shank3b cDNA ORF clone, Danio rerio(zebrafish)

The following shank3b gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the shank3b 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
ODa44809 XM_017355266.1
Latest version!
Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 12-14 $426.30
$609.00
ODa144501 XM_021471523.1
Latest version!
Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X15, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
ODa144501 XM_021471524.1
Latest version!
Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X16, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
ODa144497 XM_021471518.1
Latest version!
Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
ODa144497 XM_021471517.1
Latest version!
Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
ODa144497 XM_021471519.1
Latest version!
Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X11, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
ODa144498 XM_021471520.1
Latest version!
Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X12, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
ODa144499 XM_021471521.1
Latest version!
Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X13, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
ODa144500 XM_021471522.1
Latest version!
Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X14, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
ODa09212 XM_009300183.3
Latest version!
Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
ODa09212 XM_005164598.4
Latest version!
Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
ODa09212 XM_009300184.3
Latest version!
Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
ODa09213 XM_017355261.2
Latest version!
Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
ODa44805 XM_017355260.2
Latest version!
Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
ODa44806 XM_017355262.2
Latest version!
Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
ODa44807 XM_017355263.2
Latest version!
Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
ODa44808 XM_017355265.2
Latest version!
Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
ODa44808 XM_017355264.2
Latest version!
Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
View Old Accession Versions >>
ODa44807 XM_017355263.1 Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
ODa09212 XM_009300183.2 Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
ODa09212 XM_005164598.3 Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
ODa44805 XM_017355260.1 Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
ODa09213 XM_017355261.1 Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
ODa44806 XM_017355262.1 Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
ODa09212 XM_009300184.2 Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
ODa44808 XM_017355264.1 Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
ODa44808 XM_017355265.1 Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
Hide Old Accession Versions >>

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone 30% OFF
2-4 Clone 40% OFF
5 or more Clone 50% OFF
All Other ORF Clones
30% OFF

*Business Day

** 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 ODa44809
    Clone ID Related Accession (Same CDS sequence) XM_017355266.1
    Accession Version XM_017355266.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2466bp)
    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 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product SH3 and multiple ankyrin repeat domains protein 3 isoform X7
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007115.6) 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 :: Danio rerio Annotation Release 105 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
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATGGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AACGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTATTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACGGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCTCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATCGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTTGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGCGT CAAGGAGAAG GAGGGGAGAG
    AAGTTGGATG AGATGTTGAG TTCGCCAAAG GAACAGGTTG TAGTGATGAG GCAGCGGCCA
    GTGGATTCAG ACTCCAGAGC AGCCACTGTG AAACAGAGAC CCACAAGTCG CCGTATCACA
    CAGGCTGAGA TCATCTTTGT TAGAAAGGCA GGGTTTGCCA ATAAGCGAAT TATCTTTGGC
    TGTAGACAAA AGTCACATGC AGCTCCCTCG GGGGATGTCA AGAACCAAGT CATTTGGTGC
    TCCTGA

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

    RefSeq XP_017210755.1
    CDS218..2683
    Translation

    Target ORF information:

    RefSeq Version XM_017355266.1
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017355266.1

    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
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATGGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AACGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTATTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACGGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCTCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATCGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTTGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGCGT CAAGGAGAAG GAGGGGAGAG
    AAGTTGGATG AGATGTTGAG TTCGCCAAAG GAACAGGTTG TAGTGATGAG GCAGCGGCCA
    GTGGATTCAG ACTCCAGAGC AGCCACTGTG AAACAGAGAC CCACAAGTCG CCGTATCACA
    CAGGCTGAGA TCATCTTTGT TAGAAAGGCA GGGTTTGCCA ATAAGCGAAT TATCTTTGGC
    TGTAGACAAA AGTCACATGC AGCTCCCTCG GGGGATGTCA AGAACCAAGT CATTTGGTGC
    TCCTGA

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

    CloneID ODa144501
    Clone ID Related Accession (Same CDS sequence) XM_021471523.1 , XM_021471524.1
    Accession Version XM_021471523.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4347bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-06-14
    Organism Danio rerio(zebrafish)
    Product SH3 and multiple ankyrin repeat domains protein 3 isoform X10
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_018394550.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 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
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATCGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AATGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTGTTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACAGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCCCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATAGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTCGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGAGA AGTTGGATGA GATGTTGAGT
    TCGCCAAAGG AACAGGTTGT AGTGATGAGG CAGCGGCCAG TGGATTCAGA CTCCAGAGCA
    GCCACTGTGA AACAGAGACC CACAAGTCGC CGTATCACAC AGGCTGAGAT CAGTTCTCTG
    TTAGAAAGGC AGGGTTTGCC AATAAGCGAA TTATCTTTGG CTGTAGACAA AAGTCACATG
    CAGCTGCCTC GGGGGATGTC AAGAACCAAG TCATTTGGTG CTCCTGAGGA TGATAGAATC
    TCAGCCCTGA TCGGAGAGCA TCGCTTTCCA AGAAGTTCCT CAATGACTGA CAGCTTTAGA
    CAAGATAGCA TCCCACCCCC TCCACAGACA GCTCCCCCAC CACCTCCGAC TCCCTATTTC
    CTTGATTCAG GGCCACCTCC ATCCTTTCTT CCACCTCCGC CCCCTTCACG TGCTGCCAAC
    CAGAGTCGCT CAAGCTTCCG CCCAGGAGCA GAGCCGAAAA TCCATGGCCC AGTCACAACA
    GATCGCCAGC GAAAAACACG CTCCATGATC ATTCTTCAGG ACACCAGCCA TTTGCCAGTG
    GAGCCTACCC CTATTACAAG ACCGCAAACG CCTACCTCTG GACCGGTTCC TCCAGAGCGT
    GGTCGTAGGC GTGGACCACC TGTGGAGAAT CCGTATGCTA ATGTAGGTCG ATTAAGTGCT
    GTCTATACTC CCACCAAACC TCAGCGTAGA AAGAGCCCAC TAGTCAAACA AGGACCAGTC
    GAGGAGGGAG CTGCTGCTCA TTCTAGCCGA GACCCTTCTC CATTGGGAGG TTCACGAATT
    CCTCACAGCA GCCGGGCGGA GCAGTTCCAA CAGCAGGTTC TCTCTGAGCG AGCTAGGATC
    ACACCTCCTG GGGCTCGACG CAGGCCTAGC GTTTTTCTGT CTGTAGAAGG GGGAGCAACA
    GAGCCACAGA CAACTCCATT ACTCTCTCAG TCTCACTCAG TGGATGAGTT GGCTGAGTTA
    CCTCCACCTG CACCAATGCT CTCTCCTGGC CCACCACCAG GGGGGACAAC TTTTATACAC
    CCTCTAACAG GTCGACCACT CGATCCTTCA TCACCTTTAG CACTTGCACT GGCTGCACGA
    GAACGTGCAC TTAGTGGCCG AAATACACCC ACCCCCACAC CTTCGCCCAC ACCTTCGCCC
    ACTCAAGGTA GAGCAGTGGA AAGGCCCGAG ACAGAAGGAG GAGCAACACC ACCTGCTCCT
    CTTGAGGCTC CTCCATCTAA TTCCTGGAGA GATGAACCAG TCAGCATCAC AGAAACGGCC
    AGCCAAGTGA CTAGTGGTAG CCCAGGGTCT GGAAGAAGCC TTGAAGAGGC GCTCGCTCCA
    CCCGGGGTGC AAAATATCCA ACCTGCGCTG ATGGATACAG AACATACCCC ACCAGCAGTC
    CCACCCACTC TACCTTCCCC TGCCCCTACT CTTTCCAATC TGACTGCTCG AAGTATGACT
    ATGAGCTCAG AGGAGGAAGC GGAGCCCTAC ACAGTGACAC TTCCCCCTGC ATTGCTCTCA
    TCCAGTGATG AGGAAACCAG AGAGGAGCTT CGGAAAATAG GCCTGGTTCC ACCGCCTCAA
    CCTTTTGCTA ATGGCCTTCT AATTAAAGAA ACATCCAAAG CCACTCTGAG CATTTCACCT
    AGCGGGTCAC GGCCATCCAT TGCTAAGACC TCCTCTGGTA AAGCAAGTGA TTCAACAGCA
    GACTCTGGGG TTGAAGACCC TCATATGGAG ACCACCAGTA CTGTTTCCAC AGTCTCCAGC
    ATGTCCACTT TGTCTTCAGA GAGCACAGAC TCCGCTCATG CAAGCAAACC ACGTTGTGGG
    GTGGGGCGTG GTCGCCCCGC CCATCTCAGG GACCCACTGC TTAAACAGTC ATCAGACAGT
    GAGCTGCTTC CACACCCACC CAGCACAGGC CCCAGCCGTC CACGCTACCT ATTCCAAAGA
    CGTTCCAAAC TGTGGGGGGA GGAGCCCCGG GCCCAGATGG GGTCATCAGA TGAAAGTCGG
    CCTGCTGCTA TGGGGGCAGA GTTGCTTAGC AAAGACACTC ATTCACTGGG TGAGGAGCCA
    CCAATGGGAG CACCACTTGA CCCTGGCAGG AGATCGCCTG TGGGAGGTGC CAGATGTGAG
    GAGAATGGAG GAGAGAGTAA ATCGTAG

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

    RefSeq XP_021327198.1
    CDS349..4695
    Translation

    Target ORF information:

    RefSeq Version XM_021471523.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X15, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021471523.1

    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
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATCGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AATGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTGTTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACAGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCCCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATAGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTCGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGAGA AGTTGGATGA GATGTTGAGT
    TCGCCAAAGG AACAGGTTGT AGTGATGAGG CAGCGGCCAG TGGATTCAGA CTCCAGAGCA
    GCCACTGTGA AACAGAGACC CACAAGTCGC CGTATCACAC AGGCTGAGAT CAGTTCTCTG
    TTAGAAAGGC AGGGTTTGCC AATAAGCGAA TTATCTTTGG CTGTAGACAA AAGTCACATG
    CAGCTGCCTC GGGGGATGTC AAGAACCAAG TCATTTGGTG CTCCTGAGGA TGATAGAATC
    TCAGCCCTGA TCGGAGAGCA TCGCTTTCCA AGAAGTTCCT CAATGACTGA CAGCTTTAGA
    CAAGATAGCA TCCCACCCCC TCCACAGACA GCTCCCCCAC CACCTCCGAC TCCCTATTTC
    CTTGATTCAG GGCCACCTCC ATCCTTTCTT CCACCTCCGC CCCCTTCACG TGCTGCCAAC
    CAGAGTCGCT CAAGCTTCCG CCCAGGAGCA GAGCCGAAAA TCCATGGCCC AGTCACAACA
    GATCGCCAGC GAAAAACACG CTCCATGATC ATTCTTCAGG ACACCAGCCA TTTGCCAGTG
    GAGCCTACCC CTATTACAAG ACCGCAAACG CCTACCTCTG GACCGGTTCC TCCAGAGCGT
    GGTCGTAGGC GTGGACCACC TGTGGAGAAT CCGTATGCTA ATGTAGGTCG ATTAAGTGCT
    GTCTATACTC CCACCAAACC TCAGCGTAGA AAGAGCCCAC TAGTCAAACA AGGACCAGTC
    GAGGAGGGAG CTGCTGCTCA TTCTAGCCGA GACCCTTCTC CATTGGGAGG TTCACGAATT
    CCTCACAGCA GCCGGGCGGA GCAGTTCCAA CAGCAGGTTC TCTCTGAGCG AGCTAGGATC
    ACACCTCCTG GGGCTCGACG CAGGCCTAGC GTTTTTCTGT CTGTAGAAGG GGGAGCAACA
    GAGCCACAGA CAACTCCATT ACTCTCTCAG TCTCACTCAG TGGATGAGTT GGCTGAGTTA
    CCTCCACCTG CACCAATGCT CTCTCCTGGC CCACCACCAG GGGGGACAAC TTTTATACAC
    CCTCTAACAG GTCGACCACT CGATCCTTCA TCACCTTTAG CACTTGCACT GGCTGCACGA
    GAACGTGCAC TTAGTGGCCG AAATACACCC ACCCCCACAC CTTCGCCCAC ACCTTCGCCC
    ACTCAAGGTA GAGCAGTGGA AAGGCCCGAG ACAGAAGGAG GAGCAACACC ACCTGCTCCT
    CTTGAGGCTC CTCCATCTAA TTCCTGGAGA GATGAACCAG TCAGCATCAC AGAAACGGCC
    AGCCAAGTGA CTAGTGGTAG CCCAGGGTCT GGAAGAAGCC TTGAAGAGGC GCTCGCTCCA
    CCCGGGGTGC AAAATATCCA ACCTGCGCTG ATGGATACAG AACATACCCC ACCAGCAGTC
    CCACCCACTC TACCTTCCCC TGCCCCTACT CTTTCCAATC TGACTGCTCG AAGTATGACT
    ATGAGCTCAG AGGAGGAAGC GGAGCCCTAC ACAGTGACAC TTCCCCCTGC ATTGCTCTCA
    TCCAGTGATG AGGAAACCAG AGAGGAGCTT CGGAAAATAG GCCTGGTTCC ACCGCCTCAA
    CCTTTTGCTA ATGGCCTTCT AATTAAAGAA ACATCCAAAG CCACTCTGAG CATTTCACCT
    AGCGGGTCAC GGCCATCCAT TGCTAAGACC TCCTCTGGTA AAGCAAGTGA TTCAACAGCA
    GACTCTGGGG TTGAAGACCC TCATATGGAG ACCACCAGTA CTGTTTCCAC AGTCTCCAGC
    ATGTCCACTT TGTCTTCAGA GAGCACAGAC TCCGCTCATG CAAGCAAACC ACGTTGTGGG
    GTGGGGCGTG GTCGCCCCGC CCATCTCAGG GACCCACTGC TTAAACAGTC ATCAGACAGT
    GAGCTGCTTC CACACCCACC CAGCACAGGC CCCAGCCGTC CACGCTACCT ATTCCAAAGA
    CGTTCCAAAC TGTGGGGGGA GGAGCCCCGG GCCCAGATGG GGTCATCAGA TGAAAGTCGG
    CCTGCTGCTA TGGGGGCAGA GTTGCTTAGC AAAGACACTC ATTCACTGGG TGAGGAGCCA
    CCAATGGGAG CACCACTTGA CCCTGGCAGG AGATCGCCTG TGGGAGGTGC CAGATGTGAG
    GAGAATGGAG GAGAGAGTAA ATCGTAG

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

    CloneID ODa144501
    Clone ID Related Accession (Same CDS sequence) XM_021471523.1 , XM_021471524.1
    Accession Version XM_021471524.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4347bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-06-14
    Organism Danio rerio(zebrafish)
    Product SH3 and multiple ankyrin repeat domains protein 3 isoform X10
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_018394550.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 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
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATCGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AATGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTGTTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACAGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCCCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATAGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTCGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGAGA AGTTGGATGA GATGTTGAGT
    TCGCCAAAGG AACAGGTTGT AGTGATGAGG CAGCGGCCAG TGGATTCAGA CTCCAGAGCA
    GCCACTGTGA AACAGAGACC CACAAGTCGC CGTATCACAC AGGCTGAGAT CAGTTCTCTG
    TTAGAAAGGC AGGGTTTGCC AATAAGCGAA TTATCTTTGG CTGTAGACAA AAGTCACATG
    CAGCTGCCTC GGGGGATGTC AAGAACCAAG TCATTTGGTG CTCCTGAGGA TGATAGAATC
    TCAGCCCTGA TCGGAGAGCA TCGCTTTCCA AGAAGTTCCT CAATGACTGA CAGCTTTAGA
    CAAGATAGCA TCCCACCCCC TCCACAGACA GCTCCCCCAC CACCTCCGAC TCCCTATTTC
    CTTGATTCAG GGCCACCTCC ATCCTTTCTT CCACCTCCGC CCCCTTCACG TGCTGCCAAC
    CAGAGTCGCT CAAGCTTCCG CCCAGGAGCA GAGCCGAAAA TCCATGGCCC AGTCACAACA
    GATCGCCAGC GAAAAACACG CTCCATGATC ATTCTTCAGG ACACCAGCCA TTTGCCAGTG
    GAGCCTACCC CTATTACAAG ACCGCAAACG CCTACCTCTG GACCGGTTCC TCCAGAGCGT
    GGTCGTAGGC GTGGACCACC TGTGGAGAAT CCGTATGCTA ATGTAGGTCG ATTAAGTGCT
    GTCTATACTC CCACCAAACC TCAGCGTAGA AAGAGCCCAC TAGTCAAACA AGGACCAGTC
    GAGGAGGGAG CTGCTGCTCA TTCTAGCCGA GACCCTTCTC CATTGGGAGG TTCACGAATT
    CCTCACAGCA GCCGGGCGGA GCAGTTCCAA CAGCAGGTTC TCTCTGAGCG AGCTAGGATC
    ACACCTCCTG GGGCTCGACG CAGGCCTAGC GTTTTTCTGT CTGTAGAAGG GGGAGCAACA
    GAGCCACAGA CAACTCCATT ACTCTCTCAG TCTCACTCAG TGGATGAGTT GGCTGAGTTA
    CCTCCACCTG CACCAATGCT CTCTCCTGGC CCACCACCAG GGGGGACAAC TTTTATACAC
    CCTCTAACAG GTCGACCACT CGATCCTTCA TCACCTTTAG CACTTGCACT GGCTGCACGA
    GAACGTGCAC TTAGTGGCCG AAATACACCC ACCCCCACAC CTTCGCCCAC ACCTTCGCCC
    ACTCAAGGTA GAGCAGTGGA AAGGCCCGAG ACAGAAGGAG GAGCAACACC ACCTGCTCCT
    CTTGAGGCTC CTCCATCTAA TTCCTGGAGA GATGAACCAG TCAGCATCAC AGAAACGGCC
    AGCCAAGTGA CTAGTGGTAG CCCAGGGTCT GGAAGAAGCC TTGAAGAGGC GCTCGCTCCA
    CCCGGGGTGC AAAATATCCA ACCTGCGCTG ATGGATACAG AACATACCCC ACCAGCAGTC
    CCACCCACTC TACCTTCCCC TGCCCCTACT CTTTCCAATC TGACTGCTCG AAGTATGACT
    ATGAGCTCAG AGGAGGAAGC GGAGCCCTAC ACAGTGACAC TTCCCCCTGC ATTGCTCTCA
    TCCAGTGATG AGGAAACCAG AGAGGAGCTT CGGAAAATAG GCCTGGTTCC ACCGCCTCAA
    CCTTTTGCTA ATGGCCTTCT AATTAAAGAA ACATCCAAAG CCACTCTGAG CATTTCACCT
    AGCGGGTCAC GGCCATCCAT TGCTAAGACC TCCTCTGGTA AAGCAAGTGA TTCAACAGCA
    GACTCTGGGG TTGAAGACCC TCATATGGAG ACCACCAGTA CTGTTTCCAC AGTCTCCAGC
    ATGTCCACTT TGTCTTCAGA GAGCACAGAC TCCGCTCATG CAAGCAAACC ACGTTGTGGG
    GTGGGGCGTG GTCGCCCCGC CCATCTCAGG GACCCACTGC TTAAACAGTC ATCAGACAGT
    GAGCTGCTTC CACACCCACC CAGCACAGGC CCCAGCCGTC CACGCTACCT ATTCCAAAGA
    CGTTCCAAAC TGTGGGGGGA GGAGCCCCGG GCCCAGATGG GGTCATCAGA TGAAAGTCGG
    CCTGCTGCTA TGGGGGCAGA GTTGCTTAGC AAAGACACTC ATTCACTGGG TGAGGAGCCA
    CCAATGGGAG CACCACTTGA CCCTGGCAGG AGATCGCCTG TGGGAGGTGC CAGATGTGAG
    GAGAATGGAG GAGAGAGTAA ATCGTAG

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

    RefSeq XP_021327199.1
    CDS349..4695
    Translation

    Target ORF information:

    RefSeq Version XM_021471524.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X16, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021471524.1

    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
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATCGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AATGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTGTTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACAGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCCCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATAGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTCGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGAGA AGTTGGATGA GATGTTGAGT
    TCGCCAAAGG AACAGGTTGT AGTGATGAGG CAGCGGCCAG TGGATTCAGA CTCCAGAGCA
    GCCACTGTGA AACAGAGACC CACAAGTCGC CGTATCACAC AGGCTGAGAT CAGTTCTCTG
    TTAGAAAGGC AGGGTTTGCC AATAAGCGAA TTATCTTTGG CTGTAGACAA AAGTCACATG
    CAGCTGCCTC GGGGGATGTC AAGAACCAAG TCATTTGGTG CTCCTGAGGA TGATAGAATC
    TCAGCCCTGA TCGGAGAGCA TCGCTTTCCA AGAAGTTCCT CAATGACTGA CAGCTTTAGA
    CAAGATAGCA TCCCACCCCC TCCACAGACA GCTCCCCCAC CACCTCCGAC TCCCTATTTC
    CTTGATTCAG GGCCACCTCC ATCCTTTCTT CCACCTCCGC CCCCTTCACG TGCTGCCAAC
    CAGAGTCGCT CAAGCTTCCG CCCAGGAGCA GAGCCGAAAA TCCATGGCCC AGTCACAACA
    GATCGCCAGC GAAAAACACG CTCCATGATC ATTCTTCAGG ACACCAGCCA TTTGCCAGTG
    GAGCCTACCC CTATTACAAG ACCGCAAACG CCTACCTCTG GACCGGTTCC TCCAGAGCGT
    GGTCGTAGGC GTGGACCACC TGTGGAGAAT CCGTATGCTA ATGTAGGTCG ATTAAGTGCT
    GTCTATACTC CCACCAAACC TCAGCGTAGA AAGAGCCCAC TAGTCAAACA AGGACCAGTC
    GAGGAGGGAG CTGCTGCTCA TTCTAGCCGA GACCCTTCTC CATTGGGAGG TTCACGAATT
    CCTCACAGCA GCCGGGCGGA GCAGTTCCAA CAGCAGGTTC TCTCTGAGCG AGCTAGGATC
    ACACCTCCTG GGGCTCGACG CAGGCCTAGC GTTTTTCTGT CTGTAGAAGG GGGAGCAACA
    GAGCCACAGA CAACTCCATT ACTCTCTCAG TCTCACTCAG TGGATGAGTT GGCTGAGTTA
    CCTCCACCTG CACCAATGCT CTCTCCTGGC CCACCACCAG GGGGGACAAC TTTTATACAC
    CCTCTAACAG GTCGACCACT CGATCCTTCA TCACCTTTAG CACTTGCACT GGCTGCACGA
    GAACGTGCAC TTAGTGGCCG AAATACACCC ACCCCCACAC CTTCGCCCAC ACCTTCGCCC
    ACTCAAGGTA GAGCAGTGGA AAGGCCCGAG ACAGAAGGAG GAGCAACACC ACCTGCTCCT
    CTTGAGGCTC CTCCATCTAA TTCCTGGAGA GATGAACCAG TCAGCATCAC AGAAACGGCC
    AGCCAAGTGA CTAGTGGTAG CCCAGGGTCT GGAAGAAGCC TTGAAGAGGC GCTCGCTCCA
    CCCGGGGTGC AAAATATCCA ACCTGCGCTG ATGGATACAG AACATACCCC ACCAGCAGTC
    CCACCCACTC TACCTTCCCC TGCCCCTACT CTTTCCAATC TGACTGCTCG AAGTATGACT
    ATGAGCTCAG AGGAGGAAGC GGAGCCCTAC ACAGTGACAC TTCCCCCTGC ATTGCTCTCA
    TCCAGTGATG AGGAAACCAG AGAGGAGCTT CGGAAAATAG GCCTGGTTCC ACCGCCTCAA
    CCTTTTGCTA ATGGCCTTCT AATTAAAGAA ACATCCAAAG CCACTCTGAG CATTTCACCT
    AGCGGGTCAC GGCCATCCAT TGCTAAGACC TCCTCTGGTA AAGCAAGTGA TTCAACAGCA
    GACTCTGGGG TTGAAGACCC TCATATGGAG ACCACCAGTA CTGTTTCCAC AGTCTCCAGC
    ATGTCCACTT TGTCTTCAGA GAGCACAGAC TCCGCTCATG CAAGCAAACC ACGTTGTGGG
    GTGGGGCGTG GTCGCCCCGC CCATCTCAGG GACCCACTGC TTAAACAGTC ATCAGACAGT
    GAGCTGCTTC CACACCCACC CAGCACAGGC CCCAGCCGTC CACGCTACCT ATTCCAAAGA
    CGTTCCAAAC TGTGGGGGGA GGAGCCCCGG GCCCAGATGG GGTCATCAGA TGAAAGTCGG
    CCTGCTGCTA TGGGGGCAGA GTTGCTTAGC AAAGACACTC ATTCACTGGG TGAGGAGCCA
    CCAATGGGAG CACCACTTGA CCCTGGCAGG AGATCGCCTG TGGGAGGTGC CAGATGTGAG
    GAGAATGGAG GAGAGAGTAA ATCGTAG

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

    CloneID ODa144497
    Clone ID Related Accession (Same CDS sequence) XM_021471519.1 , XM_021471517.1 , XM_021471518.1
    Accession Version XM_021471519.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4911bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-06-14
    Organism Danio rerio(zebrafish)
    Product SH3 and multiple ankyrin repeat domains protein 3 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_018394550.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 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
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATCGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AATGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTGTTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACAGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCCCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATAGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTCGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGAGA AGTTGGATGA GATGTTGAGT
    TCGCCAAAGG AACAGGTTGT AGTGATGAGG CAGCGGCCAG TGGATTCAGA CTCCAGAGCA
    GCCACTGTGA AACAGAGACC CACAAGTCGC CGTATCACAC AGGCTGAGAT CAGTTCTCTG
    TTAGAAAGGC AGGGTTTGCC AATAAGCGAA TTATCTTTGG CTGTAGACAA AAGTCACATG
    CAGCTGCCTC GGGGGATGTC AAGAACCAAG TCATTTGGTG CTCCTGAGGA TGATAGAATC
    TCAGCCCTGA TCGGAGAGCA TCGCTTTCCA AGAAGTTCCT CAATGACTGA CAGCTTTAGA
    CAAGATAGCA TCCCACCCCC TCCACAGACA GCTCCCCCAC CACCTCCGAC TCCCTATTTC
    CTTGATTCAG GGCCACCTCC ATCCTTTCTT CCACCTCCGC CCCCTTCACG TGCTGCCAAC
    CAGAGTCGCT CAAGCTTCCG CCCAGGAGCA GAGCCGAAAA TCCATGGCCC AGTCACAACA
    GATCGCCAGC GAAAAACACG CTCCATGATC ATTCTTCAGG ACACCAGCCA TTTGCCAGTG
    GAGCCTACCC CTATTACAAG ACCGCAAACG CCTACCTCTG GACCGGTTCC TCCAGAGCGT
    GGTCGTAGGC GTGGACCACC TGTGGAGAAT CCGTATGCTA ATGTAGGTCG ATTAAGTGCT
    GTCTATACTC CCACCAAACC TCAGCGTAGA AAGAGCCCAC TAGTCAAACA AGGACCAGTC
    GAGGAGGGAG CTGCTGCTCA TTCTAGCCGA GACCCTTCTC CATTGGGAGG TTCACGAATT
    CCTCACAGCA GCCGGGCGGA GCAGTTCCAA CAGCAGGTTC TCTCTGAGCG AGCTAGGATC
    ACACCTCCTG GGGCTCGACG CAGGCCTAGC GTTTTTCTGT CTGTAGAAGG GGGAGCAACA
    GAGCCACAGA CAACTCCATT ACTCTCTCAG TCTCACTCAG TGGATGAGTT GGCTGAGTTA
    CCTCCACCTG CACCAATGCT CTCTCCTGGC CCACCACCAG GGGGGACAAC TTTTATACAC
    CCTCTAACAG GTCGACCACT CGATCCTTCA TCACCTTTAG CACTTGCACT GGCTGCACGA
    GAACGTGCAC TTAGTGGCCG AAATACACCC ACCCCCACAC CTTCGCCCAC ACCTTCGCCC
    ACTCAAGGTA GAGCAGTGGA AAGGCCCGAG ACAGAAGGAG GAGCAACACC ACCTGCTCCT
    CTTGAGGCTC CTCCATCTAA TTCCTGGAGA GATGAACCAG TCAGCATCAC AGAAACGGCC
    AGCCAAGTGA CTAGTGGTAG CCCAGGGTCT GGAAGAAGCC TTGAAGAGGC GCTCGCTCCA
    CCCGGGGTGC AAAATATCCA ACCTGCGCTG ATGGATACAG AACATACCCC ACCAGCAGTC
    CCACCCACTC TACCTTCCCC TGCCCCTACT CTTTCCAATC TGACTGCTCG AAGTATGACT
    ATGAGCTCAG AGGAGGAAGC GGAGCCCTAC ACAGTGACAC TTCCCCCTGC ATTGCTCTCA
    TCCAGTGATG AGGAAACCAG AGAGGAGCTT CGGAAAATAG GCCTGGTTCC ACCGCCTCAA
    CCTTTTGCTA ATGGCCTTCT AATTAAAGAA ACATCCAAAG CCACTCTGAG CATTTCACCT
    AGCGGGTCAC GGCCATCCAT TGCTAAGACC TCCTCTGGTA AAGCAAGTGA TTCAACAGCA
    GACTCTGGGG TTGAAGACCC TCATATGGAG ACCACCAGTA CTGTTTCCAC AGTCTCCAGC
    ATGTCCACTT TGTCTTCAGA GAGCACAGAC TCCGCTCATG CAAGCAAACC ACGTTGTGGG
    GTGGGGCGTG GTCGCCCCGC CCATCTCAGG GACCCACTGC TTAAACAGTC ATCAGACAGT
    GAGCTGCTTC CACACCCACC CAGCACAGGC CCCAGCCGTC CACGCTACCT ATTCCAAAGA
    CGTTCCAAAC TGTGGGGGGA GGAGCCCCGG GCCCAGATGG GGTCATCAGA TGAAAGTCGG
    CCTGCTGCTA TGGGGGCAGA GTTGCTTAGC AAAGACACTC ATTCACTGGG TGAGGAGCCA
    CCAATGGGAG CACCACTTGA CCCTGGCAGG AGATCGCCTG TGGGAGGTGC CAGATGTGAG
    GAGAATGGAG GAGAGAGTAA ATCACTTTTT AGTAGTTTAG GAGAGCTTCA CACCATCTCA
    CAAAGGAGTT ACGGCACCAC CTTTACAATC CGACCTGGCA GCCGATACCC AGTGACCCGT
    AGGACTCCAA GCCCTGGAGC CACCCCAGAA CGGAGTGAAC CATTGGGGCC TGTCCGTACA
    TTCGGCCCAC ATCACCACCA TCATACAATC CTCAAGTCTT CTAGCCTAAG TTTGCCACAG
    GAGCCCAAGG AGGTTCGTTT TGTCATGAGG AGTGCTAGTG CTCGAGCCCG CAGCCGCTCT
    CCATCCCCTT CTCCATGTGC CTCCCCCTGC CCCTCGCCGG TACTGGGAGC CCCTCTCCTG
    GCCCTGCGAC CGTTCAGACA GCGCCCCCTA GCACTGTGGA GTAAGTATGA TGTGGGAGAG
    TGGCTAGAGA GTGTGGGACT AGGGGAACAT CGTGCACGCT TTTTAGAGCA TGAGATTGAA
    GGAGCACACC TGCCTGCCTT GACCAAGGAC GATCTGGCAG AGTTAGGGGT GACACGGGTT
    GGACACAGAA TGAACATTGA ACGTGCACTA AAGCAGTTGC TAGAAAGTTG A

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

    RefSeq XP_021327194.1
    CDS307..5217
    Translation

    Target ORF information:

    RefSeq Version XM_021471519.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X11, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021471519.1

    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
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATCGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AATGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTGTTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACAGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCCCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATAGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTCGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGAGA AGTTGGATGA GATGTTGAGT
    TCGCCAAAGG AACAGGTTGT AGTGATGAGG CAGCGGCCAG TGGATTCAGA CTCCAGAGCA
    GCCACTGTGA AACAGAGACC CACAAGTCGC CGTATCACAC AGGCTGAGAT CAGTTCTCTG
    TTAGAAAGGC AGGGTTTGCC AATAAGCGAA TTATCTTTGG CTGTAGACAA AAGTCACATG
    CAGCTGCCTC GGGGGATGTC AAGAACCAAG TCATTTGGTG CTCCTGAGGA TGATAGAATC
    TCAGCCCTGA TCGGAGAGCA TCGCTTTCCA AGAAGTTCCT CAATGACTGA CAGCTTTAGA
    CAAGATAGCA TCCCACCCCC TCCACAGACA GCTCCCCCAC CACCTCCGAC TCCCTATTTC
    CTTGATTCAG GGCCACCTCC ATCCTTTCTT CCACCTCCGC CCCCTTCACG TGCTGCCAAC
    CAGAGTCGCT CAAGCTTCCG CCCAGGAGCA GAGCCGAAAA TCCATGGCCC AGTCACAACA
    GATCGCCAGC GAAAAACACG CTCCATGATC ATTCTTCAGG ACACCAGCCA TTTGCCAGTG
    GAGCCTACCC CTATTACAAG ACCGCAAACG CCTACCTCTG GACCGGTTCC TCCAGAGCGT
    GGTCGTAGGC GTGGACCACC TGTGGAGAAT CCGTATGCTA ATGTAGGTCG ATTAAGTGCT
    GTCTATACTC CCACCAAACC TCAGCGTAGA AAGAGCCCAC TAGTCAAACA AGGACCAGTC
    GAGGAGGGAG CTGCTGCTCA TTCTAGCCGA GACCCTTCTC CATTGGGAGG TTCACGAATT
    CCTCACAGCA GCCGGGCGGA GCAGTTCCAA CAGCAGGTTC TCTCTGAGCG AGCTAGGATC
    ACACCTCCTG GGGCTCGACG CAGGCCTAGC GTTTTTCTGT CTGTAGAAGG GGGAGCAACA
    GAGCCACAGA CAACTCCATT ACTCTCTCAG TCTCACTCAG TGGATGAGTT GGCTGAGTTA
    CCTCCACCTG CACCAATGCT CTCTCCTGGC CCACCACCAG GGGGGACAAC TTTTATACAC
    CCTCTAACAG GTCGACCACT CGATCCTTCA TCACCTTTAG CACTTGCACT GGCTGCACGA
    GAACGTGCAC TTAGTGGCCG AAATACACCC ACCCCCACAC CTTCGCCCAC ACCTTCGCCC
    ACTCAAGGTA GAGCAGTGGA AAGGCCCGAG ACAGAAGGAG GAGCAACACC ACCTGCTCCT
    CTTGAGGCTC CTCCATCTAA TTCCTGGAGA GATGAACCAG TCAGCATCAC AGAAACGGCC
    AGCCAAGTGA CTAGTGGTAG CCCAGGGTCT GGAAGAAGCC TTGAAGAGGC GCTCGCTCCA
    CCCGGGGTGC AAAATATCCA ACCTGCGCTG ATGGATACAG AACATACCCC ACCAGCAGTC
    CCACCCACTC TACCTTCCCC TGCCCCTACT CTTTCCAATC TGACTGCTCG AAGTATGACT
    ATGAGCTCAG AGGAGGAAGC GGAGCCCTAC ACAGTGACAC TTCCCCCTGC ATTGCTCTCA
    TCCAGTGATG AGGAAACCAG AGAGGAGCTT CGGAAAATAG GCCTGGTTCC ACCGCCTCAA
    CCTTTTGCTA ATGGCCTTCT AATTAAAGAA ACATCCAAAG CCACTCTGAG CATTTCACCT
    AGCGGGTCAC GGCCATCCAT TGCTAAGACC TCCTCTGGTA AAGCAAGTGA TTCAACAGCA
    GACTCTGGGG TTGAAGACCC TCATATGGAG ACCACCAGTA CTGTTTCCAC AGTCTCCAGC
    ATGTCCACTT TGTCTTCAGA GAGCACAGAC TCCGCTCATG CAAGCAAACC ACGTTGTGGG
    GTGGGGCGTG GTCGCCCCGC CCATCTCAGG GACCCACTGC TTAAACAGTC ATCAGACAGT
    GAGCTGCTTC CACACCCACC CAGCACAGGC CCCAGCCGTC CACGCTACCT ATTCCAAAGA
    CGTTCCAAAC TGTGGGGGGA GGAGCCCCGG GCCCAGATGG GGTCATCAGA TGAAAGTCGG
    CCTGCTGCTA TGGGGGCAGA GTTGCTTAGC AAAGACACTC ATTCACTGGG TGAGGAGCCA
    CCAATGGGAG CACCACTTGA CCCTGGCAGG AGATCGCCTG TGGGAGGTGC CAGATGTGAG
    GAGAATGGAG GAGAGAGTAA ATCACTTTTT AGTAGTTTAG GAGAGCTTCA CACCATCTCA
    CAAAGGAGTT ACGGCACCAC CTTTACAATC CGACCTGGCA GCCGATACCC AGTGACCCGT
    AGGACTCCAA GCCCTGGAGC CACCCCAGAA CGGAGTGAAC CATTGGGGCC TGTCCGTACA
    TTCGGCCCAC ATCACCACCA TCATACAATC CTCAAGTCTT CTAGCCTAAG TTTGCCACAG
    GAGCCCAAGG AGGTTCGTTT TGTCATGAGG AGTGCTAGTG CTCGAGCCCG CAGCCGCTCT
    CCATCCCCTT CTCCATGTGC CTCCCCCTGC CCCTCGCCGG TACTGGGAGC CCCTCTCCTG
    GCCCTGCGAC CGTTCAGACA GCGCCCCCTA GCACTGTGGA GTAAGTATGA TGTGGGAGAG
    TGGCTAGAGA GTGTGGGACT AGGGGAACAT CGTGCACGCT TTTTAGAGCA TGAGATTGAA
    GGAGCACACC TGCCTGCCTT GACCAAGGAC GATCTGGCAG AGTTAGGGGT GACACGGGTT
    GGACACAGAA TGAACATTGA ACGTGCACTA AAGCAGTTGC TAGAAAGTTG A

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

    CloneID ODa144497
    Clone ID Related Accession (Same CDS sequence) XM_021471519.1 , XM_021471517.1 , XM_021471518.1
    Accession Version XM_021471517.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4911bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-06-14
    Organism Danio rerio(zebrafish)
    Product SH3 and multiple ankyrin repeat domains protein 3 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_018394550.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 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
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATCGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AATGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTGTTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACAGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCCCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATAGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTCGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGAGA AGTTGGATGA GATGTTGAGT
    TCGCCAAAGG AACAGGTTGT AGTGATGAGG CAGCGGCCAG TGGATTCAGA CTCCAGAGCA
    GCCACTGTGA AACAGAGACC CACAAGTCGC CGTATCACAC AGGCTGAGAT CAGTTCTCTG
    TTAGAAAGGC AGGGTTTGCC AATAAGCGAA TTATCTTTGG CTGTAGACAA AAGTCACATG
    CAGCTGCCTC GGGGGATGTC AAGAACCAAG TCATTTGGTG CTCCTGAGGA TGATAGAATC
    TCAGCCCTGA TCGGAGAGCA TCGCTTTCCA AGAAGTTCCT CAATGACTGA CAGCTTTAGA
    CAAGATAGCA TCCCACCCCC TCCACAGACA GCTCCCCCAC CACCTCCGAC TCCCTATTTC
    CTTGATTCAG GGCCACCTCC ATCCTTTCTT CCACCTCCGC CCCCTTCACG TGCTGCCAAC
    CAGAGTCGCT CAAGCTTCCG CCCAGGAGCA GAGCCGAAAA TCCATGGCCC AGTCACAACA
    GATCGCCAGC GAAAAACACG CTCCATGATC ATTCTTCAGG ACACCAGCCA TTTGCCAGTG
    GAGCCTACCC CTATTACAAG ACCGCAAACG CCTACCTCTG GACCGGTTCC TCCAGAGCGT
    GGTCGTAGGC GTGGACCACC TGTGGAGAAT CCGTATGCTA ATGTAGGTCG ATTAAGTGCT
    GTCTATACTC CCACCAAACC TCAGCGTAGA AAGAGCCCAC TAGTCAAACA AGGACCAGTC
    GAGGAGGGAG CTGCTGCTCA TTCTAGCCGA GACCCTTCTC CATTGGGAGG TTCACGAATT
    CCTCACAGCA GCCGGGCGGA GCAGTTCCAA CAGCAGGTTC TCTCTGAGCG AGCTAGGATC
    ACACCTCCTG GGGCTCGACG CAGGCCTAGC GTTTTTCTGT CTGTAGAAGG GGGAGCAACA
    GAGCCACAGA CAACTCCATT ACTCTCTCAG TCTCACTCAG TGGATGAGTT GGCTGAGTTA
    CCTCCACCTG CACCAATGCT CTCTCCTGGC CCACCACCAG GGGGGACAAC TTTTATACAC
    CCTCTAACAG GTCGACCACT CGATCCTTCA TCACCTTTAG CACTTGCACT GGCTGCACGA
    GAACGTGCAC TTAGTGGCCG AAATACACCC ACCCCCACAC CTTCGCCCAC ACCTTCGCCC
    ACTCAAGGTA GAGCAGTGGA AAGGCCCGAG ACAGAAGGAG GAGCAACACC ACCTGCTCCT
    CTTGAGGCTC CTCCATCTAA TTCCTGGAGA GATGAACCAG TCAGCATCAC AGAAACGGCC
    AGCCAAGTGA CTAGTGGTAG CCCAGGGTCT GGAAGAAGCC TTGAAGAGGC GCTCGCTCCA
    CCCGGGGTGC AAAATATCCA ACCTGCGCTG ATGGATACAG AACATACCCC ACCAGCAGTC
    CCACCCACTC TACCTTCCCC TGCCCCTACT CTTTCCAATC TGACTGCTCG AAGTATGACT
    ATGAGCTCAG AGGAGGAAGC GGAGCCCTAC ACAGTGACAC TTCCCCCTGC ATTGCTCTCA
    TCCAGTGATG AGGAAACCAG AGAGGAGCTT CGGAAAATAG GCCTGGTTCC ACCGCCTCAA
    CCTTTTGCTA ATGGCCTTCT AATTAAAGAA ACATCCAAAG CCACTCTGAG CATTTCACCT
    AGCGGGTCAC GGCCATCCAT TGCTAAGACC TCCTCTGGTA AAGCAAGTGA TTCAACAGCA
    GACTCTGGGG TTGAAGACCC TCATATGGAG ACCACCAGTA CTGTTTCCAC AGTCTCCAGC
    ATGTCCACTT TGTCTTCAGA GAGCACAGAC TCCGCTCATG CAAGCAAACC ACGTTGTGGG
    GTGGGGCGTG GTCGCCCCGC CCATCTCAGG GACCCACTGC TTAAACAGTC ATCAGACAGT
    GAGCTGCTTC CACACCCACC CAGCACAGGC CCCAGCCGTC CACGCTACCT ATTCCAAAGA
    CGTTCCAAAC TGTGGGGGGA GGAGCCCCGG GCCCAGATGG GGTCATCAGA TGAAAGTCGG
    CCTGCTGCTA TGGGGGCAGA GTTGCTTAGC AAAGACACTC ATTCACTGGG TGAGGAGCCA
    CCAATGGGAG CACCACTTGA CCCTGGCAGG AGATCGCCTG TGGGAGGTGC CAGATGTGAG
    GAGAATGGAG GAGAGAGTAA ATCACTTTTT AGTAGTTTAG GAGAGCTTCA CACCATCTCA
    CAAAGGAGTT ACGGCACCAC CTTTACAATC CGACCTGGCA GCCGATACCC AGTGACCCGT
    AGGACTCCAA GCCCTGGAGC CACCCCAGAA CGGAGTGAAC CATTGGGGCC TGTCCGTACA
    TTCGGCCCAC ATCACCACCA TCATACAATC CTCAAGTCTT CTAGCCTAAG TTTGCCACAG
    GAGCCCAAGG AGGTTCGTTT TGTCATGAGG AGTGCTAGTG CTCGAGCCCG CAGCCGCTCT
    CCATCCCCTT CTCCATGTGC CTCCCCCTGC CCCTCGCCGG TACTGGGAGC CCCTCTCCTG
    GCCCTGCGAC CGTTCAGACA GCGCCCCCTA GCACTGTGGA GTAAGTATGA TGTGGGAGAG
    TGGCTAGAGA GTGTGGGACT AGGGGAACAT CGTGCACGCT TTTTAGAGCA TGAGATTGAA
    GGAGCACACC TGCCTGCCTT GACCAAGGAC GATCTGGCAG AGTTAGGGGT GACACGGGTT
    GGACACAGAA TGAACATTGA ACGTGCACTA AAGCAGTTGC TAGAAAGTTG A

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

    RefSeq XP_021327192.1
    CDS348..5258
    Translation

    Target ORF information:

    RefSeq Version XM_021471517.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021471517.1

