stard13 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following stard13 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the stard13 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
OXa51476 XM_031896084.1
Latest version!
Xenopus tropicalis StAR related lipid transfer domain containing 13 (stard13), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OXa51477 XM_012957180.3
Latest version!
Xenopus tropicalis StAR related lipid transfer domain containing 13 (stard13), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OXa51478 XM_012957181.3
Latest version!
Xenopus tropicalis StAR related lipid transfer domain containing 13 (stard13), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OXa01981 NM_001045767.1
Latest version!
Xenopus tropicalis StAR related lipid transfer domain containing 13 (stard13), mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $629.30
$899.00
OXa28842 XM_012957180.2
Latest version!
Xenopus tropicalis StAR related lipid transfer domain containing 13 (stard13), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $629.30
$899.00
OXa28843 XM_012957181.2
Latest version!
Xenopus tropicalis StAR related lipid transfer domain containing 13 (stard13), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $629.30
$899.00

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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 OXa51476
    Clone ID Related Accession (Same CDS sequence) XM_031896084.1
    Accession Version XM_031896084.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4050bp)
    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 stAR-related lipid transfer protein 13 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030678.2) annotated using gene prediction method: Gnomon, supported by EST evidence. 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
    ATGGAAGGTC TTTTAGAAGA TGAAGACAAT TCATTTTATT CTATGAGTTA CATGCACTTC 
    TTAACAGCAG AAAACATGCC ATATCAGTTC CCAGCGGGAA GGAATGAATA CAGTAGGCAA
    ATGGAGATTA ATGACAATAT ACTGGCAATG GGGACTAAAA TTGCAAATTT GCCTCCTATA
    AAAGAACACC ACGTGACACT GACAGAGACT GAGGAAAGGC CGTGCTGTGT TATGGTTGGT
    AAGGAATTTA AAAGTGAAGA AGTAGGCGGG GCTATATTAT ACCCACCATT AGCAGAAACC
    AATCACTTCC TAGCAGCCAA CGCTAATGCA AAGACCCGGT ATATCCAAGT GGTTGAACAT
    GAACCGAGTG CAATCCTGTT TCGGGATTTT TCATTAGATA GCTCCATACC TGGGGCCATA
    GCACCCAATA TTTTAAACTC TGAAACCTCA GAGGACAAGG AAGTTTATGA TGAGGACGAG
    GAAGAAGAGT CTGATGAAAA TGGTGATGTC TTCACAGAAT TACCGCACTA TGAGTCTATG
    TTTCCAGGAC TTAGAAGGAA TCAGTGTCAT CCAATAAGCC TAAATGGCAA CATCATATTT
    AATTTTGAGG ATGTTTGTCA GATACTCAGC AGTACCCAGA GTGGTGCCGA ACAAACTTTG
    AATGAAGGTG AAGGGAATAA TCTCATGGAA GAAAGATATC GGTGGTCAGA ATCTATGACA
    TGTCTGATGA TGAAGCTGGA GCAGCTAAAT GTAGACATTG AAGATGCGGT CATGGCTGGT
    GTTTCTTCAT TAAATTTGAG CCCAACAGAC TGTTCCACCC AACTGGCAAA TTCACTGGTG
    ACAGACAGAG GATCTCCTGA ACTCGAAGCA AAAGAAGCAT GCGATTGGCT ACGTGCAGCT
    GGATTCCCTC AATACGCTCA GCTTTATGAA GATTCCCAAT TCCCAATTGA TATCGCATCT
    GTAAAGCGGG ACCATGATTT CCTTGACAGA GACCATGTAG AACCACTTTG CAGGCGACTG
    AAGACGTTGA ATAAGTGTGC CTCAATGAAA CTCGATGTCA GCTTCCAAAG GAAGAAGAGT
    GAAGATTCAG ATGAAGAAGA CCTGTGTGCC ATCAGTGACA AATGGAGGTT CCAAAGACTC
    AGCCGCCAAT GGTCTCGGGT AGATGACATT GATTCGCTGT TTGAGCGATC GGAGAGACTT
    GGTTCATCTG GGGAAATGAA AAACACGACT AGCAGTGAAA GTGTCTTGAC TGATCTCAGT
    GAGCCAGAAA TATGTTCTAT CCACAGTGGA AGTAGCGGTG GAAGTGACTG CAGATGTTCC
    TATGTTGGTA ACAGTGCTTC CAGGGAAACA TTTGAGTGTG CGGACACAAT GTGTATTCAT
