ORF » Species Summary » Alligator sinensis » IGSF22 cDNA ORF clone

IGSF22 cDNA ORF clone, Alligator sinensis(Chinese alligator)

The following IGSF22 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the IGSF22 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
OAl16704 XM_006022035.1
Latest version!		 Alligator sinensis immunoglobulin superfamily, member 22 (IGSF22), mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OAl85634 XM_025202113.1
Latest version!		 Alligator sinensis immunoglobulin superfamily member 22 (IGSF22), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OAl85635 XM_025202114.1
Latest version!		 Alligator sinensis immunoglobulin superfamily member 22 (IGSF22), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00

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

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

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

  • Reference Sequences (Refseq)
    IGSF22 ( XM_006022035.1 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_006022097.1 Alligator sinensis immunoglobulin superfamily, member 22 (IGSF22), mRNA.
    Price & Availability↑
    CloneID OAl16704
    Clone ID Related Accession (Same CDS sequence) XM_006022035.1
    Accession Version XM_006022035.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4041bp)
    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 2015-10-29
    Organism Alligator sinensis(Chinese alligator)
    Product immunoglobulin superfamily member 22
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005842015.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Alligator sinensis Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 4% of CDS bases ##RefSeq-Attributes-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    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
    ATGGCAACGC AAGTTATGCA CATGAAAAGC ACGATTCAGC AGCATTCCTC CATTGAAGTC 
    TCCAGTTCCC AAACATGCGT GTCTCAATCC AAGATTGTCG AAGAGGAAGT TGTTTCTAGG 
    AAGTCTTCTG CCACTGTGGA GTCCTTCAGC ATGATGACAC GCTCCTTTGA GATCCCTCCA 
    GGAGAGAGTT ACCCAGAATT TGTGGAGAAG CCTCGACCAT TGACAGCCCC TGAAGGTGAT 
    AAAGCAATAT TTCGAGCTAA AATAAAAGGT AACCCTACCC CAAAGGTAAC ATGGAAAAGA 
    GAAAGTGGGA TACCAATAAA AGAAGGATCA AAAATGTTTT TTGACAGCAT CAATAAGGAA 
    TACGTGCTAA AGTTGGAGAG CCTTGGCTCA GAAGATGCAG ATAACTACAA GTGCGTCGTT 
    TCCAACACCC ATGCTGATGC CATCTATACC GTGTCCTTAA TTGTGACTGA AAGTCAAGAA 
    AAGCTGGATT TCAAAAAAAT GCTGAAAAAA AGGGGGCCTC CACCTCCAAA GAAGGCAGTG 
    AAGAAAGTGG TTGATGAAAA AGAAATGCTG GAGATCCTCT CCAAGGTGCC AAAGAAAGAC 
    TTTGAGAAAG TTTGTATGGA ATATGGCTTC ACTGATTTCC GTGGACTTCT CAAAAAGCTA 
    AAAGAAATGA AGAAAAAAGT GGAGGTTGAG GCTGTCAAAA TTCTGAAACC TCTTGAGGAT 
    GTTGCAGCTA AAGTAGACTC CACAGCTGTA TTCGACGCCA TTCTGGAACT GAAGGACCCC 
    AATACAAAGA TGACATGGCT TAAGGGTGAT GAGCCTCTGC GTAGTCAGTA CTCTCTAGGA 
    AAATATGACA TGAAACAAAT GGGCACCAAG TATATGCTGT ACATCACCAA CGTGAATGAA 
    AAGGACCTGG GCACCTACAA ACTTAGTGTT GCAGACAAGA TTCTCTCAGC AGTACTGAAA 
    GTGATAGATG AGCCCCTATC ATTTCTGGCA GAACTGAAAC CACTGAAAGT GACAGAAAGG 
    CAGACAGCTG TGTTTGAAAT TCGCTTATCC AAGAAAGTGC CCAATTTTAC CTGGAAGTTC 
    AATGGGAAAG AGCTGAAACG AGATGACAAA TATGAGATCA TTTCATCTGA TGATGGGCTA 
    ACTCACACAC TAAAAATTAA GGATGTTCGG CCGAGTGACA TTGGTGAGAT CAGCGTTGAA 
    GCTGGAGATC TGGTGCAGAA AGCTCCACTC ATCATAGAGC GAATCCCAAT TAAGTTCATC 
