LOC101730963 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following LOC101730963 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC101730963 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
OXa41121 XM_018090031.1
Latest version!
Xenopus tropicalis alpha-2-macroglobulin-like (LOC101730963), mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OXa61731 XM_031905382.1
Latest version!
Xenopus tropicalis alpha-2-macroglobulin-like protein 1 (LOC101730963), mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00

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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)
    CloneID OXa41121
    Clone ID Related Accession (Same CDS sequence) XM_018090031.1
    Accession Version XM_018090031.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4182bp)
    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 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    Product alpha-2-macroglobulin-like
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_016683538.1) 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 :: Xenopus tropicalis Annotation Release 103 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## ##RefSeq-Attributes-START## ab initio :: 1% 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
    4081
    4141
    ATGGTGCTGC TCAGGGCCCT GGGCTTGGCG CTGGTCCTAC TGCATCTCTC TGGGACATTG 
    GAGGCAAAGC TGCATTATGT GGTGATCTTC CCCTCGGAGT TGGTGGCCCC CCATTCTGAA
    CAAGCCTGTG TGCACCTCAG TGGGGCGGAG GGAGACAGCC GGATACAGGT TACCTTGAAC
    ATGGCCGAAC GGAACTCAAC GGTGATAGAG AGGAACCTCC AGCAGAAATC CCTCTTCAGC
    TGTGTGACAT TCCAGGTGCC TCCGCCCTCT GAAGGGAATG AAGAAGTGGC CACCATGGAA
    ATTCTCATTG AGAGCGCAGG GGAGACCATA ACCAACAGCA GCAAAGTTCT AGTGAGGAAG
    AGAAGAACCA GCACTTTCAT TCAGACGGAC AAAGTTTTAT ACAAACCAGG GGACACAGTG
    CAAATACGAG TTGTAAATCT TGAAGAAAAT CTACAACTGA AAGAAACTCG GTTCCGAGTC
    ATTTATATAC AGGATCCAAA CCAGAGACAT ATTGCCTGGT GGCAGAATGT GAATCTCACA
    CAGGGAATCG CTGAGCTCTC TTTCCCGCTG TCACCGGAGC CTTCGTTTGG TTTTTATTAC
    ATTCATGTTG GGGACATTAA GCAGCACTTT TTTGTGACAA GATTCGCCCT TCATAAATAT
    GAGGTCGTCT TTCAGTTCCC CAAGGCTGTT TTATCCAACA GTGAACAATT CCAGCTGAAA
    ATATGCGGCA GGTACCCAAA TGGCCAACCC GTGCAAGGAA CATATCAGGC TACGGTGTGC
    CGCTGGGCCT TTTCAGTCTA CTGGTCGCGA CATTTTAAAA ATTTTTCGGA CCTGTGTGTT
    GATTTCAGTG GAAAGTTGGA ACAGTCTGGG TGTTCCATAT TGCAAGTAAA GTCTGATACC
    TTTAGAATTG CCTACAACAC TCATGAAATG GATCTAGAGG GAGTAGCAAC CATTACGGAG
    GAAGAAACAG GTAAGGATCC TGCTGAATGT GCGAGTCCAG AAATGGAAAA ATCTGCTGAT
    ATGTATTCCG GGCTCATTAT ACCTGTTTTT GGGAAAGACT CTCTGGAACT CAAACTCTTT
    GAATCCCCCA GCAAGAGTTT CCTGAAACTG CACTCCCAGC AGGGGGAGCT CCCATGTGAG
    GGGCAACGAG ATGTCCGAGT GGAATATATT ATCCCAAACT CTGCCCTGGG GATGGAGGCC
    AAGCACATGG AGCTGCACTA CCTGGTTATT TCTAAAGAAT CTATAAAGGA CTCGGGATCA
    TTGGAAGTGC CCATTACTAG TGAAGGAGGA GGATCTTCAG AGCTGAGGGG TGAGGTCTCC
