LOC108645185 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following LOC108645185 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC108645185 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
OXa41122 XM_018090032.1
Latest version!
Xenopus tropicalis alpha-2-macroglobulin-like protein 1 (LOC108645185), mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OXa62155 XM_031905741.1
Latest version!
Xenopus tropicalis alpha-2-macroglobulin-like protein 1 (LOC108645185), mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00

ORF Online Only Promotion

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

*Business Day

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

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

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

  • Reference Sequences (Refseq)
    CloneID OXa41122
    Clone ID Related Accession (Same CDS sequence) XM_018090032.1
    Accession Version XM_018090032.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4260bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-09-07
    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 (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 :: 2% 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
    4201
    ATGGTGCTGC TCAGGGCCCT GGGCTTGGCG CTGGCCCTAC TGCATCTCTC TGGGACATTG 
    GAGGCAAAGC TGCATTATGC GGTGATCTTC CCCTCGGAGT TGGTGGCCCC CCATTCTGAA
    CAAGCCTGTG TGCACCTCAG TGGGGCGGAG GGAGACAGCC GGATACAGGT TACCTTGAAC
    ATGGCCGAAC GGAACTCAAC GGTGATAGAG AGGAACCTCC GGCAGAAATC CCTCTTCAGC
    TGTGTTACAT TCCAGGTGCC TCCACCCACT CAAGGGAATG AAGAAGTGGC CACCATGGAA
    ATTCTCATTG AGAGCGCAGG GGAGACCGTA ACCAACAGCA GCAAAGTTCT AGTGAAGAGG
    AGAAGAACCA GCACTTTCAT TCAGACGGAC AAAGCTGTAT ATAAACCAGG GGACACAGTG
    CAAATACGAG TTGTAAATCT TGAAGAAAAT CTACAACTGA AAGAAACTCA GGTAAGTGTC
    TGTTCCCTTC AGGATCCAAG GTGGAACCAT ATTACCCAGT GGCTGAATGT GACTGTCACA
    CAGGGAATCG CTGAGCTCTC GTTGCCGCTG TCCCCGGAGC CTTTGTTTGG TCAATATGCC
    ATTCGTGTTG GGCACACTGT GCACTTCTTT AATGTGGCAG GATACGCCCT TCCCAAATTT
    GAGGTCGTCT TTCAGTTCCC CAAGGCTGTT TTATCCAACA GTGAACAATT CCAGCTGAAA
    ATATGCGGCA GGTACCCATA TGGCCAACCC GTGCAAGGAA CATATCAGGC TACGGTGTGT
    CGCTGGGCCT TTTTAGTCTA CTGGTCGGGA CATTTTCAAA ATTTTTCGGA CCTGTGTGTT
    GATTTCAGTG GAAAGTTGGA ACAGTCTGGG TGTTCCATAT TGCAAATCAA GTCTGATACC
    TTTAGAATTG CCTACAACAC TCATGAAATG TATCTAGAGG GAGTAGCAAC CATTACAGAG
    GAAGGAACAG GGATGAAATA TTCTGGAAGA GATGGAACCA CCATTTTATC CACGCTAAAA
    AGTTGCCGTT TCCTGGATGC TGACAGTAAC TACAAGCCGG GGATCCCATA CAGAGGGACA
    ATAAAGGTGA TGGACGGCAA TGATGATCCC CTTCCAAACC AAAAAGTCTC CCTAACCATC
    AATCCTATGA ATATAACGGA GAACTTGGTA TCGGATGAGA ATGGACTTGT TTCCTTCCAG
    TTGGACAACA CGACCGCATG GGAGGGAAAG CTGCGCCTTA CGGCGAGTCC AGAAATGGAA
    AACACTGTTG ATTGGTATTC CGGGCTCATT ATACCTGTTT TAGGGAAAGA CTCTCTGGAA
    CTCACACCCT TTGAATCCCC CAGCAAGAGT TTCCTGAAAC TGCACTCCCA GCAGGGGGAG
    CTCCCATGTG AGGGGCAACG AGATGTCCGA GTGGAATATA TTATCCCAAA CTCTGCCCTG
    GGGATGGAGG CCAAGCACAT GGAGCTGCAC TACCTGGTTG TTTCTAAAGA ATCTATAAAG
    GACTCGGGAT CAGTGGAAGT GCCCATTACT AGTGAAGTAG GAGGATCTTC AGTAAGGGGT