    AGCAATCTGA AGAATGTCCG AGTCAAGGAG AAGGGGAAAG CTTGTCTGGA GTGTGAGCTG 
    ACTTCTAAAG ATGTTACCCT GAAGTGGCTA AAGAATGGGG CAGTGATTCA GAAATCCAAC 
    AAGTACAGCA TGAACCATGA GGGGAAGAGA GCAGAGCTGA TCATTGATGA TGCTGAACTG 
    ACAGACTCAG GGGAGTACAC AGTGATTGCC ATGCAAGACA ATGACCCAAA AGAGTATTAC 
    AGCACTGCCA ATGTAACAGT GGAAGAGAGA TTTGCTACAG TCAAGAGCGG TATGTCTGAT 
    GTTCAGGCTC CAACAGGAGA CCCAGCAGAG CTCTGTGTTG TCCTGAATGA TGAGAAGGTA 
    GAAGGAGTTT GGCTGAAGGA TGGCAAGGAG ATTACAGATA TGAGAGGAAT CCAGATTGTC 
    AAGCAGGGAG CTGTCCACAA ACTGATCATT GACAAAATGG GAGAGAAGTT TGAAGGGAAG 
    TACACATTCA GAGCCAAAGG AGCAGAAAGT GAGGCCACCA TTGCCATTGC AGATCCCCCT 
    GTCATTGATG AATCTGTGCT GGAGATGTTG GCTGCACACC CTGTGACTGT GAAGGCCGGG 
    CATACGGCAA GCATCAAAAT TCCCTTCAAG GCAAAACCAA TGCCAAAGGT CAGCTGGTTC 
    AAAGATGGTA TTGAGGTGAC AGAGGAACAG AAGATTGCAA TGGAAAAGGC GAATGACTAT 
    GCTTTGCTCA CAATAAGCAA CTGTGTGAGA GAAGACAGTG GAAACATTAT GCTGAAGCTG 
    AAAAGTGACT GTGGCTCAGC TGTTGCCAAT CTGTTTCTCA ATGTTCTTGA CAAACCAAAA 
    CCACCTCAAG GAAAAGTGGA ATTTTTGGAG CGGACAGGTA AATGCATCAA AATGAAATGG 
    AAAGCACCCA AAGATAATGG AGGAAAGCAG GTGACACATT TTATCATTGA GAGGAAGATG 
    GTTGGTAAAA AGTCCTGGAT TAAAGTTGGT GAAGTAGAAG GCAAACACAC CATATTTGCC 
    ACCGATAAGG TAGAAGAAGG CAGAGCCTAT CAGTTCAGAA TCCTTGCCGT CAATTCGGAG 
    GGTCTGAGTG AACCACTGGA GACGGAAGAA GTCTTTGCTG GAGAACCTAT TGAGCCTCCT 
    GGACTGGCAA CTCAACCTCA GGTTACAGAT GTGACTAAGG AAGCTATCAC CATCACTTGG 
    AACCCTCCAG CCACAGATGG TGGCTCCCCA GTACAAGGGT ACATTGTAGA AAGAAGGAAG 
    AAAGGCAGCA ATCTTTGGGT CCCAGTCACC AAAGATCCTG TCAAAGATAC CAAATTCAAA 
    GTGGATGGTT TGCTAGAAGA CACAGAATAT GAGTTCCGTG TTACAGCAGT GAACCGTGCA 
    GGGCCAGGAC AACCAAGCAT ACCCTCCAGC TCTGTCGCTG CAAAGGACCC CATCAAACCT 
    CCAGGATTGG TGAAGGGGCT CCACGTTATT GACTCCTGCA ACTCCAGCAT TTCCTTGGCA 
    TGGGAGGAAC CAGATCAAGG GGACTTGCCT TCAGGATACA TACTCGAGAT GCGAGCTGAA 
    GACACCAAGG AATGGACAAA ATGCACAAAA ATCCCAATTT CTGGCACCAT CTACACCGTG 
    GGAGGCCTGC AGGAGAGGCA AAAATATTTC TTCCGCATCC GAGCAGTAAA TGAAGGTGGA 
    GTGGGAGAAC CAGTAGAGCT AGAAGAAGGA GTTTTTGCTA TGCCTCCTCC AGCCCCTCCC 
    AAGTTTGATC TAAGTGCTAG GCTGAAGAAT CACATGGTGG TTCGTGCTGG GACAGCCCTC 
    TCCTTCTTCT CTGGTTCCCC TCCACCATCC GTGACCTGGC AAAAAGATGG AGTTCCCACT 
    AAAGGGCGAG AAAGCATCAC CAAAAGCAAG CATCACTCCC AGTTCCTCAT TCACAGCACC 
    AAGCGTTTTG ATTCTGGTCT GTACCAGATT CTCCTCAGAA ATGACTATGG CGAAGCTCAT 
    TATGACATTC ACGTGCGAGT GGCAGATTTC CCCCGGCCAC CGACTAATCT GCAGCTTGTC 
    GAGGAAGTTC CAAACACAGT GACCCTCAAA TGGGATCATA CCCCAGATGT GATGGATGAT 
    GGACATGCTC ATTATGTCAT CCTGAAACGT GATGCTAGTA CTGCCACTTG GTTCACTGCA 
    GCTGAGAAGG TCTACAGCAA TAAGTACACT GTCACCGGCC TGCTTCCAGG GAGGAAATAT 
    TTCTTCCGAG TTATTGCTCG CAATGACATT GGTGACAGTG ACCCACTGGA TTCCAAAGAT 
    GCCTGGCACA TCAATAAGGA CAAAGAACGT TTTAATTTCA AGATGAAGGA GTATCATGAG 
    AAAGACTGGC GCCATGCTGC CCATTTCATT ACCCCACTGA AGAACCATGC CGTGTGTCGG 
    GGCCATGATT GCACCATGAG CTGTGCTTAC ATCGGCAATC CCCGCCCAAC AGTGACCCTG 
    TACAAGGGCA ACGTGAATAT CACGGCACAC TCAAAATTCT GGTACAACTC AACAAGTGGC 
    GTCTGCACAC TGATGATTCC AACCGTCACC TCTAAGGACA GCGGAGACTA CACCATTGCT 
    ATTGAGAATG AGCTGGGTCA GGAGAAATGC AGCTGCACAT TGACCGTGTA TGATAAAGAT 
    GATAAAAGCC TTCTGGACAC CGTGACAGAA AGTTTTCAGA AATCAAAGCA CATAATGTCA 
    CTAAAGAGCT ACCTTAGAAA TAACCATGGT ACCAACACAA GAGGGTATGG AAAAATGAAT 
    ATGAAAATAT ACGGGAAATA A

