ORF » Species Summary » Enhydra lutris kenyoni » LOC111152750 cDNA ORF clone

LOC111152750 cDNA ORF clone, Enhydra lutris kenyoni

The following LOC111152750 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC111152750 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
OEn55957 XM_022511392.1
Latest version!		 Enhydra lutris kenyoni high density lipoprotein binding protein (LOC111152750), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OEn55957 XM_022511549.1
Latest version!		 Enhydra lutris kenyoni high density lipoprotein binding protein (LOC111152750), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OEn55957 XM_022511471.1
Latest version!		 Enhydra lutris kenyoni high density lipoprotein binding protein (LOC111152750), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OEn55958 XM_022511628.1
Latest version!		 Enhydra lutris kenyoni high density lipoprotein binding protein (LOC111152750), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00

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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)
    LOC111152750 ( XM_022511471.1 ) cDNA ORF clone, Enhydra lutris kenyoni -> XP_022367179.1 Enhydra lutris kenyoni high density lipoprotein binding protein (LOC111152750), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OEn55957
    Clone ID Related Accession (Same CDS sequence) XM_022511471.1 , XM_022511392.1 , XM_022511549.1
    Accession Version XM_022511471.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3807bp)
    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 2017-09-19
    Organism Enhydra lutris kenyoni
    Product vigilin isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_019154085.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Enhydra lutris kenyoni Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGAGCTCCG TTGCAGTTTT GACCCAAGAG AGCTTTGCTG AACACCGAAG TGGGCTGGTT 
    CCGCAACAGA TGAAAGTTGC TACTTTAAAT TCAGAAGAGG AGAGCGACCC CCCAACCTAC 
    AAAGATGCCT TTCCTCCACT CCCGGAGAAA TCAGCTTGCT TGGAAAATGC CCAGGAGCCT 
    GCTGGCGCCT GGAGTAACAA GATCCGGCCC ATCAAAGCTT CTGTCATCAC TCAGGTGTTC 
    CATGTACCCC TGGAGGAGAG AAAATACAAG GACATGAACC AGTTTGGAGA AGGTGAACAA 
    GCAAAAATCT GCTTGGAGAT CATGCAGAGG ACTGGTGCCC ATCTGGAGCT GTCTCTTGCC 
    AAAGACCAGG GCCTCTCCAT CATGGTGTCA GGGAAGCTGG ACGCCGTCAT GAAAGCCCGG 
    AAGGACATTG TCGCTAGACT GCAGACTCAG GCCTCAGCGA CTGTAGCCAT TCCCAAAGAA 
    CACCACCGCT TTGTTATTGG CAAAAATGGA GAGAAACTGC AAGACTTGGA GCTCAAAACT 
    GCAACCAAAA TCCAGATCCC ACGCCCAGAC GACGCCAGCA ATCAGATCAG GATCACCGGT 
    ACCAAAGAAG GCATCGAGAA AGCTCGCCAT GAAGTCCTAC TCATCTCTGC TGAGCAGGAC 
    AAACGTGCTG TTGAGAGGCT GGAAGTGGAG AAGGCGTTCC ATCCCTTCAT CGCTGGGCCA 
    TATAACCGAC TTGTTGGCGA GATCATGCAG GAGACAGGAA CACGCATCAA CATCCCCCCA 
    CCCAGTGTCA ACCGGACAGA AATCGTCTTC ACGGGAGAGA AGGAGCAGTT GGCTCAGGCT 
    GTGGCTCGAA TCAAGAAGAT CTACGAGGAG AAGAAAAAGA AGACCACAAC CATCGCCGTG 
    GAGGTGAAGA AATCCCAGCA CAAGTATGTC ATCGGGCCGA AGGGCAATTC CTTACAGGAG 
    ATCCTGGAAA GAACGGGAGT TTCTGTGGAG ATCCCACCGT CAGACAGCAT CTCGGAGACT 
    GTGATACTTC GAGGCGAGCC TGAAAAGCTA GGGCAGGCAC TGACTGAGGT CTATGCCAAG 
    GCCAACAGTT TTACTGTGTC ATCTGTCTCT GCTCCTTCCT GGCTACACCG GTTCATCATC 
    GGCAAAAAGG GGCAGAATCT GGCCAAAATC ACTCAGCAGA TGCCCAAGGT GCACATCGAG 
    TTCACAGAGG GTGAGGACAA GATCACCCTG GAAGGCCCCA CAGAGGATGT AAACGTGGCC 
    CAGGAACAGA TCGAAGCCAT GGTCAAAGAC TTGATTAACC GGATGGACTA CGTGGAAATC 
    AACGTGGACC ACAAGTTCCA CAGACACCTC ATCGGGAAGA GCGGGGCCAA CATAAACAGA 
    ATCAAAGACC AGTATAAGGT GTCCGTGCGC ATCCCTCCTG ACAGTGAGAA GAGCAACCTG 
    ATTCGCATTG AGGGGGACCC GCAGGGTGTA CAGCAGGCCA AGCGGGAGCT GCTGGAGCTC 
    GCCTCTCGGA TGGAAAATGA GCGCACCAAG GATCTGATCA TTGAGCAGAG ATTCCATCGC 
    ACAATCATCG GGCAGAAGGG TGAACGGATC CGTGAAATTC GTGACAAATT CCCAGAGGTT 
    ATCATCAACT TTCCAGACCC AGCACAAAAA AGTGATATTG TTCAACTCCG AGGGCCGAAG 
    AATGAGGTGG AAAAATGCAC AAAATACATG CAGAAGATGG TGGCAGATCT GGTGGAAAAT 
    AGCTATTCAA TTTCTGTTCC GATCTTCAAA CAATTTCACA AGAACATCAT TGGGAAAGGA 
    GGCGCAAACA TTAAAAAGAT TCGGGAAGAA AGCAACACTA AGATCGACCT TCCAGCAGAG 
    AATAGCAATT CAGAGACCAT TGTCATCACA GGCAAGCGAG CCAACTGTGA GGCTGCCCGG 
    AGCCGCATCC TGTCCATCCA GAAAGACCTG GCCAACATAG CCGAGCTGGA GGTCTCGATT 
    CCAGCCAAGC TGCACAACTC CCTCATCGGC ACGAAGGGCC GCTTGATCCG CTCCATCATG 
    GAGGAGTGTG GTGGGGTGCA CATCCACTTC CCGGTGGAGG GCTCGGGAAG TGACACGGTT 
    GTCATCAGGG GCCCTGCCTC AGACGTGGAA AAGGCCAGAA AGCAGCTCCT GCACTTGGCT 
    GAGGAGAAGC AAACCAAGAG TTTTACCGTT GACATCCGCG CAAAGCCAGA ATACCACAAG 
    TTCCTTATTG GCAAAGGGGG TGGCAAAATC CGCAAGGTAC GTGACAACAC GGGAGCCCGC 
    ATCATATTCC CAACGGCCGA GGACAAGGAC CAGGACCTGA TCACCATCAT AGGGAAGGAG 
    GACGCTGTCA GGGAGGCCCA GAGGGAGCTG GAGGCCCTCA TCCAGAACCT GGATAATGTG 
    GTGGAAGACT GCATGTTGGT GGACCCCAAG CACCACCGCC ATTTTGTCAT CCGAAGAGGC 
    CAGGTCTTGC GGGAGATTGC CGAAGAGTAT GGTGGGGTGA TGGTCAGCTT CCCACGCTCG 
    GGCACACAGA GCGATAAGGT CACCCTCAAG GGTGCCAAGG ACTGTGTGGA GGCGGCCAAG 
    AAGCGCATTC AGGAGATCAT CGAGGACCTG GAAGCCCAGG TGACCATAGA ATGTGCCATA 
    CCCCAGAAGT TCCATCGATC TGTCATGGGC CCCAAAGGTT CCAGAATCCA GCAGATTACC 
    CGGGACTATA ATGTTCAGAT TAAGTTCCCA GACAGAGAGG AGAACCCAGT TCACAGCGTA 
    GAGCCGCCAG TCCAAGAGAA CGGCGATGAT GCTGGAGATG GGAGAGACAT CAAGGAGGCT 
    GACCCCGGCT CCCCCAGGCG GTGTGACATC ATCATCATCT CCGGCCGGAA AGAAAAGTGT 
    GAGGCAGCCA AGGAAGCTCT CGAGGCGCTG GTTCCTGTCA CCATCGAAGT GGAAGTGCCC 
    TTTGACCTGC ATCGGTACAT CATTGGGCAG AAGGGGAGTG GTATCCGAAA GATGATGGAC 
    GAGTTTGAGG TGAACATCCA TGTGCCGGCA CCGGAGCTGC AGTCTGACGT CATTGCCATT 
    ACCGGCCTCG CCGCGAATTT GGACCGGGCC AAGGCTGGCT TGCTGGAGCG CGTGAGGGAG 
    CTGCAGGCTG AGCAGGAGGA CCGGGCTTTA AGGAGCTTTA AGCTGAGTGT CACTGTGGAC 
    CCCAAATACC ATCCCAAAAT TATTGGGAGA AAAGGGGCAG TGATTACCCA AATCCGCTTG 
    GAACATGATG TGAACATTCA GTTTCCTGAT AAGGACGATG GGAGCCAGCC CCAGGACCAA 
    ATTACTATCA CAGGGTATGA AAAGAATACA GAAGCTGCCC GGGACGCCAT ATTGAAAATT 
    GTGGGTGAAC TTGAACAAAT GGTTTCTGAG GATGTCCCGC TGGACCACCG TGTTCACGCC 
    CGTATCATTG GCGCCCGTGG AAAAGCCATC CGCAAAATCA TGGATGAATT CAAGGTGGAC 
    ATTCGCTTCC CACAGAGTGG GGCCCCAGAC CCCAACTGCG TCACCGTGAC AGGGCTCCCA 
    GAGAACGTGG AAGAAGCCAT CGATCACATC CTCAACCTAG AGGAGGAATA CTTGGCTGAC 
    GTGGTCGACA GCGAGGCCCT GCAGCTGTAC ATGAAGCCGC CAGCCCATGA GGAGTCCAAA 
    GCGCCATCAA AGGGCTTTGT GGTCCGGGAC GCCCCCTGGA CCGCAAATAG CAGCGAGAAG 
    GCCCCTGACA TGAGCAGCTC CGAAGAGTTT CCCAGCTTTG GGGCTCAGGT GGCCCCCAAG 
    ACCCTCCCAT GGGGCCCCAA ACGATAA