    GATCCCAATT CCATGACCAT ATTACCTCCA TGGCCTAAAG ATGTTTCAGA CGGTAAGCTG
    AATGCCAAGA ATGAAAAGCC TGCACACAAT AAAACAAAAA CTTTTCTAAA ATGCATGGGG
    ACTCTTAGAT CTAAAGGGAC CTATGGTAAA TCAAAAGGCC TCCAAAGAAC TGGAGCGATA
    GTAATTAGTG AGCCCATTCT GCAACTGGAG CCTGAACCTC TGAAACCAAT TCCACAGCTG
    GAGCCTGACC CCCTTAAAAC AATGAGCTGT GTTGGCAATG GCCAAGTCCA AGACTCCTCT
    ATGAACTTTA CAGCAACTGG AAATCTAAAT TCGGTATCTG AAATACAAAC TAGCACTGAG
    AGCTCTCCTT GCTTAAAAGA AATGCAAGCT CTTGAGCCCA ACAAACGAGG AGGCATGTAC
    CTAGAGGACA TTGATGTCTT TACAGATTTA GGGACAGCAA AAGCCGGTCA TAATCACAAC
    CATGACTTCC ATTCGCAAGA AGACTTGGTT GTACATATTC CAAAGGATCA CAAACCTGGA
    ACGTTTCCAA AAGCACTTTC TATTGAAAGC CTCTCTCCCA CAGAGAACTT CTATGGTGTC
    AACTGGCGGA GTGGAGGGAT TCCTCTTAGC AGGCAGAAAG GTATTCGTGC TAAAGAACCA
    AGAATTATGT CTTCCAGGTG CTCCAGAGGT AGCAGGCTTA GTGTTTATGA TAACGTGCCC
    GGATCCCACT TGTATGCCAG CACCGGGGAT CTCATGGATT TAGATAGGGA TGATTTATTT
    CCTCACTTAG ATGATGTTTT GCAGCACATT AATGGACTCC AACAGTCTGT GTACCACTGG
    TCAAAAGACA TAATGCCAGA TCTTCAAGAT GACGATTTCT CTGTTGGGGA GTCTGGAACC
    TCAAACTTTC ATTTGCCTAA CCCAATGAGC ATGGACTTTG AAGGCAATTC TATTTCTGAT
    GGTAGGACTA CCCCGAGTGA CATGGAGAGA GACGCTACAT CGCTTAATGA CTCTGATACT
    ACTGGAACCA GAGAAAGAAG GGATTCTGGG GTTGGAGCCT CCCTCACCAG AACAAACAGG
    CGGTTTCGGT GGAGCAGTTT CCAGCTCTCC CATCAGCAAA GCAGCTCTGG GGCATCACTT
    CAGATCAGCA ATCAGTCTGC AGGCCAGCTC AATCTGTTGC AGAAATTCTC CTTGCTTCGC
    CTGACAGCCA TCATGGAGAA ATATTCCTTG TCAAACAAGC ACGGATGGAC ATGGTCTGTG
    CCGAAGTTTA TGAAGAGGAT GAAGGGACCT GATTTCAAGG ATAAGACTAT TTTTGGTGTG
    CCTTTAATGG TTCATGTACA GAGAACTGGA CAGCCTCTTC CCCAGAGTAT CCAGCAAGCA
    TTGCGTTTCC TCCGCAGTCA CTGCCTCGAT CAGGTTGGTT TGTTCAGAAA GTCGGGTGTT
    AAATCTCGAA TCCAGGCTCT GCGCCAGATG AACGAGACTG CATCAGAGAA TGTGAGCTAT
    GAAGATCAGT GCGCCTACGA TGTGGCAGAT ATGATGAAAC AGTTCTTCAG GGATCTCCCT
    GAACCTCTTC TCACCAGTAA ATTAGGGGAG ACCTTTCTCC ATATATACCA GTATGTCCCC
    AAAGACCAGA GGCTCCAGGC TGTGCAGTCG GCTATCATGC TGATGTCAGA TGAAAACCGA
    GAGGTCTTGC AGACCCTTCT GTGCTTTCTC AGTGATGTCA CCTCGGTGGA AGAGAATCAG
    ATGACCCCGA TGAATCTCGC TGTATGTTTG GCGCCATCAC TGTTCCATCT CAATTTATTA
    AAGAAGGACA ACTCTCCAAG AGCAATACAG AAAAAATATG CAACAGGAAG ACCGGATCAG
    AAGGACCTAA ATGAGAATTT TGCAGCTACT CAGGGCCTGG CACACATGAT AATGGAGTGC
    AACAGGTTAT TTGAGATTCC ACATGACGTT ATAGCCCAGT CCCGCAATTC CTATGTCGAA
    GCTGATGTGC ACGTCCTCAC AATGGAGGAA TTAGGAAAGC AACTGGAAGA GGAAGGGGGG
    AGCGTGAGCA CGTACTTTGA GAGTACAATT CAGGGCCTAC AGAAGGAAGC TAAGGAGAAG
    TTCAAGGGAT GGATGTCCCT CTCCAGCGCA GAGAACACTG ACCTTGCTTA CAAAAAGGTT
    GGTGATGGAA ATTCATTGAG AGTGTGGAAG GTTTCGGTGG AAGTGGAGGC CCCGCCATCT
    GTGGTTCTTA ATCGCATTTT GAGAGAACGA CAACTTTGGG ATGATGACTT GTTGCAGTCG
    AAAGTGATAG AAAGTCTGGA TAACCAAACA GAAGTGTACC AGTATGTGCT GAACAGCATG
    GCTCCGCACC CCTCCAGGGA CTTTGTTGTT TTGAGGTCCT GGAGAACAGA CTTGCCAAAA
    GGAATCTGCG CGCTGGCAGC CGTATCAGTA GAACATGACG AGGCCCATCT CATAGGAGGA
    GTGAGAGCGG CAGTTCTGGA TACTCGCTAT CTCATTGAAC CCTGTGGCTC TGGCAAATCA
    AAGCTGACGC ATATTTCCAG AGTTGATCTC AAGGGCCACA GTCCTGAGTG GTACAATAAA
    TGTTTTGGAC ATCTTTGCGC ATCAGAGGCT TTAAGGATCC GAAATTCTTT CCAGCCAATT
    TCCACCGAGG GTCCTGAAAC AAAAATCTGA

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

    RefSeq XP_031751944.1
    CDS304..4353
    Translation

    Target ORF information:

    RefSeq Version XM_031896084.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis StAR related lipid transfer domain containing 13 (stard13), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031896084.1

