SGSM1B cDNA ORF clone, Danio rerio(Zebrafish)

The following SGSM1B gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the SGSM1B 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
ODa147647 XM_021479230.1
Latest version!
Danio rerio small G protein signaling modulator 1b (sgsm1b), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $797.30
$1139.00
ODa147648 XM_021479231.1
Latest version!
Danio rerio small G protein signaling modulator 1b (sgsm1b), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $797.30
$1139.00
ODa15665 XM_003199271.5
Latest version!
Danio rerio small G protein signaling modulator 1b (sgsm1b), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $881.30
$1259.00
View Old Accession Versions >>
ODa15665 XM_003199271.4 Danio rerio small G protein signaling modulator 1b (sgsm1b), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $881.30
$1259.00
Hide Old Accession Versions >>

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

  • Reference Sequences (Refseq)
    CloneID ODa147647
    Clone ID Related Accession (Same CDS sequence) XM_021479230.1
    Accession Version XM_021479230.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4260bp)
    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 small G protein signaling modulator 1-like isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007121.7) 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 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
    ATGGGAGAAT CAGAAACGCG TCAGAGGCTG CTGCGCAACG TCAAGAAGGA GGTCAAGCAG 
    ATCATGGAGG AGGCCGTGAC ACGCAAGTTT GTGCATGAAG ACAGCAGTCA CATCATCTCT
    TTCTGCGGGG TTGTGGAAGC GTGTGTTCTT CATGGGCTGA AGCGACGGGC CGCTGGATTC
    CTGCGCAGCA ACAAACTGGC GGCTCTGTTT ATGAAGGTGG GCAAGATGTT CCCTCCAGCA
    GAGGATCTCT GCCGAAAGGT GCAGGAGCTG GAACAAATCA TTGAAAACAA ACAAAACCAG
    AGCCAGATGA GTCAGGAGAG TGTCCGAAAG CAGCCCAGGC CGCCAAACCT GTCTCCTCTG
    GCCATCAAAC ACCTCTGGAT CCGCACTGCG CTCACACAGA AGCTGCTGGA CAAGATCGTC
    CTGTACCTGG TGGAGAACAG CAGTAAGTTT TACGAAAGGG AAGCTCTTCT GCGAGATCCC
    GTTGACGGCC CAATCCTCGC ATCTCTGCTA GTGGGTCCCT GCGCACTGGA GTACACCAAA
    GCAAAGACAG CCAATCACTT CTGGACGGAT CCGTCAGCTG ATGAGCTGGT GCAGAGACAC
    CGCATTCACA GCGGACACTG CCGGCAGGAC TCGCCCACTA AACGTCCGGC TCTCATTCAG
    AAGAGGCAGT CGAGCGGCAG TATGGATGAC AGGCCTTCTC TCTGGGCTCG GGATTACGTC
    GAATCCCTTC ATCAAAACTC CAGAGCCACG CTGCTCTTCG GGAAGAACAA TGTCCTCGTG
    CAGCCGACAG ACGACATGGA AGCAATCCCA GGATACCTTT CTCTACACCA GACGGCAGAT
    CTCATGACGC TGAAATGGAC GCCGAACCAG CTGATGAACG GAAACACAGA GTTTGATTAT
    GAAAAGAGTG TTTATTGGGA TTTCGCGATG ACCATCCGTC TAGAGGAAAT CGTTTATCTG
    CACTGCCATC AGCAAGTGGA CAGTGGTGGT ACTGTGGTTT TGGTCAGTCA AGACGGGATC
    CAAAGGCCTC CGTTTCGGTT CCCAAAAGGA GGACACCTGC TCCAGTTCCT CACCTGTCTG
    GAAACAGGTC TCCTTCCTCA TGGGCAGCTG GATCCTCCTC TGTGGTCTCA AAGAGGAAAG
    GGAAAAGTCT TTCCAAAACT GCGCAAAAGG AGTCCGCATG GATCCTGCGA GTCTTTCTCT
    GACAAAGATG AAGATGAGGC CACTGATTAT GTGTTCCGGA TTATATACCC AGGCAGTCAA
    GAGTTCGTGG CTCCAGAACT GATCGAGCAG GCTGTCAATA TGTGGCAGCC GACGCCCAGG
    AAGTCGTCTT GTTCTTCCTG TTCGCAGAAC GGCTCATCGG ACGGCGGGCT TCCCAACGGA
    TGCAACCATG ACAGGGCGCC GCTCAAGTTA CTCTGCGAGA CCATGAAGCA CCAGATCATT
    TCCCGCGCTT TCTACGGCTG GTTGGCGTAT TGCCGTCATC TTTCCACTGT CCGCACGCAC
    CTCTCGGCTT TGGTAAATGC CACTATTGTT GAGCCTGACA TCCCATATGA TGCCAAAGGC
    GGACTGTCGG CAGACGTGTG GAAGTCATTT CTACAGGACT GCTCAGCGTA CGAGGAGGAG
    GAGCTGCTGC GGCTGGTGTA TTACGGTGGT GTGGAGCCGT CTCTGCGGAA AGAGGTGTGG
    CCTTTCCTGT TAGGACACTA CCACTTCACC ATGAGCCCAG AAGAACGCAA AGAGGTGGAC
    GAGCAGATTC GAGCGTGCTA TGAGCAGACC ATGAGCGAGT GGCTGGGATG TGAAGCTATC
    GTGCGCCAGC GGGAGAAGGA GCAGCACGCC GCCGCTCTGG CCAAATGTGT GTCTGGTGCC
    AGTGTGGACC GAGGGTCACG CCAGGACTCC ACCATCAGCA CGGATTCATC TCAGAGCAGC
    AACTCAGATA AACAGAGTCA CGCAGGATCA CACAGCGACT CCAACAGCAG CACTCAGGTG
    TTTGGCTCGG TAGATGAAGT GGATCCCATC GAATCTGAGC CCAAACCAAA AGACGAGAAG
    CCGCAGCCCA AAATCCCCAA CGGCGCTCTG CCGAACTGCA CTAGCTCTCC AGACTCCGGA
    CACCCATCAT CCCGCAACTT CTCCGTGACC TCAGCGATGT CCGACTGCTC TCCCAGCGCA
    GAGGAGACTT CAACACAAGA GTCAAAAGGA AATCAGCCTG ACATAGAGGA GAAACCCAAA
    GAGGAGCAAC CAGAAAACAG CTCGACCACT CAGGATACAG ACAAAGCTGC CATTACTACT
    CAAAACGAGA GCAAACTGCA GACTTCTGAA ACGTCTAGGG CTGAAACGGA TCAGATCAAA
    GATGCAATCT CAAAAAATCC AACCAATCTG TCTGAACCTA AAGAAGATGA AGTGAATCCT
    GGTGCTGAAG CAGATGCAAG AAAGTCTGAA GTAAATAAGT GTGAAGTTCA GCCATTAAAA
    GATCCCGCTG AGGAAAGCCG ATCATCAGAA TCAAAGCAGG CTGAAGATGC AGATCCGGTG
    TCTTTATCAA TTGTGGATGA AGACACAAAA TCAAACACGG AGCAAGAAAT TGGTCTAAAA
    GTAAATGAGG ACTCCAAATC TCAACAATCT GCTCCAGAAT CAACACCAGA AGATGTGAAT
    ATCTCTCAAA ATCTCTCTTC TGAATCAAAA ACAGGGCAAG AAACTGGTCT AAAAGTGAAT
    GAAGACCCCA AATGTCAACA ATCTACTCCA GAATCAACAT CAGACTGCAT GAAAACCTCT
    CAAAGTCTCT CATCTGAATC AAACATGGAG CAAAAAGCGA ATGAAGACTC CAAATCTCAA
    CAATCTGCTC CAGAATCAAA ATCAGATGAC GTGAAAACCT CTCAAAATCT CTCATCTGGA
    TCAAACACAA AGCAAGAAAC AAGTTTAAAA GTGAGCGAAG ACTCCAATTG TCAACCATCT
    GCTCCAGAAT CAACATCGGA AGCCATGAAA ACCTCCCAAA ATCTTTCATC TGAATCAAAC
    ACGGAGCAAG AAACAGGTCT AAAAGTCAAC GAAGACTCCA AATGTCAACC ATCTGCTCCA
    GAATCAACAT CGGAAGCCAT GAAAACCTCC CAAAATCTTT CATCTGGACC ACAGAATGTG
    CCTCAAACCG CACCACAAAC CATCAGCTGG GACTCCGAAC ACAACCGAGC CAGATCAATA
    ATCAAACAGA TGACAGAATC GGAGTCTGAG AGCTGCGGGC CGCTCACATC CCTGTCCAAA
    CCGTCTCCGG ACATGTCCGA CGACTCTCCG TCGGCTCTGG AGATGGAGGA GATCCCTTCA
    TCTGTGGTGT ACATGTCCTC TGAGAGCTCC ATGTGCAGGA CGCCTCTGAC TCTGGCCCGT
    CCTGTGGCTC CATGCATCGC CGCCGGGGAG AAATCGCCCA TGGGAATGCC TGCTCTGGAG
    CTCTGCATGG AGCCAGGCGT CAACACCACC CCAGAGGGAA CCGATTCTGC GCTCTCTGAG
    GAGGAACCCG AGATGGACAA CTTATTCCCC AAACCAGACT CTCTAGCGGT CACCGGAGAC
    AAGAACGACA TCGCCTCACC AGTGTCCTCA ATCGGGACCA CCTACTCGCA GGAGCTGGTG
    GACCTCTACA CACTCAATCT ACACCGCATC GACAAAGACG TCCAGCGATG TGACAGAAAC
    TACTGGTATT TCACCCCAGC CAACCTGGAG AAACTGCGCA ACATCATGTG CAGTTATGTG
    TGGCAGCACC TCGACATCGG ATACGTCCAG GGAATGTGTG ACTTACTAGC GCCCCTGCTG
    GTCATCCTGG ATGATGAGGC CATGGCCTTC AGCTGCTTCA CAGAGCTCAT GAAGCGCATG
    AACCAGAACT TCCCTCACGG AGGAGCCATG GACACACACT TCGCCAACAT GCGTTCCCTC
    ATCCAGATCC TGGACTCGGA GCTGTTCGAG CTGATGCAGC AGAATGGAGA CTACACACAC
    TTCTACTTCT GCTACCGCTG GTTCCTGCTG GATTTCAAGA GAGAAATGGT GTATGATGAC
    GTGTTCTCCG TGTGGGAGAC CATCTGGGCA GCACGTTACG CCTCGTCTGA GCATTTCGTC
    CTCTTCATCG CGCTGGCCTT GGTGGAGCTG TACCGAGACA TCATCCTGGA GAACAACATG
    GACTTCACAG ACATCATCAA GTTCTTTAAC GAAATGGCTG AACGTCATGA TGTCCCAAAA
    TTGCTGGTTA TGGCCCGGGA CCTGGTGCAC AAAGTCCAGA TCCTGATCGA GAACAAGTGA