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

    RefSeq XP_022367179.1
    CDS306..4112
    Translation

    Target ORF information:

    RefSeq Version XM_022511471.1
    Organism Enhydra lutris kenyoni
    Definition Enhydra lutris kenyoni high density lipoprotein binding protein (LOC111152750), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_022511471.1

    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
    ATGAGCTCCG TTGCAGTTTT GACCCAAGAG AGCTTTGCTG AACACCGAAG TGGGCTGGTT 
    CCGCAACAGA TGAAAGTTGC TACTTTAAAT TCAGAAGAGG AGAGCGACCC CCCAACCTAC 
    AAAGATGCCT TTCCTCCACT CCCGGAGAAA TCAGCTTGCT TGGAAAATGC CCAGGAGCCT 
    GCTGGCGCCT GGAGTAACAA GATCCGGCCC ATCAAAGCTT CTGTCATCAC TCAGGTGTTC 
    CATGTACCCC TGGAGGAGAG AAAATACAAG GACATGAACC AGTTTGGAGA AGGTGAACAA 
    GCAAAAATCT GCTTGGAGAT CATGCAGAGG ACTGGTGCCC ATCTGGAGCT GTCTCTTGCC 
    AAAGACCAGG GCCTCTCCAT CATGGTGTCA GGGAAGCTGG ACGCCGTCAT GAAAGCCCGG 
    AAGGACATTG TCGCTAGACT GCAGACTCAG GCCTCAGCGA CTGTAGCCAT TCCCAAAGAA 
    CACCACCGCT TTGTTATTGG CAAAAATGGA GAGAAACTGC AAGACTTGGA GCTCAAAACT 
    GCAACCAAAA TCCAGATCCC ACGCCCAGAC GACGCCAGCA ATCAGATCAG GATCACCGGT 
    ACCAAAGAAG GCATCGAGAA AGCTCGCCAT GAAGTCCTAC TCATCTCTGC TGAGCAGGAC 
    AAACGTGCTG TTGAGAGGCT GGAAGTGGAG AAGGCGTTCC ATCCCTTCAT CGCTGGGCCA 
    TATAACCGAC TTGTTGGCGA GATCATGCAG GAGACAGGAA CACGCATCAA CATCCCCCCA 
    CCCAGTGTCA ACCGGACAGA AATCGTCTTC ACGGGAGAGA AGGAGCAGTT GGCTCAGGCT 
    GTGGCTCGAA TCAAGAAGAT CTACGAGGAG AAGAAAAAGA AGACCACAAC CATCGCCGTG 
    GAGGTGAAGA AATCCCAGCA CAAGTATGTC ATCGGGCCGA AGGGCAATTC CTTACAGGAG 
    ATCCTGGAAA GAACGGGAGT TTCTGTGGAG ATCCCACCGT CAGACAGCAT CTCGGAGACT 
    GTGATACTTC GAGGCGAGCC TGAAAAGCTA GGGCAGGCAC TGACTGAGGT CTATGCCAAG 
    GCCAACAGTT TTACTGTGTC ATCTGTCTCT GCTCCTTCCT GGCTACACCG GTTCATCATC 
    GGCAAAAAGG GGCAGAATCT GGCCAAAATC ACTCAGCAGA TGCCCAAGGT GCACATCGAG 
    TTCACAGAGG GTGAGGACAA GATCACCCTG GAAGGCCCCA CAGAGGATGT AAACGTGGCC 
    CAGGAACAGA TCGAAGCCAT GGTCAAAGAC TTGATTAACC GGATGGACTA CGTGGAAATC 
    AACGTGGACC ACAAGTTCCA CAGACACCTC ATCGGGAAGA GCGGGGCCAA CATAAACAGA 
    ATCAAAGACC AGTATAAGGT GTCCGTGCGC ATCCCTCCTG ACAGTGAGAA GAGCAACCTG 
    ATTCGCATTG AGGGGGACCC GCAGGGTGTA CAGCAGGCCA AGCGGGAGCT GCTGGAGCTC 
    GCCTCTCGGA TGGAAAATGA GCGCACCAAG GATCTGATCA TTGAGCAGAG ATTCCATCGC 
    ACAATCATCG GGCAGAAGGG TGAACGGATC CGTGAAATTC GTGACAAATT CCCAGAGGTT 
    ATCATCAACT TTCCAGACCC AGCACAAAAA AGTGATATTG TTCAACTCCG AGGGCCGAAG 
    AATGAGGTGG AAAAATGCAC AAAATACATG CAGAAGATGG TGGCAGATCT GGTGGAAAAT 
    AGCTATTCAA TTTCTGTTCC GATCTTCAAA CAATTTCACA AGAACATCAT TGGGAAAGGA 
    GGCGCAAACA TTAAAAAGAT TCGGGAAGAA AGCAACACTA AGATCGACCT TCCAGCAGAG 
    AATAGCAATT CAGAGACCAT TGTCATCACA GGCAAGCGAG CCAACTGTGA GGCTGCCCGG 
    AGCCGCATCC TGTCCATCCA GAAAGACCTG GCCAACATAG CCGAGCTGGA GGTCTCGATT 
    CCAGCCAAGC TGCACAACTC CCTCATCGGC ACGAAGGGCC GCTTGATCCG CTCCATCATG 
    GAGGAGTGTG GTGGGGTGCA CATCCACTTC CCGGTGGAGG GCTCGGGAAG TGACACGGTT 
    GTCATCAGGG GCCCTGCCTC AGACGTGGAA AAGGCCAGAA AGCAGCTCCT GCACTTGGCT 
    GAGGAGAAGC AAACCAAGAG TTTTACCGTT GACATCCGCG CAAAGCCAGA ATACCACAAG 
    TTCCTTATTG GCAAAGGGGG TGGCAAAATC CGCAAGGTAC GTGACAACAC GGGAGCCCGC 
    ATCATATTCC CAACGGCCGA GGACAAGGAC CAGGACCTGA TCACCATCAT AGGGAAGGAG 
    GACGCTGTCA GGGAGGCCCA GAGGGAGCTG GAGGCCCTCA TCCAGAACCT GGATAATGTG 
    GTGGAAGACT GCATGTTGGT GGACCCCAAG CACCACCGCC ATTTTGTCAT CCGAAGAGGC 
    CAGGTCTTGC GGGAGATTGC CGAAGAGTAT GGTGGGGTGA TGGTCAGCTT CCCACGCTCG 
    GGCACACAGA GCGATAAGGT CACCCTCAAG GGTGCCAAGG ACTGTGTGGA GGCGGCCAAG 
    AAGCGCATTC AGGAGATCAT CGAGGACCTG GAAGCCCAGG TGACCATAGA ATGTGCCATA 
    CCCCAGAAGT TCCATCGATC TGTCATGGGC CCCAAAGGTT CCAGAATCCA GCAGATTACC 
    CGGGACTATA ATGTTCAGAT TAAGTTCCCA GACAGAGAGG AGAACCCAGT TCACAGCGTA 
    GAGCCGCCAG TCCAAGAGAA CGGCGATGAT GCTGGAGATG GGAGAGACAT CAAGGAGGCT 
    GACCCCGGCT CCCCCAGGCG GTGTGACATC ATCATCATCT CCGGCCGGAA AGAAAAGTGT 
    GAGGCAGCCA AGGAAGCTCT CGAGGCGCTG GTTCCTGTCA CCATCGAAGT GGAAGTGCCC 
    TTTGACCTGC ATCGGTACAT CATTGGGCAG AAGGGGAGTG GTATCCGAAA GATGATGGAC 
    GAGTTTGAGG TGAACATCCA TGTGCCGGCA CCGGAGCTGC AGTCTGACGT CATTGCCATT 
    ACCGGCCTCG CCGCGAATTT GGACCGGGCC AAGGCTGGCT TGCTGGAGCG CGTGAGGGAG 
    CTGCAGGCTG AGCAGGAGGA CCGGGCTTTA AGGAGCTTTA AGCTGAGTGT CACTGTGGAC 
    CCCAAATACC ATCCCAAAAT TATTGGGAGA AAAGGGGCAG TGATTACCCA AATCCGCTTG 
    GAACATGATG TGAACATTCA GTTTCCTGAT AAGGACGATG GGAGCCAGCC CCAGGACCAA 
    ATTACTATCA CAGGGTATGA AAAGAATACA GAAGCTGCCC GGGACGCCAT ATTGAAAATT 
    GTGGGTGAAC TTGAACAAAT GGTTTCTGAG GATGTCCCGC TGGACCACCG TGTTCACGCC 
    CGTATCATTG GCGCCCGTGG AAAAGCCATC CGCAAAATCA TGGATGAATT CAAGGTGGAC 
    ATTCGCTTCC CACAGAGTGG GGCCCCAGAC CCCAACTGCG TCACCGTGAC AGGGCTCCCA 
    GAGAACGTGG AAGAAGCCAT CGATCACATC CTCAACCTAG AGGAGGAATA CTTGGCTGAC 
    GTGGTCGACA GCGAGGCCCT GCAGCTGTAC ATGAAGCCGC CAGCCCATGA GGAGTCCAAA 
    GCGCCATCAA AGGGCTTTGT GGTCCGGGAC GCCCCCTGGA CCGCAAATAG CAGCGAGAAG 
    GCCCCTGACA TGAGCAGCTC CGAAGAGTTT CCCAGCTTTG GGGCTCAGGT GGCCCCCAAG 
    ACCCTCCCAT GGGGCCCCAA ACGATAA