    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
    ATGGAAGGTC TTTTAGAAGA TGAAGACAAT TCATTTTATT CTATGAGTTA CATGCACTTC 
    TTAACAGCAG AAAACATGCC ATATCAGTTC CCAGCGGGAA GGAATGAATA CAGTAGGCAA
    ATGGAGATTA ATGACAATAT ACTGGCAATG GGGACTAAAA TTGCAAATTT GCCTCCTATA
    AAAGAACACC ACGTGACACT GACAGAGACT GAGGAAAGGC CGTGCTGTGT TATGGTTGGT
    AAGGAATTTA AAAGTGAAGA AGTAGGCGGG GCTATATTAT ACCCACCATT AGCAGAAACC
    AATCACTTCC TAGCAGCCAA CGCTAATGCA AAGACCCGGT ATATCCAAGT GGTTGAACAT
    GAACCGAGTG CAATCCTGTT TCGGGATTTT TCATTAGATA GCTCCATACC TGGGGCCATA
    GCACCCAATA TTTTAAACTC TGAAACCTCA GAGGACAAGG AAGTTTATGA TGAGGACGAG
    GAAGAAGAGT CTGATGAAAA TGGTGATGTC TTCACAGAAT TACCGCACTA TGAGTCTATG
    TTTCCAGGAC TTAGAAGGAA TCAGTGTCAT CCAATAAGCC TAAATGGCAA CATCATATTT
    AATTTTGAGG ATGTTTGTCA GATACTCAGC AGTACCCAGA GTGGTGCCGA ACAAACTTTG
    AATGAAGGTG AAGGGAATAA TCTCATGGAA GAAAGATATC GGTGGTCAGA ATCTATGACA
    TGTCTGATGA TGAAGCTGGA GCAGCTAAAT GTAGACATTG AAGATGCGGT CATGGCTGGT
    GTTTCTTCAT TAAATTTGAG CCCAACAGAC TGTTCCACCC AACTGGCAAA TTCACTGGTG
    ACAGACAGAG GATCTCCTGA ACTCGAAGCA AAAGAAGCAT GCGATTGGCT ACGTGCAGCT
    GGATTCCCTC AATACGCTCA GCTTTATGAA GATTCCCAAT TCCCAATTGA TATCGCATCT
    GTAAAGCGGG ACCATGATTT CCTTGACAGA GACCATGTAG AACCACTTTG CAGGCGACTG
    AAGACGTTGA ATAAGTGTGC CTCAATGAAA CTCGATGTCA GCTTCCAAAG GAAGAAGAGT
    GAAGATTCAG ATGAAGAAGA CCTGTGTGCC ATCAGTGACA AATGGAGGTT CCAAAGACTC
    AGCCGCCAAT GGTCTCGGGT AGATGACATT GATTCGCTGT TTGAGCGATC GGAGAGACTT
    GGTTCATCTG GGGAAATGAA AAACACGACT AGCAGTGAAA GTGTCTTGAC TGATCTCAGT
    GAGCCAGAAA TATGTTCTAT CCACAGTGGA AGTAGCGGTG GAAGTGACTG CAGATGTTCC
    TATGTTGGTA ACAGTGCTTC CAGGGAAACA TTTGAGTGTG CGGACACAAT GTGTATTCAT
    GATCCCAATT CCATGACCAT ATTACCTCCA TGGCCTAAAG ATGTTTCAGA CGGTAAGCTG
    AATGCCAAGA ATGAAAAGCC TGCACACAAT AAAACAAAAA CTTTTCTAAA ATGCATGGGG
    ACTCTTAGAT CTAAAGGGAC CTATGGTAAA TCAAAAGGCC TCCAAAGAAC TGGAGCGATA
    GTAATTAGTG AGCCCATTCT GCAACTGGAG CCTGAACCTC TGAAACCAAT TCCACAGCTG
    GAGCCTGACC CCCTTAAAAC AATGAGCTGT GTTGGCAATG GCCAAGTCCA AGACTCCTCT
    ATGAACTTTA CAGCAACTGG AAATCTAAAT TCGGTATCTG AAATACAAAC TAGCACTGAG
    AGCTCTCCTT GCTTAAAAGA AATGCAAGCT CTTGAGCCCA ACAAACGAGG AGGCATGTAC
    CTAGAGGACA TTGATGTCTT TACAGATTTA GGGACAGCAA AAGCCGGTCA TAATCACAAC
    CATGACTTCC ATTCGCAAGA AGACTTGGTT GTACATATTC CAAAGGATCA CAAACCTGGA
    ACGTTTCCAA AAGCACTTTC TATTGAAAGC CTCTCTCCCA CAGAGAACTT CTATGGTGTC