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

    RefSeq XP_021334905.1
    CDS294..4553
    Translation

    Target ORF information:

    RefSeq Version XM_021479230.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio small G protein signaling modulator 1b (sgsm1b), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021479230.1

    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
    ATGGGAGAAT CAGAAACGCG TCAGAGGCTG CTGCGCAACG TCAAGAAGGA GGTCAAGCAG 
    ATCATGGAGG AGGCCGTGAC ACGCAAGTTT GTGCATGAAG ACAGCAGTCA CATCATCTCT
    TTCTGCGGGG TTGTGGAAGC GTGTGTTCTT CATGGGCTGA AGCGACGGGC CGCTGGATTC
    CTGCGCAGCA ACAAACTGGC GGCTCTGTTT ATGAAGGTGG GCAAGATGTT CCCTCCAGCA
    GAGGATCTCT GCCGAAAGGT GCAGGAGCTG GAACAAATCA TTGAAAACAA ACAAAACCAG
    AGCCAGATGA GTCAGGAGAG TGTCCGAAAG CAGCCCAGGC CGCCAAACCT GTCTCCTCTG
    GCCATCAAAC ACCTCTGGAT CCGCACTGCG CTCACACAGA AGCTGCTGGA CAAGATCGTC
    CTGTACCTGG TGGAGAACAG CAGTAAGTTT TACGAAAGGG AAGCTCTTCT GCGAGATCCC
    GTTGACGGCC CAATCCTCGC ATCTCTGCTA GTGGGTCCCT GCGCACTGGA GTACACCAAA
    GCAAAGACAG CCAATCACTT CTGGACGGAT CCGTCAGCTG ATGAGCTGGT GCAGAGACAC
    CGCATTCACA GCGGACACTG CCGGCAGGAC TCGCCCACTA AACGTCCGGC TCTCATTCAG
    AAGAGGCAGT CGAGCGGCAG TATGGATGAC AGGCCTTCTC TCTGGGCTCG GGATTACGTC
    GAATCCCTTC ATCAAAACTC CAGAGCCACG CTGCTCTTCG GGAAGAACAA TGTCCTCGTG
    CAGCCGACAG ACGACATGGA AGCAATCCCA GGATACCTTT CTCTACACCA GACGGCAGAT
    CTCATGACGC TGAAATGGAC GCCGAACCAG CTGATGAACG GAAACACAGA GTTTGATTAT
    GAAAAGAGTG TTTATTGGGA TTTCGCGATG ACCATCCGTC TAGAGGAAAT CGTTTATCTG
    CACTGCCATC AGCAAGTGGA CAGTGGTGGT ACTGTGGTTT TGGTCAGTCA AGACGGGATC
    CAAAGGCCTC CGTTTCGGTT CCCAAAAGGA GGACACCTGC TCCAGTTCCT CACCTGTCTG
    GAAACAGGTC TCCTTCCTCA TGGGCAGCTG GATCCTCCTC TGTGGTCTCA AAGAGGAAAG
    GGAAAAGTCT TTCCAAAACT GCGCAAAAGG AGTCCGCATG GATCCTGCGA GTCTTTCTCT
    GACAAAGATG AAGATGAGGC CACTGATTAT GTGTTCCGGA TTATATACCC AGGCAGTCAA
    GAGTTCGTGG CTCCAGAACT GATCGAGCAG GCTGTCAATA TGTGGCAGCC GACGCCCAGG
    AAGTCGTCTT GTTCTTCCTG TTCGCAGAAC GGCTCATCGG ACGGCGGGCT TCCCAACGGA
    TGCAACCATG ACAGGGCGCC GCTCAAGTTA CTCTGCGAGA CCATGAAGCA CCAGATCATT
    TCCCGCGCTT TCTACGGCTG GTTGGCGTAT TGCCGTCATC TTTCCACTGT CCGCACGCAC
    CTCTCGGCTT TGGTAAATGC CACTATTGTT GAGCCTGACA TCCCATATGA TGCCAAAGGC
    GGACTGTCGG CAGACGTGTG GAAGTCATTT CTACAGGACT GCTCAGCGTA CGAGGAGGAG
    GAGCTGCTGC GGCTGGTGTA TTACGGTGGT GTGGAGCCGT CTCTGCGGAA AGAGGTGTGG
    CCTTTCCTGT TAGGACACTA CCACTTCACC ATGAGCCCAG AAGAACGCAA AGAGGTGGAC
    GAGCAGATTC GAGCGTGCTA TGAGCAGACC ATGAGCGAGT GGCTGGGATG TGAAGCTATC
    GTGCGCCAGC GGGAGAAGGA GCAGCACGCC GCCGCTCTGG CCAAATGTGT GTCTGGTGCC
    AGTGTGGACC GAGGGTCACG CCAGGACTCC ACCATCAGCA CGGATTCATC TCAGAGCAGC
    AACTCAGATA AACAGAGTCA CGCAGGATCA CACAGCGACT CCAACAGCAG CACTCAGGTG
    TTTGGCTCGG TAGATGAAGT GGATCCCATC GAATCTGAGC CCAAACCAAA AGACGAGAAG
    CCGCAGCCCA AAATCCCCAA CGGCGCTCTG CCGAACTGCA CTAGCTCTCC AGACTCCGGA
    CACCCATCAT CCCGCAACTT CTCCGTGACC TCAGCGATGT CCGACTGCTC TCCCAGCGCA
    GAGGAGACTT CAACACAAGA GTCAAAAGGA AATCAGCCTG ACATAGAGGA GAAACCCAAA
    GAGGAGCAAC CAGAAAACAG CTCGACCACT CAGGATACAG ACAAAGCTGC CATTACTACT
    CAAAACGAGA GCAAACTGCA GACTTCTGAA ACGTCTAGGG CTGAAACGGA TCAGATCAAA
    GATGCAATCT CAAAAAATCC AACCAATCTG TCTGAACCTA AAGAAGATGA AGTGAATCCT
    GGTGCTGAAG CAGATGCAAG AAAGTCTGAA GTAAATAAGT GTGAAGTTCA GCCATTAAAA
    GATCCCGCTG AGGAAAGCCG ATCATCAGAA TCAAAGCAGG CTGAAGATGC AGATCCGGTG
    TCTTTATCAA TTGTGGATGA AGACACAAAA TCAAACACGG AGCAAGAAAT TGGTCTAAAA
    GTAAATGAGG ACTCCAAATC TCAACAATCT GCTCCAGAAT CAACACCAGA AGATGTGAAT
    ATCTCTCAAA ATCTCTCTTC TGAATCAAAA ACAGGGCAAG AAACTGGTCT AAAAGTGAAT
    GAAGACCCCA AATGTCAACA ATCTACTCCA GAATCAACAT CAGACTGCAT GAAAACCTCT
    CAAAGTCTCT CATCTGAATC AAACATGGAG CAAAAAGCGA ATGAAGACTC CAAATCTCAA
    CAATCTGCTC CAGAATCAAA ATCAGATGAC GTGAAAACCT CTCAAAATCT CTCATCTGGA
    TCAAACACAA AGCAAGAAAC AAGTTTAAAA GTGAGCGAAG ACTCCAATTG TCAACCATCT
    GCTCCAGAAT CAACATCGGA AGCCATGAAA ACCTCCCAAA ATCTTTCATC TGAATCAAAC
    ACGGAGCAAG AAACAGGTCT AAAAGTCAAC GAAGACTCCA AATGTCAACC ATCTGCTCCA
    GAATCAACAT CGGAAGCCAT GAAAACCTCC CAAAATCTTT CATCTGGACC ACAGAATGTG
    CCTCAAACCG CACCACAAAC CATCAGCTGG GACTCCGAAC ACAACCGAGC CAGATCAATA
    ATCAAACAGA TGACAGAATC GGAGTCTGAG AGCTGCGGGC CGCTCACATC CCTGTCCAAA
    CCGTCTCCGG ACATGTCCGA CGACTCTCCG TCGGCTCTGG AGATGGAGGA GATCCCTTCA
    TCTGTGGTGT ACATGTCCTC TGAGAGCTCC ATGTGCAGGA CGCCTCTGAC TCTGGCCCGT
    CCTGTGGCTC CATGCATCGC CGCCGGGGAG AAATCGCCCA TGGGAATGCC TGCTCTGGAG
    CTCTGCATGG AGCCAGGCGT CAACACCACC CCAGAGGGAA CCGATTCTGC GCTCTCTGAG
    GAGGAACCCG AGATGGACAA CTTATTCCCC AAACCAGACT CTCTAGCGGT CACCGGAGAC
    AAGAACGACA TCGCCTCACC AGTGTCCTCA ATCGGGACCA CCTACTCGCA GGAGCTGGTG
    GACCTCTACA CACTCAATCT ACACCGCATC GACAAAGACG TCCAGCGATG TGACAGAAAC
    TACTGGTATT TCACCCCAGC CAACCTGGAG AAACTGCGCA ACATCATGTG CAGTTATGTG
    TGGCAGCACC TCGACATCGG ATACGTCCAG GGAATGTGTG ACTTACTAGC GCCCCTGCTG
    GTCATCCTGG ATGATGAGGC CATGGCCTTC AGCTGCTTCA CAGAGCTCAT GAAGCGCATG
    AACCAGAACT TCCCTCACGG AGGAGCCATG GACACACACT TCGCCAACAT GCGTTCCCTC
    ATCCAGATCC TGGACTCGGA GCTGTTCGAG CTGATGCAGC AGAATGGAGA CTACACACAC
    TTCTACTTCT GCTACCGCTG GTTCCTGCTG GATTTCAAGA GAGAAATGGT GTATGATGAC
    GTGTTCTCCG TGTGGGAGAC CATCTGGGCA GCACGTTACG CCTCGTCTGA GCATTTCGTC
    CTCTTCATCG CGCTGGCCTT GGTGGAGCTG TACCGAGACA TCATCCTGGA GAACAACATG
    GACTTCACAG ACATCATCAA GTTCTTTAAC GAAATGGCTG AACGTCATGA TGTCCCAAAA
    TTGCTGGTTA TGGCCCGGGA CCTGGTGCAC AAAGTCCAGA TCCTGATCGA GAACAAGTGA