    ATCAAACTCA CACTCAGTGC CGATGTCTCT CCGACTCTCC GCGCTCTCGC CTTCATTTCC
    CTCCCTAATG GGGAATTAGT GGCCGATTCT GCAACATTCA AGCTGCAAAG GTGCTTCAAG
    AACAAAGTAT CAGTTGGCTT CTCCCCAGAT GAAGTTCTCC CAGGAGCTGA TGTTTCCCTA
    CAAGTCCAGG CAGCCGCCGG GTCCCTGTGT GGCCTGAGAG TGGTGGATAA GATTGTTAAA
    CCTGAGGTGG ATGTGACGGC TGATAGGATT CACAAGCTCT TCCCCTACTT TAATGGAACA
    TATGATTATC GGATCAAAGA CGCTGATGAT AATTGTACAT TAAATCAAAA ATATCGTGTT
    GATGTCTACA GCCTGTTTAA GGATATGCAA CTGAAAATTG TCACCAACGC CTATAATAAG
    AGGCCCTCGA GGTGCTGGGA AGAGGATGTA GAAGAAATGT TGTATGTTCC AAATGAAGTA
    TATATACCAT ATTTGAAAGC AAGGGCCAAA TTATTTGGAG TCAATCCAGA CTGGACAGTT
    GAATTACCCA CCCATATTGA ACCTACACCA AAACTTAGTA GAGTAGAAGA TTTTTCAGTA
    TTGTCAAAGA CAAAATATTT CAGAGACAAA GATGGAATCA CTAAAGGAGC TGCTGAAATA
    ATCCGGGTGT CTTTGCCAGA GACCTGGATC TGGGAGCTAG CGGCCGTGGG TGAGTCGGGT
    AGAGCCGAGG TCCATGGCTC AGCCCCAGAC ACCATCACCG AGTGGAATGC AGGAGCTTTC
    TGTATGGGAC CCAGTGGGTT TGGCATCTCC CCACCAACCT CCCTTCGAGC CTTCCAGCCC
    TTCTTTGTGG AGCTCACTCT GCCGTACTCT GTGGTGCGAG GGGAGTCATT CACTCTCAAG
    GCCTCTGTGT TTAACTCCCT CAAGCAGTGT ATAAAGGTTC AGACCATCCT GCTGCCTTCA
    CAAGAGTTAG AGCTGGAACC ATGTGCCGAC TGTCAGTATA GCAGCTGTCT CTGTGCAGAG
    GAAAGCAAGA CCTTCTACTG GAACCTTAAA GCCTCCAACC TGGGAGAGGT GAACATCACG
    GTGAGGACGG AGGCTCTGAA CACTCAGGAC ATGTGCAATA ATGAGATTGC TATTGTGCCC
    AAGCAGGGTC ACTCCGACAC TGTGATTAAG CCACTGCTGG TGCAGCCAGG GGGAATTCTA
    GTAGAAAAGT CTCACAACTC TCTGATCTGC AGACAAAATG CAAAAGCCCA TTCTATAAAA
    GAGAAGATAT CCCTGAATGT TCCTGAAAAT ATTCTGAAGG GTTCTGAGAG AGCTTATATA
    ACAGTGCTGG GAGACCTGAT GGGAACAGCC ATGCAGAACC TGGACCGGCT CCTGGCCATG
    CCACTTGGAA ATGGAGAGCA GAAAATGATT ATTTTTGCCC CCAGTATCTA CATTCTACAG
    TATCTGGAAA ACACTCACCA ACTGAGCCCT GAGATCCAGA GCAAAGCCAA ACGATTGCTT
    ACAGATGGGT ACCAAAGACA ACTGACATGC AAAGTATATG ATCGATACTA CTATGTATTC
    AGGCCACAGT CAGAGGAAAA CTCATGGCTG AATGCATATG TAACAAAGTC CTTCAGCAAG
    GCTCGTCCCT ACATCTTCAT AGATAGAGTC CAGATTCGCC AATGTATTTT GTTACTATGG
    AACTATTGCA AAAAAAAATG CGGCTGTTTC CGAAGGGTGG GAAAACGCTT CAATAATGCT
    CTGAAGGGGG GAGTGGATGA TGATGAACTA TCACTCTCTG CTTACATCTC TATTGCTCTA
    ATGGACGCCG GTTTGTCAAA ACAGGGCAAT TTACTCAGGC ACGCTCTATA CTGTCTCAGG
    GAGGCTGCCA AAAACGTGAG CAGTGCCTAC ATCCAGGCTC TACTGGCCTA CACTTTCTCT
    CTGAGTGGAG ATAATAAACT CAGGGAGATG CTGCTGGCTA AACTGGAGGA GAAGGCCATA
    AGGAAAGATG GACAGTTACA CTGGGAGCAG ATACCTGCCT TTGAGGCCTT CAACCTCTCA
    TCCTGGAACC GCGCTCCCTC AGCCGAAGTG GAGTTAGCCT CCTATGTGCT GCTGGCCCTT
    CGCTCAGAAA CTAAGAAGGA CCGGAGAAAA GCTTCTGAGA TAGTCAACTG GCTGAGCAAG
    CAGCAAAATC CTTATGGGGG GTTCTACTCT ACTCAGGACA CGGTTGTAGC GCTACAGGCT
    CTTGCTGAGT ATGCCGAGGC CACATTCTCT GACAAGGGAG ATGTCACAGT CACAGTCACT
    TCCAAGACTG GGTTCCATCA ACAGTTCCAT GTGGATCAGA CTAACCGACT CCTGCTACAG
    AAAGCCTCAC TGCCAGATAT CCCTGGGGAG TACTCTCTGT CAGCCACTGG GAGCGGCTGT
    GTTTATGTAC AGACTGTCCT GAGATACAAC ATTCCCCCAC CTAGAAGTGA CGCCACCTTC