    AACTGGCGGA GTGGAGGGAT TCCTCTTAGC AGGCAGAAAG GTATTCGTGC TAAAGAACCA
    AGAATTATGT CTTCCAGGTG CTCCAGAGGT AGCAGGCTTA GTGTTTATGA TAACGTGCCC
    GGATCCCACT TGTATGCCAG CACCGGGGAT CTCATGGATT TAGATAGGGA TGATTTATTT
    CCTCACTTAG ATGATGTTTT GCAGCACATT AATGGACTCC AACAGTCTGT GTACCACTGG
    TCAAAAGACA TAATGCCAGA TCTTCAAGAT GACGATTTCT CTGTTGGGGA GTCTGGAACC
    TCAAACTTTC ATTTGCCTAA CCCAATGAGC ATGGACTTTG AAGGCAATTC TATTTCTGAT
    GGTAGGACTA CCCCGAGTGA CATGGAGAGA GACGCTACAT CGCTTAATGA CTCTGATACT
    ACTGGAACCA GAGAAAGAAG GGATTCTGGG GTTGGAGCCT CCCTCACCAG AACAAACAGG
    CGGTTTCGGT GGAGCAGTTT CCAGCTCTCC CATCAGCAAA GCAGCTCTGG GGCATCACTT
    CAGATCAGCA ATCAGTCTGC AGGCCAGCTC AATCTGTTGC AGAAATTCTC CTTGCTTCGC
    CTGACAGCCA TCATGGAGAA ATATTCCTTG TCAAACAAGC ACGGATGGAC ATGGTCTGTG
    CCGAAGTTTA TGAAGAGGAT GAAGGGACCT GATTTCAAGG ATAAGACTAT TTTTGGTGTG
    CCTTTAATGG TTCATGTACA GAGAACTGGA CAGCCTCTTC CCCAGAGTAT CCAGCAAGCA
    TTGCGTTTCC TCCGCAGTCA CTGCCTCGAT CAGGTTGGTT TGTTCAGAAA GTCGGGTGTT
    AAATCTCGAA TCCAGGCTCT GCGCCAGATG AACGAGACTG CATCAGAGAA TGTGAGCTAT
    GAAGATCAGT GCGCCTACGA TGTGGCAGAT ATGATGAAAC AGTTCTTCAG GGATCTCCCT
    GAACCTCTTC TCACCAGTAA ATTAGGGGAG ACCTTTCTCC ATATATACCA GTATGTCCCC
    AAAGACCAGA GGCTCCAGGC TGTGCAGTCG GCTATCATGC TGATGTCAGA TGAAAACCGA
    GAGGTCTTGC AGACCCTTCT GTGCTTTCTC AGTGATGTCA CCTCGGTGGA AGAGAATCAG
    ATGACCCCGA TGAATCTCGC TGTATGTTTG GCGCCATCAC TGTTCCATCT CAATTTATTA
    AAGAAGGACA ACTCTCCAAG AGCAATACAG AAAAAATATG CAACAGGAAG ACCGGATCAG
    AAGGACCTAA ATGAGAATTT TGCAGCTACT CAGGGCCTGG CACACATGAT AATGGAGTGC
    AACAGGTTAT TTGAGATTCC ACATGACGTT ATAGCCCAGT CCCGCAATTC CTATGTCGAA
    GCTGATGTGC ACGTCCTCAC AATGGAGGAA TTAGGAAAGC AACTGGAAGA GGAAGGGGGG
    AGCGTGAGCA CGTACTTTGA GAGTACAATT CAGGGCCTAC AGAAGGAAGC TAAGGAGAAG
    TTCAAGGGAT GGATGTCCCT CTCCAGCGCA GAGAACACTG ACCTTGCTTA CAAAAAGGTT
    GGTGATGGAA ATTCATTGAG AGTGTGGAAG GTTTCGGTGG AAGTGGAGGC CCCGCCATCT
    GTGGTTCTTA ATCGCATTTT GAGAGAACGA CAACTTTGGG ATGATGACTT GTTGCAGTCG
    AAAGTGATAG AAAGTCTGGA TAACCAAACA GAAGTGTACC AGTATGTGCT GAACAGCATG
    GCTCCGCACC CCTCCAGGGA CTTTGTTGTT TTGAGGTCCT GGAGAACAGA CTTGCCAAAA
    GGAATCTGCG CGCTGGCAGC CGTATCAGTA GAACATGACG AGGCCCATCT CATAGGAGGA
    GTGAGAGCGG CAGTTCTGGA TACTCGCTAT CTCATTGAAC CCTGTGGCTC TGGCAAATCA
    AAGCTGACGC ATATTTCCAG AGTTGATCTC AAGGGCCACA GTCCTGAGTG GTACAATAAA
    TGTTTTGGAC ATCTTTGCGC ATCAGAGGCT TTAAGGATCC GAAATTCTTT CCAGCCAATT
    TCCACCGAGG GTCCTGAAAC AAAAATCTGA