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

    CloneID ODa147648
    Clone ID Related Accession (Same CDS sequence) XM_021479231.1
    Accession Version XM_021479231.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4260bp)
    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 small G protein signaling modulator 1-like isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007121.7) 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 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
    ATGGGAGAAT CAGAAACGCG TCAGAGGCTG CTGCGCAACG TCAAGAAGGA GGTCAAGCAG 
    ATCATGGAGG AGGCCGTGAC ACGCAAGTTT GTGCATGAAG ACAGCAGTCA CATCATCTCT
    TTCTGCGGGG TTGTGGAAGC GTGTGTTCTT CATGGGCTGA AGCGACGGGC CGCTGGATTC
    CTGCGCAGCA ACAAACTGGC GGCTCTGTTT ATGAAGGTGG GCAAGATGTT CCCTCCAGCA
    GAGGATCTCT GCCGAAAGGT GCAGGAGCTG GAACAAATCA TTGAAAACAA ACAAAACCAG
    AGCCAGATGA GTCAGGAGAG TGTCCGAAAG CAGCCCAGGC CGCCAAACCT GTCTCCTCTG
    GCCATCAAAC ACCTCTGGAT CCGCACTGCG CTCACACAGA AGCTGCTGGA CAAGATCGTC
    CTGTACCTGG TGGAGAACAG CAGTAAGTTT TACGAAAGGG AAGCTCTTCT GCGAGATCCC
    GTTGACGGCC CAATCCTCGC ATCTCTGCTA GTGGGTCCCT GCGCACTGGA GTACACCAAA
    GCAAAGACAG CCAATCACTT CTGGACGGAT CCGTCAGCTG ATGAGCTGGT GCAGAGACAC
    CGCATTCACA GCGGACACTG CCGGCAGGAC TCGCCCACTA AACGTCCGGC TCTCATTCAG
    AAGAGGCAGT CGAGCGGCAG TATGGATGAC AGGCCTTCTC TCTGGGCTCG GGATTACGTC
    GAATCCCTTC ATCAAAACTC CAGAGCCACG CTGCTCTTCG GGAAGAACAA TGTCCTCGTG
    CAGCCGACAG ACGACATGGA AGCAATCCCA GGATACCTTT CTCTACACCA GACGGCAGAT
    CTCATGACGC TGAAATGGAC GCCGAACCAG CTGATGAACG GAAACACAGA GTTTGATTAT
    GAAAAGAGTG TTTATTGGGA TTTCGCGATG ACCATCCGTC TAGAGGAAAT CGTTTATCTG
    CACTGCCATC AGCAAGTGGA CAGTGGTGGT ACTGTGGTTT TGGTCAGTCA AGACGGGATC
    CAAAGGCCTC CGTTTCGGTT CCCAAAAGGA GGACACCTGC TCCAGTTCCT CACCTGTCTG
    GAAACAGGTC TCCTTCCTCA TGGGCAGCTG GATCCTCCTC TGTGGTCTCA AAGAGGAAAG
    GGAAAAGTCT TTCCAAAACT GCGCAAAAGG AGTCCGCATG GATCCTGCGA GTCTTTCTCT
    GACAAAGATG AAGATGAGGC CACTGATTAT GTGTTCCGGA TTATATACCC AGGCAGTCAA
    GAGTTCGTGG CTCCAGAACT GATCGAGCAG GCTGTCAATA TGTGGCAGCC GACGCCCAGG
    AAGTCGTCTT GTTCTTCCTG TTCGCAGAAC GGCTCATCGG ACGGCGGGCT TCCCAACGGA
    TGCAACCATG ACAGGGCGCC GCTCAAGTTA CTCTGCGAGA CCATGAAGCA CCAGATCATT
    TCCCGCGCTT TCTACGGCTG GTTGGCGTAT TGCCGTCATC TTTCCACTGT CCGCACGCAC
    CTCTCGGCTT TGGTAAATGC CACTATTGTT GAGCCTGACA TCCCATATGA TGCCAAAGGC
    GGACTGTCGG CAGACGTGTG GAAGTCATTT CTACAGGACT GCTCAGCGTA CGAGGAGGAG
    GAGCTGCTGC GGCTGGTGTA TTACGGTGGT GTGGAGCCGT CTCTGCGGAA AGAGGTGTGG
    CCTTTCCTGT TAGGACACTA CCACTTCACC ATGAGCCCAG AAGAACGCAA AGAGGTGGAC
    GAGCAGATTC GAGCGTGCTA TGAGCAGACC ATGAGCGAGT GGCTGGGATG TGAAGCTATC
    GTGCGCCAGC GGGAGAAGGA GCAGCACGCC GCCGCTCTGG CCAAATGTGT GTCTGGTGCC
    AGTGTGGACC GAGGGTCACG CCAGGACTCC ACCATCAGCA CGGATTCATC TCAGAGCAGC
    AACTCAGATA AACAGAGTCA CGCAGGATCA CACAGCGACT CCAACAGCAG CACTCAGGTG
    TTTGGCTCGG TAGATGAAGT GGATCCCATC GAATCTGAGC CCAAACCAAA AGACGAGAAG
    CCGCAGCCCA AAATCCCCAA CGGCGCTCTG CCGAACTGCA CTAGCTCTCC AGACTCCGGA
    CACCCATCAT CCCGCAACTT CTCCGTGACC TCAGCGATGT CCGACTGCTC TCCCAGCGCA
    GAGGAGACTT CAACACAAGA GTCAAAAGGA AATCAGCCTG ACATAGAGGA GAAACCCAAA
    GAGGAGCAAC CAGAAAACAG CTCGACCACT CAGGATACAG ACAAAGCTGC CATTACTACT
    CAAAACGAGA GCAAACTGCA GACTTCTGAA ACGTCTAGGG CTGAAACGGA TCAGATCAAA
    GATGCAATCT CAAAAAATCC AACCAATCTG TCTGAACCTA AAGAAGATGA AGTGAATCCT
    GGTGCTGAAG CAGATGCAAG AAAGTCTGAA GTAAATAAGT GTGAAGTTCA GCCATTAAAA
    GATCCCGCTG AGGAAAGCCG ATCATCAGAA TCAAAGCAGG CTGAAGATGC AGATCCGGTG
    TCTTTATCAA TTGTGGATGA AGACACAAAA TCAAACACGG AGCAAGAAAT TGGTCTAAAA
    GTAAATGAGG ACTCCAAATC TCAACAATCT GCTCCAGAAT CAACACCAGA AGATGTGAAT
    ATCTCTCAAA ATCTCTCTTC TGAATCAAAA ACAGGGCAAG AAACTGGTCT AAAAGTGAAT
    GAAGACCCCA AATGTCAACA ATCTACTCCA GAATCAACAT CAGACTGCAT GAAAACCTCT
    CAAAGTCTCT CATCTGAATC AAACATGGAG CAAAAAGCGA ATGAAGACTC CAAATCTCAA
    CAATCTGCTC CAGAATCAAA ATCAGATGAC GTGAAAACCT CCCAAAATCT CTCATCTGAA
    TCAAACACGG AGCAAGAAAC AGGTCTAAAA GTCAACAAAG ACTCAAAATC TGAACAATCT
    GCTCCAAAAT CAACACCTGA ACACATGAAA ACCTGCCTAA ATCTCTCATC TGAATTAAAC
    ATGGAGCAAG CAACAGGTCT AAAAGTCAAC AAAGACTCCA AATGTCAACC ATCTGCTCCA
    GAATCAACAC TAGACGACAT GAAAACCTCC CAAAATCTTT CATCTGGACC ACAGAATGTG
    CCTCAAACCG CACCACAAAC CATCAGCTGG GACTCCGAAC ACAACCGAGC CAGATCAATA
    ATCAAACAGA TGACAGAATC GGAGTCTGAG AGCTGCGGGC CGCTCACATC CCTGTCCAAA
    CCGTCTCCGG ACATGTCCGA CGACTCTCCG TCGGCTCTGG AGATGGAGGA GATCCCTTCA
    TCTGTGGTGT ACATGTCCTC TGAGAGCTCC ATGTGCAGGA CGCCTCTGAC TCTGGCCCGT
    CCTGTGGCTC CATGCATCGC CGCCGGGGAG AAATCGCCCA TGGGAATGCC TGCTCTGGAG
    CTCTGCATGG AGCCAGGCGT CAACACCACC CCAGAGGGAA CCGATTCTGC GCTCTCTGAG
    GAGGAACCCG AGATGGACAA CTTATTCCCC AAACCAGACT CTCTAGCGGT CACCGGAGAC
    AAGAACGACA TCGCCTCACC AGTGTCCTCA ATCGGGACCA CCTACTCGCA GGAGCTGGTG
    GACCTCTACA CACTCAATCT ACACCGCATC GACAAAGACG TCCAGCGATG TGACAGAAAC
    TACTGGTATT TCACCCCAGC CAACCTGGAG AAACTGCGCA ACATCATGTG CAGTTATGTG
    TGGCAGCACC TCGACATCGG ATACGTCCAG GGAATGTGTG ACTTACTAGC GCCCCTGCTG
    GTCATCCTGG ATGATGAGGC CATGGCCTTC AGCTGCTTCA CAGAGCTCAT GAAGCGCATG
    AACCAGAACT TCCCTCACGG AGGAGCCATG GACACACACT TCGCCAACAT GCGTTCCCTC
    ATCCAGATCC TGGACTCGGA GCTGTTCGAG CTGATGCAGC AGAATGGAGA CTACACACAC
    TTCTACTTCT GCTACCGCTG GTTCCTGCTG GATTTCAAGA GAGAAATGGT GTATGATGAC
    GTGTTCTCCG TGTGGGAGAC CATCTGGGCA GCACGTTACG CCTCGTCTGA GCATTTCGTC
    CTCTTCATCG CGCTGGCCTT GGTGGAGCTG TACCGAGACA TCATCCTGGA GAACAACATG
    GACTTCACAG ACATCATCAA GTTCTTTAAC GAAATGGCTG AACGTCATGA TGTCCCAAAA
    TTGCTGGTTA TGGCCCGGGA CCTGGTGCAC AAAGTCCAGA TCCTGATCGA GAACAAGTGA

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

    RefSeq XP_021334906.1
    CDS294..4553
    Translation

    Target ORF information:

    RefSeq Version XM_021479231.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio small G protein signaling modulator 1b (sgsm1b), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021479231.1