    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
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATCGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AATGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTGTTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACAGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCCCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATAGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTCGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGAGA AGTTGGATGA GATGTTGAGT
    TCGCCAAAGG AACAGGTTGT AGTGATGAGG CAGCGGCCAG TGGATTCAGA CTCCAGAGCA
    GCCACTGTGA AACAGAGACC CACAAGTCGC CGTATCACAC AGGCTGAGAT CAGTTCTCTG
    TTAGAAAGGC AGGGTTTGCC AATAAGCGAA TTATCTTTGG CTGTAGACAA AAGTCACATG
    CAGCTGCCTC GGGGGATGTC AAGAACCAAG TCATTTGGTG CTCCTGAGGA TGATAGAATC
    TCAGCCCTGA TCGGAGAGCA TCGCTTTCCA AGAAGTTCCT CAATGACTGA CAGCTTTAGA
    CAAGATAGCA TCCCACCCCC TCCACAGACA GCTCCCCCAC CACCTCCGAC TCCCTATTTC
    CTTGATTCAG GGCCACCTCC ATCCTTTCTT CCACCTCCGC CCCCTTCACG TGCTGCCAAC
    CAGAGTCGCT CAAGCTTCCG CCCAGGAGCA GAGCCGAAAA TCCATGGCCC AGTCACAACA
    GATCGCCAGC GAAAAACACG CTCCATGATC ATTCTTCAGG ACACCAGCCA TTTGCCAGTG
    GAGCCTACCC CTATTACAAG ACCGCAAACG CCTACCTCTG GACCGGTTCC TCCAGAGCGT
    GGTCGTAGGC GTGGACCACC TGTGGAGAAT CCGTATGCTA ATGTAGGTCG ATTAAGTGCT
    GTCTATACTC CCACCAAACC TCAGCGTAGA AAGAGCCCAC TAGTCAAACA AGGACCAGTC
    GAGGAGGGAG CTGCTGCTCA TTCTAGCCGA GACCCTTCTC CATTGGGAGG TTCACGAATT
    CCTCACAGCA GCCGGGCGGA GCAGTTCCAA CAGCAGGTTC TCTCTGAGCG AGCTAGGATC
    ACACCTCCTG GGGCTCGACG CAGGCCTAGC GTTTTTCTGT CTGTAGAAGG GGGAGCAACA
    GAGCCACAGA CAACTCCATT ACTCTCTCAG TCTCACTCAG TGGATGAGTT GGCTGAGTTA
    CCTCCACCTG CACCAATGCT CTCTCCTGGC CCACCACCAG GGGGGACAAC TTTTATACAC
    CCTCTAACAG GTCGACCACT CGATCCTTCA TCACCTTTAG CACTTGCACT GGCTGCACGA
    GAACGTGCAC TTAGTGGCCG AAATACACCC ACCCCCACAC CTTCGCCCAC ACCTTCGCCC
    ACTCAAGGTA GAGCAGTGGA AAGGCCCGAG ACAGAAGGAG GAGCAACACC ACCTGCTCCT
    CTTGAGGCTC CTCCATCTAA TTCCTGGAGA GATGAACCAG TCAGCATCAC AGAAACGGCC
    AGCCAAGTGA CTAGTGGTAG CCCAGGGTCT GGAAGAAGCC TTGAAGAGGC GCTCGCTCCA
    CCCGGGGTGC AAAATATCCA ACCTGCGCTG ATGGATACAG AACATACCCC ACCAGCAGTC
    CCACCCACTC TACCTTCCCC TGCCCCTACT CTTTCCAATC TGACTGCTCG AAGTATGACT
    ATGAGCTCAG AGGAGGAAGC GGAGCCCTAC ACAGTGACAC TTCCCCCTGC ATTGCTCTCA
    TCCAGTGATG AGGAAACCAG AGAGGAGCTT CGGAAAATAG GCCTGGTTCC ACCGCCTCAA
    CCTTTTGCTA ATGGCCTTCT AATTAAAGAA ACATCCAAAG CCACTCTGAG CATTTCACCT
    AGCGGGTCAC GGCCATCCAT TGCTAAGACC TCCTCTGGTA AAGCAAGTGA TTCAACAGCA
    GACTCTGGGG TTGAAGACCC TCATATGGAG ACCACCAGTA CTGTTTCCAC AGTCTCCAGC
    ATGTCCACTT TGTCTTCAGA GAGCACAGAC TCCGCTCATG CAAGCAAACC ACGTTGTGGG
    GTGGGGCGTG GTCGCCCCGC CCATCTCAGG GACCCACTGC TTAAACAGTC ATCAGACAGT
    GAGCTGCTTC CACACCCACC CAGCACAGGC CCCAGCCGTC CACGCTACCT ATTCCAAAGA
    CGTTCCAAAC TGTGGGGGGA GGAGCCCCGG GCCCAGATGG GGTCATCAGA TGAAAGTCGG
    CCTGCTGCTA TGGGGGCAGA GTTGCTTAGC AAAGACACTC ATTCACTGGG TGAGGAGCCA
    CCAATGGGAG CACCACTTGA CCCTGGCAGG AGATCGCCTG TGGGAGGTGC CAGATGTGAG
    GAGAATGGAG GAGAGAGTAA ATCACTTTTT AGTAGTTTAG GAGAGCTTCA CACCATCTCA
    CAAAGGAGTT ACGGCACCAC CTTTACAATC CGACCTGGCA GCCGATACCC AGTGACCCGT
    AGGACTCCAA GCCCTGGAGC CACCCCAGAA CGGAGTGAAC CATTGGGGCC TGTCCGTACA
    TTCGGCCCAC ATCACCACCA TCATACAATC CTCAAGTCTT CTAGCCTAAG TTTGCCACAG
    GAGCCCAAGG AGGTTCGTTT TGTCATGAGG AGTGCTAGTG CTCGAGCCCG CAGCCGCTCT
    CCATCCCCTT CTCCATGTGC CTCCCCCTGC CCCTCGCCGG TACTGGGAGC CCCTCTCCTG
    GCCCTGCGAC CGTTCAGACA GCGCCCCCTA GCACTGTGGA GTAAGTATGA TGTGGGAGAG
    TGGCTAGAGA GTGTGGGACT AGGGGAACAT CGTGCACGCT TTTTAGAGCA TGAGATTGAA
    GGAGCACACC TGCCTGCCTT GACCAAGGAC GATCTGGCAG AGTTAGGGGT GACACGGGTT
    GGACACAGAA TGAACATTGA ACGTGCACTA AAGCAGTTGC TAGAAAGTTG A

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

    CloneID ODa144497
    Clone ID Related Accession (Same CDS sequence) XM_021471519.1 , XM_021471517.1 , XM_021471518.1
    Accession Version XM_021471518.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4911bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-06-14
    Organism Danio rerio(zebrafish)
    Product SH3 and multiple ankyrin repeat domains protein 3 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_018394550.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 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
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATCGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AATGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTGTTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACAGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCCCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATAGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTCGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGAGA AGTTGGATGA GATGTTGAGT
    TCGCCAAAGG AACAGGTTGT AGTGATGAGG CAGCGGCCAG TGGATTCAGA CTCCAGAGCA
    GCCACTGTGA AACAGAGACC CACAAGTCGC CGTATCACAC AGGCTGAGAT CAGTTCTCTG
    TTAGAAAGGC AGGGTTTGCC AATAAGCGAA TTATCTTTGG CTGTAGACAA AAGTCACATG
    CAGCTGCCTC GGGGGATGTC AAGAACCAAG TCATTTGGTG CTCCTGAGGA TGATAGAATC
    TCAGCCCTGA TCGGAGAGCA TCGCTTTCCA AGAAGTTCCT CAATGACTGA CAGCTTTAGA
    CAAGATAGCA TCCCACCCCC TCCACAGACA GCTCCCCCAC CACCTCCGAC TCCCTATTTC
    CTTGATTCAG GGCCACCTCC ATCCTTTCTT CCACCTCCGC CCCCTTCACG TGCTGCCAAC
    CAGAGTCGCT CAAGCTTCCG CCCAGGAGCA GAGCCGAAAA TCCATGGCCC AGTCACAACA
    GATCGCCAGC GAAAAACACG CTCCATGATC ATTCTTCAGG ACACCAGCCA TTTGCCAGTG
    GAGCCTACCC CTATTACAAG ACCGCAAACG CCTACCTCTG GACCGGTTCC TCCAGAGCGT
    GGTCGTAGGC GTGGACCACC TGTGGAGAAT CCGTATGCTA ATGTAGGTCG ATTAAGTGCT
    GTCTATACTC CCACCAAACC TCAGCGTAGA AAGAGCCCAC TAGTCAAACA AGGACCAGTC
    GAGGAGGGAG CTGCTGCTCA TTCTAGCCGA GACCCTTCTC CATTGGGAGG TTCACGAATT
    CCTCACAGCA GCCGGGCGGA GCAGTTCCAA CAGCAGGTTC TCTCTGAGCG AGCTAGGATC
    ACACCTCCTG GGGCTCGACG CAGGCCTAGC GTTTTTCTGT CTGTAGAAGG GGGAGCAACA
    GAGCCACAGA CAACTCCATT ACTCTCTCAG TCTCACTCAG TGGATGAGTT GGCTGAGTTA
    CCTCCACCTG CACCAATGCT CTCTCCTGGC CCACCACCAG GGGGGACAAC TTTTATACAC
    CCTCTAACAG GTCGACCACT CGATCCTTCA TCACCTTTAG CACTTGCACT GGCTGCACGA
    GAACGTGCAC TTAGTGGCCG AAATACACCC ACCCCCACAC CTTCGCCCAC ACCTTCGCCC
    ACTCAAGGTA GAGCAGTGGA AAGGCCCGAG ACAGAAGGAG GAGCAACACC ACCTGCTCCT
    CTTGAGGCTC CTCCATCTAA TTCCTGGAGA GATGAACCAG TCAGCATCAC AGAAACGGCC
    AGCCAAGTGA CTAGTGGTAG CCCAGGGTCT GGAAGAAGCC TTGAAGAGGC GCTCGCTCCA
    CCCGGGGTGC AAAATATCCA ACCTGCGCTG ATGGATACAG AACATACCCC ACCAGCAGTC
    CCACCCACTC TACCTTCCCC TGCCCCTACT CTTTCCAATC TGACTGCTCG AAGTATGACT
    ATGAGCTCAG AGGAGGAAGC GGAGCCCTAC ACAGTGACAC TTCCCCCTGC ATTGCTCTCA
    TCCAGTGATG AGGAAACCAG AGAGGAGCTT CGGAAAATAG GCCTGGTTCC ACCGCCTCAA
    CCTTTTGCTA ATGGCCTTCT AATTAAAGAA ACATCCAAAG CCACTCTGAG CATTTCACCT
    AGCGGGTCAC GGCCATCCAT TGCTAAGACC TCCTCTGGTA AAGCAAGTGA TTCAACAGCA
    GACTCTGGGG TTGAAGACCC TCATATGGAG ACCACCAGTA CTGTTTCCAC AGTCTCCAGC
    ATGTCCACTT TGTCTTCAGA GAGCACAGAC TCCGCTCATG CAAGCAAACC ACGTTGTGGG
    GTGGGGCGTG GTCGCCCCGC CCATCTCAGG GACCCACTGC TTAAACAGTC ATCAGACAGT
    GAGCTGCTTC CACACCCACC CAGCACAGGC CCCAGCCGTC CACGCTACCT ATTCCAAAGA
    CGTTCCAAAC TGTGGGGGGA GGAGCCCCGG GCCCAGATGG GGTCATCAGA TGAAAGTCGG
    CCTGCTGCTA TGGGGGCAGA GTTGCTTAGC AAAGACACTC ATTCACTGGG TGAGGAGCCA
    CCAATGGGAG CACCACTTGA CCCTGGCAGG AGATCGCCTG TGGGAGGTGC CAGATGTGAG
    GAGAATGGAG GAGAGAGTAA ATCACTTTTT AGTAGTTTAG GAGAGCTTCA CACCATCTCA
    CAAAGGAGTT ACGGCACCAC CTTTACAATC CGACCTGGCA GCCGATACCC AGTGACCCGT
    AGGACTCCAA GCCCTGGAGC CACCCCAGAA CGGAGTGAAC CATTGGGGCC TGTCCGTACA
    TTCGGCCCAC ATCACCACCA TCATACAATC CTCAAGTCTT CTAGCCTAAG TTTGCCACAG
    GAGCCCAAGG AGGTTCGTTT TGTCATGAGG AGTGCTAGTG CTCGAGCCCG CAGCCGCTCT
    CCATCCCCTT CTCCATGTGC CTCCCCCTGC CCCTCGCCGG TACTGGGAGC CCCTCTCCTG
    GCCCTGCGAC CGTTCAGACA GCGCCCCCTA GCACTGTGGA GTAAGTATGA TGTGGGAGAG
    TGGCTAGAGA GTGTGGGACT AGGGGAACAT CGTGCACGCT TTTTAGAGCA TGAGATTGAA
    GGAGCACACC TGCCTGCCTT GACCAAGGAC GATCTGGCAG AGTTAGGGGT GACACGGGTT
    GGACACAGAA TGAACATTGA ACGTGCACTA AAGCAGTTGC TAGAAAGTTG A

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

    RefSeq XP_021327193.1
    CDS238..5148
    Translation

    Target ORF information:

    RefSeq Version XM_021471518.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021471518.1

    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
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATCGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AATGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTGTTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACAGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCCCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATAGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTCGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGAGA AGTTGGATGA GATGTTGAGT
    TCGCCAAAGG AACAGGTTGT AGTGATGAGG CAGCGGCCAG TGGATTCAGA CTCCAGAGCA
    GCCACTGTGA AACAGAGACC CACAAGTCGC CGTATCACAC AGGCTGAGAT CAGTTCTCTG
    TTAGAAAGGC AGGGTTTGCC AATAAGCGAA TTATCTTTGG CTGTAGACAA AAGTCACATG
    CAGCTGCCTC GGGGGATGTC AAGAACCAAG TCATTTGGTG CTCCTGAGGA TGATAGAATC
    TCAGCCCTGA TCGGAGAGCA TCGCTTTCCA AGAAGTTCCT CAATGACTGA CAGCTTTAGA
    CAAGATAGCA TCCCACCCCC TCCACAGACA GCTCCCCCAC CACCTCCGAC TCCCTATTTC
    CTTGATTCAG GGCCACCTCC ATCCTTTCTT CCACCTCCGC CCCCTTCACG TGCTGCCAAC
    CAGAGTCGCT CAAGCTTCCG CCCAGGAGCA GAGCCGAAAA TCCATGGCCC AGTCACAACA
    GATCGCCAGC GAAAAACACG CTCCATGATC ATTCTTCAGG ACACCAGCCA TTTGCCAGTG
    GAGCCTACCC CTATTACAAG ACCGCAAACG CCTACCTCTG GACCGGTTCC TCCAGAGCGT
    GGTCGTAGGC GTGGACCACC TGTGGAGAAT CCGTATGCTA ATGTAGGTCG ATTAAGTGCT
    GTCTATACTC CCACCAAACC TCAGCGTAGA AAGAGCCCAC TAGTCAAACA AGGACCAGTC
    GAGGAGGGAG CTGCTGCTCA TTCTAGCCGA GACCCTTCTC CATTGGGAGG TTCACGAATT
    CCTCACAGCA GCCGGGCGGA GCAGTTCCAA CAGCAGGTTC TCTCTGAGCG AGCTAGGATC
    ACACCTCCTG GGGCTCGACG CAGGCCTAGC GTTTTTCTGT CTGTAGAAGG GGGAGCAACA
    GAGCCACAGA CAACTCCATT ACTCTCTCAG TCTCACTCAG TGGATGAGTT GGCTGAGTTA
    CCTCCACCTG CACCAATGCT CTCTCCTGGC CCACCACCAG GGGGGACAAC TTTTATACAC
    CCTCTAACAG GTCGACCACT CGATCCTTCA TCACCTTTAG CACTTGCACT GGCTGCACGA
    GAACGTGCAC TTAGTGGCCG AAATACACCC ACCCCCACAC CTTCGCCCAC ACCTTCGCCC
    ACTCAAGGTA GAGCAGTGGA AAGGCCCGAG ACAGAAGGAG GAGCAACACC ACCTGCTCCT
    CTTGAGGCTC CTCCATCTAA TTCCTGGAGA GATGAACCAG TCAGCATCAC AGAAACGGCC
    AGCCAAGTGA CTAGTGGTAG CCCAGGGTCT GGAAGAAGCC TTGAAGAGGC GCTCGCTCCA
    CCCGGGGTGC AAAATATCCA ACCTGCGCTG ATGGATACAG AACATACCCC ACCAGCAGTC
    CCACCCACTC TACCTTCCCC TGCCCCTACT CTTTCCAATC TGACTGCTCG AAGTATGACT
    ATGAGCTCAG AGGAGGAAGC GGAGCCCTAC ACAGTGACAC TTCCCCCTGC ATTGCTCTCA
    TCCAGTGATG AGGAAACCAG AGAGGAGCTT CGGAAAATAG GCCTGGTTCC ACCGCCTCAA
    CCTTTTGCTA ATGGCCTTCT AATTAAAGAA ACATCCAAAG CCACTCTGAG CATTTCACCT
    AGCGGGTCAC GGCCATCCAT TGCTAAGACC TCCTCTGGTA AAGCAAGTGA TTCAACAGCA
    GACTCTGGGG TTGAAGACCC TCATATGGAG ACCACCAGTA CTGTTTCCAC AGTCTCCAGC
    ATGTCCACTT TGTCTTCAGA GAGCACAGAC TCCGCTCATG CAAGCAAACC ACGTTGTGGG
    GTGGGGCGTG GTCGCCCCGC CCATCTCAGG GACCCACTGC TTAAACAGTC ATCAGACAGT
    GAGCTGCTTC CACACCCACC CAGCACAGGC CCCAGCCGTC CACGCTACCT ATTCCAAAGA
    CGTTCCAAAC TGTGGGGGGA GGAGCCCCGG GCCCAGATGG GGTCATCAGA TGAAAGTCGG
    CCTGCTGCTA TGGGGGCAGA GTTGCTTAGC AAAGACACTC ATTCACTGGG TGAGGAGCCA
    CCAATGGGAG CACCACTTGA CCCTGGCAGG AGATCGCCTG TGGGAGGTGC CAGATGTGAG
    GAGAATGGAG GAGAGAGTAA ATCACTTTTT AGTAGTTTAG GAGAGCTTCA CACCATCTCA
    CAAAGGAGTT ACGGCACCAC CTTTACAATC CGACCTGGCA GCCGATACCC AGTGACCCGT
    AGGACTCCAA GCCCTGGAGC CACCCCAGAA CGGAGTGAAC CATTGGGGCC TGTCCGTACA
    TTCGGCCCAC ATCACCACCA TCATACAATC CTCAAGTCTT CTAGCCTAAG TTTGCCACAG
    GAGCCCAAGG AGGTTCGTTT TGTCATGAGG AGTGCTAGTG CTCGAGCCCG CAGCCGCTCT
    CCATCCCCTT CTCCATGTGC CTCCCCCTGC CCCTCGCCGG TACTGGGAGC CCCTCTCCTG
    GCCCTGCGAC CGTTCAGACA GCGCCCCCTA GCACTGTGGA GTAAGTATGA TGTGGGAGAG
    TGGCTAGAGA GTGTGGGACT AGGGGAACAT CGTGCACGCT TTTTAGAGCA TGAGATTGAA
    GGAGCACACC TGCCTGCCTT GACCAAGGAC GATCTGGCAG AGTTAGGGGT GACACGGGTT
    GGACACAGAA TGAACATTGA ACGTGCACTA AAGCAGTTGC TAGAAAGTTG A

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

    CloneID ODa144498
    Clone ID Related Accession (Same CDS sequence) XM_021471520.1
    Accession Version XM_021471520.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4881bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-06-14
    Organism Danio rerio(zebrafish)
    Product SH3 and multiple ankyrin repeat domains protein 3 isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_018394550.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 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
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATCGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AATGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTGTTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACAGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCCCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATAGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTCGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGAGA AGTTGGATGA GATGTTGAGT
    TCGCCAAAGG AACAGGTTGT AGTGATGAGG CAGCGGCCAG TGGATTCAGA CTCCAGAGCA
    GCCACTGTGA AACAGAGACC CACAAGTCGC CGTATCACAC AGGCTGAGAT CAGTTCTCTG
    TTAGAAAGGC AGGGTTTGCC AATAAGCGAA TTATCTTTGG CTGTAGACAA AAGTCACATG
    CAGCTGCCTC GGGGGATGTC AAGAACCAAG TCATTTGGTG CTCCTGAGGA TGATAGAATC
    TCAGCCCTGA TCGGAGAGCA TCGCTTTCCA AGAAGTTCCT CAATGACTGA CAGCTTTAGA
    CAAGATAGCA TCCCACCCCC TCCACAGACA GCTCCCCCAC CACCTCCGAC TCCCTATTTC
    CTTGATTCAG GGCCACCTCC ATCCTTTCTT CCACCTCCGC CCCCTTCACG TGCTGCCAAC
    CAGAGTCGCT CAAGCTTCCG CCCAGGAGCA GAGCCGAAAA TCCATGGCCC AGTCACAACA
    GATCGCCAGC GAAAAACACG CTCCATGATC ATTCTTCAGG ACACCAGCCA TTTGCCAGTG
    GAGCCTACCC CTATTACAAG ACCGCAAACG CCTACCTCTG GACCGGTTCC TCCAGAGCGT
    GGTCGTAGGC GTGGACCACC TGTGGAGAAT CCGTATGCTA ATGTAGGTCG ATTAAGTGCT
    GTCTATACTC CCACCAAACC TCAGCGTAGA AAGAGCCCAC TAGTCAAACA AGGACCAGTC
    GAGGAGGGAG CTGCTGCTCA TTCTAGCCGA GACCCTTCTC CATTGGGAGG TTCACGAATT
    CCTCACAGCA GCCGGGCGGA GCAGTTCCAA CAGCAGGTTC TCTCTGAGCG AGCTAGGATC
    ACACCTCCTG GGGCTCGACG CAGGCCTAGC GTTTTTCTGT CTGTAGAAGG GGGAGCAACA
    GAGCCACAGA CAACTCCATT ACTCTCTCAG TCTCACTCAG TGGATGAGTT GGCTGAGTTA
    CCTCCACCTG CACCAATGCT CTCTCCTGGC CCACCACCAG GGGGGACAAC TTTTATACAC
    CCTCTAACAG GTCGACCACT CGATCCTTCA TCACCTTTAG CACTTGCACT GGCTGCACGA
    GAACGTGCAC TTAGTGGCCG AAATACACCC ACCCCCACAC CTTCGCCCAC ACCTTCGCCC
    ACTCAAGGTA GAGCAGTGGA AAGGCCCGAG ACAGAAGGAG GAGCAACACC ACCTGCTCCT
    CTTGAGGCTC CTCCATCTAA TTCCTGGAGA GATGAACCAG TCAGCATCAC AGAAACGGCC
    AGCCAAGTGA CTAGTGGTAG CCCAGGGTCT GGAAGAAGCC TTGAAGAGGC GCTCGCTCCA
    CCCGGGGTGC AAAATATCCA ACCTGCGCTG ATGGATACAG AACATACCCC ACCAGCAGTC
    CCACCCACTC TACCTTCCCC TGCCCCTACT CTTTCCAATC TGACTGCTCG AAGTATGACT
    ATGAGCTCAG AGGAGGAAGC GGAGCCCTAC ACAGTGACAC TTCCCCCTGC ATTGCTCTCA
    TCCAGTGATG AGGAAACCAG AGAGGAGCTT CGGAAAATAG GCCTGGTTCC ACCGCCTCAA
    CCTTTTGCTA ATGGCCTTCT AATTAAAGAA ACATCCAAAG CCACTCTGAG CATTTCACCT
    AGCGGGTCAC GGCCATCCAT TGCTAAGACC TCCTCTGGTA AAGCAAGTGA TTCAACAGCA
    GACTCTGGGG TTGAAGACCC TCATATGGAG ACCACCAGTA CTGTTTCCAC AGTCTCCAGC
    ATGTCCACTT TGTCTTCAGA GAGCACAGAC TCCGCTCATG CAAGCAAACC ACGTTGTGGG
    GTGGGGCGTG GTCGCCCCGC CCATCTCAGG GACCCACTGC TTAAACAGTC ATCAGACAGT
    GAGCTGCTTC CACACCCACC CAGCACAGGC CCCAGCCGTC CACGCTACCT ATTCCAAAGA
    CGTTCCAAAC TGTGGGGGGA GGAGCCCCGG GCCCAGATGG GGTCATCAGA TGAAAGTCGG
    CCTGCTGCTA TGGGGGCAGA GTTGCTTAGC AAAGACACTC ATTCACTGGG TGAGGAGCCA
    CCAATGGGAG CACCACTTGA CCCTGGCAGG AGATCGCCTG TGGGAGGTGC CAGACTTTTT
    AGTAGTTTAG GAGAGCTTCA CACCATCTCA CAAAGGAGTT ACGGCACCAC CTTTACAATC
    CGACCTGGCA GCCGATACCC AGTGACCCGT AGGACTCCAA GCCCTGGAGC CACCCCAGAA
    CGGAGTGAAC CATTGGGGCC TGTCCGTACA TTCGGCCCAC ATCACCACCA TCATACAATC
    CTCAAGTCTT CTAGCCTAAG TTTGCCACAG GAGCCCAAGG AGGTTCGTTT TGTCATGAGG
    AGTGCTAGTG CTCGAGCCCG CAGCCGCTCT CCATCCCCTT CTCCATGTGC CTCCCCCTGC
    CCCTCGCCGG TACTGGGAGC CCCTCTCCTG GCCCTGCGAC CGTTCAGACA GCGCCCCCTA
    GCACTGTGGA GTAAGTATGA TGTGGGAGAG TGGCTAGAGA GTGTGGGACT AGGGGAACAT
    CGTGCACGCT TTTTAGAGCA TGAGATTGAA GGAGCACACC TGCCTGCCTT GACCAAGGAC
    GATCTGGCAG AGTTAGGGGT GACACGGGTT GGACACAGAA TGAACATTGA ACGTGCACTA
    AAGCAGTTGC TAGAAAGTTG A

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

    RefSeq XP_021327195.1
    CDS347..5227
    Translation

    Target ORF information:

    RefSeq Version XM_021471520.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X12, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021471520.1

    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
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATCGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AATGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTGTTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACAGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCCCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATAGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTCGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGAGA AGTTGGATGA GATGTTGAGT
    TCGCCAAAGG AACAGGTTGT AGTGATGAGG CAGCGGCCAG TGGATTCAGA CTCCAGAGCA
    GCCACTGTGA AACAGAGACC CACAAGTCGC CGTATCACAC AGGCTGAGAT CAGTTCTCTG
    TTAGAAAGGC AGGGTTTGCC AATAAGCGAA TTATCTTTGG CTGTAGACAA AAGTCACATG
    CAGCTGCCTC GGGGGATGTC AAGAACCAAG TCATTTGGTG CTCCTGAGGA TGATAGAATC
    TCAGCCCTGA TCGGAGAGCA TCGCTTTCCA AGAAGTTCCT CAATGACTGA CAGCTTTAGA
    CAAGATAGCA TCCCACCCCC TCCACAGACA GCTCCCCCAC CACCTCCGAC TCCCTATTTC
    CTTGATTCAG GGCCACCTCC ATCCTTTCTT CCACCTCCGC CCCCTTCACG TGCTGCCAAC
    CAGAGTCGCT CAAGCTTCCG CCCAGGAGCA GAGCCGAAAA TCCATGGCCC AGTCACAACA
    GATCGCCAGC GAAAAACACG CTCCATGATC ATTCTTCAGG ACACCAGCCA TTTGCCAGTG
    GAGCCTACCC CTATTACAAG ACCGCAAACG CCTACCTCTG GACCGGTTCC TCCAGAGCGT
    GGTCGTAGGC GTGGACCACC TGTGGAGAAT CCGTATGCTA ATGTAGGTCG ATTAAGTGCT
    GTCTATACTC CCACCAAACC TCAGCGTAGA AAGAGCCCAC TAGTCAAACA AGGACCAGTC
    GAGGAGGGAG CTGCTGCTCA TTCTAGCCGA GACCCTTCTC CATTGGGAGG TTCACGAATT
    CCTCACAGCA GCCGGGCGGA GCAGTTCCAA CAGCAGGTTC TCTCTGAGCG AGCTAGGATC
    ACACCTCCTG GGGCTCGACG CAGGCCTAGC GTTTTTCTGT CTGTAGAAGG GGGAGCAACA
    GAGCCACAGA CAACTCCATT ACTCTCTCAG TCTCACTCAG TGGATGAGTT GGCTGAGTTA
    CCTCCACCTG CACCAATGCT CTCTCCTGGC CCACCACCAG GGGGGACAAC TTTTATACAC
    CCTCTAACAG GTCGACCACT CGATCCTTCA TCACCTTTAG CACTTGCACT GGCTGCACGA
    GAACGTGCAC TTAGTGGCCG AAATACACCC ACCCCCACAC CTTCGCCCAC ACCTTCGCCC
    ACTCAAGGTA GAGCAGTGGA AAGGCCCGAG ACAGAAGGAG GAGCAACACC ACCTGCTCCT
    CTTGAGGCTC CTCCATCTAA TTCCTGGAGA GATGAACCAG TCAGCATCAC AGAAACGGCC
    AGCCAAGTGA CTAGTGGTAG CCCAGGGTCT GGAAGAAGCC TTGAAGAGGC GCTCGCTCCA
    CCCGGGGTGC AAAATATCCA ACCTGCGCTG ATGGATACAG AACATACCCC ACCAGCAGTC
    CCACCCACTC TACCTTCCCC TGCCCCTACT CTTTCCAATC TGACTGCTCG AAGTATGACT
    ATGAGCTCAG AGGAGGAAGC GGAGCCCTAC ACAGTGACAC TTCCCCCTGC ATTGCTCTCA
    TCCAGTGATG AGGAAACCAG AGAGGAGCTT CGGAAAATAG GCCTGGTTCC ACCGCCTCAA
    CCTTTTGCTA ATGGCCTTCT AATTAAAGAA ACATCCAAAG CCACTCTGAG CATTTCACCT
    AGCGGGTCAC GGCCATCCAT TGCTAAGACC TCCTCTGGTA AAGCAAGTGA TTCAACAGCA
    GACTCTGGGG TTGAAGACCC TCATATGGAG ACCACCAGTA CTGTTTCCAC AGTCTCCAGC
    ATGTCCACTT TGTCTTCAGA GAGCACAGAC TCCGCTCATG CAAGCAAACC ACGTTGTGGG
    GTGGGGCGTG GTCGCCCCGC CCATCTCAGG GACCCACTGC TTAAACAGTC ATCAGACAGT
    GAGCTGCTTC CACACCCACC CAGCACAGGC CCCAGCCGTC CACGCTACCT ATTCCAAAGA
    CGTTCCAAAC TGTGGGGGGA GGAGCCCCGG GCCCAGATGG GGTCATCAGA TGAAAGTCGG
    CCTGCTGCTA TGGGGGCAGA GTTGCTTAGC AAAGACACTC ATTCACTGGG TGAGGAGCCA
    CCAATGGGAG CACCACTTGA CCCTGGCAGG AGATCGCCTG TGGGAGGTGC CAGACTTTTT
    AGTAGTTTAG GAGAGCTTCA CACCATCTCA CAAAGGAGTT ACGGCACCAC CTTTACAATC
    CGACCTGGCA GCCGATACCC AGTGACCCGT AGGACTCCAA GCCCTGGAGC CACCCCAGAA
    CGGAGTGAAC CATTGGGGCC TGTCCGTACA TTCGGCCCAC ATCACCACCA TCATACAATC
    CTCAAGTCTT CTAGCCTAAG TTTGCCACAG GAGCCCAAGG AGGTTCGTTT TGTCATGAGG
    AGTGCTAGTG CTCGAGCCCG CAGCCGCTCT CCATCCCCTT CTCCATGTGC CTCCCCCTGC
    CCCTCGCCGG TACTGGGAGC CCCTCTCCTG GCCCTGCGAC CGTTCAGACA GCGCCCCCTA
    GCACTGTGGA GTAAGTATGA TGTGGGAGAG TGGCTAGAGA GTGTGGGACT AGGGGAACAT
    CGTGCACGCT TTTTAGAGCA TGAGATTGAA GGAGCACACC TGCCTGCCTT GACCAAGGAC
    GATCTGGCAG AGTTAGGGGT GACACGGGTT GGACACAGAA TGAACATTGA ACGTGCACTA
    AAGCAGTTGC TAGAAAGTTG A

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

    CloneID ODa144499
    Clone ID Related Accession (Same CDS sequence) XM_021471521.1
    Accession Version XM_021471521.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4797bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-06-14
    Organism Danio rerio(zebrafish)
    Product SH3 and multiple ankyrin repeat domains protein 3 isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_018394550.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 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
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATCGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AATGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTGTTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACAGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCCCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATAGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTCGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGAGA AGTTGGATGA GATGTTGAGT
    TCGCCAAAGG AACAGGTTGT AGTGATGAGG CAGCGGCCAG TGGATTCAGA CTCCAGAGCA
    GCCACTGTGA AACAGAGACC CACAAGTCGC CGTATCACAC AGGCTGAGAT CAGTTCTCTG
    TTAGAAAGGC AGGGTTTGCC AATAAGCGAA TTATCTTTGG CTGTAGACAA AAGTCACATG
    CAGCTGCCTC GGGGGATGTC AAGAACCAAG TCATTTGGTG CTCCTGAGGA TGATAGAATC
    TCAGCCCTGA TCGGAGAGCA TCGCTTTCCA AGAAGTTCCT CAATGACTGA CAGCTTTAGA
    CAAGATAGCA TCCCACCCCC TCCACAGACA GCTCCCCCAC CACCTCCGAC TCCCTATTTC
    CTTGATTCAG GGCCACCTCC ATCCTTTCTT CCACCTCCGC CCCCTTCACG TGCTGCCAAC
    CAGAGTCGCT CAAGCTTCCG CCCAGGAGCA GAGCCGAAAA TCCATGGCCC AGTCACAACA
    GATCGCCAGC GAAAAACACG CTCCATGATC ATTCTTCAGG ACACCAGCCA TTTGCCAGTG
    GAGCCTACCC CTATTACAAG ACCGCAAACG CCTACCTCTG GACCGGTTCC TCCAGAGCGT
    GGTCGTAGGC GTGGACCACC TGTGGAGAAT CCGTATGCTA ATGTAGGTCG ATTAAGTGCT
    GTCTATACTC CCACCAAACC TCAGCGTAGA AAGAGCCCAC TAGTCAAACA AGGACCAGTC
    GAGGAGGGAG CTGCTGCTCA TTCTAGCCGA GACCCTTCTC CATTGGGAGG TTCACGAATT
    CCTCACAGCA GCCGGGCGGA GCAGTTCCAA CAGCAGGTTC TCTCTGAGCG AGCTAGGATC
    ACACCTCCTG GGGCTCGACG CAGGCCTAGC GTTTTTCTGT CTGTAGAAGG GGGAGCAACA
    GAGCCACAGA CAACTCCATT ACTCTCTCAG TCTCACTCAG TGGATGAGTT GGCTGAGTTA
    CCTCCACCTG CACCAATGCT CTCTCCTGGC CCACCACCAG GGGGGACAAC TTTTATACAC
    CCTCTAACAG GTCGACCACT CGATCCTTCA TCACCTTTAG CACTTGCACT GGCTGCACGA
    GAACGTGCAC TTAGTGGCCG AAATACACCC ACCCCCACAC CTTCGCCCAC ACCTTCGCCC
    ACTCAAGGTA GAGCAGTGGA AAGGCCCGAG ACAGAAGGAG GAGCAACACC ACCTGCTCCT
    CTTGAGGCTC CTCCATCTAA TTCCTGGAGA GATGAACCAG TCAGCATCAC AGAAACGGCC
    AGCCAAGTGA CTAGTGGTAG CCCAGGGTCT GGAAGAAGCC TTGAAGAGGC GCTCGCTCCA
    CCCGGGGTGC AAAATATCCA ACCTGCGCTG ATGGATACAG AACATACCCC ACCAGCAGTC
    CCACCCACTC TACCTTCCCC TGCCCCTACT CTTTCCAATC TGACTGCTCG AAGTATGACT
    ATGAGCTCAG AGGAGGAAGC GGAGCCCTAC ACAGTGACAC TTCCCCCTGC ATTGCTCTCA
    TCCAGTGATG AGGAAACCAG AGAGGAGCTT CGGAAAATAG GCCTGGTTCC ACCGCCTCAA
    CCTTTTGCTA ATGGCCTTCT AATTAAAGAA ACATCCAAAG CCACTCTGAG CATTTCACCT
    AGCGGGTCAC GGCCATCCAT TGCTAAGACC TCCTCTGGTA AAGCAAGTGA TTCAACAGCA
    GACTCTGGGG TTGAAGACCC TCATATGGAG ACCACCAGTA CTGTTTCCAC AGTCTCCAGC
    ATGTCCACTT TGTCTTCAGA GAGCACAGAC TCCGCTCATG CAAGCAAACC ACGTTGTGGG
    GTGGGGCGTG GTCGCCCCGC CCATCTCAGG GACCCACTGC TTAAACAGTC ATCAGACAGT
    GAGCTGCTTC CACACCCACC CAGCACAGGC CCCAGCCGTC CACGCTACCT ATTCCAAAGA
    CGTTCCAAAC TGTGGGGGGA GGAGCCCCGG GCCCAGATGG GGTCATCAGA TGAAAGTCGG
    CCTGCTGCTA TGGGGGCAGA GTTGCTTAGC AAAGACACTC ATTCACTGGG TGAGGAGCCA
    CCAATGGGAG CACCACTTGA CCCTGGCAGG AGATCGCCTG TGGGAGGTGC CAGATGTGAG
    GAGAATGGAG GAGAGAGTAA ATCACTTTTT AGTAGTTTAG GAGAGCTTCA CACCATCTCA
    CAAAGGAGTT ACGGCACCAC CTTTACAATC CGACCTGGCA GCCGATACCC AGTGACCCGT
    AGGACTCCAA GCCCTGGAGC CACCCCAGAA CGGAGTGAAC CATTGGGGCC TGTCCGTACA
    TTCGGCCCAC ATCACCACCA TCATACAATC CTCAAGTCTT CTAGCCTAAG TTTGCCACAG
    GAGCCCAAGG AGGTTCGTTT TGTCATGAGG AGTGCTAGTG CTCGAGCCCG CAGCCGCTCT
    CCATCCCCTT CTCCATGTGC CTCCCCCTGC CCCTCGCCGG TACTGGGAGC CCCTCTCCTG
    GCCCTGCGAC CGTTCAGACA GCGCCCCCTA GCACTGTGGA GAGAGAGACT TCTGAATTTA
    GAAAGCAGTG TCAACTTGGG TGAAAAAGAA AAGAGCGGAA ACCTCTCCTG TAAATAA

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

    RefSeq XP_021327196.1
    CDS348..5144
    Translation

    Target ORF information:

    RefSeq Version XM_021471521.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X13, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021471521.1

    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
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATCGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AATGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTGTTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACAGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCCCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATAGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTCGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGAGA AGTTGGATGA GATGTTGAGT
    TCGCCAAAGG AACAGGTTGT AGTGATGAGG CAGCGGCCAG TGGATTCAGA CTCCAGAGCA
    GCCACTGTGA AACAGAGACC CACAAGTCGC CGTATCACAC AGGCTGAGAT CAGTTCTCTG
    TTAGAAAGGC AGGGTTTGCC AATAAGCGAA TTATCTTTGG CTGTAGACAA AAGTCACATG
    CAGCTGCCTC GGGGGATGTC AAGAACCAAG TCATTTGGTG CTCCTGAGGA TGATAGAATC
    TCAGCCCTGA TCGGAGAGCA TCGCTTTCCA AGAAGTTCCT CAATGACTGA CAGCTTTAGA
    CAAGATAGCA TCCCACCCCC TCCACAGACA GCTCCCCCAC CACCTCCGAC TCCCTATTTC
    CTTGATTCAG GGCCACCTCC ATCCTTTCTT CCACCTCCGC CCCCTTCACG TGCTGCCAAC
    CAGAGTCGCT CAAGCTTCCG CCCAGGAGCA GAGCCGAAAA TCCATGGCCC AGTCACAACA
    GATCGCCAGC GAAAAACACG CTCCATGATC ATTCTTCAGG ACACCAGCCA TTTGCCAGTG
    GAGCCTACCC CTATTACAAG ACCGCAAACG CCTACCTCTG GACCGGTTCC TCCAGAGCGT
    GGTCGTAGGC GTGGACCACC TGTGGAGAAT CCGTATGCTA ATGTAGGTCG ATTAAGTGCT
    GTCTATACTC CCACCAAACC TCAGCGTAGA AAGAGCCCAC TAGTCAAACA AGGACCAGTC
    GAGGAGGGAG CTGCTGCTCA TTCTAGCCGA GACCCTTCTC CATTGGGAGG TTCACGAATT
    CCTCACAGCA GCCGGGCGGA GCAGTTCCAA CAGCAGGTTC TCTCTGAGCG AGCTAGGATC
    ACACCTCCTG GGGCTCGACG CAGGCCTAGC GTTTTTCTGT CTGTAGAAGG GGGAGCAACA
    GAGCCACAGA CAACTCCATT ACTCTCTCAG TCTCACTCAG TGGATGAGTT GGCTGAGTTA
    CCTCCACCTG CACCAATGCT CTCTCCTGGC CCACCACCAG GGGGGACAAC TTTTATACAC
    CCTCTAACAG GTCGACCACT CGATCCTTCA TCACCTTTAG CACTTGCACT GGCTGCACGA
    GAACGTGCAC TTAGTGGCCG AAATACACCC ACCCCCACAC CTTCGCCCAC ACCTTCGCCC
    ACTCAAGGTA GAGCAGTGGA AAGGCCCGAG ACAGAAGGAG GAGCAACACC ACCTGCTCCT
    CTTGAGGCTC CTCCATCTAA TTCCTGGAGA GATGAACCAG TCAGCATCAC AGAAACGGCC
    AGCCAAGTGA CTAGTGGTAG CCCAGGGTCT GGAAGAAGCC TTGAAGAGGC GCTCGCTCCA
    CCCGGGGTGC AAAATATCCA ACCTGCGCTG ATGGATACAG AACATACCCC ACCAGCAGTC
    CCACCCACTC TACCTTCCCC TGCCCCTACT CTTTCCAATC TGACTGCTCG AAGTATGACT
    ATGAGCTCAG AGGAGGAAGC GGAGCCCTAC ACAGTGACAC TTCCCCCTGC ATTGCTCTCA
    TCCAGTGATG AGGAAACCAG AGAGGAGCTT CGGAAAATAG GCCTGGTTCC ACCGCCTCAA
    CCTTTTGCTA ATGGCCTTCT AATTAAAGAA ACATCCAAAG CCACTCTGAG CATTTCACCT
    AGCGGGTCAC GGCCATCCAT TGCTAAGACC TCCTCTGGTA AAGCAAGTGA TTCAACAGCA
    GACTCTGGGG TTGAAGACCC TCATATGGAG ACCACCAGTA CTGTTTCCAC AGTCTCCAGC
    ATGTCCACTT TGTCTTCAGA GAGCACAGAC TCCGCTCATG CAAGCAAACC ACGTTGTGGG
    GTGGGGCGTG GTCGCCCCGC CCATCTCAGG GACCCACTGC TTAAACAGTC ATCAGACAGT
    GAGCTGCTTC CACACCCACC CAGCACAGGC CCCAGCCGTC CACGCTACCT ATTCCAAAGA
    CGTTCCAAAC TGTGGGGGGA GGAGCCCCGG GCCCAGATGG GGTCATCAGA TGAAAGTCGG
    CCTGCTGCTA TGGGGGCAGA GTTGCTTAGC AAAGACACTC ATTCACTGGG TGAGGAGCCA
    CCAATGGGAG CACCACTTGA CCCTGGCAGG AGATCGCCTG TGGGAGGTGC CAGATGTGAG
    GAGAATGGAG GAGAGAGTAA ATCACTTTTT AGTAGTTTAG GAGAGCTTCA CACCATCTCA
    CAAAGGAGTT ACGGCACCAC CTTTACAATC CGACCTGGCA GCCGATACCC AGTGACCCGT
    AGGACTCCAA GCCCTGGAGC CACCCCAGAA CGGAGTGAAC CATTGGGGCC TGTCCGTACA
    TTCGGCCCAC ATCACCACCA TCATACAATC CTCAAGTCTT CTAGCCTAAG TTTGCCACAG
    GAGCCCAAGG AGGTTCGTTT TGTCATGAGG AGTGCTAGTG CTCGAGCCCG CAGCCGCTCT
    CCATCCCCTT CTCCATGTGC CTCCCCCTGC CCCTCGCCGG TACTGGGAGC CCCTCTCCTG
    GCCCTGCGAC CGTTCAGACA GCGCCCCCTA GCACTGTGGA GAGAGAGACT TCTGAATTTA
    GAAAGCAGTG TCAACTTGGG TGAAAAAGAA AAGAGCGGAA ACCTCTCCTG TAAATAA