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

    CloneID OXa51477
    Clone ID Related Accession (Same CDS sequence) XM_012957180.3
    Accession Version XM_012957180.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3357bp)
    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 stAR-related lipid transfer protein 13 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030678.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_012957180.2. ##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
    ATGTGGAAGC AGGAGCCCCA AAGTACAGCG GCAGGCTGTA AGCGGTTAAA TTCTGTGTCA 
    CCTGATGGCC AGGAGTATTA TATGTACTTT GATAAGAGAA GGAGATCCCC GTATAGAATG
    AGCAGGATCC TGGCACGGCA GCAGCTCCTG ACTAAGATAC AGCAAGAACT CGAAGCAAAA
    GAAGCATGCG ATTGGCTACG TGCAGCTGGA TTCCCTCAAT ACGCTCAGCT TTATGAAGAT
    TCCCAATTCC CAATTGATAT CGCATCTGTA AAGCGGGACC ATGATTTCCT TGACAGAGAC
    CATGTAGAAC CACTTTGCAG GCGACTGAAG ACGTTGAATA AGTGTGCCTC AATGAAACTC
    GATGTCAGCT TCCAAAGGAA GAAGAGTGAA GATTCAGATG AAGAAGACCT GTGTGCCATC
    AGTGACAAAT GGAGGTTCCA AAGACTCAGC CGCCAATGGT CTCGGGTAGA TGACATTGAT
    TCGCTGTTTG AGCGATCGGA GAGACTTGGT TCATCTGGGG AAATGAAAAA CACGACTAGC
    AGTGAAAGTG TCTTGACTGA TCTCAGTGAG CCAGAAATAT GTTCTATCCA CAGTGGAAGT
    AGCGGTGGAA GTGACTGCAG ATGTTCCTAT GTTGGTAACA GTGCTTCCAG GGAAACATTT
    GAGTGTGCGG ACACAATGTG TATTCATGAT CCCAATTCCA TGACCATATT ACCTCCATGG
    CCTAAAGATG TTTCAGACGG TAAGCTGAAT GCCAAGAATG AAAAGCCTGC ACACAATAAA
    ACAAAAACTT TTCTAAAATG CATGGGGACT CTTAGATCTA AAGGGACCTA TGGTAAATCA
    AAAGGCCTCC AAAGAACTGG AGCGATAGTA ATTAGTGAGC CCATTCTGCA ACTGGAGCCT
    GAACCTCTGA AACCAATTCC ACAGCTGGAG CCTGACCCCC TTAAAACAAT GAGCTGTGTT
    GGCAATGGCC AAGTCCAAGA CTCCTCTATG AACTTTACAG CAACTGGAAA TCTAAATTCG
    GTATCTGAAA TACAAACTAG CACTGAGAGC TCTCCTTGCT TAAAAGAAAT GCAAGCTCTT
    GAGCCCAACA AACGAGGAGG CATGTACCTA GAGGACATTG ATGTCTTTAC AGATTTAGGG
    ACAGCAAAAG CCGGTCATAA TCACAACCAT GACTTCCATT CGCAAGAAGA CTTGGTTGTA
    CATATTCCAA AGGATCACAA ACCTGGAACG TTTCCAAAAG CACTTTCTAT TGAAAGCCTC
    TCTCCCACAG AGAACTTCTA TGGTGTCAAC TGGCGGAGTG GAGGGATTCC TCTTAGCAGG
    CAGAAAGGTA TTCGTGCTAA AGAACCAAGA ATTATGTCTT CCAGGTGCTC CAGAGGTAGC
    AGGCTTAGTG TTTATGATAA CGTGCCCGGA TCCCACTTGT ATGCCAGCAC CGGGGATCTC