    GAGGTGAGGG GTGAGGTCTC CATCAAACTC ACACTCAGTG CCGACGTCTC TCCGACTCTC
    CGCGCTCTCG CCTTCATTTC CCTCCCTAAT GGGGAATTAG TGGCCGATTC TGCAACATTC
    AAACTGCAAA GGTGCTTCAA GAACAAAGTA TCAGTTGGCT TCTCCCCAGA TGAAGTTCTC
    CCAGGAGCTG ATGTTTCCCT ACAAGTCCAG GCAGCCGCCG GGTCCCTGTG TGGCCTGAGA
    GTGGTGGATA AGACTGTTGA GCCTGAGGTG GATGTGACGG CTGATAGGAT TGAGAAGCTC
    TTCCCCTACT TTACTGGAAC ATATGATTAT CGGATCAAAG ACGCTGATGT TAATTGTCCA
    TTAAATCAAA AATATCGCGT TGATGTCTAC AGCCTGTTTA AGGATATGCG CCTGAAAATT
    GTCACCAACG CCTATAATAA GAGGCCCTCG GGGTGCTGGG AAAAGGATGT AGAAGAAATG
    TTGTACGTTC CCACTGAAAT ACAGTTATCA TATTTGAAAG CATATTTTTC AGTAATTTCA
    ATGTCAAACG ATTTCAGAGA CAAAAATGAA ATCACTAAAG GAGCTGCTGA AATAATCCCG
    GTGTCTTTGC CAGAGACCTG GATCTGGGAG CTAGCGGCCG TGGGTGAGTC GGGTAGAGCC
    GAGGTCCATG GCTCAGCCCC AGACACCATC ACCGAGTGGA ATGCAGGAGC TTTCTGTATG
    GGACCCAGTG GGTTTGGCAT CTCCCCACCA ACCTCCCTTC GAGCCTTCCA GCCATTCTTT
    GTGGAGCTCA CTCTGCCGTA CTCTGTGGTG CGAGGGGAGT CATTCACTCT CAAGGCTTCT
    GTGTTTAACT ACCTCAAGCA CTGTATAAAG GTTCAGACCA TCCTGCTGCC TTCACAAGAG
    TTAGAGCTGG AACCATGTGC CGACTGTCAG TATAGCAGCT GTCTCTGTGC AGAGGAAAGC
    AAGACCTTCT ACTGGAACCT TAAAGCCTCC AACCTGGGAG AGGTGAACGT CACGGTGAGG
    ACGGAGGCTC TGAACACTCA GGACATGTGC AATAATGAGA TTCCTATTGT GCCCAAGCAG
    GGTCACTCCG ACACTGTGAT TAAGCCACTG CTGGTGCAGC CAGGGGGAAT TCTAGTAGAA
    AAGTCTCACA ACTCTCTGAT CTGCAGACAA AATGCAAAAG CCCATTCAAA AAAAGAGAAG
    ATATCCCTGA AAGTTCCTGA AAATGTTCTG AAGGGTTCTG AGAGAGCTTA CATAACAGTG
    CTAGGAGACC TGATGGGAAC AGCCATGCAG AACCTGGACT GGCTCCTGCC CATGCCATTT
    GGAAATGCGG AGCAGAAAAT GATTCTTTTT GCCCCCAGTA TCTACATTCT ACAGTATCTG
    GAAAACACTC TCCAACTGAG CCCTGAGATC CAGAGCAAAG CCAAACGATT GCTTACGGAT
    GGGTACCAAA GACAACTGCC ATACAAAGTA TATGATCGAT ACTACTATTT ATTTAGGTCA
    CAGTCACAGG AAAACTCATG GTCCATAGAA AACTCTTCGA TGGCGCATCT GTGTTCTCCA
    GCCATCCTAT ATAATAGAAA CATAGGGGGA GTAGAAGATG ATGAACTATC ACTCTCTGCT
    TACGTCACCG TAGCTCTAAT GGACGCCGGT ATGCCGCAAA CGGACACTAT ACTCAGGCAC
    GCTCTATACT GTCTCAGGGA GGCTGCCAAA AACGTGAGCA GTGCCTACAC CCAGGCTCTA
    CTGGCCTACA CTTTCTCTCT GAGTGGAGAT AATAAATTCA GGGAGATGCT GCTGGCTAAA
    CTGGAGGAGA AGGCCATAAG GAAAGATGGA CAGTTACACT GGGAGCAGAT ACCTGCCTTT
    GAGGCCTTCA ACCTCTCATC CTGGCACCGC GCTCCCTCAG CTGAAGTGGA GTTAGCCTCC
    TACGTGCTGC TGGCCCTTCG CTCAGAAACT AAGAAGGACC AGAGAAAAGC TTCTGAGATA
    GTCAACTGGC TGAGCAAGCA GCAAAATCCT TATGGGGGGT TCTACTCTAC TCAGGACACA
    GTTGTAGCGC TACAGGCTCT TGCTGAGTAT GCCGAGGCCA CATTCTCTGA CAAGGGAGAT
    GTCACAGTCA CAGTCACTTC CAAGACTGGG TTCCATCAAC AGTTCCATGT GGATCAGACT
    AACCGGCTCC TGCTACAGAA AGCCTCACTG CCAGATATCC CTGGGGAGTA CTCTCTGTCA
    GCCACTGGGA GCGGCTGTGT GTATGTACAG ACTGTCCTGA GATACAACAT TCCCCCACCT
    AGAAGTGACG CCACCTTCTC AGTACGAGTG GAGACCCAAC CAAAGCAATG TCCCCAGGAG
    CCAATGAAAC AGATGGGCAT AGACATTTAC ATTCAATACA CAGGGTCTCG GGAGAAATCC
    AACTTGGCTC TGGTTGAGGT CAAGATGCTC TCAGGCTTTA TACCCGCGTG GAGCACAACG
    CATCAGCTAG TGAGCAGCAA TACGATAAAG CACATTGAGA CCCAAAATGA TGTCCTGGCG
    TTATACCTGA ATGAGTTAGG ACATGATCCA GTTCATCTCT CCTTCATGGT GGAACAAGAC
    ATTGTGGTGA AGAACCTAAA GCCGGCCACA GTGAAGGTCT ATGATTATTA TGAGCCAACG
    GAACATGCAG TTACCGAGTA CAACTCCCCC TGCAGCTCGG ATGAAGAACC GGGCAACTGA