    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
    ATGGGAGAAT CAGAAACGCG TCAGAGGCTG CTGCGCAACG TCAAGAAGGA GGTCAAGCAG 
    ATCATGGAGG AGGCCGTGAC ACGCAAGTTT GTGCATGAAG ACAGCAGTCA CATCATCTCT
    TTCTGCGGGG TTGTGGAAGC GTGTGTTCTT CATGGGCTGA AGCGACGGGC CGCTGGATTC
    CTGCGCAGCA ACAAACTGGC GGCTCTGTTT ATGAAGGTGG GCAAGATGTT CCCTCCAGCA
    GAGGATCTCT GCCGAAAGGT GCAGGAGCTG GAACAAATCA TTGAAAACAA ACAAAACCAG
    AGCCAGATGA GTCAGGAGAG TGTCCGAAAG CAGCCCAGGC CGCCAAACCT GTCTCCTCTG
    GCCATCAAAC ACCTCTGGAT CCGCACTGCG CTCACACAGA AGCTGCTGGA CAAGATCGTC
    CTGTACCTGG TGGAGAACAG CAGTAAGTTT TACGAAAGGG AAGCTCTTCT GCGAGATCCC
    GTTGACGGCC CAATCCTCGC ATCTCTGCTA GTGGGTCCCT GCGCACTGGA GTACACCAAA
    GCAAAGACAG CCAATCACTT CTGGACGGAT CCGTCAGCTG ATGAGCTGGT GCAGAGACAC
    CGCATTCACA GCGGACACTG CCGGCAGGAC TCGCCCACTA AACGTCCGGC TCTCATTCAG
    AAGAGGCAGT CGAGCGGCAG TATGGATGAC AGGCCTTCTC TCTGGGCTCG GGATTACGTC
    GAATCCCTTC ATCAAAACTC CAGAGCCACG CTGCTCTTCG GGAAGAACAA TGTCCTCGTG
    CAGCCGACAG ACGACATGGA AGCAATCCCA GGATACCTTT CTCTACACCA GACGGCAGAT
    CTCATGACGC TGAAATGGAC GCCGAACCAG CTGATGAACG GAAACACAGA GTTTGATTAT
    GAAAAGAGTG TTTATTGGGA TTTCGCGATG ACCATCCGTC TAGAGGAAAT CGTTTATCTG
    CACTGCCATC AGCAAGTGGA CAGTGGTGGT ACTGTGGTTT TGGTCAGTCA AGACGGGATC
    CAAAGGCCTC CGTTTCGGTT CCCAAAAGGA GGACACCTGC TCCAGTTCCT CACCTGTCTG
    GAAACAGGTC TCCTTCCTCA TGGGCAGCTG GATCCTCCTC TGTGGTCTCA AAGAGGAAAG
    GGAAAAGTCT TTCCAAAACT GCGCAAAAGG AGTCCGCATG GATCCTGCGA GTCTTTCTCT
    GACAAAGATG AAGATGAGGC CACTGATTAT GTGTTCCGGA TTATATACCC AGGCAGTCAA
    GAGTTCGTGG CTCCAGAACT GATCGAGCAG GCTGTCAATA TGTGGCAGCC GACGCCCAGG
    AAGTCGTCTT GTTCTTCCTG TTCGCAGAAC GGCTCATCGG ACGGCGGGCT TCCCAACGGA
    TGCAACCATG ACAGGGCGCC GCTCAAGTTA CTCTGCGAGA CCATGAAGCA CCAGATCATT
    TCCCGCGCTT TCTACGGCTG GTTGGCGTAT TGCCGTCATC TTTCCACTGT CCGCACGCAC
    CTCTCGGCTT TGGTAAATGC CACTATTGTT GAGCCTGACA TCCCATATGA TGCCAAAGGC
    GGACTGTCGG CAGACGTGTG GAAGTCATTT CTACAGGACT GCTCAGCGTA CGAGGAGGAG
    GAGCTGCTGC GGCTGGTGTA TTACGGTGGT GTGGAGCCGT CTCTGCGGAA AGAGGTGTGG
    CCTTTCCTGT TAGGACACTA CCACTTCACC ATGAGCCCAG AAGAACGCAA AGAGGTGGAC
    GAGCAGATTC GAGCGTGCTA TGAGCAGACC ATGAGCGAGT GGCTGGGATG TGAAGCTATC
    GTGCGCCAGC GGGAGAAGGA GCAGCACGCC GCCGCTCTGG CCAAATGTGT GTCTGGTGCC
    AGTGTGGACC GAGGGTCACG CCAGGACTCC ACCATCAGCA CGGATTCATC TCAGAGCAGC
    AACTCAGATA AACAGAGTCA CGCAGGATCA CACAGCGACT CCAACAGCAG CACTCAGGTG
    TTTGGCTCGG TAGATGAAGT GGATCCCATC GAATCTGAGC CCAAACCAAA AGACGAGAAG
    CCGCAGCCCA AAATCCCCAA CGGCGCTCTG CCGAACTGCA CTAGCTCTCC AGACTCCGGA
    CACCCATCAT CCCGCAACTT CTCCGTGACC TCAGCGATGT CCGACTGCTC TCCCAGCGCA
    GAGGAGACTT CAACACAAGA GTCAAAAGGA AATCAGCCTG ACATAGAGGA GAAACCCAAA
    GAGGAGCAAC CAGAAAACAG CTCGACCACT CAGGATACAG ACAAAGCTGC CATTACTACT
    CAAAACGAGA GCAAACTGCA GACTTCTGAA ACGTCTAGGG CTGAAACGGA TCAGATCAAA
    GATGCAATCT CAAAAAATCC AACCAATCTG TCTGAACCTA AAGAAGATGA AGTGAATCCT
    GGTGCTGAAG CAGATGCAAG AAAGTCTGAA GTAAATAAGT GTGAAGTTCA GCCATTAAAA
    GATCCCGCTG AGGAAAGCCG ATCATCAGAA TCAAAGCAGG CTGAAGATGC AGATCCGGTG
    TCTTTATCAA TTGTGGATGA AGACACAAAA TCAAACACGG AGCAAGAAAT TGGTCTAAAA
    GTAAATGAGG ACTCCAAATC TCAACAATCT GCTCCAGAAT CAACACCAGA AGATGTGAAT
    ATCTCTCAAA ATCTCTCTTC TGAATCAAAA ACAGGGCAAG AAACTGGTCT AAAAGTGAAT
    GAAGACCCCA AATGTCAACA ATCTACTCCA GAATCAACAT CAGACTGCAT GAAAACCTCT
    CAAAGTCTCT CATCTGAATC AAACATGGAG CAAAAAGCGA ATGAAGACTC CAAATCTCAA
    CAATCTGCTC CAGAATCAAA ATCAGATGAC GTGAAAACCT CCCAAAATCT CTCATCTGAA
    TCAAACACGG AGCAAGAAAC AGGTCTAAAA GTCAACAAAG ACTCAAAATC TGAACAATCT
    GCTCCAAAAT CAACACCTGA ACACATGAAA ACCTGCCTAA ATCTCTCATC TGAATTAAAC
    ATGGAGCAAG CAACAGGTCT AAAAGTCAAC AAAGACTCCA AATGTCAACC ATCTGCTCCA
    GAATCAACAC TAGACGACAT GAAAACCTCC CAAAATCTTT CATCTGGACC ACAGAATGTG
    CCTCAAACCG CACCACAAAC CATCAGCTGG GACTCCGAAC ACAACCGAGC CAGATCAATA
    ATCAAACAGA TGACAGAATC GGAGTCTGAG AGCTGCGGGC CGCTCACATC CCTGTCCAAA
    CCGTCTCCGG ACATGTCCGA CGACTCTCCG TCGGCTCTGG AGATGGAGGA GATCCCTTCA
    TCTGTGGTGT ACATGTCCTC TGAGAGCTCC ATGTGCAGGA CGCCTCTGAC TCTGGCCCGT
    CCTGTGGCTC CATGCATCGC CGCCGGGGAG AAATCGCCCA TGGGAATGCC TGCTCTGGAG
    CTCTGCATGG AGCCAGGCGT CAACACCACC CCAGAGGGAA CCGATTCTGC GCTCTCTGAG
    GAGGAACCCG AGATGGACAA CTTATTCCCC AAACCAGACT CTCTAGCGGT CACCGGAGAC
    AAGAACGACA TCGCCTCACC AGTGTCCTCA ATCGGGACCA CCTACTCGCA GGAGCTGGTG
    GACCTCTACA CACTCAATCT ACACCGCATC GACAAAGACG TCCAGCGATG TGACAGAAAC
    TACTGGTATT TCACCCCAGC CAACCTGGAG AAACTGCGCA ACATCATGTG CAGTTATGTG
    TGGCAGCACC TCGACATCGG ATACGTCCAG GGAATGTGTG ACTTACTAGC GCCCCTGCTG
    GTCATCCTGG ATGATGAGGC CATGGCCTTC AGCTGCTTCA CAGAGCTCAT GAAGCGCATG
    AACCAGAACT TCCCTCACGG AGGAGCCATG GACACACACT TCGCCAACAT GCGTTCCCTC
    ATCCAGATCC TGGACTCGGA GCTGTTCGAG CTGATGCAGC AGAATGGAGA CTACACACAC
    TTCTACTTCT GCTACCGCTG GTTCCTGCTG GATTTCAAGA GAGAAATGGT GTATGATGAC
    GTGTTCTCCG TGTGGGAGAC CATCTGGGCA GCACGTTACG CCTCGTCTGA GCATTTCGTC
    CTCTTCATCG CGCTGGCCTT GGTGGAGCTG TACCGAGACA TCATCCTGGA GAACAACATG
    GACTTCACAG ACATCATCAA GTTCTTTAAC GAAATGGCTG AACGTCATGA TGTCCCAAAA
    TTGCTGGTTA TGGCCCGGGA CCTGGTGCAC AAAGTCCAGA TCCTGATCGA GAACAAGTGA

