCCAGTCA GTGGTGGTGG AGTTCATACT GAACAACACA 
    GAGTCACTCT TCAGCCGCAA GGTCAACACC CACAACCGGG AGAGCACAGG TACCAGTACC 
    CTATCCAGGC CCAAGTCTCT GCTGGTGTGC TCTCCCTCCA CTAAGCTCCT ATCTCTGGAG 
    GAAGCCCAGG CCCGTACCCA GGCCCAGTTG GGCTCCCCTG CTCCTACCCC CGTTCTGTCT 
    CACAGCGAGT ACATCGAGGT GGGGGAGGGA CCTGGGGCAC TGATGGGCAA GTTCCACACA 
    GTCATCGCGC TCCCCACTGA GAGTAAGAGG GCTCCTGGGA AGTTGAAAAA GTCCCCAGTG 
    GGAAGCTGGC GTTCATTCTT CCACCTGGGC AAGTCATCCT CCATGACCTC CAAACGCAAG 
    CTGAAGCGTC ACCCCAGCGA ACCCAATGAG ATCAAGAGCA TCTCGCTGCC AGGTGGTAGA 
    GGTGATAGTG GGACACTGCG CTCCACCAAA AGTGAAGAAT CTCTCACCTC TCTGCACAAT 
    TTGGAAAGGG AGCCCCAGAT GTACCGCCTA CCTAGACCAC ACTCCACCAG CGATGCCCTC 
    TCCACCGCAT TCAGGGATGA CCTGTGTGAT GCTAGGGTCA AAGGTGACCA CTACAATAAC 
    CAGGTCAAGG AGGTAGCACA TAGTGGTGCT GATGGTCCAG CCTTTGACCC AGCTGGCGTG 
    TTCCCTCCAC ATCAGGAGGA TGACCTTGAC CTCTGTCTTC CAGCCCCTGG CATGGCCTTT 
    CTGGACTTTG ACCCCATGTC CTTCCAGTGC AGCCCAGTGA GCCCACCAAC AGCTAAATCC 
    GCTCCTCAAC GCAAAGCAAG CGTCAACTGT AGGAAGCATG TCAGGGGTTC CAGTGAATCA 
    AAGCCCATCT CCTCGTCCCT CAATAAAGTC CTCAGTGACT CCCAGTCCCC TGACATCAGC 
    CCAGTCCATA GGAAAAGAGG GGAGAAAAAG AAAGTGGCTC GGGTCGTCTC CCCTGTGGTC 
    GAAACAGATG TGCACACTGT GTGTGTGTCT GCCCCACGCT GTGTCTCAGA TACCCAGGGG 
    GGTGACTCCT CCTCCCCTCC ACCTCTGGAT CTGTGTGAGG CCCAACTAGT GAGTGAGGAG 
    GGGAGTGAGG CTAGGGCACC CTGCCGGCCC CCCAGCCCAC CAAGCTTCAA CTCAACTGTC 
    ACAGACAGCC TGGCTTCACA AAACCCTCCG GATGCAGGAA CAGATGGGCT TGTGAATTCA 
    GTGTCTGTCC TCCCTCCTCA CCCTCCGTTG ACGAGTGCTG CCCGCAGGCT GGCCCTGGCC 
    CTGGCTGAGT CTGCCCAGAA GGCCACTCTG ACCTCCCAGA GGAGGGGCAC CCAGCCCCCC 
    TACCCTCTCC AGAGACAGGA CACCCCCCAC CCCCTGGACA GACCCCCACG ACCCTCTGTT 
    CTCCACCTCC AACCCTGCTC TCAGGATTAC GGTGACCTCA AGGTCTCTTC TCCAGCCACC 
    CTCTTACCCA TGGCTGGCAC ACCAGTTGAG AGTCCTTGTG ACCGTTTCCC TGGCCATGAG 
    AGAAAACGGG CCCCTGAAGG ACAAGTGGCC ATGAGTAACT TCACTCCCAC TGTCAGTTCC 
    TTAGAGGCTG GAGCTCTACT GCTGGGCAGC ACAGAGGTGA GGGACCAGAG GGAAGGGAGA 
    GACCGGCCCC TGGGAGCTGT AAAGACTGTA CATCTACAGA CGGTGTCCTC CTCGTATCTC 
    AGTGGTGGGG CCTCCCCTCC CATTCAATCA GTCTGCTCCA TTCAGAGCCC ATTAGCTGCT 
    GCTGTCCTTG CTAACACTGA CTCAGTCAAT GCATATAACT ATCAGACTGT TCTTGCTGAG 
    GCGTCCATGC CAGGGTCTGT GGGGGAGATC CCTCCACATC GTCCTCTACT GTCCTTAGTC 