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

    LOC111152750 ( XM_022511392.1 ) cDNA ORF clone, Enhydra lutris kenyoni -> XP_022367100.1 Enhydra lutris kenyoni high density lipoprotein binding protein (LOC111152750), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OEn55957
    Clone ID Related Accession (Same CDS sequence) XM_022511471.1 , XM_022511392.1 , XM_022511549.1
    Accession Version XM_022511392.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3807bp)
    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 2017-09-19
    Organism Enhydra lutris kenyoni
    Product vigilin isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_019154085.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Enhydra lutris kenyoni Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGAGCTCCG TTGCAGTTTT GACCCAAGAG AGCTTTGCTG AACACCGAAG TGGGCTGGTT 
    CCGCAACAGA TGAAAGTTGC TACTTTAAAT TCAGAAGAGG AGAGCGACCC CCCAACCTAC 
    AAAGATGCCT TTCCTCCACT CCCGGAGAAA TCAGCTTGCT TGGAAAATGC CCAGGAGCCT 
    GCTGGCGCCT GGAGTAACAA GATCCGGCCC ATCAAAGCTT CTGTCATCAC TCAGGTGTTC 
    CATGTACCCC TGGAGGAGAG AAAATACAAG GACATGAACC AGTTTGGAGA AGGTGAACAA 
    GCAAAAATCT GCTTGGAGAT CATGCAGAGG ACTGGTGCCC ATCTGGAGCT GTCTCTTGCC 
    AAAGACCAGG GCCTCTCCAT CATGGTGTCA GGGAAGCTGG ACGCCGTCAT GAAAGCCCGG 
    AAGGACATTG TCGCTAGACT GCAGACTCAG GCCTCAGCGA CTGTAGCCAT TCCCAAAGAA 
    CACCACCGCT TTGTTATTGG CAAAAATGGA GAGAAACTGC AAGACTTGGA GCTCAAAACT 
    GCAACCAAAA TCCAGATCCC ACGCCCAGAC GACGCCAGCA ATCAGATCAG GATCACCGGT 
    ACCAAAGAAG GCATCGAGAA AGCTCGCCAT GAAGTCCTAC TCATCTCTGC TGAGCAGGAC 
    AAACGTGCTG TTGAGAGGCT GGAAGTGGAG AAGGCGTTCC ATCCCTTCAT CGCTGGGCCA 
    TATAACCGAC TTGTTGGCGA GATCATGCAG GAGACAGGAA CACGCATCAA CATCCCCCCA 
    CCCAGTGTCA ACCGGACAGA AATCGTCTTC ACGGGAGAGA AGGAGCAGTT GGCTCAGGCT 
    GTGGCTCGAA TCAAGAAGAT CTACGAGGAG AAGAAAAAGA AGACCACAAC CATCGCCGTG 
    GAGGTGAAGA AATCCCAGCA CAAGTATGTC ATCGGGCCGA AGGGCAATTC CTTACAGGAG 
    ATCCTGGAAA GAACGGGAGT TTCTGTGGAG ATCCCACCGT CAGACAGCAT CTCGGAGACT 
    GTGATACTTC GAGGCGAGCC TGAAAAGCTA GGGCAGGCAC TGACTGAGGT CTATGCCAAG 
    GCCAACAGTT TTACTGTGTC ATCTGTCTCT GCTCCTTCCT GGCTACACCG GTTCATCATC 
    GGCAAAAAGG GGCAGAATCT GGCCAAAATC ACTCAGCAGA TGCCCAAGGT GCACATCGAG 
    TTCACAGAGG GTGAGGACAA GATCACCCTG GAAGGCCCCA CAGAGGATGT AAACGTGGCC 
    CAGGAACAGA TCGAAGCCAT GGTCAAAGAC TTGATTAACC GGATGGACTA CGTGGAAATC 
    AACGTGGACC ACAAGTTCCA CAGACACCTC ATCGGGAAGA GCGGGGCCAA CATAAACAGA 
    ATCAAAGACC AGTATAAGGT GTCCGTGCGC ATCCCTCCTG ACAGTGAGAA GAGCAACCTG 
    ATTCGCATTG AGGGGGACCC GCAGGGTGTA CAGCAGGCCA AGCGGGAGCT GCTGGAGCTC 
    GCCTCTCGGA TGGAAAATGA GCGCACCAAG GATCTGATCA TTGAGCAGAG ATTCCATCGC 
    ACAATCATCG GGCAGAAGGG TGAACGGATC CGTGAAATTC GTGACAAATT CCCAGAGGTT 
    ATCATCAACT TTCCAGACCC AGCACAAAAA AGTGATATTG TTCAACTCCG AGGGCCGAAG 
    AATGAGGTGG AAAAATGCAC AAAATACATG CAGAAGATGG TGGCAGATCT GGTGGAAAAT 
    AGCTATTCAA TTTCTGTTCC GATCTTCAAA CAATTTCACA AGAACATCAT TGGGAAAGGA 
    GGCGCAAACA TTAAAAAGAT TCGGGAAGAA AGCAACACTA AGATCGACCT TCCAGCAGAG 
    AATAGCAATT CAGAGACCAT TGTCATCACA GGCAAGCGAG CCAACTGTGA GGCTGCCCGG 
    AGCCGCATCC TGTCCATCCA GAAAGACCTG GCCAACATAG CCGAGCTGGA GGTCTCGATT 
    CCAGCCAAGC TGCACAACTC CCTCATCGGC ACGAAGGGCC GCTTGATCCG CTCCATCATG 
    GAGGAGTGTG GTGGGGTGCA CATCCACTTC CCGGTGGAGG GCTCGGGAAG TGACACGGTT 
    GTCATCAGGG GCCCTGCCTC AGACGTGGAA AAGGCCAGAA AGCAGCTCCT GCACTTGGCT 
    GAGGAGAAGC AAACCAAGAG TTTTACCGTT GACATCCGCG CAAAGCCAGA ATACCACAAG 
    TTCCTTATTG GCAAAGGGGG TGGCAAAATC CGCAAGGTAC GTGACAACAC GGGAGCCCGC 
    ATCATATTCC CAACGGCCGA GGACAAGGAC CAGGACCTGA TCACCATCAT AGGGAAGGAG 
    GACGCTGTCA GGGAGGCCCA GAGGGAGCTG GAGGCCCTCA TCCAGAACCT GGATAATGTG 
    GTGGAAGACT GCATGTTGGT GGACCCCAAG CACCACCGCC ATTTTGTCAT CCGAAGAGGC 
    CAGGTCTTGC GGGAGATTGC CGAAGAGTAT GGTGGGGTGA TGGTCAGCTT CCCACGCTCG 
    GGCACACAGA GCGATAAGGT CACCCTCAAG GGTGCCAAGG ACTGTGTGGA GGCGGCCAAG 
    AAGCGCATTC AGGAGATCAT CGAGGACCTG GAAGCCCAGG TGACCATAGA ATGTGCCATA 
    CCCCAGAAGT TCCATCGATC TGTCATGGGC CCCAAAGGTT CCAGAATCCA GCAGATTACC 
    CGGGACTATA ATGTTCAGAT TAAGTTCCCA GACAGAGAGG AGAACCCAGT TCACAGCGTA 
    GAGCCGCCAG TCCAAGAGAA CGGCGATGAT GCTGGAGATG GGAGAGACAT CAAGGAGGCT 
    GACCCCGGCT CCCCCAGGCG GTGTGACATC ATCATCATCT CCGGCCGGAA AGAAAAGTGT 
    GAGGCAGCCA AGGAAGCTCT CGAGGCGCTG GTTCCTGTCA CCATCGAAGT GGAAGTGCCC 
    TTTGACCTGC ATCGGTACAT CATTGGGCAG AAGGGGAGTG GTATCCGAAA GATGATGGAC 
    GAGTTTGAGG TGAACATCCA TGTGCCGGCA CCGGAGCTGC AGTCTGACGT CATTGCCATT 
    ACCGGCCTCG CCGCGAATTT GGACCGGGCC AAGGCTGGCT TGCTGGAGCG CGTGAGGGAG 
    CTGCAGGCTG AGCAGGAGGA CCGGGCTTTA AGGAGCTTTA AGCTGAGTGT CACTGTGGAC 
    CCCAAATACC ATCCCAAAAT TATTGGGAGA AAAGGGGCAG TGATTACCCA AATCCGCTTG 
    GAACATGATG TGAACATTCA GTTTCCTGAT AAGGACGATG GGAGCCAGCC CCAGGACCAA 
    ATTACTATCA CAGGGTATGA AAAGAATACA GAAGCTGCCC GGGACGCCAT ATTGAAAATT 
    GTGGGTGAAC TTGAACAAAT GGTTTCTGAG GATGTCCCGC TGGACCACCG TGTTCACGCC 
    CGTATCATTG GCGCCCGTGG AAAAGCCATC CGCAAAATCA TGGATGAATT CAAGGTGGAC 
    ATTCGCTTCC CACAGAGTGG GGCCCCAGAC CCCAACTGCG TCACCGTGAC AGGGCTCCCA 
    GAGAACGTGG AAGAAGCCAT CGATCACATC CTCAACCTAG AGGAGGAATA CTTGGCTGAC 
    GTGGTCGACA GCGAGGCCCT GCAGCTGTAC ATGAAGCCGC CAGCCCATGA GGAGTCCAAA 
    GCGCCATCAA AGGGCTTTGT GGTCCGGGAC GCCCCCTGGA CCGCAAATAG CAGCGAGAAG 
    GCCCCTGACA TGAGCAGCTC CGAAGAGTTT CCCAGCTTTG GGGCTCAGGT GGCCCCCAAG 
    ACCCTCCCAT GGGGCCCCAA ACGATAA