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

    RefSeq XP_017945521.1
    CDS64..4323
    Translation

    Target ORF information:

    RefSeq Version XM_018090032.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis alpha-2-macroglobulin-like protein 1 (LOC108645185), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018090032.1

    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
    ATGGTGCTGC TCAGGGCCCT GGGCTTGGCG CTGGCCCTAC TGCATCTCTC TGGGACATTG 
    GAGGCAAAGC TGCATTATGC GGTGATCTTC CCCTCGGAGT TGGTGGCCCC CCATTCTGAA
    CAAGCCTGTG TGCACCTCAG TGGGGCGGAG GGAGACAGCC GGATACAGGT TACCTTGAAC
    ATGGCCGAAC GGAACTCAAC GGTGATAGAG AGGAACCTCC GGCAGAAATC CCTCTTCAGC
    TGTGTTACAT TCCAGGTGCC TCCACCCACT CAAGGGAATG AAGAAGTGGC CACCATGGAA
    ATTCTCATTG AGAGCGCAGG GGAGACCGTA ACCAACAGCA GCAAAGTTCT AGTGAAGAGG
    AGAAGAACCA GCACTTTCAT TCAGACGGAC AAAGCTGTAT ATAAACCAGG GGACACAGTG
    CAAATACGAG TTGTAAATCT TGAAGAAAAT CTACAACTGA AAGAAACTCA GGTAAGTGTC
    TGTTCCCTTC AGGATCCAAG GTGGAACCAT ATTACCCAGT GGCTGAATGT GACTGTCACA
    CAGGGAATCG CTGAGCTCTC GTTGCCGCTG TCCCCGGAGC CTTTGTTTGG TCAATATGCC
    ATTCGTGTTG GGCACACTGT GCACTTCTTT AATGTGGCAG GATACGCCCT TCCCAAATTT
    GAGGTCGTCT TTCAGTTCCC CAAGGCTGTT TTATCCAACA GTGAACAATT CCAGCTGAAA
    ATATGCGGCA GGTACCCATA TGGCCAACCC GTGCAAGGAA CATATCAGGC TACGGTGTGT
    CGCTGGGCCT TTTTAGTCTA CTGGTCGGGA CATTTTCAAA ATTTTTCGGA CCTGTGTGTT
    GATTTCAGTG GAAAGTTGGA ACAGTCTGGG TGTTCCATAT TGCAAATCAA GTCTGATACC
    TTTAGAATTG CCTACAACAC TCATGAAATG TATCTAGAGG GAGTAGCAAC CATTACAGAG
    GAAGGAACAG GGATGAAATA TTCTGGAAGA GATGGAACCA CCATTTTATC CACGCTAAAA
    AGTTGCCGTT TCCTGGATGC TGACAGTAAC TACAAGCCGG GGATCCCATA CAGAGGGACA
    ATAAAGGTGA TGGACGGCAA TGATGATCCC CTTCCAAACC AAAAAGTCTC CCTAACCATC
    AATCCTATGA ATATAACGGA GAACTTGGTA TCGGATGAGA ATGGACTTGT TTCCTTCCAG
    TTGGACAACA CGACCGCATG GGAGGGAAAG CTGCGCCTTA CGGCGAGTCC AGAAATGGAA
    AACACTGTTG ATTGGTATTC CGGGCTCATT ATACCTGTTT TAGGGAAAGA CTCTCTGGAA
    CTCACACCCT TTGAATCCCC CAGCAAGAGT TTCCTGAAAC TGCACTCCCA GCAGGGGGAG
    CTCCCATGTG AGGGGCAACG AGATGTCCGA GTGGAATATA TTATCCCAAA CTCTGCCCTG
    GGGATGGAGG CCAAGCACAT GGAGCTGCAC TACCTGGTTG TTTCTAAAGA ATCTATAAAG
    GACTCGGGAT CAGTGGAAGT GCCCATTACT AGTGAAGTAG GAGGATCTTC AGTAAGGGGT
    GAGGTGAGGG GTGAGGTCTC CATCAAACTC ACACTCAGTG CCGACGTCTC TCCGACTCTC
    CGCGCTCTCG CCTTCATTTC CCTCCCTAAT GGGGAATTAG TGGCCGATTC TGCAACATTC
    AAACTGCAAA GGTGCTTCAA GAACAAAGTA TCAGTTGGCT TCTCCCCAGA TGAAGTTCTC
    CCAGGAGCTG ATGTTTCCCT ACAAGTCCAG GCAGCCGCCG GGTCCCTGTG TGGCCTGAGA
    GTGGTGGATA AGACTGTTGA GCCTGAGGTG GATGTGACGG CTGATAGGAT TGAGAAGCTC
    TTCCCCTACT TTACTGGAAC ATATGATTAT CGGATCAAAG ACGCTGATGT TAATTGTCCA
    TTAAATCAAA AATATCGCGT TGATGTCTAC AGCCTGTTTA AGGATATGCG CCTGAAAATT