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

    RefSeq XP_006022097.1
    CDS1..4041
    Translation

    Target ORF information:

    RefSeq Version XM_006022035.1
    Organism Alligator sinensis(Chinese alligator)
    Definition Alligator sinensis immunoglobulin superfamily, member 22 (IGSF22), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_006022035.1

    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
    ATGGCAACGC AAGTTATGCA CATGAAAAGC ACGATTCAGC AGCATTCCTC CATTGAAGTC 
    TCCAGTTCCC AAACATGCGT GTCTCAATCC AAGATTGTCG AAGAGGAAGT TGTTTCTAGG 
    AAGTCTTCTG CCACTGTGGA GTCCTTCAGC ATGATGACAC GCTCCTTTGA GATCCCTCCA 
    GGAGAGAGTT ACCCAGAATT TGTGGAGAAG CCTCGACCAT TGACAGCCCC TGAAGGTGAT 
    AAAGCAATAT TTCGAGCTAA AATAAAAGGT AACCCTACCC CAAAGGTAAC ATGGAAAAGA 
    GAAAGTGGGA TACCAATAAA AGAAGGATCA AAAATGTTTT TTGACAGCAT CAATAAGGAA 
    TACGTGCTAA AGTTGGAGAG CCTTGGCTCA GAAGATGCAG ATAACTACAA GTGCGTCGTT 
    TCCAACACCC ATGCTGATGC CATCTATACC GTGTCCTTAA TTGTGACTGA AAGTCAAGAA 
    AAGCTGGATT TCAAAAAAAT GCTGAAAAAA AGGGGGCCTC CACCTCCAAA GAAGGCAGTG 
    AAGAAAGTGG TTGATGAAAA AGAAATGCTG GAGATCCTCT CCAAGGTGCC AAAGAAAGAC 
    TTTGAGAAAG TTTGTATGGA ATATGGCTTC ACTGATTTCC GTGGACTTCT CAAAAAGCTA 
    AAAGAAATGA AGAAAAAAGT GGAGGTTGAG GCTGTCAAAA TTCTGAAACC TCTTGAGGAT 
    GTTGCAGCTA AAGTAGACTC CACAGCTGTA TTCGACGCCA TTCTGGAACT GAAGGACCCC 
    AATACAAAGA TGACATGGCT TAAGGGTGAT GAGCCTCTGC GTAGTCAGTA CTCTCTAGGA 
    AAATATGACA TGAAACAAAT GGGCACCAAG TATATGCTGT ACATCACCAA CGTGAATGAA 
    AAGGACCTGG GCACCTACAA ACTTAGTGTT GCAGACAAGA TTCTCTCAGC AGTACTGAAA 
    GTGATAGATG AGCCCCTATC ATTTCTGGCA GAACTGAAAC CACTGAAAGT GACAGAAAGG 
    CAGACAGCTG TGTTTGAAAT TCGCTTATCC AAGAAAGTGC CCAATTTTAC CTGGAAGTTC 
    AATGGGAAAG AGCTGAAACG AGATGACAAA TATGAGATCA TTTCATCTGA TGATGGGCTA 
    ACTCACACAC TAAAAATTAA GGATGTTCGG CCGAGTGACA TTGGTGAGAT CAGCGTTGAA 
    GCTGGAGATC TGGTGCAGAA AGCTCCACTC ATCATAGAGC GAATCCCAAT TAAGTTCATC 
    AGCAATCTGA AGAATGTCCG AGTCAAGGAG AAGGGGAAAG CTTGTCTGGA GTGTGAGCTG 
    ACTTCTAAAG ATGTTACCCT GAAGTGGCTA AAGAATGGGG CAGTGATTCA GAAATCCAAC 
    AAGTACAGCA TGAACCATGA GGGGAAGAGA GCAGAGCTGA TCATTGATGA TGCTGAACTG 
    ACAGACTCAG GGGAGTACAC AGTGATTGCC ATGCAAGACA ATGACCCAAA AGAGTATTAC 
    AGCACTGCCA ATGTAACAGT GGAAGAGAGA TTTGCTACAG TCAAGAGCGG TATGTCTGAT 
    GTTCAGGCTC CAACAGGAGA CCCAGCAGAG CTCTGTGTTG TCCTGAATGA TGAGAAGGTA 
    GAAGGAGTTT GGCTGAAGGA TGGCAAGGAG ATTACAGATA TGAGAGGAAT CCAGATTGTC 
    AAGCAGGGAG CTGTCCACAA ACTGATCATT GACAAAATGG GAGAGAAGTT TGAAGGGAAG 
    TACACATTCA GAGCCAAAGG AGCAGAAAGT GAGGCCACCA TTGCCATTGC AGATCCCCCT 
    GTCATTGATG AATCTGTGCT GGAGATGTTG GCTGCACACC CTGTGACTGT GAAGGCCGGG 
    CATACGGCAA GCATCAAAAT TCCCTTCAAG GCAAAACCAA TGCCAAAGGT CAGCTGGTTC 
    AAAGATGGTA TTGAGGTGAC AGAGGAACAG AAGATTGCAA TGGAAAAGGC GAATGACTAT 
    GCTTTGCTCA CAATAAGCAA CTGTGTGAGA GAAGACAGTG GAAACATTAT GCTGAAGCTG 
    AAAAGTGACT GTGGCTCAGC TGTTGCCAAT CTGTTTCTCA ATGTTCTTGA CAAACCAAAA 
    CCACCTCAAG GAAAAGTGGA ATTTTTGGAG CGGACAGGTA AATGCATCAA AATGAAATGG 
    AAAGCACCCA AAGATAATGG AGGAAAGCAG GTGACACATT TTATCATTGA GAGGAAGATG 
    GTTGGTAAAA AGTCCTGGAT TAAAGTTGGT GAAGTAGAAG GCAAACACAC CATATTTGCC 
    ACCGATAAGG TAGAAGAAGG CAGAGCCTAT CAGTTCAGAA TCCTTGCCGT CAATTCGGAG 
    GGTCTGAGTG AACCACTGGA GACGGAAGAA GTCTTTGCTG GAGAACCTAT TGAGCCTCCT 
    GGACTGGCAA CTCAACCTCA GGTTACAGAT GTGACTAAGG AAGCTATCAC CATCACTTGG 
    AACCCTCCAG CCACAGATGG TGGCTCCCCA GTACAAGGGT ACATTGTAGA AAGAAGGAAG 
    AAAGGCAGCA ATCTTTGGGT CCCAGTCACC AAAGATCCTG TCAAAGATAC CAAATTCAAA 
    GTGGATGGTT TGCTAGAAGA CACAGAATAT GAGTTCCGTG TTACAGCAGT GAACCGTGCA 
    GGGCCAGGAC AACCAAGCAT ACCCTCCAGC TCTGTCGCTG CAAAGGACCC CATCAAACCT 
    CCAGGATTGG TGAAGGGGCT CCACGTTATT GACTCCTGCA ACTCCAGCAT TTCCTTGGCA 
    TGGGAGGAAC CAGATCAAGG GGACTTGCCT TCAGGATACA TACTCGAGAT GCGAGCTGAA 
    GACACCAAGG AATGGACAAA ATGCACAAAA ATCCCAATTT CTGGCACCAT CTACACCGTG 
    GGAGGCCTGC AGGAGAGGCA AAAATATTTC TTCCGCATCC GAGCAGTAAA TGAAGGTGGA 
    GTGGGAGAAC CAGTAGAGCT AGAAGAAGGA GTTTTTGCTA TGCCTCCTCC AGCCCCTCCC 
    AAGTTTGATC TAAGTGCTAG GCTGAAGAAT CACATGGTGG TTCGTGCTGG GACAGCCCTC 
    TCCTTCTTCT CTGGTTCCCC TCCACCATCC GTGACCTGGC AAAAAGATGG AGTTCCCACT 
    AAAGGGCGAG AAAGCATCAC CAAAAGCAAG CATCACTCCC AGTTCCTCAT TCACAGCACC 
    AAGCGTTTTG ATTCTGGTCT GTACCAGATT CTCCTCAGAA ATGACTATGG CGAAGCTCAT 
    TATGACATTC ACGTGCGAGT GGCAGATTTC CCCCGGCCAC CGACTAATCT GCAGCTTGTC 
    GAGGAAGTTC CAAACACAGT GACCCTCAAA TGGGATCATA CCCCAGATGT GATGGATGAT 
    GGACATGCTC ATTATGTCAT CCTGAAACGT GATGCTAGTA CTGCCACTTG GTTCACTGCA 
    GCTGAGAAGG TCTACAGCAA TAAGTACACT GTCACCGGCC TGCTTCCAGG GAGGAAATAT 
    TTCTTCCGAG TTATTGCTCG CAATGACATT GGTGACAGTG ACCCACTGGA TTCCAAAGAT 
    GCCTGGCACA TCAATAAGGA CAAAGAACGT TTTAATTTCA AGATGAAGGA GTATCATGAG 
    AAAGACTGGC GCCATGCTGC CCATTTCATT ACCCCACTGA AGAACCATGC CGTGTGTCGG 
    GGCCATGATT GCACCATGAG CTGTGCTTAC ATCGGCAATC CCCGCCCAAC AGTGACCCTG 
    TACAAGGGCA ACGTGAATAT CACGGCACAC TCAAAATTCT GGTACAACTC AACAAGTGGC 
    GTCTGCACAC TGATGATTCC AACCGTCACC TCTAAGGACA GCGGAGACTA CACCATTGCT 
    ATTGAGAATG AGCTGGGTCA GGAGAAATGC AGCTGCACAT TGACCGTGTA TGATAAAGAT 
    GATAAAAGCC TTCTGGACAC CGTGACAGAA AGTTTTCAGA AATCAAAGCA CATAATGTCA 
    CTAAAGAGCT ACCTTAGAAA TAACCATGGT ACCAACACAA GAGGGTATGG AAAAATGAAT 
    ATGAAAATAT ACGGGAAATA A