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

    RefSeq XP_022367100.1
    CDS205..4011
    Translation

    Target ORF information:

    RefSeq Version XM_022511392.1
    Organism Enhydra lutris kenyoni
    Definition Enhydra lutris kenyoni high density lipoprotein binding protein (LOC111152750), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_022511392.1

    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
    ATGAGCTCCG TTGCAGTTTT GACCCAAGAG AGCTTTGCTG AACACCGAAG TGGGCTGGTT 
    CCGCAACAGA TGAAAGTTGC TACTTTAAAT TCAGAAGAGG AGAGCGACCC CCCAACCTAC 
    AAAGATGCCT TTCCTCCACT CCCGGAGAAA TCAGCTTGCT TGGAAAATGC CCAGGAGCCT 
    GCTGGCGCCT GGAGTAACAA GATCCGGCCC ATCAAAGCTT CTGTCATCAC TCAGGTGTTC 
    CATGTACCCC TGGAGGAGAG AAAATACAAG GACATGAACC AGTTTGGAGA AGGTGAACAA 
    GCAAAAATCT GCTTGGAGAT CATGCAGAGG ACTGGTGCCC ATCTGGAGCT GTCTCTTGCC 
    AAAGACCAGG GCCTCTCCAT CATGGTGTCA GGGAAGCTGG ACGCCGTCAT GAAAGCCCGG 
    AAGGACATTG TCGCTAGACT GCAGACTCAG GCCTCAGCGA CTGTAGCCAT TCCCAAAGAA 
    CACCACCGCT TTGTTATTGG CAAAAATGGA GAGAAACTGC AAGACTTGGA GCTCAAAACT 
    GCAACCAAAA TCCAGATCCC ACGCCCAGAC GACGCCAGCA ATCAGATCAG GATCACCGGT 
    ACCAAAGAAG GCATCGAGAA AGCTCGCCAT GAAGTCCTAC TCATCTCTGC TGAGCAGGAC 
    AAACGTGCTG TTGAGAGGCT GGAAGTGGAG AAGGCGTTCC ATCCCTTCAT CGCTGGGCCA 
    TATAACCGAC TTGTTGGCGA GATCATGCAG GAGACAGGAA CACGCATCAA CATCCCCCCA 
    CCCAGTGTCA ACCGGACAGA AATCGTCTTC ACGGGAGAGA AGGAGCAGTT GGCTCAGGCT 
    GTGGCTCGAA TCAAGAAGAT CTACGAGGAG AAGAAAAAGA AGACCACAAC CATCGCCGTG 
    GAGGTGAAGA AATCCCAGCA CAAGTATGTC ATCGGGCCGA AGGGCAATTC CTTACAGGAG 
    ATCCTGGAAA GAACGGGAGT TTCTGTGGAG ATCCCACCGT CAGACAGCAT CTCGGAGACT 
    GTGATACTTC GAGGCGAGCC TGAAAAGCTA GGGCAGGCAC TGACTGAGGT CTATGCCAAG 
    GCCAACAGTT TTACTGTGTC ATCTGTCTCT GCTCCTTCCT GGCTACACCG GTTCATCATC 
    GGCAAAAAGG GGCAGAATCT GGCCAAAATC ACTCAGCAGA TGCCCAAGGT GCACATCGAG 
    TTCACAGAGG GTGAGGACAA GATCACCCTG GAAGGCCCCA CAGAGGATGT AAACGTGGCC 
    CAGGAACAGA TCGAAGCCAT GGTCAAAGAC TTGATTAACC GGATGGACTA CGTGGAAATC 
    AACGTGGACC ACAAGTTCCA CAGACACCTC ATCGGGAAGA GCGGGGCCAA CATAAACAGA 
    ATCAAAGACC AGTATAAGGT GTCCGTGCGC ATCCCTCCTG ACAGTGAGAA GAGCAACCTG 
    ATTCGCATTG AGGGGGACCC GCAGGGTGTA CAGCAGGCCA AGCGGGAGCT GCTGGAGCTC 
    GCCTCTCGGA TGGAAAATGA GCGCACCAAG GATCTGATCA TTGAGCAGAG ATTCCATCGC 
    ACAATCATCG GGCAGAAGGG TGAACGGATC CGTGAAATTC GTGACAAATT CCCAGAGGTT 
    ATCATCAACT TTCCAGACCC AGCACAAAAA AGTGATATTG TTCAACTCCG AGGGCCGAAG 
    AATGAGGTGG AAAAATGCAC AAAATACATG CAGAAGATGG TGGCAGATCT GGTGGAAAAT 
    AGCTATTCAA TTTCTGTTCC GATCTTCAAA CAATTTCACA AGAACATCAT TGGGAAAGGA 
    GGCGCAAACA TTAAAAAGAT TCGGGAAGAA AGCAACACTA AGATCGACCT TCCAGCAGAG 
    AATAGCAATT CAGAGACCAT TGTCATCACA GGCAAGCGAG CCAACTGTGA GGCTGCCCGG 
    AGCCGCATCC TGTCCATCCA GAAAGACCTG GCCAACATAG CCGAGCTGGA GGTCTCGATT 
    CCAGCCAAGC TGCACAACTC CCTCATCGGC ACGAAGGGCC GCTTGATCCG CTCCATCATG 
    GAGGAGTGTG GTGGGGTGCA CATCCACTTC CCGGTGGAGG GCTCGGGAAG TGACACGGTT 
    GTCATCAGGG GCCCTGCCTC AGACGTGGAA AAGGCCAGAA AGCAGCTCCT GCACTTGGCT 
    GAGGAGAAGC AAACCAAGAG TTTTACCGTT GACATCCGCG CAAAGCCAGA ATACCACAAG 
    TTCCTTATTG GCAAAGGGGG TGGCAAAATC CGCAAGGTAC GTGACAACAC GGGAGCCCGC 
    ATCATATTCC CAACGGCCGA GGACAAGGAC CAGGACCTGA TCACCATCAT AGGGAAGGAG 
    GACGCTGTCA GGGAGGCCCA GAGGGAGCTG GAGGCCCTCA TCCAGAACCT GGATAATGTG 
    GTGGAAGACT GCATGTTGGT GGACCCCAAG CACCACCGCC ATTTTGTCAT CCGAAGAGGC 
    CAGGTCTTGC GGGAGATTGC CGAAGAGTAT GGTGGGGTGA TGGTCAGCTT CCCACGCTCG 
    GGCACACAGA GCGATAAGGT CACCCTCAAG GGTGCCAAGG ACTGTGTGGA GGCGGCCAAG 
    AAGCGCATTC AGGAGATCAT CGAGGACCTG GAAGCCCAGG TGACCATAGA ATGTGCCATA 
    CCCCAGAAGT TCCATCGATC TGTCATGGGC CCCAAAGGTT CCAGAATCCA GCAGATTACC 
    CGGGACTATA ATGTTCAGAT TAAGTTCCCA GACAGAGAGG AGAACCCAGT TCACAGCGTA 
    GAGCCGCCAG TCCAAGAGAA CGGCGATGAT GCTGGAGATG GGAGAGACAT CAAGGAGGCT 
    GACCCCGGCT CCCCCAGGCG GTGTGACATC ATCATCATCT CCGGCCGGAA AGAAAAGTGT 
    GAGGCAGCCA AGGAAGCTCT CGAGGCGCTG GTTCCTGTCA CCATCGAAGT GGAAGTGCCC 
    TTTGACCTGC ATCGGTACAT CATTGGGCAG AAGGGGAGTG GTATCCGAAA GATGATGGAC 
    GAGTTTGAGG TGAACATCCA TGTGCCGGCA CCGGAGCTGC AGTCTGACGT CATTGCCATT 
    ACCGGCCTCG CCGCGAATTT GGACCGGGCC AAGGCTGGCT TGCTGGAGCG CGTGAGGGAG 
    CTGCAGGCTG AGCAGGAGGA CCGGGCTTTA AGGAGCTTTA AGCTGAGTGT CACTGTGGAC 
    CCCAAATACC ATCCCAAAAT TATTGGGAGA AAAGGGGCAG TGATTACCCA AATCCGCTTG 
    GAACATGATG TGAACATTCA GTTTCCTGAT AAGGACGATG GGAGCCAGCC CCAGGACCAA 
    ATTACTATCA CAGGGTATGA AAAGAATACA GAAGCTGCCC GGGACGCCAT ATTGAAAATT 
    GTGGGTGAAC TTGAACAAAT GGTTTCTGAG GATGTCCCGC TGGACCACCG TGTTCACGCC 
    CGTATCATTG GCGCCCGTGG AAAAGCCATC CGCAAAATCA TGGATGAATT CAAGGTGGAC 
    ATTCGCTTCC CACAGAGTGG GGCCCCAGAC CCCAACTGCG TCACCGTGAC AGGGCTCCCA 
    GAGAACGTGG AAGAAGCCAT CGATCACATC CTCAACCTAG AGGAGGAATA CTTGGCTGAC 
    GTGGTCGACA GCGAGGCCCT GCAGCTGTAC ATGAAGCCGC CAGCCCATGA GGAGTCCAAA 
    GCGCCATCAA AGGGCTTTGT GGTCCGGGAC GCCCCCTGGA CCGCAAATAG CAGCGAGAAG 
    GCCCCTGACA TGAGCAGCTC CGAAGAGTTT CCCAGCTTTG GGGCTCAGGT GGCCCCCAAG 
    ACCCTCCCAT GGGGCCCCAA ACGATAA