    GTCACCAACG CCTATAATAA GAGGCCCTCG GGGTGCTGGG AAAAGGATGT AGAAGAAATG
    TTGTACGTTC CCACTGAAAT ACAGTTATCA TATTTGAAAG CATATTTTTC AGTAATTTCA
    ATGTCAAACG ATTTCAGAGA CAAAAATGAA ATCACTAAAG GAGCTGCTGA AATAATCCCG
    GTGTCTTTGC CAGAGACCTG GATCTGGGAG CTAGCGGCCG TGGGTGAGTC GGGTAGAGCC
    GAGGTCCATG GCTCAGCCCC AGACACCATC ACCGAGTGGA ATGCAGGAGC TTTCTGTATG
    GGACCCAGTG GGTTTGGCAT CTCCCCACCA ACCTCCCTTC GAGCCTTCCA GCCATTCTTT
    GTGGAGCTCA CTCTGCCGTA CTCTGTGGTG CGAGGGGAGT CATTCACTCT CAAGGCTTCT
    GTGTTTAACT ACCTCAAGCA CTGTATAAAG GTTCAGACCA TCCTGCTGCC TTCACAAGAG
    TTAGAGCTGG AACCATGTGC CGACTGTCAG TATAGCAGCT GTCTCTGTGC AGAGGAAAGC
    AAGACCTTCT ACTGGAACCT TAAAGCCTCC AACCTGGGAG AGGTGAACGT CACGGTGAGG
    ACGGAGGCTC TGAACACTCA GGACATGTGC AATAATGAGA TTCCTATTGT GCCCAAGCAG
    GGTCACTCCG ACACTGTGAT TAAGCCACTG CTGGTGCAGC CAGGGGGAAT TCTAGTAGAA
    AAGTCTCACA ACTCTCTGAT CTGCAGACAA AATGCAAAAG CCCATTCAAA AAAAGAGAAG
    ATATCCCTGA AAGTTCCTGA AAATGTTCTG AAGGGTTCTG AGAGAGCTTA CATAACAGTG
    CTAGGAGACC TGATGGGAAC AGCCATGCAG AACCTGGACT GGCTCCTGCC CATGCCATTT
    GGAAATGCGG AGCAGAAAAT GATTCTTTTT GCCCCCAGTA TCTACATTCT ACAGTATCTG
    GAAAACACTC TCCAACTGAG CCCTGAGATC CAGAGCAAAG CCAAACGATT GCTTACGGAT
    GGGTACCAAA GACAACTGCC ATACAAAGTA TATGATCGAT ACTACTATTT ATTTAGGTCA
    CAGTCACAGG AAAACTCATG GTCCATAGAA AACTCTTCGA TGGCGCATCT GTGTTCTCCA
    GCCATCCTAT ATAATAGAAA CATAGGGGGA GTAGAAGATG ATGAACTATC ACTCTCTGCT
    TACGTCACCG TAGCTCTAAT GGACGCCGGT ATGCCGCAAA CGGACACTAT ACTCAGGCAC
    GCTCTATACT GTCTCAGGGA GGCTGCCAAA AACGTGAGCA GTGCCTACAC CCAGGCTCTA
    CTGGCCTACA CTTTCTCTCT GAGTGGAGAT AATAAATTCA GGGAGATGCT GCTGGCTAAA
    CTGGAGGAGA AGGCCATAAG GAAAGATGGA CAGTTACACT GGGAGCAGAT ACCTGCCTTT
    GAGGCCTTCA ACCTCTCATC CTGGCACCGC GCTCCCTCAG CTGAAGTGGA GTTAGCCTCC
    TACGTGCTGC TGGCCCTTCG CTCAGAAACT AAGAAGGACC AGAGAAAAGC TTCTGAGATA
    GTCAACTGGC TGAGCAAGCA GCAAAATCCT TATGGGGGGT TCTACTCTAC TCAGGACACA
    GTTGTAGCGC TACAGGCTCT TGCTGAGTAT GCCGAGGCCA CATTCTCTGA CAAGGGAGAT
    GTCACAGTCA CAGTCACTTC CAAGACTGGG TTCCATCAAC AGTTCCATGT GGATCAGACT
    AACCGGCTCC TGCTACAGAA AGCCTCACTG CCAGATATCC CTGGGGAGTA CTCTCTGTCA
    GCCACTGGGA GCGGCTGTGT GTATGTACAG ACTGTCCTGA GATACAACAT TCCCCCACCT
    AGAAGTGACG CCACCTTCTC AGTACGAGTG GAGACCCAAC CAAAGCAATG TCCCCAGGAG
    CCAATGAAAC AGATGGGCAT AGACATTTAC ATTCAATACA CAGGGTCTCG GGAGAAATCC
    AACTTGGCTC TGGTTGAGGT CAAGATGCTC TCAGGCTTTA TACCCGCGTG GAGCACAACG
    CATCAGCTAG TGAGCAGCAA TACGATAAAG CACATTGAGA CCCAAAATGA TGTCCTGGCG
    TTATACCTGA ATGAGTTAGG ACATGATCCA GTTCATCTCT CCTTCATGGT GGAACAAGAC
    ATTGTGGTGA AGAACCTAAA GCCGGCCACA GTGAAGGTCT ATGATTATTA TGAGCCAACG
    GAACATGCAG TTACCGAGTA CAACTCCCCC TGCAGCTCGG ATGAAGAACC GGGCAACTGA