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

    IGSF22 ( XM_025202113.1 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_025057898.1 Alligator sinensis immunoglobulin superfamily member 22 (IGSF22), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OAl85634
    Clone ID Related Accession (Same CDS sequence) XM_025202113.1
    Accession Version XM_025202113.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3975bp)
    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 2018-06-03
    Organism Alligator sinensis(Chinese alligator)
    Product immunoglobulin superfamily member 22 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005842015.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Alligator sinensis Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 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
    ATGGCAACGC AAGTTATGCA CATGAAAAGC ACGATTCAGC AGCATTCCTC CATTGAAGTC 
    TCCAGTTCCC AAACATGCGT GTCTCAATCC AAGATTGTCG AAGAGGAAGT TGTTTCTAGG 
    AAGTCTTCTG CCACTGTGGA GTCCTTCAGC ATGATGACAC GCTCCTTTGA GATCCCTCCA 
    GGAGAGAGTT ACCCAGAATT TGTGGAGAAG CCTCGACCAT TGACAGCCCC TGAAGGTGAT 
    AAAGCAATAT TTCGAGCTAA AATAAAAGGT AACCCTACCC CAAAGGTAAC ATGGAAAAGA 
    GAAAGTGGGA TACCAATAAA AGAAGGATCA AAAATGTTTT TTGACAGCAT CAATAAGGAA 
    TACGTGCTAA AGTTGGAGAG CCTTGGCTCA GAAGATGCAG ATAACTACAA GTGCGTCGTT 
    TCCAACACCC ATGCTGATGC CATCTATACC GTGTCCTTAA TTGTGACTGA AAGTCAAGAA 
    AAGCTGGATT TCAAAAAAAT GCTGAAAAAA AGGGGGCCTC CACCTCCAAA GAAGGCAGTG 
    AAGAAAGTGG TTGATGAAAA AGAAATGCTG GAGATCCTCT CCAAGGTGCC AAAGAAAGAC 
    TTTGAGAAAG TTTGTATGGA ATATGGCTTC ACTGATTTCC GTGGACTTCT CAAAAAGCTA 
    AAAGAAATGA AGAAAAAAGT GGAGGTTGAG GCTGTCAAAA TTCTGAAACC TCTTGAGGAT 
    GTTGCAGCTA AAGTAGACTC CACAGCTGTA TTCGACGCCA TTCTGGAACT GAAGGACCCC 
    AATACAAAGA TGACATGGCT TAAGGGTGAT GAGCCTCTGC GTAGTCAGTA CTCTCTAGGA 
    AAATATGACA TGAAACAAAT GGGCACCAAG TATATGCTGT ACATCACCAA CGTGAATGAA 
    AAGGACCTGG GCACCTACAA ACTTAGTGTT GCAGACAAGA TTCTCTCAGC AGTACTGAAA 
    GTGATAGATG AGCCCCTATC ATTTCTGGCA GAACTGAAAC CACTGAAAGT GACAGAAAGG 
    CAGACAGCTG TGTTTGAAAT TCGCTTATCC AAGAAAGTGC CCAATTTTAC CTGGAAGTTC 
    AATGGGAAAG AGCTGAAACG AGATGACAAA TATGAGATCA TTTCATCTGA TGATGGGCTA 
    ACTCACACAC TAAAAATTAA GGATGTTCGG CCGAGTGACA TTGGTGAGAT CAGCGTTGAA 
    GCTGGAGATC TGGTGCAGAA AGCTCCACTC ATCATAGAGC GAATCCCAAT TAAGTTCATC 
    AGCAATCTGA AGAATGTCCG AGTCAAGGAG AAGGGGAAAG CTTGTCTGGA GTGTGAGCTG 
    ACTTCTAAAG ATGTTACCCT GAAGTGGCTA AAGAATGGGG CAGTGATTCA GAAATCCAAC 
    AAGTACAGCA TGAACCATGA GGGGAAGAGA GCAGAGCTGA TCATTGATGA TGCTGAACTG 
    ACAGACTCAG GGGAGTACAC AGTGATTGCC ATGCAAGACA ATGACCCAAA AGAGTATTAC 
    AGCACTGCCA ATGTAACAGT GGAAGAGAGA TTTGCTACAG TCAAGAGCGG TATGTCTGAT 
    GTTCAGGCTC CAACAGGAGA CCCAGCAGAG CTCTGTGTTG TCCTGAATGA TGAGAAGGTA 
    GAAGGAGTTT GGCTGAAGGA TGGCAAGGAG ATTACAGATA TGAGAGGAAT CCAGATTGTC 
    AAGCAGGGAG CTGTCCACAA ACTGATCATT GACAAAATGG GAGAGAAGTT TGAAGGGAAG 
    TACACATTCA GAGCCAAAGG AGCAGAAAGT GAGGCCACCA TTGCCATTGC AGATCCCCCT 
    GTCATTGATG AATCTGTGCT GGAGATGTTG GCTGCACACC CTGTGACTGT GAAGGCCGGG 
    CATACGGCAA GCATCAAAAT TCCCTTCAAG GCAAAACCAA TGCCAAAGGT CAGCTGGTTC 
    AAAGATGGTA TTGAGGTGAC AGAGGAACAG AAGATTGCAA TGGAAAAGGC GAATGACTAT 
    GCTTTGCTCA CAATAAGCAA CTGTGTGAGA GAAGACAGTG GAAACATTAT GCTGAAGCTG 
    AAAAGTGACT GTGGCTCAGC TGTTGCCAAT CTGTTTCTCA ATGTTCTTGA CAAACCAAAA 
    CCACCTCAAG GAAAAGTGGA ATTTTTGGAG CGGACAGGTA AATGCATCAA AATGAAATGG 
    AAAGCACCCA AAGATAATGG AGGAAAGCAG GTGACACATT TTATCATTGA GAGGAAGATG 
    GTTGGTAAAA AGTCCTGGAT TAAAGTTGGT GAAGTAGAAG GCAAACACAC CATATTTGCC 
    ACCGATAAGG TAGAAGAAGG CAGAGCCTAT CAGTTCAGAA TCCTTGCCGT CAATTCGGAG 
    GGTCTGAGTG AACCACTGGA GACGGAAGAA GTCTTTGCTG GAGAACCTAT TGAGCCTCCT 
    GGACTGGCAA CTCAACCTCA GGTTACAGAT GTGACTAAGG AAGCTATCAC CATCACTTGG 
    AACCCTCCAG CCACAGATGG TGGCTCCCCA GTACAAGGGT ACATTGTAGA AAGAAGGAAG 
    AAAGGCAGCA ATCTTTGGGT CCCAGTCACC AAAGATCCTG TCAAAGATAC CAAATTCAAA 
    GTGGATGGTT TGCTAGAAGA CACAGAATAT GAGTTCCGTG TTACAGCAGT GAACCGTGCA 
    GGGCCAGGAC AACCAAGCAT ACCCTCCAGC TCTGTCGCTG CAAAGGACCC CATCAAACCT 
    CCAGGATTGG TGAAGGGGCT CCACGTTATT GACTCCTGCA ACTCCAGCAT TTCCTTGGCA 
    TGGGAGGAAC CAGATCAAGG GGACTTGCCT TCAGGATACA TACTCGAGAT GCGAGCTGAA 
    GACACCAAGG AATGGACAAA ATGCACAAAA ATCCCAATTT CTGGCACCAT CTACACCGTG 
    GGAGGCCTGC AGGAGAGGCA AAAATATTTC TTCCGCATCC GAGCAGTAAA TGAAGGTGGA 
    GTGGGAGAAC CAGTAGAGCT AGAAGAAGGA GTTTTTGCTA TGCCTCCTCC AGCCCCTCCC 
    AAGTTTGATC TAAGTGCTAG GCTGAAGAAT CACATGGTGG TTCGTGCTGG GACAGCCCTC 
    TGCATTCCTG CCTTCTTCTC TGGTTCCCCT CCACCATCCG TGACCTGGCA AAAAGATGGA 
    GTTCCCACTA AAGGGCGAGA AAGCATCACC AAAAGCAAGC ATCACTCCCA GTTCCTCATT 
    CACAGCACCA AGCGTTTTGA TTCTGGTCTG TACCAGATTC TCCTCAGAAA TGACTATGGC 
    GAAGCTCATT ATGACATTCA CGTGCGAGTG GCAGATTTCC CCCGGCCACC GACTAATCTG 
    CAGCTTGTCG AGGAAGTTCC AAACACAGTG ACCCTCAAAT GGGATCATAC CCCAGATGTG 
    ATGGATGATG GACATGCTCA TTATGTCATC CTGAAACGTG ATGCTAGTAC TGCCACTTGG 
    TTCACTGCAG CTGAGAAGGT CTACAGCAAT AAGTACACTG TCACCGGCCT GCTTCCAGGG 
    AGGAAATATT TCTTCCGAGT TATTGCTCGC AATGACATTG GTGACAGTGA CCCACTGGAT 
    TCCAAAGATG CCTGGCACAT CAATAAGGAC AAAGAACGTT TTAATTTCAA GATGAAGGAG 
    TATCATGAGA AAGACTGGCG CCATGCTGCC CATTTCATTA CCCCACTGAA GAACCATGCC 
    GTGTGTCGGG GCCATGATTG CACCATGAGC TGTGCTTACA TCGGCAATCC CCGCCCAACA 
    GTGACCCTGT ACAAGGGCAA CGTGAATATC ACGGCACACT CAAAATTCTG GTACAACTCA 
    ACAAGTGGCG TCTGCACACT GATGATTCCA ACCGTCACCT CTAAGGACAG CGGAGACTAC 
    ACCATTGCTA TTGAGAATGA GCTGGGTCAG GAGAAATGCA GCTGCACATT GACCGTGTAT 
    GATAAAGATG ATAAAAGCCT TCTGGACACC GTGACAGAAA GTTTTCAGAA ATCAAAGCAC 
    ATAATGAATA TATAG