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

    CloneID ODa144500
    Clone ID Related Accession (Same CDS sequence) XM_021471522.1
    Accession Version XM_021471522.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4635bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-06-14
    Organism Danio rerio(zebrafish)
    Product SH3 and multiple ankyrin repeat domains protein 3 isoform X9
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_018394550.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 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
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATCGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGGC AAATTTAAAG AAGTTTATGG AGTATGTTCA GCAGAGGTGT
    GTGGATAAGG TCTGCCGGTT CCTGGAAAAA GGGCTGGACC CCAACTTTCA TGATAGTGAC
    AGCGGAGAAT CTCCTCTCAC TCTCGTGGCC CAGCTGGACA CTTGTGCCGA TCTGATTAAA
    GTGTTGAGAA GCGGAGGAGC CCATCTGGAC TTCAGAACCA GAGACGGCTT GACGGCGCTG
    CACAAAGCGG CCCAAATGCA CAACCATGTA GCATTGACTA CATTGTTGGA TCTGGGAGCG
    TCTCCGGACT ATAAGGACAG TCGTGGGCTC ACCCCGTTAT ATCACAGTGC CATGGTTGGG
    GGAGATCCTT ACTGCTGCGA GCTGCTGCTT TATGATCACG CTCAGCTGGG CTACAGCGAT
    GAGAACGGCT GGCAGGAGAT CCATCAGGCT TGTCGTCATG GAAACGTGCA GCACCTTGAG
    CACCTGTTAT TCTATGGAGC GGAGATGAGC GCTCAGAACG CCTCAGGAAA CACAGCACTA
    CACCTGTGTG CCCTCTACAA CCAGGAAGGC TGTGCTAGAG TTCTCCTGTT TCGAGGAGCA
    AATAAAGAAA TCAAAAACTA CAACAACCAA ACAGCATTTC AGGTTGCTAT CATCGCAGGG
    AACTTTGACT TGGCAGAAAT CATAAAGATC CATAAAACCT CAGATGTTGT GCCTTTCAGG
    GAGACCCCTT CTTATTCGTC CCGGCGGCGT GCGGTTTGTG TGTCTCCACG TCGCTCTCTG
    ATGCGATCGG CCAGTGATAA CGCTCTGGAT GAGACTTTAA CAGCTCCCTC TCCAGCCCCC
    TCCCTGCGCA GCCTGCCGCC TCTGGAGCCT GACGACACGG TCCCGTCCCA GCGGAGCCCG
    CAGGCTGCTC ACACACATAC ACGCAGCCTC AGGAGACACA CACGCTCTGG AGGACACCTC
    AGCCCTGGCA GTCCTGTACA GAGAGAGCCG AGCCCTCCTG CGGTGCCTCG AGGGCCCAAG
    CGGCGGCTGT ACAGTGCAGT GCCCGGGCGA ACCTTCATCG CCATCAACTC CCACACTCCA
    CAGGGCGAGG GTGAGATCAC ACTCAACCGA GGAGAGAGGG TCAAAGTGCT AAGCATAGGT
    GAAGGAGGAT TCTGGGAAGG CTCAGTAAAA GGACGGACTG GCTGGTTTCC TGCTCACTGT
    GTAGAGGAAG TCCAGATGAG ACAGTATGAC CCACGACTCG AAACAAGAGA AGACCGCACC
    AAGAGACTAT TCAGGCACTA CACTGTTGGC TCCTACGACA ACTATACCTC TTACAGTGAT
    TATGTTATAG AAGAAAAAAG TGCAACGTTG CAGAAGAGAG ACAGCGAAGG GTTCGGCTTT
    GTGCTTCGGG GAGCTAAAGC TGAGACGCCC ATAGAGGAGT TCACACCTAC TCCTGCTTTT
    CCTGCACTGC AATACTTGGA GTCAGTGGAC CTGGAGGGAG TGGCGTGGAG GGCAGGATTA
    AGGACAGGGG ATTTCCTCAT AGAGGTAAAT GGTGTGAGCG TAGTAAAGGT GGGACATAGG
    CAGGTGGTAT CACTGATTCG GCAAGGTGGA AGTCGGCTAG TAATGAAGGT GGTGTCTGTT
    ACACGCAAAC CTGACACTGG AGACGTTGTT CGCAAAAAAG CCCCACCACC TCCCAAGAGA
    GACCCAAGCA CCAGCCTGAC CCTGCGCTCA AAAAGCATGA CTGCAGAACT GGAGGAGCTG
    GAGAAGTTGG ATGAGATGTT GAGTTCGCCA AAGGAACAGG TTGTAGTGAT GAGGCAGCGG
    CCAGTGGATT CAGACTCCAG AGCAGCCACT GTGAAACAGA GACCCACAAG TCGCCGTATC
    ACACAGGCTG AGATCAGTTC TCTGTTAGAA AGGCAGGGTT TGCCAATAAG CGAATTATCT
    TTGGCTGTAG ACAAAAGTCA CATGCAGCTG CCTCGGGGGA TGTCAAGAAC CAAGTCATTT
    GGTGCTCCTG AGGATGATAG AATCTCAGCC CTGATCGGAG AGCATCGCTT TCCAAGAAGT
    TCCTCAATGA CTGACAGCTT TAGACAAGAT AGCATCCCAC CCCCTCCACA GACAGCTCCC
    CCACCACCTC CGACTCCCTA TTTCCTTGAT TCAGGGCCAC CTCCATCCTT TCTTCCACCT
    CCGCCCCCTT CACGTGCTGC CAACCAGAGT CGCTCAAGCT TCCGCCCAGG AGCAGAGCCG
    AAAATCCATG GCCCAGTCAC AACAGATCGC CAGCGAAAAA CACGCTCCAT GATCATTCTT
    CAGGACACCA GCCATTTGCC AGTGGAGCCT ACCCCTATTA CAAGACCGCA AACGCCTACC
    TCTGGACCGG TTCCTCCAGA GCGTGGTCGT AGGCGTGGAC CACCTGTGGA GAATCCGTAT
    GCTAATGTAG GTCGATTAAG TGCTGTCTAT ACTCCCACCA AACCTCAGCG TAGAAAGAGC
    CCACTAGTCA AACAAGGACC AGTCGAGGAG GGAGCTGCTG CTCATTCTAG CCGAGACCCT
    TCTCCATTGG GAGGTTCACG AATTCCTCAC AGCAGCCGGG CGGAGCAGTT CCAACAGCAG
    GTTCTCTCTG AGCGAGCTAG GATCACACCT CCTGGGGCTC GACGCAGGCC TAGCGTTTTT
    CTGTCTGTAG AAGGGGGAGC AACAGAGCCA CAGACAACTC CATTACTCTC TCAGTCTCAC
    TCAGTGGATG AGTTGGCTGA GTTACCTCCA CCTGCACCAA TGCTCTCTCC TGGCCCACCA
    CCAGGGGGGA CAACTTTTAT ACACCCTCTA ACAGGTCGAC CACTCGATCC TTCATCACCT
    TTAGCACTTG CACTGGCTGC ACGAGAACGT GCACTTAGTG GCCGAAATAC ACCCACCCCC
    ACACCTTCGC CCACACCTTC GCCCACTCAA GGTAGAGCAG TGGAAAGGCC CGAGACAGAA
    GGAGGAGCAA CACCACCTGC TCCTCTTGAG GCTCCTCCAT CTAATTCCTG GAGAGATGAA
    CCAGTCAGCA TCACAGAAAC GGCCAGCCAA GTGACTAGTG GTAGCCCAGG GTCTGGAAGA
    AGCCTTGAAG AGGCGCTCGC TCCACCCGGG GTGCAAAATA TCCAACCTGC GCTGATGGAT
    ACAGAACATA CCCCACCAGC AGTCCCACCC ACTCTACCTT CCCCTGCCCC TACTCTTTCC
    AATCTGACTG CTCGAAGTAT GACTATGAGC TCAGAGGAGG AAGCGGAGCC CTACACAGTG
    ACACTTCCCC CTGCATTGCT CTCATCCAGT GATGAGGAAA CCAGAGAGGA GCTTCGGAAA
    ATAGGCCTGG TTCCACCGCC TCAACCTTTT GCTAATGGCC TTCTAATTAA AGAAACATCC
    AAAGCCACTC TGAGCATTTC ACCTAGCGGG TCACGGCCAT CCATTGCTAA GACCTCCTCT
    GGTAAAGCAA GTGATTCAAC AGCAGACTCT GGGGTTGAAG ACCCTCATAT GGAGACCACC
    AGTACTGTTT CCACAGTCTC CAGCATGTCC ACTTTGTCTT CAGAGAGCAC AGACTCCGCT
    CATGCAAGCA AACCACGTTG TGGGGTGGGG CGTGGTCGCC CCGCCCATCT CAGGGACCCA
    CTGCTTAAAC AGTCATCAGA CAGTGAGCTG CTTCCACACC CACCCAGCAC AGGCCCCAGC
    CGTCCACGCT ACCTATTCCA AAGACGTTCC AAACTGTGGG GGGAGGAGCC CCGGGCCCAG
    ATGGGGTCAT CAGATGAAAG TCGGCCTGCT GCTATGGGGG CAGAGTTGCT TAGCAAAGAC
    ACTCATTCAC TGGGTGAGGA GCCACCAATG GGAGCACCAC TTGACCCTGG CAGGAGATCG
    CCTGTGGGAG GTGCCAGATG TGAGGAGAAT GGAGGAGAGA GTAAATCACT TTTTAGTAGT
    TTAGGAGAGC TTCACACCAT CTCACAAAGG AGTTACGGCA CCACCTTTAC AATCCGACCT
    GGCAGCCGAT ACCCAGTGAC CCGTAGGACT CCAAGCCCTG GAGCCACCCC AGAACGGAGT
    GAACCATTGG GGCCTGTCCG TACATTCGGC CCACATCACC ACCATCATAC AATCCTCAAG
    TCTTCTAGCC TAAGTTTGCC ACAGGAGCCC AAGGAGGTTC GTTTTGTCAT GAGGAGTGCT
    AGTGCTCGAG CCCGCAGCCG CTCTCCATCC CCTTCTCCAT GTGCCTCCCC CTGCCCCTCG
    CCGGTACTGG GAGCCCCTCT CCTGGCCCTG CGACCGTTCA GACAGCGCCC CCTAGCACTG
    TGGAGTAAGT ATGATGTGGG AGAGTGGCTA GAGAGTGTGG GACTAGGGGA ACATCGTGCA
    CGCTTTTTAG AGCATGAGAT TGAAGGAGCA CACCTGCCTG CCTTGACCAA GGACGATCTG
    GCAGAGTTAG GGGTGACACG GGTTGGACAC AGAATGAACA TTGAACGTGC ACTAAAGCAG
    TTGCTAGAAA GTTGA

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

    RefSeq XP_021327197.1
    CDS348..4982
    Translation

    Target ORF information:

    RefSeq Version XM_021471522.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X14, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021471522.1

    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
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATCGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGGC AAATTTAAAG AAGTTTATGG AGTATGTTCA GCAGAGGTGT
    GTGGATAAGG TCTGCCGGTT CCTGGAAAAA GGGCTGGACC CCAACTTTCA TGATAGTGAC
    AGCGGAGAAT CTCCTCTCAC TCTCGTGGCC CAGCTGGACA CTTGTGCCGA TCTGATTAAA
    GTGTTGAGAA GCGGAGGAGC CCATCTGGAC TTCAGAACCA GAGACGGCTT GACGGCGCTG
    CACAAAGCGG CCCAAATGCA CAACCATGTA GCATTGACTA CATTGTTGGA TCTGGGAGCG
    TCTCCGGACT ATAAGGACAG TCGTGGGCTC ACCCCGTTAT ATCACAGTGC CATGGTTGGG
    GGAGATCCTT ACTGCTGCGA GCTGCTGCTT TATGATCACG CTCAGCTGGG CTACAGCGAT
    GAGAACGGCT GGCAGGAGAT CCATCAGGCT TGTCGTCATG GAAACGTGCA GCACCTTGAG
    CACCTGTTAT TCTATGGAGC GGAGATGAGC GCTCAGAACG CCTCAGGAAA CACAGCACTA
    CACCTGTGTG CCCTCTACAA CCAGGAAGGC TGTGCTAGAG TTCTCCTGTT TCGAGGAGCA
    AATAAAGAAA TCAAAAACTA CAACAACCAA ACAGCATTTC AGGTTGCTAT CATCGCAGGG
    AACTTTGACT TGGCAGAAAT CATAAAGATC CATAAAACCT CAGATGTTGT GCCTTTCAGG
    GAGACCCCTT CTTATTCGTC CCGGCGGCGT GCGGTTTGTG TGTCTCCACG TCGCTCTCTG
    ATGCGATCGG CCAGTGATAA CGCTCTGGAT GAGACTTTAA CAGCTCCCTC TCCAGCCCCC
    TCCCTGCGCA GCCTGCCGCC TCTGGAGCCT GACGACACGG TCCCGTCCCA GCGGAGCCCG
    CAGGCTGCTC ACACACATAC ACGCAGCCTC AGGAGACACA CACGCTCTGG AGGACACCTC
    AGCCCTGGCA GTCCTGTACA GAGAGAGCCG AGCCCTCCTG CGGTGCCTCG AGGGCCCAAG
    CGGCGGCTGT ACAGTGCAGT GCCCGGGCGA ACCTTCATCG CCATCAACTC CCACACTCCA
    CAGGGCGAGG GTGAGATCAC ACTCAACCGA GGAGAGAGGG TCAAAGTGCT AAGCATAGGT
    GAAGGAGGAT TCTGGGAAGG CTCAGTAAAA GGACGGACTG GCTGGTTTCC TGCTCACTGT
    GTAGAGGAAG TCCAGATGAG ACAGTATGAC CCACGACTCG AAACAAGAGA AGACCGCACC
    AAGAGACTAT TCAGGCACTA CACTGTTGGC TCCTACGACA ACTATACCTC TTACAGTGAT
    TATGTTATAG AAGAAAAAAG TGCAACGTTG CAGAAGAGAG ACAGCGAAGG GTTCGGCTTT
    GTGCTTCGGG GAGCTAAAGC TGAGACGCCC ATAGAGGAGT TCACACCTAC TCCTGCTTTT
    CCTGCACTGC AATACTTGGA GTCAGTGGAC CTGGAGGGAG TGGCGTGGAG GGCAGGATTA
    AGGACAGGGG ATTTCCTCAT AGAGGTAAAT GGTGTGAGCG TAGTAAAGGT GGGACATAGG
    CAGGTGGTAT CACTGATTCG GCAAGGTGGA AGTCGGCTAG TAATGAAGGT GGTGTCTGTT
    ACACGCAAAC CTGACACTGG AGACGTTGTT CGCAAAAAAG CCCCACCACC TCCCAAGAGA
    GACCCAAGCA CCAGCCTGAC CCTGCGCTCA AAAAGCATGA CTGCAGAACT GGAGGAGCTG
    GAGAAGTTGG ATGAGATGTT GAGTTCGCCA AAGGAACAGG TTGTAGTGAT GAGGCAGCGG
    CCAGTGGATT CAGACTCCAG AGCAGCCACT GTGAAACAGA GACCCACAAG TCGCCGTATC
    ACACAGGCTG AGATCAGTTC TCTGTTAGAA AGGCAGGGTT TGCCAATAAG CGAATTATCT
    TTGGCTGTAG ACAAAAGTCA CATGCAGCTG CCTCGGGGGA TGTCAAGAAC CAAGTCATTT
    GGTGCTCCTG AGGATGATAG AATCTCAGCC CTGATCGGAG AGCATCGCTT TCCAAGAAGT
    TCCTCAATGA CTGACAGCTT TAGACAAGAT AGCATCCCAC CCCCTCCACA GACAGCTCCC
    CCACCACCTC CGACTCCCTA TTTCCTTGAT TCAGGGCCAC CTCCATCCTT TCTTCCACCT
    CCGCCCCCTT CACGTGCTGC CAACCAGAGT CGCTCAAGCT TCCGCCCAGG AGCAGAGCCG
    AAAATCCATG GCCCAGTCAC AACAGATCGC CAGCGAAAAA CACGCTCCAT GATCATTCTT
    CAGGACACCA GCCATTTGCC AGTGGAGCCT ACCCCTATTA CAAGACCGCA AACGCCTACC
    TCTGGACCGG TTCCTCCAGA GCGTGGTCGT AGGCGTGGAC CACCTGTGGA GAATCCGTAT
    GCTAATGTAG GTCGATTAAG TGCTGTCTAT ACTCCCACCA AACCTCAGCG TAGAAAGAGC
    CCACTAGTCA AACAAGGACC AGTCGAGGAG GGAGCTGCTG CTCATTCTAG CCGAGACCCT
    TCTCCATTGG GAGGTTCACG AATTCCTCAC AGCAGCCGGG CGGAGCAGTT CCAACAGCAG
    GTTCTCTCTG AGCGAGCTAG GATCACACCT CCTGGGGCTC GACGCAGGCC TAGCGTTTTT
    CTGTCTGTAG AAGGGGGAGC AACAGAGCCA CAGACAACTC CATTACTCTC TCAGTCTCAC
    TCAGTGGATG AGTTGGCTGA GTTACCTCCA CCTGCACCAA TGCTCTCTCC TGGCCCACCA
    CCAGGGGGGA CAACTTTTAT ACACCCTCTA ACAGGTCGAC CACTCGATCC TTCATCACCT
    TTAGCACTTG CACTGGCTGC ACGAGAACGT GCACTTAGTG GCCGAAATAC ACCCACCCCC
    ACACCTTCGC CCACACCTTC GCCCACTCAA GGTAGAGCAG TGGAAAGGCC CGAGACAGAA
    GGAGGAGCAA CACCACCTGC TCCTCTTGAG GCTCCTCCAT CTAATTCCTG GAGAGATGAA
    CCAGTCAGCA TCACAGAAAC GGCCAGCCAA GTGACTAGTG GTAGCCCAGG GTCTGGAAGA
    AGCCTTGAAG AGGCGCTCGC TCCACCCGGG GTGCAAAATA TCCAACCTGC GCTGATGGAT
    ACAGAACATA CCCCACCAGC AGTCCCACCC ACTCTACCTT CCCCTGCCCC TACTCTTTCC
    AATCTGACTG CTCGAAGTAT GACTATGAGC TCAGAGGAGG AAGCGGAGCC CTACACAGTG
    ACACTTCCCC CTGCATTGCT CTCATCCAGT GATGAGGAAA CCAGAGAGGA GCTTCGGAAA
    ATAGGCCTGG TTCCACCGCC TCAACCTTTT GCTAATGGCC TTCTAATTAA AGAAACATCC
    AAAGCCACTC TGAGCATTTC ACCTAGCGGG TCACGGCCAT CCATTGCTAA GACCTCCTCT
    GGTAAAGCAA GTGATTCAAC AGCAGACTCT GGGGTTGAAG ACCCTCATAT GGAGACCACC
    AGTACTGTTT CCACAGTCTC CAGCATGTCC ACTTTGTCTT CAGAGAGCAC AGACTCCGCT
    CATGCAAGCA AACCACGTTG TGGGGTGGGG CGTGGTCGCC CCGCCCATCT CAGGGACCCA
    CTGCTTAAAC AGTCATCAGA CAGTGAGCTG CTTCCACACC CACCCAGCAC AGGCCCCAGC
    CGTCCACGCT ACCTATTCCA AAGACGTTCC AAACTGTGGG GGGAGGAGCC CCGGGCCCAG
    ATGGGGTCAT CAGATGAAAG TCGGCCTGCT GCTATGGGGG CAGAGTTGCT TAGCAAAGAC
    ACTCATTCAC TGGGTGAGGA GCCACCAATG GGAGCACCAC TTGACCCTGG CAGGAGATCG
    CCTGTGGGAG GTGCCAGATG TGAGGAGAAT GGAGGAGAGA GTAAATCACT TTTTAGTAGT
    TTAGGAGAGC TTCACACCAT CTCACAAAGG AGTTACGGCA CCACCTTTAC AATCCGACCT
    GGCAGCCGAT ACCCAGTGAC CCGTAGGACT CCAAGCCCTG GAGCCACCCC AGAACGGAGT
    GAACCATTGG GGCCTGTCCG TACATTCGGC CCACATCACC ACCATCATAC AATCCTCAAG
    TCTTCTAGCC TAAGTTTGCC ACAGGAGCCC AAGGAGGTTC GTTTTGTCAT GAGGAGTGCT
    AGTGCTCGAG CCCGCAGCCG CTCTCCATCC CCTTCTCCAT GTGCCTCCCC CTGCCCCTCG
    CCGGTACTGG GAGCCCCTCT CCTGGCCCTG CGACCGTTCA GACAGCGCCC CCTAGCACTG
    TGGAGTAAGT ATGATGTGGG AGAGTGGCTA GAGAGTGTGG GACTAGGGGA ACATCGTGCA
    CGCTTTTTAG AGCATGAGAT TGAAGGAGCA CACCTGCCTG CCTTGACCAA GGACGATCTG
    GCAGAGTTAG GGGTGACACG GGTTGGACAC AGAATGAACA TTGAACGTGC ACTAAAGCAG
    TTGCTAGAAA GTTGA

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

    CloneID ODa09212
    Clone ID Related Accession (Same CDS sequence) XM_009300184.2 , XM_005164598.3 , XM_009300183.3 , XM_009300183.2 , XM_005164598.4 , XM_009300184.3
    Accession Version XM_009300184.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4932bp)
    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 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product SH3 and multiple ankyrin repeat domains protein 3 isoform X1
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007115.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_009300184.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 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
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATGGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AACGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTATTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACGGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCTCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATCGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTTGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGCGT CAAGGAGAAG GAGGGGAGAG
    AAGTTGGATG AGATGTTGAG TTCGCCAAAG GAACAGGTTG TAGTGATGAG GCAGCGGCCA
    GTGGATTCAG ACTCCAGAGC AGCCACTGTG AAACAGAGAC CCACAAGTCG CCGTATCACA
    CAGGCTGAGA TCAGTTCTTT GTTAGAAAGG CAGGGTTTGC CAATAAGCGA ATTATCTTTG
    GCTGTAGACA AAAGTCACAT GCAGCTCCCT CGGGGGATGT CAAGAACCAA GTCATTTGGT
    GCTCCTGAGG ATGATAGAAT CTCAGCCCTG ATCGGAGAGC ATCGCTTTCC AAGAAGTTCC
    TCAATGACTG ACAGCTTTAG ACAAGATAGC ATCCCACCCC CTCCACAGAC AGCTCCCCCA
    CCACCTCCGA CTCCCTATTT CCTTGATTCA GGGCCACCTC CATCCTTTCT TCCACCTCCG
    CCCCCTTCAC GTGCTGCCAA CCAGAGTCGC TCAAGCTTCC GCCCAGGAGC AGAGCCGAAA
    ATCCATGGCC CAGTCACAAC AGATCGCCAG CGAAAAACAC GCTCCATGAT CATTCTTCAG
    GACACCAGCC ATTTGCCAGT GGAGCCTACC CCTATTACAA GACCGCAAAC GCCTACCTCT
    GGACCGGTTC CTCCAGAGCG TGGTCGTAGG CGTGGACCAC CTGTGGAGAA TCCGTATGCT
    AATGTAGGTC GATTAAGTGC TGTCTATACT CCCACCAAAC CTCAGCGTAG AAAGAGCCCA
    CTAGTCAAAC AAGGACCAGT CGAGGAGGGA GCTGCTGCTC ATTCTAGCCG AGACCCTTCT
    CCATTGGGAG GTTCACGAAT TCCTCACAGC AGCCGGGCGG AGCAGTTCCA ACAGCAGGTT
    CTCTCCGAGC GAGCTAGGAT CACACCTCCT GGGGCTCGAC GCAGGCCTAG CGTTTTTCTG
    TCTGTAGAAG GGGGAGCAAC AGAGCCACAG ACAACTCCAT TACTCTCTCA GTCTCACTCA
    GTGGATGAGT TGGCTGAGTT ACCTCCACCT GCACCAATGC TCTCTCCTGG CCCACCACCA
    GGGGGGACAA CTTTTATACA CCCTCTAACA GGTCGACCAC TCGATCCTTC ATCACCTTTA
    GCACTTGCAC TGGCTGCACG AGAACGTGCA CTTAGTGGCC GAAATACACC CACCCCCACA
    CCTTCGCCCA CACCTTCGCC CACTCAAGGT AGAGCAGTGG AAAGGCCCGA GACAGAAGGA
    GGAGCAACAC CACCTGCTCC TCTTGAGGCT CCTCCATCTA ATTCCTGGAG AGATGAACCA
    GTCAGCATCA CAGAAACGGC CAGCCAAGTG ACTAGTGGTA GCCCAGGGTC TGGAAGAAGC
    CTTGAAGAGG CGCTCGCTCC ACCCGGGGTG CAAAATATCC AACCTGCGCT GATGGATACA
    GAACATACCC CACCAGCAGT CCCACCCACT CTACCTTCCC CTGCCCCTAC TCTTTCCAAT
    CTGACTGCTC GAAGTATGAC TATGAGCTCA GAGGAGGAAG CGGAGCCCTA CACAGTGACA
    CTTCCCCCTG CATTGCTCTC ATCCAGTGAT GAGGAAACCA GAGAGGAGCT TCGGAAAATA
    GGCCTGGTTC CACCGCCTCA ACCTTTTGCT AATGGCCTTC TAATTAAAGA AACATCCAAA
    GCCACTCTGA GCATTTCACC TAGCGGGTCA CGGCCATCCA TTGCTAAGAC CTCCTCTGGT
    AAAGCAAGTG ATTCAACAGC AGACTCTGGG GTTGAAGACC CTCATATGGA GACCACCAGT
    ACTGTTTCCA CAGTCTCCAG CATGTCCACT TTGTCTTCAG AGAGCACAGA CTCCGCTCAT
    GCAAGCAAAC CACGTTGTGG GGTGGGGCGT GGTCGCCCCG CCCATCTCAG GGACCCACTG
    CTTAAACAGT CATCAGACAG TGAGCTGCTT CCACACCCAC CCAGCACAGG CCCCAGCCGT
    CCTCGCTACC TATTCCAAAG ACGTTCCAAA CTGTGGGGGG AGGAGCCCCG GGCCCAGATG
    GGGTCATCAG ATGAAAGTCG GCCTGCTGCT ATGGGGGCAG AGTTGCTTAG CAAAGACACT
    CATTCACTGG GTGAGGAGCC ACCAATGGGA GCACCACTTG ACCCTGGCAG GAGATCGCCT
    GTGGGAGGTG CCAGATGTGA GGAGAATGGA GGAGAGAGTA AATCACTTTT TAGTAGTTTA
    GGAGAGCTTC ACACCATCTC ACAAAGGAGT TACGGCACCA CCTTTACAAT CCGACCTGGC
    AGCCGATACC CAGTGACCCG TAGGACTCCA AGCCCTGGAG CCACCCCAGA ACGGAGTGAA
    CCATTGGGGC CTGTCCGTAC ATTCGGCCCA CATCACCACC ATCATACAAT CCTCAAGTCT
    TCTAGCCTAA GTTTGCCCCA GGAGCCCAAG GAGGTTCGTT TTGTCATGAG GAGTGCTAGT
    GCTCGAGCCC GCAGCCGCTC TCCATCCCCT TCTCCATGTG CCTCCCCCTG CCCCTCGCCG
    GTACTGGGAG CCCCTCTCCT GGCCCTGCGA CCGTTCAGAC AGCGCCCCCT AGCACTGTGG
    AGTAAGTATG ATGTGGGAGA GTGGCTAGAG AGTGTGGGAC TAGGGGAACA TCGTGCACGC
    TTTTTAGAGC ATGAGATTGA AGGAGCACAC CTGCCTGCCT TGACCAAGGA CGATCTGGCA
    GAGTTAGGGG TGACACGGGT TGGACACAGA ATGAACATTG AACGTGCACT AAAGCAGTTG
    CTAGAAAGTT GA

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

    RefSeq XP_009298459.1
    CDS218..5149
    Translation

    Target ORF information:

    RefSeq Version XM_009300184.2
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009300184.2

    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
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATGGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AACGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTATTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACGGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCTCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATCGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTTGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGCGT CAAGGAGAAG GAGGGGAGAG
    AAGTTGGATG AGATGTTGAG TTCGCCAAAG GAACAGGTTG TAGTGATGAG GCAGCGGCCA
    GTGGATTCAG ACTCCAGAGC AGCCACTGTG AAACAGAGAC CCACAAGTCG CCGTATCACA
    CAGGCTGAGA TCAGTTCTTT GTTAGAAAGG CAGGGTTTGC CAATAAGCGA ATTATCTTTG
    GCTGTAGACA AAAGTCACAT GCAGCTCCCT CGGGGGATGT CAAGAACCAA GTCATTTGGT
    GCTCCTGAGG ATGATAGAAT CTCAGCCCTG ATCGGAGAGC ATCGCTTTCC AAGAAGTTCC
    TCAATGACTG ACAGCTTTAG ACAAGATAGC ATCCCACCCC CTCCACAGAC AGCTCCCCCA
    CCACCTCCGA CTCCCTATTT CCTTGATTCA GGGCCACCTC CATCCTTTCT TCCACCTCCG
    CCCCCTTCAC GTGCTGCCAA CCAGAGTCGC TCAAGCTTCC GCCCAGGAGC AGAGCCGAAA
    ATCCATGGCC CAGTCACAAC AGATCGCCAG CGAAAAACAC GCTCCATGAT CATTCTTCAG
    GACACCAGCC ATTTGCCAGT GGAGCCTACC CCTATTACAA GACCGCAAAC GCCTACCTCT
    GGACCGGTTC CTCCAGAGCG TGGTCGTAGG CGTGGACCAC CTGTGGAGAA TCCGTATGCT
    AATGTAGGTC GATTAAGTGC TGTCTATACT CCCACCAAAC CTCAGCGTAG AAAGAGCCCA
    CTAGTCAAAC AAGGACCAGT CGAGGAGGGA GCTGCTGCTC ATTCTAGCCG AGACCCTTCT
    CCATTGGGAG GTTCACGAAT TCCTCACAGC AGCCGGGCGG AGCAGTTCCA ACAGCAGGTT
    CTCTCCGAGC GAGCTAGGAT CACACCTCCT GGGGCTCGAC GCAGGCCTAG CGTTTTTCTG
    TCTGTAGAAG GGGGAGCAAC AGAGCCACAG ACAACTCCAT TACTCTCTCA GTCTCACTCA
    GTGGATGAGT TGGCTGAGTT ACCTCCACCT GCACCAATGC TCTCTCCTGG CCCACCACCA
    GGGGGGACAA CTTTTATACA CCCTCTAACA GGTCGACCAC TCGATCCTTC ATCACCTTTA
    GCACTTGCAC TGGCTGCACG AGAACGTGCA CTTAGTGGCC GAAATACACC CACCCCCACA
    CCTTCGCCCA CACCTTCGCC CACTCAAGGT AGAGCAGTGG AAAGGCCCGA GACAGAAGGA
    GGAGCAACAC CACCTGCTCC TCTTGAGGCT CCTCCATCTA ATTCCTGGAG AGATGAACCA
    GTCAGCATCA CAGAAACGGC CAGCCAAGTG ACTAGTGGTA GCCCAGGGTC TGGAAGAAGC
    CTTGAAGAGG CGCTCGCTCC ACCCGGGGTG CAAAATATCC AACCTGCGCT GATGGATACA
    GAACATACCC CACCAGCAGT CCCACCCACT CTACCTTCCC CTGCCCCTAC TCTTTCCAAT
    CTGACTGCTC GAAGTATGAC TATGAGCTCA GAGGAGGAAG CGGAGCCCTA CACAGTGACA
    CTTCCCCCTG CATTGCTCTC ATCCAGTGAT GAGGAAACCA GAGAGGAGCT TCGGAAAATA
    GGCCTGGTTC CACCGCCTCA ACCTTTTGCT AATGGCCTTC TAATTAAAGA AACATCCAAA
    GCCACTCTGA GCATTTCACC TAGCGGGTCA CGGCCATCCA TTGCTAAGAC CTCCTCTGGT
    AAAGCAAGTG ATTCAACAGC AGACTCTGGG GTTGAAGACC CTCATATGGA GACCACCAGT
    ACTGTTTCCA CAGTCTCCAG CATGTCCACT TTGTCTTCAG AGAGCACAGA CTCCGCTCAT
    GCAAGCAAAC CACGTTGTGG GGTGGGGCGT GGTCGCCCCG CCCATCTCAG GGACCCACTG
    CTTAAACAGT CATCAGACAG TGAGCTGCTT CCACACCCAC CCAGCACAGG CCCCAGCCGT
    CCTCGCTACC TATTCCAAAG ACGTTCCAAA CTGTGGGGGG AGGAGCCCCG GGCCCAGATG
    GGGTCATCAG ATGAAAGTCG GCCTGCTGCT ATGGGGGCAG AGTTGCTTAG CAAAGACACT
    CATTCACTGG GTGAGGAGCC ACCAATGGGA GCACCACTTG ACCCTGGCAG GAGATCGCCT
    GTGGGAGGTG CCAGATGTGA GGAGAATGGA GGAGAGAGTA AATCACTTTT TAGTAGTTTA
    GGAGAGCTTC ACACCATCTC ACAAAGGAGT TACGGCACCA CCTTTACAAT CCGACCTGGC
    AGCCGATACC CAGTGACCCG TAGGACTCCA AGCCCTGGAG CCACCCCAGA ACGGAGTGAA
    CCATTGGGGC CTGTCCGTAC ATTCGGCCCA CATCACCACC ATCATACAAT CCTCAAGTCT
    TCTAGCCTAA GTTTGCCCCA GGAGCCCAAG GAGGTTCGTT TTGTCATGAG GAGTGCTAGT
    GCTCGAGCCC GCAGCCGCTC TCCATCCCCT TCTCCATGTG CCTCCCCCTG CCCCTCGCCG
    GTACTGGGAG CCCCTCTCCT GGCCCTGCGA CCGTTCAGAC AGCGCCCCCT AGCACTGTGG
    AGTAAGTATG ATGTGGGAGA GTGGCTAGAG AGTGTGGGAC TAGGGGAACA TCGTGCACGC
    TTTTTAGAGC ATGAGATTGA AGGAGCACAC CTGCCTGCCT TGACCAAGGA CGATCTGGCA
    GAGTTAGGGG TGACACGGGT TGGACACAGA ATGAACATTG AACGTGCACT AAAGCAGTTG
    CTAGAAAGTT GA

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

    CloneID ODa09212
    Clone ID Related Accession (Same CDS sequence) XM_009300184.2 , XM_005164598.3 , XM_009300183.3 , XM_009300183.2 , XM_005164598.4 , XM_009300184.3
    Accession Version XM_005164598.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4932bp)
    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 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product SH3 and multiple ankyrin repeat domains protein 3 isoform X1
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007115.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_005164598.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 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
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATGGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AACGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTATTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACGGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCTCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATCGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTTGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGCGT CAAGGAGAAG GAGGGGAGAG
    AAGTTGGATG AGATGTTGAG TTCGCCAAAG GAACAGGTTG TAGTGATGAG GCAGCGGCCA
    GTGGATTCAG ACTCCAGAGC AGCCACTGTG AAACAGAGAC CCACAAGTCG CCGTATCACA
    CAGGCTGAGA TCAGTTCTTT GTTAGAAAGG CAGGGTTTGC CAATAAGCGA ATTATCTTTG
    GCTGTAGACA AAAGTCACAT GCAGCTCCCT CGGGGGATGT CAAGAACCAA GTCATTTGGT
    GCTCCTGAGG ATGATAGAAT CTCAGCCCTG ATCGGAGAGC ATCGCTTTCC AAGAAGTTCC
    TCAATGACTG ACAGCTTTAG ACAAGATAGC ATCCCACCCC CTCCACAGAC AGCTCCCCCA
    CCACCTCCGA CTCCCTATTT CCTTGATTCA GGGCCACCTC CATCCTTTCT TCCACCTCCG
    CCCCCTTCAC GTGCTGCCAA CCAGAGTCGC TCAAGCTTCC GCCCAGGAGC AGAGCCGAAA
    ATCCATGGCC CAGTCACAAC AGATCGCCAG CGAAAAACAC GCTCCATGAT CATTCTTCAG
    GACACCAGCC ATTTGCCAGT GGAGCCTACC CCTATTACAA GACCGCAAAC GCCTACCTCT
    GGACCGGTTC CTCCAGAGCG TGGTCGTAGG CGTGGACCAC CTGTGGAGAA TCCGTATGCT
    AATGTAGGTC GATTAAGTGC TGTCTATACT CCCACCAAAC CTCAGCGTAG AAAGAGCCCA
    CTAGTCAAAC AAGGACCAGT CGAGGAGGGA GCTGCTGCTC ATTCTAGCCG AGACCCTTCT
    CCATTGGGAG GTTCACGAAT TCCTCACAGC AGCCGGGCGG AGCAGTTCCA ACAGCAGGTT
    CTCTCCGAGC GAGCTAGGAT CACACCTCCT GGGGCTCGAC GCAGGCCTAG CGTTTTTCTG
    TCTGTAGAAG GGGGAGCAAC AGAGCCACAG ACAACTCCAT TACTCTCTCA GTCTCACTCA
    GTGGATGAGT TGGCTGAGTT ACCTCCACCT GCACCAATGC TCTCTCCTGG CCCACCACCA
    GGGGGGACAA CTTTTATACA CCCTCTAACA GGTCGACCAC TCGATCCTTC ATCACCTTTA
    GCACTTGCAC TGGCTGCACG AGAACGTGCA CTTAGTGGCC GAAATACACC CACCCCCACA
    CCTTCGCCCA CACCTTCGCC CACTCAAGGT AGAGCAGTGG AAAGGCCCGA GACAGAAGGA
    GGAGCAACAC CACCTGCTCC TCTTGAGGCT CCTCCATCTA ATTCCTGGAG AGATGAACCA
    GTCAGCATCA CAGAAACGGC CAGCCAAGTG ACTAGTGGTA GCCCAGGGTC TGGAAGAAGC
    CTTGAAGAGG CGCTCGCTCC ACCCGGGGTG CAAAATATCC AACCTGCGCT GATGGATACA
    GAACATACCC CACCAGCAGT CCCACCCACT CTACCTTCCC CTGCCCCTAC TCTTTCCAAT
    CTGACTGCTC GAAGTATGAC TATGAGCTCA GAGGAGGAAG CGGAGCCCTA CACAGTGACA
    CTTCCCCCTG CATTGCTCTC ATCCAGTGAT GAGGAAACCA GAGAGGAGCT TCGGAAAATA
    GGCCTGGTTC CACCGCCTCA ACCTTTTGCT AATGGCCTTC TAATTAAAGA AACATCCAAA
    GCCACTCTGA GCATTTCACC TAGCGGGTCA CGGCCATCCA TTGCTAAGAC CTCCTCTGGT
    AAAGCAAGTG ATTCAACAGC AGACTCTGGG GTTGAAGACC CTCATATGGA GACCACCAGT
    ACTGTTTCCA CAGTCTCCAG CATGTCCACT TTGTCTTCAG AGAGCACAGA CTCCGCTCAT
    GCAAGCAAAC CACGTTGTGG GGTGGGGCGT GGTCGCCCCG CCCATCTCAG GGACCCACTG
    CTTAAACAGT CATCAGACAG TGAGCTGCTT CCACACCCAC CCAGCACAGG CCCCAGCCGT
    CCTCGCTACC TATTCCAAAG ACGTTCCAAA CTGTGGGGGG AGGAGCCCCG GGCCCAGATG
    GGGTCATCAG ATGAAAGTCG GCCTGCTGCT ATGGGGGCAG AGTTGCTTAG CAAAGACACT
    CATTCACTGG GTGAGGAGCC ACCAATGGGA GCACCACTTG ACCCTGGCAG GAGATCGCCT
    GTGGGAGGTG CCAGATGTGA GGAGAATGGA GGAGAGAGTA AATCACTTTT TAGTAGTTTA
    GGAGAGCTTC ACACCATCTC ACAAAGGAGT TACGGCACCA CCTTTACAAT CCGACCTGGC
    AGCCGATACC CAGTGACCCG TAGGACTCCA AGCCCTGGAG CCACCCCAGA ACGGAGTGAA
    CCATTGGGGC CTGTCCGTAC ATTCGGCCCA CATCACCACC ATCATACAAT CCTCAAGTCT
    TCTAGCCTAA GTTTGCCCCA GGAGCCCAAG GAGGTTCGTT TTGTCATGAG GAGTGCTAGT
    GCTCGAGCCC GCAGCCGCTC TCCATCCCCT TCTCCATGTG CCTCCCCCTG CCCCTCGCCG
    GTACTGGGAG CCCCTCTCCT GGCCCTGCGA CCGTTCAGAC AGCGCCCCCT AGCACTGTGG
    AGTAAGTATG ATGTGGGAGA GTGGCTAGAG AGTGTGGGAC TAGGGGAACA TCGTGCACGC
    TTTTTAGAGC ATGAGATTGA AGGAGCACAC CTGCCTGCCT TGACCAAGGA CGATCTGGCA
    GAGTTAGGGG TGACACGGGT TGGACACAGA ATGAACATTG AACGTGCACT AAAGCAGTTG
    CTAGAAAGTT GA

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

    RefSeq XP_005164655.1
    CDS189..5120
    Translation

    Target ORF information:

    RefSeq Version XM_005164598.3
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005164598.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    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
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATGGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AACGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTATTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACGGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCTCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATCGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTTGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGCGT CAAGGAGAAG GAGGGGAGAG
    AAGTTGGATG AGATGTTGAG TTCGCCAAAG GAACAGGTTG TAGTGATGAG GCAGCGGCCA
    GTGGATTCAG ACTCCAGAGC AGCCACTGTG AAACAGAGAC CCACAAGTCG CCGTATCACA
    CAGGCTGAGA TCAGTTCTTT GTTAGAAAGG CAGGGTTTGC CAATAAGCGA ATTATCTTTG
    GCTGTAGACA AAAGTCACAT GCAGCTCCCT CGGGGGATGT CAAGAACCAA GTCATTTGGT
    GCTCCTGAGG ATGATAGAAT CTCAGCCCTG ATCGGAGAGC ATCGCTTTCC AAGAAGTTCC
    TCAATGACTG ACAGCTTTAG ACAAGATAGC ATCCCACCCC CTCCACAGAC AGCTCCCCCA
    CCACCTCCGA CTCCCTATTT CCTTGATTCA GGGCCACCTC CATCCTTTCT TCCACCTCCG
    CCCCCTTCAC GTGCTGCCAA CCAGAGTCGC TCAAGCTTCC GCCCAGGAGC AGAGCCGAAA
    ATCCATGGCC CAGTCACAAC AGATCGCCAG CGAAAAACAC GCTCCATGAT CATTCTTCAG
    GACACCAGCC ATTTGCCAGT GGAGCCTACC CCTATTACAA GACCGCAAAC GCCTACCTCT
    GGACCGGTTC CTCCAGAGCG TGGTCGTAGG CGTGGACCAC CTGTGGAGAA TCCGTATGCT
    AATGTAGGTC GATTAAGTGC TGTCTATACT CCCACCAAAC CTCAGCGTAG AAAGAGCCCA
    CTAGTCAAAC AAGGACCAGT CGAGGAGGGA GCTGCTGCTC ATTCTAGCCG AGACCCTTCT
    CCATTGGGAG GTTCACGAAT TCCTCACAGC AGCCGGGCGG AGCAGTTCCA ACAGCAGGTT
    CTCTCCGAGC GAGCTAGGAT CACACCTCCT GGGGCTCGAC GCAGGCCTAG CGTTTTTCTG
    TCTGTAGAAG GGGGAGCAAC AGAGCCACAG ACAACTCCAT TACTCTCTCA GTCTCACTCA
    GTGGATGAGT TGGCTGAGTT ACCTCCACCT GCACCAATGC TCTCTCCTGG CCCACCACCA
    GGGGGGACAA CTTTTATACA CCCTCTAACA GGTCGACCAC TCGATCCTTC ATCACCTTTA
    GCACTTGCAC TGGCTGCACG AGAACGTGCA CTTAGTGGCC GAAATACACC CACCCCCACA
    CCTTCGCCCA CACCTTCGCC CACTCAAGGT AGAGCAGTGG AAAGGCCCGA GACAGAAGGA
    GGAGCAACAC CACCTGCTCC TCTTGAGGCT CCTCCATCTA ATTCCTGGAG AGATGAACCA
    GTCAGCATCA CAGAAACGGC CAGCCAAGTG ACTAGTGGTA GCCCAGGGTC TGGAAGAAGC
    CTTGAAGAGG CGCTCGCTCC ACCCGGGGTG CAAAATATCC AACCTGCGCT GATGGATACA
    GAACATACCC CACCAGCAGT CCCACCCACT CTACCTTCCC CTGCCCCTAC TCTTTCCAAT
    CTGACTGCTC GAAGTATGAC TATGAGCTCA GAGGAGGAAG CGGAGCCCTA CACAGTGACA
    CTTCCCCCTG CATTGCTCTC ATCCAGTGAT GAGGAAACCA GAGAGGAGCT TCGGAAAATA
    GGCCTGGTTC CACCGCCTCA ACCTTTTGCT AATGGCCTTC TAATTAAAGA AACATCCAAA
    GCCACTCTGA GCATTTCACC TAGCGGGTCA CGGCCATCCA TTGCTAAGAC CTCCTCTGGT
    AAAGCAAGTG ATTCAACAGC AGACTCTGGG GTTGAAGACC CTCATATGGA GACCACCAGT
    ACTGTTTCCA CAGTCTCCAG CATGTCCACT TTGTCTTCAG AGAGCACAGA CTCCGCTCAT
    GCAAGCAAAC CACGTTGTGG GGTGGGGCGT GGTCGCCCCG CCCATCTCAG GGACCCACTG
    CTTAAACAGT CATCAGACAG TGAGCTGCTT CCACACCCAC CCAGCACAGG CCCCAGCCGT
    CCTCGCTACC TATTCCAAAG ACGTTCCAAA CTGTGGGGGG AGGAGCCCCG GGCCCAGATG
    GGGTCATCAG ATGAAAGTCG GCCTGCTGCT ATGGGGGCAG AGTTGCTTAG CAAAGACACT
    CATTCACTGG GTGAGGAGCC ACCAATGGGA GCACCACTTG ACCCTGGCAG GAGATCGCCT
    GTGGGAGGTG CCAGATGTGA GGAGAATGGA GGAGAGAGTA AATCACTTTT TAGTAGTTTA
    GGAGAGCTTC ACACCATCTC ACAAAGGAGT TACGGCACCA CCTTTACAAT CCGACCTGGC
    AGCCGATACC CAGTGACCCG TAGGACTCCA AGCCCTGGAG CCACCCCAGA ACGGAGTGAA
    CCATTGGGGC CTGTCCGTAC ATTCGGCCCA CATCACCACC ATCATACAAT CCTCAAGTCT
    TCTAGCCTAA GTTTGCCCCA GGAGCCCAAG GAGGTTCGTT TTGTCATGAG GAGTGCTAGT
    GCTCGAGCCC GCAGCCGCTC TCCATCCCCT TCTCCATGTG CCTCCCCCTG CCCCTCGCCG
    GTACTGGGAG CCCCTCTCCT GGCCCTGCGA CCGTTCAGAC AGCGCCCCCT AGCACTGTGG
    AGTAAGTATG ATGTGGGAGA GTGGCTAGAG AGTGTGGGAC TAGGGGAACA TCGTGCACGC
    TTTTTAGAGC ATGAGATTGA AGGAGCACAC CTGCCTGCCT TGACCAAGGA CGATCTGGCA
    GAGTTAGGGG TGACACGGGT TGGACACAGA ATGAACATTG AACGTGCACT AAAGCAGTTG
    CTAGAAAGTT GA