    TCAGTACGAG TGGAGACCCA ACCACAGCAA TGTCCCCAGG AGCCAATGAA ACAGATGGGC
    ATAGACATTT ATATTCAATA CACAGGGTCT CGGGAGGAAT CCAACTTGGC TCTGGTTGAG
    GTCAAGATGC TCTCAGGCTT TATCCCAGTG CGGAGCACAA CGCATCAGCT AGTGAGCAGC
    AATACGATAA AGCACATTGA GACCCAAAAT GATGTCCTGG CGTTATACCT GAATGAGTTA
    GGACATGATC CAGTTCATCT CTCCTTCATG GTGGAACAAG ACATTGTGGT GAAGAACCTA
    AAGCCGGCCA CAGTGAAGGT CTATGATTAT TATGAGCCAA CGGAACATGC AGTTACCGAG
    TACAACTCCC CCTGCAGCTC GGATGAAGAG GCGGGCAACT GA

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

    RefSeq XP_017945520.1
    CDS219..4400
    Translation

    Target ORF information:

    RefSeq Version XM_018090031.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis alpha-2-macroglobulin-like (LOC101730963), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018090031.1

    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
    ATGGTGCTGC TCAGGGCCCT GGGCTTGGCG CTGGTCCTAC TGCATCTCTC TGGGACATTG 
    GAGGCAAAGC TGCATTATGT GGTGATCTTC CCCTCGGAGT TGGTGGCCCC CCATTCTGAA
    CAAGCCTGTG TGCACCTCAG TGGGGCGGAG GGAGACAGCC GGATACAGGT TACCTTGAAC
    ATGGCCGAAC GGAACTCAAC GGTGATAGAG AGGAACCTCC AGCAGAAATC CCTCTTCAGC
    TGTGTGACAT TCCAGGTGCC TCCGCCCTCT GAAGGGAATG AAGAAGTGGC CACCATGGAA
    ATTCTCATTG AGAGCGCAGG GGAGACCATA ACCAACAGCA GCAAAGTTCT AGTGAGGAAG
    AGAAGAACCA GCACTTTCAT TCAGACGGAC AAAGTTTTAT ACAAACCAGG GGACACAGTG
    CAAATACGAG TTGTAAATCT TGAAGAAAAT CTACAACTGA AAGAAACTCG GTTCCGAGTC
    ATTTATATAC AGGATCCAAA CCAGAGACAT ATTGCCTGGT GGCAGAATGT GAATCTCACA
    CAGGGAATCG CTGAGCTCTC TTTCCCGCTG TCACCGGAGC CTTCGTTTGG TTTTTATTAC
    ATTCATGTTG GGGACATTAA GCAGCACTTT TTTGTGACAA GATTCGCCCT TCATAAATAT
    GAGGTCGTCT TTCAGTTCCC CAAGGCTGTT TTATCCAACA GTGAACAATT CCAGCTGAAA
    ATATGCGGCA GGTACCCAAA TGGCCAACCC GTGCAAGGAA CATATCAGGC TACGGTGTGC
    CGCTGGGCCT TTTCAGTCTA CTGGTCGCGA CATTTTAAAA ATTTTTCGGA CCTGTGTGTT
    GATTTCAGTG GAAAGTTGGA ACAGTCTGGG TGTTCCATAT TGCAAGTAAA GTCTGATACC
    TTTAGAATTG CCTACAACAC TCATGAAATG GATCTAGAGG GAGTAGCAAC CATTACGGAG
    GAAGAAACAG GTAAGGATCC TGCTGAATGT GCGAGTCCAG AAATGGAAAA ATCTGCTGAT
    ATGTATTCCG GGCTCATTAT ACCTGTTTTT GGGAAAGACT CTCTGGAACT CAAACTCTTT
    GAATCCCCCA GCAAGAGTTT CCTGAAACTG CACTCCCAGC AGGGGGAGCT CCCATGTGAG
    GGGCAACGAG ATGTCCGAGT GGAATATATT ATCCCAAACT CTGCCCTGGG GATGGAGGCC
    AAGCACATGG AGCTGCACTA CCTGGTTATT TCTAAAGAAT CTATAAAGGA CTCGGGATCA
    TTGGAAGTGC CCATTACTAG TGAAGGAGGA GGATCTTCAG AGCTGAGGGG TGAGGTCTCC
    ATCAAACTCA CACTCAGTGC CGATGTCTCT CCGACTCTCC GCGCTCTCGC CTTCATTTCC
    CTCCCTAATG GGGAATTAGT GGCCGATTCT GCAACATTCA AGCTGCAAAG GTGCTTCAAG
    AACAAAGTAT CAGTTGGCTT CTCCCCAGAT GAAGTTCTCC CAGGAGCTGA TGTTTCCCTA
    CAAGTCCAGG CAGCCGCCGG GTCCCTGTGT GGCCTGAGAG TGGTGGATAA GATTGTTAAA
    CCTGAGGTGG ATGTGACGGC TGATAGGATT CACAAGCTCT TCCCCTACTT TAATGGAACA
    TATGATTATC GGATCAAAGA CGCTGATGAT AATTGTACAT TAAATCAAAA ATATCGTGTT