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

    RefSeq XP_025057898.1
    CDS219..4193
    Translation

    Target ORF information:

    RefSeq Version XM_025202113.1
    Organism Alligator sinensis(Chinese alligator)
    Definition Alligator sinensis immunoglobulin superfamily member 22 (IGSF22), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_025202113.1

    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
    ATGGCAACGC AAGTTATGCA CATGAAAAGC ACGATTCAGC AGCATTCCTC CATTGAAGTC 
    TCCAGTTCCC AAACATGCGT GTCTCAATCC AAGATTGTCG AAGAGGAAGT TGTTTCTAGG 
    AAGTCTTCTG CCACTGTGGA GTCCTTCAGC ATGATGACAC GCTCCTTTGA GATCCCTCCA 
    GGAGAGAGTT ACCCAGAATT TGTGGAGAAG CCTCGACCAT TGACAGCCCC TGAAGGTGAT 
    AAAGCAATAT TTCGAGCTAA AATAAAAGGT AACCCTACCC CAAAGGTAAC ATGGAAAAGA 
    GAAAGTGGGA TACCAATAAA AGAAGGATCA AAAATGTTTT TTGACAGCAT CAATAAGGAA 
    TACGTGCTAA AGTTGGAGAG CCTTGGCTCA GAAGATGCAG ATAACTACAA GTGCGTCGTT 
    TCCAACACCC ATGCTGATGC CATCTATACC GTGTCCTTAA TTGTGACTGA AAGTCAAGAA 
    AAGCTGGATT TCAAAAAAAT GCTGAAAAAA AGGGGGCCTC CACCTCCAAA GAAGGCAGTG 
    AAGAAAGTGG TTGATGAAAA AGAAATGCTG GAGATCCTCT CCAAGGTGCC AAAGAAAGAC 
    TTTGAGAAAG TTTGTATGGA ATATGGCTTC ACTGATTTCC GTGGACTTCT CAAAAAGCTA 
    AAAGAAATGA AGAAAAAAGT GGAGGTTGAG GCTGTCAAAA TTCTGAAACC TCTTGAGGAT 
    GTTGCAGCTA AAGTAGACTC CACAGCTGTA TTCGACGCCA TTCTGGAACT GAAGGACCCC 
    AATACAAAGA TGACATGGCT TAAGGGTGAT GAGCCTCTGC GTAGTCAGTA CTCTCTAGGA 
    AAATATGACA TGAAACAAAT GGGCACCAAG TATATGCTGT ACATCACCAA CGTGAATGAA 
    AAGGACCTGG GCACCTACAA ACTTAGTGTT GCAGACAAGA TTCTCTCAGC AGTACTGAAA 
    GTGATAGATG AGCCCCTATC ATTTCTGGCA GAACTGAAAC CACTGAAAGT GACAGAAAGG 
    CAGACAGCTG TGTTTGAAAT TCGCTTATCC AAGAAAGTGC CCAATTTTAC CTGGAAGTTC 
    AATGGGAAAG AGCTGAAACG AGATGACAAA TATGAGATCA TTTCATCTGA TGATGGGCTA 
    ACTCACACAC TAAAAATTAA GGATGTTCGG CCGAGTGACA TTGGTGAGAT CAGCGTTGAA 
    GCTGGAGATC TGGTGCAGAA AGCTCCACTC ATCATAGAGC GAATCCCAAT TAAGTTCATC 
    AGCAATCTGA AGAATGTCCG AGTCAAGGAG AAGGGGAAAG CTTGTCTGGA GTGTGAGCTG 
    ACTTCTAAAG ATGTTACCCT GAAGTGGCTA AAGAATGGGG CAGTGATTCA GAAATCCAAC 
    AAGTACAGCA TGAACCATGA GGGGAAGAGA GCAGAGCTGA TCATTGATGA TGCTGAACTG 
    ACAGACTCAG GGGAGTACAC AGTGATTGCC ATGCAAGACA ATGACCCAAA AGAGTATTAC 
    AGCACTGCCA ATGTAACAGT GGAAGAGAGA TTTGCTACAG TCAAGAGCGG TATGTCTGAT 
    GTTCAGGCTC CAACAGGAGA CCCAGCAGAG CTCTGTGTTG TCCTGAATGA TGAGAAGGTA 
    GAAGGAGTTT GGCTGAAGGA TGGCAAGGAG ATTACAGATA TGAGAGGAAT CCAGATTGTC 
    AAGCAGGGAG CTGTCCACAA ACTGATCATT GACAAAATGG GAGAGAAGTT TGAAGGGAAG 
    TACACATTCA GAGCCAAAGG AGCAGAAAGT GAGGCCACCA TTGCCATTGC AGATCCCCCT 
    GTCATTGATG AATCTGTGCT GGAGATGTTG GCTGCACACC CTGTGACTGT GAAGGCCGGG 
    CATACGGCAA GCATCAAAAT TCCCTTCAAG GCAAAACCAA TGCCAAAGGT CAGCTGGTTC 
    AAAGATGGTA TTGAGGTGAC AGAGGAACAG AAGATTGCAA TGGAAAAGGC GAATGACTAT 
    GCTTTGCTCA CAATAAGCAA CTGTGTGAGA GAAGACAGTG GAAACATTAT GCTGAAGCTG 
    AAAAGTGACT GTGGCTCAGC TGTTGCCAAT CTGTTTCTCA ATGTTCTTGA CAAACCAAAA 
    CCACCTCAAG GAAAAGTGGA ATTTTTGGAG CGGACAGGTA AATGCATCAA AATGAAATGG 
    AAAGCACCCA AAGATAATGG AGGAAAGCAG GTGACACATT TTATCATTGA GAGGAAGATG 
    GTTGGTAAAA AGTCCTGGAT TAAAGTTGGT GAAGTAGAAG GCAAACACAC CATATTTGCC 
    ACCGATAAGG TAGAAGAAGG CAGAGCCTAT CAGTTCAGAA TCCTTGCCGT CAATTCGGAG 
    GGTCTGAGTG AACCACTGGA GACGGAAGAA GTCTTTGCTG GAGAACCTAT TGAGCCTCCT 
    GGACTGGCAA CTCAACCTCA GGTTACAGAT GTGACTAAGG AAGCTATCAC CATCACTTGG 
    AACCCTCCAG CCACAGATGG TGGCTCCCCA GTACAAGGGT ACATTGTAGA AAGAAGGAAG 
    AAAGGCAGCA ATCTTTGGGT CCCAGTCACC AAAGATCCTG TCAAAGATAC CAAATTCAAA 
    GTGGATGGTT TGCTAGAAGA CACAGAATAT GAGTTCCGTG TTACAGCAGT GAACCGTGCA 
    GGGCCAGGAC AACCAAGCAT ACCCTCCAGC TCTGTCGCTG CAAAGGACCC CATCAAACCT 
    CCAGGATTGG TGAAGGGGCT CCACGTTATT GACTCCTGCA ACTCCAGCAT TTCCTTGGCA 
    TGGGAGGAAC CAGATCAAGG GGACTTGCCT TCAGGATACA TACTCGAGAT GCGAGCTGAA 
    GACACCAAGG AATGGACAAA ATGCACAAAA ATCCCAATTT CTGGCACCAT CTACACCGTG 
    GGAGGCCTGC AGGAGAGGCA AAAATATTTC TTCCGCATCC GAGCAGTAAA TGAAGGTGGA 
    GTGGGAGAAC CAGTAGAGCT AGAAGAAGGA GTTTTTGCTA TGCCTCCTCC AGCCCCTCCC 
    AAGTTTGATC TAAGTGCTAG GCTGAAGAAT CACATGGTGG TTCGTGCTGG GACAGCCCTC 
    TGCATTCCTG CCTTCTTCTC TGGTTCCCCT CCACCATCCG TGACCTGGCA AAAAGATGGA 
    GTTCCCACTA AAGGGCGAGA AAGCATCACC AAAAGCAAGC ATCACTCCCA GTTCCTCATT 
    CACAGCACCA AGCGTTTTGA TTCTGGTCTG TACCAGATTC TCCTCAGAAA TGACTATGGC 
    GAAGCTCATT ATGACATTCA CGTGCGAGTG GCAGATTTCC CCCGGCCACC GACTAATCTG 
    CAGCTTGTCG AGGAAGTTCC AAACACAGTG ACCCTCAAAT GGGATCATAC CCCAGATGTG 
    ATGGATGATG GACATGCTCA TTATGTCATC CTGAAACGTG ATGCTAGTAC TGCCACTTGG 
    TTCACTGCAG CTGAGAAGGT CTACAGCAAT AAGTACACTG TCACCGGCCT GCTTCCAGGG 
    AGGAAATATT TCTTCCGAGT TATTGCTCGC AATGACATTG GTGACAGTGA CCCACTGGAT 
    TCCAAAGATG CCTGGCACAT CAATAAGGAC AAAGAACGTT TTAATTTCAA GATGAAGGAG 
    TATCATGAGA AAGACTGGCG CCATGCTGCC CATTTCATTA CCCCACTGAA GAACCATGCC 
    GTGTGTCGGG GCCATGATTG CACCATGAGC TGTGCTTACA TCGGCAATCC CCGCCCAACA 
    GTGACCCTGT ACAAGGGCAA CGTGAATATC ACGGCACACT CAAAATTCTG GTACAACTCA 
    ACAAGTGGCG TCTGCACACT GATGATTCCA ACCGTCACCT CTAAGGACAG CGGAGACTAC 
    ACCATTGCTA TTGAGAATGA GCTGGGTCAG GAGAAATGCA GCTGCACATT GACCGTGTAT 
    GATAAAGATG ATAAAAGCCT TCTGGACACC GTGACAGAAA GTTTTCAGAA ATCAAAGCAC 
    ATAATGAATA TATAG