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

    CloneID ODa09212
    Clone ID Related Accession (Same CDS sequence) XM_009300184.2 , XM_005164598.3 , XM_009300183.3 , XM_009300183.2 , XM_005164598.4 , XM_009300184.3
    Accession Version XM_009300183.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4932bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-06-14
    Organism Danio rerio(zebrafish)
    Product SH3 and multiple ankyrin repeat domains protein 3 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007115.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_009300183.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 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
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATGGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AACGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTATTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACGGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCTCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATCGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTTGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGCGT CAAGGAGAAG GAGGGGAGAG
    AAGTTGGATG AGATGTTGAG TTCGCCAAAG GAACAGGTTG TAGTGATGAG GCAGCGGCCA
    GTGGATTCAG ACTCCAGAGC AGCCACTGTG AAACAGAGAC CCACAAGTCG CCGTATCACA
    CAGGCTGAGA TCAGTTCTTT GTTAGAAAGG CAGGGTTTGC CAATAAGCGA ATTATCTTTG
    GCTGTAGACA AAAGTCACAT GCAGCTCCCT CGGGGGATGT CAAGAACCAA GTCATTTGGT
    GCTCCTGAGG ATGATAGAAT CTCAGCCCTG ATCGGAGAGC ATCGCTTTCC AAGAAGTTCC
    TCAATGACTG ACAGCTTTAG ACAAGATAGC ATCCCACCCC CTCCACAGAC AGCTCCCCCA
    CCACCTCCGA CTCCCTATTT CCTTGATTCA GGGCCACCTC CATCCTTTCT TCCACCTCCG
    CCCCCTTCAC GTGCTGCCAA CCAGAGTCGC TCAAGCTTCC GCCCAGGAGC AGAGCCGAAA
    ATCCATGGCC CAGTCACAAC AGATCGCCAG CGAAAAACAC GCTCCATGAT CATTCTTCAG
    GACACCAGCC ATTTGCCAGT GGAGCCTACC CCTATTACAA GACCGCAAAC GCCTACCTCT
    GGACCGGTTC CTCCAGAGCG TGGTCGTAGG CGTGGACCAC CTGTGGAGAA TCCGTATGCT
    AATGTAGGTC GATTAAGTGC TGTCTATACT CCCACCAAAC CTCAGCGTAG AAAGAGCCCA
    CTAGTCAAAC AAGGACCAGT CGAGGAGGGA GCTGCTGCTC ATTCTAGCCG AGACCCTTCT
    CCATTGGGAG GTTCACGAAT TCCTCACAGC AGCCGGGCGG AGCAGTTCCA ACAGCAGGTT
    CTCTCCGAGC GAGCTAGGAT CACACCTCCT GGGGCTCGAC GCAGGCCTAG CGTTTTTCTG
    TCTGTAGAAG GGGGAGCAAC AGAGCCACAG ACAACTCCAT TACTCTCTCA GTCTCACTCA
    GTGGATGAGT TGGCTGAGTT ACCTCCACCT GCACCAATGC TCTCTCCTGG CCCACCACCA
    GGGGGGACAA CTTTTATACA CCCTCTAACA GGTCGACCAC TCGATCCTTC ATCACCTTTA
    GCACTTGCAC TGGCTGCACG AGAACGTGCA CTTAGTGGCC GAAATACACC CACCCCCACA
    CCTTCGCCCA CACCTTCGCC CACTCAAGGT AGAGCAGTGG AAAGGCCCGA GACAGAAGGA
    GGAGCAACAC CACCTGCTCC TCTTGAGGCT CCTCCATCTA ATTCCTGGAG AGATGAACCA
    GTCAGCATCA CAGAAACGGC CAGCCAAGTG ACTAGTGGTA GCCCAGGGTC TGGAAGAAGC
    CTTGAAGAGG CGCTCGCTCC ACCCGGGGTG CAAAATATCC AACCTGCGCT GATGGATACA
    GAACATACCC CACCAGCAGT CCCACCCACT CTACCTTCCC CTGCCCCTAC TCTTTCCAAT
    CTGACTGCTC GAAGTATGAC TATGAGCTCA GAGGAGGAAG CGGAGCCCTA CACAGTGACA
    CTTCCCCCTG CATTGCTCTC ATCCAGTGAT GAGGAAACCA GAGAGGAGCT TCGGAAAATA
    GGCCTGGTTC CACCGCCTCA ACCTTTTGCT AATGGCCTTC TAATTAAAGA AACATCCAAA
    GCCACTCTGA GCATTTCACC TAGCGGGTCA CGGCCATCCA TTGCTAAGAC CTCCTCTGGT
    AAAGCAAGTG ATTCAACAGC AGACTCTGGG GTTGAAGACC CTCATATGGA GACCACCAGT
    ACTGTTTCCA CAGTCTCCAG CATGTCCACT TTGTCTTCAG AGAGCACAGA CTCCGCTCAT
    GCAAGCAAAC CACGTTGTGG GGTGGGGCGT GGTCGCCCCG CCCATCTCAG GGACCCACTG
    CTTAAACAGT CATCAGACAG TGAGCTGCTT CCACACCCAC CCAGCACAGG CCCCAGCCGT
    CCTCGCTACC TATTCCAAAG ACGTTCCAAA CTGTGGGGGG AGGAGCCCCG GGCCCAGATG
    GGGTCATCAG ATGAAAGTCG GCCTGCTGCT ATGGGGGCAG AGTTGCTTAG CAAAGACACT
    CATTCACTGG GTGAGGAGCC ACCAATGGGA GCACCACTTG ACCCTGGCAG GAGATCGCCT
    GTGGGAGGTG CCAGATGTGA GGAGAATGGA GGAGAGAGTA AATCACTTTT TAGTAGTTTA
    GGAGAGCTTC ACACCATCTC ACAAAGGAGT TACGGCACCA CCTTTACAAT CCGACCTGGC
    AGCCGATACC CAGTGACCCG TAGGACTCCA AGCCCTGGAG CCACCCCAGA ACGGAGTGAA
    CCATTGGGGC CTGTCCGTAC ATTCGGCCCA CATCACCACC ATCATACAAT CCTCAAGTCT
    TCTAGCCTAA GTTTGCCCCA GGAGCCCAAG GAGGTTCGTT TTGTCATGAG GAGTGCTAGT
    GCTCGAGCCC GCAGCCGCTC TCCATCCCCT TCTCCATGTG CCTCCCCCTG CCCCTCGCCG
    GTACTGGGAG CCCCTCTCCT GGCCCTGCGA CCGTTCAGAC AGCGCCCCCT AGCACTGTGG
    AGTAAGTATG ATGTGGGAGA GTGGCTAGAG AGTGTGGGAC TAGGGGAACA TCGTGCACGC
    TTTTTAGAGC ATGAGATTGA AGGAGCACAC CTGCCTGCCT TGACCAAGGA CGATCTGGCA
    GAGTTAGGGG TGACACGGGT TGGACACAGA ATGAACATTG AACGTGCACT AAAGCAGTTG
    CTAGAAAGTT GA

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

    RefSeq XP_009298458.1
    CDS207..5138
    Translation

    Target ORF information:

    RefSeq Version XM_009300183.3
    Organism Danio rerio(zebrafish)
    Definition Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009300183.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    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
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATGGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AACGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTATTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACGGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCTCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATCGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTTGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGCGT CAAGGAGAAG GAGGGGAGAG
    AAGTTGGATG AGATGTTGAG TTCGCCAAAG GAACAGGTTG TAGTGATGAG GCAGCGGCCA
    GTGGATTCAG ACTCCAGAGC AGCCACTGTG AAACAGAGAC CCACAAGTCG CCGTATCACA
    CAGGCTGAGA TCAGTTCTTT GTTAGAAAGG CAGGGTTTGC CAATAAGCGA ATTATCTTTG
    GCTGTAGACA AAAGTCACAT GCAGCTCCCT CGGGGGATGT CAAGAACCAA GTCATTTGGT
    GCTCCTGAGG ATGATAGAAT CTCAGCCCTG ATCGGAGAGC ATCGCTTTCC AAGAAGTTCC
    TCAATGACTG ACAGCTTTAG ACAAGATAGC ATCCCACCCC CTCCACAGAC AGCTCCCCCA
    CCACCTCCGA CTCCCTATTT CCTTGATTCA GGGCCACCTC CATCCTTTCT TCCACCTCCG
    CCCCCTTCAC GTGCTGCCAA CCAGAGTCGC TCAAGCTTCC GCCCAGGAGC AGAGCCGAAA
    ATCCATGGCC CAGTCACAAC AGATCGCCAG CGAAAAACAC GCTCCATGAT CATTCTTCAG
    GACACCAGCC ATTTGCCAGT GGAGCCTACC CCTATTACAA GACCGCAAAC GCCTACCTCT
    GGACCGGTTC CTCCAGAGCG TGGTCGTAGG CGTGGACCAC CTGTGGAGAA TCCGTATGCT
    AATGTAGGTC GATTAAGTGC TGTCTATACT CCCACCAAAC CTCAGCGTAG AAAGAGCCCA
    CTAGTCAAAC AAGGACCAGT CGAGGAGGGA GCTGCTGCTC ATTCTAGCCG AGACCCTTCT
    CCATTGGGAG GTTCACGAAT TCCTCACAGC AGCCGGGCGG AGCAGTTCCA ACAGCAGGTT
    CTCTCCGAGC GAGCTAGGAT CACACCTCCT GGGGCTCGAC GCAGGCCTAG CGTTTTTCTG
    TCTGTAGAAG GGGGAGCAAC AGAGCCACAG ACAACTCCAT TACTCTCTCA GTCTCACTCA
    GTGGATGAGT TGGCTGAGTT ACCTCCACCT GCACCAATGC TCTCTCCTGG CCCACCACCA
    GGGGGGACAA CTTTTATACA CCCTCTAACA GGTCGACCAC TCGATCCTTC ATCACCTTTA
    GCACTTGCAC TGGCTGCACG AGAACGTGCA CTTAGTGGCC GAAATACACC CACCCCCACA
    CCTTCGCCCA CACCTTCGCC CACTCAAGGT AGAGCAGTGG AAAGGCCCGA GACAGAAGGA
    GGAGCAACAC CACCTGCTCC TCTTGAGGCT CCTCCATCTA ATTCCTGGAG AGATGAACCA
    GTCAGCATCA CAGAAACGGC CAGCCAAGTG ACTAGTGGTA GCCCAGGGTC TGGAAGAAGC
    CTTGAAGAGG CGCTCGCTCC ACCCGGGGTG CAAAATATCC AACCTGCGCT GATGGATACA
    GAACATACCC CACCAGCAGT CCCACCCACT CTACCTTCCC CTGCCCCTAC TCTTTCCAAT
    CTGACTGCTC GAAGTATGAC TATGAGCTCA GAGGAGGAAG CGGAGCCCTA CACAGTGACA
    CTTCCCCCTG CATTGCTCTC ATCCAGTGAT GAGGAAACCA GAGAGGAGCT TCGGAAAATA
    GGCCTGGTTC CACCGCCTCA ACCTTTTGCT AATGGCCTTC TAATTAAAGA AACATCCAAA
    GCCACTCTGA GCATTTCACC TAGCGGGTCA CGGCCATCCA TTGCTAAGAC CTCCTCTGGT
    AAAGCAAGTG ATTCAACAGC AGACTCTGGG GTTGAAGACC CTCATATGGA GACCACCAGT
    ACTGTTTCCA CAGTCTCCAG CATGTCCACT TTGTCTTCAG AGAGCACAGA CTCCGCTCAT
    GCAAGCAAAC CACGTTGTGG GGTGGGGCGT GGTCGCCCCG CCCATCTCAG GGACCCACTG
    CTTAAACAGT CATCAGACAG TGAGCTGCTT CCACACCCAC CCAGCACAGG CCCCAGCCGT
    CCTCGCTACC TATTCCAAAG ACGTTCCAAA CTGTGGGGGG AGGAGCCCCG GGCCCAGATG
    GGGTCATCAG ATGAAAGTCG GCCTGCTGCT ATGGGGGCAG AGTTGCTTAG CAAAGACACT
    CATTCACTGG GTGAGGAGCC ACCAATGGGA GCACCACTTG ACCCTGGCAG GAGATCGCCT
    GTGGGAGGTG CCAGATGTGA GGAGAATGGA GGAGAGAGTA AATCACTTTT TAGTAGTTTA
    GGAGAGCTTC ACACCATCTC ACAAAGGAGT TACGGCACCA CCTTTACAAT CCGACCTGGC
    AGCCGATACC CAGTGACCCG TAGGACTCCA AGCCCTGGAG CCACCCCAGA ACGGAGTGAA
    CCATTGGGGC CTGTCCGTAC ATTCGGCCCA CATCACCACC ATCATACAAT CCTCAAGTCT
    TCTAGCCTAA GTTTGCCCCA GGAGCCCAAG GAGGTTCGTT TTGTCATGAG GAGTGCTAGT
    GCTCGAGCCC GCAGCCGCTC TCCATCCCCT TCTCCATGTG CCTCCCCCTG CCCCTCGCCG
    GTACTGGGAG CCCCTCTCCT GGCCCTGCGA CCGTTCAGAC AGCGCCCCCT AGCACTGTGG
    AGTAAGTATG ATGTGGGAGA GTGGCTAGAG AGTGTGGGAC TAGGGGAACA TCGTGCACGC
    TTTTTAGAGC ATGAGATTGA AGGAGCACAC CTGCCTGCCT TGACCAAGGA CGATCTGGCA
    GAGTTAGGGG TGACACGGGT TGGACACAGA ATGAACATTG AACGTGCACT AAAGCAGTTG
    CTAGAAAGTT GA

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

    CloneID ODa09212
    Clone ID Related Accession (Same CDS sequence) XM_009300184.2 , XM_005164598.3 , XM_009300183.3 , XM_009300183.2 , XM_005164598.4 , XM_009300184.3
    Accession Version XM_009300183.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4932bp)
    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 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product SH3 and multiple ankyrin repeat domains protein 3 isoform X1
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007115.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_009300183.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 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
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATGGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AACGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTATTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACGGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCTCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATCGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTTGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGCGT CAAGGAGAAG GAGGGGAGAG
    AAGTTGGATG AGATGTTGAG TTCGCCAAAG GAACAGGTTG TAGTGATGAG GCAGCGGCCA
    GTGGATTCAG ACTCCAGAGC AGCCACTGTG AAACAGAGAC CCACAAGTCG CCGTATCACA
    CAGGCTGAGA TCAGTTCTTT GTTAGAAAGG CAGGGTTTGC CAATAAGCGA ATTATCTTTG
    GCTGTAGACA AAAGTCACAT GCAGCTCCCT CGGGGGATGT CAAGAACCAA GTCATTTGGT
    GCTCCTGAGG ATGATAGAAT CTCAGCCCTG ATCGGAGAGC ATCGCTTTCC AAGAAGTTCC
    TCAATGACTG ACAGCTTTAG ACAAGATAGC ATCCCACCCC CTCCACAGAC AGCTCCCCCA
    CCACCTCCGA CTCCCTATTT CCTTGATTCA GGGCCACCTC CATCCTTTCT TCCACCTCCG
    CCCCCTTCAC GTGCTGCCAA CCAGAGTCGC TCAAGCTTCC GCCCAGGAGC AGAGCCGAAA
    ATCCATGGCC CAGTCACAAC AGATCGCCAG CGAAAAACAC GCTCCATGAT CATTCTTCAG
    GACACCAGCC ATTTGCCAGT GGAGCCTACC CCTATTACAA GACCGCAAAC GCCTACCTCT
    GGACCGGTTC CTCCAGAGCG TGGTCGTAGG CGTGGACCAC CTGTGGAGAA TCCGTATGCT
    AATGTAGGTC GATTAAGTGC TGTCTATACT CCCACCAAAC CTCAGCGTAG AAAGAGCCCA
    CTAGTCAAAC AAGGACCAGT CGAGGAGGGA GCTGCTGCTC ATTCTAGCCG AGACCCTTCT
    CCATTGGGAG GTTCACGAAT TCCTCACAGC AGCCGGGCGG AGCAGTTCCA ACAGCAGGTT
    CTCTCCGAGC GAGCTAGGAT CACACCTCCT GGGGCTCGAC GCAGGCCTAG CGTTTTTCTG
    TCTGTAGAAG GGGGAGCAAC AGAGCCACAG ACAACTCCAT TACTCTCTCA GTCTCACTCA
    GTGGATGAGT TGGCTGAGTT ACCTCCACCT GCACCAATGC TCTCTCCTGG CCCACCACCA
    GGGGGGACAA CTTTTATACA CCCTCTAACA GGTCGACCAC TCGATCCTTC ATCACCTTTA
    GCACTTGCAC TGGCTGCACG AGAACGTGCA CTTAGTGGCC GAAATACACC CACCCCCACA
    CCTTCGCCCA CACCTTCGCC CACTCAAGGT AGAGCAGTGG AAAGGCCCGA GACAGAAGGA
    GGAGCAACAC CACCTGCTCC TCTTGAGGCT CCTCCATCTA ATTCCTGGAG AGATGAACCA
    GTCAGCATCA CAGAAACGGC CAGCCAAGTG ACTAGTGGTA GCCCAGGGTC TGGAAGAAGC
    CTTGAAGAGG CGCTCGCTCC ACCCGGGGTG CAAAATATCC AACCTGCGCT GATGGATACA
    GAACATACCC CACCAGCAGT CCCACCCACT CTACCTTCCC CTGCCCCTAC TCTTTCCAAT
    CTGACTGCTC GAAGTATGAC TATGAGCTCA GAGGAGGAAG CGGAGCCCTA CACAGTGACA
    CTTCCCCCTG CATTGCTCTC ATCCAGTGAT GAGGAAACCA GAGAGGAGCT TCGGAAAATA
    GGCCTGGTTC CACCGCCTCA ACCTTTTGCT AATGGCCTTC TAATTAAAGA AACATCCAAA
    GCCACTCTGA GCATTTCACC TAGCGGGTCA CGGCCATCCA TTGCTAAGAC CTCCTCTGGT
    AAAGCAAGTG ATTCAACAGC AGACTCTGGG GTTGAAGACC CTCATATGGA GACCACCAGT
    ACTGTTTCCA CAGTCTCCAG CATGTCCACT TTGTCTTCAG AGAGCACAGA CTCCGCTCAT
    GCAAGCAAAC CACGTTGTGG GGTGGGGCGT GGTCGCCCCG CCCATCTCAG GGACCCACTG
    CTTAAACAGT CATCAGACAG TGAGCTGCTT CCACACCCAC CCAGCACAGG CCCCAGCCGT
    CCTCGCTACC TATTCCAAAG ACGTTCCAAA CTGTGGGGGG AGGAGCCCCG GGCCCAGATG
    GGGTCATCAG ATGAAAGTCG GCCTGCTGCT ATGGGGGCAG AGTTGCTTAG CAAAGACACT
    CATTCACTGG GTGAGGAGCC ACCAATGGGA GCACCACTTG ACCCTGGCAG GAGATCGCCT
    GTGGGAGGTG CCAGATGTGA GGAGAATGGA GGAGAGAGTA AATCACTTTT TAGTAGTTTA
    GGAGAGCTTC ACACCATCTC ACAAAGGAGT TACGGCACCA CCTTTACAAT CCGACCTGGC
    AGCCGATACC CAGTGACCCG TAGGACTCCA AGCCCTGGAG CCACCCCAGA ACGGAGTGAA
    CCATTGGGGC CTGTCCGTAC ATTCGGCCCA CATCACCACC ATCATACAAT CCTCAAGTCT
    TCTAGCCTAA GTTTGCCCCA GGAGCCCAAG GAGGTTCGTT TTGTCATGAG GAGTGCTAGT
    GCTCGAGCCC GCAGCCGCTC TCCATCCCCT TCTCCATGTG CCTCCCCCTG CCCCTCGCCG
    GTACTGGGAG CCCCTCTCCT GGCCCTGCGA CCGTTCAGAC AGCGCCCCCT AGCACTGTGG
    AGTAAGTATG ATGTGGGAGA GTGGCTAGAG AGTGTGGGAC TAGGGGAACA TCGTGCACGC
    TTTTTAGAGC ATGAGATTGA AGGAGCACAC CTGCCTGCCT TGACCAAGGA CGATCTGGCA
    GAGTTAGGGG TGACACGGGT TGGACACAGA ATGAACATTG AACGTGCACT AAAGCAGTTG
    CTAGAAAGTT GA

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

    RefSeq XP_009298458.1
    CDS235..5166
    Translation

    Target ORF information:

    RefSeq Version XM_009300183.2
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009300183.2

    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
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATGGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AACGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTATTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACGGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCTCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATCGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTTGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGCGT CAAGGAGAAG GAGGGGAGAG
    AAGTTGGATG AGATGTTGAG TTCGCCAAAG GAACAGGTTG TAGTGATGAG GCAGCGGCCA
    GTGGATTCAG ACTCCAGAGC AGCCACTGTG AAACAGAGAC CCACAAGTCG CCGTATCACA
    CAGGCTGAGA TCAGTTCTTT GTTAGAAAGG CAGGGTTTGC CAATAAGCGA ATTATCTTTG
    GCTGTAGACA AAAGTCACAT GCAGCTCCCT CGGGGGATGT CAAGAACCAA GTCATTTGGT
    GCTCCTGAGG ATGATAGAAT CTCAGCCCTG ATCGGAGAGC ATCGCTTTCC AAGAAGTTCC
    TCAATGACTG ACAGCTTTAG ACAAGATAGC ATCCCACCCC CTCCACAGAC AGCTCCCCCA
    CCACCTCCGA CTCCCTATTT CCTTGATTCA GGGCCACCTC CATCCTTTCT TCCACCTCCG
    CCCCCTTCAC GTGCTGCCAA CCAGAGTCGC TCAAGCTTCC GCCCAGGAGC AGAGCCGAAA
    ATCCATGGCC CAGTCACAAC AGATCGCCAG CGAAAAACAC GCTCCATGAT CATTCTTCAG
    GACACCAGCC ATTTGCCAGT GGAGCCTACC CCTATTACAA GACCGCAAAC GCCTACCTCT
    GGACCGGTTC CTCCAGAGCG TGGTCGTAGG CGTGGACCAC CTGTGGAGAA TCCGTATGCT
    AATGTAGGTC GATTAAGTGC TGTCTATACT CCCACCAAAC CTCAGCGTAG AAAGAGCCCA
    CTAGTCAAAC AAGGACCAGT CGAGGAGGGA GCTGCTGCTC ATTCTAGCCG AGACCCTTCT
    CCATTGGGAG GTTCACGAAT TCCTCACAGC AGCCGGGCGG AGCAGTTCCA ACAGCAGGTT
    CTCTCCGAGC GAGCTAGGAT CACACCTCCT GGGGCTCGAC GCAGGCCTAG CGTTTTTCTG
    TCTGTAGAAG GGGGAGCAAC AGAGCCACAG ACAACTCCAT TACTCTCTCA GTCTCACTCA
    GTGGATGAGT TGGCTGAGTT ACCTCCACCT GCACCAATGC TCTCTCCTGG CCCACCACCA
    GGGGGGACAA CTTTTATACA CCCTCTAACA GGTCGACCAC TCGATCCTTC ATCACCTTTA
    GCACTTGCAC TGGCTGCACG AGAACGTGCA CTTAGTGGCC GAAATACACC CACCCCCACA
    CCTTCGCCCA CACCTTCGCC CACTCAAGGT AGAGCAGTGG AAAGGCCCGA GACAGAAGGA
    GGAGCAACAC CACCTGCTCC TCTTGAGGCT CCTCCATCTA ATTCCTGGAG AGATGAACCA
    GTCAGCATCA CAGAAACGGC CAGCCAAGTG ACTAGTGGTA GCCCAGGGTC TGGAAGAAGC
    CTTGAAGAGG CGCTCGCTCC ACCCGGGGTG CAAAATATCC AACCTGCGCT GATGGATACA
    GAACATACCC CACCAGCAGT CCCACCCACT CTACCTTCCC CTGCCCCTAC TCTTTCCAAT
    CTGACTGCTC GAAGTATGAC TATGAGCTCA GAGGAGGAAG CGGAGCCCTA CACAGTGACA
    CTTCCCCCTG CATTGCTCTC ATCCAGTGAT GAGGAAACCA GAGAGGAGCT TCGGAAAATA
    GGCCTGGTTC CACCGCCTCA ACCTTTTGCT AATGGCCTTC TAATTAAAGA AACATCCAAA
    GCCACTCTGA GCATTTCACC TAGCGGGTCA CGGCCATCCA TTGCTAAGAC CTCCTCTGGT
    AAAGCAAGTG ATTCAACAGC AGACTCTGGG GTTGAAGACC CTCATATGGA GACCACCAGT
    ACTGTTTCCA CAGTCTCCAG CATGTCCACT TTGTCTTCAG AGAGCACAGA CTCCGCTCAT
    GCAAGCAAAC CACGTTGTGG GGTGGGGCGT GGTCGCCCCG CCCATCTCAG GGACCCACTG
    CTTAAACAGT CATCAGACAG TGAGCTGCTT CCACACCCAC CCAGCACAGG CCCCAGCCGT
    CCTCGCTACC TATTCCAAAG ACGTTCCAAA CTGTGGGGGG AGGAGCCCCG GGCCCAGATG
    GGGTCATCAG ATGAAAGTCG GCCTGCTGCT ATGGGGGCAG AGTTGCTTAG CAAAGACACT
    CATTCACTGG GTGAGGAGCC ACCAATGGGA GCACCACTTG ACCCTGGCAG GAGATCGCCT
    GTGGGAGGTG CCAGATGTGA GGAGAATGGA GGAGAGAGTA AATCACTTTT TAGTAGTTTA
    GGAGAGCTTC ACACCATCTC ACAAAGGAGT TACGGCACCA CCTTTACAAT CCGACCTGGC
    AGCCGATACC CAGTGACCCG TAGGACTCCA AGCCCTGGAG CCACCCCAGA ACGGAGTGAA
    CCATTGGGGC CTGTCCGTAC ATTCGGCCCA CATCACCACC ATCATACAAT CCTCAAGTCT
    TCTAGCCTAA GTTTGCCCCA GGAGCCCAAG GAGGTTCGTT TTGTCATGAG GAGTGCTAGT
    GCTCGAGCCC GCAGCCGCTC TCCATCCCCT TCTCCATGTG CCTCCCCCTG CCCCTCGCCG
    GTACTGGGAG CCCCTCTCCT GGCCCTGCGA CCGTTCAGAC AGCGCCCCCT AGCACTGTGG
    AGTAAGTATG ATGTGGGAGA GTGGCTAGAG AGTGTGGGAC TAGGGGAACA TCGTGCACGC
    TTTTTAGAGC ATGAGATTGA AGGAGCACAC CTGCCTGCCT TGACCAAGGA CGATCTGGCA
    GAGTTAGGGG TGACACGGGT TGGACACAGA ATGAACATTG AACGTGCACT AAAGCAGTTG
    CTAGAAAGTT GA

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

    CloneID ODa09212
    Clone ID Related Accession (Same CDS sequence) XM_009300184.2 , XM_005164598.3 , XM_009300183.3 , XM_009300183.2 , XM_005164598.4 , XM_009300184.3
    Accession Version XM_005164598.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4932bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-06-14
    Organism Danio rerio(zebrafish)
    Product SH3 and multiple ankyrin repeat domains protein 3 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007115.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_005164598.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 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
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATGGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AACGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTATTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACGGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCTCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATCGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTTGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGCGT CAAGGAGAAG GAGGGGAGAG
    AAGTTGGATG AGATGTTGAG TTCGCCAAAG GAACAGGTTG TAGTGATGAG GCAGCGGCCA
    GTGGATTCAG ACTCCAGAGC AGCCACTGTG AAACAGAGAC CCACAAGTCG CCGTATCACA
    CAGGCTGAGA TCAGTTCTTT GTTAGAAAGG CAGGGTTTGC CAATAAGCGA ATTATCTTTG
    GCTGTAGACA AAAGTCACAT GCAGCTCCCT CGGGGGATGT CAAGAACCAA GTCATTTGGT
    GCTCCTGAGG ATGATAGAAT CTCAGCCCTG ATCGGAGAGC ATCGCTTTCC AAGAAGTTCC
    TCAATGACTG ACAGCTTTAG ACAAGATAGC ATCCCACCCC CTCCACAGAC AGCTCCCCCA
    CCACCTCCGA CTCCCTATTT CCTTGATTCA GGGCCACCTC CATCCTTTCT TCCACCTCCG
    CCCCCTTCAC GTGCTGCCAA CCAGAGTCGC TCAAGCTTCC GCCCAGGAGC AGAGCCGAAA
    ATCCATGGCC CAGTCACAAC AGATCGCCAG CGAAAAACAC GCTCCATGAT CATTCTTCAG
    GACACCAGCC ATTTGCCAGT GGAGCCTACC CCTATTACAA GACCGCAAAC GCCTACCTCT
    GGACCGGTTC CTCCAGAGCG TGGTCGTAGG CGTGGACCAC CTGTGGAGAA TCCGTATGCT
    AATGTAGGTC GATTAAGTGC TGTCTATACT CCCACCAAAC CTCAGCGTAG AAAGAGCCCA
    CTAGTCAAAC AAGGACCAGT CGAGGAGGGA GCTGCTGCTC ATTCTAGCCG AGACCCTTCT
    CCATTGGGAG GTTCACGAAT TCCTCACAGC AGCCGGGCGG AGCAGTTCCA ACAGCAGGTT
    CTCTCCGAGC GAGCTAGGAT CACACCTCCT GGGGCTCGAC GCAGGCCTAG CGTTTTTCTG
    TCTGTAGAAG GGGGAGCAAC AGAGCCACAG ACAACTCCAT TACTCTCTCA GTCTCACTCA
    GTGGATGAGT TGGCTGAGTT ACCTCCACCT GCACCAATGC TCTCTCCTGG CCCACCACCA
    GGGGGGACAA CTTTTATACA CCCTCTAACA GGTCGACCAC TCGATCCTTC ATCACCTTTA
    GCACTTGCAC TGGCTGCACG AGAACGTGCA CTTAGTGGCC GAAATACACC CACCCCCACA
    CCTTCGCCCA CACCTTCGCC CACTCAAGGT AGAGCAGTGG AAAGGCCCGA GACAGAAGGA
    GGAGCAACAC CACCTGCTCC TCTTGAGGCT CCTCCATCTA ATTCCTGGAG AGATGAACCA
    GTCAGCATCA CAGAAACGGC CAGCCAAGTG ACTAGTGGTA GCCCAGGGTC TGGAAGAAGC
    CTTGAAGAGG CGCTCGCTCC ACCCGGGGTG CAAAATATCC AACCTGCGCT GATGGATACA
    GAACATACCC CACCAGCAGT CCCACCCACT CTACCTTCCC CTGCCCCTAC TCTTTCCAAT
    CTGACTGCTC GAAGTATGAC TATGAGCTCA GAGGAGGAAG CGGAGCCCTA CACAGTGACA
    CTTCCCCCTG CATTGCTCTC ATCCAGTGAT GAGGAAACCA GAGAGGAGCT TCGGAAAATA
    GGCCTGGTTC CACCGCCTCA ACCTTTTGCT AATGGCCTTC TAATTAAAGA AACATCCAAA
    GCCACTCTGA GCATTTCACC TAGCGGGTCA CGGCCATCCA TTGCTAAGAC CTCCTCTGGT
    AAAGCAAGTG ATTCAACAGC AGACTCTGGG GTTGAAGACC CTCATATGGA GACCACCAGT
    ACTGTTTCCA CAGTCTCCAG CATGTCCACT TTGTCTTCAG AGAGCACAGA CTCCGCTCAT
    GCAAGCAAAC CACGTTGTGG GGTGGGGCGT GGTCGCCCCG CCCATCTCAG GGACCCACTG
    CTTAAACAGT CATCAGACAG TGAGCTGCTT CCACACCCAC CCAGCACAGG CCCCAGCCGT
    CCTCGCTACC TATTCCAAAG ACGTTCCAAA CTGTGGGGGG AGGAGCCCCG GGCCCAGATG
    GGGTCATCAG ATGAAAGTCG GCCTGCTGCT ATGGGGGCAG AGTTGCTTAG CAAAGACACT
    CATTCACTGG GTGAGGAGCC ACCAATGGGA GCACCACTTG ACCCTGGCAG GAGATCGCCT
    GTGGGAGGTG CCAGATGTGA GGAGAATGGA GGAGAGAGTA AATCACTTTT TAGTAGTTTA
    GGAGAGCTTC ACACCATCTC ACAAAGGAGT TACGGCACCA CCTTTACAAT CCGACCTGGC
    AGCCGATACC CAGTGACCCG TAGGACTCCA AGCCCTGGAG CCACCCCAGA ACGGAGTGAA
    CCATTGGGGC CTGTCCGTAC ATTCGGCCCA CATCACCACC ATCATACAAT CCTCAAGTCT
    TCTAGCCTAA GTTTGCCCCA GGAGCCCAAG GAGGTTCGTT TTGTCATGAG GAGTGCTAGT
    GCTCGAGCCC GCAGCCGCTC TCCATCCCCT TCTCCATGTG CCTCCCCCTG CCCCTCGCCG
    GTACTGGGAG CCCCTCTCCT GGCCCTGCGA CCGTTCAGAC AGCGCCCCCT AGCACTGTGG
    AGTAAGTATG ATGTGGGAGA GTGGCTAGAG AGTGTGGGAC TAGGGGAACA TCGTGCACGC
    TTTTTAGAGC ATGAGATTGA AGGAGCACAC CTGCCTGCCT TGACCAAGGA CGATCTGGCA
    GAGTTAGGGG TGACACGGGT TGGACACAGA ATGAACATTG AACGTGCACT AAAGCAGTTG
    CTAGAAAGTT GA

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

    RefSeq XP_005164655.1
    CDS336..5267
    Translation

    Target ORF information:

    RefSeq Version XM_005164598.4
    Organism Danio rerio(zebrafish)
    Definition Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005164598.4

    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
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATGGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AACGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTATTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACGGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCTCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATCGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTTGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGCGT CAAGGAGAAG GAGGGGAGAG
    AAGTTGGATG AGATGTTGAG TTCGCCAAAG GAACAGGTTG TAGTGATGAG GCAGCGGCCA
    GTGGATTCAG ACTCCAGAGC AGCCACTGTG AAACAGAGAC CCACAAGTCG CCGTATCACA
    CAGGCTGAGA TCAGTTCTTT GTTAGAAAGG CAGGGTTTGC CAATAAGCGA ATTATCTTTG
    GCTGTAGACA AAAGTCACAT GCAGCTCCCT CGGGGGATGT CAAGAACCAA GTCATTTGGT
    GCTCCTGAGG ATGATAGAAT CTCAGCCCTG ATCGGAGAGC ATCGCTTTCC AAGAAGTTCC
    TCAATGACTG ACAGCTTTAG ACAAGATAGC ATCCCACCCC CTCCACAGAC AGCTCCCCCA
    CCACCTCCGA CTCCCTATTT CCTTGATTCA GGGCCACCTC CATCCTTTCT TCCACCTCCG
    CCCCCTTCAC GTGCTGCCAA CCAGAGTCGC TCAAGCTTCC GCCCAGGAGC AGAGCCGAAA
    ATCCATGGCC CAGTCACAAC AGATCGCCAG CGAAAAACAC GCTCCATGAT CATTCTTCAG
    GACACCAGCC ATTTGCCAGT GGAGCCTACC CCTATTACAA GACCGCAAAC GCCTACCTCT
    GGACCGGTTC CTCCAGAGCG TGGTCGTAGG CGTGGACCAC CTGTGGAGAA TCCGTATGCT
    AATGTAGGTC GATTAAGTGC TGTCTATACT CCCACCAAAC CTCAGCGTAG AAAGAGCCCA
    CTAGTCAAAC AAGGACCAGT CGAGGAGGGA GCTGCTGCTC ATTCTAGCCG AGACCCTTCT
    CCATTGGGAG GTTCACGAAT TCCTCACAGC AGCCGGGCGG AGCAGTTCCA ACAGCAGGTT
    CTCTCCGAGC GAGCTAGGAT CACACCTCCT GGGGCTCGAC GCAGGCCTAG CGTTTTTCTG
    TCTGTAGAAG GGGGAGCAAC AGAGCCACAG ACAACTCCAT TACTCTCTCA GTCTCACTCA
    GTGGATGAGT TGGCTGAGTT ACCTCCACCT GCACCAATGC TCTCTCCTGG CCCACCACCA
    GGGGGGACAA CTTTTATACA CCCTCTAACA GGTCGACCAC TCGATCCTTC ATCACCTTTA
    GCACTTGCAC TGGCTGCACG AGAACGTGCA CTTAGTGGCC GAAATACACC CACCCCCACA
    CCTTCGCCCA CACCTTCGCC CACTCAAGGT AGAGCAGTGG AAAGGCCCGA GACAGAAGGA
    GGAGCAACAC CACCTGCTCC TCTTGAGGCT CCTCCATCTA ATTCCTGGAG AGATGAACCA
    GTCAGCATCA CAGAAACGGC CAGCCAAGTG ACTAGTGGTA GCCCAGGGTC TGGAAGAAGC
    CTTGAAGAGG CGCTCGCTCC ACCCGGGGTG CAAAATATCC AACCTGCGCT GATGGATACA
    GAACATACCC CACCAGCAGT CCCACCCACT CTACCTTCCC CTGCCCCTAC TCTTTCCAAT
    CTGACTGCTC GAAGTATGAC TATGAGCTCA GAGGAGGAAG CGGAGCCCTA CACAGTGACA
    CTTCCCCCTG CATTGCTCTC ATCCAGTGAT GAGGAAACCA GAGAGGAGCT TCGGAAAATA
    GGCCTGGTTC CACCGCCTCA ACCTTTTGCT AATGGCCTTC TAATTAAAGA AACATCCAAA
    GCCACTCTGA GCATTTCACC TAGCGGGTCA CGGCCATCCA TTGCTAAGAC CTCCTCTGGT
    AAAGCAAGTG ATTCAACAGC AGACTCTGGG GTTGAAGACC CTCATATGGA GACCACCAGT
    ACTGTTTCCA CAGTCTCCAG CATGTCCACT TTGTCTTCAG AGAGCACAGA CTCCGCTCAT
    GCAAGCAAAC CACGTTGTGG GGTGGGGCGT GGTCGCCCCG CCCATCTCAG GGACCCACTG
    CTTAAACAGT CATCAGACAG TGAGCTGCTT CCACACCCAC CCAGCACAGG CCCCAGCCGT
    CCTCGCTACC TATTCCAAAG ACGTTCCAAA CTGTGGGGGG AGGAGCCCCG GGCCCAGATG
    GGGTCATCAG ATGAAAGTCG GCCTGCTGCT ATGGGGGCAG AGTTGCTTAG CAAAGACACT
    CATTCACTGG GTGAGGAGCC ACCAATGGGA GCACCACTTG ACCCTGGCAG GAGATCGCCT
    GTGGGAGGTG CCAGATGTGA GGAGAATGGA GGAGAGAGTA AATCACTTTT TAGTAGTTTA
    GGAGAGCTTC ACACCATCTC ACAAAGGAGT TACGGCACCA CCTTTACAAT CCGACCTGGC
    AGCCGATACC CAGTGACCCG TAGGACTCCA AGCCCTGGAG CCACCCCAGA ACGGAGTGAA
    CCATTGGGGC CTGTCCGTAC ATTCGGCCCA CATCACCACC ATCATACAAT CCTCAAGTCT
    TCTAGCCTAA GTTTGCCCCA GGAGCCCAAG GAGGTTCGTT TTGTCATGAG GAGTGCTAGT
    GCTCGAGCCC GCAGCCGCTC TCCATCCCCT TCTCCATGTG CCTCCCCCTG CCCCTCGCCG
    GTACTGGGAG CCCCTCTCCT GGCCCTGCGA CCGTTCAGAC AGCGCCCCCT AGCACTGTGG
    AGTAAGTATG ATGTGGGAGA GTGGCTAGAG AGTGTGGGAC TAGGGGAACA TCGTGCACGC
    TTTTTAGAGC ATGAGATTGA AGGAGCACAC CTGCCTGCCT TGACCAAGGA CGATCTGGCA
    GAGTTAGGGG TGACACGGGT TGGACACAGA ATGAACATTG AACGTGCACT AAAGCAGTTG
    CTAGAAAGTT GA