    GATGTCTACA GCCTGTTTAA GGATATGCAA CTGAAAATTG TCACCAACGC CTATAATAAG
    AGGCCCTCGA GGTGCTGGGA AGAGGATGTA GAAGAAATGT TGTATGTTCC AAATGAAGTA
    TATATACCAT ATTTGAAAGC AAGGGCCAAA TTATTTGGAG TCAATCCAGA CTGGACAGTT
    GAATTACCCA CCCATATTGA ACCTACACCA AAACTTAGTA GAGTAGAAGA TTTTTCAGTA
    TTGTCAAAGA CAAAATATTT CAGAGACAAA GATGGAATCA CTAAAGGAGC TGCTGAAATA
    ATCCGGGTGT CTTTGCCAGA GACCTGGATC TGGGAGCTAG CGGCCGTGGG TGAGTCGGGT
    AGAGCCGAGG TCCATGGCTC AGCCCCAGAC ACCATCACCG AGTGGAATGC AGGAGCTTTC
    TGTATGGGAC CCAGTGGGTT TGGCATCTCC CCACCAACCT CCCTTCGAGC CTTCCAGCCC
    TTCTTTGTGG AGCTCACTCT GCCGTACTCT GTGGTGCGAG GGGAGTCATT CACTCTCAAG
    GCCTCTGTGT TTAACTCCCT CAAGCAGTGT ATAAAGGTTC AGACCATCCT GCTGCCTTCA
    CAAGAGTTAG AGCTGGAACC ATGTGCCGAC TGTCAGTATA GCAGCTGTCT CTGTGCAGAG
    GAAAGCAAGA CCTTCTACTG GAACCTTAAA GCCTCCAACC TGGGAGAGGT GAACATCACG
    GTGAGGACGG AGGCTCTGAA CACTCAGGAC ATGTGCAATA ATGAGATTGC TATTGTGCCC
    AAGCAGGGTC ACTCCGACAC TGTGATTAAG CCACTGCTGG TGCAGCCAGG GGGAATTCTA
    GTAGAAAAGT CTCACAACTC TCTGATCTGC AGACAAAATG CAAAAGCCCA TTCTATAAAA
    GAGAAGATAT CCCTGAATGT TCCTGAAAAT ATTCTGAAGG GTTCTGAGAG AGCTTATATA
    ACAGTGCTGG GAGACCTGAT GGGAACAGCC ATGCAGAACC TGGACCGGCT CCTGGCCATG
    CCACTTGGAA ATGGAGAGCA GAAAATGATT ATTTTTGCCC CCAGTATCTA CATTCTACAG
    TATCTGGAAA ACACTCACCA ACTGAGCCCT GAGATCCAGA GCAAAGCCAA ACGATTGCTT
    ACAGATGGGT ACCAAAGACA ACTGACATGC AAAGTATATG ATCGATACTA CTATGTATTC
    AGGCCACAGT CAGAGGAAAA CTCATGGCTG AATGCATATG TAACAAAGTC CTTCAGCAAG
    GCTCGTCCCT ACATCTTCAT AGATAGAGTC CAGATTCGCC AATGTATTTT GTTACTATGG
    AACTATTGCA AAAAAAAATG CGGCTGTTTC CGAAGGGTGG GAAAACGCTT CAATAATGCT
    CTGAAGGGGG GAGTGGATGA TGATGAACTA TCACTCTCTG CTTACATCTC TATTGCTCTA
    ATGGACGCCG GTTTGTCAAA ACAGGGCAAT TTACTCAGGC ACGCTCTATA CTGTCTCAGG
    GAGGCTGCCA AAAACGTGAG CAGTGCCTAC ATCCAGGCTC TACTGGCCTA CACTTTCTCT
    CTGAGTGGAG ATAATAAACT CAGGGAGATG CTGCTGGCTA AACTGGAGGA GAAGGCCATA
    AGGAAAGATG GACAGTTACA CTGGGAGCAG ATACCTGCCT TTGAGGCCTT CAACCTCTCA
    TCCTGGAACC GCGCTCCCTC AGCCGAAGTG GAGTTAGCCT CCTATGTGCT GCTGGCCCTT
    CGCTCAGAAA CTAAGAAGGA CCGGAGAAAA GCTTCTGAGA TAGTCAACTG GCTGAGCAAG
    CAGCAAAATC CTTATGGGGG GTTCTACTCT ACTCAGGACA CGGTTGTAGC GCTACAGGCT
    CTTGCTGAGT ATGCCGAGGC CACATTCTCT GACAAGGGAG ATGTCACAGT CACAGTCACT
    TCCAAGACTG GGTTCCATCA ACAGTTCCAT GTGGATCAGA CTAACCGACT CCTGCTACAG
    AAAGCCTCAC TGCCAGATAT CCCTGGGGAG TACTCTCTGT CAGCCACTGG GAGCGGCTGT
    GTTTATGTAC AGACTGTCCT GAGATACAAC ATTCCCCCAC CTAGAAGTGA CGCCACCTTC
    TCAGTACGAG TGGAGACCCA ACCACAGCAA TGTCCCCAGG AGCCAATGAA ACAGATGGGC
    ATAGACATTT ATATTCAATA CACAGGGTCT CGGGAGGAAT CCAACTTGGC TCTGGTTGAG
    GTCAAGATGC TCTCAGGCTT TATCCCAGTG CGGAGCACAA CGCATCAGCT AGTGAGCAGC
    AATACGATAA AGCACATTGA GACCCAAAAT GATGTCCTGG CGTTATACCT GAATGAGTTA
    GGACATGATC CAGTTCATCT CTCCTTCATG GTGGAACAAG ACATTGTGGT GAAGAACCTA