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

    CloneID ODa15665
    Clone ID Related Accession (Same CDS sequence) XM_003199271.5 , XM_003199271.4
    Accession Version XM_003199271.5 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4602bp)
    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 small G protein signaling modulator 1-like isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007121.7) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_003199271.4. ##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
    ATGGGAGAAT CAGAAACGCG TCAGAGGCTG CTGCGCAACG TCAAGAAGGA GGTCAAGCAG 
    ATCATGGAGG AGGCCGTGAC ACGCAAGTTT GTGCATGAAG ACAGCAGTCA CATCATCTCT
    TTCTGCGGGG TTGTGGAAGC GTGTGTTCTT CATGGGCTGA AGCGACGGGC CGCTGGATTC
    CTGCGCAGCA ACAAACTGGC GGCTCTGTTT ATGAAGGTGG GCAAGATGTT CCCTCCAGCA
    GAGGATCTCT GCCGAAAGGT GCAGGAGCTG GAACAAATCA TTGAAAACAA ACAAAACCAG
    AGCCAGATGA GTCAGGAGAG TGTCCGAAAG CAGCCCAGGC CGCCAAACCT GTCTCCTCTG
    GCCATCAAAC ACCTCTGGAT CCGCACTGCG CTCACACAGA AGCTGCTGGA CAAGATCGTC
    CTGTACCTGG TGGAGAACAG CAGTAAGTTT TACGAAAGGG AAGCTCTTCT GCGAGATCCC
    GTTGACGGCC CAATCCTCGC ATCTCTGCTA GTGGGTCCCT GCGCACTGGA GTACACCAAA
    GCAAAGACAG CCAATCACTT CTGGACGGAT CCGTCAGCTG ATGAGCTGGT GCAGAGACAC
    CGCATTCACA GCGGACACTG CCGGCAGGAC TCGCCCACTA AACGTCCGGC TCTCATTCAG
    AAGAGGCAGT CGAGCGGCAG TATGGATGAC AGGCCTTCTC TCTGGGCTCG GGATTACGTC
    GAATCCCTTC ATCAAAACTC CAGAGCCACG CTGCTCTTCG GGAAGAACAA TGTCCTCGTG
    CAGCCGACAG ACGACATGGA AGCAATCCCA GGATACCTTT CTCTACACCA GACGGCAGAT
    CTCATGACGC TGAAATGGAC GCCGAACCAG CTGATGAACG GAAACACAGA GTTTGATTAT
    GAAAAGAGTG TTTATTGGGA TTTCGCGATG ACCATCCGTC TAGAGGAAAT CGTTTATCTG
    CACTGCCATC AGCAAGTGGA CAGTGGTGGT ACTGTGGTTT TGGTCAGTCA AGACGGGATC
    CAAAGGCCTC CGTTTCGGTT CCCAAAAGGA GGACACCTGC TCCAGTTCCT CACCTGTCTG
    GAAACAGGTC TCCTTCCTCA TGGGCAGCTG GATCCTCCTC TGTGGTCTCA AAGAGGAAAG
    GGAAAAGTCT TTCCAAAACT GCGCAAAAGG AGTCCGCATG GATCCTGCGA GTCTTTCTCT
    GACAAAGATG AAGATGAGGC CACTGATTAT GTGTTCCGGA TTATATACCC AGGCAGTCAA
    GAGTTCGTGG CTCCAGAACT GATCGAGCAG GCTGTCAATA TGTGGCAGCC GACGCCCAGG
    AAGTCGTCTT GTTCTTCCTG TTCGCAGAAC GGCTCATCGG ACGGCGGGCT TCCCAACGGA
    TGCAACCATG ACAGGGCGCC GCTCAAGTTA CTCTGCGAGA CCATGAAGCA CCAGATCATT
    TCCCGCGCTT TCTACGGCTG GTTGGCGTAT TGCCGTCATC TTTCCACTGT CCGCACGCAC
    CTCTCGGCTT TGGTAAATGC CACTATTGTT GAGCCTGACA TCCCATATGA TGCCAAAGGC
    GGACTGTCGG CAGACGTGTG GAAGTCATTT CTACAGGACT GCTCAGCGTA CGAGGAGGAG
    GAGCTGCTGC GGCTGGTGTA TTACGGTGGT GTGGAGCCGT CTCTGCGGAA AGAGGTGTGG
    CCTTTCCTGT TAGGACACTA CCACTTCACC ATGAGCCCAG AAGAACGCAA AGAGGTGGAC
    GAGCAGATTC GAGCGTGCTA TGAGCAGACC ATGAGCGAGT GGCTGGGATG TGAAGCTATC
    GTGCGCCAGC GGGAGAAGGA GCAGCACGCC GCCGCTCTGG CCAAATGTGT GTCTGGTGCC
    AGTGTGGACC GAGGGTCACG CCAGGACTCC ACCATCAGCA CGGATTCATC TCAGAGCAGC
    AACTCAGATA AACAGAGTCA CGCAGGATCA CACAGCGACT CCAACAGCAG CACTCAGGTG
    TTTGGCTCGG TAGATGAAGT GGATCCCATC GAATCTGAGC CCAAACCAAA AGACGAGAAG
    CCGCAGCCCA AAATCCCCAA CGGCGCTCTG CCGAACTGCA CTAGCTCTCC AGACTCCGGA
    CACCCATCAT CCCGCAACTT CTCCGTGACC TCAGCGATGT CCGACTGCTC TCCCAGCGCA
    GAGGAGACTT CAACACAAGA GTCAAAAGGA AATCAGCCTG ACATAGAGGA GAAACCCAAA
    GAGGAGCAAC CAGAAAACAG CTCGACCACT CAGGATACAG ACAAAGCTGC CATTACTACT
    CAAAACGAGA GCAAACTGCA GACTTCTGAA ACGTCTAGGG CTGAAACGGA TCAGATCAAA
    GATGCAATCT CAAAAAATCC AACCAATCTG TCTGAACCTA AAGAAGATGA AGTGAATCCT
    GGTGCTGAAG CAGATGCAAG AAAGTCTGAA GTAAATAAGT GTGAAGTTCA GCCATTAAAA
    GATCCCGCTG AGGAAAGCCG ATCATCAGAA TCAAAGCAGG CTGAAGATGC AGATCCGGTG
    TCTTTATCAA TTGTGGATGA AGACACAAAA TCAAACACGG AGCAAGAAAT TGGTCTAAAA
    GTAAATGAGG ACTCCAAATC TCAACAATCT GCTCCAGAAT CAACACCAGA AGATGTGAAT
    ATCTCTCAAA ATCTCTCTTC TGAATCAAAA ACAGGGCAAG AAACTGGTCT AAAAGTGAAT
    GAAGACCCCA AATGTCAACA ATCTACTCCA GAATCAACAT CAGACTGCAT GAAAACCTCT
    CAAAGTCTCT CATCTGAATC AAACATGGAG CAAAAAGCGA ATGAAGACTC CAAATCTCAA
    CAATCTGCTC CAGAATCAAA ATCAGATGAC GTGAAAACCT CTCAAAATCT CTCATCTGGA
    TCAAACACAA AGCAAGAAAC AAGTTTAAAA GTGAGCGAAG ACTCCAATTG TCAACCATCT
    GCTCCAGAAT CAACATCGGA AGCCATGAAA ACCTCCCAAA ATCTTTCATC TGAATCAAAC
    ACGGAGCAAG AAACAGGTCT AAAAGTCAAC GAAGACTCCA AATGTCAACC ATCTGCTCCA
    GAATCAACAT CGGAAGCCAT GAAAACCTCC CAAAATCTTT CATCTGAATC AAACACGGAG
    CAAGAAACAG GTCTAAAAGT CAACGAAGAC TCCAAATGTC AACCATCTGC TCCAGAATCA
    ACACCTGAAC ACATGAAAAC CTCCCAAAAT CTCTCATCTG AATCAAACAC GGAGCAAGAA
    ACAGGTCTAA AAGTCAACAA AGACTCAAAA TCTGAACAAT CTGCTCCAAA ATCAACACCT
    GAACACATGA AAACCTGCCT AAATCTCTCA TCTGAATTAA ACATGGAGCA AGCAACAGGT
    CTAAAAGTCA ACAAAGACTC CAAATGTCAA CCATCTGCTC CAGAATCAAC ACTAGACGAC
    ATGAAAACCT CCCAAAATCT TTCATCTGGA CCACAGAATG TGCCTCAAAC CGCACCACAA
    ACCATCAGCT GGGACTCCGA ACACAACCGA GCCAGATCAA TAATCAAACA GATGACAGAA
    TCGGAGTCTG AGAGCTGCGG GCCGCTCACA TCCCTGTCCA AACCGTCTCC GGACATGTCC
    GACGACTCTC CGTCGGCTCT GGAGATGGAG GAGATCCCTT CATCTGTGGT GTACATGTCC
    TCTGAGAGCT CCATGTGCAG GACGCCTCTG ACTCTGGCCC GTCCTGTGGC TCCATGCATC
    GCCGCCGGGG AGAAATCGCC CATGGGAATG CCTGCTCTGG AGCTCTGCAT GGAGCCAGGC
    GTCAACACCA CCCCAGAGGG AACCGATTCT GCGCTCTCTG AGGAGGAACC CGAGATGGAC
    AACTTATTCC CCAAACCAGA CTCTCTAGCG GTCACCGGAG ACAAGAACGA CATCGCCTCA
    CCAGTGTCCT CAATCGGGAC CACCTACTCG CAGGAGCTGG TGGACCTCTA CACACTCAAT
    CTACACCGCA TCGACAAAGA CGTCCAGCGA TGTGACAGAA ACTACTGGTA TTTCACCCCA
    GCCAACCTGG AGAAACTGCG CAACATCATG TGCAGTTATG TGTGGCAGCA CCTCGACATC
    GGATACGTCC AGGGAATGTG TGACTTACTA GCGCCCCTGC TGGTCATCCT GGATGATGAG
    GCCATGGCCT TCAGCTGCTT CACAGAGCTC ATGAAGCGCA TGAACCAGAA CTTCCCTCAC
    GGAGGAGCCA TGGACACACA CTTCGCCAAC ATGCGTTCCC TCATCCAGAT CCTGGACTCG
    GAGCTGTTCG AGCTGATGCA GCAGAATGGA GACTACACAC ACTTCTACTT CTGCTACCGC
    TGGTTCCTGC TGGATTTCAA GAGAGAAATG GTGTATGATG ACGTGTTCTC CGTGTGGGAG
    ACCATCTGGG CAGCACGTTA CGCCTCGTCT GAGCATTTCG TCCTCTTCAT CGCGCTGGCC
    TTGGTGGAGC TGTACCGAGA CATCATCCTG GAGAACAACA TGGACTTCAC AGACATCATC
    AAGTTCTTTA ACGAAATGGC TGAACGTCAT GATGTCCCAA AATTGCTGGT TATGGCCCGG
    GACCTGGTGC ACAAAGTCCA GATCCTGATC GAGAACAAGT GA

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

    RefSeq XP_003199319.1
    CDS294..4895
    Translation

    Target ORF information:

    RefSeq Version XM_003199271.5
    Organism Danio rerio(zebrafish)
    Definition Danio rerio small G protein signaling modulator 1b (sgsm1b), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_003199271.5