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

    CloneID ODa09212
    Clone ID Related Accession (Same CDS sequence) XM_009300184.2 , XM_005164598.3 , XM_009300183.3 , XM_009300183.2 , XM_005164598.4 , XM_009300184.3
    Accession Version XM_009300184.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4932bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-06-14
    Organism Danio rerio(zebrafish)
    Product SH3 and multiple ankyrin repeat domains protein 3 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007115.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_009300184.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 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
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATGGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AACGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTATTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACGGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCTCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATCGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTTGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGCGT CAAGGAGAAG GAGGGGAGAG
    AAGTTGGATG AGATGTTGAG TTCGCCAAAG GAACAGGTTG TAGTGATGAG GCAGCGGCCA
    GTGGATTCAG ACTCCAGAGC AGCCACTGTG AAACAGAGAC CCACAAGTCG CCGTATCACA
    CAGGCTGAGA TCAGTTCTTT GTTAGAAAGG CAGGGTTTGC CAATAAGCGA ATTATCTTTG
    GCTGTAGACA AAAGTCACAT GCAGCTCCCT CGGGGGATGT CAAGAACCAA GTCATTTGGT
    GCTCCTGAGG ATGATAGAAT CTCAGCCCTG ATCGGAGAGC ATCGCTTTCC AAGAAGTTCC
    TCAATGACTG ACAGCTTTAG ACAAGATAGC ATCCCACCCC CTCCACAGAC AGCTCCCCCA
    CCACCTCCGA CTCCCTATTT CCTTGATTCA GGGCCACCTC CATCCTTTCT TCCACCTCCG
    CCCCCTTCAC GTGCTGCCAA CCAGAGTCGC TCAAGCTTCC GCCCAGGAGC AGAGCCGAAA
    ATCCATGGCC CAGTCACAAC AGATCGCCAG CGAAAAACAC GCTCCATGAT CATTCTTCAG
    GACACCAGCC ATTTGCCAGT GGAGCCTACC CCTATTACAA GACCGCAAAC GCCTACCTCT
    GGACCGGTTC CTCCAGAGCG TGGTCGTAGG CGTGGACCAC CTGTGGAGAA TCCGTATGCT
    AATGTAGGTC GATTAAGTGC TGTCTATACT CCCACCAAAC CTCAGCGTAG AAAGAGCCCA
    CTAGTCAAAC AAGGACCAGT CGAGGAGGGA GCTGCTGCTC ATTCTAGCCG AGACCCTTCT
    CCATTGGGAG GTTCACGAAT TCCTCACAGC AGCCGGGCGG AGCAGTTCCA ACAGCAGGTT
    CTCTCCGAGC GAGCTAGGAT CACACCTCCT GGGGCTCGAC GCAGGCCTAG CGTTTTTCTG
    TCTGTAGAAG GGGGAGCAAC AGAGCCACAG ACAACTCCAT TACTCTCTCA GTCTCACTCA
    GTGGATGAGT TGGCTGAGTT ACCTCCACCT GCACCAATGC TCTCTCCTGG CCCACCACCA
    GGGGGGACAA CTTTTATACA CCCTCTAACA GGTCGACCAC TCGATCCTTC ATCACCTTTA
    GCACTTGCAC TGGCTGCACG AGAACGTGCA CTTAGTGGCC GAAATACACC CACCCCCACA
    CCTTCGCCCA CACCTTCGCC CACTCAAGGT AGAGCAGTGG AAAGGCCCGA GACAGAAGGA
    GGAGCAACAC CACCTGCTCC TCTTGAGGCT CCTCCATCTA ATTCCTGGAG AGATGAACCA
    GTCAGCATCA CAGAAACGGC CAGCCAAGTG ACTAGTGGTA GCCCAGGGTC TGGAAGAAGC
    CTTGAAGAGG CGCTCGCTCC ACCCGGGGTG CAAAATATCC AACCTGCGCT GATGGATACA
    GAACATACCC CACCAGCAGT CCCACCCACT CTACCTTCCC CTGCCCCTAC TCTTTCCAAT
    CTGACTGCTC GAAGTATGAC TATGAGCTCA GAGGAGGAAG CGGAGCCCTA CACAGTGACA
    CTTCCCCCTG CATTGCTCTC ATCCAGTGAT GAGGAAACCA GAGAGGAGCT TCGGAAAATA
    GGCCTGGTTC CACCGCCTCA ACCTTTTGCT AATGGCCTTC TAATTAAAGA AACATCCAAA
    GCCACTCTGA GCATTTCACC TAGCGGGTCA CGGCCATCCA TTGCTAAGAC CTCCTCTGGT
    AAAGCAAGTG ATTCAACAGC AGACTCTGGG GTTGAAGACC CTCATATGGA GACCACCAGT
    ACTGTTTCCA CAGTCTCCAG CATGTCCACT TTGTCTTCAG AGAGCACAGA CTCCGCTCAT
    GCAAGCAAAC CACGTTGTGG GGTGGGGCGT GGTCGCCCCG CCCATCTCAG GGACCCACTG
    CTTAAACAGT CATCAGACAG TGAGCTGCTT CCACACCCAC CCAGCACAGG CCCCAGCCGT
    CCTCGCTACC TATTCCAAAG ACGTTCCAAA CTGTGGGGGG AGGAGCCCCG GGCCCAGATG
    GGGTCATCAG ATGAAAGTCG GCCTGCTGCT ATGGGGGCAG AGTTGCTTAG CAAAGACACT
    CATTCACTGG GTGAGGAGCC ACCAATGGGA GCACCACTTG ACCCTGGCAG GAGATCGCCT
    GTGGGAGGTG CCAGATGTGA GGAGAATGGA GGAGAGAGTA AATCACTTTT TAGTAGTTTA
    GGAGAGCTTC ACACCATCTC ACAAAGGAGT TACGGCACCA CCTTTACAAT CCGACCTGGC
    AGCCGATACC CAGTGACCCG TAGGACTCCA AGCCCTGGAG CCACCCCAGA ACGGAGTGAA
    CCATTGGGGC CTGTCCGTAC ATTCGGCCCA CATCACCACC ATCATACAAT CCTCAAGTCT
    TCTAGCCTAA GTTTGCCCCA GGAGCCCAAG GAGGTTCGTT TTGTCATGAG GAGTGCTAGT
    GCTCGAGCCC GCAGCCGCTC TCCATCCCCT TCTCCATGTG CCTCCCCCTG CCCCTCGCCG
    GTACTGGGAG CCCCTCTCCT GGCCCTGCGA CCGTTCAGAC AGCGCCCCCT AGCACTGTGG
    AGTAAGTATG ATGTGGGAGA GTGGCTAGAG AGTGTGGGAC TAGGGGAACA TCGTGCACGC
    TTTTTAGAGC ATGAGATTGA AGGAGCACAC CTGCCTGCCT TGACCAAGGA CGATCTGGCA
    GAGTTAGGGG TGACACGGGT TGGACACAGA ATGAACATTG AACGTGCACT AAAGCAGTTG
    CTAGAAAGTT GA

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

    RefSeq XP_009298459.1
    CDS354..5285
    Translation

    Target ORF information:

    RefSeq Version XM_009300184.3
    Organism Danio rerio(zebrafish)
    Definition Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009300184.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    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
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATGGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AACGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTATTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACGGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCTCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATCGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTTGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGCGT CAAGGAGAAG GAGGGGAGAG
    AAGTTGGATG AGATGTTGAG TTCGCCAAAG GAACAGGTTG TAGTGATGAG GCAGCGGCCA
    GTGGATTCAG ACTCCAGAGC AGCCACTGTG AAACAGAGAC CCACAAGTCG CCGTATCACA
    CAGGCTGAGA TCAGTTCTTT GTTAGAAAGG CAGGGTTTGC CAATAAGCGA ATTATCTTTG
    GCTGTAGACA AAAGTCACAT GCAGCTCCCT CGGGGGATGT CAAGAACCAA GTCATTTGGT
    GCTCCTGAGG ATGATAGAAT CTCAGCCCTG ATCGGAGAGC ATCGCTTTCC AAGAAGTTCC
    TCAATGACTG ACAGCTTTAG ACAAGATAGC ATCCCACCCC CTCCACAGAC AGCTCCCCCA
    CCACCTCCGA CTCCCTATTT CCTTGATTCA GGGCCACCTC CATCCTTTCT TCCACCTCCG
    CCCCCTTCAC GTGCTGCCAA CCAGAGTCGC TCAAGCTTCC GCCCAGGAGC AGAGCCGAAA
    ATCCATGGCC CAGTCACAAC AGATCGCCAG CGAAAAACAC GCTCCATGAT CATTCTTCAG
    GACACCAGCC ATTTGCCAGT GGAGCCTACC CCTATTACAA GACCGCAAAC GCCTACCTCT
    GGACCGGTTC CTCCAGAGCG TGGTCGTAGG CGTGGACCAC CTGTGGAGAA TCCGTATGCT
    AATGTAGGTC GATTAAGTGC TGTCTATACT CCCACCAAAC CTCAGCGTAG AAAGAGCCCA
    CTAGTCAAAC AAGGACCAGT CGAGGAGGGA GCTGCTGCTC ATTCTAGCCG AGACCCTTCT
    CCATTGGGAG GTTCACGAAT TCCTCACAGC AGCCGGGCGG AGCAGTTCCA ACAGCAGGTT
    CTCTCCGAGC GAGCTAGGAT CACACCTCCT GGGGCTCGAC GCAGGCCTAG CGTTTTTCTG
    TCTGTAGAAG GGGGAGCAAC AGAGCCACAG ACAACTCCAT TACTCTCTCA GTCTCACTCA
    GTGGATGAGT TGGCTGAGTT ACCTCCACCT GCACCAATGC TCTCTCCTGG CCCACCACCA
    GGGGGGACAA CTTTTATACA CCCTCTAACA GGTCGACCAC TCGATCCTTC ATCACCTTTA
    GCACTTGCAC TGGCTGCACG AGAACGTGCA CTTAGTGGCC GAAATACACC CACCCCCACA
    CCTTCGCCCA CACCTTCGCC CACTCAAGGT AGAGCAGTGG AAAGGCCCGA GACAGAAGGA
    GGAGCAACAC CACCTGCTCC TCTTGAGGCT CCTCCATCTA ATTCCTGGAG AGATGAACCA
    GTCAGCATCA CAGAAACGGC CAGCCAAGTG ACTAGTGGTA GCCCAGGGTC TGGAAGAAGC
    CTTGAAGAGG CGCTCGCTCC ACCCGGGGTG CAAAATATCC AACCTGCGCT GATGGATACA
    GAACATACCC CACCAGCAGT CCCACCCACT CTACCTTCCC CTGCCCCTAC TCTTTCCAAT
    CTGACTGCTC GAAGTATGAC TATGAGCTCA GAGGAGGAAG CGGAGCCCTA CACAGTGACA
    CTTCCCCCTG CATTGCTCTC ATCCAGTGAT GAGGAAACCA GAGAGGAGCT TCGGAAAATA
    GGCCTGGTTC CACCGCCTCA ACCTTTTGCT AATGGCCTTC TAATTAAAGA AACATCCAAA
    GCCACTCTGA GCATTTCACC TAGCGGGTCA CGGCCATCCA TTGCTAAGAC CTCCTCTGGT
    AAAGCAAGTG ATTCAACAGC AGACTCTGGG GTTGAAGACC CTCATATGGA GACCACCAGT
    ACTGTTTCCA CAGTCTCCAG CATGTCCACT TTGTCTTCAG AGAGCACAGA CTCCGCTCAT
    GCAAGCAAAC CACGTTGTGG GGTGGGGCGT GGTCGCCCCG CCCATCTCAG GGACCCACTG
    CTTAAACAGT CATCAGACAG TGAGCTGCTT CCACACCCAC CCAGCACAGG CCCCAGCCGT
    CCTCGCTACC TATTCCAAAG ACGTTCCAAA CTGTGGGGGG AGGAGCCCCG GGCCCAGATG
    GGGTCATCAG ATGAAAGTCG GCCTGCTGCT ATGGGGGCAG AGTTGCTTAG CAAAGACACT
    CATTCACTGG GTGAGGAGCC ACCAATGGGA GCACCACTTG ACCCTGGCAG GAGATCGCCT
    GTGGGAGGTG CCAGATGTGA GGAGAATGGA GGAGAGAGTA AATCACTTTT TAGTAGTTTA
    GGAGAGCTTC ACACCATCTC ACAAAGGAGT TACGGCACCA CCTTTACAAT CCGACCTGGC
    AGCCGATACC CAGTGACCCG TAGGACTCCA AGCCCTGGAG CCACCCCAGA ACGGAGTGAA
    CCATTGGGGC CTGTCCGTAC ATTCGGCCCA CATCACCACC ATCATACAAT CCTCAAGTCT
    TCTAGCCTAA GTTTGCCCCA GGAGCCCAAG GAGGTTCGTT TTGTCATGAG GAGTGCTAGT
    GCTCGAGCCC GCAGCCGCTC TCCATCCCCT TCTCCATGTG CCTCCCCCTG CCCCTCGCCG
    GTACTGGGAG CCCCTCTCCT GGCCCTGCGA CCGTTCAGAC AGCGCCCCCT AGCACTGTGG
    AGTAAGTATG ATGTGGGAGA GTGGCTAGAG AGTGTGGGAC TAGGGGAACA TCGTGCACGC
    TTTTTAGAGC ATGAGATTGA AGGAGCACAC CTGCCTGCCT TGACCAAGGA CGATCTGGCA
    GAGTTAGGGG TGACACGGGT TGGACACAGA ATGAACATTG AACGTGCACT AAAGCAGTTG
    CTAGAAAGTT GA

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

    CloneID ODa09213
    Clone ID Related Accession (Same CDS sequence) XM_017355261.1 , XM_017355261.2
    Accession Version XM_017355261.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4902bp)
    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 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product SH3 and multiple ankyrin repeat domains protein 3 isoform X3
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007115.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 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
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATGGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AACGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTATTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACGGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCTCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATCGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTTGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGCGT CAAGGAGAAG GAGGGGAGAG
    AAGTTGGATG AGATGTTGAG TTCGCCAAAG GAACAGGTTG TAGTGATGAG GCAGCGGCCA
    GTGGATTCAG ACTCCAGAGC AGCCACTGTG AAACAGAGAC CCACAAGTCG CCGTATCACA
    CAGGCTGAGA TCAGTTCTTT GTTAGAAAGG CAGGGTTTGC CAATAAGCGA ATTATCTTTG
    GCTGTAGACA AAAGTCACAT GCAGCTCCCT CGGGGGATGT CAAGAACCAA GTCATTTGGT
    GCTCCTGAGG ATGATAGAAT CTCAGCCCTG ATCGGAGAGC ATCGCTTTCC AAGAAGTTCC
    TCAATGACTG ACAGCTTTAG ACAAGATAGC ATCCCACCCC CTCCACAGAC AGCTCCCCCA
    CCACCTCCGA CTCCCTATTT CCTTGATTCA GGGCCACCTC CATCCTTTCT TCCACCTCCG
    CCCCCTTCAC GTGCTGCCAA CCAGAGTCGC TCAAGCTTCC GCCCAGGAGC AGAGCCGAAA
    ATCCATGGCC CAGTCACAAC AGATCGCCAG CGAAAAACAC GCTCCATGAT CATTCTTCAG
    GACACCAGCC ATTTGCCAGT GGAGCCTACC CCTATTACAA GACCGCAAAC GCCTACCTCT
    GGACCGGTTC CTCCAGAGCG TGGTCGTAGG CGTGGACCAC CTGTGGAGAA TCCGTATGCT
    AATGTAGGTC GATTAAGTGC TGTCTATACT CCCACCAAAC CTCAGCGTAG AAAGAGCCCA
    CTAGTCAAAC AAGGACCAGT CGAGGAGGGA GCTGCTGCTC ATTCTAGCCG AGACCCTTCT
    CCATTGGGAG GTTCACGAAT TCCTCACAGC AGCCGGGCGG AGCAGTTCCA ACAGCAGGTT
    CTCTCCGAGC GAGCTAGGAT CACACCTCCT GGGGCTCGAC GCAGGCCTAG CGTTTTTCTG
    TCTGTAGAAG GGGGAGCAAC AGAGCCACAG ACAACTCCAT TACTCTCTCA GTCTCACTCA
    GTGGATGAGT TGGCTGAGTT ACCTCCACCT GCACCAATGC TCTCTCCTGG CCCACCACCA
    GGGGGGACAA CTTTTATACA CCCTCTAACA GGTCGACCAC TCGATCCTTC ATCACCTTTA
    GCACTTGCAC TGGCTGCACG AGAACGTGCA CTTAGTGGCC GAAATACACC CACCCCCACA
    CCTTCGCCCA CACCTTCGCC CACTCAAGGT AGAGCAGTGG AAAGGCCCGA GACAGAAGGA
    GGAGCAACAC CACCTGCTCC TCTTGAGGCT CCTCCATCTA ATTCCTGGAG AGATGAACCA
    GTCAGCATCA CAGAAACGGC CAGCCAAGTG ACTAGTGGTA GCCCAGGGTC TGGAAGAAGC
    CTTGAAGAGG CGCTCGCTCC ACCCGGGGTG CAAAATATCC AACCTGCGCT GATGGATACA
    GAACATACCC CACCAGCAGT CCCACCCACT CTACCTTCCC CTGCCCCTAC TCTTTCCAAT
    CTGACTGCTC GAAGTATGAC TATGAGCTCA GAGGAGGAAG CGGAGCCCTA CACAGTGACA
    CTTCCCCCTG CATTGCTCTC ATCCAGTGAT GAGGAAACCA GAGAGGAGCT TCGGAAAATA
    GGCCTGGTTC CACCGCCTCA ACCTTTTGCT AATGGCCTTC TAATTAAAGA AACATCCAAA
    GCCACTCTGA GCATTTCACC TAGCGGGTCA CGGCCATCCA TTGCTAAGAC CTCCTCTGGT
    AAAGCAAGTG ATTCAACAGC AGACTCTGGG GTTGAAGACC CTCATATGGA GACCACCAGT
    ACTGTTTCCA CAGTCTCCAG CATGTCCACT TTGTCTTCAG AGAGCACAGA CTCCGCTCAT
    GCAAGCAAAC CACGTTGTGG GGTGGGGCGT GGTCGCCCCG CCCATCTCAG GGACCCACTG
    CTTAAACAGT CATCAGACAG TGAGCTGCTT CCACACCCAC CCAGCACAGG CCCCAGCCGT
    CCTCGCTACC TATTCCAAAG ACGTTCCAAA CTGTGGGGGG AGGAGCCCCG GGCCCAGATG
    GGGTCATCAG ATGAAAGTCG GCCTGCTGCT ATGGGGGCAG AGTTGCTTAG CAAAGACACT
    CATTCACTGG GTGAGGAGCC ACCAATGGGA GCACCACTTG ACCCTGGCAG GAGATCGCCT
    GTGGGAGGTG CCAGACTTTT TAGTAGTTTA GGAGAGCTTC ACACCATCTC ACAAAGGAGT
    TACGGCACCA CCTTTACAAT CCGACCTGGC AGCCGATACC CAGTGACCCG TAGGACTCCA
    AGCCCTGGAG CCACCCCAGA ACGGAGTGAA CCATTGGGGC CTGTCCGTAC ATTCGGCCCA
    CATCACCACC ATCATACAAT CCTCAAGTCT TCTAGCCTAA GTTTGCCCCA GGAGCCCAAG
    GAGGTTCGTT TTGTCATGAG GAGTGCTAGT GCTCGAGCCC GCAGCCGCTC TCCATCCCCT
    TCTCCATGTG CCTCCCCCTG CCCCTCGCCG GTACTGGGAG CCCCTCTCCT GGCCCTGCGA
    CCGTTCAGAC AGCGCCCCCT AGCACTGTGG AGTAAGTATG ATGTGGGAGA GTGGCTAGAG
    AGTGTGGGAC TAGGGGAACA TCGTGCACGC TTTTTAGAGC ATGAGATTGA AGGAGCACAC
    CTGCCTGCCT TGACCAAGGA CGATCTGGCA GAGTTAGGGG TGACACGGGT TGGACACAGA
    ATGAACATTG AACGTGCACT AAAGCAGTTG CTAGAAAGTT GA

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

    RefSeq XP_017210750.1
    CDS218..5119
    Translation

    Target ORF information:

    RefSeq Version XM_017355261.1
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017355261.1

    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
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATGGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AACGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTATTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACGGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCTCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATCGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTTGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGCGT CAAGGAGAAG GAGGGGAGAG
    AAGTTGGATG AGATGTTGAG TTCGCCAAAG GAACAGGTTG TAGTGATGAG GCAGCGGCCA
    GTGGATTCAG ACTCCAGAGC AGCCACTGTG AAACAGAGAC CCACAAGTCG CCGTATCACA
    CAGGCTGAGA TCAGTTCTTT GTTAGAAAGG CAGGGTTTGC CAATAAGCGA ATTATCTTTG
    GCTGTAGACA AAAGTCACAT GCAGCTCCCT CGGGGGATGT CAAGAACCAA GTCATTTGGT
    GCTCCTGAGG ATGATAGAAT CTCAGCCCTG ATCGGAGAGC ATCGCTTTCC AAGAAGTTCC
    TCAATGACTG ACAGCTTTAG ACAAGATAGC ATCCCACCCC CTCCACAGAC AGCTCCCCCA
    CCACCTCCGA CTCCCTATTT CCTTGATTCA GGGCCACCTC CATCCTTTCT TCCACCTCCG
    CCCCCTTCAC GTGCTGCCAA CCAGAGTCGC TCAAGCTTCC GCCCAGGAGC AGAGCCGAAA
    ATCCATGGCC CAGTCACAAC AGATCGCCAG CGAAAAACAC GCTCCATGAT CATTCTTCAG
    GACACCAGCC ATTTGCCAGT GGAGCCTACC CCTATTACAA GACCGCAAAC GCCTACCTCT
    GGACCGGTTC CTCCAGAGCG TGGTCGTAGG CGTGGACCAC CTGTGGAGAA TCCGTATGCT
    AATGTAGGTC GATTAAGTGC TGTCTATACT CCCACCAAAC CTCAGCGTAG AAAGAGCCCA
    CTAGTCAAAC AAGGACCAGT CGAGGAGGGA GCTGCTGCTC ATTCTAGCCG AGACCCTTCT
    CCATTGGGAG GTTCACGAAT TCCTCACAGC AGCCGGGCGG AGCAGTTCCA ACAGCAGGTT
    CTCTCCGAGC GAGCTAGGAT CACACCTCCT GGGGCTCGAC GCAGGCCTAG CGTTTTTCTG
    TCTGTAGAAG GGGGAGCAAC AGAGCCACAG ACAACTCCAT TACTCTCTCA GTCTCACTCA
    GTGGATGAGT TGGCTGAGTT ACCTCCACCT GCACCAATGC TCTCTCCTGG CCCACCACCA
    GGGGGGACAA CTTTTATACA CCCTCTAACA GGTCGACCAC TCGATCCTTC ATCACCTTTA
    GCACTTGCAC TGGCTGCACG AGAACGTGCA CTTAGTGGCC GAAATACACC CACCCCCACA
    CCTTCGCCCA CACCTTCGCC CACTCAAGGT AGAGCAGTGG AAAGGCCCGA GACAGAAGGA
    GGAGCAACAC CACCTGCTCC TCTTGAGGCT CCTCCATCTA ATTCCTGGAG AGATGAACCA
    GTCAGCATCA CAGAAACGGC CAGCCAAGTG ACTAGTGGTA GCCCAGGGTC TGGAAGAAGC
    CTTGAAGAGG CGCTCGCTCC ACCCGGGGTG CAAAATATCC AACCTGCGCT GATGGATACA
    GAACATACCC CACCAGCAGT CCCACCCACT CTACCTTCCC CTGCCCCTAC TCTTTCCAAT
    CTGACTGCTC GAAGTATGAC TATGAGCTCA GAGGAGGAAG CGGAGCCCTA CACAGTGACA
    CTTCCCCCTG CATTGCTCTC ATCCAGTGAT GAGGAAACCA GAGAGGAGCT TCGGAAAATA
    GGCCTGGTTC CACCGCCTCA ACCTTTTGCT AATGGCCTTC TAATTAAAGA AACATCCAAA
    GCCACTCTGA GCATTTCACC TAGCGGGTCA CGGCCATCCA TTGCTAAGAC CTCCTCTGGT
    AAAGCAAGTG ATTCAACAGC AGACTCTGGG GTTGAAGACC CTCATATGGA GACCACCAGT
    ACTGTTTCCA CAGTCTCCAG CATGTCCACT TTGTCTTCAG AGAGCACAGA CTCCGCTCAT
    GCAAGCAAAC CACGTTGTGG GGTGGGGCGT GGTCGCCCCG CCCATCTCAG GGACCCACTG
    CTTAAACAGT CATCAGACAG TGAGCTGCTT CCACACCCAC CCAGCACAGG CCCCAGCCGT
    CCTCGCTACC TATTCCAAAG ACGTTCCAAA CTGTGGGGGG AGGAGCCCCG GGCCCAGATG
    GGGTCATCAG ATGAAAGTCG GCCTGCTGCT ATGGGGGCAG AGTTGCTTAG CAAAGACACT
    CATTCACTGG GTGAGGAGCC ACCAATGGGA GCACCACTTG ACCCTGGCAG GAGATCGCCT
    GTGGGAGGTG CCAGACTTTT TAGTAGTTTA GGAGAGCTTC ACACCATCTC ACAAAGGAGT
    TACGGCACCA CCTTTACAAT CCGACCTGGC AGCCGATACC CAGTGACCCG TAGGACTCCA
    AGCCCTGGAG CCACCCCAGA ACGGAGTGAA CCATTGGGGC CTGTCCGTAC ATTCGGCCCA
    CATCACCACC ATCATACAAT CCTCAAGTCT TCTAGCCTAA GTTTGCCCCA GGAGCCCAAG
    GAGGTTCGTT TTGTCATGAG GAGTGCTAGT GCTCGAGCCC GCAGCCGCTC TCCATCCCCT
    TCTCCATGTG CCTCCCCCTG CCCCTCGCCG GTACTGGGAG CCCCTCTCCT GGCCCTGCGA
    CCGTTCAGAC AGCGCCCCCT AGCACTGTGG AGTAAGTATG ATGTGGGAGA GTGGCTAGAG
    AGTGTGGGAC TAGGGGAACA TCGTGCACGC TTTTTAGAGC ATGAGATTGA AGGAGCACAC
    CTGCCTGCCT TGACCAAGGA CGATCTGGCA GAGTTAGGGG TGACACGGGT TGGACACAGA
    ATGAACATTG AACGTGCACT AAAGCAGTTG CTAGAAAGTT GA

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

    CloneID ODa09213
    Clone ID Related Accession (Same CDS sequence) XM_017355261.1 , XM_017355261.2
    Accession Version XM_017355261.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4902bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-06-14
    Organism Danio rerio(zebrafish)
    Product SH3 and multiple ankyrin repeat domains protein 3 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007115.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_017355261.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 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
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATGGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AACGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTATTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACGGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCTCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATCGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTTGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGCGT CAAGGAGAAG GAGGGGAGAG
    AAGTTGGATG AGATGTTGAG TTCGCCAAAG GAACAGGTTG TAGTGATGAG GCAGCGGCCA
    GTGGATTCAG ACTCCAGAGC AGCCACTGTG AAACAGAGAC CCACAAGTCG CCGTATCACA
    CAGGCTGAGA TCAGTTCTTT GTTAGAAAGG CAGGGTTTGC CAATAAGCGA ATTATCTTTG
    GCTGTAGACA AAAGTCACAT GCAGCTCCCT CGGGGGATGT CAAGAACCAA GTCATTTGGT
    GCTCCTGAGG ATGATAGAAT CTCAGCCCTG ATCGGAGAGC ATCGCTTTCC AAGAAGTTCC
    TCAATGACTG ACAGCTTTAG ACAAGATAGC ATCCCACCCC CTCCACAGAC AGCTCCCCCA
    CCACCTCCGA CTCCCTATTT CCTTGATTCA GGGCCACCTC CATCCTTTCT TCCACCTCCG
    CCCCCTTCAC GTGCTGCCAA CCAGAGTCGC TCAAGCTTCC GCCCAGGAGC AGAGCCGAAA
    ATCCATGGCC CAGTCACAAC AGATCGCCAG CGAAAAACAC GCTCCATGAT CATTCTTCAG
    GACACCAGCC ATTTGCCAGT GGAGCCTACC CCTATTACAA GACCGCAAAC GCCTACCTCT
    GGACCGGTTC CTCCAGAGCG TGGTCGTAGG CGTGGACCAC CTGTGGAGAA TCCGTATGCT
    AATGTAGGTC GATTAAGTGC TGTCTATACT CCCACCAAAC CTCAGCGTAG AAAGAGCCCA
    CTAGTCAAAC AAGGACCAGT CGAGGAGGGA GCTGCTGCTC ATTCTAGCCG AGACCCTTCT
    CCATTGGGAG GTTCACGAAT TCCTCACAGC AGCCGGGCGG AGCAGTTCCA ACAGCAGGTT
    CTCTCCGAGC GAGCTAGGAT CACACCTCCT GGGGCTCGAC GCAGGCCTAG CGTTTTTCTG
    TCTGTAGAAG GGGGAGCAAC AGAGCCACAG ACAACTCCAT TACTCTCTCA GTCTCACTCA
    GTGGATGAGT TGGCTGAGTT ACCTCCACCT GCACCAATGC TCTCTCCTGG CCCACCACCA
    GGGGGGACAA CTTTTATACA CCCTCTAACA GGTCGACCAC TCGATCCTTC ATCACCTTTA
    GCACTTGCAC TGGCTGCACG AGAACGTGCA CTTAGTGGCC GAAATACACC CACCCCCACA
    CCTTCGCCCA CACCTTCGCC CACTCAAGGT AGAGCAGTGG AAAGGCCCGA GACAGAAGGA
    GGAGCAACAC CACCTGCTCC TCTTGAGGCT CCTCCATCTA ATTCCTGGAG AGATGAACCA
    GTCAGCATCA CAGAAACGGC CAGCCAAGTG ACTAGTGGTA GCCCAGGGTC TGGAAGAAGC
    CTTGAAGAGG CGCTCGCTCC ACCCGGGGTG CAAAATATCC AACCTGCGCT GATGGATACA
    GAACATACCC CACCAGCAGT CCCACCCACT CTACCTTCCC CTGCCCCTAC TCTTTCCAAT
    CTGACTGCTC GAAGTATGAC TATGAGCTCA GAGGAGGAAG CGGAGCCCTA CACAGTGACA
    CTTCCCCCTG CATTGCTCTC ATCCAGTGAT GAGGAAACCA GAGAGGAGCT TCGGAAAATA
    GGCCTGGTTC CACCGCCTCA ACCTTTTGCT AATGGCCTTC TAATTAAAGA AACATCCAAA
    GCCACTCTGA GCATTTCACC TAGCGGGTCA CGGCCATCCA TTGCTAAGAC CTCCTCTGGT
    AAAGCAAGTG ATTCAACAGC AGACTCTGGG GTTGAAGACC CTCATATGGA GACCACCAGT
    ACTGTTTCCA CAGTCTCCAG CATGTCCACT TTGTCTTCAG AGAGCACAGA CTCCGCTCAT
    GCAAGCAAAC CACGTTGTGG GGTGGGGCGT GGTCGCCCCG CCCATCTCAG GGACCCACTG
    CTTAAACAGT CATCAGACAG TGAGCTGCTT CCACACCCAC CCAGCACAGG CCCCAGCCGT
    CCTCGCTACC TATTCCAAAG ACGTTCCAAA CTGTGGGGGG AGGAGCCCCG GGCCCAGATG
    GGGTCATCAG ATGAAAGTCG GCCTGCTGCT ATGGGGGCAG AGTTGCTTAG CAAAGACACT
    CATTCACTGG GTGAGGAGCC ACCAATGGGA GCACCACTTG ACCCTGGCAG GAGATCGCCT
    GTGGGAGGTG CCAGACTTTT TAGTAGTTTA GGAGAGCTTC ACACCATCTC ACAAAGGAGT
    TACGGCACCA CCTTTACAAT CCGACCTGGC AGCCGATACC CAGTGACCCG TAGGACTCCA
    AGCCCTGGAG CCACCCCAGA ACGGAGTGAA CCATTGGGGC CTGTCCGTAC ATTCGGCCCA
    CATCACCACC ATCATACAAT CCTCAAGTCT TCTAGCCTAA GTTTGCCCCA GGAGCCCAAG
    GAGGTTCGTT TTGTCATGAG GAGTGCTAGT GCTCGAGCCC GCAGCCGCTC TCCATCCCCT
    TCTCCATGTG CCTCCCCCTG CCCCTCGCCG GTACTGGGAG CCCCTCTCCT GGCCCTGCGA
    CCGTTCAGAC AGCGCCCCCT AGCACTGTGG AGTAAGTATG ATGTGGGAGA GTGGCTAGAG
    AGTGTGGGAC TAGGGGAACA TCGTGCACGC TTTTTAGAGC ATGAGATTGA AGGAGCACAC
    CTGCCTGCCT TGACCAAGGA CGATCTGGCA GAGTTAGGGG TGACACGGGT TGGACACAGA
    ATGAACATTG AACGTGCACT AAAGCAGTTG CTAGAAAGTT GA

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

    RefSeq XP_017210750.1
    CDS354..5255
    Translation

    Target ORF information:

    RefSeq Version XM_017355261.2
    Organism Danio rerio(zebrafish)
    Definition Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017355261.2

    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
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATGGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AACGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTATTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACGGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCTCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATCGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTTGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGCGT CAAGGAGAAG GAGGGGAGAG
    AAGTTGGATG AGATGTTGAG TTCGCCAAAG GAACAGGTTG TAGTGATGAG GCAGCGGCCA
    GTGGATTCAG ACTCCAGAGC AGCCACTGTG AAACAGAGAC CCACAAGTCG CCGTATCACA
    CAGGCTGAGA TCAGTTCTTT GTTAGAAAGG CAGGGTTTGC CAATAAGCGA ATTATCTTTG
    GCTGTAGACA AAAGTCACAT GCAGCTCCCT CGGGGGATGT CAAGAACCAA GTCATTTGGT
    GCTCCTGAGG ATGATAGAAT CTCAGCCCTG ATCGGAGAGC ATCGCTTTCC AAGAAGTTCC
    TCAATGACTG ACAGCTTTAG ACAAGATAGC ATCCCACCCC CTCCACAGAC AGCTCCCCCA
    CCACCTCCGA CTCCCTATTT CCTTGATTCA GGGCCACCTC CATCCTTTCT TCCACCTCCG
    CCCCCTTCAC GTGCTGCCAA CCAGAGTCGC TCAAGCTTCC GCCCAGGAGC AGAGCCGAAA
    ATCCATGGCC CAGTCACAAC AGATCGCCAG CGAAAAACAC GCTCCATGAT CATTCTTCAG
    GACACCAGCC ATTTGCCAGT GGAGCCTACC CCTATTACAA GACCGCAAAC GCCTACCTCT
    GGACCGGTTC CTCCAGAGCG TGGTCGTAGG CGTGGACCAC CTGTGGAGAA TCCGTATGCT
    AATGTAGGTC GATTAAGTGC TGTCTATACT CCCACCAAAC CTCAGCGTAG AAAGAGCCCA
    CTAGTCAAAC AAGGACCAGT CGAGGAGGGA GCTGCTGCTC ATTCTAGCCG AGACCCTTCT
    CCATTGGGAG GTTCACGAAT TCCTCACAGC AGCCGGGCGG AGCAGTTCCA ACAGCAGGTT
    CTCTCCGAGC GAGCTAGGAT CACACCTCCT GGGGCTCGAC GCAGGCCTAG CGTTTTTCTG
    TCTGTAGAAG GGGGAGCAAC AGAGCCACAG ACAACTCCAT TACTCTCTCA GTCTCACTCA
    GTGGATGAGT TGGCTGAGTT ACCTCCACCT GCACCAATGC TCTCTCCTGG CCCACCACCA
    GGGGGGACAA CTTTTATACA CCCTCTAACA GGTCGACCAC TCGATCCTTC ATCACCTTTA
    GCACTTGCAC TGGCTGCACG AGAACGTGCA CTTAGTGGCC GAAATACACC CACCCCCACA
    CCTTCGCCCA CACCTTCGCC CACTCAAGGT AGAGCAGTGG AAAGGCCCGA GACAGAAGGA
    GGAGCAACAC CACCTGCTCC TCTTGAGGCT CCTCCATCTA ATTCCTGGAG AGATGAACCA
    GTCAGCATCA CAGAAACGGC CAGCCAAGTG ACTAGTGGTA GCCCAGGGTC TGGAAGAAGC
    CTTGAAGAGG CGCTCGCTCC ACCCGGGGTG CAAAATATCC AACCTGCGCT GATGGATACA
    GAACATACCC CACCAGCAGT CCCACCCACT CTACCTTCCC CTGCCCCTAC TCTTTCCAAT
    CTGACTGCTC GAAGTATGAC TATGAGCTCA GAGGAGGAAG CGGAGCCCTA CACAGTGACA
    CTTCCCCCTG CATTGCTCTC ATCCAGTGAT GAGGAAACCA GAGAGGAGCT TCGGAAAATA
    GGCCTGGTTC CACCGCCTCA ACCTTTTGCT AATGGCCTTC TAATTAAAGA AACATCCAAA
    GCCACTCTGA GCATTTCACC TAGCGGGTCA CGGCCATCCA TTGCTAAGAC CTCCTCTGGT
    AAAGCAAGTG ATTCAACAGC AGACTCTGGG GTTGAAGACC CTCATATGGA GACCACCAGT
    ACTGTTTCCA CAGTCTCCAG CATGTCCACT TTGTCTTCAG AGAGCACAGA CTCCGCTCAT
    GCAAGCAAAC CACGTTGTGG GGTGGGGCGT GGTCGCCCCG CCCATCTCAG GGACCCACTG
    CTTAAACAGT CATCAGACAG TGAGCTGCTT CCACACCCAC CCAGCACAGG CCCCAGCCGT
    CCTCGCTACC TATTCCAAAG ACGTTCCAAA CTGTGGGGGG AGGAGCCCCG GGCCCAGATG
    GGGTCATCAG ATGAAAGTCG GCCTGCTGCT ATGGGGGCAG AGTTGCTTAG CAAAGACACT
    CATTCACTGG GTGAGGAGCC ACCAATGGGA GCACCACTTG ACCCTGGCAG GAGATCGCCT
    GTGGGAGGTG CCAGACTTTT TAGTAGTTTA GGAGAGCTTC ACACCATCTC ACAAAGGAGT
    TACGGCACCA CCTTTACAAT CCGACCTGGC AGCCGATACC CAGTGACCCG TAGGACTCCA
    AGCCCTGGAG CCACCCCAGA ACGGAGTGAA CCATTGGGGC CTGTCCGTAC ATTCGGCCCA
    CATCACCACC ATCATACAAT CCTCAAGTCT TCTAGCCTAA GTTTGCCCCA GGAGCCCAAG
    GAGGTTCGTT TTGTCATGAG GAGTGCTAGT GCTCGAGCCC GCAGCCGCTC TCCATCCCCT
    TCTCCATGTG CCTCCCCCTG CCCCTCGCCG GTACTGGGAG CCCCTCTCCT GGCCCTGCGA
    CCGTTCAGAC AGCGCCCCCT AGCACTGTGG AGTAAGTATG ATGTGGGAGA GTGGCTAGAG
    AGTGTGGGAC TAGGGGAACA TCGTGCACGC TTTTTAGAGC ATGAGATTGA AGGAGCACAC
    CTGCCTGCCT TGACCAAGGA CGATCTGGCA GAGTTAGGGG TGACACGGGT TGGACACAGA
    ATGAACATTG AACGTGCACT AAAGCAGTTG CTAGAAAGTT GA

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

    CloneID ODa44805
    Clone ID Related Accession (Same CDS sequence) XM_017355260.1 , XM_017355260.2
    Accession Version XM_017355260.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4911bp)
    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 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product SH3 and multiple ankyrin repeat domains protein 3 isoform X2
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007115.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 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
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATGGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AACGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTATTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACGGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCTCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATCGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTTGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGAGA AGTTGGATGA GATGTTGAGT
    TCGCCAAAGG AACAGGTTGT AGTGATGAGG CAGCGGCCAG TGGATTCAGA CTCCAGAGCA
    GCCACTGTGA AACAGAGACC CACAAGTCGC CGTATCACAC AGGCTGAGAT CAGTTCTTTG
    TTAGAAAGGC AGGGTTTGCC AATAAGCGAA TTATCTTTGG CTGTAGACAA AAGTCACATG
    CAGCTCCCTC GGGGGATGTC AAGAACCAAG TCATTTGGTG CTCCTGAGGA TGATAGAATC
    TCAGCCCTGA TCGGAGAGCA TCGCTTTCCA AGAAGTTCCT CAATGACTGA CAGCTTTAGA
    CAAGATAGCA TCCCACCCCC TCCACAGACA GCTCCCCCAC CACCTCCGAC TCCCTATTTC
    CTTGATTCAG GGCCACCTCC ATCCTTTCTT CCACCTCCGC CCCCTTCACG TGCTGCCAAC
    CAGAGTCGCT CAAGCTTCCG CCCAGGAGCA GAGCCGAAAA TCCATGGCCC AGTCACAACA
    GATCGCCAGC GAAAAACACG CTCCATGATC ATTCTTCAGG ACACCAGCCA TTTGCCAGTG
    GAGCCTACCC CTATTACAAG ACCGCAAACG CCTACCTCTG GACCGGTTCC TCCAGAGCGT
    GGTCGTAGGC GTGGACCACC TGTGGAGAAT CCGTATGCTA ATGTAGGTCG ATTAAGTGCT
    GTCTATACTC CCACCAAACC TCAGCGTAGA AAGAGCCCAC TAGTCAAACA AGGACCAGTC
    GAGGAGGGAG CTGCTGCTCA TTCTAGCCGA GACCCTTCTC CATTGGGAGG TTCACGAATT
    CCTCACAGCA GCCGGGCGGA GCAGTTCCAA CAGCAGGTTC TCTCCGAGCG AGCTAGGATC
    ACACCTCCTG GGGCTCGACG CAGGCCTAGC GTTTTTCTGT CTGTAGAAGG GGGAGCAACA
    GAGCCACAGA CAACTCCATT ACTCTCTCAG TCTCACTCAG TGGATGAGTT GGCTGAGTTA
    CCTCCACCTG CACCAATGCT CTCTCCTGGC CCACCACCAG GGGGGACAAC TTTTATACAC
    CCTCTAACAG GTCGACCACT CGATCCTTCA TCACCTTTAG CACTTGCACT GGCTGCACGA
    GAACGTGCAC TTAGTGGCCG AAATACACCC ACCCCCACAC CTTCGCCCAC ACCTTCGCCC
    ACTCAAGGTA GAGCAGTGGA AAGGCCCGAG ACAGAAGGAG GAGCAACACC ACCTGCTCCT
    CTTGAGGCTC CTCCATCTAA TTCCTGGAGA GATGAACCAG TCAGCATCAC AGAAACGGCC
    AGCCAAGTGA CTAGTGGTAG CCCAGGGTCT GGAAGAAGCC TTGAAGAGGC GCTCGCTCCA
    CCCGGGGTGC AAAATATCCA ACCTGCGCTG ATGGATACAG AACATACCCC ACCAGCAGTC
    CCACCCACTC TACCTTCCCC TGCCCCTACT CTTTCCAATC TGACTGCTCG AAGTATGACT
    ATGAGCTCAG AGGAGGAAGC GGAGCCCTAC ACAGTGACAC TTCCCCCTGC ATTGCTCTCA
    TCCAGTGATG AGGAAACCAG AGAGGAGCTT CGGAAAATAG GCCTGGTTCC ACCGCCTCAA
    CCTTTTGCTA ATGGCCTTCT AATTAAAGAA ACATCCAAAG CCACTCTGAG CATTTCACCT
    AGCGGGTCAC GGCCATCCAT TGCTAAGACC TCCTCTGGTA AAGCAAGTGA TTCAACAGCA
    GACTCTGGGG TTGAAGACCC TCATATGGAG ACCACCAGTA CTGTTTCCAC AGTCTCCAGC
    ATGTCCACTT TGTCTTCAGA GAGCACAGAC TCCGCTCATG CAAGCAAACC ACGTTGTGGG
    GTGGGGCGTG GTCGCCCCGC CCATCTCAGG GACCCACTGC TTAAACAGTC ATCAGACAGT
    GAGCTGCTTC CACACCCACC CAGCACAGGC CCCAGCCGTC CTCGCTACCT ATTCCAAAGA
    CGTTCCAAAC TGTGGGGGGA GGAGCCCCGG GCCCAGATGG GGTCATCAGA TGAAAGTCGG
    CCTGCTGCTA TGGGGGCAGA GTTGCTTAGC AAAGACACTC ATTCACTGGG TGAGGAGCCA
    CCAATGGGAG CACCACTTGA CCCTGGCAGG AGATCGCCTG TGGGAGGTGC CAGATGTGAG
    GAGAATGGAG GAGAGAGTAA ATCACTTTTT AGTAGTTTAG GAGAGCTTCA CACCATCTCA
    CAAAGGAGTT ACGGCACCAC CTTTACAATC CGACCTGGCA GCCGATACCC AGTGACCCGT
    AGGACTCCAA GCCCTGGAGC CACCCCAGAA CGGAGTGAAC CATTGGGGCC TGTCCGTACA
    TTCGGCCCAC ATCACCACCA TCATACAATC CTCAAGTCTT CTAGCCTAAG TTTGCCCCAG
    GAGCCCAAGG AGGTTCGTTT TGTCATGAGG AGTGCTAGTG CTCGAGCCCG CAGCCGCTCT
    CCATCCCCTT CTCCATGTGC CTCCCCCTGC CCCTCGCCGG TACTGGGAGC CCCTCTCCTG
    GCCCTGCGAC CGTTCAGACA GCGCCCCCTA GCACTGTGGA GTAAGTATGA TGTGGGAGAG
    TGGCTAGAGA GTGTGGGACT AGGGGAACAT CGTGCACGCT TTTTAGAGCA TGAGATTGAA
    GGAGCACACC TGCCTGCCTT GACCAAGGAC GATCTGGCAG AGTTAGGGGT GACACGGGTT
    GGACACAGAA TGAACATTGA ACGTGCACTA AAGCAGTTGC TAGAAAGTTG A

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

    RefSeq XP_017210749.1
    CDS218..5128
    Translation

    Target ORF information:

    RefSeq Version XM_017355260.1
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017355260.1