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

    LOC111152750 ( XM_022511549.1 ) cDNA ORF clone, Enhydra lutris kenyoni -> XP_022367257.1 Enhydra lutris kenyoni high density lipoprotein binding protein (LOC111152750), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OEn55957
    Clone ID Related Accession (Same CDS sequence) XM_022511471.1 , XM_022511392.1 , XM_022511549.1
    Accession Version XM_022511549.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3807bp)
    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 2017-09-19
    Organism Enhydra lutris kenyoni
    Product vigilin isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_019154085.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Enhydra lutris kenyoni Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGAGCTCCG TTGCAGTTTT GACCCAAGAG AGCTTTGCTG AACACCGAAG TGGGCTGGTT 
    CCGCAACAGA TGAAAGTTGC TACTTTAAAT TCAGAAGAGG AGAGCGACCC CCCAACCTAC 
    AAAGATGCCT TTCCTCCACT CCCGGAGAAA TCAGCTTGCT TGGAAAATGC CCAGGAGCCT 
    GCTGGCGCCT GGAGTAACAA GATCCGGCCC ATCAAAGCTT CTGTCATCAC TCAGGTGTTC 
    CATGTACCCC TGGAGGAGAG AAAATACAAG GACATGAACC AGTTTGGAGA AGGTGAACAA 
    GCAAAAATCT GCTTGGAGAT CATGCAGAGG ACTGGTGCCC ATCTGGAGCT GTCTCTTGCC 
    AAAGACCAGG GCCTCTCCAT CATGGTGTCA GGGAAGCTGG ACGCCGTCAT GAAAGCCCGG 
    AAGGACATTG TCGCTAGACT GCAGACTCAG GCCTCAGCGA CTGTAGCCAT TCCCAAAGAA 
    CACCACCGCT TTGTTATTGG CAAAAATGGA GAGAAACTGC AAGACTTGGA GCTCAAAACT 
    GCAACCAAAA TCCAGATCCC ACGCCCAGAC GACGCCAGCA ATCAGATCAG GATCACCGGT 
    ACCAAAGAAG GCATCGAGAA AGCTCGCCAT GAAGTCCTAC TCATCTCTGC TGAGCAGGAC 
    AAACGTGCTG TTGAGAGGCT GGAAGTGGAG AAGGCGTTCC ATCCCTTCAT CGCTGGGCCA 
    TATAACCGAC TTGTTGGCGA GATCATGCAG GAGACAGGAA CACGCATCAA CATCCCCCCA 
    CCCAGTGTCA ACCGGACAGA AATCGTCTTC ACGGGAGAGA AGGAGCAGTT GGCTCAGGCT 
    GTGGCTCGAA TCAAGAAGAT CTACGAGGAG AAGAAAAAGA AGACCACAAC CATCGCCGTG 
    GAGGTGAAGA AATCCCAGCA CAAGTATGTC ATCGGGCCGA AGGGCAATTC CTTACAGGAG 
    ATCCTGGAAA GAACGGGAGT TTCTGTGGAG ATCCCACCGT CAGACAGCAT CTCGGAGACT 
    GTGATACTTC GAGGCGAGCC TGAAAAGCTA GGGCAGGCAC TGACTGAGGT CTATGCCAAG 
    GCCAACAGTT TTACTGTGTC ATCTGTCTCT GCTCCTTCCT GGCTACACCG GTTCATCATC 
    GGCAAAAAGG GGCAGAATCT GGCCAAAATC ACTCAGCAGA TGCCCAAGGT GCACATCGAG 
    TTCACAGAGG GTGAGGACAA GATCACCCTG GAAGGCCCCA CAGAGGATGT AAACGTGGCC 
    CAGGAACAGA TCGAAGCCAT GGTCAAAGAC TTGATTAACC GGATGGACTA CGTGGAAATC 
    AACGTGGACC ACAAGTTCCA CAGACACCTC ATCGGGAAGA GCGGGGCCAA CATAAACAGA 
    ATCAAAGACC AGTATAAGGT GTCCGTGCGC ATCCCTCCTG ACAGTGAGAA GAGCAACCTG 
    ATTCGCATTG AGGGGGACCC GCAGGGTGTA CAGCAGGCCA AGCGGGAGCT GCTGGAGCTC 
    GCCTCTCGGA TGGAAAATGA GCGCACCAAG GATCTGATCA TTGAGCAGAG ATTCCATCGC 
    ACAATCATCG GGCAGAAGGG TGAACGGATC CGTGAAATTC GTGACAAATT CCCAGAGGTT 
    ATCATCAACT TTCCAGACCC AGCACAAAAA AGTGATATTG TTCAACTCCG AGGGCCGAAG 
    AATGAGGTGG AAAAATGCAC AAAATACATG CAGAAGATGG TGGCAGATCT GGTGGAAAAT 
    AGCTATTCAA TTTCTGTTCC GATCTTCAAA CAATTTCACA AGAACATCAT TGGGAAAGGA 
    GGCGCAAACA TTAAAAAGAT TCGGGAAGAA AGCAACACTA AGATCGACCT TCCAGCAGAG 
    AATAGCAATT CAGAGACCAT TGTCATCACA GGCAAGCGAG CCAACTGTGA GGCTGCCCGG 
    AGCCGCATCC TGTCCATCCA GAAAGACCTG GCCAACATAG CCGAGCTGGA GGTCTCGATT 
    CCAGCCAAGC TGCACAACTC CCTCATCGGC ACGAAGGGCC GCTTGATCCG CTCCATCATG 
    GAGGAGTGTG GTGGGGTGCA CATCCACTTC CCGGTGGAGG GCTCGGGAAG TGACACGGTT 
    GTCATCAGGG GCCCTGCCTC AGACGTGGAA AAGGCCAGAA AGCAGCTCCT GCACTTGGCT 
    GAGGAGAAGC AAACCAAGAG TTTTACCGTT GACATCCGCG CAAAGCCAGA ATACCACAAG 
    TTCCTTATTG GCAAAGGGGG TGGCAAAATC CGCAAGGTAC GTGACAACAC GGGAGCCCGC 
    ATCATATTCC CAACGGCCGA GGACAAGGAC CAGGACCTGA TCACCATCAT AGGGAAGGAG 
    GACGCTGTCA GGGAGGCCCA GAGGGAGCTG GAGGCCCTCA TCCAGAACCT GGATAATGTG 
    GTGGAAGACT GCATGTTGGT GGACCCCAAG CACCACCGCC ATTTTGTCAT CCGAAGAGGC 
    CAGGTCTTGC GGGAGATTGC CGAAGAGTAT GGTGGGGTGA TGGTCAGCTT CCCACGCTCG 
    GGCACACAGA GCGATAAGGT CACCCTCAAG GGTGCCAAGG ACTGTGTGGA GGCGGCCAAG 
    AAGCGCATTC AGGAGATCAT CGAGGACCTG GAAGCCCAGG TGACCATAGA ATGTGCCATA 
    CCCCAGAAGT TCCATCGATC TGTCATGGGC CCCAAAGGTT CCAGAATCCA GCAGATTACC 
    CGGGACTATA ATGTTCAGAT TAAGTTCCCA GACAGAGAGG AGAACCCAGT TCACAGCGTA 
    GAGCCGCCAG TCCAAGAGAA CGGCGATGAT GCTGGAGATG GGAGAGACAT CAAGGAGGCT 
    GACCCCGGCT CCCCCAGGCG GTGTGACATC ATCATCATCT CCGGCCGGAA AGAAAAGTGT 
    GAGGCAGCCA AGGAAGCTCT CGAGGCGCTG GTTCCTGTCA CCATCGAAGT GGAAGTGCCC 
    TTTGACCTGC ATCGGTACAT CATTGGGCAG AAGGGGAGTG GTATCCGAAA GATGATGGAC 
    GAGTTTGAGG TGAACATCCA TGTGCCGGCA CCGGAGCTGC AGTCTGACGT CATTGCCATT 
    ACCGGCCTCG CCGCGAATTT GGACCGGGCC AAGGCTGGCT TGCTGGAGCG CGTGAGGGAG 
    CTGCAGGCTG AGCAGGAGGA CCGGGCTTTA AGGAGCTTTA AGCTGAGTGT CACTGTGGAC 
    CCCAAATACC ATCCCAAAAT TATTGGGAGA AAAGGGGCAG TGATTACCCA AATCCGCTTG 
    GAACATGATG TGAACATTCA GTTTCCTGAT AAGGACGATG GGAGCCAGCC CCAGGACCAA 
    ATTACTATCA CAGGGTATGA AAAGAATACA GAAGCTGCCC GGGACGCCAT ATTGAAAATT 
    GTGGGTGAAC TTGAACAAAT GGTTTCTGAG GATGTCCCGC TGGACCACCG TGTTCACGCC 
    CGTATCATTG GCGCCCGTGG AAAAGCCATC CGCAAAATCA TGGATGAATT CAAGGTGGAC 
    ATTCGCTTCC CACAGAGTGG GGCCCCAGAC CCCAACTGCG TCACCGTGAC AGGGCTCCCA 
    GAGAACGTGG AAGAAGCCAT CGATCACATC CTCAACCTAG AGGAGGAATA CTTGGCTGAC 
    GTGGTCGACA GCGAGGCCCT GCAGCTGTAC ATGAAGCCGC CAGCCCATGA GGAGTCCAAA 
    GCGCCATCAA AGGGCTTTGT GGTCCGGGAC GCCCCCTGGA CCGCAAATAG CAGCGAGAAG 
    GCCCCTGACA TGAGCAGCTC CGAAGAGTTT CCCAGCTTTG GGGCTCAGGT GGCCCCCAAG 
    ACCCTCCCAT GGGGCCCCAA ACGATAA