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGGGAGAAT CAGAAACGCG TCAGAGGCTG CTGCGCAACG TCAAGAAGGA GGTCAAGCAG 
    ATCATGGAGG AGGCCGTGAC ACGCAAGTTT GTGCATGAAG ACAGCAGTCA CATCATCTCT
    TTCTGCGGGG TTGTGGAAGC GTGTGTTCTT CATGGGCTGA AGCGACGGGC CGCTGGATTC
    CTGCGCAGCA ACAAACTGGC GGCTCTGTTT ATGAAGGTGG GCAAGATGTT CCCTCCAGCA
    GAGGATCTCT GCCGAAAGGT GCAGGAGCTG GAACAAATCA TTGAAAACAA ACAAAACCAG
    AGCCAGATGA GTCAGGAGAG TGTCCGAAAG CAGCCCAGGC CGCCAAACCT GTCTCCTCTG
    GCCATCAAAC ACCTCTGGAT CCGCACTGCG CTCACACAGA AGCTGCTGGA CAAGATCGTC
    CTGTACCTGG TGGAGAACAG CAGTAAGTTT TACGAAAGGG AAGCTCTTCT GCGAGATCCC
    GTTGACGGCC CAATCCTCGC ATCTCTGCTA GTGGGTCCCT GCGCACTGGA GTACACCAAA
    GCAAAGACAG CCAATCACTT CTGGACGGAT CCGTCAGCTG ATGAGCTGGT GCAGAGACAC
    CGCATTCACA GCGGACACTG CCGGCAGGAC TCGCCCACTA AACGTCCGGC TCTCATTCAG
    AAGAGGCAGT CGAGCGGCAG TATGGATGAC AGGCCTTCTC TCTGGGCTCG GGATTACGTC
    GAATCCCTTC ATCAAAACTC CAGAGCCACG CTGCTCTTCG GGAAGAACAA TGTCCTCGTG
    CAGCCGACAG ACGACATGGA AGCAATCCCA GGATACCTTT CTCTACACCA GACGGCAGAT
    CTCATGACGC TGAAATGGAC GCCGAACCAG CTGATGAACG GAAACACAGA GTTTGATTAT
    GAAAAGAGTG TTTATTGGGA TTTCGCGATG ACCATCCGTC TAGAGGAAAT CGTTTATCTG
    CACTGCCATC AGCAAGTGGA CAGTGGTGGT ACTGTGGTTT TGGTCAGTCA AGACGGGATC
    CAAAGGCCTC CGTTTCGGTT CCCAAAAGGA GGACACCTGC TCCAGTTCCT CACCTGTCTG
    GAAACAGGTC TCCTTCCTCA TGGGCAGCTG GATCCTCCTC TGTGGTCTCA AAGAGGAAAG
    GGAAAAGTCT TTCCAAAACT GCGCAAAAGG AGTCCGCATG GATCCTGCGA GTCTTTCTCT
    GACAAAGATG AAGATGAGGC CACTGATTAT GTGTTCCGGA TTATATACCC AGGCAGTCAA
    GAGTTCGTGG CTCCAGAACT GATCGAGCAG GCTGTCAATA TGTGGCAGCC GACGCCCAGG
    AAGTCGTCTT GTTCTTCCTG TTCGCAGAAC GGCTCATCGG ACGGCGGGCT TCCCAACGGA
    TGCAACCATG ACAGGGCGCC GCTCAAGTTA CTCTGCGAGA CCATGAAGCA CCAGATCATT
    TCCCGCGCTT TCTACGGCTG GTTGGCGTAT TGCCGTCATC TTTCCACTGT CCGCACGCAC
    CTCTCGGCTT TGGTAAATGC CACTATTGTT GAGCCTGACA TCCCATATGA TGCCAAAGGC
    GGACTGTCGG CAGACGTGTG GAAGTCATTT CTACAGGACT GCTCAGCGTA CGAGGAGGAG
    GAGCTGCTGC GGCTGGTGTA TTACGGTGGT GTGGAGCCGT CTCTGCGGAA AGAGGTGTGG
    CCTTTCCTGT TAGGACACTA CCACTTCACC ATGAGCCCAG AAGAACGCAA AGAGGTGGAC
    GAGCAGATTC GAGCGTGCTA TGAGCAGACC ATGAGCGAGT GGCTGGGATG TGAAGCTATC
    GTGCGCCAGC GGGAGAAGGA GCAGCACGCC GCCGCTCTGG CCAAATGTGT GTCTGGTGCC
    AGTGTGGACC GAGGGTCACG CCAGGACTCC ACCATCAGCA CGGATTCATC TCAGAGCAGC
    AACTCAGATA AACAGAGTCA CGCAGGATCA CACAGCGACT CCAACAGCAG CACTCAGGTG
    TTTGGCTCGG TAGATGAAGT GGATCCCATC GAATCTGAGC CCAAACCAAA AGACGAGAAG
    CCGCAGCCCA AAATCCCCAA CGGCGCTCTG CCGAACTGCA CTAGCTCTCC AGACTCCGGA
    CACCCATCAT CCCGCAACTT CTCCGTGACC TCAGCGATGT CCGACTGCTC TCCCAGCGCA
    GAGGAGACTT CAACACAAGA GTCAAAAGGA AATCAGCCTG ACATAGAGGA GAAACCCAAA
    GAGGAGCAAC CAGAAAACAG CTCGACCACT CAGGATACAG ACAAAGCTGC CATTACTACT
    CAAAACGAGA GCAAACTGCA GACTTCTGAA ACGTCTAGGG CTGAAACGGA TCAGATCAAA
    GATGCAATCT CAAAAAATCC AACCAATCTG TCTGAACCTA AAGAAGATGA AGTGAATCCT
    GGTGCTGAAG CAGATGCAAG AAAGTCTGAA GTAAATAAGT GTGAAGTTCA GCCATTAAAA
    GATCCCGCTG AGGAAAGCCG ATCATCAGAA TCAAAGCAGG CTGAAGATGC AGATCCGGTG
    TCTTTATCAA TTGTGGATGA AGACACAAAA TCAAACACGG AGCAAGAAAT TGGTCTAAAA
    GTAAATGAGG ACTCCAAATC TCAACAATCT GCTCCAGAAT CAACACCAGA AGATGTGAAT
    ATCTCTCAAA ATCTCTCTTC TGAATCAAAA ACAGGGCAAG AAACTGGTCT AAAAGTGAAT
    GAAGACCCCA AATGTCAACA ATCTACTCCA GAATCAACAT CAGACTGCAT GAAAACCTCT
    CAAAGTCTCT CATCTGAATC AAACATGGAG CAAAAAGCGA ATGAAGACTC CAAATCTCAA
    CAATCTGCTC CAGAATCAAA ATCAGATGAC GTGAAAACCT CTCAAAATCT CTCATCTGGA
    TCAAACACAA AGCAAGAAAC AAGTTTAAAA GTGAGCGAAG ACTCCAATTG TCAACCATCT
    GCTCCAGAAT CAACATCGGA AGCCATGAAA ACCTCCCAAA ATCTTTCATC TGAATCAAAC
    ACGGAGCAAG AAACAGGTCT AAAAGTCAAC GAAGACTCCA AATGTCAACC ATCTGCTCCA
    GAATCAACAT CGGAAGCCAT GAAAACCTCC CAAAATCTTT CATCTGAATC AAACACGGAG
    CAAGAAACAG GTCTAAAAGT CAACGAAGAC TCCAAATGTC AACCATCTGC TCCAGAATCA
    ACACCTGAAC ACATGAAAAC CTCCCAAAAT CTCTCATCTG AATCAAACAC GGAGCAAGAA
    ACAGGTCTAA AAGTCAACAA AGACTCAAAA TCTGAACAAT CTGCTCCAAA ATCAACACCT
    GAACACATGA AAACCTGCCT AAATCTCTCA TCTGAATTAA ACATGGAGCA AGCAACAGGT
    CTAAAAGTCA ACAAAGACTC CAAATGTCAA CCATCTGCTC CAGAATCAAC ACTAGACGAC
    ATGAAAACCT CCCAAAATCT TTCATCTGGA CCACAGAATG TGCCTCAAAC CGCACCACAA
    ACCATCAGCT GGGACTCCGA ACACAACCGA GCCAGATCAA TAATCAAACA GATGACAGAA
    TCGGAGTCTG AGAGCTGCGG GCCGCTCACA TCCCTGTCCA AACCGTCTCC GGACATGTCC
    GACGACTCTC CGTCGGCTCT GGAGATGGAG GAGATCCCTT CATCTGTGGT GTACATGTCC
    TCTGAGAGCT CCATGTGCAG GACGCCTCTG ACTCTGGCCC GTCCTGTGGC TCCATGCATC
    GCCGCCGGGG AGAAATCGCC CATGGGAATG CCTGCTCTGG AGCTCTGCAT GGAGCCAGGC
    GTCAACACCA CCCCAGAGGG AACCGATTCT GCGCTCTCTG AGGAGGAACC CGAGATGGAC
    AACTTATTCC CCAAACCAGA CTCTCTAGCG GTCACCGGAG ACAAGAACGA CATCGCCTCA
    CCAGTGTCCT CAATCGGGAC CACCTACTCG CAGGAGCTGG TGGACCTCTA CACACTCAAT
    CTACACCGCA TCGACAAAGA CGTCCAGCGA TGTGACAGAA ACTACTGGTA TTTCACCCCA
    GCCAACCTGG AGAAACTGCG CAACATCATG TGCAGTTATG TGTGGCAGCA CCTCGACATC
    GGATACGTCC AGGGAATGTG TGACTTACTA GCGCCCCTGC TGGTCATCCT GGATGATGAG
    GCCATGGCCT TCAGCTGCTT CACAGAGCTC ATGAAGCGCA TGAACCAGAA CTTCCCTCAC
    GGAGGAGCCA TGGACACACA CTTCGCCAAC ATGCGTTCCC TCATCCAGAT CCTGGACTCG
    GAGCTGTTCG AGCTGATGCA GCAGAATGGA GACTACACAC ACTTCTACTT CTGCTACCGC
    TGGTTCCTGC TGGATTTCAA GAGAGAAATG GTGTATGATG ACGTGTTCTC CGTGTGGGAG
    ACCATCTGGG CAGCACGTTA CGCCTCGTCT GAGCATTTCG TCCTCTTCAT CGCGCTGGCC
    TTGGTGGAGC TGTACCGAGA CATCATCCTG GAGAACAACA TGGACTTCAC AGACATCATC
    AAGTTCTTTA ACGAAATGGC TGAACGTCAT GATGTCCCAA AATTGCTGGT TATGGCCCGG
    GACCTGGTGC ACAAAGTCCA GATCCTGATC GAGAACAAGT GA