    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
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATGGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AACGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTATTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACGGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCTCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATCGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTTGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGAGA AGTTGGATGA GATGTTGAGT
    TCGCCAAAGG AACAGGTTGT AGTGATGAGG CAGCGGCCAG TGGATTCAGA CTCCAGAGCA
    GCCACTGTGA AACAGAGACC CACAAGTCGC CGTATCACAC AGGCTGAGAT CAGTTCTTTG
    TTAGAAAGGC AGGGTTTGCC AATAAGCGAA TTATCTTTGG CTGTAGACAA AAGTCACATG
    CAGCTCCCTC GGGGGATGTC AAGAACCAAG TCATTTGGTG CTCCTGAGGA TGATAGAATC
    TCAGCCCTGA TCGGAGAGCA TCGCTTTCCA AGAAGTTCCT CAATGACTGA CAGCTTTAGA
    CAAGATAGCA TCCCACCCCC TCCACAGACA GCTCCCCCAC CACCTCCGAC TCCCTATTTC
    CTTGATTCAG GGCCACCTCC ATCCTTTCTT CCACCTCCGC CCCCTTCACG TGCTGCCAAC
    CAGAGTCGCT CAAGCTTCCG CCCAGGAGCA GAGCCGAAAA TCCATGGCCC AGTCACAACA
    GATCGCCAGC GAAAAACACG CTCCATGATC ATTCTTCAGG ACACCAGCCA TTTGCCAGTG
    GAGCCTACCC CTATTACAAG ACCGCAAACG CCTACCTCTG GACCGGTTCC TCCAGAGCGT
    GGTCGTAGGC GTGGACCACC TGTGGAGAAT CCGTATGCTA ATGTAGGTCG ATTAAGTGCT
    GTCTATACTC CCACCAAACC TCAGCGTAGA AAGAGCCCAC TAGTCAAACA AGGACCAGTC
    GAGGAGGGAG CTGCTGCTCA TTCTAGCCGA GACCCTTCTC CATTGGGAGG TTCACGAATT
    CCTCACAGCA GCCGGGCGGA GCAGTTCCAA CAGCAGGTTC TCTCCGAGCG AGCTAGGATC
    ACACCTCCTG GGGCTCGACG CAGGCCTAGC GTTTTTCTGT CTGTAGAAGG GGGAGCAACA
    GAGCCACAGA CAACTCCATT ACTCTCTCAG TCTCACTCAG TGGATGAGTT GGCTGAGTTA
    CCTCCACCTG CACCAATGCT CTCTCCTGGC CCACCACCAG GGGGGACAAC TTTTATACAC
    CCTCTAACAG GTCGACCACT CGATCCTTCA TCACCTTTAG CACTTGCACT GGCTGCACGA
    GAACGTGCAC TTAGTGGCCG AAATACACCC ACCCCCACAC CTTCGCCCAC ACCTTCGCCC
    ACTCAAGGTA GAGCAGTGGA AAGGCCCGAG ACAGAAGGAG GAGCAACACC ACCTGCTCCT
    CTTGAGGCTC CTCCATCTAA TTCCTGGAGA GATGAACCAG TCAGCATCAC AGAAACGGCC
    AGCCAAGTGA CTAGTGGTAG CCCAGGGTCT GGAAGAAGCC TTGAAGAGGC GCTCGCTCCA
    CCCGGGGTGC AAAATATCCA ACCTGCGCTG ATGGATACAG AACATACCCC ACCAGCAGTC
    CCACCCACTC TACCTTCCCC TGCCCCTACT CTTTCCAATC TGACTGCTCG AAGTATGACT
    ATGAGCTCAG AGGAGGAAGC GGAGCCCTAC ACAGTGACAC TTCCCCCTGC ATTGCTCTCA
    TCCAGTGATG AGGAAACCAG AGAGGAGCTT CGGAAAATAG GCCTGGTTCC ACCGCCTCAA
    CCTTTTGCTA ATGGCCTTCT AATTAAAGAA ACATCCAAAG CCACTCTGAG CATTTCACCT
    AGCGGGTCAC GGCCATCCAT TGCTAAGACC TCCTCTGGTA AAGCAAGTGA TTCAACAGCA
    GACTCTGGGG TTGAAGACCC TCATATGGAG ACCACCAGTA CTGTTTCCAC AGTCTCCAGC
    ATGTCCACTT TGTCTTCAGA GAGCACAGAC TCCGCTCATG CAAGCAAACC ACGTTGTGGG
    GTGGGGCGTG GTCGCCCCGC CCATCTCAGG GACCCACTGC TTAAACAGTC ATCAGACAGT
    GAGCTGCTTC CACACCCACC CAGCACAGGC CCCAGCCGTC CTCGCTACCT ATTCCAAAGA
    CGTTCCAAAC TGTGGGGGGA GGAGCCCCGG GCCCAGATGG GGTCATCAGA TGAAAGTCGG
    CCTGCTGCTA TGGGGGCAGA GTTGCTTAGC AAAGACACTC ATTCACTGGG TGAGGAGCCA
    CCAATGGGAG CACCACTTGA CCCTGGCAGG AGATCGCCTG TGGGAGGTGC CAGATGTGAG
    GAGAATGGAG GAGAGAGTAA ATCACTTTTT AGTAGTTTAG GAGAGCTTCA CACCATCTCA
    CAAAGGAGTT ACGGCACCAC CTTTACAATC CGACCTGGCA GCCGATACCC AGTGACCCGT
    AGGACTCCAA GCCCTGGAGC CACCCCAGAA CGGAGTGAAC CATTGGGGCC TGTCCGTACA
    TTCGGCCCAC ATCACCACCA TCATACAATC CTCAAGTCTT CTAGCCTAAG TTTGCCCCAG
    GAGCCCAAGG AGGTTCGTTT TGTCATGAGG AGTGCTAGTG CTCGAGCCCG CAGCCGCTCT
    CCATCCCCTT CTCCATGTGC CTCCCCCTGC CCCTCGCCGG TACTGGGAGC CCCTCTCCTG
    GCCCTGCGAC CGTTCAGACA GCGCCCCCTA GCACTGTGGA GTAAGTATGA TGTGGGAGAG
    TGGCTAGAGA GTGTGGGACT AGGGGAACAT CGTGCACGCT TTTTAGAGCA TGAGATTGAA
    GGAGCACACC TGCCTGCCTT GACCAAGGAC GATCTGGCAG AGTTAGGGGT GACACGGGTT
    GGACACAGAA TGAACATTGA ACGTGCACTA AAGCAGTTGC TAGAAAGTTG A

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

    CloneID ODa44805
    Clone ID Related Accession (Same CDS sequence) XM_017355260.1 , XM_017355260.2
    Accession Version XM_017355260.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4911bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-06-14
    Organism Danio rerio(zebrafish)
    Product SH3 and multiple ankyrin repeat domains protein 3 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007115.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_017355260.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 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
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATGGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AACGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTATTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACGGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCTCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATCGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTTGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGAGA AGTTGGATGA GATGTTGAGT
    TCGCCAAAGG AACAGGTTGT AGTGATGAGG CAGCGGCCAG TGGATTCAGA CTCCAGAGCA
    GCCACTGTGA AACAGAGACC CACAAGTCGC CGTATCACAC AGGCTGAGAT CAGTTCTTTG
    TTAGAAAGGC AGGGTTTGCC AATAAGCGAA TTATCTTTGG CTGTAGACAA AAGTCACATG
    CAGCTCCCTC GGGGGATGTC AAGAACCAAG TCATTTGGTG CTCCTGAGGA TGATAGAATC
    TCAGCCCTGA TCGGAGAGCA TCGCTTTCCA AGAAGTTCCT CAATGACTGA CAGCTTTAGA
    CAAGATAGCA TCCCACCCCC TCCACAGACA GCTCCCCCAC CACCTCCGAC TCCCTATTTC
    CTTGATTCAG GGCCACCTCC ATCCTTTCTT CCACCTCCGC CCCCTTCACG TGCTGCCAAC
    CAGAGTCGCT CAAGCTTCCG CCCAGGAGCA GAGCCGAAAA TCCATGGCCC AGTCACAACA
    GATCGCCAGC GAAAAACACG CTCCATGATC ATTCTTCAGG ACACCAGCCA TTTGCCAGTG
    GAGCCTACCC CTATTACAAG ACCGCAAACG CCTACCTCTG GACCGGTTCC TCCAGAGCGT
    GGTCGTAGGC GTGGACCACC TGTGGAGAAT CCGTATGCTA ATGTAGGTCG ATTAAGTGCT
    GTCTATACTC CCACCAAACC TCAGCGTAGA AAGAGCCCAC TAGTCAAACA AGGACCAGTC
    GAGGAGGGAG CTGCTGCTCA TTCTAGCCGA GACCCTTCTC CATTGGGAGG TTCACGAATT
    CCTCACAGCA GCCGGGCGGA GCAGTTCCAA CAGCAGGTTC TCTCCGAGCG AGCTAGGATC
    ACACCTCCTG GGGCTCGACG CAGGCCTAGC GTTTTTCTGT CTGTAGAAGG GGGAGCAACA
    GAGCCACAGA CAACTCCATT ACTCTCTCAG TCTCACTCAG TGGATGAGTT GGCTGAGTTA
    CCTCCACCTG CACCAATGCT CTCTCCTGGC CCACCACCAG GGGGGACAAC TTTTATACAC
    CCTCTAACAG GTCGACCACT CGATCCTTCA TCACCTTTAG CACTTGCACT GGCTGCACGA
    GAACGTGCAC TTAGTGGCCG AAATACACCC ACCCCCACAC CTTCGCCCAC ACCTTCGCCC
    ACTCAAGGTA GAGCAGTGGA AAGGCCCGAG ACAGAAGGAG GAGCAACACC ACCTGCTCCT
    CTTGAGGCTC CTCCATCTAA TTCCTGGAGA GATGAACCAG TCAGCATCAC AGAAACGGCC
    AGCCAAGTGA CTAGTGGTAG CCCAGGGTCT GGAAGAAGCC TTGAAGAGGC GCTCGCTCCA
    CCCGGGGTGC AAAATATCCA ACCTGCGCTG ATGGATACAG AACATACCCC ACCAGCAGTC
    CCACCCACTC TACCTTCCCC TGCCCCTACT CTTTCCAATC TGACTGCTCG AAGTATGACT
    ATGAGCTCAG AGGAGGAAGC GGAGCCCTAC ACAGTGACAC TTCCCCCTGC ATTGCTCTCA
    TCCAGTGATG AGGAAACCAG AGAGGAGCTT CGGAAAATAG GCCTGGTTCC ACCGCCTCAA
    CCTTTTGCTA ATGGCCTTCT AATTAAAGAA ACATCCAAAG CCACTCTGAG CATTTCACCT
    AGCGGGTCAC GGCCATCCAT TGCTAAGACC TCCTCTGGTA AAGCAAGTGA TTCAACAGCA
    GACTCTGGGG TTGAAGACCC TCATATGGAG ACCACCAGTA CTGTTTCCAC AGTCTCCAGC
    ATGTCCACTT TGTCTTCAGA GAGCACAGAC TCCGCTCATG CAAGCAAACC ACGTTGTGGG
    GTGGGGCGTG GTCGCCCCGC CCATCTCAGG GACCCACTGC TTAAACAGTC ATCAGACAGT
    GAGCTGCTTC CACACCCACC CAGCACAGGC CCCAGCCGTC CTCGCTACCT ATTCCAAAGA
    CGTTCCAAAC TGTGGGGGGA GGAGCCCCGG GCCCAGATGG GGTCATCAGA TGAAAGTCGG
    CCTGCTGCTA TGGGGGCAGA GTTGCTTAGC AAAGACACTC ATTCACTGGG TGAGGAGCCA
    CCAATGGGAG CACCACTTGA CCCTGGCAGG AGATCGCCTG TGGGAGGTGC CAGATGTGAG
    GAGAATGGAG GAGAGAGTAA ATCACTTTTT AGTAGTTTAG GAGAGCTTCA CACCATCTCA
    CAAAGGAGTT ACGGCACCAC CTTTACAATC CGACCTGGCA GCCGATACCC AGTGACCCGT
    AGGACTCCAA GCCCTGGAGC CACCCCAGAA CGGAGTGAAC CATTGGGGCC TGTCCGTACA
    TTCGGCCCAC ATCACCACCA TCATACAATC CTCAAGTCTT CTAGCCTAAG TTTGCCCCAG
    GAGCCCAAGG AGGTTCGTTT TGTCATGAGG AGTGCTAGTG CTCGAGCCCG CAGCCGCTCT
    CCATCCCCTT CTCCATGTGC CTCCCCCTGC CCCTCGCCGG TACTGGGAGC CCCTCTCCTG
    GCCCTGCGAC CGTTCAGACA GCGCCCCCTA GCACTGTGGA GTAAGTATGA TGTGGGAGAG
    TGGCTAGAGA GTGTGGGACT AGGGGAACAT CGTGCACGCT TTTTAGAGCA TGAGATTGAA
    GGAGCACACC TGCCTGCCTT GACCAAGGAC GATCTGGCAG AGTTAGGGGT GACACGGGTT
    GGACACAGAA TGAACATTGA ACGTGCACTA AAGCAGTTGC TAGAAAGTTG A

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

    RefSeq XP_017210749.1
    CDS354..5264
    Translation

    Target ORF information:

    RefSeq Version XM_017355260.2
    Organism Danio rerio(zebrafish)
    Definition Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017355260.2

    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
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATGGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AACGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTATTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACGGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCTCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATCGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTTGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGAGA AGTTGGATGA GATGTTGAGT
    TCGCCAAAGG AACAGGTTGT AGTGATGAGG CAGCGGCCAG TGGATTCAGA CTCCAGAGCA
    GCCACTGTGA AACAGAGACC CACAAGTCGC CGTATCACAC AGGCTGAGAT CAGTTCTTTG
    TTAGAAAGGC AGGGTTTGCC AATAAGCGAA TTATCTTTGG CTGTAGACAA AAGTCACATG
    CAGCTCCCTC GGGGGATGTC AAGAACCAAG TCATTTGGTG CTCCTGAGGA TGATAGAATC
    TCAGCCCTGA TCGGAGAGCA TCGCTTTCCA AGAAGTTCCT CAATGACTGA CAGCTTTAGA
    CAAGATAGCA TCCCACCCCC TCCACAGACA GCTCCCCCAC CACCTCCGAC TCCCTATTTC
    CTTGATTCAG GGCCACCTCC ATCCTTTCTT CCACCTCCGC CCCCTTCACG TGCTGCCAAC
    CAGAGTCGCT CAAGCTTCCG CCCAGGAGCA GAGCCGAAAA TCCATGGCCC AGTCACAACA
    GATCGCCAGC GAAAAACACG CTCCATGATC ATTCTTCAGG ACACCAGCCA TTTGCCAGTG
    GAGCCTACCC CTATTACAAG ACCGCAAACG CCTACCTCTG GACCGGTTCC TCCAGAGCGT
    GGTCGTAGGC GTGGACCACC TGTGGAGAAT CCGTATGCTA ATGTAGGTCG ATTAAGTGCT
    GTCTATACTC CCACCAAACC TCAGCGTAGA AAGAGCCCAC TAGTCAAACA AGGACCAGTC
    GAGGAGGGAG CTGCTGCTCA TTCTAGCCGA GACCCTTCTC CATTGGGAGG TTCACGAATT
    CCTCACAGCA GCCGGGCGGA GCAGTTCCAA CAGCAGGTTC TCTCCGAGCG AGCTAGGATC
    ACACCTCCTG GGGCTCGACG CAGGCCTAGC GTTTTTCTGT CTGTAGAAGG GGGAGCAACA
    GAGCCACAGA CAACTCCATT ACTCTCTCAG TCTCACTCAG TGGATGAGTT GGCTGAGTTA
    CCTCCACCTG CACCAATGCT CTCTCCTGGC CCACCACCAG GGGGGACAAC TTTTATACAC
    CCTCTAACAG GTCGACCACT CGATCCTTCA TCACCTTTAG CACTTGCACT GGCTGCACGA
    GAACGTGCAC TTAGTGGCCG AAATACACCC ACCCCCACAC CTTCGCCCAC ACCTTCGCCC
    ACTCAAGGTA GAGCAGTGGA AAGGCCCGAG ACAGAAGGAG GAGCAACACC ACCTGCTCCT
    CTTGAGGCTC CTCCATCTAA TTCCTGGAGA GATGAACCAG TCAGCATCAC AGAAACGGCC
    AGCCAAGTGA CTAGTGGTAG CCCAGGGTCT GGAAGAAGCC TTGAAGAGGC GCTCGCTCCA
    CCCGGGGTGC AAAATATCCA ACCTGCGCTG ATGGATACAG AACATACCCC ACCAGCAGTC
    CCACCCACTC TACCTTCCCC TGCCCCTACT CTTTCCAATC TGACTGCTCG AAGTATGACT
    ATGAGCTCAG AGGAGGAAGC GGAGCCCTAC ACAGTGACAC TTCCCCCTGC ATTGCTCTCA
    TCCAGTGATG AGGAAACCAG AGAGGAGCTT CGGAAAATAG GCCTGGTTCC ACCGCCTCAA
    CCTTTTGCTA ATGGCCTTCT AATTAAAGAA ACATCCAAAG CCACTCTGAG CATTTCACCT
    AGCGGGTCAC GGCCATCCAT TGCTAAGACC TCCTCTGGTA AAGCAAGTGA TTCAACAGCA
    GACTCTGGGG TTGAAGACCC TCATATGGAG ACCACCAGTA CTGTTTCCAC AGTCTCCAGC
    ATGTCCACTT TGTCTTCAGA GAGCACAGAC TCCGCTCATG CAAGCAAACC ACGTTGTGGG
    GTGGGGCGTG GTCGCCCCGC CCATCTCAGG GACCCACTGC TTAAACAGTC ATCAGACAGT
    GAGCTGCTTC CACACCCACC CAGCACAGGC CCCAGCCGTC CTCGCTACCT ATTCCAAAGA
    CGTTCCAAAC TGTGGGGGGA GGAGCCCCGG GCCCAGATGG GGTCATCAGA TGAAAGTCGG
    CCTGCTGCTA TGGGGGCAGA GTTGCTTAGC AAAGACACTC ATTCACTGGG TGAGGAGCCA
    CCAATGGGAG CACCACTTGA CCCTGGCAGG AGATCGCCTG TGGGAGGTGC CAGATGTGAG
    GAGAATGGAG GAGAGAGTAA ATCACTTTTT AGTAGTTTAG GAGAGCTTCA CACCATCTCA
    CAAAGGAGTT ACGGCACCAC CTTTACAATC CGACCTGGCA GCCGATACCC AGTGACCCGT
    AGGACTCCAA GCCCTGGAGC CACCCCAGAA CGGAGTGAAC CATTGGGGCC TGTCCGTACA
    TTCGGCCCAC ATCACCACCA TCATACAATC CTCAAGTCTT CTAGCCTAAG TTTGCCCCAG
    GAGCCCAAGG AGGTTCGTTT TGTCATGAGG AGTGCTAGTG CTCGAGCCCG CAGCCGCTCT
    CCATCCCCTT CTCCATGTGC CTCCCCCTGC CCCTCGCCGG TACTGGGAGC CCCTCTCCTG
    GCCCTGCGAC CGTTCAGACA GCGCCCCCTA GCACTGTGGA GTAAGTATGA TGTGGGAGAG
    TGGCTAGAGA GTGTGGGACT AGGGGAACAT CGTGCACGCT TTTTAGAGCA TGAGATTGAA
    GGAGCACACC TGCCTGCCTT GACCAAGGAC GATCTGGCAG AGTTAGGGGT GACACGGGTT
    GGACACAGAA TGAACATTGA ACGTGCACTA AAGCAGTTGC TAGAAAGTTG A

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

    CloneID ODa44806
    Clone ID Related Accession (Same CDS sequence) XM_017355262.1 , XM_017355262.2
    Accession Version XM_017355262.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4818bp)
    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 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product SH3 and multiple ankyrin repeat domains protein 3 isoform X4
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007115.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 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
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATGGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AACGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTATTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACGGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCTCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATCGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTTGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGCGT CAAGGAGAAG GAGGGGAGAG
    AAGTTGGATG AGATGTTGAG TTCGCCAAAG GAACAGGTTG TAGTGATGAG GCAGCGGCCA
    GTGGATTCAG ACTCCAGAGC AGCCACTGTG AAACAGAGAC CCACAAGTCG CCGTATCACA
    CAGGCTGAGA TCAGTTCTTT GTTAGAAAGG CAGGGTTTGC CAATAAGCGA ATTATCTTTG
    GCTGTAGACA AAAGTCACAT GCAGCTCCCT CGGGGGATGT CAAGAACCAA GTCATTTGGT
    GCTCCTGAGG ATGATAGAAT CTCAGCCCTG ATCGGAGAGC ATCGCTTTCC AAGAAGTTCC
    TCAATGACTG ACAGCTTTAG ACAAGATAGC ATCCCACCCC CTCCACAGAC AGCTCCCCCA
    CCACCTCCGA CTCCCTATTT CCTTGATTCA GGGCCACCTC CATCCTTTCT TCCACCTCCG
    CCCCCTTCAC GTGCTGCCAA CCAGAGTCGC TCAAGCTTCC GCCCAGGAGC AGAGCCGAAA
    ATCCATGGCC CAGTCACAAC AGATCGCCAG CGAAAAACAC GCTCCATGAT CATTCTTCAG
    GACACCAGCC ATTTGCCAGT GGAGCCTACC CCTATTACAA GACCGCAAAC GCCTACCTCT
    GGACCGGTTC CTCCAGAGCG TGGTCGTAGG CGTGGACCAC CTGTGGAGAA TCCGTATGCT
    AATGTAGGTC GATTAAGTGC TGTCTATACT CCCACCAAAC CTCAGCGTAG AAAGAGCCCA
    CTAGTCAAAC AAGGACCAGT CGAGGAGGGA GCTGCTGCTC ATTCTAGCCG AGACCCTTCT
    CCATTGGGAG GTTCACGAAT TCCTCACAGC AGCCGGGCGG AGCAGTTCCA ACAGCAGGTT
    CTCTCCGAGC GAGCTAGGAT CACACCTCCT GGGGCTCGAC GCAGGCCTAG CGTTTTTCTG
    TCTGTAGAAG GGGGAGCAAC AGAGCCACAG ACAACTCCAT TACTCTCTCA GTCTCACTCA
    GTGGATGAGT TGGCTGAGTT ACCTCCACCT GCACCAATGC TCTCTCCTGG CCCACCACCA
    GGGGGGACAA CTTTTATACA CCCTCTAACA GGTCGACCAC TCGATCCTTC ATCACCTTTA
    GCACTTGCAC TGGCTGCACG AGAACGTGCA CTTAGTGGCC GAAATACACC CACCCCCACA
    CCTTCGCCCA CACCTTCGCC CACTCAAGGT AGAGCAGTGG AAAGGCCCGA GACAGAAGGA
    GGAGCAACAC CACCTGCTCC TCTTGAGGCT CCTCCATCTA ATTCCTGGAG AGATGAACCA
    GTCAGCATCA CAGAAACGGC CAGCCAAGTG ACTAGTGGTA GCCCAGGGTC TGGAAGAAGC
    CTTGAAGAGG CGCTCGCTCC ACCCGGGGTG CAAAATATCC AACCTGCGCT GATGGATACA
    GAACATACCC CACCAGCAGT CCCACCCACT CTACCTTCCC CTGCCCCTAC TCTTTCCAAT
    CTGACTGCTC GAAGTATGAC TATGAGCTCA GAGGAGGAAG CGGAGCCCTA CACAGTGACA
    CTTCCCCCTG CATTGCTCTC ATCCAGTGAT GAGGAAACCA GAGAGGAGCT TCGGAAAATA
    GGCCTGGTTC CACCGCCTCA ACCTTTTGCT AATGGCCTTC TAATTAAAGA AACATCCAAA
    GCCACTCTGA GCATTTCACC TAGCGGGTCA CGGCCATCCA TTGCTAAGAC CTCCTCTGGT
    AAAGCAAGTG ATTCAACAGC AGACTCTGGG GTTGAAGACC CTCATATGGA GACCACCAGT
    ACTGTTTCCA CAGTCTCCAG CATGTCCACT TTGTCTTCAG AGAGCACAGA CTCCGCTCAT
    GCAAGCAAAC CACGTTGTGG GGTGGGGCGT GGTCGCCCCG CCCATCTCAG GGACCCACTG
    CTTAAACAGT CATCAGACAG TGAGCTGCTT CCACACCCAC CCAGCACAGG CCCCAGCCGT
    CCTCGCTACC TATTCCAAAG ACGTTCCAAA CTGTGGGGGG AGGAGCCCCG GGCCCAGATG
    GGGTCATCAG ATGAAAGTCG GCCTGCTGCT ATGGGGGCAG AGTTGCTTAG CAAAGACACT
    CATTCACTGG GTGAGGAGCC ACCAATGGGA GCACCACTTG ACCCTGGCAG GAGATCGCCT
    GTGGGAGGTG CCAGATGTGA GGAGAATGGA GGAGAGAGTA AATCACTTTT TAGTAGTTTA
    GGAGAGCTTC ACACCATCTC ACAAAGGAGT TACGGCACCA CCTTTACAAT CCGACCTGGC
    AGCCGATACC CAGTGACCCG TAGGACTCCA AGCCCTGGAG CCACCCCAGA ACGGAGTGAA
    CCATTGGGGC CTGTCCGTAC ATTCGGCCCA CATCACCACC ATCATACAAT CCTCAAGTCT
    TCTAGCCTAA GTTTGCCCCA GGAGCCCAAG GAGGTTCGTT TTGTCATGAG GAGTGCTAGT
    GCTCGAGCCC GCAGCCGCTC TCCATCCCCT TCTCCATGTG CCTCCCCCTG CCCCTCGCCG
    GTACTGGGAG CCCCTCTCCT GGCCCTGCGA CCGTTCAGAC AGCGCCCCCT AGCACTGTGG
    AGAGAGAGAC TTCTGAATTT AGAAAGCAGT GTCAACTTGG GTGAAAAAGA AAAGAGCGGA
    AACCTCTCCT GTAAATAA

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

    RefSeq XP_017210751.1
    CDS218..5035
    Translation

    Target ORF information:

    RefSeq Version XM_017355262.1
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017355262.1

    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
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATGGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AACGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTATTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACGGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCTCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATCGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTTGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGCGT CAAGGAGAAG GAGGGGAGAG
    AAGTTGGATG AGATGTTGAG TTCGCCAAAG GAACAGGTTG TAGTGATGAG GCAGCGGCCA
    GTGGATTCAG ACTCCAGAGC AGCCACTGTG AAACAGAGAC CCACAAGTCG CCGTATCACA
    CAGGCTGAGA TCAGTTCTTT GTTAGAAAGG CAGGGTTTGC CAATAAGCGA ATTATCTTTG
    GCTGTAGACA AAAGTCACAT GCAGCTCCCT CGGGGGATGT CAAGAACCAA GTCATTTGGT
    GCTCCTGAGG ATGATAGAAT CTCAGCCCTG ATCGGAGAGC ATCGCTTTCC AAGAAGTTCC
    TCAATGACTG ACAGCTTTAG ACAAGATAGC ATCCCACCCC CTCCACAGAC AGCTCCCCCA
    CCACCTCCGA CTCCCTATTT CCTTGATTCA GGGCCACCTC CATCCTTTCT TCCACCTCCG
    CCCCCTTCAC GTGCTGCCAA CCAGAGTCGC TCAAGCTTCC GCCCAGGAGC AGAGCCGAAA
    ATCCATGGCC CAGTCACAAC AGATCGCCAG CGAAAAACAC GCTCCATGAT CATTCTTCAG
    GACACCAGCC ATTTGCCAGT GGAGCCTACC CCTATTACAA GACCGCAAAC GCCTACCTCT
    GGACCGGTTC CTCCAGAGCG TGGTCGTAGG CGTGGACCAC CTGTGGAGAA TCCGTATGCT
    AATGTAGGTC GATTAAGTGC TGTCTATACT CCCACCAAAC CTCAGCGTAG AAAGAGCCCA
    CTAGTCAAAC AAGGACCAGT CGAGGAGGGA GCTGCTGCTC ATTCTAGCCG AGACCCTTCT
    CCATTGGGAG GTTCACGAAT TCCTCACAGC AGCCGGGCGG AGCAGTTCCA ACAGCAGGTT
    CTCTCCGAGC GAGCTAGGAT CACACCTCCT GGGGCTCGAC GCAGGCCTAG CGTTTTTCTG
    TCTGTAGAAG GGGGAGCAAC AGAGCCACAG ACAACTCCAT TACTCTCTCA GTCTCACTCA
    GTGGATGAGT TGGCTGAGTT ACCTCCACCT GCACCAATGC TCTCTCCTGG CCCACCACCA
    GGGGGGACAA CTTTTATACA CCCTCTAACA GGTCGACCAC TCGATCCTTC ATCACCTTTA
    GCACTTGCAC TGGCTGCACG AGAACGTGCA CTTAGTGGCC GAAATACACC CACCCCCACA
    CCTTCGCCCA CACCTTCGCC CACTCAAGGT AGAGCAGTGG AAAGGCCCGA GACAGAAGGA
    GGAGCAACAC CACCTGCTCC TCTTGAGGCT CCTCCATCTA ATTCCTGGAG AGATGAACCA
    GTCAGCATCA CAGAAACGGC CAGCCAAGTG ACTAGTGGTA GCCCAGGGTC TGGAAGAAGC
    CTTGAAGAGG CGCTCGCTCC ACCCGGGGTG CAAAATATCC AACCTGCGCT GATGGATACA
    GAACATACCC CACCAGCAGT CCCACCCACT CTACCTTCCC CTGCCCCTAC TCTTTCCAAT
    CTGACTGCTC GAAGTATGAC TATGAGCTCA GAGGAGGAAG CGGAGCCCTA CACAGTGACA
    CTTCCCCCTG CATTGCTCTC ATCCAGTGAT GAGGAAACCA GAGAGGAGCT TCGGAAAATA
    GGCCTGGTTC CACCGCCTCA ACCTTTTGCT AATGGCCTTC TAATTAAAGA AACATCCAAA
    GCCACTCTGA GCATTTCACC TAGCGGGTCA CGGCCATCCA TTGCTAAGAC CTCCTCTGGT
    AAAGCAAGTG ATTCAACAGC AGACTCTGGG GTTGAAGACC CTCATATGGA GACCACCAGT
    ACTGTTTCCA CAGTCTCCAG CATGTCCACT TTGTCTTCAG AGAGCACAGA CTCCGCTCAT
    GCAAGCAAAC CACGTTGTGG GGTGGGGCGT GGTCGCCCCG CCCATCTCAG GGACCCACTG
    CTTAAACAGT CATCAGACAG TGAGCTGCTT CCACACCCAC CCAGCACAGG CCCCAGCCGT
    CCTCGCTACC TATTCCAAAG ACGTTCCAAA CTGTGGGGGG AGGAGCCCCG GGCCCAGATG
    GGGTCATCAG ATGAAAGTCG GCCTGCTGCT ATGGGGGCAG AGTTGCTTAG CAAAGACACT
    CATTCACTGG GTGAGGAGCC ACCAATGGGA GCACCACTTG ACCCTGGCAG GAGATCGCCT
    GTGGGAGGTG CCAGATGTGA GGAGAATGGA GGAGAGAGTA AATCACTTTT TAGTAGTTTA
    GGAGAGCTTC ACACCATCTC ACAAAGGAGT TACGGCACCA CCTTTACAAT CCGACCTGGC
    AGCCGATACC CAGTGACCCG TAGGACTCCA AGCCCTGGAG CCACCCCAGA ACGGAGTGAA
    CCATTGGGGC CTGTCCGTAC ATTCGGCCCA CATCACCACC ATCATACAAT CCTCAAGTCT
    TCTAGCCTAA GTTTGCCCCA GGAGCCCAAG GAGGTTCGTT TTGTCATGAG GAGTGCTAGT
    GCTCGAGCCC GCAGCCGCTC TCCATCCCCT TCTCCATGTG CCTCCCCCTG CCCCTCGCCG
    GTACTGGGAG CCCCTCTCCT GGCCCTGCGA CCGTTCAGAC AGCGCCCCCT AGCACTGTGG
    AGAGAGAGAC TTCTGAATTT AGAAAGCAGT GTCAACTTGG GTGAAAAAGA AAAGAGCGGA
    AACCTCTCCT GTAAATAA

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

    CloneID ODa44806
    Clone ID Related Accession (Same CDS sequence) XM_017355262.1 , XM_017355262.2
    Accession Version XM_017355262.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4818bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-06-14
    Organism Danio rerio(zebrafish)
    Product SH3 and multiple ankyrin repeat domains protein 3 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007115.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_017355262.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 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
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATGGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AACGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTATTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACGGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCTCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATCGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTTGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGCGT CAAGGAGAAG GAGGGGAGAG
    AAGTTGGATG AGATGTTGAG TTCGCCAAAG GAACAGGTTG TAGTGATGAG GCAGCGGCCA
    GTGGATTCAG ACTCCAGAGC AGCCACTGTG AAACAGAGAC CCACAAGTCG CCGTATCACA
    CAGGCTGAGA TCAGTTCTTT GTTAGAAAGG CAGGGTTTGC CAATAAGCGA ATTATCTTTG
    GCTGTAGACA AAAGTCACAT GCAGCTCCCT CGGGGGATGT CAAGAACCAA GTCATTTGGT
    GCTCCTGAGG ATGATAGAAT CTCAGCCCTG ATCGGAGAGC ATCGCTTTCC AAGAAGTTCC
    TCAATGACTG ACAGCTTTAG ACAAGATAGC ATCCCACCCC CTCCACAGAC AGCTCCCCCA
    CCACCTCCGA CTCCCTATTT CCTTGATTCA GGGCCACCTC CATCCTTTCT TCCACCTCCG
    CCCCCTTCAC GTGCTGCCAA CCAGAGTCGC TCAAGCTTCC GCCCAGGAGC AGAGCCGAAA
    ATCCATGGCC CAGTCACAAC AGATCGCCAG CGAAAAACAC GCTCCATGAT CATTCTTCAG
    GACACCAGCC ATTTGCCAGT GGAGCCTACC CCTATTACAA GACCGCAAAC GCCTACCTCT
    GGACCGGTTC CTCCAGAGCG TGGTCGTAGG CGTGGACCAC CTGTGGAGAA TCCGTATGCT
    AATGTAGGTC GATTAAGTGC TGTCTATACT CCCACCAAAC CTCAGCGTAG AAAGAGCCCA
    CTAGTCAAAC AAGGACCAGT CGAGGAGGGA GCTGCTGCTC ATTCTAGCCG AGACCCTTCT
    CCATTGGGAG GTTCACGAAT TCCTCACAGC AGCCGGGCGG AGCAGTTCCA ACAGCAGGTT
    CTCTCCGAGC GAGCTAGGAT CACACCTCCT GGGGCTCGAC GCAGGCCTAG CGTTTTTCTG
    TCTGTAGAAG GGGGAGCAAC AGAGCCACAG ACAACTCCAT TACTCTCTCA GTCTCACTCA
    GTGGATGAGT TGGCTGAGTT ACCTCCACCT GCACCAATGC TCTCTCCTGG CCCACCACCA
    GGGGGGACAA CTTTTATACA CCCTCTAACA GGTCGACCAC TCGATCCTTC ATCACCTTTA
    GCACTTGCAC TGGCTGCACG AGAACGTGCA CTTAGTGGCC GAAATACACC CACCCCCACA
    CCTTCGCCCA CACCTTCGCC CACTCAAGGT AGAGCAGTGG AAAGGCCCGA GACAGAAGGA
    GGAGCAACAC CACCTGCTCC TCTTGAGGCT CCTCCATCTA ATTCCTGGAG AGATGAACCA
    GTCAGCATCA CAGAAACGGC CAGCCAAGTG ACTAGTGGTA GCCCAGGGTC TGGAAGAAGC
    CTTGAAGAGG CGCTCGCTCC ACCCGGGGTG CAAAATATCC AACCTGCGCT GATGGATACA
    GAACATACCC CACCAGCAGT CCCACCCACT CTACCTTCCC CTGCCCCTAC TCTTTCCAAT
    CTGACTGCTC GAAGTATGAC TATGAGCTCA GAGGAGGAAG CGGAGCCCTA CACAGTGACA
    CTTCCCCCTG CATTGCTCTC ATCCAGTGAT GAGGAAACCA GAGAGGAGCT TCGGAAAATA
    GGCCTGGTTC CACCGCCTCA ACCTTTTGCT AATGGCCTTC TAATTAAAGA AACATCCAAA
    GCCACTCTGA GCATTTCACC TAGCGGGTCA CGGCCATCCA TTGCTAAGAC CTCCTCTGGT
    AAAGCAAGTG ATTCAACAGC AGACTCTGGG GTTGAAGACC CTCATATGGA GACCACCAGT
    ACTGTTTCCA CAGTCTCCAG CATGTCCACT TTGTCTTCAG AGAGCACAGA CTCCGCTCAT
    GCAAGCAAAC CACGTTGTGG GGTGGGGCGT GGTCGCCCCG CCCATCTCAG GGACCCACTG
    CTTAAACAGT CATCAGACAG TGAGCTGCTT CCACACCCAC CCAGCACAGG CCCCAGCCGT
    CCTCGCTACC TATTCCAAAG ACGTTCCAAA CTGTGGGGGG AGGAGCCCCG GGCCCAGATG
    GGGTCATCAG ATGAAAGTCG GCCTGCTGCT ATGGGGGCAG AGTTGCTTAG CAAAGACACT
    CATTCACTGG GTGAGGAGCC ACCAATGGGA GCACCACTTG ACCCTGGCAG GAGATCGCCT
    GTGGGAGGTG CCAGATGTGA GGAGAATGGA GGAGAGAGTA AATCACTTTT TAGTAGTTTA
    GGAGAGCTTC ACACCATCTC ACAAAGGAGT TACGGCACCA CCTTTACAAT CCGACCTGGC
    AGCCGATACC CAGTGACCCG TAGGACTCCA AGCCCTGGAG CCACCCCAGA ACGGAGTGAA
    CCATTGGGGC CTGTCCGTAC ATTCGGCCCA CATCACCACC ATCATACAAT CCTCAAGTCT
    TCTAGCCTAA GTTTGCCCCA GGAGCCCAAG GAGGTTCGTT TTGTCATGAG GAGTGCTAGT
    GCTCGAGCCC GCAGCCGCTC TCCATCCCCT TCTCCATGTG CCTCCCCCTG CCCCTCGCCG
    GTACTGGGAG CCCCTCTCCT GGCCCTGCGA CCGTTCAGAC AGCGCCCCCT AGCACTGTGG
    AGAGAGAGAC TTCTGAATTT AGAAAGCAGT GTCAACTTGG GTGAAAAAGA AAAGAGCGGA
    AACCTCTCCT GTAAATAA

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

    RefSeq XP_017210751.1
    CDS354..5171
    Translation

    Target ORF information:

    RefSeq Version XM_017355262.2
    Organism Danio rerio(zebrafish)
    Definition Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017355262.2

    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
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATGGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AACGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTATTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACGGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCTCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATCGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTTGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGCGT CAAGGAGAAG GAGGGGAGAG
    AAGTTGGATG AGATGTTGAG TTCGCCAAAG GAACAGGTTG TAGTGATGAG GCAGCGGCCA
    GTGGATTCAG ACTCCAGAGC AGCCACTGTG AAACAGAGAC CCACAAGTCG CCGTATCACA
    CAGGCTGAGA TCAGTTCTTT GTTAGAAAGG CAGGGTTTGC CAATAAGCGA ATTATCTTTG
    GCTGTAGACA AAAGTCACAT GCAGCTCCCT CGGGGGATGT CAAGAACCAA GTCATTTGGT
    GCTCCTGAGG ATGATAGAAT CTCAGCCCTG ATCGGAGAGC ATCGCTTTCC AAGAAGTTCC
    TCAATGACTG ACAGCTTTAG ACAAGATAGC ATCCCACCCC CTCCACAGAC AGCTCCCCCA
    CCACCTCCGA CTCCCTATTT CCTTGATTCA GGGCCACCTC CATCCTTTCT TCCACCTCCG
    CCCCCTTCAC GTGCTGCCAA CCAGAGTCGC TCAAGCTTCC GCCCAGGAGC AGAGCCGAAA
    ATCCATGGCC CAGTCACAAC AGATCGCCAG CGAAAAACAC GCTCCATGAT CATTCTTCAG
    GACACCAGCC ATTTGCCAGT GGAGCCTACC CCTATTACAA GACCGCAAAC GCCTACCTCT
    GGACCGGTTC CTCCAGAGCG TGGTCGTAGG CGTGGACCAC CTGTGGAGAA TCCGTATGCT
    AATGTAGGTC GATTAAGTGC TGTCTATACT CCCACCAAAC CTCAGCGTAG AAAGAGCCCA
    CTAGTCAAAC AAGGACCAGT CGAGGAGGGA GCTGCTGCTC ATTCTAGCCG AGACCCTTCT
    CCATTGGGAG GTTCACGAAT TCCTCACAGC AGCCGGGCGG AGCAGTTCCA ACAGCAGGTT
    CTCTCCGAGC GAGCTAGGAT CACACCTCCT GGGGCTCGAC GCAGGCCTAG CGTTTTTCTG
    TCTGTAGAAG GGGGAGCAAC AGAGCCACAG ACAACTCCAT TACTCTCTCA GTCTCACTCA
    GTGGATGAGT TGGCTGAGTT ACCTCCACCT GCACCAATGC TCTCTCCTGG CCCACCACCA
    GGGGGGACAA CTTTTATACA CCCTCTAACA GGTCGACCAC TCGATCCTTC ATCACCTTTA
    GCACTTGCAC TGGCTGCACG AGAACGTGCA CTTAGTGGCC GAAATACACC CACCCCCACA
    CCTTCGCCCA CACCTTCGCC CACTCAAGGT AGAGCAGTGG AAAGGCCCGA GACAGAAGGA
    GGAGCAACAC CACCTGCTCC TCTTGAGGCT CCTCCATCTA ATTCCTGGAG AGATGAACCA
    GTCAGCATCA CAGAAACGGC CAGCCAAGTG ACTAGTGGTA GCCCAGGGTC TGGAAGAAGC
    CTTGAAGAGG CGCTCGCTCC ACCCGGGGTG CAAAATATCC AACCTGCGCT GATGGATACA
    GAACATACCC CACCAGCAGT CCCACCCACT CTACCTTCCC CTGCCCCTAC TCTTTCCAAT
    CTGACTGCTC GAAGTATGAC TATGAGCTCA GAGGAGGAAG CGGAGCCCTA CACAGTGACA
    CTTCCCCCTG CATTGCTCTC ATCCAGTGAT GAGGAAACCA GAGAGGAGCT TCGGAAAATA
    GGCCTGGTTC CACCGCCTCA ACCTTTTGCT AATGGCCTTC TAATTAAAGA AACATCCAAA
    GCCACTCTGA GCATTTCACC TAGCGGGTCA CGGCCATCCA TTGCTAAGAC CTCCTCTGGT
    AAAGCAAGTG ATTCAACAGC AGACTCTGGG GTTGAAGACC CTCATATGGA GACCACCAGT
    ACTGTTTCCA CAGTCTCCAG CATGTCCACT TTGTCTTCAG AGAGCACAGA CTCCGCTCAT
    GCAAGCAAAC CACGTTGTGG GGTGGGGCGT GGTCGCCCCG CCCATCTCAG GGACCCACTG
    CTTAAACAGT CATCAGACAG TGAGCTGCTT CCACACCCAC CCAGCACAGG CCCCAGCCGT
    CCTCGCTACC TATTCCAAAG ACGTTCCAAA CTGTGGGGGG AGGAGCCCCG GGCCCAGATG
    GGGTCATCAG ATGAAAGTCG GCCTGCTGCT ATGGGGGCAG AGTTGCTTAG CAAAGACACT
    CATTCACTGG GTGAGGAGCC ACCAATGGGA GCACCACTTG ACCCTGGCAG GAGATCGCCT
    GTGGGAGGTG CCAGATGTGA GGAGAATGGA GGAGAGAGTA AATCACTTTT TAGTAGTTTA
    GGAGAGCTTC ACACCATCTC ACAAAGGAGT TACGGCACCA CCTTTACAAT CCGACCTGGC
    AGCCGATACC CAGTGACCCG TAGGACTCCA AGCCCTGGAG CCACCCCAGA ACGGAGTGAA
    CCATTGGGGC CTGTCCGTAC ATTCGGCCCA CATCACCACC ATCATACAAT CCTCAAGTCT
    TCTAGCCTAA GTTTGCCCCA GGAGCCCAAG GAGGTTCGTT TTGTCATGAG GAGTGCTAGT
    GCTCGAGCCC GCAGCCGCTC TCCATCCCCT TCTCCATGTG CCTCCCCCTG CCCCTCGCCG
    GTACTGGGAG CCCCTCTCCT GGCCCTGCGA CCGTTCAGAC AGCGCCCCCT AGCACTGTGG
    AGAGAGAGAC TTCTGAATTT AGAAAGCAGT GTCAACTTGG GTGAAAAAGA AAAGAGCGGA
    AACCTCTCCT GTAAATAA