    AAGCCGGCCA CAGTGAAGGT CTATGATTAT TATGAGCCAA CGGAACATGC AGTTACCGAG
    TACAACTCCC CCTGCAGCTC GGATGAAGAG GCGGGCAACT GA

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

    CloneID OXa61731
    Clone ID Related Accession (Same CDS sequence) XM_031905382.1
    Accession Version XM_031905382.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4434bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product alpha-2-macroglobulin-like protein 1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030683.2) 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 :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    ATGGTGCTGC TCAGGGCCCT GGGCTTGGCG CTGGTCCTAC TGCATCTCTC TGGGACATTG 
    GAGGCAAAGC TGCATTATGT GGTGATCTTC CCCTCGGAGT TGGTGGCCCC CCATTCTGAA
    CAAGCCTGTG TGCACCTCAG TGGGGCGGAG GGAGACAGCC GGATACAGGT TACCTTGAAC
    ATGGCCGAAC GGAACTCAAC GGTGATAGAG AGGAACCTCC AGCAGAAATC CCTCTTCAGC
    TGTGTGACAT TCCAGGTGCC TCCGCCCTCT GAAGGGAATG AAGAAGTGGC CACCATGGAA
    ATTCTCATTG AGAGCGCAGG GGAGACCATA ACCAACAGCA GCAAAGTTCT AGTGAGGAAG
    AGAAGAACCA GCACTTTCAT TCAGACGGAC AAAGTTTTAT ACAAACCAGG GGACACAGTG
    CAAATACGAG TTGTAAATCT TGAAGAAAAT CTACAACTGA AAGAAACTCG GTTCCGAGTC
    ATTTATATAC AGGATCCAAA CCAGAGACAT ATTGCCTGGT GGCAGAATGT GAATCTCACA
    CAGGGAATCG CTGAGCTCTC TTTCCCGCTG TCACCGGAGC CTTCGTTTGG TTTTTATTAC
    ATTCATGTTG GGGACATTAA GCAGCACTTT TTTGTGACAA GATTCGCCCT TCATAAATAT
    GAGGTCGTCT TTCAGTTCCC CAAGGCTGTT TTATCCAACA GTGAACAATT CCAGCTGAAA
    ATATGCGGCA GGTACCCAAA TGGCCAACCC GTGCAAGGAA CATATCAGGC TACGGTGTGC
    CGCTGGGCCT TTTCAGTCTA CTGGTCGCGA CATTTTAAAA ATTTTTCGGA CCTGTGTGTT
    GATTTCAGTG GAAAGTTGGA ACAGTCTGGG TGTTCCATAT TGCAAGTAAA GTCTGATACC
    TTTAGAATTG CCTACAACAC TCATGAAATG GATCTAGAGG GAGTAGCAAC CATTACGGAG
    GAAGAAACAG GTTTGAAATA TTCTGGAAGA GGTAGAACCA CCATTTCACC CAAGCTAAAA
    AGCTGCCGTT TCCTGGATGG AGACATTACT TACAAGCCGG GGATCCCATA CAGCGGCACA
    ATAAAGGTGA TGGACGGCAA TGATGATCCC CTTCCAAACC AAAAAGTCTC TCTAACCATC
    AGTCCTATGA ATATAACGGA GAACTTGGTA TCGGATGAGA ATGGACTTGT TTCCTTCCAG
    TTGGACAACA CAACTGCATG GGAGGGAAAG CTGCGCCTTA CGGCGAGTCC AGAAATGGAA
    AAATCTGCTG ATATGTATTC CGGGCTCATT ATACCTGTTT TTGGGAAAGA CTCTCTGGAA
    CTCAAACTCT TTGAATCCCC CAGCAAGAGT TTCCTGAAAC TGCACTCCCA GCAGGGGGAG
    CTCCCATGTG AGGGGCAACG AGATGTCCGA GTGGAATATA TTATCCCAAA CTCTGCCCTG
    GGGATGGAGG CCAAGCACAT GGAGCTGCAC TACCTGGTTA TTTCTAAAGA ATCTATAAAG
    GACTCGGGAT CATTGGAAGT GCCCATTACT AGTGAAGGAG GAGGATCTTC AGAGCTGAGG
    GGTGAGGTCT CCATCAAACT CACACTCAGT GCCGATGTCT CTCCGACTCT CCGCGCTCTC
    GCCTTCATTT CCCTCCCTAA TGGGGAATTA GTGGCCGATT CTGCAACATT CAAGCTGCAA
    AGGTGCTTCA AGAACAAAGT ATCAGTTGGC TTCTCCCCAG ATGAAGTTCT CCCAGGAGCT
    GATGTTTCCC TACAAGTCCA GGCAGCCGCC GGGTCCCTGT GTGGCCTGAG AGTGGTGGAT
    AAGATTGTTA AACCTGAGGT GGATGTGACG GCTGATAGGA TTCACAAGCT CTTCCCCTAC
    TTTAATGGAA CATATGATTA TCGGATCAAA GACGCTGATG ATAATTGTAC ATTAAATCAA