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

    IGSF22 ( XM_025202114.1 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_025057899.1 Alligator sinensis immunoglobulin superfamily member 22 (IGSF22), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OAl85635
    Clone ID Related Accession (Same CDS sequence) XM_025202114.1
    Accession Version XM_025202114.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3969bp)
    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 2018-06-03
    Organism Alligator sinensis(Chinese alligator)
    Product immunoglobulin superfamily member 22 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005842015.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Alligator sinensis Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 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
    ATGGCAACGC AAGTTATGCA CATGAAAAGC ACGATTCAGC AGCATTCCTC CATTGAAGTC 
    TCCAGTTCCC AAACATGCGT GTCTCAATCC AAGATTGTCG AAGAGGAAGT TGTTTCTAGG 
    AAGTCTTCTG CCACTGTGGA GTCCTTCAGC ATGATGACAC GCTCCTTTGA GATCCCTCCA 
    GGAGAGAGTT ACCCAGAATT TGTGGAGAAG CCTCGACCAT TGACAGCCCC TGAAGGTGAT 
    AAAGCAATAT TTCGAGCTAA AATAAAAGGT AACCCTACCC CAAAGGTAAC ATGGAAAAGA 
    GAAAGTGGGA TACCAATAAA AGAAGGATCA AAAATGTTTT TTGACAGCAT CAATAAGGAA 
    TACGTGCTAA AGTTGGAGAG CCTTGGCTCA GAAGATGCAG ATAACTACAA GTGCGTCGTT 
    TCCAACACCC ATGCTGATGC CATCTATACC GTGTCCTTAA TTGTGACTGA AAGTCAAGAA 
    AAGCTGGATT TCAAAAAAAT GCTGAAAAAA AGGGGGCCTC CACCTCCAAA GAAGGCAGTG 
    AAGAAAGTGG TTGATGAAAA AGAAATGCTG GAGATCCTCT CCAAGGTGCC AAAGAAAGAC 
    TTTGAGAAAG TTTGTATGGA ATATGGCTTC ACTGATTTCC GTGGACTTCT CAAAAAGCTA 
    AAAGAAATGA AGAAAAAAGT GGAGGTTGAG GCTGTCAAAA TTCTGAAACC TCTTGAGGAT 
    GTTGCAGCTA AAGTAGACTC CACAGCTGTA TTCGACGCCA TTCTGGAACT GAAGGACCCC 
    AATACAAAGA TGACATGGCT TAAGGGTGAT GAGCCTCTGC GTAGTCAGTA CTCTCTAGGA 
    AAATATGACA TGAAACAAAT GGGCACCAAG TATATGCTGT ACATCACCAA CGTGAATGAA 
    AAGGACCTGG GCACCTACAA ACTTAGTGTT GCAGACAAGA TTCTCTCAGC AGTACTGAAA 
    GTGATAGATG AGCCCCTATC ATTTCTGGCA GAACTGAAAC CACTGAAAGT GACAGAAAGG 
    CAGACAGCTG TGTTTGAAAT TCGCTTATCC AAGAAAGTGC CCAATTTTAC CTGGAAGTTC 
    AATGGGAAAG AGCTGAAACG AGATGACAAA TATGAGATCA TTTCATCTGA TGATGGGCTA 
    ACTCACACAC TAAAAATTAA GGATGTTCGG CCGAGTGACA TTGGTGAGAT CAGCGTTGAA 
    GCTGGAGATC TGGTGCAGAA AGCTCCACTC ATCATAGAGC GAATCCCAAT TAAGTTCATC 
    AGCAATCTGA AGAATGTCCG AGTCAAGGAG AAGGGGAAAG CTTGTCTGGA GTGTGAGCTG 
    ACTTCTAAAG ATGTTACCCT GAAGTGGCTA AAGAATGGGG CAGTGATTCA GAAATCCAAC 
    AAGTACAGCA TGAACCATGA GGGGAAGAGA GCAGAGCTGA TCATTGATGA TGCTGAACTG 
    ACAGACTCAG GGGAGTACAC AGTGATTGCC ATGCAAGACA ATGACCCAAA AGAGTATTAC 
    AGCACTGCCA ATGTAACAGT GGAAGAGAGA TTTGCTACAG TCAAGAGCGG TATGTCTGAT 
    GTTCAGGCTC CAACAGGAGA CCCAGCAGAG CTCTGTGTTG TCCTGAATGA TGAGAAGGTA 
    GAAGGAGTTT GGCTGAAGGA TGGCAAGGAG ATTACAGATA TGAGAGGAAT CCAGATTGTC 
    AAGCAGGGAG CTGTCCACAA ACTGATCATT GACAAAATGG GAGAGAAGTT TGAAGGGAAG 
    TACACATTCA GAGCCAAAGG AGCAGAAAGT GAGGCCACCA TTGCCATTGC AGATCCCCCT 