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

    CloneID ODa44807
    Clone ID Related Accession (Same CDS sequence) XM_017355263.2 , XM_017355263.1
    Accession Version XM_017355263.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4656bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-06-14
    Organism Danio rerio(zebrafish)
    Product SH3 and multiple ankyrin repeat domains protein 3 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007115.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_017355263.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 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
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATGGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGGC AAATTTAAAG AAGTTTATGG AGTATGTTCA GCAGAGGTGT
    GTGGATAAGG TCTGCCGGTT CCTGGAAAAA GGGCTGGACC CCAACTTTCA TGATAGTGAC
    AGCGGAGAAT CTCCTCTCAC TCTCGTGGCC CAGCTGGACA CTTGTGCCGA TCTGATTAAA
    GTGTTGAGAA GCGGAGGAGC CCATCTGGAC TTCAGAACCA GAGACGGCTT GACGGCGCTG
    CACAAAGCGG CCCAAACGCA CAACCATGTA GCATTGACTA CATTGTTGGA TCTGGGAGCG
    TCTCCGGACT ATAAGGACAG TCGTGGGCTC ACCCCGTTAT ATCACAGTGC CATGGTTGGG
    GGAGATCCTT ACTGCTGCGA GCTGCTGCTT TATGATCACG CTCAGCTGGG CTACAGCGAT
    GAGAACGGCT GGCAGGAGAT CCATCAGGCT TGTCGTCATG GAAACGTGCA GCACCTTGAG
    CACCTGTTAT TCTATGGAGC GGAGATGAGC GCTCAGAACG CCTCAGGAAA CACAGCACTA
    CACCTGTGTG CCCTCTACAA CCAGGAAGGC TGTGCTAGAG TTCTCCTATT TCGAGGAGCA
    AATAAAGAAA TCAAAAACTA CAACAACCAA ACAGCATTTC AGGTTGCTAT CATCGCAGGG
    AACTTTGACT TGGCAGAAAT CATAAAGATC CATAAAACCT CAGATGTTGT GCCTTTCAGG
    GAGACCCCTT CTTATTCGTC CCGGCGGCGT GCGGTTTGTG TGTCTCCACG TCGCTCTCTG
    ATGCGATCGG CCAGTGATAA CGCTCTGGAT GAGACTTTAA CGGCTCCCTC TCCAGCCCCC
    TCCCTGCGCA GCCTGCCGCC TCTGGAGCCT GACGACACGG TCCCGTCTCA GCGGAGCCCG
    CAGGCTGCTC ACACACATAC ACGCAGCCTC AGGAGACACA CACGCTCTGG AGGACACCTC
    AGCCCTGGCA GTCCTGTACA GAGAGAGCCG AGCCCTCCTG CGGTGCCTCG AGGGCCCAAG
    CGGCGGCTGT ACAGTGCAGT GCCCGGGCGA ACCTTCATCG CCATCAACTC CCACACTCCA
    CAGGGCGAGG GTGAGATCAC ACTCAACCGA GGAGAGAGGG TCAAAGTGCT AAGCATCGGT
    GAAGGAGGAT TCTGGGAAGG CTCAGTAAAA GGACGGACTG GCTGGTTTCC TGCTCACTGT
    GTAGAGGAAG TCCAGATGAG ACAGTATGAC CCACGACTTG AAACAAGAGA AGACCGCACC
    AAGAGACTAT TCAGGCACTA CACTGTTGGC TCCTACGACA ACTATACCTC TTACAGTGAT
    TATGTTATAG AAGAAAAAAG TGCAACGTTG CAGAAGAGAG ACAGCGAAGG GTTCGGCTTT
    GTGCTTCGGG GAGCTAAAGC TGAGACGCCC ATAGAGGAGT TCACACCTAC TCCTGCTTTT
    CCTGCACTGC AATACTTGGA GTCAGTGGAC CTGGAGGGAG TGGCGTGGAG GGCAGGATTA
    AGGACAGGGG ATTTCCTCAT AGAGGTAAAT GGTGTGAGCG TAGTAAAGGT GGGACATAGG
    CAGGTGGTAT CACTGATTCG GCAAGGTGGA AGTCGGCTAG TAATGAAGGT GGTGTCTGTT
    ACACGCAAAC CTGACACTGG AGACGTTGTT CGCAAAAAAG CCCCACCACC TCCCAAGAGA
    GACCCAAGCA CCAGCCTGAC CCTGCGCTCA AAAAGCATGA CTGCAGAACT GGAGGAGCTG
    GCGTCAAGGA GAAGGAGGGG AGAGAAGTTG GATGAGATGT TGAGTTCGCC AAAGGAACAG
    GTTGTAGTGA TGAGGCAGCG GCCAGTGGAT TCAGACTCCA GAGCAGCCAC TGTGAAACAG
    AGACCCACAA GTCGCCGTAT CACACAGGCT GAGATCAGTT CTTTGTTAGA AAGGCAGGGT
    TTGCCAATAA GCGAATTATC TTTGGCTGTA GACAAAAGTC ACATGCAGCT CCCTCGGGGG
    ATGTCAAGAA CCAAGTCATT TGGTGCTCCT GAGGATGATA GAATCTCAGC CCTGATCGGA
    GAGCATCGCT TTCCAAGAAG TTCCTCAATG ACTGACAGCT TTAGACAAGA TAGCATCCCA
    CCCCCTCCAC AGACAGCTCC CCCACCACCT CCGACTCCCT ATTTCCTTGA TTCAGGGCCA
    CCTCCATCCT TTCTTCCACC TCCGCCCCCT TCACGTGCTG CCAACCAGAG TCGCTCAAGC
    TTCCGCCCAG GAGCAGAGCC GAAAATCCAT GGCCCAGTCA CAACAGATCG CCAGCGAAAA
    ACACGCTCCA TGATCATTCT TCAGGACACC AGCCATTTGC CAGTGGAGCC TACCCCTATT
    ACAAGACCGC AAACGCCTAC CTCTGGACCG GTTCCTCCAG AGCGTGGTCG TAGGCGTGGA
    CCACCTGTGG AGAATCCGTA TGCTAATGTA GGTCGATTAA GTGCTGTCTA TACTCCCACC
    AAACCTCAGC GTAGAAAGAG CCCACTAGTC AAACAAGGAC CAGTCGAGGA GGGAGCTGCT
    GCTCATTCTA GCCGAGACCC TTCTCCATTG GGAGGTTCAC GAATTCCTCA CAGCAGCCGG
    GCGGAGCAGT TCCAACAGCA GGTTCTCTCC GAGCGAGCTA GGATCACACC TCCTGGGGCT
    CGACGCAGGC CTAGCGTTTT TCTGTCTGTA GAAGGGGGAG CAACAGAGCC ACAGACAACT
    CCATTACTCT CTCAGTCTCA CTCAGTGGAT GAGTTGGCTG AGTTACCTCC ACCTGCACCA
    ATGCTCTCTC CTGGCCCACC ACCAGGGGGG ACAACTTTTA TACACCCTCT AACAGGTCGA
    CCACTCGATC CTTCATCACC TTTAGCACTT GCACTGGCTG CACGAGAACG TGCACTTAGT
    GGCCGAAATA CACCCACCCC CACACCTTCG CCCACACCTT CGCCCACTCA AGGTAGAGCA
    GTGGAAAGGC CCGAGACAGA AGGAGGAGCA ACACCACCTG CTCCTCTTGA GGCTCCTCCA
    TCTAATTCCT GGAGAGATGA ACCAGTCAGC ATCACAGAAA CGGCCAGCCA AGTGACTAGT
    GGTAGCCCAG GGTCTGGAAG AAGCCTTGAA GAGGCGCTCG CTCCACCCGG GGTGCAAAAT
    ATCCAACCTG CGCTGATGGA TACAGAACAT ACCCCACCAG CAGTCCCACC CACTCTACCT
    TCCCCTGCCC CTACTCTTTC CAATCTGACT GCTCGAAGTA TGACTATGAG CTCAGAGGAG
    GAAGCGGAGC CCTACACAGT GACACTTCCC CCTGCATTGC TCTCATCCAG TGATGAGGAA
    ACCAGAGAGG AGCTTCGGAA AATAGGCCTG GTTCCACCGC CTCAACCTTT TGCTAATGGC
    CTTCTAATTA AAGAAACATC CAAAGCCACT CTGAGCATTT CACCTAGCGG GTCACGGCCA
    TCCATTGCTA AGACCTCCTC TGGTAAAGCA AGTGATTCAA CAGCAGACTC TGGGGTTGAA
    GACCCTCATA TGGAGACCAC CAGTACTGTT TCCACAGTCT CCAGCATGTC CACTTTGTCT
    TCAGAGAGCA CAGACTCCGC TCATGCAAGC AAACCACGTT GTGGGGTGGG GCGTGGTCGC
    CCCGCCCATC TCAGGGACCC ACTGCTTAAA CAGTCATCAG ACAGTGAGCT GCTTCCACAC
    CCACCCAGCA CAGGCCCCAG CCGTCCTCGC TACCTATTCC AAAGACGTTC CAAACTGTGG
    GGGGAGGAGC CCCGGGCCCA GATGGGGTCA TCAGATGAAA GTCGGCCTGC TGCTATGGGG
    GCAGAGTTGC TTAGCAAAGA CACTCATTCA CTGGGTGAGG AGCCACCAAT GGGAGCACCA
    CTTGACCCTG GCAGGAGATC GCCTGTGGGA GGTGCCAGAT GTGAGGAGAA TGGAGGAGAG
    AGTAAATCAC TTTTTAGTAG TTTAGGAGAG CTTCACACCA TCTCACAAAG GAGTTACGGC
    ACCACCTTTA CAATCCGACC TGGCAGCCGA TACCCAGTGA CCCGTAGGAC TCCAAGCCCT
    GGAGCCACCC CAGAACGGAG TGAACCATTG GGGCCTGTCC GTACATTCGG CCCACATCAC
    CACCATCATA CAATCCTCAA GTCTTCTAGC CTAAGTTTGC CCCAGGAGCC CAAGGAGGTT
    CGTTTTGTCA TGAGGAGTGC TAGTGCTCGA GCCCGCAGCC GCTCTCCATC CCCTTCTCCA
    TGTGCCTCCC CCTGCCCCTC GCCGGTACTG GGAGCCCCTC TCCTGGCCCT GCGACCGTTC
    AGACAGCGCC CCCTAGCACT GTGGAGTAAG TATGATGTGG GAGAGTGGCT AGAGAGTGTG
    GGACTAGGGG AACATCGTGC ACGCTTTTTA GAGCATGAGA TTGAAGGAGC ACACCTGCCT
    GCCTTGACCA AGGACGATCT GGCAGAGTTA GGGGTGACAC GGGTTGGACA CAGAATGAAC
    ATTGAACGTG CACTAAAGCA GTTGCTAGAA AGTTGA

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

    RefSeq XP_017210752.1
    CDS354..5009
    Translation

    Target ORF information:

    RefSeq Version XM_017355263.2
    Organism Danio rerio(zebrafish)
    Definition Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017355263.2

    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
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATGGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGGC AAATTTAAAG AAGTTTATGG AGTATGTTCA GCAGAGGTGT
    GTGGATAAGG TCTGCCGGTT CCTGGAAAAA GGGCTGGACC CCAACTTTCA TGATAGTGAC
    AGCGGAGAAT CTCCTCTCAC TCTCGTGGCC CAGCTGGACA CTTGTGCCGA TCTGATTAAA
    GTGTTGAGAA GCGGAGGAGC CCATCTGGAC TTCAGAACCA GAGACGGCTT GACGGCGCTG
    CACAAAGCGG CCCAAACGCA CAACCATGTA GCATTGACTA CATTGTTGGA TCTGGGAGCG
    TCTCCGGACT ATAAGGACAG TCGTGGGCTC ACCCCGTTAT ATCACAGTGC CATGGTTGGG
    GGAGATCCTT ACTGCTGCGA GCTGCTGCTT TATGATCACG CTCAGCTGGG CTACAGCGAT
    GAGAACGGCT GGCAGGAGAT CCATCAGGCT TGTCGTCATG GAAACGTGCA GCACCTTGAG
    CACCTGTTAT TCTATGGAGC GGAGATGAGC GCTCAGAACG CCTCAGGAAA CACAGCACTA
    CACCTGTGTG CCCTCTACAA CCAGGAAGGC TGTGCTAGAG TTCTCCTATT TCGAGGAGCA
    AATAAAGAAA TCAAAAACTA CAACAACCAA ACAGCATTTC AGGTTGCTAT CATCGCAGGG
    AACTTTGACT TGGCAGAAAT CATAAAGATC CATAAAACCT CAGATGTTGT GCCTTTCAGG
    GAGACCCCTT CTTATTCGTC CCGGCGGCGT GCGGTTTGTG TGTCTCCACG TCGCTCTCTG
    ATGCGATCGG CCAGTGATAA CGCTCTGGAT GAGACTTTAA CGGCTCCCTC TCCAGCCCCC
    TCCCTGCGCA GCCTGCCGCC TCTGGAGCCT GACGACACGG TCCCGTCTCA GCGGAGCCCG
    CAGGCTGCTC ACACACATAC ACGCAGCCTC AGGAGACACA CACGCTCTGG AGGACACCTC
    AGCCCTGGCA GTCCTGTACA GAGAGAGCCG AGCCCTCCTG CGGTGCCTCG AGGGCCCAAG
    CGGCGGCTGT ACAGTGCAGT GCCCGGGCGA ACCTTCATCG CCATCAACTC CCACACTCCA
    CAGGGCGAGG GTGAGATCAC ACTCAACCGA GGAGAGAGGG TCAAAGTGCT AAGCATCGGT
    GAAGGAGGAT TCTGGGAAGG CTCAGTAAAA GGACGGACTG GCTGGTTTCC TGCTCACTGT
    GTAGAGGAAG TCCAGATGAG ACAGTATGAC CCACGACTTG AAACAAGAGA AGACCGCACC
    AAGAGACTAT TCAGGCACTA CACTGTTGGC TCCTACGACA ACTATACCTC TTACAGTGAT
    TATGTTATAG AAGAAAAAAG TGCAACGTTG CAGAAGAGAG ACAGCGAAGG GTTCGGCTTT
    GTGCTTCGGG GAGCTAAAGC TGAGACGCCC ATAGAGGAGT TCACACCTAC TCCTGCTTTT
    CCTGCACTGC AATACTTGGA GTCAGTGGAC CTGGAGGGAG TGGCGTGGAG GGCAGGATTA
    AGGACAGGGG ATTTCCTCAT AGAGGTAAAT GGTGTGAGCG TAGTAAAGGT GGGACATAGG
    CAGGTGGTAT CACTGATTCG GCAAGGTGGA AGTCGGCTAG TAATGAAGGT GGTGTCTGTT
    ACACGCAAAC CTGACACTGG AGACGTTGTT CGCAAAAAAG CCCCACCACC TCCCAAGAGA
    GACCCAAGCA CCAGCCTGAC CCTGCGCTCA AAAAGCATGA CTGCAGAACT GGAGGAGCTG
    GCGTCAAGGA GAAGGAGGGG AGAGAAGTTG GATGAGATGT TGAGTTCGCC AAAGGAACAG
    GTTGTAGTGA TGAGGCAGCG GCCAGTGGAT TCAGACTCCA GAGCAGCCAC TGTGAAACAG
    AGACCCACAA GTCGCCGTAT CACACAGGCT GAGATCAGTT CTTTGTTAGA AAGGCAGGGT
    TTGCCAATAA GCGAATTATC TTTGGCTGTA GACAAAAGTC ACATGCAGCT CCCTCGGGGG
    ATGTCAAGAA CCAAGTCATT TGGTGCTCCT GAGGATGATA GAATCTCAGC CCTGATCGGA
    GAGCATCGCT TTCCAAGAAG TTCCTCAATG ACTGACAGCT TTAGACAAGA TAGCATCCCA
    CCCCCTCCAC AGACAGCTCC CCCACCACCT CCGACTCCCT ATTTCCTTGA TTCAGGGCCA
    CCTCCATCCT TTCTTCCACC TCCGCCCCCT TCACGTGCTG CCAACCAGAG TCGCTCAAGC
    TTCCGCCCAG GAGCAGAGCC GAAAATCCAT GGCCCAGTCA CAACAGATCG CCAGCGAAAA
    ACACGCTCCA TGATCATTCT TCAGGACACC AGCCATTTGC CAGTGGAGCC TACCCCTATT
    ACAAGACCGC AAACGCCTAC CTCTGGACCG GTTCCTCCAG AGCGTGGTCG TAGGCGTGGA
    CCACCTGTGG AGAATCCGTA TGCTAATGTA GGTCGATTAA GTGCTGTCTA TACTCCCACC
    AAACCTCAGC GTAGAAAGAG CCCACTAGTC AAACAAGGAC CAGTCGAGGA GGGAGCTGCT
    GCTCATTCTA GCCGAGACCC TTCTCCATTG GGAGGTTCAC GAATTCCTCA CAGCAGCCGG
    GCGGAGCAGT TCCAACAGCA GGTTCTCTCC GAGCGAGCTA GGATCACACC TCCTGGGGCT
    CGACGCAGGC CTAGCGTTTT TCTGTCTGTA GAAGGGGGAG CAACAGAGCC ACAGACAACT
    CCATTACTCT CTCAGTCTCA CTCAGTGGAT GAGTTGGCTG AGTTACCTCC ACCTGCACCA
    ATGCTCTCTC CTGGCCCACC ACCAGGGGGG ACAACTTTTA TACACCCTCT AACAGGTCGA
    CCACTCGATC CTTCATCACC TTTAGCACTT GCACTGGCTG CACGAGAACG TGCACTTAGT
    GGCCGAAATA CACCCACCCC CACACCTTCG CCCACACCTT CGCCCACTCA AGGTAGAGCA
    GTGGAAAGGC CCGAGACAGA AGGAGGAGCA ACACCACCTG CTCCTCTTGA GGCTCCTCCA
    TCTAATTCCT GGAGAGATGA ACCAGTCAGC ATCACAGAAA CGGCCAGCCA AGTGACTAGT
    GGTAGCCCAG GGTCTGGAAG AAGCCTTGAA GAGGCGCTCG CTCCACCCGG GGTGCAAAAT
    ATCCAACCTG CGCTGATGGA TACAGAACAT ACCCCACCAG CAGTCCCACC CACTCTACCT
    TCCCCTGCCC CTACTCTTTC CAATCTGACT GCTCGAAGTA TGACTATGAG CTCAGAGGAG
    GAAGCGGAGC CCTACACAGT GACACTTCCC CCTGCATTGC TCTCATCCAG TGATGAGGAA
    ACCAGAGAGG AGCTTCGGAA AATAGGCCTG GTTCCACCGC CTCAACCTTT TGCTAATGGC
    CTTCTAATTA AAGAAACATC CAAAGCCACT CTGAGCATTT CACCTAGCGG GTCACGGCCA
    TCCATTGCTA AGACCTCCTC TGGTAAAGCA AGTGATTCAA CAGCAGACTC TGGGGTTGAA
    GACCCTCATA TGGAGACCAC CAGTACTGTT TCCACAGTCT CCAGCATGTC CACTTTGTCT
    TCAGAGAGCA CAGACTCCGC TCATGCAAGC AAACCACGTT GTGGGGTGGG GCGTGGTCGC
    CCCGCCCATC TCAGGGACCC ACTGCTTAAA CAGTCATCAG ACAGTGAGCT GCTTCCACAC
    CCACCCAGCA CAGGCCCCAG CCGTCCTCGC TACCTATTCC AAAGACGTTC CAAACTGTGG
    GGGGAGGAGC CCCGGGCCCA GATGGGGTCA TCAGATGAAA GTCGGCCTGC TGCTATGGGG
    GCAGAGTTGC TTAGCAAAGA CACTCATTCA CTGGGTGAGG AGCCACCAAT GGGAGCACCA
    CTTGACCCTG GCAGGAGATC GCCTGTGGGA GGTGCCAGAT GTGAGGAGAA TGGAGGAGAG
    AGTAAATCAC TTTTTAGTAG TTTAGGAGAG CTTCACACCA TCTCACAAAG GAGTTACGGC
    ACCACCTTTA CAATCCGACC TGGCAGCCGA TACCCAGTGA CCCGTAGGAC TCCAAGCCCT
    GGAGCCACCC CAGAACGGAG TGAACCATTG GGGCCTGTCC GTACATTCGG CCCACATCAC
    CACCATCATA CAATCCTCAA GTCTTCTAGC CTAAGTTTGC CCCAGGAGCC CAAGGAGGTT
    CGTTTTGTCA TGAGGAGTGC TAGTGCTCGA GCCCGCAGCC GCTCTCCATC CCCTTCTCCA
    TGTGCCTCCC CCTGCCCCTC GCCGGTACTG GGAGCCCCTC TCCTGGCCCT GCGACCGTTC
    AGACAGCGCC CCCTAGCACT GTGGAGTAAG TATGATGTGG GAGAGTGGCT AGAGAGTGTG
    GGACTAGGGG AACATCGTGC ACGCTTTTTA GAGCATGAGA TTGAAGGAGC ACACCTGCCT
    GCCTTGACCA AGGACGATCT GGCAGAGTTA GGGGTGACAC GGGTTGGACA CAGAATGAAC
    ATTGAACGTG CACTAAAGCA GTTGCTAGAA AGTTGA

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

    CloneID ODa44807
    Clone ID Related Accession (Same CDS sequence) XM_017355263.2 , XM_017355263.1
    Accession Version XM_017355263.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4656bp)
    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 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product SH3 and multiple ankyrin repeat domains protein 3 isoform X5
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007115.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 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
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATGGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGGC AAATTTAAAG AAGTTTATGG AGTATGTTCA GCAGAGGTGT
    GTGGATAAGG TCTGCCGGTT CCTGGAAAAA GGGCTGGACC CCAACTTTCA TGATAGTGAC
    AGCGGAGAAT CTCCTCTCAC TCTCGTGGCC CAGCTGGACA CTTGTGCCGA TCTGATTAAA
    GTGTTGAGAA GCGGAGGAGC CCATCTGGAC TTCAGAACCA GAGACGGCTT GACGGCGCTG
    CACAAAGCGG CCCAAACGCA CAACCATGTA GCATTGACTA CATTGTTGGA TCTGGGAGCG
    TCTCCGGACT ATAAGGACAG TCGTGGGCTC ACCCCGTTAT ATCACAGTGC CATGGTTGGG
    GGAGATCCTT ACTGCTGCGA GCTGCTGCTT TATGATCACG CTCAGCTGGG CTACAGCGAT
    GAGAACGGCT GGCAGGAGAT CCATCAGGCT TGTCGTCATG GAAACGTGCA GCACCTTGAG
    CACCTGTTAT TCTATGGAGC GGAGATGAGC GCTCAGAACG CCTCAGGAAA CACAGCACTA
    CACCTGTGTG CCCTCTACAA CCAGGAAGGC TGTGCTAGAG TTCTCCTATT TCGAGGAGCA
    AATAAAGAAA TCAAAAACTA CAACAACCAA ACAGCATTTC AGGTTGCTAT CATCGCAGGG
    AACTTTGACT TGGCAGAAAT CATAAAGATC CATAAAACCT CAGATGTTGT GCCTTTCAGG
    GAGACCCCTT CTTATTCGTC CCGGCGGCGT GCGGTTTGTG TGTCTCCACG TCGCTCTCTG
    ATGCGATCGG CCAGTGATAA CGCTCTGGAT GAGACTTTAA CGGCTCCCTC TCCAGCCCCC
    TCCCTGCGCA GCCTGCCGCC TCTGGAGCCT GACGACACGG TCCCGTCTCA GCGGAGCCCG
    CAGGCTGCTC ACACACATAC ACGCAGCCTC AGGAGACACA CACGCTCTGG AGGACACCTC
    AGCCCTGGCA GTCCTGTACA GAGAGAGCCG AGCCCTCCTG CGGTGCCTCG AGGGCCCAAG
    CGGCGGCTGT ACAGTGCAGT GCCCGGGCGA ACCTTCATCG CCATCAACTC CCACACTCCA
    CAGGGCGAGG GTGAGATCAC ACTCAACCGA GGAGAGAGGG TCAAAGTGCT AAGCATCGGT
    GAAGGAGGAT TCTGGGAAGG CTCAGTAAAA GGACGGACTG GCTGGTTTCC TGCTCACTGT
    GTAGAGGAAG TCCAGATGAG ACAGTATGAC CCACGACTTG AAACAAGAGA AGACCGCACC
    AAGAGACTAT TCAGGCACTA CACTGTTGGC TCCTACGACA ACTATACCTC TTACAGTGAT
    TATGTTATAG AAGAAAAAAG TGCAACGTTG CAGAAGAGAG ACAGCGAAGG GTTCGGCTTT
    GTGCTTCGGG GAGCTAAAGC TGAGACGCCC ATAGAGGAGT TCACACCTAC TCCTGCTTTT
    CCTGCACTGC AATACTTGGA GTCAGTGGAC CTGGAGGGAG TGGCGTGGAG GGCAGGATTA
    AGGACAGGGG ATTTCCTCAT AGAGGTAAAT GGTGTGAGCG TAGTAAAGGT GGGACATAGG
    CAGGTGGTAT CACTGATTCG GCAAGGTGGA AGTCGGCTAG TAATGAAGGT GGTGTCTGTT
    ACACGCAAAC CTGACACTGG AGACGTTGTT CGCAAAAAAG CCCCACCACC TCCCAAGAGA
    GACCCAAGCA CCAGCCTGAC CCTGCGCTCA AAAAGCATGA CTGCAGAACT GGAGGAGCTG
    GCGTCAAGGA GAAGGAGGGG AGAGAAGTTG GATGAGATGT TGAGTTCGCC AAAGGAACAG
    GTTGTAGTGA TGAGGCAGCG GCCAGTGGAT TCAGACTCCA GAGCAGCCAC TGTGAAACAG
    AGACCCACAA GTCGCCGTAT CACACAGGCT GAGATCAGTT CTTTGTTAGA AAGGCAGGGT
    TTGCCAATAA GCGAATTATC TTTGGCTGTA GACAAAAGTC ACATGCAGCT CCCTCGGGGG
    ATGTCAAGAA CCAAGTCATT TGGTGCTCCT GAGGATGATA GAATCTCAGC CCTGATCGGA
    GAGCATCGCT TTCCAAGAAG TTCCTCAATG ACTGACAGCT TTAGACAAGA TAGCATCCCA
    CCCCCTCCAC AGACAGCTCC CCCACCACCT CCGACTCCCT ATTTCCTTGA TTCAGGGCCA
    CCTCCATCCT TTCTTCCACC TCCGCCCCCT TCACGTGCTG CCAACCAGAG TCGCTCAAGC
    TTCCGCCCAG GAGCAGAGCC GAAAATCCAT GGCCCAGTCA CAACAGATCG CCAGCGAAAA
    ACACGCTCCA TGATCATTCT TCAGGACACC AGCCATTTGC CAGTGGAGCC TACCCCTATT
    ACAAGACCGC AAACGCCTAC CTCTGGACCG GTTCCTCCAG AGCGTGGTCG TAGGCGTGGA
    CCACCTGTGG AGAATCCGTA TGCTAATGTA GGTCGATTAA GTGCTGTCTA TACTCCCACC
    AAACCTCAGC GTAGAAAGAG CCCACTAGTC AAACAAGGAC CAGTCGAGGA GGGAGCTGCT
    GCTCATTCTA GCCGAGACCC TTCTCCATTG GGAGGTTCAC GAATTCCTCA CAGCAGCCGG
    GCGGAGCAGT TCCAACAGCA GGTTCTCTCC GAGCGAGCTA GGATCACACC TCCTGGGGCT
    CGACGCAGGC CTAGCGTTTT TCTGTCTGTA GAAGGGGGAG CAACAGAGCC ACAGACAACT
    CCATTACTCT CTCAGTCTCA CTCAGTGGAT GAGTTGGCTG AGTTACCTCC ACCTGCACCA
    ATGCTCTCTC CTGGCCCACC ACCAGGGGGG ACAACTTTTA TACACCCTCT AACAGGTCGA
    CCACTCGATC CTTCATCACC TTTAGCACTT GCACTGGCTG CACGAGAACG TGCACTTAGT
    GGCCGAAATA CACCCACCCC CACACCTTCG CCCACACCTT CGCCCACTCA AGGTAGAGCA
    GTGGAAAGGC CCGAGACAGA AGGAGGAGCA ACACCACCTG CTCCTCTTGA GGCTCCTCCA
    TCTAATTCCT GGAGAGATGA ACCAGTCAGC ATCACAGAAA CGGCCAGCCA AGTGACTAGT
    GGTAGCCCAG GGTCTGGAAG AAGCCTTGAA GAGGCGCTCG CTCCACCCGG GGTGCAAAAT
    ATCCAACCTG CGCTGATGGA TACAGAACAT ACCCCACCAG CAGTCCCACC CACTCTACCT
    TCCCCTGCCC CTACTCTTTC CAATCTGACT GCTCGAAGTA TGACTATGAG CTCAGAGGAG
    GAAGCGGAGC CCTACACAGT GACACTTCCC CCTGCATTGC TCTCATCCAG TGATGAGGAA
    ACCAGAGAGG AGCTTCGGAA AATAGGCCTG GTTCCACCGC CTCAACCTTT TGCTAATGGC
    CTTCTAATTA AAGAAACATC CAAAGCCACT CTGAGCATTT CACCTAGCGG GTCACGGCCA
    TCCATTGCTA AGACCTCCTC TGGTAAAGCA AGTGATTCAA CAGCAGACTC TGGGGTTGAA
    GACCCTCATA TGGAGACCAC CAGTACTGTT TCCACAGTCT CCAGCATGTC CACTTTGTCT
    TCAGAGAGCA CAGACTCCGC TCATGCAAGC AAACCACGTT GTGGGGTGGG GCGTGGTCGC
    CCCGCCCATC TCAGGGACCC ACTGCTTAAA CAGTCATCAG ACAGTGAGCT GCTTCCACAC
    CCACCCAGCA CAGGCCCCAG CCGTCCTCGC TACCTATTCC AAAGACGTTC CAAACTGTGG
    GGGGAGGAGC CCCGGGCCCA GATGGGGTCA TCAGATGAAA GTCGGCCTGC TGCTATGGGG
    GCAGAGTTGC TTAGCAAAGA CACTCATTCA CTGGGTGAGG AGCCACCAAT GGGAGCACCA
    CTTGACCCTG GCAGGAGATC GCCTGTGGGA GGTGCCAGAT GTGAGGAGAA TGGAGGAGAG
    AGTAAATCAC TTTTTAGTAG TTTAGGAGAG CTTCACACCA TCTCACAAAG GAGTTACGGC
    ACCACCTTTA CAATCCGACC TGGCAGCCGA TACCCAGTGA CCCGTAGGAC TCCAAGCCCT
    GGAGCCACCC CAGAACGGAG TGAACCATTG GGGCCTGTCC GTACATTCGG CCCACATCAC
    CACCATCATA CAATCCTCAA GTCTTCTAGC CTAAGTTTGC CCCAGGAGCC CAAGGAGGTT
    CGTTTTGTCA TGAGGAGTGC TAGTGCTCGA GCCCGCAGCC GCTCTCCATC CCCTTCTCCA
    TGTGCCTCCC CCTGCCCCTC GCCGGTACTG GGAGCCCCTC TCCTGGCCCT GCGACCGTTC
    AGACAGCGCC CCCTAGCACT GTGGAGTAAG TATGATGTGG GAGAGTGGCT AGAGAGTGTG
    GGACTAGGGG AACATCGTGC ACGCTTTTTA GAGCATGAGA TTGAAGGAGC ACACCTGCCT
    GCCTTGACCA AGGACGATCT GGCAGAGTTA GGGGTGACAC GGGTTGGACA CAGAATGAAC
    ATTGAACGTG CACTAAAGCA GTTGCTAGAA AGTTGA

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

    RefSeq XP_017210752.1
    CDS218..4873
    Translation

    Target ORF information:

    RefSeq Version XM_017355263.1
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017355263.1

    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
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATGGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGGC AAATTTAAAG AAGTTTATGG AGTATGTTCA GCAGAGGTGT
    GTGGATAAGG TCTGCCGGTT CCTGGAAAAA GGGCTGGACC CCAACTTTCA TGATAGTGAC
    AGCGGAGAAT CTCCTCTCAC TCTCGTGGCC CAGCTGGACA CTTGTGCCGA TCTGATTAAA
    GTGTTGAGAA GCGGAGGAGC CCATCTGGAC TTCAGAACCA GAGACGGCTT GACGGCGCTG
    CACAAAGCGG CCCAAACGCA CAACCATGTA GCATTGACTA CATTGTTGGA TCTGGGAGCG
    TCTCCGGACT ATAAGGACAG TCGTGGGCTC ACCCCGTTAT ATCACAGTGC CATGGTTGGG
    GGAGATCCTT ACTGCTGCGA GCTGCTGCTT TATGATCACG CTCAGCTGGG CTACAGCGAT
    GAGAACGGCT GGCAGGAGAT CCATCAGGCT TGTCGTCATG GAAACGTGCA GCACCTTGAG
    CACCTGTTAT TCTATGGAGC GGAGATGAGC GCTCAGAACG CCTCAGGAAA CACAGCACTA
    CACCTGTGTG CCCTCTACAA CCAGGAAGGC TGTGCTAGAG TTCTCCTATT TCGAGGAGCA
    AATAAAGAAA TCAAAAACTA CAACAACCAA ACAGCATTTC AGGTTGCTAT CATCGCAGGG
    AACTTTGACT TGGCAGAAAT CATAAAGATC CATAAAACCT CAGATGTTGT GCCTTTCAGG
    GAGACCCCTT CTTATTCGTC CCGGCGGCGT GCGGTTTGTG TGTCTCCACG TCGCTCTCTG
    ATGCGATCGG CCAGTGATAA CGCTCTGGAT GAGACTTTAA CGGCTCCCTC TCCAGCCCCC
    TCCCTGCGCA GCCTGCCGCC TCTGGAGCCT GACGACACGG TCCCGTCTCA GCGGAGCCCG
    CAGGCTGCTC ACACACATAC ACGCAGCCTC AGGAGACACA CACGCTCTGG AGGACACCTC
    AGCCCTGGCA GTCCTGTACA GAGAGAGCCG AGCCCTCCTG CGGTGCCTCG AGGGCCCAAG
    CGGCGGCTGT ACAGTGCAGT GCCCGGGCGA ACCTTCATCG CCATCAACTC CCACACTCCA
    CAGGGCGAGG GTGAGATCAC ACTCAACCGA GGAGAGAGGG TCAAAGTGCT AAGCATCGGT
    GAAGGAGGAT TCTGGGAAGG CTCAGTAAAA GGACGGACTG GCTGGTTTCC TGCTCACTGT
    GTAGAGGAAG TCCAGATGAG ACAGTATGAC CCACGACTTG AAACAAGAGA AGACCGCACC
    AAGAGACTAT TCAGGCACTA CACTGTTGGC TCCTACGACA ACTATACCTC TTACAGTGAT
    TATGTTATAG AAGAAAAAAG TGCAACGTTG CAGAAGAGAG ACAGCGAAGG GTTCGGCTTT
    GTGCTTCGGG GAGCTAAAGC TGAGACGCCC ATAGAGGAGT TCACACCTAC TCCTGCTTTT
    CCTGCACTGC AATACTTGGA GTCAGTGGAC CTGGAGGGAG TGGCGTGGAG GGCAGGATTA
    AGGACAGGGG ATTTCCTCAT AGAGGTAAAT GGTGTGAGCG TAGTAAAGGT GGGACATAGG
    CAGGTGGTAT CACTGATTCG GCAAGGTGGA AGTCGGCTAG TAATGAAGGT GGTGTCTGTT
    ACACGCAAAC CTGACACTGG AGACGTTGTT CGCAAAAAAG CCCCACCACC TCCCAAGAGA
    GACCCAAGCA CCAGCCTGAC CCTGCGCTCA AAAAGCATGA CTGCAGAACT GGAGGAGCTG
    GCGTCAAGGA GAAGGAGGGG AGAGAAGTTG GATGAGATGT TGAGTTCGCC AAAGGAACAG
    GTTGTAGTGA TGAGGCAGCG GCCAGTGGAT TCAGACTCCA GAGCAGCCAC TGTGAAACAG
    AGACCCACAA GTCGCCGTAT CACACAGGCT GAGATCAGTT CTTTGTTAGA AAGGCAGGGT
    TTGCCAATAA GCGAATTATC TTTGGCTGTA GACAAAAGTC ACATGCAGCT CCCTCGGGGG
    ATGTCAAGAA CCAAGTCATT TGGTGCTCCT GAGGATGATA GAATCTCAGC CCTGATCGGA
    GAGCATCGCT TTCCAAGAAG TTCCTCAATG ACTGACAGCT TTAGACAAGA TAGCATCCCA
    CCCCCTCCAC AGACAGCTCC CCCACCACCT CCGACTCCCT ATTTCCTTGA TTCAGGGCCA
    CCTCCATCCT TTCTTCCACC TCCGCCCCCT TCACGTGCTG CCAACCAGAG TCGCTCAAGC
    TTCCGCCCAG GAGCAGAGCC GAAAATCCAT GGCCCAGTCA CAACAGATCG CCAGCGAAAA
    ACACGCTCCA TGATCATTCT TCAGGACACC AGCCATTTGC CAGTGGAGCC TACCCCTATT
    ACAAGACCGC AAACGCCTAC CTCTGGACCG GTTCCTCCAG AGCGTGGTCG TAGGCGTGGA
    CCACCTGTGG AGAATCCGTA TGCTAATGTA GGTCGATTAA GTGCTGTCTA TACTCCCACC
    AAACCTCAGC GTAGAAAGAG CCCACTAGTC AAACAAGGAC CAGTCGAGGA GGGAGCTGCT
    GCTCATTCTA GCCGAGACCC TTCTCCATTG GGAGGTTCAC GAATTCCTCA CAGCAGCCGG
    GCGGAGCAGT TCCAACAGCA GGTTCTCTCC GAGCGAGCTA GGATCACACC TCCTGGGGCT
    CGACGCAGGC CTAGCGTTTT TCTGTCTGTA GAAGGGGGAG CAACAGAGCC ACAGACAACT
    CCATTACTCT CTCAGTCTCA CTCAGTGGAT GAGTTGGCTG AGTTACCTCC ACCTGCACCA
    ATGCTCTCTC CTGGCCCACC ACCAGGGGGG ACAACTTTTA TACACCCTCT AACAGGTCGA
    CCACTCGATC CTTCATCACC TTTAGCACTT GCACTGGCTG CACGAGAACG TGCACTTAGT
    GGCCGAAATA CACCCACCCC CACACCTTCG CCCACACCTT CGCCCACTCA AGGTAGAGCA
    GTGGAAAGGC CCGAGACAGA AGGAGGAGCA ACACCACCTG CTCCTCTTGA GGCTCCTCCA
    TCTAATTCCT GGAGAGATGA ACCAGTCAGC ATCACAGAAA CGGCCAGCCA AGTGACTAGT
    GGTAGCCCAG GGTCTGGAAG AAGCCTTGAA GAGGCGCTCG CTCCACCCGG GGTGCAAAAT
    ATCCAACCTG CGCTGATGGA TACAGAACAT ACCCCACCAG CAGTCCCACC CACTCTACCT
    TCCCCTGCCC CTACTCTTTC CAATCTGACT GCTCGAAGTA TGACTATGAG CTCAGAGGAG
    GAAGCGGAGC CCTACACAGT GACACTTCCC CCTGCATTGC TCTCATCCAG TGATGAGGAA
    ACCAGAGAGG AGCTTCGGAA AATAGGCCTG GTTCCACCGC CTCAACCTTT TGCTAATGGC
    CTTCTAATTA AAGAAACATC CAAAGCCACT CTGAGCATTT CACCTAGCGG GTCACGGCCA
    TCCATTGCTA AGACCTCCTC TGGTAAAGCA AGTGATTCAA CAGCAGACTC TGGGGTTGAA
    GACCCTCATA TGGAGACCAC CAGTACTGTT TCCACAGTCT CCAGCATGTC CACTTTGTCT
    TCAGAGAGCA CAGACTCCGC TCATGCAAGC AAACCACGTT GTGGGGTGGG GCGTGGTCGC
    CCCGCCCATC TCAGGGACCC ACTGCTTAAA CAGTCATCAG ACAGTGAGCT GCTTCCACAC
    CCACCCAGCA CAGGCCCCAG CCGTCCTCGC TACCTATTCC AAAGACGTTC CAAACTGTGG
    GGGGAGGAGC CCCGGGCCCA GATGGGGTCA TCAGATGAAA GTCGGCCTGC TGCTATGGGG
    GCAGAGTTGC TTAGCAAAGA CACTCATTCA CTGGGTGAGG AGCCACCAAT GGGAGCACCA
    CTTGACCCTG GCAGGAGATC GCCTGTGGGA GGTGCCAGAT GTGAGGAGAA TGGAGGAGAG
    AGTAAATCAC TTTTTAGTAG TTTAGGAGAG CTTCACACCA TCTCACAAAG GAGTTACGGC
    ACCACCTTTA CAATCCGACC TGGCAGCCGA TACCCAGTGA CCCGTAGGAC TCCAAGCCCT
    GGAGCCACCC CAGAACGGAG TGAACCATTG GGGCCTGTCC GTACATTCGG CCCACATCAC
    CACCATCATA CAATCCTCAA GTCTTCTAGC CTAAGTTTGC CCCAGGAGCC CAAGGAGGTT
    CGTTTTGTCA TGAGGAGTGC TAGTGCTCGA GCCCGCAGCC GCTCTCCATC CCCTTCTCCA
    TGTGCCTCCC CCTGCCCCTC GCCGGTACTG GGAGCCCCTC TCCTGGCCCT GCGACCGTTC
    AGACAGCGCC CCCTAGCACT GTGGAGTAAG TATGATGTGG GAGAGTGGCT AGAGAGTGTG
    GGACTAGGGG AACATCGTGC ACGCTTTTTA GAGCATGAGA TTGAAGGAGC ACACCTGCCT
    GCCTTGACCA AGGACGATCT GGCAGAGTTA GGGGTGACAC GGGTTGGACA CAGAATGAAC
    ATTGAACGTG CACTAAAGCA GTTGCTAGAA AGTTGA

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

    CloneID ODa44808
    Clone ID Related Accession (Same CDS sequence) XM_017355264.1 , XM_017355265.1 , XM_017355264.2 , XM_017355265.2
    Accession Version XM_017355264.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4368bp)
    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 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product SH3 and multiple ankyrin repeat domains protein 3 isoform X6
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007115.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 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
    4081
    4141
    4201
    4261
    4321
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATGGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AACGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTATTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACGGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCTCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATCGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTTGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGCGT CAAGGAGAAG GAGGGGAGAG
    AAGTTGGATG AGATGTTGAG TTCGCCAAAG GAACAGGTTG TAGTGATGAG GCAGCGGCCA
    GTGGATTCAG ACTCCAGAGC AGCCACTGTG AAACAGAGAC CCACAAGTCG CCGTATCACA
    CAGGCTGAGA TCAGTTCTTT GTTAGAAAGG CAGGGTTTGC CAATAAGCGA ATTATCTTTG
    GCTGTAGACA AAAGTCACAT GCAGCTCCCT CGGGGGATGT CAAGAACCAA GTCATTTGGT
    GCTCCTGAGG ATGATAGAAT CTCAGCCCTG ATCGGAGAGC ATCGCTTTCC AAGAAGTTCC
    TCAATGACTG ACAGCTTTAG ACAAGATAGC ATCCCACCCC CTCCACAGAC AGCTCCCCCA
    CCACCTCCGA CTCCCTATTT CCTTGATTCA GGGCCACCTC CATCCTTTCT TCCACCTCCG
    CCCCCTTCAC GTGCTGCCAA CCAGAGTCGC TCAAGCTTCC GCCCAGGAGC AGAGCCGAAA
    ATCCATGGCC CAGTCACAAC AGATCGCCAG CGAAAAACAC GCTCCATGAT CATTCTTCAG
    GACACCAGCC ATTTGCCAGT GGAGCCTACC CCTATTACAA GACCGCAAAC GCCTACCTCT
    GGACCGGTTC CTCCAGAGCG TGGTCGTAGG CGTGGACCAC CTGTGGAGAA TCCGTATGCT
    AATGTAGGTC GATTAAGTGC TGTCTATACT CCCACCAAAC CTCAGCGTAG AAAGAGCCCA
    CTAGTCAAAC AAGGACCAGT CGAGGAGGGA GCTGCTGCTC ATTCTAGCCG AGACCCTTCT
    CCATTGGGAG GTTCACGAAT TCCTCACAGC AGCCGGGCGG AGCAGTTCCA ACAGCAGGTT
    CTCTCCGAGC GAGCTAGGAT CACACCTCCT GGGGCTCGAC GCAGGCCTAG CGTTTTTCTG
    TCTGTAGAAG GGGGAGCAAC AGAGCCACAG ACAACTCCAT TACTCTCTCA GTCTCACTCA
    GTGGATGAGT TGGCTGAGTT ACCTCCACCT GCACCAATGC TCTCTCCTGG CCCACCACCA
    GGGGGGACAA CTTTTATACA CCCTCTAACA GGTCGACCAC TCGATCCTTC ATCACCTTTA
    GCACTTGCAC TGGCTGCACG AGAACGTGCA CTTAGTGGCC GAAATACACC CACCCCCACA
    CCTTCGCCCA CACCTTCGCC CACTCAAGGT AGAGCAGTGG AAAGGCCCGA GACAGAAGGA
    GGAGCAACAC CACCTGCTCC TCTTGAGGCT CCTCCATCTA ATTCCTGGAG AGATGAACCA
    GTCAGCATCA CAGAAACGGC CAGCCAAGTG ACTAGTGGTA GCCCAGGGTC TGGAAGAAGC
    CTTGAAGAGG CGCTCGCTCC ACCCGGGGTG CAAAATATCC AACCTGCGCT GATGGATACA
    GAACATACCC CACCAGCAGT CCCACCCACT CTACCTTCCC CTGCCCCTAC TCTTTCCAAT
    CTGACTGCTC GAAGTATGAC TATGAGCTCA GAGGAGGAAG CGGAGCCCTA CACAGTGACA
    CTTCCCCCTG CATTGCTCTC ATCCAGTGAT GAGGAAACCA GAGAGGAGCT TCGGAAAATA
    GGCCTGGTTC CACCGCCTCA ACCTTTTGCT AATGGCCTTC TAATTAAAGA AACATCCAAA
    GCCACTCTGA GCATTTCACC TAGCGGGTCA CGGCCATCCA TTGCTAAGAC CTCCTCTGGT
    AAAGCAAGTG ATTCAACAGC AGACTCTGGG GTTGAAGACC CTCATATGGA GACCACCAGT
    ACTGTTTCCA CAGTCTCCAG CATGTCCACT TTGTCTTCAG AGAGCACAGA CTCCGCTCAT
    GCAAGCAAAC CACGTTGTGG GGTGGGGCGT GGTCGCCCCG CCCATCTCAG GGACCCACTG
    CTTAAACAGT CATCAGACAG TGAGCTGCTT CCACACCCAC CCAGCACAGG CCCCAGCCGT
    CCTCGCTACC TATTCCAAAG ACGTTCCAAA CTGTGGGGGG AGGAGCCCCG GGCCCAGATG
    GGGTCATCAG ATGAAAGTCG GCCTGCTGCT ATGGGGGCAG AGTTGCTTAG CAAAGACACT
    CATTCACTGG GTGAGGAGCC ACCAATGGGA GCACCACTTG ACCCTGGCAG GAGATCGCCT
    GTGGGAGGTG CCAGATGTGA GGAGAATGGA GGAGAGAGTA AATCGTAG