    AATCAGTACA GCTCTGATGG AGAAAGAGCT ATGAGGGAGG CTGAAGATGT GTACAGACAT 
    CATCGGGTCA ATCCAGCAGG ACAGGTATCT GGACCTCCTC GGCCTGACTA TTTCCTTCCC 
    CACCAGGCAG GGCCCAAGAG CATGTACAAA CCCACGTCTG ACAGCTGCTA CAATACATTA 
    GGCCTCCGGA ACTACCCCTC TAACTCCCCC CAGTATAGTG GTCAACCCCA ACCCAGGGAA 
    GAGTACAGCT CCAGTGGCCA CCACAGATCC AGGGGACAAT GGCAGAGGAC TGAGGATAGA 
    GCCCTGGGTT ACCCCGGCAT CCGCAGGGCA CGCTCCTTCC ATGCCCAGCA ACCTATTCGT 
    ATTGAACTGG CAGACACCCT GTTCTACGTC CAACGTCCAG CTGTCCAGGA AAAGGAGTAC 
    AAATGGCTAC TCCAGTCAGA TGTCCAACCT CTGCATCCAT ACTTTGAGAA TGGCTGTGTT 
    CAGTACCGCT CCAGTCCCTA TTCAGACGCA GTGCCTCTAG AGGAGTCTTA CTACTATGTG 
    GACCCTTACA GGACGAGCCG CATCCGACAC AGTCAGTCAT ACACCATGCG CTCTACCAAG 
    GATTGTGGAC ATCCTGGTTA CCACTACCGT CCCTCACACA ACATCCCACC CGCAAAAAGA 
    GAACTCTTCT TAGAGAGCAG GGATCCAGAG CGAGTCATTT ACAAGTCCTG GGACCACCCA 
    GAGGGTTGTG ACAGACCCGT CTATCAGCCA ATCAGGCAAG AGAATAGAGC CAGGCAGAGG 
    CCCCAGGGCC CTATCATGTC TCCTTATGAG AACCTGAATC CTCCCCTCCC ACAGAGTGAC 
    ATCAGGGGCA GAGATATCAG TCACACCAGA AGCAGGTCAG ACCCAGGTAA TGCCTGGCTG 
    CTGGCCATCG ACAGAGTGGA CAGCCAACGT GAAGTACCTG CCATGTCTCC AATCTCTCCT 
    GGTCAGCAGC TTTCAGACCC TAGTGATTAC ATCAGGCACC AGAGGGTTCA TTGGCCAGGC 
    GAGGAGCCAG TCCCTCCCAG GAGAGAGAGC GTCTCCAGGA GAACCCAGCC CAAGCAGGGC 
    ACCCCGCAAC GATATCAGCC ACAGCATTGC AACGTCCCCA TGCTCCTAGA TGTTAAGAAC 
    GTGGAGCAGG GTGAGGGTGG TCATAGTAGA GGTTGTGACA AGGACATGGT AATTATGGGC 
    AACGCTGCTA ACAGCTACTC TGCCCGATTA AAACCAAGCA TCCCCAGGAG ACCACGATCA 
    CAGAGCATCA AAGAGCCTCG TTACTACCAC CATGTCAAAT CACCTGTGGA ACCAGATCAC 
    CCTGGGTCCT TCTCCACTCA GCCCCACAGG AGAACTCAGA GCACGAAGGC CATGCCCTCT 
    CATTATAATA ACCTGGAGGG GTACTACCCA GCTCCCAAGC CCAAACCCTC AGGATCTGGT 
    AAGGCCATGC CAGGGCCGTT CCCTGGCCAC GGCTGCATGC CCCCACACAG CCACAGACTG 
    CTGTCACATG GCCTAGTGGG CCACGGGGCC TTTCTGCAGA CAGGCCTCAG GCCGGAAGCT 
    GGAGTCTATG CTGAGTGA

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

    LOC110503963 ( XM_021582645.1 ) cDNA ORF clone, Oncorhynchus mykiss(rainbow trout) -> XP_021438320.1 Oncorhynchus mykiss rho GTPase-activating protein 32-like (LOC110503963), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OOf31363