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

    CloneID OXa62155
    Clone ID Related Accession (Same CDS sequence) XM_031905741.1
    Accession Version XM_031905741.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4350bp)
    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## ##RefSeq-Attributes-START## ab initio :: 2% 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
    4201
    4261
    4321
    ATGGTGCTGC TCAGGGCCCT GGGCTTGGCG CTGGCCCTAC TGCATCTCTC TGGGACATTG 
    GAGGCAAAGC TGCATTATGC GGTGATCTTC CCCTCGGAGT TGGTGGCCCC CCATTCTGAA
    CAAGCCTGTG TGCACCTCAG TGGGGCGGAG GGAGACAGCC GGATACAGGT TACCTTGAAC
    ATGGCCGAAC GGAACTCAAC GGTGATAGAG AGGAACCTCC GGCAGAAATC CCTCTTCAGC
    TGTGTTACAT TCCAGGTGCC TCCACCCACT CAAGGGAATG AAGAAGTGGC CACCATGGAA
    ATTCTCATTG AGAGCGCAGG GGAGACCGTA ACCAACAGCA GCAAAGTTCT AGTGAAGAGG
    AGAAGAACCA GCACTTTCAT TCAGACGGAC AAAGCTGTAT ATAAACCAGG GGACACAGTG
    CAAATACGAG TTGTAAATCT TGAAGAAAAT CTACAACTGA AAGAAACTCA GGTAAGTGTC
    TGTTCCCTTC AGGATCCAAG GTGGAACCAT ATTACCCAGT GGCTGAATGT GACTGTCACA
    CAGGGAATCG CTGAGCTCTC GTTGCCGCTG TCCCCGGAGC CTTTGTTTGG TCAATATGCC
    ATTCGTGTTG GGCACACTGT GCACTTCTTT AATGTGGCAG GATACGCCCT TCCCAAATTT
    GAGGTCGTCT TTCAGTTCCC CAAGGCTGTT TTATCCAACA GTGAACAATT CCAGCTGAAA
    ATATGCGGCA GGTACCCATA TGGCCAACCC GTGCAAGGAA CATATCAGGC TACGGTGTGT
    CGCTGGGCCT TTTTAGTCTA CTGGTCGGGA CATTTTCAAA ATTTTTCGGA CCTGTGTGTT
    GATTTCAGTG GAAAGTTGGA ACAGTCTGGG TGTTCCATAT TGCAAATCAA GTCTGATACC
    TTTAGAATTG CCTACAACAC TCATGAAATG TATCTAGAGG GAGTAGCAAC CATTACAGAG
    GAAGGAACAG GGATGAAATA TTCTGGAAGA GATGGAACCA CCATTTTATC CACGCTAAAA
    AGTTGCCGTT TCCTGGATGC TGACAGTAAC TACAAGCCGG GGATCCCATA CAGAGGGACA
    ATAAAGGTGA TGGACGGCAA TGATGATCCC CTTCCAAACC AAAAAGTCTC CCTAACCATC
    AATCCTATGA ATATAACGGA GAACTTGGTA TCGGATGAGA ATGGACTTGT TTCCTTCCAG
    TTGGACAACA CGACCGCATG GGAGGGAAAG CTGCGCCTTA CGGCGAGTCC AGAAATGGAA
    AACACTGTTG ATTGGTATTC CGGGCTCATT ATACCTGTTT TAGGGAAAGA CTCTCTGGAA
    CTCACACCCT TTGAATCCCC CAGCAAGAGT TTCCTGAAAC TGCACTCCCA GCAGGGGGAG
    CTCCCATGTG AGGGGCAACG AGATGTCCGA GTGGAATATA TTATCCCAAA CTCTGCCCTG
    GGGATGGAGG CCAAGCACAT GGAGCTGCAC TACCTGGTTG TTTCTAAAGA ATCTATAAAG
    GACTCGGGAT CAGTGGAAGT GCCCATTACT AGTGAAGTAG GAGGATCTTC AGTAAGGGGT
    GAGGTGAGGG GTGAGGTCTC CATCAAACTC ACACTCAGTG CCGACGTCTC TCCGACTCTC
    CGCGCTCTCG CCTTCATTTC CCTCCCTAAT GGGGAATTAG TGGCCGATTC TGCAACATTC
    AAACTGCAAA GGTGCTTCAA GAACAAAGTA TCAGTTGGCT TCTCCCCAGA TGAAGTTCTC
    CCAGGAGCTG ATGTTTCCCT ACAAGTCCAG GCAGCCGCCG GGTCCCTGTG TGGCCTGAGA
    GTGGTGGATA AGACTGTTGA GCCTGAGGTG GATGTGACGG CTGATAGGAT TGAGAAGCTC
    TTCCCCTACT TTACTGGAAC ATATGATTAT CGGATCAAAG ACGCTGATGT TAATTGTCCA
    TTAAATCAAA AATATCGCGT TGATGTCTAC AGCCTGTTTA AGGATATGCG CCTGAAAATT