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

    RefSeq XP_017210753.1
    CDS218..4585
    Translation

    Target ORF information:

    RefSeq Version XM_017355264.1
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017355264.1

    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
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATGGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AACGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTATTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACGGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCTCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATCGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTTGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGCGT CAAGGAGAAG GAGGGGAGAG
    AAGTTGGATG AGATGTTGAG TTCGCCAAAG GAACAGGTTG TAGTGATGAG GCAGCGGCCA
    GTGGATTCAG ACTCCAGAGC AGCCACTGTG AAACAGAGAC CCACAAGTCG CCGTATCACA
    CAGGCTGAGA TCAGTTCTTT GTTAGAAAGG CAGGGTTTGC CAATAAGCGA ATTATCTTTG
    GCTGTAGACA AAAGTCACAT GCAGCTCCCT CGGGGGATGT CAAGAACCAA GTCATTTGGT
    GCTCCTGAGG ATGATAGAAT CTCAGCCCTG ATCGGAGAGC ATCGCTTTCC AAGAAGTTCC
    TCAATGACTG ACAGCTTTAG ACAAGATAGC ATCCCACCCC CTCCACAGAC AGCTCCCCCA
    CCACCTCCGA CTCCCTATTT CCTTGATTCA GGGCCACCTC CATCCTTTCT TCCACCTCCG
    CCCCCTTCAC GTGCTGCCAA CCAGAGTCGC TCAAGCTTCC GCCCAGGAGC AGAGCCGAAA
    ATCCATGGCC CAGTCACAAC AGATCGCCAG CGAAAAACAC GCTCCATGAT CATTCTTCAG
    GACACCAGCC ATTTGCCAGT GGAGCCTACC CCTATTACAA GACCGCAAAC GCCTACCTCT
    GGACCGGTTC CTCCAGAGCG TGGTCGTAGG CGTGGACCAC CTGTGGAGAA TCCGTATGCT
    AATGTAGGTC GATTAAGTGC TGTCTATACT CCCACCAAAC CTCAGCGTAG AAAGAGCCCA
    CTAGTCAAAC AAGGACCAGT CGAGGAGGGA GCTGCTGCTC ATTCTAGCCG AGACCCTTCT
    CCATTGGGAG GTTCACGAAT TCCTCACAGC AGCCGGGCGG AGCAGTTCCA ACAGCAGGTT
    CTCTCCGAGC GAGCTAGGAT CACACCTCCT GGGGCTCGAC GCAGGCCTAG CGTTTTTCTG
    TCTGTAGAAG GGGGAGCAAC AGAGCCACAG ACAACTCCAT TACTCTCTCA GTCTCACTCA
    GTGGATGAGT TGGCTGAGTT ACCTCCACCT GCACCAATGC TCTCTCCTGG CCCACCACCA
    GGGGGGACAA CTTTTATACA CCCTCTAACA GGTCGACCAC TCGATCCTTC ATCACCTTTA
    GCACTTGCAC TGGCTGCACG AGAACGTGCA CTTAGTGGCC GAAATACACC CACCCCCACA
    CCTTCGCCCA CACCTTCGCC CACTCAAGGT AGAGCAGTGG AAAGGCCCGA GACAGAAGGA
    GGAGCAACAC CACCTGCTCC TCTTGAGGCT CCTCCATCTA ATTCCTGGAG AGATGAACCA
    GTCAGCATCA CAGAAACGGC CAGCCAAGTG ACTAGTGGTA GCCCAGGGTC TGGAAGAAGC
    CTTGAAGAGG CGCTCGCTCC ACCCGGGGTG CAAAATATCC AACCTGCGCT GATGGATACA
    GAACATACCC CACCAGCAGT CCCACCCACT CTACCTTCCC CTGCCCCTAC TCTTTCCAAT
    CTGACTGCTC GAAGTATGAC TATGAGCTCA GAGGAGGAAG CGGAGCCCTA CACAGTGACA
    CTTCCCCCTG CATTGCTCTC ATCCAGTGAT GAGGAAACCA GAGAGGAGCT TCGGAAAATA
    GGCCTGGTTC CACCGCCTCA ACCTTTTGCT AATGGCCTTC TAATTAAAGA AACATCCAAA
    GCCACTCTGA GCATTTCACC TAGCGGGTCA CGGCCATCCA TTGCTAAGAC CTCCTCTGGT
    AAAGCAAGTG ATTCAACAGC AGACTCTGGG GTTGAAGACC CTCATATGGA GACCACCAGT
    ACTGTTTCCA CAGTCTCCAG CATGTCCACT TTGTCTTCAG AGAGCACAGA CTCCGCTCAT
    GCAAGCAAAC CACGTTGTGG GGTGGGGCGT GGTCGCCCCG CCCATCTCAG GGACCCACTG
    CTTAAACAGT CATCAGACAG TGAGCTGCTT CCACACCCAC CCAGCACAGG CCCCAGCCGT
    CCTCGCTACC TATTCCAAAG ACGTTCCAAA CTGTGGGGGG AGGAGCCCCG GGCCCAGATG
    GGGTCATCAG ATGAAAGTCG GCCTGCTGCT ATGGGGGCAG AGTTGCTTAG CAAAGACACT
    CATTCACTGG GTGAGGAGCC ACCAATGGGA GCACCACTTG ACCCTGGCAG GAGATCGCCT
    GTGGGAGGTG CCAGATGTGA GGAGAATGGA GGAGAGAGTA AATCGTAG

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

    CloneID ODa44808
    Clone ID Related Accession (Same CDS sequence) XM_017355264.1 , XM_017355265.1 , XM_017355264.2 , XM_017355265.2
    Accession Version XM_017355265.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4368bp)
    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 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product SH3 and multiple ankyrin repeat domains protein 3 isoform X6
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007115.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 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
    4081
    4141
    4201
    4261
    4321
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATGGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AACGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTATTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACGGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCTCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATCGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTTGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGCGT CAAGGAGAAG GAGGGGAGAG
    AAGTTGGATG AGATGTTGAG TTCGCCAAAG GAACAGGTTG TAGTGATGAG GCAGCGGCCA
    GTGGATTCAG ACTCCAGAGC AGCCACTGTG AAACAGAGAC CCACAAGTCG CCGTATCACA
    CAGGCTGAGA TCAGTTCTTT GTTAGAAAGG CAGGGTTTGC CAATAAGCGA ATTATCTTTG
    GCTGTAGACA AAAGTCACAT GCAGCTCCCT CGGGGGATGT CAAGAACCAA GTCATTTGGT
    GCTCCTGAGG ATGATAGAAT CTCAGCCCTG ATCGGAGAGC ATCGCTTTCC AAGAAGTTCC
    TCAATGACTG ACAGCTTTAG ACAAGATAGC ATCCCACCCC CTCCACAGAC AGCTCCCCCA
    CCACCTCCGA CTCCCTATTT CCTTGATTCA GGGCCACCTC CATCCTTTCT TCCACCTCCG
    CCCCCTTCAC GTGCTGCCAA CCAGAGTCGC TCAAGCTTCC GCCCAGGAGC AGAGCCGAAA
    ATCCATGGCC CAGTCACAAC AGATCGCCAG CGAAAAACAC GCTCCATGAT CATTCTTCAG
    GACACCAGCC ATTTGCCAGT GGAGCCTACC CCTATTACAA GACCGCAAAC GCCTACCTCT
    GGACCGGTTC CTCCAGAGCG TGGTCGTAGG CGTGGACCAC CTGTGGAGAA TCCGTATGCT
    AATGTAGGTC GATTAAGTGC TGTCTATACT CCCACCAAAC CTCAGCGTAG AAAGAGCCCA
    CTAGTCAAAC AAGGACCAGT CGAGGAGGGA GCTGCTGCTC ATTCTAGCCG AGACCCTTCT
    CCATTGGGAG GTTCACGAAT TCCTCACAGC AGCCGGGCGG AGCAGTTCCA ACAGCAGGTT
    CTCTCCGAGC GAGCTAGGAT CACACCTCCT GGGGCTCGAC GCAGGCCTAG CGTTTTTCTG
    TCTGTAGAAG GGGGAGCAAC AGAGCCACAG ACAACTCCAT TACTCTCTCA GTCTCACTCA
    GTGGATGAGT TGGCTGAGTT ACCTCCACCT GCACCAATGC TCTCTCCTGG CCCACCACCA
    GGGGGGACAA CTTTTATACA CCCTCTAACA GGTCGACCAC TCGATCCTTC ATCACCTTTA
    GCACTTGCAC TGGCTGCACG AGAACGTGCA CTTAGTGGCC GAAATACACC CACCCCCACA
    CCTTCGCCCA CACCTTCGCC CACTCAAGGT AGAGCAGTGG AAAGGCCCGA GACAGAAGGA
    GGAGCAACAC CACCTGCTCC TCTTGAGGCT CCTCCATCTA ATTCCTGGAG AGATGAACCA
    GTCAGCATCA CAGAAACGGC CAGCCAAGTG ACTAGTGGTA GCCCAGGGTC TGGAAGAAGC
    CTTGAAGAGG CGCTCGCTCC ACCCGGGGTG CAAAATATCC AACCTGCGCT GATGGATACA
    GAACATACCC CACCAGCAGT CCCACCCACT CTACCTTCCC CTGCCCCTAC TCTTTCCAAT
    CTGACTGCTC GAAGTATGAC TATGAGCTCA GAGGAGGAAG CGGAGCCCTA CACAGTGACA
    CTTCCCCCTG CATTGCTCTC ATCCAGTGAT GAGGAAACCA GAGAGGAGCT TCGGAAAATA
    GGCCTGGTTC CACCGCCTCA ACCTTTTGCT AATGGCCTTC TAATTAAAGA AACATCCAAA
    GCCACTCTGA GCATTTCACC TAGCGGGTCA CGGCCATCCA TTGCTAAGAC CTCCTCTGGT
    AAAGCAAGTG ATTCAACAGC AGACTCTGGG GTTGAAGACC CTCATATGGA GACCACCAGT
    ACTGTTTCCA CAGTCTCCAG CATGTCCACT TTGTCTTCAG AGAGCACAGA CTCCGCTCAT
    GCAAGCAAAC CACGTTGTGG GGTGGGGCGT GGTCGCCCCG CCCATCTCAG GGACCCACTG
    CTTAAACAGT CATCAGACAG TGAGCTGCTT CCACACCCAC CCAGCACAGG CCCCAGCCGT
    CCTCGCTACC TATTCCAAAG ACGTTCCAAA CTGTGGGGGG AGGAGCCCCG GGCCCAGATG
    GGGTCATCAG ATGAAAGTCG GCCTGCTGCT ATGGGGGCAG AGTTGCTTAG CAAAGACACT
    CATTCACTGG GTGAGGAGCC ACCAATGGGA GCACCACTTG ACCCTGGCAG GAGATCGCCT
    GTGGGAGGTG CCAGATGTGA GGAGAATGGA GGAGAGAGTA AATCGTAG

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

    RefSeq XP_017210754.1
    CDS218..4585
    Translation

    Target ORF information:

    RefSeq Version XM_017355265.1
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017355265.1

    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
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATGGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AACGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTATTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACGGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCTCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATCGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTTGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGCGT CAAGGAGAAG GAGGGGAGAG
    AAGTTGGATG AGATGTTGAG TTCGCCAAAG GAACAGGTTG TAGTGATGAG GCAGCGGCCA
    GTGGATTCAG ACTCCAGAGC AGCCACTGTG AAACAGAGAC CCACAAGTCG CCGTATCACA
    CAGGCTGAGA TCAGTTCTTT GTTAGAAAGG CAGGGTTTGC CAATAAGCGA ATTATCTTTG
    GCTGTAGACA AAAGTCACAT GCAGCTCCCT CGGGGGATGT CAAGAACCAA GTCATTTGGT
    GCTCCTGAGG ATGATAGAAT CTCAGCCCTG ATCGGAGAGC ATCGCTTTCC AAGAAGTTCC
    TCAATGACTG ACAGCTTTAG ACAAGATAGC ATCCCACCCC CTCCACAGAC AGCTCCCCCA
    CCACCTCCGA CTCCCTATTT CCTTGATTCA GGGCCACCTC CATCCTTTCT TCCACCTCCG
    CCCCCTTCAC GTGCTGCCAA CCAGAGTCGC TCAAGCTTCC GCCCAGGAGC AGAGCCGAAA
    ATCCATGGCC CAGTCACAAC AGATCGCCAG CGAAAAACAC GCTCCATGAT CATTCTTCAG
    GACACCAGCC ATTTGCCAGT GGAGCCTACC CCTATTACAA GACCGCAAAC GCCTACCTCT
    GGACCGGTTC CTCCAGAGCG TGGTCGTAGG CGTGGACCAC CTGTGGAGAA TCCGTATGCT
    AATGTAGGTC GATTAAGTGC TGTCTATACT CCCACCAAAC CTCAGCGTAG AAAGAGCCCA
    CTAGTCAAAC AAGGACCAGT CGAGGAGGGA GCTGCTGCTC ATTCTAGCCG AGACCCTTCT
    CCATTGGGAG GTTCACGAAT TCCTCACAGC AGCCGGGCGG AGCAGTTCCA ACAGCAGGTT
    CTCTCCGAGC GAGCTAGGAT CACACCTCCT GGGGCTCGAC GCAGGCCTAG CGTTTTTCTG
    TCTGTAGAAG GGGGAGCAAC AGAGCCACAG ACAACTCCAT TACTCTCTCA GTCTCACTCA
    GTGGATGAGT TGGCTGAGTT ACCTCCACCT GCACCAATGC TCTCTCCTGG CCCACCACCA
    GGGGGGACAA CTTTTATACA CCCTCTAACA GGTCGACCAC TCGATCCTTC ATCACCTTTA
    GCACTTGCAC TGGCTGCACG AGAACGTGCA CTTAGTGGCC GAAATACACC CACCCCCACA
    CCTTCGCCCA CACCTTCGCC CACTCAAGGT AGAGCAGTGG AAAGGCCCGA GACAGAAGGA
    GGAGCAACAC CACCTGCTCC TCTTGAGGCT CCTCCATCTA ATTCCTGGAG AGATGAACCA
    GTCAGCATCA CAGAAACGGC CAGCCAAGTG ACTAGTGGTA GCCCAGGGTC TGGAAGAAGC
    CTTGAAGAGG CGCTCGCTCC ACCCGGGGTG CAAAATATCC AACCTGCGCT GATGGATACA
    GAACATACCC CACCAGCAGT CCCACCCACT CTACCTTCCC CTGCCCCTAC TCTTTCCAAT
    CTGACTGCTC GAAGTATGAC TATGAGCTCA GAGGAGGAAG CGGAGCCCTA CACAGTGACA
    CTTCCCCCTG CATTGCTCTC ATCCAGTGAT GAGGAAACCA GAGAGGAGCT TCGGAAAATA
    GGCCTGGTTC CACCGCCTCA ACCTTTTGCT AATGGCCTTC TAATTAAAGA AACATCCAAA
    GCCACTCTGA GCATTTCACC TAGCGGGTCA CGGCCATCCA TTGCTAAGAC CTCCTCTGGT
    AAAGCAAGTG ATTCAACAGC AGACTCTGGG GTTGAAGACC CTCATATGGA GACCACCAGT
    ACTGTTTCCA CAGTCTCCAG CATGTCCACT TTGTCTTCAG AGAGCACAGA CTCCGCTCAT
    GCAAGCAAAC CACGTTGTGG GGTGGGGCGT GGTCGCCCCG CCCATCTCAG GGACCCACTG
    CTTAAACAGT CATCAGACAG TGAGCTGCTT CCACACCCAC CCAGCACAGG CCCCAGCCGT
    CCTCGCTACC TATTCCAAAG ACGTTCCAAA CTGTGGGGGG AGGAGCCCCG GGCCCAGATG
    GGGTCATCAG ATGAAAGTCG GCCTGCTGCT ATGGGGGCAG AGTTGCTTAG CAAAGACACT
    CATTCACTGG GTGAGGAGCC ACCAATGGGA GCACCACTTG ACCCTGGCAG GAGATCGCCT
    GTGGGAGGTG CCAGATGTGA GGAGAATGGA GGAGAGAGTA AATCGTAG

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

    CloneID ODa44808
    Clone ID Related Accession (Same CDS sequence) XM_017355264.1 , XM_017355265.1 , XM_017355264.2 , XM_017355265.2
    Accession Version XM_017355264.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4368bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-06-14
    Organism Danio rerio(zebrafish)
    Product SH3 and multiple ankyrin repeat domains protein 3 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007115.7) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_017355264.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 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
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATGGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AACGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTATTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACGGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCTCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATCGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTTGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGCGT CAAGGAGAAG GAGGGGAGAG
    AAGTTGGATG AGATGTTGAG TTCGCCAAAG GAACAGGTTG TAGTGATGAG GCAGCGGCCA
    GTGGATTCAG ACTCCAGAGC AGCCACTGTG AAACAGAGAC CCACAAGTCG CCGTATCACA
    CAGGCTGAGA TCAGTTCTTT GTTAGAAAGG CAGGGTTTGC CAATAAGCGA ATTATCTTTG
    GCTGTAGACA AAAGTCACAT GCAGCTCCCT CGGGGGATGT CAAGAACCAA GTCATTTGGT
    GCTCCTGAGG ATGATAGAAT CTCAGCCCTG ATCGGAGAGC ATCGCTTTCC AAGAAGTTCC
    TCAATGACTG ACAGCTTTAG ACAAGATAGC ATCCCACCCC CTCCACAGAC AGCTCCCCCA
    CCACCTCCGA CTCCCTATTT CCTTGATTCA GGGCCACCTC CATCCTTTCT TCCACCTCCG
    CCCCCTTCAC GTGCTGCCAA CCAGAGTCGC TCAAGCTTCC GCCCAGGAGC AGAGCCGAAA
    ATCCATGGCC CAGTCACAAC AGATCGCCAG CGAAAAACAC GCTCCATGAT CATTCTTCAG
    GACACCAGCC ATTTGCCAGT GGAGCCTACC CCTATTACAA GACCGCAAAC GCCTACCTCT
    GGACCGGTTC CTCCAGAGCG TGGTCGTAGG CGTGGACCAC CTGTGGAGAA TCCGTATGCT
    AATGTAGGTC GATTAAGTGC TGTCTATACT CCCACCAAAC CTCAGCGTAG AAAGAGCCCA
    CTAGTCAAAC AAGGACCAGT CGAGGAGGGA GCTGCTGCTC ATTCTAGCCG AGACCCTTCT
    CCATTGGGAG GTTCACGAAT TCCTCACAGC AGCCGGGCGG AGCAGTTCCA ACAGCAGGTT
    CTCTCCGAGC GAGCTAGGAT CACACCTCCT GGGGCTCGAC GCAGGCCTAG CGTTTTTCTG
    TCTGTAGAAG GGGGAGCAAC AGAGCCACAG ACAACTCCAT TACTCTCTCA GTCTCACTCA
    GTGGATGAGT TGGCTGAGTT ACCTCCACCT GCACCAATGC TCTCTCCTGG CCCACCACCA
    GGGGGGACAA CTTTTATACA CCCTCTAACA GGTCGACCAC TCGATCCTTC ATCACCTTTA
    GCACTTGCAC TGGCTGCACG AGAACGTGCA CTTAGTGGCC GAAATACACC CACCCCCACA
    CCTTCGCCCA CACCTTCGCC CACTCAAGGT AGAGCAGTGG AAAGGCCCGA GACAGAAGGA
    GGAGCAACAC CACCTGCTCC TCTTGAGGCT CCTCCATCTA ATTCCTGGAG AGATGAACCA
    GTCAGCATCA CAGAAACGGC CAGCCAAGTG ACTAGTGGTA GCCCAGGGTC TGGAAGAAGC
    CTTGAAGAGG CGCTCGCTCC ACCCGGGGTG CAAAATATCC AACCTGCGCT GATGGATACA
    GAACATACCC CACCAGCAGT CCCACCCACT CTACCTTCCC CTGCCCCTAC TCTTTCCAAT
    CTGACTGCTC GAAGTATGAC TATGAGCTCA GAGGAGGAAG CGGAGCCCTA CACAGTGACA
    CTTCCCCCTG CATTGCTCTC ATCCAGTGAT GAGGAAACCA GAGAGGAGCT TCGGAAAATA
    GGCCTGGTTC CACCGCCTCA ACCTTTTGCT AATGGCCTTC TAATTAAAGA AACATCCAAA
    GCCACTCTGA GCATTTCACC TAGCGGGTCA CGGCCATCCA TTGCTAAGAC CTCCTCTGGT
    AAAGCAAGTG ATTCAACAGC AGACTCTGGG GTTGAAGACC CTCATATGGA GACCACCAGT
    ACTGTTTCCA CAGTCTCCAG CATGTCCACT TTGTCTTCAG AGAGCACAGA CTCCGCTCAT
    GCAAGCAAAC CACGTTGTGG GGTGGGGCGT GGTCGCCCCG CCCATCTCAG GGACCCACTG
    CTTAAACAGT CATCAGACAG TGAGCTGCTT CCACACCCAC CCAGCACAGG CCCCAGCCGT
    CCTCGCTACC TATTCCAAAG ACGTTCCAAA CTGTGGGGGG AGGAGCCCCG GGCCCAGATG
    GGGTCATCAG ATGAAAGTCG GCCTGCTGCT ATGGGGGCAG AGTTGCTTAG CAAAGACACT
    CATTCACTGG GTGAGGAGCC ACCAATGGGA GCACCACTTG ACCCTGGCAG GAGATCGCCT
    GTGGGAGGTG CCAGATGTGA GGAGAATGGA GGAGAGAGTA AATCGTAG

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

    RefSeq XP_017210753.1
    CDS355..4722
    Translation

    Target ORF information:

    RefSeq Version XM_017355264.2
    Organism Danio rerio(zebrafish)
    Definition Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017355264.2

    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
    4021
    4081
    4141
    4201
    4261
    4321
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATGGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AACGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTATTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACGGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCTCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATCGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTTGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGCGT CAAGGAGAAG GAGGGGAGAG
    AAGTTGGATG AGATGTTGAG TTCGCCAAAG GAACAGGTTG TAGTGATGAG GCAGCGGCCA
    GTGGATTCAG ACTCCAGAGC AGCCACTGTG AAACAGAGAC CCACAAGTCG CCGTATCACA
    CAGGCTGAGA TCAGTTCTTT GTTAGAAAGG CAGGGTTTGC CAATAAGCGA ATTATCTTTG
    GCTGTAGACA AAAGTCACAT GCAGCTCCCT CGGGGGATGT CAAGAACCAA GTCATTTGGT
    GCTCCTGAGG ATGATAGAAT CTCAGCCCTG ATCGGAGAGC ATCGCTTTCC AAGAAGTTCC
    TCAATGACTG ACAGCTTTAG ACAAGATAGC ATCCCACCCC CTCCACAGAC AGCTCCCCCA
    CCACCTCCGA CTCCCTATTT CCTTGATTCA GGGCCACCTC CATCCTTTCT TCCACCTCCG
    CCCCCTTCAC GTGCTGCCAA CCAGAGTCGC TCAAGCTTCC GCCCAGGAGC AGAGCCGAAA
    ATCCATGGCC CAGTCACAAC AGATCGCCAG CGAAAAACAC GCTCCATGAT CATTCTTCAG
    GACACCAGCC ATTTGCCAGT GGAGCCTACC CCTATTACAA GACCGCAAAC GCCTACCTCT
    GGACCGGTTC CTCCAGAGCG TGGTCGTAGG CGTGGACCAC CTGTGGAGAA TCCGTATGCT
    AATGTAGGTC GATTAAGTGC TGTCTATACT CCCACCAAAC CTCAGCGTAG AAAGAGCCCA
    CTAGTCAAAC AAGGACCAGT CGAGGAGGGA GCTGCTGCTC ATTCTAGCCG AGACCCTTCT
    CCATTGGGAG GTTCACGAAT TCCTCACAGC AGCCGGGCGG AGCAGTTCCA ACAGCAGGTT
    CTCTCCGAGC GAGCTAGGAT CACACCTCCT GGGGCTCGAC GCAGGCCTAG CGTTTTTCTG
    TCTGTAGAAG GGGGAGCAAC AGAGCCACAG ACAACTCCAT TACTCTCTCA GTCTCACTCA
    GTGGATGAGT TGGCTGAGTT ACCTCCACCT GCACCAATGC TCTCTCCTGG CCCACCACCA
    GGGGGGACAA CTTTTATACA CCCTCTAACA GGTCGACCAC TCGATCCTTC ATCACCTTTA
    GCACTTGCAC TGGCTGCACG AGAACGTGCA CTTAGTGGCC GAAATACACC CACCCCCACA
    CCTTCGCCCA CACCTTCGCC CACTCAAGGT AGAGCAGTGG AAAGGCCCGA GACAGAAGGA
    GGAGCAACAC CACCTGCTCC TCTTGAGGCT CCTCCATCTA ATTCCTGGAG AGATGAACCA
    GTCAGCATCA CAGAAACGGC CAGCCAAGTG ACTAGTGGTA GCCCAGGGTC TGGAAGAAGC
    CTTGAAGAGG CGCTCGCTCC ACCCGGGGTG CAAAATATCC AACCTGCGCT GATGGATACA
    GAACATACCC CACCAGCAGT CCCACCCACT CTACCTTCCC CTGCCCCTAC TCTTTCCAAT
    CTGACTGCTC GAAGTATGAC TATGAGCTCA GAGGAGGAAG CGGAGCCCTA CACAGTGACA
    CTTCCCCCTG CATTGCTCTC ATCCAGTGAT GAGGAAACCA GAGAGGAGCT TCGGAAAATA
    GGCCTGGTTC CACCGCCTCA ACCTTTTGCT AATGGCCTTC TAATTAAAGA AACATCCAAA
    GCCACTCTGA GCATTTCACC TAGCGGGTCA CGGCCATCCA TTGCTAAGAC CTCCTCTGGT
    AAAGCAAGTG ATTCAACAGC AGACTCTGGG GTTGAAGACC CTCATATGGA GACCACCAGT
    ACTGTTTCCA CAGTCTCCAG CATGTCCACT TTGTCTTCAG AGAGCACAGA CTCCGCTCAT
    GCAAGCAAAC CACGTTGTGG GGTGGGGCGT GGTCGCCCCG CCCATCTCAG GGACCCACTG
    CTTAAACAGT CATCAGACAG TGAGCTGCTT CCACACCCAC CCAGCACAGG CCCCAGCCGT
    CCTCGCTACC TATTCCAAAG ACGTTCCAAA CTGTGGGGGG AGGAGCCCCG GGCCCAGATG
    GGGTCATCAG ATGAAAGTCG GCCTGCTGCT ATGGGGGCAG AGTTGCTTAG CAAAGACACT
    CATTCACTGG GTGAGGAGCC ACCAATGGGA GCACCACTTG ACCCTGGCAG GAGATCGCCT
    GTGGGAGGTG CCAGATGTGA GGAGAATGGA GGAGAGAGTA AATCGTAG

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

    CloneID ODa44808
    Clone ID Related Accession (Same CDS sequence) XM_017355264.1 , XM_017355265.1 , XM_017355264.2 , XM_017355265.2
    Accession Version XM_017355265.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4368bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-06-14
    Organism Danio rerio(zebrafish)
    Product SH3 and multiple ankyrin repeat domains protein 3 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007115.7) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_017355265.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 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
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATGGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AACGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTATTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACGGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCTCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATCGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTTGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGCGT CAAGGAGAAG GAGGGGAGAG
    AAGTTGGATG AGATGTTGAG TTCGCCAAAG GAACAGGTTG TAGTGATGAG GCAGCGGCCA
    GTGGATTCAG ACTCCAGAGC AGCCACTGTG AAACAGAGAC CCACAAGTCG CCGTATCACA
    CAGGCTGAGA TCAGTTCTTT GTTAGAAAGG CAGGGTTTGC CAATAAGCGA ATTATCTTTG
    GCTGTAGACA AAAGTCACAT GCAGCTCCCT CGGGGGATGT CAAGAACCAA GTCATTTGGT
    GCTCCTGAGG ATGATAGAAT CTCAGCCCTG ATCGGAGAGC ATCGCTTTCC AAGAAGTTCC
    TCAATGACTG ACAGCTTTAG ACAAGATAGC ATCCCACCCC CTCCACAGAC AGCTCCCCCA
    CCACCTCCGA CTCCCTATTT CCTTGATTCA GGGCCACCTC CATCCTTTCT TCCACCTCCG
    CCCCCTTCAC GTGCTGCCAA CCAGAGTCGC TCAAGCTTCC GCCCAGGAGC AGAGCCGAAA
    ATCCATGGCC CAGTCACAAC AGATCGCCAG CGAAAAACAC GCTCCATGAT CATTCTTCAG
    GACACCAGCC ATTTGCCAGT GGAGCCTACC CCTATTACAA GACCGCAAAC GCCTACCTCT
    GGACCGGTTC CTCCAGAGCG TGGTCGTAGG CGTGGACCAC CTGTGGAGAA TCCGTATGCT
    AATGTAGGTC GATTAAGTGC TGTCTATACT CCCACCAAAC CTCAGCGTAG AAAGAGCCCA
    CTAGTCAAAC AAGGACCAGT CGAGGAGGGA GCTGCTGCTC ATTCTAGCCG AGACCCTTCT
    CCATTGGGAG GTTCACGAAT TCCTCACAGC AGCCGGGCGG AGCAGTTCCA ACAGCAGGTT
    CTCTCCGAGC GAGCTAGGAT CACACCTCCT GGGGCTCGAC GCAGGCCTAG CGTTTTTCTG
    TCTGTAGAAG GGGGAGCAAC AGAGCCACAG ACAACTCCAT TACTCTCTCA GTCTCACTCA
    GTGGATGAGT TGGCTGAGTT ACCTCCACCT GCACCAATGC TCTCTCCTGG CCCACCACCA
    GGGGGGACAA CTTTTATACA CCCTCTAACA GGTCGACCAC TCGATCCTTC ATCACCTTTA
    GCACTTGCAC TGGCTGCACG AGAACGTGCA CTTAGTGGCC GAAATACACC CACCCCCACA
    CCTTCGCCCA CACCTTCGCC CACTCAAGGT AGAGCAGTGG AAAGGCCCGA GACAGAAGGA
    GGAGCAACAC CACCTGCTCC TCTTGAGGCT CCTCCATCTA ATTCCTGGAG AGATGAACCA
    GTCAGCATCA CAGAAACGGC CAGCCAAGTG ACTAGTGGTA GCCCAGGGTC TGGAAGAAGC
    CTTGAAGAGG CGCTCGCTCC ACCCGGGGTG CAAAATATCC AACCTGCGCT GATGGATACA
    GAACATACCC CACCAGCAGT CCCACCCACT CTACCTTCCC CTGCCCCTAC TCTTTCCAAT
    CTGACTGCTC GAAGTATGAC TATGAGCTCA GAGGAGGAAG CGGAGCCCTA CACAGTGACA
    CTTCCCCCTG CATTGCTCTC ATCCAGTGAT GAGGAAACCA GAGAGGAGCT TCGGAAAATA
    GGCCTGGTTC CACCGCCTCA ACCTTTTGCT AATGGCCTTC TAATTAAAGA AACATCCAAA
    GCCACTCTGA GCATTTCACC TAGCGGGTCA CGGCCATCCA TTGCTAAGAC CTCCTCTGGT
    AAAGCAAGTG ATTCAACAGC AGACTCTGGG GTTGAAGACC CTCATATGGA GACCACCAGT
    ACTGTTTCCA CAGTCTCCAG CATGTCCACT TTGTCTTCAG AGAGCACAGA CTCCGCTCAT
    GCAAGCAAAC CACGTTGTGG GGTGGGGCGT GGTCGCCCCG CCCATCTCAG GGACCCACTG
    CTTAAACAGT CATCAGACAG TGAGCTGCTT CCACACCCAC CCAGCACAGG CCCCAGCCGT
    CCTCGCTACC TATTCCAAAG ACGTTCCAAA CTGTGGGGGG AGGAGCCCCG GGCCCAGATG
    GGGTCATCAG ATGAAAGTCG GCCTGCTGCT ATGGGGGCAG AGTTGCTTAG CAAAGACACT
    CATTCACTGG GTGAGGAGCC ACCAATGGGA GCACCACTTG ACCCTGGCAG GAGATCGCCT
    GTGGGAGGTG CCAGATGTGA GGAGAATGGA GGAGAGAGTA AATCGTAG

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

    RefSeq XP_017210754.1
    CDS355..4722
    Translation

    Target ORF information:

    RefSeq Version XM_017355265.2
    Organism Danio rerio(zebrafish)
    Definition Danio rerio SH3 and multiple ankyrin repeat domains 3b (shank3b), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017355265.2

    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
    4021
    4081
    4141
    4201
    4261
    4321
    ATGCCTATCA GTCCACCTGC CGACGGCAAA CATGAGGCTC TCGACCGGCC GTGGCAACAA 
    CACGCCCCTA CCAACGGTAA CCACGGAGAT GACAGTATTC GGACCTCTCC TGGGAGTAAA
    TGTGGCTCCG AACCTATGGA GGATCTCCAC GGAAACGCAG TTGTCATCCG CATCGGAATC
    CCTGATCTGC AGCAAACGAA ATGCCTGCGA TTGGACCTTG AGGCTCCAGT GTGGGTTTGT
    AAGCAGCGAG TACTGGTCAC TCTGACACAA AGCCTGACCG ATGTGCTTAA CTATGGCCTC
    TACCTCCCTG CCTTTAATGG GCGTGCCGGA AAGTTCCTCG ATGAGGAGAG ATTGCTCAGG
    GAGTATCCTC TCCCTACGGT CACACCTGTA CCATACCTAG AGTTCCGTTA CAAGAGGCGT
    GTTTACACTC AGAGCCATGT AGATGACAAG CAACTGGCCA AATTGCACAC TAAGGCAAAT
    TTAAAGAAGT TTATGGAGTA TGTTCAGCAG AGGTGTGTGG ATAAGGTCTG CCGGTTCCTG
    GAAAAAGGGC TGGACCCCAA CTTTCATGAT AGTGACAGCG GAGAATCTCC TCTCACTCTC
    GTGGCCCAGC TGGACACTTG TGCCGATCTG ATTAAAGTGT TGAGAAGCGG AGGAGCCCAT
    CTGGACTTCA GAACCAGAGA CGGCTTGACG GCGCTGCACA AAGCGGCCCA AACGCACAAC
    CATGTAGCAT TGACTACATT GTTGGATCTG GGAGCGTCTC CGGACTATAA GGACAGTCGT
    GGGCTCACCC CGTTATATCA CAGTGCCATG GTTGGGGGAG ATCCTTACTG CTGCGAGCTG
    CTGCTTTATG ATCACGCTCA GCTGGGCTAC AGCGATGAGA ACGGCTGGCA GGAGATCCAT
    CAGGCTTGTC GTCATGGAAA CGTGCAGCAC CTTGAGCACC TGTTATTCTA TGGAGCGGAG
    ATGAGCGCTC AGAACGCCTC AGGAAACACA GCACTACACC TGTGTGCCCT CTACAACCAG
    GAAGGCTGTG CTAGAGTTCT CCTATTTCGA GGAGCAAATA AAGAAATCAA AAACTACAAC
    AACCAAACAG CATTTCAGGT TGCTATCATC GCAGGGAACT TTGACTTGGC AGAAATCATA
    AAGATCCATA AAACCTCAGA TGTTGTGCCT TTCAGGGAGA CCCCTTCTTA TTCGTCCCGG
    CGGCGTGCGG TTTGTGTGTC TCCACGTCGC TCTCTGATGC GATCGGCCAG TGATAACGCT
    CTGGATGAGA CTTTAACGGC TCCCTCTCCA GCCCCCTCCC TGCGCAGCCT GCCGCCTCTG
    GAGCCTGACG ACACGGTCCC GTCTCAGCGG AGCCCGCAGG CTGCTCACAC ACATACACGC
    AGCCTCAGGA GACACACACG CTCTGGAGGA CACCTCAGCC CTGGCAGTCC TGTACAGAGA
    GAGCCGAGCC CTCCTGCGGT GCCTCGAGGG CCCAAGCGGC GGCTGTACAG TGCAGTGCCC
    GGGCGAACCT TCATCGCCAT CAACTCCCAC ACTCCACAGG GCGAGGGTGA GATCACACTC
    AACCGAGGAG AGAGGGTCAA AGTGCTAAGC ATCGGTGAAG GAGGATTCTG GGAAGGCTCA
    GTAAAAGGAC GGACTGGCTG GTTTCCTGCT CACTGTGTAG AGGAAGTCCA GATGAGACAG
    TATGACCCAC GACTTGAAAC AAGAGAAGAC CGCACCAAGA GACTATTCAG GCACTACACT
    GTTGGCTCCT ACGACAACTA TACCTCTTAC AGTGATTATG TTATAGAAGA AAAAAGTGCA
    ACGTTGCAGA AGAGAGACAG CGAAGGGTTC GGCTTTGTGC TTCGGGGAGC TAAAGCTGAG
    ACGCCCATAG AGGAGTTCAC ACCTACTCCT GCTTTTCCTG CACTGCAATA CTTGGAGTCA
    GTGGACCTGG AGGGAGTGGC GTGGAGGGCA GGATTAAGGA CAGGGGATTT CCTCATAGAG
    GTAAATGGTG TGAGCGTAGT AAAGGTGGGA CATAGGCAGG TGGTATCACT GATTCGGCAA
    GGTGGAAGTC GGCTAGTAAT GAAGGTGGTG TCTGTTACAC GCAAACCTGA CACTGGAGAC
    GTTGTTCGCA AAAAAGCCCC ACCACCTCCC AAGAGAGACC CAAGCACCAG CCTGACCCTG
    CGCTCAAAAA GCATGACTGC AGAACTGGAG GAGCTGGCGT CAAGGAGAAG GAGGGGAGAG
    AAGTTGGATG AGATGTTGAG TTCGCCAAAG GAACAGGTTG TAGTGATGAG GCAGCGGCCA
    GTGGATTCAG ACTCCAGAGC AGCCACTGTG AAACAGAGAC CCACAAGTCG CCGTATCACA
    CAGGCTGAGA TCAGTTCTTT GTTAGAAAGG CAGGGTTTGC CAATAAGCGA ATTATCTTTG
    GCTGTAGACA AAAGTCACAT GCAGCTCCCT CGGGGGATGT CAAGAACCAA GTCATTTGGT
    GCTCCTGAGG ATGATAGAAT CTCAGCCCTG ATCGGAGAGC ATCGCTTTCC AAGAAGTTCC
    TCAATGACTG ACAGCTTTAG ACAAGATAGC ATCCCACCCC CTCCACAGAC AGCTCCCCCA
    CCACCTCCGA CTCCCTATTT CCTTGATTCA GGGCCACCTC CATCCTTTCT TCCACCTCCG
    CCCCCTTCAC GTGCTGCCAA CCAGAGTCGC TCAAGCTTCC GCCCAGGAGC AGAGCCGAAA
    ATCCATGGCC CAGTCACAAC AGATCGCCAG CGAAAAACAC GCTCCATGAT CATTCTTCAG
    GACACCAGCC ATTTGCCAGT GGAGCCTACC CCTATTACAA GACCGCAAAC GCCTACCTCT
    GGACCGGTTC CTCCAGAGCG TGGTCGTAGG CGTGGACCAC CTGTGGAGAA TCCGTATGCT
    AATGTAGGTC GATTAAGTGC TGTCTATACT CCCACCAAAC CTCAGCGTAG AAAGAGCCCA
    CTAGTCAAAC AAGGACCAGT CGAGGAGGGA GCTGCTGCTC ATTCTAGCCG AGACCCTTCT
    CCATTGGGAG GTTCACGAAT TCCTCACAGC AGCCGGGCGG AGCAGTTCCA ACAGCAGGTT
    CTCTCCGAGC GAGCTAGGAT CACACCTCCT GGGGCTCGAC GCAGGCCTAG CGTTTTTCTG
    TCTGTAGAAG GGGGAGCAAC AGAGCCACAG ACAACTCCAT TACTCTCTCA GTCTCACTCA
    GTGGATGAGT TGGCTGAGTT ACCTCCACCT GCACCAATGC TCTCTCCTGG CCCACCACCA
    GGGGGGACAA CTTTTATACA CCCTCTAACA GGTCGACCAC TCGATCCTTC ATCACCTTTA
    GCACTTGCAC TGGCTGCACG AGAACGTGCA CTTAGTGGCC GAAATACACC CACCCCCACA
    CCTTCGCCCA CACCTTCGCC CACTCAAGGT AGAGCAGTGG AAAGGCCCGA GACAGAAGGA
    GGAGCAACAC CACCTGCTCC TCTTGAGGCT CCTCCATCTA ATTCCTGGAG AGATGAACCA
    GTCAGCATCA CAGAAACGGC CAGCCAAGTG ACTAGTGGTA GCCCAGGGTC TGGAAGAAGC
    CTTGAAGAGG CGCTCGCTCC ACCCGGGGTG CAAAATATCC AACCTGCGCT GATGGATACA
    GAACATACCC CACCAGCAGT CCCACCCACT CTACCTTCCC CTGCCCCTAC TCTTTCCAAT
    CTGACTGCTC GAAGTATGAC TATGAGCTCA GAGGAGGAAG CGGAGCCCTA CACAGTGACA
    CTTCCCCCTG CATTGCTCTC ATCCAGTGAT GAGGAAACCA GAGAGGAGCT TCGGAAAATA
    GGCCTGGTTC CACCGCCTCA ACCTTTTGCT AATGGCCTTC TAATTAAAGA AACATCCAAA
    GCCACTCTGA GCATTTCACC TAGCGGGTCA CGGCCATCCA TTGCTAAGAC CTCCTCTGGT
    AAAGCAAGTG ATTCAACAGC AGACTCTGGG GTTGAAGACC CTCATATGGA GACCACCAGT
    ACTGTTTCCA CAGTCTCCAG CATGTCCACT TTGTCTTCAG AGAGCACAGA CTCCGCTCAT
    GCAAGCAAAC CACGTTGTGG GGTGGGGCGT GGTCGCCCCG CCCATCTCAG GGACCCACTG
    CTTAAACAGT CATCAGACAG TGAGCTGCTT CCACACCCAC CCAGCACAGG CCCCAGCCGT
    CCTCGCTACC TATTCCAAAG ACGTTCCAAA CTGTGGGGGG AGGAGCCCCG GGCCCAGATG
    GGGTCATCAG ATGAAAGTCG GCCTGCTGCT ATGGGGGCAG AGTTGCTTAG CAAAGACACT
    CATTCACTGG GTGAGGAGCC ACCAATGGGA GCACCACTTG ACCCTGGCAG GAGATCGCCT
    GTGGGAGGTG CCAGATGTGA GGAGAATGGA GGAGAGAGTA AATCGTAG

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