    GTCATTGATG AATCTGTGCT GGAGATGTTG GCTGCACACC CTGTGACTGT GAAGGCCGGG 
    CATACGGCAA GCATCAAAAT TCCCTTCAAG GCAAAACCAA TGCCAAAGGT CAGCTGGTTC 
    AAAGATGGTA TTGAGGTGAC AGAGGAACAG AAGATTGCAA TGGAAAAGGC GAATGACTAT 
    GCTTTGCTCA CAATAAGCAA CTGTGTGAGA GAAGACAGTG GAAACATTAT GCTGAAGCTG 
    AAAAGTGACT GTGGCTCAGC TGTTGCCAAT CTGTTTCTCA ATGTTCTTGA CAAACCAAAA 
    CCACCTCAAG GAAAAGTGGA ATTTTTGGAG CGGACAGGTA AATGCATCAA AATGAAATGG 
    AAAGCACCCA AAGATAATGG AGGAAAGCAG GTGACACATT TTATCATTGA GAGGAAGATG 
    GTTGGTAAAA AGTCCTGGAT TAAAGTTGGT GAAGTAGAAG GCAAACACAC CATATTTGCC 
    ACCGATAAGG TAGAAGAAGG CAGAGCCTAT CAGTTCAGAA TCCTTGCCGT CAATTCGGAG 
    GGTCTGAGTG AACCACTGGA GACGGAAGAA GTCTTTGCTG GAGAACCTAT TGAGCCTCCT 
    GGACTGGCAA CTCAACCTCA GGTTACAGAT GTGACTAAGG AAGCTATCAC CATCACTTGG 
    AACCCTCCAG CCACAGATGG TGGCTCCCCA GTACAAGGGT ACATTGTAGA AAGAAGGAAG 
    AAAGGCAGCA ATCTTTGGGT CCCAGTCACC AAAGATCCTG TCAAAGATAC CAAATTCAAA 
    GTGGATGGTT TGCTAGAAGA CACAGAATAT GAGTTCCGTG TTACAGCAGT GAACCGTGCA 
    GGGCCAGGAC AACCAAGCAT ACCCTCCAGC TCTGTCGCTG CAAAGGACCC CATCAAACCT 
    CCAGGATTGG TGAAGGGGCT CCACGTTATT GACTCCTGCA ACTCCAGCAT TTCCTTGGCA 
    TGGGAGGAAC CAGATCAAGG GGACTTGCCT TCAGGATACA TACTCGAGAT GCGAGCTGAA 
    GACACCAAGG AATGGACAAA ATGCACAAAA ATCCCAATTT CTGGCACCAT CTACACCGTG 
    GGAGGCCTGC AGGAGAGGCA AAAATATTTC TTCCGCATCC GAGCAGTAAA TGAAGGTGGA 
    GTGGGAGAAC CAGTAGAGCT AGAAGAAGGA GTTTTTGCTA TGCCTCCTCC AGCCCCTCCC 
    AAGTTTGATC TAAGTGCTAG GCTGAAGAAT CACATGGTGG TTCGTGCTGG GACAGCCCTC 
    TGCATTCCTG CCTTCTTCTC TGGTTCCCCT CCACCATCCG TGACCTGGCA AAAAGATGGA 
    GTTCCCACTA AAGGGCGAGA AAGCATCACC AAAAGCAAGC ATCACTCCCA GTTCCTCATT 
    CACAGCACCA AGCGTTTTGA TTCTGGTCTG TACCAGATTC TCCTCAGAAA TGACTATGGC 
    GAAGCTCATT ATGACATTCA CGTGCGAGTG GCAGATTTCC CCCGGCCACC GACTAATCTG 
    CAGCTTGTCG AGGAAGTTCC AAACACAGTG ACCCTCAAAT GGGATCATAC CCCAGATGTG 
    ATGGATGATG GACATGCTCA TTATGTCATC CTGAAACGTG ATGCTAGTAC TGCCACTTGG 
    TTCACTGCAG CTGAGAAGGT CTACAGCAAT AAGTACACTG TCACCGGCCT GCTTCCAGGG 
    AGGAAATATT TCTTCCGAGT TATTGCTCGC AATGACATTG GTGACAGTGA CCCACTGGAT 
    TCCAAAGATG CCTGGCACAT CAATAAGGAC AAAGAACGTT TTAATTTCAA GATGAAGGAG 
    TATCATGAGA AAGACTGGCG CCATGCTGCC CATTTCATTA CCCCACTGAA GAACCATGCC 
    GTGTGTCGGG GCCATGATTG CACCATGAGC TGTGCTTACA TCGGCAATCC CCGCCCAACA 
    GTGACCCTGT ACAAGGGCAA CGTGAATATC ACGGCACACT CAAAATTCTG GTACAACTCA 
    ACAAGTGGCG TCTGCACACT GATGATTCCA ACCGTCACCT CTAAGGACAG CGGAGACTAC 
    ACCATTGCTA TTGAGAATGA GCTGGGTCAG GAGAAATGCA GCTGCACATT GACCGTGTAT 
    GATAAAGATG ATAAAAGCCT TCTGGACACC GTGACAGAAA GTTTTCAGAA ATCAAAGCAC 
    ATAATGTAA

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

    RefSeq XP_025057899.1
    CDS219..4187
    Translation

    Target ORF information:

    RefSeq Version XM_025202114.1
    Organism Alligator sinensis(Chinese alligator)
    Definition Alligator sinensis immunoglobulin superfamily member 22 (IGSF22), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_025202114.1