    ATGGATTTAG ATAGGGATGA TTTATTTCCT CACTTAGATG ATGTTTTGCA GCACATTAAT
    GGACTCCAAC AGTCTGTGTA CCACTGGTCA AAAGACATAA TGCCAGATCT TCAAGATGAC
    GATTTCTCTG TTGGGGAGTC TGGAACCTCA AACTTTCATT TGCCTAACCC AATGAGCATG
    GACTTTGAAG GCAATTCTAT TTCTGATGGT AGGACTACCC CGAGTGACAT GGAGAGAGAC
    GCTACATCGC TTAATGACTC TGATACTACT GGAACCAGAG AAAGAAGGGA TTCTGGGGTT
    GGAGCCTCCC TCACCAGAAC AAACAGGCGG TTTCGGTGGA GCAGTTTCCA GCTCTCCCAT
    CAGCAAAGCA GCTCTGGGGC ATCACTTCAG ATCAGCAATC AGTCTGCAGG CCAGCTCAAT
    CTGTTGCAGA AATTCTCCTT GCTTCGCCTG ACAGCCATCA TGGAGAAATA TTCCTTGTCA
    AACAAGCACG GATGGACATG GTCTGTGCCG AAGTTTATGA AGAGGATGAA GGGACCTGAT
    TTCAAGGATA AGACTATTTT TGGTGTGCCT TTAATGGTTC ATGTACAGAG AACTGGACAG
    CCTCTTCCCC AGAGTATCCA GCAAGCATTG CGTTTCCTCC GCAGTCACTG CCTCGATCAG
    GTTGGTTTGT TCAGAAAGTC GGGTGTTAAA TCTCGAATCC AGGCTCTGCG CCAGATGAAC
    GAGACTGCAT CAGAGAATGT GAGCTATGAA GATCAGTGCG CCTACGATGT GGCAGATATG
    ATGAAACAGT TCTTCAGGGA TCTCCCTGAA CCTCTTCTCA CCAGTAAATT AGGGGAGACC
    TTTCTCCATA TATACCAGTA TGTCCCCAAA GACCAGAGGC TCCAGGCTGT GCAGTCGGCT
    ATCATGCTGA TGTCAGATGA AAACCGAGAG GTCTTGCAGA CCCTTCTGTG CTTTCTCAGT
    GATGTCACCT CGGTGGAAGA GAATCAGATG ACCCCGATGA ATCTCGCTGT ATGTTTGGCG
    CCATCACTGT TCCATCTCAA TTTATTAAAG AAGGACAACT CTCCAAGAGC AATACAGAAA
    AAATATGCAA CAGGAAGACC GGATCAGAAG GACCTAAATG AGAATTTTGC AGCTACTCAG
    GGCCTGGCAC ACATGATAAT GGAGTGCAAC AGGTTATTTG AGATTCCACA TGACGTTATA
    GCCCAGTCCC GCAATTCCTA TGTCGAAGCT GATGTGCACG TCCTCACAAT GGAGGAATTA
    GGAAAGCAAC TGGAAGAGGA AGGGGGGAGC GTGAGCACGT ACTTTGAGAG TACAATTCAG
    GGCCTACAGA AGGAAGCTAA GGAGAAGTTC AAGGGATGGA TGTCCCTCTC CAGCGCAGAG
    AACACTGACC TTGCTTACAA AAAGGTTGGT GATGGAAATT CATTGAGAGT GTGGAAGGTT
    TCGGTGGAAG TGGAGGCCCC GCCATCTGTG GTTCTTAATC GCATTTTGAG AGAACGACAA
    CTTTGGGATG ATGACTTGTT GCAGTCGAAA GTGATAGAAA GTCTGGATAA CCAAACAGAA
    GTGTACCAGT ATGTGCTGAA CAGCATGGCT CCGCACCCCT CCAGGGACTT TGTTGTTTTG
    AGGTCCTGGA GAACAGACTT GCCAAAAGGA ATCTGCGCGC TGGCAGCCGT ATCAGTAGAA
    CATGACGAGG CCCATCTCAT AGGAGGAGTG AGAGCGGCAG TTCTGGATAC TCGCTATCTC
    ATTGAACCCT GTGGCTCTGG CAAATCAAAG CTGACGCATA TTTCCAGAGT TGATCTCAAG
    GGCCACAGTC CTGAGTGGTA CAATAAATGT TTTGGACATC TTTGCGCATC AGAGGCTTTA
    AGGATCCGAA ATTCTTTCCA GCCAATTTCC ACCGAGGGTC CTGAAACAAA AATCTGA