    Clone ID Related Accession (Same CDS sequence) XM_021582645.1
    Accession Version XM_021582645.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5106bp)
    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 1498406400000
    Organism Oncorhynchus mykiss(rainbow trout)
    Product rho GTPase-activating protein 32-like isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_035100.1) 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 :: Oncorhynchus mykiss Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 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
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    ATGATGGAGG CTGGCTGTGG GGTTGCCGCG GTGATCGGGA ATGCTGCCTC AGGACCACAG 
    GGAAAACCAG GAAGTGGTGA CGTCCTTGAG GGGGCCATGT CACTGTGTAT TACACCAGAT 
    GAAGACAAGA ACCAGCCTGA TCCATACAAG AGCACTACTC CAACAGATAA GTCCCCACAA 
    GGGAGCACAA TGGCCATGGT ACGGAATGAT GAGCTCACAG AGCTTCCTGT CGAGCCTGAG 
    CCCACCCTGC GTTCCTGCAT CAGCACAGCC AGCATGAAGG TCAAAAACGT GAAGAAGCTG 
    ACGTTCCCCA GAGGTCATTT TCCCAGGCTG GCTGAGTGTG CCCACTTCCA CTATGAGACC 
    GTTGACTTTG GCACTGTGCA GCTGTCCTTT GCAGAAGAGC AAACTGAGGG GCAGAAGGCT 
    TGTCTGGACT CCAAGGAGCC ACTCTTCCTG GTTCAGATCT GCTGCCAGAG TCGGAGCTGG 
    TTGGTGAAGC GCTCCTATGA AGACTTCCGT GTGCTAGACA AACACCTCCA CCTTTGTATC 
    TATGACCGAC ACTTCTCCAA ACTCAATGAG CTGCCTCGCT TTGACTATCT GAAGGACACA 
    GTAGAGGAAA TAACCAAGAT GTTGGCAGCC TACCTGTCCC ATCTCTCAGC CATCGCTGAT 
    AACAAGATCA ACTGTAGTCC AGTGCTGACA TGGATGGAGA TTGATAACAA GGGCAACCGC 
    ATGCTGGTAG CTGAGGAGTC CTCCATCAAT GTTCCTGCCA TCGCCGCGGC CCACGTTATC 
    AAACGCTACA TTGCCCAGGC CACAGACGAG CTGACCTTTG AGGTAGGGGA CATTGTGTCA 
    GTCATTGACA TGCCTCCTAA AGAGGACACT GGCTGGTGGA GAGGGAAACA TGGTTTTCAG 
    GTTGGCTTCT TCCCCTGTGA CTGTGTGGAG CTGATCAGTG ACAGGATTCC CACCTGTGTG 
    TCCAGCTCTG TGCCAAAACC AGTTTGTAAG AAGCATGGGA AGCTGGTGAC ATTCCTGAGG 
    AGCTTCATGA AGTCCCGTCC ACCCCCCCAG AAGCTGAGGC AGCGTGGGAT CCTCAGGGAG 
    AGGGTGTTTG GCTGTGACCT GGGGGAACAC CTCCTCAACT CAGAACATGA TGTCCCCCAG 
    GTGATAAAAT GCTGTACTGA GTTCATTGAG AGACATGGTG TCGTGGACGG GATGTACAGA 
    CTCTCTGGGA TCTCCTCCAA CATCCAGAAA CTGAGACATG AGTTTGACTC GGAGGAGATC 
    CCAGACCTCA GTAGAGATGT TTTCAAACAG GATATCCACT CCGTAGGGTC CCTCTGTAAA 
    CTGTACTTTA GAGAGCTGCC CAACCCTCTG CTCACCTACC AGCTCTATGA GAGATTCTCA 