    GTCACCAACG CCTATAATAA GAGGCCCTCG GGGTGCTGGG AAAAGGATGT AGAAGAAATG
    TTGTACGTTC CCACTGAAAT ACAGTTATCA TATTTGAAAG CATTGGCCCA ACTATTCGGA
    GTCAATCCAG ACTGGACAGT TGAATTACCC ACCCATATTG AACCTACACC AAAATTTAGA
    AGAGTAGAAG ATTTTTCAGT AATTTCAATG TCAAACGATT TCAGAGACAA AAATGAAATC
    ACTAAAGGAG CTGCTGAAAT AATCCCGGTG TCTTTGCCAG AGACCTGGAT CTGGGAGCTA
    GCGGCCGTGG GTGAGTCGGG TAGAGCCGAG GTCCATGGCT CAGCCCCAGA CACCATCACC
    GAGTGGAATG CAGGAGCTTT CTGTATGGGA CCCAGTGGGT TTGGCATCTC CCCACCAACC
    TCCCTTCGAG CCTTCCAGCC ATTCTTTGTG GAGCTCACTC TGCCGTACTC TGTGGTGCGA
    GGGGAGTCAT TCACTCTCAA GGCTTCTGTG TTTAACTACC TCAAGCACTG TATAAAGGTT
    CAGACCATCC TGCTGCCTTC ACAAGAGTTA GAGCTGGAAC CATGTGCCGA CTGTCAGTAT
    AGCAGCTGTC TCTGTGCAGA GGAAAGCAAG ACCTTCTACT GGAACCTTAA AGCCTCCAAC
    CTGGGAGAGG TGAACGTCAC GGTGAGGACG GAGGCTCTGA ACACTCAGGA CATGTGCAAT
    AATGAGATTC CTATTGTGCC CAAGCAGGGT CACTCCGACA CTGTGATTAA GCCACTGCTG
    GTGCAGCCAG GGGGAATTCT AGTAGAAAAG TCTCACAACT CTCTGATCTG CAGACAAAAT
    GCAAAAGCCC ATTCAAAAAA AGAGAAGATA TCCCTGAAAG TTCCTGAAAA TGTTCTGAAG
    GGTTCTGAGA GAGCTTACAT AACAGTGCTA GGAGACCTGA TGGGAACAGC CATGCAGAAC
    CTGGACTGGC TCCTGCCCAT GCCATTTGGA AATGCGGAGC AGAAAATGAT TCTTTTTGCC
    CCCAGTATCT ACATTCTACA GTATCTGGAA AACACTCTCC AACTGAGCCC TGAGATCCAG
    AGCAAAGCCA AACGATTGCT TACGGATGGG TACCAAAGAC AACTGCCATA CAAAGTATAT
    GATCGATACT ACTATTTATT TAGGTCACAG TCACAGGAAA ACTCATGGTC CATAGAAAAC
    TCTTCGATGG CGCATCTGTG TTCTCCAGCC ATCCTATATA ATAGAAACAT AGGGGGAGTA
    GAAGATGATG AACTATCACT CTCTGCTTAC GTCACCGTAG CTCTAATGGA CGCCGGTATG
    CCGCAAACGG ACACTATACT CAGGCACGCT CTATACTGTC TCAGGGAGGC TGCCAAAAAC
    GTGAGCAGTG CCTACACCCA GGCTCTACTG GCCTACACTT TCTCTCTGAG TGGAGATAAT
    AAATTCAGGG AGATGCTGCT GGCTAAACTG GAGGAGAAGG CCATAAGGAA AGATGGACAG
    TTACACTGGG AGCAGATACC TGCCTTTGAG GCCTTCAACC TCTCATCCTG GCACCGCGCT
    CCCTCAGCTG AAGTGGAGTT AGCCTCCTAC GTGCTGCTGG CCCTTCGCTC AGAAACTAAG
    AAGGACCAGA GAAAAGCTTC TGAGATAGTC AACTGGCTGA GCAAGCAGCA AAATCCTTAT
    GGGGGGTTCT ACTCTACTCA GGACACAGTT GTAGCGCTAC AGGCTCTTGC TGAGTATGCC
    GAGGCCACAT TCTCTGACAA GGGAGATGTC ACAGTCACAG TCACTTCCAA GACTGGGTTC
    CATCAACAGT TCCATGTGGA TCAGACTAAC CGGCTCCTGC TACAGAAAGC CTCACTGCCA
    GATATCCCTG GGGAGTACTC TCTGTCAGCC ACTGGGAGCG GCTGTGTGTA TGTACAGACT
    GTCCTGAGAT ACAACATTCC CCCACCTAGA AGTGACGCCA CCTTCTCAGT ACGAGTGGAG
    ACCCAACCAA AGCAATGTCC CCAGGAGCCA ATGAAACAGA TGGGCATAGA CATTTACATT
    CAATACACAG GGTCTCGGGA GGAATCCAAC TTGGCTCTGG TTGAGGTCAA GATGCTCTCA
    GGCTTTATAC CCGCGTGGAG CACAACGCAT CAGCTAGTGA GCAGCAATAC GATAAAGCAC
    ATTGAGACCC AAAATGATGT CCTGGCGTTA TACCTGAATG AGTTAGGACA TGATCCAGTT
    CATCTCTCCT TCATGGTGGA ACAAGACATT GTGGTGAAGA ACCTAAAGCC GGCCACAGTG
    AAGGTCTATG ATTATTATGA GCCAACGGAA CATGCAGTTA CCGAGTACAA CTCCCCCTGC
    AGCTCGGGTA AGAACCCAGT ACAGGTCTGA