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

    CloneID ODa15665
    Clone ID Related Accession (Same CDS sequence) XM_003199271.5 , XM_003199271.4
    Accession Version XM_003199271.4 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4602bp)
    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 small G protein signaling modulator 1-like
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007121.6) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_003199271.3. ##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
    ATGGGAGAAT CAGAAACGCG TCAGAGGCTG CTGCGCAACG TCAAGAAGGA GGTCAAGCAG 
    ATCATGGAGG AGGCCGTGAC ACGCAAGTTT GTGCATGAAG ACAGCAGTCA CATCATCTCT
    TTCTGCGGGG TTGTGGAAGC GTGTGTTCTT CATGGGCTGA AGCGACGGGC CGCTGGATTC
    CTGCGCAGCA ACAAACTGGC GGCTCTGTTT ATGAAGGTGG GCAAGATGTT CCCTCCAGCA
    GAGGATCTCT GCCGAAAGGT GCAGGAGCTG GAACAAATCA TTGAAAACAA ACAAAACCAG
    AGCCAGATGA GTCAGGAGAG TGTCCGAAAG CAGCCCAGGC CGCCAAACCT GTCTCCTCTG
    GCCATCAAAC ACCTCTGGAT CCGCACTGCG CTCACACAGA AGCTGCTGGA CAAGATCGTC
    CTGTACCTGG TGGAGAACAG CAGTAAGTTT TACGAAAGGG AAGCTCTTCT GCGAGATCCC
    GTTGACGGCC CAATCCTCGC ATCTCTGCTA GTGGGTCCCT GCGCACTGGA GTACACCAAA
    GCAAAGACAG CCAATCACTT CTGGACGGAT CCGTCAGCTG ATGAGCTGGT GCAGAGACAC
    CGCATTCACA GCGGACACTG CCGGCAGGAC TCGCCCACTA AACGTCCGGC TCTCATTCAG
    AAGAGGCAGT CGAGCGGCAG TATGGATGAC AGGCCTTCTC TCTGGGCTCG GGATTACGTC
    GAATCCCTTC ATCAAAACTC CAGAGCCACG CTGCTCTTCG GGAAGAACAA TGTCCTCGTG
    CAGCCGACAG ACGACATGGA AGCAATCCCA GGATACCTTT CTCTACACCA GACGGCAGAT
    CTCATGACGC TGAAATGGAC GCCGAACCAG CTGATGAACG GAAACACAGA GTTTGATTAT
    GAAAAGAGTG TTTATTGGGA TTTCGCGATG ACCATCCGTC TAGAGGAAAT CGTTTATCTG
    CACTGCCATC AGCAAGTGGA CAGTGGTGGT ACTGTGGTTT TGGTCAGTCA AGACGGGATC
    CAAAGGCCTC CGTTTCGGTT CCCAAAAGGA GGACACCTGC TCCAGTTCCT CACCTGTCTG
    GAAACAGGTC TCCTTCCTCA TGGGCAGCTG GATCCTCCTC TGTGGTCTCA AAGAGGAAAG
    GGAAAAGTCT TTCCAAAACT GCGCAAAAGG AGTCCGCATG GATCCTGCGA GTCTTTCTCT
    GACAAAGATG AAGATGAGGC CACTGATTAT GTGTTCCGGA TTATATACCC AGGCAGTCAA
    GAGTTCGTGG CTCCAGAACT GATCGAGCAG GCTGTCAATA TGTGGCAGCC GACGCCCAGG
    AAGTCGTCTT GTTCTTCCTG TTCGCAGAAC GGCTCATCGG ACGGCGGGCT TCCCAACGGA
    TGCAACCATG ACAGGGCGCC GCTCAAGTTA CTCTGCGAGA CCATGAAGCA CCAGATCATT
    TCCCGCGCTT TCTACGGCTG GTTGGCGTAT TGCCGTCATC TTTCCACTGT CCGCACGCAC
    CTCTCGGCTT TGGTAAATGC CACTATTGTT GAGCCTGACA TCCCATATGA TGCCAAAGGC
    GGACTGTCGG CAGACGTGTG GAAGTCATTT CTACAGGACT GCTCAGCGTA CGAGGAGGAG
    GAGCTGCTGC GGCTGGTGTA TTACGGTGGT GTGGAGCCGT CTCTGCGGAA AGAGGTGTGG
    CCTTTCCTGT TAGGACACTA CCACTTCACC ATGAGCCCAG AAGAACGCAA AGAGGTGGAC
    GAGCAGATTC GAGCGTGCTA TGAGCAGACC ATGAGCGAGT GGCTGGGATG TGAAGCTATC
    GTGCGCCAGC GGGAGAAGGA GCAGCACGCC GCCGCTCTGG CCAAATGTGT GTCTGGTGCC
    AGTGTGGACC GAGGGTCACG CCAGGACTCC ACCATCAGCA CGGATTCATC TCAGAGCAGC
    AACTCAGATA AACAGAGTCA CGCAGGATCA CACAGCGACT CCAACAGCAG CACTCAGGTG
    TTTGGCTCGG TAGATGAAGT GGATCCCATC GAATCTGAGC CCAAACCAAA AGACGAGAAG
    CCGCAGCCCA AAATCCCCAA CGGCGCTCTG CCGAACTGCA CTAGCTCTCC AGACTCCGGA
    CACCCATCAT CCCGCAACTT CTCCGTGACC TCAGCGATGT CCGACTGCTC TCCCAGCGCA
    GAGGAGACTT CAACACAAGA GTCAAAAGGA AATCAGCCTG ACATAGAGGA GAAACCCAAA
    GAGGAGCAAC CAGAAAACAG CTCGACCACT CAGGATACAG ACAAAGCTGC CATTACTACT
    CAAAACGAGA GCAAACTGCA GACTTCTGAA ACGTCTAGGG CTGAAACGGA TCAGATCAAA
    GATGCAATCT CAAAAAATCC AACCAATCTG TCTGAACCTA AAGAAGATGA AGTGAATCCT
    GGTGCTGAAG CAGATGCAAG AAAGTCTGAA GTAAATAAGT GTGAAGTTCA GCCATTAAAA
    GATCCCGCTG AGGAAAGCCG ATCATCAGAA TCAAAGCAGG CTGAAGATGC AGATCCGGTG
    TCTTTATCAA TTGTGGATGA AGACACAAAA TCAAACACGG AGCAAGAAAT TGGTCTAAAA
    GTAAATGAGG ACTCCAAATC TCAACAATCT GCTCCAGAAT CAACACCAGA AGATGTGAAT
    ATCTCTCAAA ATCTCTCTTC TGAATCAAAA ACAGGGCAAG AAACTGGTCT AAAAGTGAAT
    GAAGACCCCA AATGTCAACA ATCTACTCCA GAATCAACAT CAGACTGCAT GAAAACCTCT
    CAAAGTCTCT CATCTGAATC AAACATGGAG CAAAAAGCGA ATGAAGACTC CAAATCTCAA
    CAATCTGCTC CAGAATCAAA ATCAGATGAC GTGAAAACCT CTCAAAATCT CTCATCTGGA
    TCAAACACAA AGCAAGAAAC AAGTTTAAAA GTGAGCGAAG ACTCCAATTG TCAACCATCT
    GCTCCAGAAT CAACATCGGA AGCCATGAAA ACCTCCCAAA ATCTTTCATC TGAATCAAAC
    ACGGAGCAAG AAACAGGTCT AAAAGTCAAC GAAGACTCCA AATGTCAACC ATCTGCTCCA
    GAATCAACAT CGGAAGCCAT GAAAACCTCC CAAAATCTTT CATCTGAATC AAACACGGAG
    CAAGAAACAG GTCTAAAAGT CAACGAAGAC TCCAAATGTC AACCATCTGC TCCAGAATCA
    ACACCTGAAC ACATGAAAAC CTCCCAAAAT CTCTCATCTG AATCAAACAC GGAGCAAGAA
    ACAGGTCTAA AAGTCAACAA AGACTCAAAA TCTGAACAAT CTGCTCCAAA ATCAACACCT
    GAACACATGA AAACCTGCCT AAATCTCTCA TCTGAATTAA ACATGGAGCA AGCAACAGGT
    CTAAAAGTCA ACAAAGACTC CAAATGTCAA CCATCTGCTC CAGAATCAAC ACTAGACGAC
    ATGAAAACCT CCCAAAATCT TTCATCTGGA CCACAGAATG TGCCTCAAAC CGCACCACAA
    ACCATCAGCT GGGACTCCGA ACACAACCGA GCCAGATCAA TAATCAAACA GATGACAGAA
    TCGGAGTCTG AGAGCTGCGG GCCGCTCACA TCCCTGTCCA AACCGTCTCC GGACATGTCC
    GACGACTCTC CGTCGGCTCT GGAGATGGAG GAGATCCCTT CATCTGTGGT GTACATGTCC
    TCTGAGAGCT CCATGTGCAG GACGCCTCTG ACTCTGGCCC GTCCTGTGGC TCCATGCATC
    GCCGCCGGGG AGAAATCGCC CATGGGAATG CCTGCTCTGG AGCTCTGCAT GGAGCCAGGC
    GTCAACACCA CCCCAGAGGG AACCGATTCT GCGCTCTCTG AGGAGGAACC CGAGATGGAC
    AACTTATTCC CCAAACCAGA CTCTCTAGCG GTCACCGGAG ACAAGAACGA CATCGCCTCA
    CCAGTGTCCT CAATCGGGAC CACCTACTCG CAGGAGCTGG TGGACCTCTA CACACTCAAT
    CTACACCGCA TCGACAAAGA CGTCCAGCGA TGTGACAGAA ACTACTGGTA TTTCACCCCA
    GCCAACCTGG AGAAACTGCG CAACATCATG TGCAGTTATG TGTGGCAGCA CCTCGACATC
    GGATACGTCC AGGGAATGTG TGACTTACTA GCGCCCCTGC TGGTCATCCT GGATGATGAG
    GCCATGGCCT TCAGCTGCTT CACAGAGCTC ATGAAGCGCA TGAACCAGAA CTTCCCTCAC
    GGAGGAGCCA TGGACACACA CTTCGCCAAC ATGCGTTCCC TCATCCAGAT CCTGGACTCG
    GAGCTGTTCG AGCTGATGCA GCAGAATGGA GACTACACAC ACTTCTACTT CTGCTACCGC
    TGGTTCCTGC TGGATTTCAA GAGAGAAATG GTGTATGATG ACGTGTTCTC CGTGTGGGAG
    ACCATCTGGG CAGCACGTTA CGCCTCGTCT GAGCATTTCG TCCTCTTCAT CGCGCTGGCC
    TTGGTGGAGC TGTACCGAGA CATCATCCTG GAGAACAACA TGGACTTCAC AGACATCATC
    AAGTTCTTTA ACGAAATGGC TGAACGTCAT GATGTCCCAA AATTGCTGGT TATGGCCCGG
    GACCTGGTGC ACAAAGTCCA GATCCTGATC GAGAACAAGT GA

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

    RefSeq XP_003199319.1
    CDS293..4894
    Translation

    Target ORF information:

    RefSeq Version XM_003199271.4
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio small G protein signaling modulator 1b (sgsm1b), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_003199271.4