    GAGGCTGTGT CTGCAGCTAC TGATGAGGAG AGGCTGGTGA AGATCCACAA TGTCATCCAG 
    CAGCTTCCTC CTCCTCACTA CAGGACTCTG GAATTCCTCA TGAGACATTT GTCCCAACTA 
    GCCACCTTCA GCCCTATTAC CAACATGCAC ACCAAGAACC TGGCCATCGT CTGGGCTCCA 
    AACTTGCTCA GGTCCAAGCA GATTGAGTCG GCCTGTTTTA GTGGAACCGC AGCCTTTATG 
    GAGGTGCGTA TCCAGTCAGT GGTGGTGGAG TTCATACTGA ACAACACAGA GTCACTCTTC 
    AGCCGCAAGG TCAACACCCA CAACCGGGAG AGCACAGGTA CCAGTACCCT ATCCAGGCCC 
    AAGTCTCTGC TGGTGTGCTC TCCCTCCACT AAGCTCCTAT CTCTGGAGGA AGCCCAGGCC 
    CGTACCCAGG CCCAGTTGGG CTCCCCTGCT CCTACCCCCG TTCTGTCTCA CAGCGAGTAC 
    ATCGAGGTGG GGGAGGGACC TGGGGCACTG ATGGGCAAGT TCCACACAGT CATCGCGCTC 
    CCCACTGAGA GTAAGAGGGC TCCTGGGAAG TTGAAAAAGT CCCCAGTGGG AAGCTGGCGT 
    TCATTCTTCC ACCTGGGCAA GTCATCCTCC ATGACCTCCA AACGCAAGCT GAAGCGTCAC 
    CCCAGCGAAC CCAATGAGAT CAAGAGCATC TCGCTGCCAG GTGGTAGAGG TGATAGTGGG 
    ACACTGCGCT CCACCAAAAG TGAAGAATCT CTCACCTCTC TGCACAATTT GGAAAGGGAG 
    CCCCAGATGT ACCGCCTACC TAGACCACAC TCCACCAGCG ATGCCCTCTC CACCGCATTC 
    AGGGATGACC TGTGTGATGC TAGGGTCAAA GGTGACCACT ACAATAACCA GGTCAAGGAG 
    GTAGCACATA GTGGTGCTGA TGGTCCAGCC TTTGACCCAG CTGGCGTGTT CCCTCCACAT 
    CAGGAGGATG ACCTTGACCT CTGTCTTCCA GCCCCTGGCA TGGCCTTTCT GGACTTTGAC 
    CCCATGTCCT TCCAGTGCAG CCCAGTGAGC CCACCAACAG CTAAATCCGC TCCTCAACGC 
    AAAGCAAGCG TCAACTGTAG GAAGCATGTC AGGGGTTCCA GTGAATCAAA GCCCATCTCC 
    TCGTCCCTCA ATAAAGTCCT CAGTGACTCC CAGTCCCCTG ACATCAGCCC AGTCCATAGG 
    AAAAGAGGGG AGAAAAAGAA AGTGGCTCGG GTCGTCTCCC CTGTGGTCGA AACAGATGTG 
    CACACTGTGT GTGTGTCTGC CCCACGCTGT GTCTCAGATA CCCAGGGGGG TGACTCCTCC 
    TCCCCTCCAC CTCTGGATCT GTGTGAGGCC CAACTAGTGA GTGAGGAGGG GAGTGAGGCT 
    AGGGCACCCT GCCGGCCCCC CAGCCCACCA AGCTTCAACT CAACTGTCAC AGACAGCCTG 
    GCTTCACAAA ACCCTCCGGA TGCAGGAACA GATGGGCTTG TGAATTCAGT GTCTGTCCTC 
    CCTCCTCACC CTCCGTTGAC GAGTGCTGCC CGCAGGCTGG CCCTGGCCCT GGCTGAGTCT 
    GCCCAGAAGG CCACTCTGAC CTCCCAGAGG AGGGGCACCC AGCCCCCCTA CCCTCTCCAG 
    AGACAGGACA CCCCCCACCC CCTGGACAGA CCCCCACGAC CCTCTGTTCT CCACCTCCAA 
    CCCTGCTCTC AGGATTACGG TGACCTCAAG GTCTCTTCTC CAGCCACCCT CTTACCCATG 
    GCTGGCACAC CAGTTGAGAG TCCTTGTGAC CGTTTCCCTG GCCATGAGAG AAAACGGGCC 
    CCTGAAGGAC AAGTGGCCAT GAGTAACTTC ACTCCCACTG TCAGTTCCTT AGAGGCTGGA 