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

    RefSeq XP_012812634.2
    CDS223..3579
    Translation

    Target ORF information:

    RefSeq Version XM_012957180.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis StAR related lipid transfer domain containing 13 (stard13), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012957180.3

    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
    ATGTGGAAGC AGGAGCCCCA AAGTACAGCG GCAGGCTGTA AGCGGTTAAA TTCTGTGTCA 
    CCTGATGGCC AGGAGTATTA TATGTACTTT GATAAGAGAA GGAGATCCCC GTATAGAATG
    AGCAGGATCC TGGCACGGCA GCAGCTCCTG ACTAAGATAC AGCAAGAACT CGAAGCAAAA
    GAAGCATGCG ATTGGCTACG TGCAGCTGGA TTCCCTCAAT ACGCTCAGCT TTATGAAGAT
    TCCCAATTCC CAATTGATAT CGCATCTGTA AAGCGGGACC ATGATTTCCT TGACAGAGAC
    CATGTAGAAC CACTTTGCAG GCGACTGAAG ACGTTGAATA AGTGTGCCTC AATGAAACTC
    GATGTCAGCT TCCAAAGGAA GAAGAGTGAA GATTCAGATG AAGAAGACCT GTGTGCCATC
    AGTGACAAAT GGAGGTTCCA AAGACTCAGC CGCCAATGGT CTCGGGTAGA TGACATTGAT
    TCGCTGTTTG AGCGATCGGA GAGACTTGGT TCATCTGGGG AAATGAAAAA CACGACTAGC
    AGTGAAAGTG TCTTGACTGA TCTCAGTGAG CCAGAAATAT GTTCTATCCA CAGTGGAAGT
    AGCGGTGGAA GTGACTGCAG ATGTTCCTAT GTTGGTAACA GTGCTTCCAG GGAAACATTT
    GAGTGTGCGG ACACAATGTG TATTCATGAT CCCAATTCCA TGACCATATT ACCTCCATGG
    CCTAAAGATG TTTCAGACGG TAAGCTGAAT GCCAAGAATG AAAAGCCTGC ACACAATAAA
    ACAAAAACTT TTCTAAAATG CATGGGGACT CTTAGATCTA AAGGGACCTA TGGTAAATCA
    AAAGGCCTCC AAAGAACTGG AGCGATAGTA ATTAGTGAGC CCATTCTGCA ACTGGAGCCT
    GAACCTCTGA AACCAATTCC ACAGCTGGAG CCTGACCCCC TTAAAACAAT GAGCTGTGTT
    GGCAATGGCC AAGTCCAAGA CTCCTCTATG AACTTTACAG CAACTGGAAA TCTAAATTCG
    GTATCTGAAA TACAAACTAG CACTGAGAGC TCTCCTTGCT TAAAAGAAAT GCAAGCTCTT
    GAGCCCAACA AACGAGGAGG CATGTACCTA GAGGACATTG ATGTCTTTAC AGATTTAGGG
    ACAGCAAAAG CCGGTCATAA TCACAACCAT GACTTCCATT CGCAAGAAGA CTTGGTTGTA
    CATATTCCAA AGGATCACAA ACCTGGAACG TTTCCAAAAG CACTTTCTAT TGAAAGCCTC
    TCTCCCACAG AGAACTTCTA TGGTGTCAAC TGGCGGAGTG GAGGGATTCC TCTTAGCAGG
    CAGAAAGGTA TTCGTGCTAA AGAACCAAGA ATTATGTCTT CCAGGTGCTC CAGAGGTAGC
    AGGCTTAGTG TTTATGATAA CGTGCCCGGA TCCCACTTGT ATGCCAGCAC CGGGGATCTC
    ATGGATTTAG ATAGGGATGA TTTATTTCCT CACTTAGATG ATGTTTTGCA GCACATTAAT
    GGACTCCAAC AGTCTGTGTA CCACTGGTCA AAAGACATAA TGCCAGATCT TCAAGATGAC
    GATTTCTCTG TTGGGGAGTC TGGAACCTCA AACTTTCATT TGCCTAACCC AATGAGCATG
    GACTTTGAAG GCAATTCTAT TTCTGATGGT AGGACTACCC CGAGTGACAT GGAGAGAGAC
    GCTACATCGC TTAATGACTC TGATACTACT GGAACCAGAG AAAGAAGGGA TTCTGGGGTT
    GGAGCCTCCC TCACCAGAAC AAACAGGCGG TTTCGGTGGA GCAGTTTCCA GCTCTCCCAT
    CAGCAAAGCA GCTCTGGGGC ATCACTTCAG ATCAGCAATC AGTCTGCAGG CCAGCTCAAT
    CTGTTGCAGA AATTCTCCTT GCTTCGCCTG ACAGCCATCA TGGAGAAATA TTCCTTGTCA
    AACAAGCACG GATGGACATG GTCTGTGCCG AAGTTTATGA AGAGGATGAA GGGACCTGAT
    TTCAAGGATA AGACTATTTT TGGTGTGCCT TTAATGGTTC ATGTACAGAG AACTGGACAG
    CCTCTTCCCC AGAGTATCCA GCAAGCATTG CGTTTCCTCC GCAGTCACTG CCTCGATCAG
    GTTGGTTTGT TCAGAAAGTC GGGTGTTAAA TCTCGAATCC AGGCTCTGCG CCAGATGAAC
    GAGACTGCAT CAGAGAATGT GAGCTATGAA GATCAGTGCG CCTACGATGT GGCAGATATG
    ATGAAACAGT TCTTCAGGGA TCTCCCTGAA CCTCTTCTCA CCAGTAAATT AGGGGAGACC
    TTTCTCCATA TATACCAGTA TGTCCCCAAA GACCAGAGGC TCCAGGCTGT GCAGTCGGCT
    ATCATGCTGA TGTCAGATGA AAACCGAGAG GTCTTGCAGA CCCTTCTGTG CTTTCTCAGT
    GATGTCACCT CGGTGGAAGA GAATCAGATG ACCCCGATGA ATCTCGCTGT ATGTTTGGCG
    CCATCACTGT TCCATCTCAA TTTATTAAAG AAGGACAACT CTCCAAGAGC AATACAGAAA
    AAATATGCAA CAGGAAGACC GGATCAGAAG GACCTAAATG AGAATTTTGC AGCTACTCAG
    GGCCTGGCAC ACATGATAAT GGAGTGCAAC AGGTTATTTG AGATTCCACA TGACGTTATA
    GCCCAGTCCC GCAATTCCTA TGTCGAAGCT GATGTGCACG TCCTCACAAT GGAGGAATTA
    GGAAAGCAAC TGGAAGAGGA AGGGGGGAGC GTGAGCACGT ACTTTGAGAG TACAATTCAG
    GGCCTACAGA AGGAAGCTAA GGAGAAGTTC AAGGGATGGA TGTCCCTCTC CAGCGCAGAG
    AACACTGACC TTGCTTACAA AAAGGTTGGT GATGGAAATT CATTGAGAGT GTGGAAGGTT
    TCGGTGGAAG TGGAGGCCCC GCCATCTGTG GTTCTTAATC GCATTTTGAG AGAACGACAA
    CTTTGGGATG ATGACTTGTT GCAGTCGAAA GTGATAGAAA GTCTGGATAA CCAAACAGAA
    GTGTACCAGT ATGTGCTGAA CAGCATGGCT CCGCACCCCT CCAGGGACTT TGTTGTTTTG
    AGGTCCTGGA GAACAGACTT GCCAAAAGGA ATCTGCGCGC TGGCAGCCGT ATCAGTAGAA
    CATGACGAGG CCCATCTCAT AGGAGGAGTG AGAGCGGCAG TTCTGGATAC TCGCTATCTC
    ATTGAACCCT GTGGCTCTGG CAAATCAAAG CTGACGCATA TTTCCAGAGT TGATCTCAAG
    GGCCACAGTC CTGAGTGGTA CAATAAATGT TTTGGACATC TTTGCGCATC AGAGGCTTTA
    AGGATCCGAA ATTCTTTCCA GCCAATTTCC ACCGAGGGTC CTGAAACAAA AATCTGA