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

    RefSeq XP_022367257.1
    CDS96..3902
    Translation

    Target ORF information:

    RefSeq Version XM_022511549.1
    Organism Enhydra lutris kenyoni
    Definition Enhydra lutris kenyoni high density lipoprotein binding protein (LOC111152750), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_022511549.1

    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
    ATGAGCTCCG TTGCAGTTTT GACCCAAGAG AGCTTTGCTG AACACCGAAG TGGGCTGGTT 
    CCGCAACAGA TGAAAGTTGC TACTTTAAAT TCAGAAGAGG AGAGCGACCC CCCAACCTAC 
    AAAGATGCCT TTCCTCCACT CCCGGAGAAA TCAGCTTGCT TGGAAAATGC CCAGGAGCCT 
    GCTGGCGCCT GGAGTAACAA GATCCGGCCC ATCAAAGCTT CTGTCATCAC TCAGGTGTTC 
    CATGTACCCC TGGAGGAGAG AAAATACAAG GACATGAACC AGTTTGGAGA AGGTGAACAA 
    GCAAAAATCT GCTTGGAGAT CATGCAGAGG ACTGGTGCCC ATCTGGAGCT GTCTCTTGCC 
    AAAGACCAGG GCCTCTCCAT CATGGTGTCA GGGAAGCTGG ACGCCGTCAT GAAAGCCCGG 
    AAGGACATTG TCGCTAGACT GCAGACTCAG GCCTCAGCGA CTGTAGCCAT TCCCAAAGAA 
    CACCACCGCT TTGTTATTGG CAAAAATGGA GAGAAACTGC AAGACTTGGA GCTCAAAACT 
    GCAACCAAAA TCCAGATCCC ACGCCCAGAC GACGCCAGCA ATCAGATCAG GATCACCGGT 
    ACCAAAGAAG GCATCGAGAA AGCTCGCCAT GAAGTCCTAC TCATCTCTGC TGAGCAGGAC 
    AAACGTGCTG TTGAGAGGCT GGAAGTGGAG AAGGCGTTCC ATCCCTTCAT CGCTGGGCCA 
    TATAACCGAC TTGTTGGCGA GATCATGCAG GAGACAGGAA CACGCATCAA CATCCCCCCA 
    CCCAGTGTCA ACCGGACAGA AATCGTCTTC ACGGGAGAGA AGGAGCAGTT GGCTCAGGCT 
    GTGGCTCGAA TCAAGAAGAT CTACGAGGAG AAGAAAAAGA AGACCACAAC CATCGCCGTG 
    GAGGTGAAGA AATCCCAGCA CAAGTATGTC ATCGGGCCGA AGGGCAATTC CTTACAGGAG 
    ATCCTGGAAA GAACGGGAGT TTCTGTGGAG ATCCCACCGT CAGACAGCAT CTCGGAGACT 
    GTGATACTTC GAGGCGAGCC TGAAAAGCTA GGGCAGGCAC TGACTGAGGT CTATGCCAAG 
    GCCAACAGTT TTACTGTGTC ATCTGTCTCT GCTCCTTCCT GGCTACACCG GTTCATCATC 
    GGCAAAAAGG GGCAGAATCT GGCCAAAATC ACTCAGCAGA TGCCCAAGGT GCACATCGAG 
    TTCACAGAGG GTGAGGACAA GATCACCCTG GAAGGCCCCA CAGAGGATGT AAACGTGGCC 
    CAGGAACAGA TCGAAGCCAT GGTCAAAGAC TTGATTAACC GGATGGACTA CGTGGAAATC 
    AACGTGGACC ACAAGTTCCA CAGACACCTC ATCGGGAAGA GCGGGGCCAA CATAAACAGA 
    ATCAAAGACC AGTATAAGGT GTCCGTGCGC ATCCCTCCTG ACAGTGAGAA GAGCAACCTG 
    ATTCGCATTG AGGGGGACCC GCAGGGTGTA CAGCAGGCCA AGCGGGAGCT GCTGGAGCTC 
    GCCTCTCGGA TGGAAAATGA GCGCACCAAG GATCTGATCA TTGAGCAGAG ATTCCATCGC 
    ACAATCATCG GGCAGAAGGG TGAACGGATC CGTGAAATTC GTGACAAATT CCCAGAGGTT 
    ATCATCAACT TTCCAGACCC AGCACAAAAA AGTGATATTG TTCAACTCCG AGGGCCGAAG 
    AATGAGGTGG AAAAATGCAC AAAATACATG CAGAAGATGG TGGCAGATCT GGTGGAAAAT 
    AGCTATTCAA TTTCTGTTCC GATCTTCAAA CAATTTCACA AGAACATCAT TGGGAAAGGA 
    GGCGCAAACA TTAAAAAGAT TCGGGAAGAA AGCAACACTA AGATCGACCT TCCAGCAGAG 
    AATAGCAATT CAGAGACCAT TGTCATCACA GGCAAGCGAG CCAACTGTGA GGCTGCCCGG 
    AGCCGCATCC TGTCCATCCA GAAAGACCTG GCCAACATAG CCGAGCTGGA GGTCTCGATT 
    CCAGCCAAGC TGCACAACTC CCTCATCGGC ACGAAGGGCC GCTTGATCCG CTCCATCATG 
    GAGGAGTGTG GTGGGGTGCA CATCCACTTC CCGGTGGAGG GCTCGGGAAG TGACACGGTT 
    GTCATCAGGG GCCCTGCCTC AGACGTGGAA AAGGCCAGAA AGCAGCTCCT GCACTTGGCT 
    GAGGAGAAGC AAACCAAGAG TTTTACCGTT GACATCCGCG CAAAGCCAGA ATACCACAAG 
    TTCCTTATTG GCAAAGGGGG TGGCAAAATC CGCAAGGTAC GTGACAACAC GGGAGCCCGC 
    ATCATATTCC CAACGGCCGA GGACAAGGAC CAGGACCTGA TCACCATCAT AGGGAAGGAG 
    GACGCTGTCA GGGAGGCCCA GAGGGAGCTG GAGGCCCTCA TCCAGAACCT GGATAATGTG 
    GTGGAAGACT GCATGTTGGT GGACCCCAAG CACCACCGCC ATTTTGTCAT CCGAAGAGGC 
    CAGGTCTTGC GGGAGATTGC CGAAGAGTAT GGTGGGGTGA TGGTCAGCTT CCCACGCTCG 
    GGCACACAGA GCGATAAGGT CACCCTCAAG GGTGCCAAGG ACTGTGTGGA GGCGGCCAAG 
    AAGCGCATTC AGGAGATCAT CGAGGACCTG GAAGCCCAGG TGACCATAGA ATGTGCCATA 
    CCCCAGAAGT TCCATCGATC TGTCATGGGC CCCAAAGGTT CCAGAATCCA GCAGATTACC 
    CGGGACTATA ATGTTCAGAT TAAGTTCCCA GACAGAGAGG AGAACCCAGT TCACAGCGTA 
    GAGCCGCCAG TCCAAGAGAA CGGCGATGAT GCTGGAGATG GGAGAGACAT CAAGGAGGCT 
    GACCCCGGCT CCCCCAGGCG GTGTGACATC ATCATCATCT CCGGCCGGAA AGAAAAGTGT 
    GAGGCAGCCA AGGAAGCTCT CGAGGCGCTG GTTCCTGTCA CCATCGAAGT GGAAGTGCCC 
    TTTGACCTGC ATCGGTACAT CATTGGGCAG AAGGGGAGTG GTATCCGAAA GATGATGGAC 
    GAGTTTGAGG TGAACATCCA TGTGCCGGCA CCGGAGCTGC AGTCTGACGT CATTGCCATT 
    ACCGGCCTCG CCGCGAATTT GGACCGGGCC AAGGCTGGCT TGCTGGAGCG CGTGAGGGAG 
    CTGCAGGCTG AGCAGGAGGA CCGGGCTTTA AGGAGCTTTA AGCTGAGTGT CACTGTGGAC 
    CCCAAATACC ATCCCAAAAT TATTGGGAGA AAAGGGGCAG TGATTACCCA AATCCGCTTG 
    GAACATGATG TGAACATTCA GTTTCCTGAT AAGGACGATG GGAGCCAGCC CCAGGACCAA 
    ATTACTATCA CAGGGTATGA AAAGAATACA GAAGCTGCCC GGGACGCCAT ATTGAAAATT 
    GTGGGTGAAC TTGAACAAAT GGTTTCTGAG GATGTCCCGC TGGACCACCG TGTTCACGCC 
    CGTATCATTG GCGCCCGTGG AAAAGCCATC CGCAAAATCA TGGATGAATT CAAGGTGGAC 
    ATTCGCTTCC CACAGAGTGG GGCCCCAGAC CCCAACTGCG TCACCGTGAC AGGGCTCCCA 
    GAGAACGTGG AAGAAGCCAT CGATCACATC CTCAACCTAG AGGAGGAATA CTTGGCTGAC 
    GTGGTCGACA GCGAGGCCCT GCAGCTGTAC ATGAAGCCGC CAGCCCATGA GGAGTCCAAA 
    GCGCCATCAA AGGGCTTTGT GGTCCGGGAC GCCCCCTGGA CCGCAAATAG CAGCGAGAAG 
    GCCCCTGACA TGAGCAGCTC CGAAGAGTTT CCCAGCTTTG GGGCTCAGGT GGCCCCCAAG 
    ACCCTCCCAT GGGGCCCCAA ACGATAA