    GCTCTACTGC TGGGCAGCAC AGAGGTGAGG GACCAGAGGG AAGGGAGAGA CCGGCCCCTG 
    GGAGCTGTAA AGACTGTACA TCTACAGACG GTGTCCTCCT CGTATCTCAG TGGTGGGGCC 
    TCCCCTCCCA TTCAATCAGT CTGCTCCATT CAGAGCCCAT TAGCTGCTGC TGTCCTTGCT 
    AACACTGACT CAGTCAATGC ATATAACTAT CAGACTGTTC TTGCTGAGGC GTCCATGCCA 
    GGGTCTGTGG GGGAGATCCC TCCACATCGT CCTCTACTGT CCTTAGTCAA TCAGTACAGC 
    TCTGATGGAG AAAGAGCTAT GAGGGAGGCT GAAGATGTGT ACAGACATCA TCGGGTCAAT 
    CCAGCAGGAC AGGTATCTGG ACCTCCTCGG CCTGACTATT TCCTTCCCCA CCAGGCAGGG 
    CCCAAGAGCA TGTACAAACC CACGTCTGAC AGCTGCTACA ATACATTAGG CCTCCGGAAC 
    TACCCCTCTA ACTCCCCCCA GTATAGTGGT CAACCCCAAC CCAGGGAAGA GTACAGCTCC 
    AGTGGCCACC ACAGATCCAG GGGACAATGG CAGAGGACTG AGGATAGAGC CCTGGGTTAC 
    CCCGGCATCC GCAGGGCACG CTCCTTCCAT GCCCAGCAAC CTATTCGTAT TGAACTGGCA 
    GACACCCTGT TCTACGTCCA ACGTCCAGCT GTCCAGGAAA AGGAGTACAA ATGGCTACTC 
    CAGTCAGATG TCCAACCTCT GCATCCATAC TTTGAGAATG GCTGTGTTCA GTACCGCTCC 
    AGTCCCTATT CAGACGCAGT GCCTCTAGAG GAGTCTTACT ACTATGTGGA CCCTTACAGG 
    ACGAGCCGCA TCCGACACAG TCAGTCATAC ACCATGCGCT CTACCAAGGA TTGTGGACAT 
    CCTGGTTACC ACTACCGTCC CTCACACAAC ATCCCACCCG CAAAAAGAGA ACTCTTCTTA 
    GAGAGCAGGG ATCCAGAGCG AGTCATTTAC AAGTCCTGGG ACCACCCAGA GGGTTGTGAC 
    AGACCCGTCT ATCAGCCAAT CAGGCAAGAG AATAGAGCCA GGCAGAGGCC CCAGGGCCCT 
    ATCATGTCTC CTTATGAGAA CCTGAATCCT CCCCTCCCAC AGAGTGACAT CAGGGGCAGA 
    GATATCAGTC ACACCAGAAG CAGGTCAGAC CCAGGTAATG CCTGGCTGCT GGCCATCGAC 
    AGAGTGGACA GCCAACGTGA AGTACCTGCC ATGTCTCCAA TCTCTCCTGG TCAGCAGCTT 
    TCAGACCCTA GTGATTACAT CAGGCACCAG AGGGTTCATT GGCCAGGCGA GGAGCCAGTC 
    CCTCCCAGGA GAGAGAGCGT CTCCAGGAGA ACCCAGCCCA AGCAGGGCAC CCCGCAACGA 
    TATCAGCCAC AGCATTGCAA CGTCCCCATG CTCCTAGATG TTAAGAACGT GGAGCAGGGT 
    GAGGGTGGTC ATAGTAGAGG TTGTGACAAG GACATGGTAA TTATGGGCAA CGCTGCTAAC 
    AGCTACTCTG CCCGATTAAA ACCAAGCATC CCCAGGAGAC CACGATCACA GAGCATCAAA 
    GAGCCTCGTT ACTACCACCA TGTCAAATCA CCTGTGGAAC CAGATCACCC TGGGTCCTTC 
    TCCACTCAGC CCCACAGGAG AACTCAGAGC ACGAAGGCCA TGCCCTCTCA TTATAATAAC 
    CTGGAGGGGT ACTACCCAGC TCCCAAGCCC AAACCCTCAG GATCTGGTAA GGCCATGCCA 
    GGGCCGTTCC CTGGCCACGG CTGCATGCCC CCACACAGCC ACAGACTGCT GTCACATGGC 
    CTAGTGGGCC ACGGGGCCTT TCTGCAGACA GGCCTCAGGC CGGAAGCTGG AGTCTATGCT 
    GAGTGA