    AAATATCGTG TTGATGTCTA CAGCCTGTTT AAGGATATGC AACTGAAAAT TGTCACCAAC
    GCCTATAATA AGAGGCCCTC GAGGTGCTGG GAAGAGGATG TAGAAGAAAT GTTGTATGTT
    CCAAATGAAG TATATATACC ATATTTGAAA GCAAGGGCCA AATTATTTGG AGTCAATCCA
    GACTGGACAG TTGAATTACC CACCCATATT GAACCTACAC CAAAACTTAG TAGAGTAGAA
    GATTTTTCAG TATTGTCAAA GACAAAATAT TTCAGAGACA AAGATGGAAT CACTAAAGGA
    GCTGCTGAAA TAATCCGGGT GTCTTTGCCA GAGACCTGGA TCTGGGAGCT AGCGGCCGTG
    GGTGAGTCGG GTAGAGCCGA GGTCCATGGC TCAGCCCCAG ACACCATCAC CGAGTGGAAT
    GCAGGAGCTT TCTGTATGGG ACCCAGTGGG TTTGGCATCT CCCCACCAAC CTCCCTTCGA
    GCCTTCCAGC CCTTCTTTGT GGAGCTCACT CTGCCGTACT CTGTGGTGCG AGGGGAGTCA
    TTCACTCTCA AGGCCTCTGT GTTTAACTCC CTCAAGCAGT GTATAAAGGT TCAGACCATC
    CTGCTGCCTT CACAAGAGTT AGAGCTGGAA CCATGTGCCG ACTGTCAGTA TAGCAGCTGT
    CTCTGTGCAG AGGAAAGCAA GACCTTCTAC TGGAACCTTA AAGCCTCCAA CCTGGGAGAG
    GTGAACATCA CGGTGAGGAC GGAGGCTCTG AACACTCAGG ACATGTGCAA TAATGAGATT
    GCTATTGTGC CCAAGCAGGG TCACTCCGAC ACTGTGATTA AGCCACTGCT GGTGCAGCCA
    GGGGGAATTC TAGTAGAAAA GTCTCACAAC TCTCTGATCT GCAGACAAAA TGCAAAAGCC
    CATTCTATAA AAGAGAAGAT ATCCCTGAAT GTTCCTGAAA ATATTCTGAA GGGTTCTGAG
    AGAGCTTATA TAACAGTGCT GGGAGACCTG ATGGGAACAG CCATGCAGAA CCTGGACCGG
    CTCCTGGCCA TGCCACTTGG AAATGGAGAG CAGAAAATGA TTATTTTTGC CCCCAGTATC
    TACATTCTAC AGTATCTGGA AAACACTCAC CAACTGAGCC CTGAGATCCA GAGCAAAGCC
    AAACGATTGC TTACAGATGG GTACCAAAGA CAACTGACAT GCAAAGTATA TGATCGATAC
    TACTATGTAT TCAGGCCACA GTCAGAGGAA AACTCATGGC TGAATGCATA TGTAACAAAG
    TCCTTCAGCA AGGCTCGTCC CTACATCTTC ATAGATAGAG TCCAGATTCG CCAATGTATT
    TTGTTACTAT GGAACTATTG CAAAAAAAAA TGCGGCTGTT TCCGAAGGGT GGGAAAACGC
    TTCAATAATG CTCTGAAGGG GGGAGTGGAT GATGATGAAC TATCACTCTC TGCTTACATC
    TCTATTGCTC TAATGGACGC CGGTTTGTCA AAACAGGGCA ATTTACTCAG GCACGCTCTA
    TACTGTCTCA GGGAGGCTGC CAAAAACGTG AGCAGTGCCT ACATCCAGGC TCTACTGGCC
    TACACTTTCT CTCTGAGTGG AGATAATAAA CTCAGGGAGA TGCTGCTGGC TAAACTGGAG
    GAGAAGGCCA TAAGGAAAGA TGGACAGTTA CACTGGGAGC AGATACCTGC CTTTGAGGCC
    TTCAACCTCT CATCCTGGAA CCGCGCTCCC TCAGCCGAAG TGGAGTTAGC CTCCTATGTG
    CTGCTGGCCC TTCGCTCAGA AACTAAGAAG GACCGGAGAA AAGCTTCTGA GATAGTCAAC
    TGGCTGAGCA AGCAGCAAAA TCCTTATGGG GGGTTCTACT CTACTCAGGA CACGGTTGTA
    GCGCTACAGG CTCTTGCTGA GTATGCCGAG GCCACATTCT CTGACAAGGG AGATGTCACA
    GTCACAGTCA CTTCCAAGAC TGGGTTCCAT CAACAGTTCC ATGTGGATCA GACTAACCGA
    CTCCTGCTAC AGAAAGCCTC ACTGCCAGAT ATCCCTGGGG AGTACTCTCT GTCAGCCACT
    GGGAGCGGCT GTGTTTATGT ACAGACTGTC CTGAGATACA ACATTCCCCC ACCTAGAAGT
    GACGCCACCT TCTCAGTACG AGTGGAGACC CAACCACAGC AATGTCCCCA GGAGCCAATG
    AAACAGATGG GCATAGACAT TTATATTCAA TACACAGGGT CTCGGGAGGA ATCCAACTTG
    GCTCTGGTTG AGGTCAAGAT GCTCTCAGGC TTTATCCCAG TGCGGAGCAC AACGCATCAG
    CTAGTGAGCA GCAATACGAT AAAGCACATT GAGACCCAAA ATGATGTCCT GGCGTTATAC
    CTGAATGAGT TAGGACATGA TCCAGTTCAT CTCTCCTTCA TGGTGGAACA AGACATTGTG
    GTGAAGAACC TAAAGCCGGC CACAGTGAAG GTCTATGATT ATTATGAGCC AACGGAACAT