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

    LOC111152750 ( XM_022511628.1 ) cDNA ORF clone, Enhydra lutris kenyoni -> XP_022367336.1 Enhydra lutris kenyoni high density lipoprotein binding protein (LOC111152750), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OEn55958
    Clone ID Related Accession (Same CDS sequence) XM_022511628.1
    Accession Version XM_022511628.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3600bp)
    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 2017-09-19
    Organism Enhydra lutris kenyoni
    Product vigilin isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_019154085.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Enhydra lutris kenyoni Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    ATGAGCTCCG TTGCAGTTTT GACCCAAGAG AGCTTTGCTG AACACCGAAG TGGGCTGGTT 
    CCGCAACAGA TGAAAGTTGC TACTTTAAAT TCAGAAGAGG AGAGCGACCC CCCAACCTAC 
    AAAGATGCCT TTCCTCCACT CCCGGAGAAA TCAGCTTGCT TGGAAAATGC CCAGGAGCCT 
    GCTGGCGCCT GGAGTAACAA GATCCGGCCC ATCAAAGCTT CTGTCATCAC TCAGGTGTTC 
    CATGTACCCC TGGAGGAGAG AAAATACAAG GACATGAACC AGTTTGGAGA AGGTGAACAA 
    GCAAAAATCT GCTTGGAGAT CATGCAGAGG ACTGGTGCCC ATCTGGAGCT GTCTCTTGCC 
    AAAGACCAGG GCCTCTCCAT CATGGTGTCA GGGAAGCTGG ACGCCGTCAT GAAAGCCCGG 
    AAGGACATTG TCGCTAGACT GCAGACTCAG GCCTCAGCGA CTGTAGCCAT TCCCAAAGAA 
    CACCACCGCT TTGTTATTGG CAAAAATGGA GAGAAACTGC AAGACTTGGA GCTCAAAACT 
    GCAACCAAAA TCCAGATCCC ACGCCCAGAC GACGCCAGCA ATCAGATCAG GATCACCGGT 
    ACCAAAGAAG GCATCGAGAA AGCTCGCCAT GAAGTCCTAC TCATCTCTGC TGAGCAGGAC 
    AAACGTGCTG TTGAGAGGCT GGAAGTGGAG AAGGCGTTCC ATCCCTTCAT CGCTGGGCCA 
    TATAACCGAC TTGTTGGCGA GATCATGCAG GAGACAGGAA CACGCATCAA CATCCCCCCA 
    CCCAGTGTCA ACCGGACAGA AATCGTCTTC ACGGGAGAGA AGGAGCAGTT GGCTCAGGCT 
    GTGGCTCGAA TCAAGAAGAT CTACGAGGAG AAGGCCAACA GTTTTACTGT GTCATCTGTC 
    TCTGCTCCTT CCTGGCTACA CCGGTTCATC ATCGGCAAAA AGGGGCAGAA TCTGGCCAAA 
    ATCACTCAGC AGATGCCCAA GGTGCACATC GAGTTCACAG AGGGTGAGGA CAAGATCACC 
    CTGGAAGGCC CCACAGAGGA TGTAAACGTG GCCCAGGAAC AGATCGAAGC CATGGTCAAA 
    GACTTGATTA ACCGGATGGA CTACGTGGAA ATCAACGTGG ACCACAAGTT CCACAGACAC 
    CTCATCGGGA AGAGCGGGGC CAACATAAAC AGAATCAAAG ACCAGTATAA GGTGTCCGTG 
    CGCATCCCTC CTGACAGTGA GAAGAGCAAC CTGATTCGCA TTGAGGGGGA CCCGCAGGGT 
    GTACAGCAGG CCAAGCGGGA GCTGCTGGAG CTCGCCTCTC GGATGGAAAA TGAGCGCACC 
    AAGGATCTGA TCATTGAGCA GAGATTCCAT CGCACAATCA TCGGGCAGAA GGGTGAACGG 
    ATCCGTGAAA TTCGTGACAA ATTCCCAGAG GTTATCATCA ACTTTCCAGA CCCAGCACAA 
    AAAAGTGATA TTGTTCAACT CCGAGGGCCG AAGAATGAGG TGGAAAAATG CACAAAATAC 
    ATGCAGAAGA TGGTGGCAGA TCTGGTGGAA AATAGCTATT CAATTTCTGT TCCGATCTTC 
    AAACAATTTC ACAAGAACAT CATTGGGAAA GGAGGCGCAA ACATTAAAAA GATTCGGGAA 
    GAAAGCAACA CTAAGATCGA CCTTCCAGCA GAGAATAGCA ATTCAGAGAC CATTGTCATC 
    ACAGGCAAGC GAGCCAACTG TGAGGCTGCC CGGAGCCGCA TCCTGTCCAT CCAGAAAGAC 
    CTGGCCAACA TAGCCGAGCT GGAGGTCTCG ATTCCAGCCA AGCTGCACAA CTCCCTCATC 
    GGCACGAAGG GCCGCTTGAT CCGCTCCATC ATGGAGGAGT GTGGTGGGGT GCACATCCAC 
    TTCCCGGTGG AGGGCTCGGG AAGTGACACG GTTGTCATCA GGGGCCCTGC CTCAGACGTG 
    GAAAAGGCCA GAAAGCAGCT CCTGCACTTG GCTGAGGAGA AGCAAACCAA GAGTTTTACC 
    GTTGACATCC GCGCAAAGCC AGAATACCAC AAGTTCCTTA TTGGCAAAGG GGGTGGCAAA 
    ATCCGCAAGG TACGTGACAA CACGGGAGCC CGCATCATAT TCCCAACGGC CGAGGACAAG 
    GACCAGGACC TGATCACCAT CATAGGGAAG GAGGACGCTG TCAGGGAGGC CCAGAGGGAG 
    CTGGAGGCCC TCATCCAGAA CCTGGATAAT GTGGTGGAAG ACTGCATGTT GGTGGACCCC 
    AAGCACCACC GCCATTTTGT CATCCGAAGA GGCCAGGTCT TGCGGGAGAT TGCCGAAGAG 
    TATGGTGGGG TGATGGTCAG CTTCCCACGC TCGGGCACAC AGAGCGATAA GGTCACCCTC 
    AAGGGTGCCA AGGACTGTGT GGAGGCGGCC AAGAAGCGCA TTCAGGAGAT CATCGAGGAC 
    CTGGAAGCCC AGGTGACCAT AGAATGTGCC ATACCCCAGA AGTTCCATCG ATCTGTCATG 
    GGCCCCAAAG GTTCCAGAAT CCAGCAGATT ACCCGGGACT ATAATGTTCA GATTAAGTTC 
    CCAGACAGAG AGGAGAACCC AGTTCACAGC GTAGAGCCGC CAGTCCAAGA GAACGGCGAT 
    GATGCTGGAG ATGGGAGAGA CATCAAGGAG GCTGACCCCG GCTCCCCCAG GCGGTGTGAC 
    ATCATCATCA TCTCCGGCCG GAAAGAAAAG TGTGAGGCAG CCAAGGAAGC TCTCGAGGCG 
    CTGGTTCCTG TCACCATCGA AGTGGAAGTG CCCTTTGACC TGCATCGGTA CATCATTGGG 
    CAGAAGGGGA GTGGTATCCG AAAGATGATG GACGAGTTTG AGGTGAACAT CCATGTGCCG 
    GCACCGGAGC TGCAGTCTGA CGTCATTGCC ATTACCGGCC TCGCCGCGAA TTTGGACCGG 
    GCCAAGGCTG GCTTGCTGGA GCGCGTGAGG GAGCTGCAGG CTGAGCAGGA GGACCGGGCT 
    TTAAGGAGCT TTAAGCTGAG TGTCACTGTG GACCCCAAAT ACCATCCCAA AATTATTGGG 
    AGAAAAGGGG CAGTGATTAC CCAAATCCGC TTGGAACATG ATGTGAACAT TCAGTTTCCT 
    GATAAGGACG ATGGGAGCCA GCCCCAGGAC CAAATTACTA TCACAGGGTA TGAAAAGAAT 
    ACAGAAGCTG CCCGGGACGC CATATTGAAA ATTGTGGGTG AACTTGAACA AATGGTTTCT 
    GAGGATGTCC CGCTGGACCA CCGTGTTCAC GCCCGTATCA TTGGCGCCCG TGGAAAAGCC 
    ATCCGCAAAA TCATGGATGA ATTCAAGGTG GACATTCGCT TCCCACAGAG TGGGGCCCCA 
    GACCCCAACT GCGTCACCGT GACAGGGCTC CCAGAGAACG TGGAAGAAGC CATCGATCAC 
    ATCCTCAACC TAGAGGAGGA ATACTTGGCT GACGTGGTCG ACAGCGAGGC CCTGCAGCTG 
    TACATGAAGC CGCCAGCCCA TGAGGAGTCC AAAGCGCCAT CAAAGGGCTT TGTGGTCCGG 
    GACGCCCCCT GGACCGCAAA TAGCAGCGAG AAGGCCCCTG ACATGAGCAG CTCCGAAGAG 
    TTTCCCAGCT TTGGGGCTCA GGTGGCCCCC AAGACCCTCC CATGGGGCCC CAAACGATAA