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

    RefSeq XP_021438320.1
    CDS270..5375
    Translation

    Target ORF information:

    RefSeq Version XM_021582645.1
    Organism Oncorhynchus mykiss(rainbow trout)
    Definition Oncorhynchus mykiss rho GTPase-activating protein 32-like (LOC110503963), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021582645.1

    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
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    ATGATGGAGG CTGGCTGTGG GGTTGCCGCG GTGATCGGGA ATGCTGCCTC AGGACCACAG 
    GGAAAACCAG GAAGTGGTGA CGTCCTTGAG GGGGCCATGT CACTGTGTAT TACACCAGAT 
    GAAGACAAGA ACCAGCCTGA TCCATACAAG AGCACTACTC CAACAGATAA GTCCCCACAA 
    GGGAGCACAA TGGCCATGGT ACGGAATGAT GAGCTCACAG AGCTTCCTGT CGAGCCTGAG 
    CCCACCCTGC GTTCCTGCAT CAGCACAGCC AGCATGAAGG TCAAAAACGT GAAGAAGCTG 
    ACGTTCCCCA GAGGTCATTT TCCCAGGCTG GCTGAGTGTG CCCACTTCCA CTATGAGACC 
    GTTGACTTTG GCACTGTGCA GCTGTCCTTT GCAGAAGAGC AAACTGAGGG GCAGAAGGCT 
    TGTCTGGACT CCAAGGAGCC ACTCTTCCTG GTTCAGATCT GCTGCCAGAG TCGGAGCTGG 
    TTGGTGAAGC GCTCCTATGA AGACTTCCGT GTGCTAGACA AACACCTCCA CCTTTGTATC 
    TATGACCGAC ACTTCTCCAA ACTCAATGAG CTGCCTCGCT TTGACTATCT GAAGGACACA 
    GTAGAGGAAA TAACCAAGAT GTTGGCAGCC TACCTGTCCC ATCTCTCAGC CATCGCTGAT 
    AACAAGATCA ACTGTAGTCC AGTGCTGACA TGGATGGAGA TTGATAACAA GGGCAACCGC 
    ATGCTGGTAG CTGAGGAGTC CTCCATCAAT GTTCCTGCCA TCGCCGCGGC CCACGTTATC 
    AAACGCTACA TTGCCCAGGC CACAGACGAG CTGACCTTTG AGGTAGGGGA CATTGTGTCA 
    GTCATTGACA TGCCTCCTAA AGAGGACACT GGCTGGTGGA GAGGGAAACA TGGTTTTCAG 
    GTTGGCTTCT TCCCCTGTGA CTGTGTGGAG CTGATCAGTG ACAGGATTCC CACCTGTGTG 
    TCCAGCTCTG TGCCAAAACC AGTTTGTAAG AAGCATGGGA AGCTGGTGAC ATTCCTGAGG 
    AGCTTCATGA AGTCCCGTCC ACCCCCCCAG AAGCTGAGGC AGCGTGGGAT CCTCAGGGAG 
    AGGGTGTTTG GCTGTGACCT GGGGGAACAC CTCCTCAACT CAGAACATGA TGTCCCCCAG 
    GTGATAAAAT GCTGTACTGA GTTCATTGAG AGACATGGTG TCGTGGACGG GATGTACAGA 
    CTCTCTGGGA TCTCCTCCAA CATCCAGAAA CTGAGACATG AGTTTGACTC GGAGGAGATC 
    CCAGACCTCA GTAGAGATGT TTTCAAACAG GATATCCACT CCGTAGGGTC CCTCTGTAAA 
    CTGTACTTTA GAGAGCTGCC CAACCCTCTG CTCACCTACC AGCTCTATGA GAGATTCTCA 
    GAGGCTGTGT CTGCAGCTAC TGATGAGGAG AGGCTGGTGA AGATCCACAA TGTCATCCAG 