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

    RefSeq XP_031761601.1
    CDS27..4376
    Translation

    Target ORF information:

    RefSeq Version XM_031905741.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis alpha-2-macroglobulin-like protein 1 (LOC108645185), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031905741.1

    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
    ATGGTGCTGC TCAGGGCCCT GGGCTTGGCG CTGGCCCTAC TGCATCTCTC TGGGACATTG 
    GAGGCAAAGC TGCATTATGC GGTGATCTTC CCCTCGGAGT TGGTGGCCCC CCATTCTGAA
    CAAGCCTGTG TGCACCTCAG TGGGGCGGAG GGAGACAGCC GGATACAGGT TACCTTGAAC
    ATGGCCGAAC GGAACTCAAC GGTGATAGAG AGGAACCTCC GGCAGAAATC CCTCTTCAGC
    TGTGTTACAT TCCAGGTGCC TCCACCCACT CAAGGGAATG AAGAAGTGGC CACCATGGAA
    ATTCTCATTG AGAGCGCAGG GGAGACCGTA ACCAACAGCA GCAAAGTTCT AGTGAAGAGG
    AGAAGAACCA GCACTTTCAT TCAGACGGAC AAAGCTGTAT ATAAACCAGG GGACACAGTG
    CAAATACGAG TTGTAAATCT TGAAGAAAAT CTACAACTGA AAGAAACTCA GGTAAGTGTC
    TGTTCCCTTC AGGATCCAAG GTGGAACCAT ATTACCCAGT GGCTGAATGT GACTGTCACA
    CAGGGAATCG CTGAGCTCTC GTTGCCGCTG TCCCCGGAGC CTTTGTTTGG TCAATATGCC
    ATTCGTGTTG GGCACACTGT GCACTTCTTT AATGTGGCAG GATACGCCCT TCCCAAATTT
    GAGGTCGTCT TTCAGTTCCC CAAGGCTGTT TTATCCAACA GTGAACAATT CCAGCTGAAA
    ATATGCGGCA GGTACCCATA TGGCCAACCC GTGCAAGGAA CATATCAGGC TACGGTGTGT
    CGCTGGGCCT TTTTAGTCTA CTGGTCGGGA CATTTTCAAA ATTTTTCGGA CCTGTGTGTT
    GATTTCAGTG GAAAGTTGGA ACAGTCTGGG TGTTCCATAT TGCAAATCAA GTCTGATACC
    TTTAGAATTG CCTACAACAC TCATGAAATG TATCTAGAGG GAGTAGCAAC CATTACAGAG
    GAAGGAACAG GGATGAAATA TTCTGGAAGA GATGGAACCA CCATTTTATC CACGCTAAAA
    AGTTGCCGTT TCCTGGATGC TGACAGTAAC TACAAGCCGG GGATCCCATA CAGAGGGACA
    ATAAAGGTGA TGGACGGCAA TGATGATCCC CTTCCAAACC AAAAAGTCTC CCTAACCATC
    AATCCTATGA ATATAACGGA GAACTTGGTA TCGGATGAGA ATGGACTTGT TTCCTTCCAG
    TTGGACAACA CGACCGCATG GGAGGGAAAG CTGCGCCTTA CGGCGAGTCC AGAAATGGAA
    AACACTGTTG ATTGGTATTC CGGGCTCATT ATACCTGTTT TAGGGAAAGA CTCTCTGGAA
    CTCACACCCT TTGAATCCCC CAGCAAGAGT TTCCTGAAAC TGCACTCCCA GCAGGGGGAG
    CTCCCATGTG AGGGGCAACG AGATGTCCGA GTGGAATATA TTATCCCAAA CTCTGCCCTG
    GGGATGGAGG CCAAGCACAT GGAGCTGCAC TACCTGGTTG TTTCTAAAGA ATCTATAAAG
    GACTCGGGAT CAGTGGAAGT GCCCATTACT AGTGAAGTAG GAGGATCTTC AGTAAGGGGT
    GAGGTGAGGG GTGAGGTCTC CATCAAACTC ACACTCAGTG CCGACGTCTC TCCGACTCTC
    CGCGCTCTCG CCTTCATTTC CCTCCCTAAT GGGGAATTAG TGGCCGATTC TGCAACATTC
    AAACTGCAAA GGTGCTTCAA GAACAAAGTA TCAGTTGGCT TCTCCCCAGA TGAAGTTCTC
    CCAGGAGCTG ATGTTTCCCT ACAAGTCCAG GCAGCCGCCG GGTCCCTGTG TGGCCTGAGA
    GTGGTGGATA AGACTGTTGA GCCTGAGGTG GATGTGACGG CTGATAGGAT TGAGAAGCTC
    TTCCCCTACT TTACTGGAAC ATATGATTAT CGGATCAAAG ACGCTGATGT TAATTGTCCA
    TTAAATCAAA AATATCGCGT TGATGTCTAC AGCCTGTTTA AGGATATGCG CCTGAAAATT
    GTCACCAACG CCTATAATAA GAGGCCCTCG GGGTGCTGGG AAAAGGATGT AGAAGAAATG