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

    RefSeq XP_022367336.1
    CDS38..3637
    Translation

    Target ORF information:

    RefSeq Version XM_022511628.1
    Organism Enhydra lutris kenyoni
    Definition Enhydra lutris kenyoni high density lipoprotein binding protein (LOC111152750), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_022511628.1

    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
    ATGAGCTCCG TTGCAGTTTT GACCCAAGAG AGCTTTGCTG AACACCGAAG TGGGCTGGTT 
    CCGCAACAGA TGAAAGTTGC TACTTTAAAT TCAGAAGAGG AGAGCGACCC CCCAACCTAC 
    AAAGATGCCT TTCCTCCACT CCCGGAGAAA TCAGCTTGCT TGGAAAATGC CCAGGAGCCT 
    GCTGGCGCCT GGAGTAACAA GATCCGGCCC ATCAAAGCTT CTGTCATCAC TCAGGTGTTC 
    CATGTACCCC TGGAGGAGAG AAAATACAAG GACATGAACC AGTTTGGAGA AGGTGAACAA 
    GCAAAAATCT GCTTGGAGAT CATGCAGAGG ACTGGTGCCC ATCTGGAGCT GTCTCTTGCC 
    AAAGACCAGG GCCTCTCCAT CATGGTGTCA GGGAAGCTGG ACGCCGTCAT GAAAGCCCGG 
    AAGGACATTG TCGCTAGACT GCAGACTCAG GCCTCAGCGA CTGTAGCCAT TCCCAAAGAA 
    CACCACCGCT TTGTTATTGG CAAAAATGGA GAGAAACTGC AAGACTTGGA GCTCAAAACT 
    GCAACCAAAA TCCAGATCCC ACGCCCAGAC GACGCCAGCA ATCAGATCAG GATCACCGGT 
    ACCAAAGAAG GCATCGAGAA AGCTCGCCAT GAAGTCCTAC TCATCTCTGC TGAGCAGGAC 
    AAACGTGCTG TTGAGAGGCT GGAAGTGGAG AAGGCGTTCC ATCCCTTCAT CGCTGGGCCA 
    TATAACCGAC TTGTTGGCGA GATCATGCAG GAGACAGGAA CACGCATCAA CATCCCCCCA 
    CCCAGTGTCA ACCGGACAGA AATCGTCTTC ACGGGAGAGA AGGAGCAGTT GGCTCAGGCT 
    GTGGCTCGAA TCAAGAAGAT CTACGAGGAG AAGGCCAACA GTTTTACTGT GTCATCTGTC 
    TCTGCTCCTT CCTGGCTACA CCGGTTCATC ATCGGCAAAA AGGGGCAGAA TCTGGCCAAA 
    ATCACTCAGC AGATGCCCAA GGTGCACATC GAGTTCACAG AGGGTGAGGA CAAGATCACC 
    CTGGAAGGCC CCACAGAGGA TGTAAACGTG GCCCAGGAAC AGATCGAAGC CATGGTCAAA 
    GACTTGATTA ACCGGATGGA CTACGTGGAA ATCAACGTGG ACCACAAGTT CCACAGACAC 
    CTCATCGGGA AGAGCGGGGC CAACATAAAC AGAATCAAAG ACCAGTATAA GGTGTCCGTG 
    CGCATCCCTC CTGACAGTGA GAAGAGCAAC CTGATTCGCA TTGAGGGGGA CCCGCAGGGT 
    GTACAGCAGG CCAAGCGGGA GCTGCTGGAG CTCGCCTCTC GGATGGAAAA TGAGCGCACC 
    AAGGATCTGA TCATTGAGCA GAGATTCCAT CGCACAATCA TCGGGCAGAA GGGTGAACGG 
    ATCCGTGAAA TTCGTGACAA ATTCCCAGAG GTTATCATCA ACTTTCCAGA CCCAGCACAA 
    AAAAGTGATA TTGTTCAACT CCGAGGGCCG AAGAATGAGG TGGAAAAATG CACAAAATAC 
    ATGCAGAAGA TGGTGGCAGA TCTGGTGGAA AATAGCTATT CAATTTCTGT TCCGATCTTC 
    AAACAATTTC ACAAGAACAT CATTGGGAAA GGAGGCGCAA ACATTAAAAA GATTCGGGAA 
    GAAAGCAACA CTAAGATCGA CCTTCCAGCA GAGAATAGCA ATTCAGAGAC CATTGTCATC 
    ACAGGCAAGC GAGCCAACTG TGAGGCTGCC CGGAGCCGCA TCCTGTCCAT CCAGAAAGAC 
    CTGGCCAACA TAGCCGAGCT GGAGGTCTCG ATTCCAGCCA AGCTGCACAA CTCCCTCATC 
    GGCACGAAGG GCCGCTTGAT CCGCTCCATC ATGGAGGAGT GTGGTGGGGT GCACATCCAC 
    TTCCCGGTGG AGGGCTCGGG AAGTGACACG GTTGTCATCA GGGGCCCTGC CTCAGACGTG 
    GAAAAGGCCA GAAAGCAGCT CCTGCACTTG GCTGAGGAGA AGCAAACCAA GAGTTTTACC 
    GTTGACATCC GCGCAAAGCC AGAATACCAC AAGTTCCTTA TTGGCAAAGG GGGTGGCAAA 
    ATCCGCAAGG TACGTGACAA CACGGGAGCC CGCATCATAT TCCCAACGGC CGAGGACAAG 
    GACCAGGACC TGATCACCAT CATAGGGAAG GAGGACGCTG TCAGGGAGGC CCAGAGGGAG 
    CTGGAGGCCC TCATCCAGAA CCTGGATAAT GTGGTGGAAG ACTGCATGTT GGTGGACCCC 
    AAGCACCACC GCCATTTTGT CATCCGAAGA GGCCAGGTCT TGCGGGAGAT TGCCGAAGAG 
    TATGGTGGGG TGATGGTCAG CTTCCCACGC TCGGGCACAC AGAGCGATAA GGTCACCCTC 
    AAGGGTGCCA AGGACTGTGT GGAGGCGGCC AAGAAGCGCA TTCAGGAGAT CATCGAGGAC 
    CTGGAAGCCC AGGTGACCAT AGAATGTGCC ATACCCCAGA AGTTCCATCG ATCTGTCATG 
    GGCCCCAAAG GTTCCAGAAT CCAGCAGATT ACCCGGGACT ATAATGTTCA GATTAAGTTC 
    CCAGACAGAG AGGAGAACCC AGTTCACAGC GTAGAGCCGC CAGTCCAAGA GAACGGCGAT 
    GATGCTGGAG ATGGGAGAGA CATCAAGGAG GCTGACCCCG GCTCCCCCAG GCGGTGTGAC 
    ATCATCATCA TCTCCGGCCG GAAAGAAAAG TGTGAGGCAG CCAAGGAAGC TCTCGAGGCG 
    CTGGTTCCTG TCACCATCGA AGTGGAAGTG CCCTTTGACC TGCATCGGTA CATCATTGGG 
    CAGAAGGGGA GTGGTATCCG AAAGATGATG GACGAGTTTG AGGTGAACAT CCATGTGCCG 
    GCACCGGAGC TGCAGTCTGA CGTCATTGCC ATTACCGGCC TCGCCGCGAA TTTGGACCGG 
    GCCAAGGCTG GCTTGCTGGA GCGCGTGAGG GAGCTGCAGG CTGAGCAGGA GGACCGGGCT 
    TTAAGGAGCT TTAAGCTGAG TGTCACTGTG GACCCCAAAT ACCATCCCAA AATTATTGGG 
    AGAAAAGGGG CAGTGATTAC CCAAATCCGC TTGGAACATG ATGTGAACAT TCAGTTTCCT 
    GATAAGGACG ATGGGAGCCA GCCCCAGGAC CAAATTACTA TCACAGGGTA TGAAAAGAAT 
    ACAGAAGCTG CCCGGGACGC CATATTGAAA ATTGTGGGTG AACTTGAACA AATGGTTTCT 
    GAGGATGTCC CGCTGGACCA CCGTGTTCAC GCCCGTATCA TTGGCGCCCG TGGAAAAGCC 
    ATCCGCAAAA TCATGGATGA ATTCAAGGTG GACATTCGCT TCCCACAGAG TGGGGCCCCA 
    GACCCCAACT GCGTCACCGT GACAGGGCTC CCAGAGAACG TGGAAGAAGC CATCGATCAC 
    ATCCTCAACC TAGAGGAGGA ATACTTGGCT GACGTGGTCG ACAGCGAGGC CCTGCAGCTG 
    TACATGAAGC CGCCAGCCCA TGAGGAGTCC AAAGCGCCAT CAAAGGGCTT TGTGGTCCGG 
    GACGCCCCCT GGACCGCAAA TAGCAGCGAG AAGGCCCCTG ACATGAGCAG CTCCGAAGAG 
    TTTCCCAGCT TTGGGGCTCA GGTGGCCCCC AAGACCCTCC CATGGGGCCC CAAACGATAA

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

見積依頼

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