    CAGCTTCCTC CTCCTCACTA CAGGACTCTG GAATTCCTCA TGAGACATTT GTCCCAACTA 
    GCCACCTTCA GCCCTATTAC CAACATGCAC ACCAAGAACC TGGCCATCGT CTGGGCTCCA 
    AACTTGCTCA GGTCCAAGCA GATTGAGTCG GCCTGTTTTA GTGGAACCGC AGCCTTTATG 
    GAGGTGCGTA TCCAGTCAGT GGTGGTGGAG TTCATACTGA ACAACACAGA GTCACTCTTC 
    AGCCGCAAGG TCAACACCCA CAACCGGGAG AGCACAGGTA CCAGTACCCT ATCCAGGCCC 
    AAGTCTCTGC TGGTGTGCTC TCCCTCCACT AAGCTCCTAT CTCTGGAGGA AGCCCAGGCC 
    CGTACCCAGG CCCAGTTGGG CTCCCCTGCT CCTACCCCCG TTCTGTCTCA CAGCGAGTAC 
    ATCGAGGTGG GGGAGGGACC TGGGGCACTG ATGGGCAAGT TCCACACAGT CATCGCGCTC 
    CCCACTGAGA GTAAGAGGGC TCCTGGGAAG TTGAAAAAGT CCCCAGTGGG AAGCTGGCGT 
    TCATTCTTCC ACCTGGGCAA GTCATCCTCC ATGACCTCCA AACGCAAGCT GAAGCGTCAC 
    CCCAGCGAAC CCAATGAGAT CAAGAGCATC TCGCTGCCAG GTGGTAGAGG TGATAGTGGG 
    ACACTGCGCT CCACCAAAAG TGAAGAATCT CTCACCTCTC TGCACAATTT GGAAAGGGAG 
    CCCCAGATGT ACCGCCTACC TAGACCACAC TCCACCAGCG ATGCCCTCTC CACCGCATTC 
    AGGGATGACC TGTGTGATGC TAGGGTCAAA GGTGACCACT ACAATAACCA GGTCAAGGAG 
    GTAGCACATA GTGGTGCTGA TGGTCCAGCC TTTGACCCAG CTGGCGTGTT CCCTCCACAT 
    CAGGAGGATG ACCTTGACCT CTGTCTTCCA GCCCCTGGCA TGGCCTTTCT GGACTTTGAC 
    CCCATGTCCT TCCAGTGCAG CCCAGTGAGC CCACCAACAG CTAAATCCGC TCCTCAACGC 
    AAAGCAAGCG TCAACTGTAG GAAGCATGTC AGGGGTTCCA GTGAATCAAA GCCCATCTCC 
    TCGTCCCTCA ATAAAGTCCT CAGTGACTCC CAGTCCCCTG ACATCAGCCC AGTCCATAGG 
    AAAAGAGGGG AGAAAAAGAA AGTGGCTCGG GTCGTCTCCC CTGTGGTCGA AACAGATGTG 
    CACACTGTGT GTGTGTCTGC CCCACGCTGT GTCTCAGATA CCCAGGGGGG TGACTCCTCC 
    TCCCCTCCAC CTCTGGATCT GTGTGAGGCC CAACTAGTGA GTGAGGAGGG GAGTGAGGCT 
    AGGGCACCCT GCCGGCCCCC CAGCCCACCA AGCTTCAACT CAACTGTCAC AGACAGCCTG 
    GCTTCACAAA ACCCTCCGGA TGCAGGAACA GATGGGCTTG TGAATTCAGT GTCTGTCCTC 
    CCTCCTCACC CTCCGTTGAC GAGTGCTGCC CGCAGGCTGG CCCTGGCCCT GGCTGAGTCT 
    GCCCAGAAGG CCACTCTGAC CTCCCAGAGG AGGGGCACCC AGCCCCCCTA CCCTCTCCAG 
    AGACAGGACA CCCCCCACCC CCTGGACAGA CCCCCACGAC CCTCTGTTCT CCACCTCCAA 
    CCCTGCTCTC AGGATTACGG TGACCTCAAG GTCTCTTCTC CAGCCACCCT CTTACCCATG 
    GCTGGCACAC CAGTTGAGAG TCCTTGTGAC CGTTTCCCTG GCCATGAGAG AAAACGGGCC 
    CCTGAAGGAC AAGTGGCCAT GAGTAACTTC ACTCCCACTG TCAGTTCCTT AGAGGCTGGA 
    GCTCTACTGC TGGGCAGCAC AGAGGTGAGG GACCAGAGGG AAGGGAGAGA CCGGCCCCTG 