    GCAGTTACCG AGTACAACTC CCCCTGCAGC TCGGATGAAG AGGCGGGCAA CTGA

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

    RefSeq XP_031761242.1
    CDS208..4641
    Translation

    Target ORF information:

    RefSeq Version XM_031905382.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis alpha-2-macroglobulin-like protein 1 (LOC101730963), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031905382.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGTGCTGC TCAGGGCCCT GGGCTTGGCG CTGGTCCTAC TGCATCTCTC TGGGACATTG 
    GAGGCAAAGC TGCATTATGT GGTGATCTTC CCCTCGGAGT TGGTGGCCCC CCATTCTGAA
    CAAGCCTGTG TGCACCTCAG TGGGGCGGAG GGAGACAGCC GGATACAGGT TACCTTGAAC
    ATGGCCGAAC GGAACTCAAC GGTGATAGAG AGGAACCTCC AGCAGAAATC CCTCTTCAGC
    TGTGTGACAT TCCAGGTGCC TCCGCCCTCT GAAGGGAATG AAGAAGTGGC CACCATGGAA
    ATTCTCATTG AGAGCGCAGG GGAGACCATA ACCAACAGCA GCAAAGTTCT AGTGAGGAAG
    AGAAGAACCA GCACTTTCAT TCAGACGGAC AAAGTTTTAT ACAAACCAGG GGACACAGTG
    CAAATACGAG TTGTAAATCT TGAAGAAAAT CTACAACTGA AAGAAACTCG GTTCCGAGTC
    ATTTATATAC AGGATCCAAA CCAGAGACAT ATTGCCTGGT GGCAGAATGT GAATCTCACA
    CAGGGAATCG CTGAGCTCTC TTTCCCGCTG TCACCGGAGC CTTCGTTTGG TTTTTATTAC
    ATTCATGTTG GGGACATTAA GCAGCACTTT TTTGTGACAA GATTCGCCCT TCATAAATAT
    GAGGTCGTCT TTCAGTTCCC CAAGGCTGTT TTATCCAACA GTGAACAATT CCAGCTGAAA
    ATATGCGGCA GGTACCCAAA TGGCCAACCC GTGCAAGGAA CATATCAGGC TACGGTGTGC
    CGCTGGGCCT TTTCAGTCTA CTGGTCGCGA CATTTTAAAA ATTTTTCGGA CCTGTGTGTT
    GATTTCAGTG GAAAGTTGGA ACAGTCTGGG TGTTCCATAT TGCAAGTAAA GTCTGATACC
    TTTAGAATTG CCTACAACAC TCATGAAATG GATCTAGAGG GAGTAGCAAC CATTACGGAG
    GAAGAAACAG GTTTGAAATA TTCTGGAAGA GGTAGAACCA CCATTTCACC CAAGCTAAAA
    AGCTGCCGTT TCCTGGATGG AGACATTACT TACAAGCCGG GGATCCCATA CAGCGGCACA
    ATAAAGGTGA TGGACGGCAA TGATGATCCC CTTCCAAACC AAAAAGTCTC TCTAACCATC
    AGTCCTATGA ATATAACGGA GAACTTGGTA TCGGATGAGA ATGGACTTGT TTCCTTCCAG
    TTGGACAACA CAACTGCATG GGAGGGAAAG CTGCGCCTTA CGGCGAGTCC AGAAATGGAA
    AAATCTGCTG ATATGTATTC CGGGCTCATT ATACCTGTTT TTGGGAAAGA CTCTCTGGAA
    CTCAAACTCT TTGAATCCCC CAGCAAGAGT TTCCTGAAAC TGCACTCCCA GCAGGGGGAG
    CTCCCATGTG AGGGGCAACG AGATGTCCGA GTGGAATATA TTATCCCAAA CTCTGCCCTG
    GGGATGGAGG CCAAGCACAT GGAGCTGCAC TACCTGGTTA TTTCTAAAGA ATCTATAAAG
    GACTCGGGAT CATTGGAAGT GCCCATTACT AGTGAAGGAG GAGGATCTTC AGAGCTGAGG
    GGTGAGGTCT CCATCAAACT CACACTCAGT GCCGATGTCT CTCCGACTCT CCGCGCTCTC
    GCCTTCATTT CCCTCCCTAA TGGGGAATTA GTGGCCGATT CTGCAACATT CAAGCTGCAA
    AGGTGCTTCA AGAACAAAGT ATCAGTTGGC TTCTCCCCAG ATGAAGTTCT CCCAGGAGCT
    GATGTTTCCC TACAAGTCCA GGCAGCCGCC GGGTCCCTGT GTGGCCTGAG AGTGGTGGAT
    AAGATTGTTA AACCTGAGGT GGATGTGACG GCTGATAGGA TTCACAAGCT CTTCCCCTAC
    TTTAATGGAA CATATGATTA TCGGATCAAA GACGCTGATG ATAATTGTAC ATTAAATCAA
    AAATATCGTG TTGATGTCTA CAGCCTGTTT AAGGATATGC AACTGAAAAT TGTCACCAAC
    GCCTATAATA AGAGGCCCTC GAGGTGCTGG GAAGAGGATG TAGAAGAAAT GTTGTATGTT