    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
    ATGGGAGAAT CAGAAACGCG TCAGAGGCTG CTGCGCAACG TCAAGAAGGA GGTCAAGCAG 
    ATCATGGAGG AGGCCGTGAC ACGCAAGTTT GTGCATGAAG ACAGCAGTCA CATCATCTCT
    TTCTGCGGGG TTGTGGAAGC GTGTGTTCTT CATGGGCTGA AGCGACGGGC CGCTGGATTC
    CTGCGCAGCA ACAAACTGGC GGCTCTGTTT ATGAAGGTGG GCAAGATGTT CCCTCCAGCA
    GAGGATCTCT GCCGAAAGGT GCAGGAGCTG GAACAAATCA TTGAAAACAA ACAAAACCAG
    AGCCAGATGA GTCAGGAGAG TGTCCGAAAG CAGCCCAGGC CGCCAAACCT GTCTCCTCTG
    GCCATCAAAC ACCTCTGGAT CCGCACTGCG CTCACACAGA AGCTGCTGGA CAAGATCGTC
    CTGTACCTGG TGGAGAACAG CAGTAAGTTT TACGAAAGGG AAGCTCTTCT GCGAGATCCC
    GTTGACGGCC CAATCCTCGC ATCTCTGCTA GTGGGTCCCT GCGCACTGGA GTACACCAAA
    GCAAAGACAG CCAATCACTT CTGGACGGAT CCGTCAGCTG ATGAGCTGGT GCAGAGACAC
    CGCATTCACA GCGGACACTG CCGGCAGGAC TCGCCCACTA AACGTCCGGC TCTCATTCAG
    AAGAGGCAGT CGAGCGGCAG TATGGATGAC AGGCCTTCTC TCTGGGCTCG GGATTACGTC
    GAATCCCTTC ATCAAAACTC CAGAGCCACG CTGCTCTTCG GGAAGAACAA TGTCCTCGTG
    CAGCCGACAG ACGACATGGA AGCAATCCCA GGATACCTTT CTCTACACCA GACGGCAGAT
    CTCATGACGC TGAAATGGAC GCCGAACCAG CTGATGAACG GAAACACAGA GTTTGATTAT
    GAAAAGAGTG TTTATTGGGA TTTCGCGATG ACCATCCGTC TAGAGGAAAT CGTTTATCTG
    CACTGCCATC AGCAAGTGGA CAGTGGTGGT ACTGTGGTTT TGGTCAGTCA AGACGGGATC
    CAAAGGCCTC CGTTTCGGTT CCCAAAAGGA GGACACCTGC TCCAGTTCCT CACCTGTCTG
    GAAACAGGTC TCCTTCCTCA TGGGCAGCTG GATCCTCCTC TGTGGTCTCA AAGAGGAAAG
    GGAAAAGTCT TTCCAAAACT GCGCAAAAGG AGTCCGCATG GATCCTGCGA GTCTTTCTCT
    GACAAAGATG AAGATGAGGC CACTGATTAT GTGTTCCGGA TTATATACCC AGGCAGTCAA
    GAGTTCGTGG CTCCAGAACT GATCGAGCAG GCTGTCAATA TGTGGCAGCC GACGCCCAGG
    AAGTCGTCTT GTTCTTCCTG TTCGCAGAAC GGCTCATCGG ACGGCGGGCT TCCCAACGGA
    TGCAACCATG ACAGGGCGCC GCTCAAGTTA CTCTGCGAGA CCATGAAGCA CCAGATCATT
    TCCCGCGCTT TCTACGGCTG GTTGGCGTAT TGCCGTCATC TTTCCACTGT CCGCACGCAC
    CTCTCGGCTT TGGTAAATGC CACTATTGTT GAGCCTGACA TCCCATATGA TGCCAAAGGC
    GGACTGTCGG CAGACGTGTG GAAGTCATTT CTACAGGACT GCTCAGCGTA CGAGGAGGAG
    GAGCTGCTGC GGCTGGTGTA TTACGGTGGT GTGGAGCCGT CTCTGCGGAA AGAGGTGTGG
    CCTTTCCTGT TAGGACACTA CCACTTCACC ATGAGCCCAG AAGAACGCAA AGAGGTGGAC
    GAGCAGATTC GAGCGTGCTA TGAGCAGACC ATGAGCGAGT GGCTGGGATG TGAAGCTATC
    GTGCGCCAGC GGGAGAAGGA GCAGCACGCC GCCGCTCTGG CCAAATGTGT GTCTGGTGCC
    AGTGTGGACC GAGGGTCACG CCAGGACTCC ACCATCAGCA CGGATTCATC TCAGAGCAGC
    AACTCAGATA AACAGAGTCA CGCAGGATCA CACAGCGACT CCAACAGCAG CACTCAGGTG
    TTTGGCTCGG TAGATGAAGT GGATCCCATC GAATCTGAGC CCAAACCAAA AGACGAGAAG
    CCGCAGCCCA AAATCCCCAA CGGCGCTCTG CCGAACTGCA CTAGCTCTCC AGACTCCGGA
    CACCCATCAT CCCGCAACTT CTCCGTGACC TCAGCGATGT CCGACTGCTC TCCCAGCGCA
    GAGGAGACTT CAACACAAGA GTCAAAAGGA AATCAGCCTG ACATAGAGGA GAAACCCAAA
    GAGGAGCAAC CAGAAAACAG CTCGACCACT CAGGATACAG ACAAAGCTGC CATTACTACT
    CAAAACGAGA GCAAACTGCA GACTTCTGAA ACGTCTAGGG CTGAAACGGA TCAGATCAAA
    GATGCAATCT CAAAAAATCC AACCAATCTG TCTGAACCTA AAGAAGATGA AGTGAATCCT
    GGTGCTGAAG CAGATGCAAG AAAGTCTGAA GTAAATAAGT GTGAAGTTCA GCCATTAAAA
    GATCCCGCTG AGGAAAGCCG ATCATCAGAA TCAAAGCAGG CTGAAGATGC AGATCCGGTG
    TCTTTATCAA TTGTGGATGA AGACACAAAA TCAAACACGG AGCAAGAAAT TGGTCTAAAA
    GTAAATGAGG ACTCCAAATC TCAACAATCT GCTCCAGAAT CAACACCAGA AGATGTGAAT
    ATCTCTCAAA ATCTCTCTTC TGAATCAAAA ACAGGGCAAG AAACTGGTCT AAAAGTGAAT
    GAAGACCCCA AATGTCAACA ATCTACTCCA GAATCAACAT CAGACTGCAT GAAAACCTCT
    CAAAGTCTCT CATCTGAATC AAACATGGAG CAAAAAGCGA ATGAAGACTC CAAATCTCAA
    CAATCTGCTC CAGAATCAAA ATCAGATGAC GTGAAAACCT CTCAAAATCT CTCATCTGGA
    TCAAACACAA AGCAAGAAAC AAGTTTAAAA GTGAGCGAAG ACTCCAATTG TCAACCATCT
    GCTCCAGAAT CAACATCGGA AGCCATGAAA ACCTCCCAAA ATCTTTCATC TGAATCAAAC
    ACGGAGCAAG AAACAGGTCT AAAAGTCAAC GAAGACTCCA AATGTCAACC ATCTGCTCCA
    GAATCAACAT CGGAAGCCAT GAAAACCTCC CAAAATCTTT CATCTGAATC AAACACGGAG
    CAAGAAACAG GTCTAAAAGT CAACGAAGAC TCCAAATGTC AACCATCTGC TCCAGAATCA
    ACACCTGAAC ACATGAAAAC CTCCCAAAAT CTCTCATCTG AATCAAACAC GGAGCAAGAA
    ACAGGTCTAA AAGTCAACAA AGACTCAAAA TCTGAACAAT CTGCTCCAAA ATCAACACCT
    GAACACATGA AAACCTGCCT AAATCTCTCA TCTGAATTAA ACATGGAGCA AGCAACAGGT
    CTAAAAGTCA ACAAAGACTC CAAATGTCAA CCATCTGCTC CAGAATCAAC ACTAGACGAC
    ATGAAAACCT CCCAAAATCT TTCATCTGGA CCACAGAATG TGCCTCAAAC CGCACCACAA
    ACCATCAGCT GGGACTCCGA ACACAACCGA GCCAGATCAA TAATCAAACA GATGACAGAA
    TCGGAGTCTG AGAGCTGCGG GCCGCTCACA TCCCTGTCCA AACCGTCTCC GGACATGTCC
    GACGACTCTC CGTCGGCTCT GGAGATGGAG GAGATCCCTT CATCTGTGGT GTACATGTCC
    TCTGAGAGCT CCATGTGCAG GACGCCTCTG ACTCTGGCCC GTCCTGTGGC TCCATGCATC
    GCCGCCGGGG AGAAATCGCC CATGGGAATG CCTGCTCTGG AGCTCTGCAT GGAGCCAGGC
    GTCAACACCA CCCCAGAGGG AACCGATTCT GCGCTCTCTG AGGAGGAACC CGAGATGGAC
    AACTTATTCC CCAAACCAGA CTCTCTAGCG GTCACCGGAG ACAAGAACGA CATCGCCTCA
    CCAGTGTCCT CAATCGGGAC CACCTACTCG CAGGAGCTGG TGGACCTCTA CACACTCAAT
    CTACACCGCA TCGACAAAGA CGTCCAGCGA TGTGACAGAA ACTACTGGTA TTTCACCCCA
    GCCAACCTGG AGAAACTGCG CAACATCATG TGCAGTTATG TGTGGCAGCA CCTCGACATC
    GGATACGTCC AGGGAATGTG TGACTTACTA GCGCCCCTGC TGGTCATCCT GGATGATGAG
    GCCATGGCCT TCAGCTGCTT CACAGAGCTC ATGAAGCGCA TGAACCAGAA CTTCCCTCAC
    GGAGGAGCCA TGGACACACA CTTCGCCAAC ATGCGTTCCC TCATCCAGAT CCTGGACTCG
    GAGCTGTTCG AGCTGATGCA GCAGAATGGA GACTACACAC ACTTCTACTT CTGCTACCGC
    TGGTTCCTGC TGGATTTCAA GAGAGAAATG GTGTATGATG ACGTGTTCTC CGTGTGGGAG
    ACCATCTGGG CAGCACGTTA CGCCTCGTCT GAGCATTTCG TCCTCTTCAT CGCGCTGGCC
    TTGGTGGAGC TGTACCGAGA CATCATCCTG GAGAACAACA TGGACTTCAC AGACATCATC
    AAGTTCTTTA ACGAAATGGC TGAACGTCAT GATGTCCCAA AATTGCTGGT TATGGCCCGG
    GACCTGGTGC ACAAAGTCCA GATCCTGATC GAGAACAAGT GA

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