    GGAGCTGTAA AGACTGTACA TCTACAGACG GTGTCCTCCT CGTATCTCAG TGGTGGGGCC 
    TCCCCTCCCA TTCAATCAGT CTGCTCCATT CAGAGCCCAT TAGCTGCTGC TGTCCTTGCT 
    AACACTGACT CAGTCAATGC ATATAACTAT CAGACTGTTC TTGCTGAGGC GTCCATGCCA 
    GGGTCTGTGG GGGAGATCCC TCCACATCGT CCTCTACTGT CCTTAGTCAA TCAGTACAGC 
    TCTGATGGAG AAAGAGCTAT GAGGGAGGCT GAAGATGTGT ACAGACATCA TCGGGTCAAT 
    CCAGCAGGAC AGGTATCTGG ACCTCCTCGG CCTGACTATT TCCTTCCCCA CCAGGCAGGG 
    CCCAAGAGCA TGTACAAACC CACGTCTGAC AGCTGCTACA ATACATTAGG CCTCCGGAAC 
    TACCCCTCTA ACTCCCCCCA GTATAGTGGT CAACCCCAAC CCAGGGAAGA GTACAGCTCC 
    AGTGGCCACC ACAGATCCAG GGGACAATGG CAGAGGACTG AGGATAGAGC CCTGGGTTAC 
    CCCGGCATCC GCAGGGCACG CTCCTTCCAT GCCCAGCAAC CTATTCGTAT TGAACTGGCA 
    GACACCCTGT TCTACGTCCA ACGTCCAGCT GTCCAGGAAA AGGAGTACAA ATGGCTACTC 
    CAGTCAGATG TCCAACCTCT GCATCCATAC TTTGAGAATG GCTGTGTTCA GTACCGCTCC 
    AGTCCCTATT CAGACGCAGT GCCTCTAGAG GAGTCTTACT ACTATGTGGA CCCTTACAGG 
    ACGAGCCGCA TCCGACACAG TCAGTCATAC ACCATGCGCT CTACCAAGGA TTGTGGACAT 
    CCTGGTTACC ACTACCGTCC CTCACACAAC ATCCCACCCG CAAAAAGAGA ACTCTTCTTA 
    GAGAGCAGGG ATCCAGAGCG AGTCATTTAC AAGTCCTGGG ACCACCCAGA GGGTTGTGAC 
    AGACCCGTCT ATCAGCCAAT CAGGCAAGAG AATAGAGCCA GGCAGAGGCC CCAGGGCCCT 
    ATCATGTCTC CTTATGAGAA CCTGAATCCT CCCCTCCCAC AGAGTGACAT CAGGGGCAGA 
    GATATCAGTC ACACCAGAAG CAGGTCAGAC CCAGGTAATG CCTGGCTGCT GGCCATCGAC 
    AGAGTGGACA GCCAACGTGA AGTACCTGCC ATGTCTCCAA TCTCTCCTGG TCAGCAGCTT 
    TCAGACCCTA GTGATTACAT CAGGCACCAG AGGGTTCATT GGCCAGGCGA GGAGCCAGTC 
    CCTCCCAGGA GAGAGAGCGT CTCCAGGAGA ACCCAGCCCA AGCAGGGCAC CCCGCAACGA 
    TATCAGCCAC AGCATTGCAA CGTCCCCATG CTCCTAGATG TTAAGAACGT GGAGCAGGGT 
    GAGGGTGGTC ATAGTAGAGG TTGTGACAAG GACATGGTAA TTATGGGCAA CGCTGCTAAC 
    AGCTACTCTG CCCGATTAAA ACCAAGCATC CCCAGGAGAC CACGATCACA GAGCATCAAA 
    GAGCCTCGTT ACTACCACCA TGTCAAATCA CCTGTGGAAC CAGATCACCC TGGGTCCTTC 
    TCCACTCAGC CCCACAGGAG AACTCAGAGC ACGAAGGCCA TGCCCTCTCA TTATAATAAC 
    CTGGAGGGGT ACTACCCAGC TCCCAAGCCC AAACCCTCAG GATCTGGTAA GGCCATGCCA 
    GGGCCGTTCC CTGGCCACGG CTGCATGCCC CCACACAGCC ACAGACTGCT GTCACATGGC 
    CTAGTGGGCC ACGGGGCCTT TCTGCAGACA GGCCTCAGGC CGGAAGCTGG AGTCTATGCT 
    GAGTGA

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

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