    CCAAATGAAG TATATATACC ATATTTGAAA GCAAGGGCCA AATTATTTGG AGTCAATCCA
    GACTGGACAG TTGAATTACC CACCCATATT GAACCTACAC CAAAACTTAG TAGAGTAGAA
    GATTTTTCAG TATTGTCAAA GACAAAATAT TTCAGAGACA AAGATGGAAT CACTAAAGGA
    GCTGCTGAAA TAATCCGGGT GTCTTTGCCA GAGACCTGGA TCTGGGAGCT AGCGGCCGTG
    GGTGAGTCGG GTAGAGCCGA GGTCCATGGC TCAGCCCCAG ACACCATCAC CGAGTGGAAT
    GCAGGAGCTT TCTGTATGGG ACCCAGTGGG TTTGGCATCT CCCCACCAAC CTCCCTTCGA
    GCCTTCCAGC CCTTCTTTGT GGAGCTCACT CTGCCGTACT CTGTGGTGCG AGGGGAGTCA
    TTCACTCTCA AGGCCTCTGT GTTTAACTCC CTCAAGCAGT GTATAAAGGT TCAGACCATC
    CTGCTGCCTT CACAAGAGTT AGAGCTGGAA CCATGTGCCG ACTGTCAGTA TAGCAGCTGT
    CTCTGTGCAG AGGAAAGCAA GACCTTCTAC TGGAACCTTA AAGCCTCCAA CCTGGGAGAG
    GTGAACATCA CGGTGAGGAC GGAGGCTCTG AACACTCAGG ACATGTGCAA TAATGAGATT
    GCTATTGTGC CCAAGCAGGG TCACTCCGAC ACTGTGATTA AGCCACTGCT GGTGCAGCCA
    GGGGGAATTC TAGTAGAAAA GTCTCACAAC TCTCTGATCT GCAGACAAAA TGCAAAAGCC
    CATTCTATAA AAGAGAAGAT ATCCCTGAAT GTTCCTGAAA ATATTCTGAA GGGTTCTGAG
    AGAGCTTATA TAACAGTGCT GGGAGACCTG ATGGGAACAG CCATGCAGAA CCTGGACCGG
    CTCCTGGCCA TGCCACTTGG AAATGGAGAG CAGAAAATGA TTATTTTTGC CCCCAGTATC
    TACATTCTAC AGTATCTGGA AAACACTCAC CAACTGAGCC CTGAGATCCA GAGCAAAGCC
    AAACGATTGC TTACAGATGG GTACCAAAGA CAACTGACAT GCAAAGTATA TGATCGATAC
    TACTATGTAT TCAGGCCACA GTCAGAGGAA AACTCATGGC TGAATGCATA TGTAACAAAG
    TCCTTCAGCA AGGCTCGTCC CTACATCTTC ATAGATAGAG TCCAGATTCG CCAATGTATT
    TTGTTACTAT GGAACTATTG CAAAAAAAAA TGCGGCTGTT TCCGAAGGGT GGGAAAACGC
    TTCAATAATG CTCTGAAGGG GGGAGTGGAT GATGATGAAC TATCACTCTC TGCTTACATC
    TCTATTGCTC TAATGGACGC CGGTTTGTCA AAACAGGGCA ATTTACTCAG GCACGCTCTA
    TACTGTCTCA GGGAGGCTGC CAAAAACGTG AGCAGTGCCT ACATCCAGGC TCTACTGGCC
    TACACTTTCT CTCTGAGTGG AGATAATAAA CTCAGGGAGA TGCTGCTGGC TAAACTGGAG
    GAGAAGGCCA TAAGGAAAGA TGGACAGTTA CACTGGGAGC AGATACCTGC CTTTGAGGCC
    TTCAACCTCT CATCCTGGAA CCGCGCTCCC TCAGCCGAAG TGGAGTTAGC CTCCTATGTG
    CTGCTGGCCC TTCGCTCAGA AACTAAGAAG GACCGGAGAA AAGCTTCTGA GATAGTCAAC
    TGGCTGAGCA AGCAGCAAAA TCCTTATGGG GGGTTCTACT CTACTCAGGA CACGGTTGTA
    GCGCTACAGG CTCTTGCTGA GTATGCCGAG GCCACATTCT CTGACAAGGG AGATGTCACA
    GTCACAGTCA CTTCCAAGAC TGGGTTCCAT CAACAGTTCC ATGTGGATCA GACTAACCGA
    CTCCTGCTAC AGAAAGCCTC ACTGCCAGAT ATCCCTGGGG AGTACTCTCT GTCAGCCACT
    GGGAGCGGCT GTGTTTATGT ACAGACTGTC CTGAGATACA ACATTCCCCC ACCTAGAAGT
    GACGCCACCT TCTCAGTACG AGTGGAGACC CAACCACAGC AATGTCCCCA GGAGCCAATG
    AAACAGATGG GCATAGACAT TTATATTCAA TACACAGGGT CTCGGGAGGA ATCCAACTTG
    GCTCTGGTTG AGGTCAAGAT GCTCTCAGGC TTTATCCCAG TGCGGAGCAC AACGCATCAG
    CTAGTGAGCA GCAATACGAT AAAGCACATT GAGACCCAAA ATGATGTCCT GGCGTTATAC
    CTGAATGAGT TAGGACATGA TCCAGTTCAT CTCTCCTTCA TGGTGGAACA AGACATTGTG
    GTGAAGAACC TAAAGCCGGC CACAGTGAAG GTCTATGATT ATTATGAGCC AACGGAACAT
    GCAGTTACCG AGTACAACTC CCCCTGCAGC TCGGATGAAG AGGCGGGCAA CTGA

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