    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
    ATGGCAACGC AAGTTATGCA CATGAAAAGC ACGATTCAGC AGCATTCCTC CATTGAAGTC 
    TCCAGTTCCC AAACATGCGT GTCTCAATCC AAGATTGTCG AAGAGGAAGT TGTTTCTAGG 
    AAGTCTTCTG CCACTGTGGA GTCCTTCAGC ATGATGACAC GCTCCTTTGA GATCCCTCCA 
    GGAGAGAGTT ACCCAGAATT TGTGGAGAAG CCTCGACCAT TGACAGCCCC TGAAGGTGAT 
    AAAGCAATAT TTCGAGCTAA AATAAAAGGT AACCCTACCC CAAAGGTAAC ATGGAAAAGA 
    GAAAGTGGGA TACCAATAAA AGAAGGATCA AAAATGTTTT TTGACAGCAT CAATAAGGAA 
    TACGTGCTAA AGTTGGAGAG CCTTGGCTCA GAAGATGCAG ATAACTACAA GTGCGTCGTT 
    TCCAACACCC ATGCTGATGC CATCTATACC GTGTCCTTAA TTGTGACTGA AAGTCAAGAA 
    AAGCTGGATT TCAAAAAAAT GCTGAAAAAA AGGGGGCCTC CACCTCCAAA GAAGGCAGTG 
    AAGAAAGTGG TTGATGAAAA AGAAATGCTG GAGATCCTCT CCAAGGTGCC AAAGAAAGAC 
    TTTGAGAAAG TTTGTATGGA ATATGGCTTC ACTGATTTCC GTGGACTTCT CAAAAAGCTA 
    AAAGAAATGA AGAAAAAAGT GGAGGTTGAG GCTGTCAAAA TTCTGAAACC TCTTGAGGAT 
    GTTGCAGCTA AAGTAGACTC CACAGCTGTA TTCGACGCCA TTCTGGAACT GAAGGACCCC 
    AATACAAAGA TGACATGGCT TAAGGGTGAT GAGCCTCTGC GTAGTCAGTA CTCTCTAGGA 
    AAATATGACA TGAAACAAAT GGGCACCAAG TATATGCTGT ACATCACCAA CGTGAATGAA 
    AAGGACCTGG GCACCTACAA ACTTAGTGTT GCAGACAAGA TTCTCTCAGC AGTACTGAAA 
    GTGATAGATG AGCCCCTATC ATTTCTGGCA GAACTGAAAC CACTGAAAGT GACAGAAAGG 
    CAGACAGCTG TGTTTGAAAT TCGCTTATCC AAGAAAGTGC CCAATTTTAC CTGGAAGTTC 
    AATGGGAAAG AGCTGAAACG AGATGACAAA TATGAGATCA TTTCATCTGA TGATGGGCTA 
    ACTCACACAC TAAAAATTAA GGATGTTCGG CCGAGTGACA TTGGTGAGAT CAGCGTTGAA 
    GCTGGAGATC TGGTGCAGAA AGCTCCACTC ATCATAGAGC GAATCCCAAT TAAGTTCATC 
    AGCAATCTGA AGAATGTCCG AGTCAAGGAG AAGGGGAAAG CTTGTCTGGA GTGTGAGCTG 
    ACTTCTAAAG ATGTTACCCT GAAGTGGCTA AAGAATGGGG CAGTGATTCA GAAATCCAAC 
    AAGTACAGCA TGAACCATGA GGGGAAGAGA GCAGAGCTGA TCATTGATGA TGCTGAACTG 
    ACAGACTCAG GGGAGTACAC AGTGATTGCC ATGCAAGACA ATGACCCAAA AGAGTATTAC 
    AGCACTGCCA ATGTAACAGT GGAAGAGAGA TTTGCTACAG TCAAGAGCGG TATGTCTGAT 
    GTTCAGGCTC CAACAGGAGA CCCAGCAGAG CTCTGTGTTG TCCTGAATGA TGAGAAGGTA 
    GAAGGAGTTT GGCTGAAGGA TGGCAAGGAG ATTACAGATA TGAGAGGAAT CCAGATTGTC 
    AAGCAGGGAG CTGTCCACAA ACTGATCATT GACAAAATGG GAGAGAAGTT TGAAGGGAAG 
    TACACATTCA GAGCCAAAGG AGCAGAAAGT GAGGCCACCA TTGCCATTGC AGATCCCCCT 
    GTCATTGATG AATCTGTGCT GGAGATGTTG GCTGCACACC CTGTGACTGT GAAGGCCGGG 
    CATACGGCAA GCATCAAAAT TCCCTTCAAG GCAAAACCAA TGCCAAAGGT CAGCTGGTTC 
    AAAGATGGTA TTGAGGTGAC AGAGGAACAG AAGATTGCAA TGGAAAAGGC GAATGACTAT 
    GCTTTGCTCA CAATAAGCAA CTGTGTGAGA GAAGACAGTG GAAACATTAT GCTGAAGCTG 
    AAAAGTGACT GTGGCTCAGC TGTTGCCAAT CTGTTTCTCA ATGTTCTTGA CAAACCAAAA 
    CCACCTCAAG GAAAAGTGGA ATTTTTGGAG CGGACAGGTA AATGCATCAA AATGAAATGG 
    AAAGCACCCA AAGATAATGG AGGAAAGCAG GTGACACATT TTATCATTGA GAGGAAGATG 
    GTTGGTAAAA AGTCCTGGAT TAAAGTTGGT GAAGTAGAAG GCAAACACAC CATATTTGCC 
    ACCGATAAGG TAGAAGAAGG CAGAGCCTAT CAGTTCAGAA TCCTTGCCGT CAATTCGGAG 
    GGTCTGAGTG AACCACTGGA GACGGAAGAA GTCTTTGCTG GAGAACCTAT TGAGCCTCCT 
    GGACTGGCAA CTCAACCTCA GGTTACAGAT GTGACTAAGG AAGCTATCAC CATCACTTGG 
    AACCCTCCAG CCACAGATGG TGGCTCCCCA GTACAAGGGT ACATTGTAGA AAGAAGGAAG 
    AAAGGCAGCA ATCTTTGGGT CCCAGTCACC AAAGATCCTG TCAAAGATAC CAAATTCAAA 
    GTGGATGGTT TGCTAGAAGA CACAGAATAT GAGTTCCGTG TTACAGCAGT GAACCGTGCA 
    GGGCCAGGAC AACCAAGCAT ACCCTCCAGC TCTGTCGCTG CAAAGGACCC CATCAAACCT 
    CCAGGATTGG TGAAGGGGCT CCACGTTATT GACTCCTGCA ACTCCAGCAT TTCCTTGGCA 
    TGGGAGGAAC CAGATCAAGG GGACTTGCCT TCAGGATACA TACTCGAGAT GCGAGCTGAA 
    GACACCAAGG AATGGACAAA ATGCACAAAA ATCCCAATTT CTGGCACCAT CTACACCGTG 
    GGAGGCCTGC AGGAGAGGCA AAAATATTTC TTCCGCATCC GAGCAGTAAA TGAAGGTGGA 
    GTGGGAGAAC CAGTAGAGCT AGAAGAAGGA GTTTTTGCTA TGCCTCCTCC AGCCCCTCCC 
    AAGTTTGATC TAAGTGCTAG GCTGAAGAAT CACATGGTGG TTCGTGCTGG GACAGCCCTC 
    TGCATTCCTG CCTTCTTCTC TGGTTCCCCT CCACCATCCG TGACCTGGCA AAAAGATGGA 
    GTTCCCACTA AAGGGCGAGA AAGCATCACC AAAAGCAAGC ATCACTCCCA GTTCCTCATT 
    CACAGCACCA AGCGTTTTGA TTCTGGTCTG TACCAGATTC TCCTCAGAAA TGACTATGGC 
    GAAGCTCATT ATGACATTCA CGTGCGAGTG GCAGATTTCC CCCGGCCACC GACTAATCTG 
    CAGCTTGTCG AGGAAGTTCC AAACACAGTG ACCCTCAAAT GGGATCATAC CCCAGATGTG 
    ATGGATGATG GACATGCTCA TTATGTCATC CTGAAACGTG ATGCTAGTAC TGCCACTTGG 
    TTCACTGCAG CTGAGAAGGT CTACAGCAAT AAGTACACTG TCACCGGCCT GCTTCCAGGG 
    AGGAAATATT TCTTCCGAGT TATTGCTCGC AATGACATTG GTGACAGTGA CCCACTGGAT 
    TCCAAAGATG CCTGGCACAT CAATAAGGAC AAAGAACGTT TTAATTTCAA GATGAAGGAG 
    TATCATGAGA AAGACTGGCG CCATGCTGCC CATTTCATTA CCCCACTGAA GAACCATGCC 
    GTGTGTCGGG GCCATGATTG CACCATGAGC TGTGCTTACA TCGGCAATCC CCGCCCAACA 
    GTGACCCTGT ACAAGGGCAA CGTGAATATC ACGGCACACT CAAAATTCTG GTACAACTCA 
    ACAAGTGGCG TCTGCACACT GATGATTCCA ACCGTCACCT CTAAGGACAG CGGAGACTAC 
    ACCATTGCTA TTGAGAATGA GCTGGGTCAG GAGAAATGCA GCTGCACATT GACCGTGTAT 
    GATAAAGATG ATAAAAGCCT TCTGGACACC GTGACAGAAA GTTTTCAGAA ATCAAAGCAC 
    ATAATGTAA

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

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