    TTGTACGTTC CCACTGAAAT ACAGTTATCA TATTTGAAAG CATTGGCCCA ACTATTCGGA
    GTCAATCCAG ACTGGACAGT TGAATTACCC ACCCATATTG AACCTACACC AAAATTTAGA
    AGAGTAGAAG ATTTTTCAGT AATTTCAATG TCAAACGATT TCAGAGACAA AAATGAAATC
    ACTAAAGGAG CTGCTGAAAT AATCCCGGTG TCTTTGCCAG AGACCTGGAT CTGGGAGCTA
    GCGGCCGTGG GTGAGTCGGG TAGAGCCGAG GTCCATGGCT CAGCCCCAGA CACCATCACC
    GAGTGGAATG CAGGAGCTTT CTGTATGGGA CCCAGTGGGT TTGGCATCTC CCCACCAACC
    TCCCTTCGAG CCTTCCAGCC ATTCTTTGTG GAGCTCACTC TGCCGTACTC TGTGGTGCGA
    GGGGAGTCAT TCACTCTCAA GGCTTCTGTG TTTAACTACC TCAAGCACTG TATAAAGGTT
    CAGACCATCC TGCTGCCTTC ACAAGAGTTA GAGCTGGAAC CATGTGCCGA CTGTCAGTAT
    AGCAGCTGTC TCTGTGCAGA GGAAAGCAAG ACCTTCTACT GGAACCTTAA AGCCTCCAAC
    CTGGGAGAGG TGAACGTCAC GGTGAGGACG GAGGCTCTGA ACACTCAGGA CATGTGCAAT
    AATGAGATTC CTATTGTGCC CAAGCAGGGT CACTCCGACA CTGTGATTAA GCCACTGCTG
    GTGCAGCCAG GGGGAATTCT AGTAGAAAAG TCTCACAACT CTCTGATCTG CAGACAAAAT
    GCAAAAGCCC ATTCAAAAAA AGAGAAGATA TCCCTGAAAG TTCCTGAAAA TGTTCTGAAG
    GGTTCTGAGA GAGCTTACAT AACAGTGCTA GGAGACCTGA TGGGAACAGC CATGCAGAAC
    CTGGACTGGC TCCTGCCCAT GCCATTTGGA AATGCGGAGC AGAAAATGAT TCTTTTTGCC
    CCCAGTATCT ACATTCTACA GTATCTGGAA AACACTCTCC AACTGAGCCC TGAGATCCAG
    AGCAAAGCCA AACGATTGCT TACGGATGGG TACCAAAGAC AACTGCCATA CAAAGTATAT
    GATCGATACT ACTATTTATT TAGGTCACAG TCACAGGAAA ACTCATGGTC CATAGAAAAC
    TCTTCGATGG CGCATCTGTG TTCTCCAGCC ATCCTATATA ATAGAAACAT AGGGGGAGTA
    GAAGATGATG AACTATCACT CTCTGCTTAC GTCACCGTAG CTCTAATGGA CGCCGGTATG
    CCGCAAACGG ACACTATACT CAGGCACGCT CTATACTGTC TCAGGGAGGC TGCCAAAAAC
    GTGAGCAGTG CCTACACCCA GGCTCTACTG GCCTACACTT TCTCTCTGAG TGGAGATAAT
    AAATTCAGGG AGATGCTGCT GGCTAAACTG GAGGAGAAGG CCATAAGGAA AGATGGACAG
    TTACACTGGG AGCAGATACC TGCCTTTGAG GCCTTCAACC TCTCATCCTG GCACCGCGCT
    CCCTCAGCTG AAGTGGAGTT AGCCTCCTAC GTGCTGCTGG CCCTTCGCTC AGAAACTAAG
    AAGGACCAGA GAAAAGCTTC TGAGATAGTC AACTGGCTGA GCAAGCAGCA AAATCCTTAT
    GGGGGGTTCT ACTCTACTCA GGACACAGTT GTAGCGCTAC AGGCTCTTGC TGAGTATGCC
    GAGGCCACAT TCTCTGACAA GGGAGATGTC ACAGTCACAG TCACTTCCAA GACTGGGTTC
    CATCAACAGT TCCATGTGGA TCAGACTAAC CGGCTCCTGC TACAGAAAGC CTCACTGCCA
    GATATCCCTG GGGAGTACTC TCTGTCAGCC ACTGGGAGCG GCTGTGTGTA TGTACAGACT
    GTCCTGAGAT ACAACATTCC CCCACCTAGA AGTGACGCCA CCTTCTCAGT ACGAGTGGAG
    ACCCAACCAA AGCAATGTCC CCAGGAGCCA ATGAAACAGA TGGGCATAGA CATTTACATT
    CAATACACAG GGTCTCGGGA GGAATCCAAC TTGGCTCTGG TTGAGGTCAA GATGCTCTCA
    GGCTTTATAC CCGCGTGGAG CACAACGCAT CAGCTAGTGA GCAGCAATAC GATAAAGCAC
    ATTGAGACCC AAAATGATGT CCTGGCGTTA TACCTGAATG AGTTAGGACA TGATCCAGTT
    CATCTCTCCT TCATGGTGGA ACAAGACATT GTGGTGAAGA ACCTAAAGCC GGCCACAGTG
    AAGGTCTATG ATTATTATGA GCCAACGGAA CATGCAGTTA CCGAGTACAA CTCCCCCTGC
    AGCTCGGGTA AGAACCCAGT ACAGGTCTGA

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