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

    CloneID OXa51478
    Clone ID Related Accession (Same CDS sequence) XM_012957181.3
    Accession Version XM_012957181.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3315bp)
    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 stAR-related lipid transfer protein 13 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030678.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_012957181.2. ##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
    ATGAGCGGCA AAAAGAGATC CGCCAAATTC CTGCTGCGGA GGTCCCTGAG CGAACAGTTA 
    AAGGACTCCA CCAGCAAAGC GTGGGACCTG CTGTGGAAAA ACGTCCGAGA GAAGCGGCTG
    GCAGAACTCG AAGCAAAAGA AGCATGCGAT TGGCTACGTG CAGCTGGATT CCCTCAATAC
    GCTCAGCTTT ATGAAGATTC CCAATTCCCA ATTGATATCG CATCTGTAAA GCGGGACCAT
    GATTTCCTTG ACAGAGACCA TGTAGAACCA CTTTGCAGGC GACTGAAGAC GTTGAATAAG
    TGTGCCTCAA TGAAACTCGA TGTCAGCTTC CAAAGGAAGA AGAGTGAAGA TTCAGATGAA
    GAAGACCTGT GTGCCATCAG TGACAAATGG AGGTTCCAAA GACTCAGCCG CCAATGGTCT
    CGGGTAGATG ACATTGATTC GCTGTTTGAG CGATCGGAGA GACTTGGTTC ATCTGGGGAA
    ATGAAAAACA CGACTAGCAG TGAAAGTGTC TTGACTGATC TCAGTGAGCC AGAAATATGT
    TCTATCCACA GTGGAAGTAG CGGTGGAAGT GACTGCAGAT GTTCCTATGT TGGTAACAGT
    GCTTCCAGGG AAACATTTGA GTGTGCGGAC ACAATGTGTA TTCATGATCC CAATTCCATG
    ACCATATTAC CTCCATGGCC TAAAGATGTT TCAGACGGTA AGCTGAATGC CAAGAATGAA
    AAGCCTGCAC ACAATAAAAC AAAAACTTTT CTAAAATGCA TGGGGACTCT TAGATCTAAA
    GGGACCTATG GTAAATCAAA AGGCCTCCAA AGAACTGGAG CGATAGTAAT TAGTGAGCCC
    ATTCTGCAAC TGGAGCCTGA ACCTCTGAAA CCAATTCCAC AGCTGGAGCC TGACCCCCTT
    AAAACAATGA GCTGTGTTGG CAATGGCCAA GTCCAAGACT CCTCTATGAA CTTTACAGCA
    ACTGGAAATC TAAATTCGGT ATCTGAAATA CAAACTAGCA CTGAGAGCTC TCCTTGCTTA
    AAAGAAATGC AAGCTCTTGA GCCCAACAAA CGAGGAGGCA TGTACCTAGA GGACATTGAT
    GTCTTTACAG ATTTAGGGAC AGCAAAAGCC GGTCATAATC ACAACCATGA CTTCCATTCG
    CAAGAAGACT TGGTTGTACA TATTCCAAAG GATCACAAAC CTGGAACGTT TCCAAAAGCA
    CTTTCTATTG AAAGCCTCTC TCCCACAGAG AACTTCTATG GTGTCAACTG GCGGAGTGGA
    GGGATTCCTC TTAGCAGGCA GAAAGGTATT CGTGCTAAAG AACCAAGAAT TATGTCTTCC
    AGGTGCTCCA GAGGTAGCAG GCTTAGTGTT TATGATAACG TGCCCGGATC CCACTTGTAT
    GCCAGCACCG GGGATCTCAT GGATTTAGAT AGGGATGATT TATTTCCTCA CTTAGATGAT
    GTTTTGCAGC ACATTAATGG ACTCCAACAG TCTGTGTACC ACTGGTCAAA AGACATAATG
    CCAGATCTTC AAGATGACGA TTTCTCTGTT GGGGAGTCTG GAACCTCAAA CTTTCATTTG
    CCTAACCCAA TGAGCATGGA CTTTGAAGGC AATTCTATTT CTGATGGTAG GACTACCCCG
    AGTGACATGG AGAGAGACGC TACATCGCTT AATGACTCTG ATACTACTGG AACCAGAGAA
    AGAAGGGATT CTGGGGTTGG AGCCTCCCTC ACCAGAACAA ACAGGCGGTT TCGGTGGAGC
    AGTTTCCAGC TCTCCCATCA GCAAAGCAGC TCTGGGGCAT CACTTCAGAT CAGCAATCAG
    TCTGCAGGCC AGCTCAATCT GTTGCAGAAA TTCTCCTTGC TTCGCCTGAC AGCCATCATG
    GAGAAATATT CCTTGTCAAA CAAGCACGGA TGGACATGGT CTGTGCCGAA GTTTATGAAG
    AGGATGAAGG GACCTGATTT CAAGGATAAG ACTATTTTTG GTGTGCCTTT AATGGTTCAT
    GTACAGAGAA CTGGACAGCC TCTTCCCCAG AGTATCCAGC AAGCATTGCG TTTCCTCCGC
    AGTCACTGCC TCGATCAGGT TGGTTTGTTC AGAAAGTCGG GTGTTAAATC TCGAATCCAG
    GCTCTGCGCC AGATGAACGA GACTGCATCA GAGAATGTGA GCTATGAAGA TCAGTGCGCC
    TACGATGTGG CAGATATGAT GAAACAGTTC TTCAGGGATC TCCCTGAACC TCTTCTCACC
    AGTAAATTAG GGGAGACCTT TCTCCATATA TACCAGTATG TCCCCAAAGA CCAGAGGCTC
    CAGGCTGTGC AGTCGGCTAT CATGCTGATG TCAGATGAAA ACCGAGAGGT CTTGCAGACC
    CTTCTGTGCT TTCTCAGTGA TGTCACCTCG GTGGAAGAGA ATCAGATGAC CCCGATGAAT
    CTCGCTGTAT GTTTGGCGCC ATCACTGTTC CATCTCAATT TATTAAAGAA GGACAACTCT
    CCAAGAGCAA TACAGAAAAA ATATGCAACA GGAAGACCGG ATCAGAAGGA CCTAAATGAG
    AATTTTGCAG CTACTCAGGG CCTGGCACAC ATGATAATGG AGTGCAACAG GTTATTTGAG
    ATTCCACATG ACGTTATAGC CCAGTCCCGC AATTCCTATG TCGAAGCTGA TGTGCACGTC
    CTCACAATGG AGGAATTAGG AAAGCAACTG GAAGAGGAAG GGGGGAGCGT GAGCACGTAC
    TTTGAGAGTA CAATTCAGGG CCTACAGAAG GAAGCTAAGG AGAAGTTCAA GGGATGGATG
    TCCCTCTCCA GCGCAGAGAA CACTGACCTT GCTTACAAAA AGGTTGGTGA TGGAAATTCA
    TTGAGAGTGT GGAAGGTTTC GGTGGAAGTG GAGGCCCCGC CATCTGTGGT TCTTAATCGC
    ATTTTGAGAG AACGACAACT TTGGGATGAT GACTTGTTGC AGTCGAAAGT GATAGAAAGT
    CTGGATAACC AAACAGAAGT GTACCAGTAT GTGCTGAACA GCATGGCTCC GCACCCCTCC
    AGGGACTTTG TTGTTTTGAG GTCCTGGAGA ACAGACTTGC CAAAAGGAAT CTGCGCGCTG
    GCAGCCGTAT CAGTAGAACA TGACGAGGCC CATCTCATAG GAGGAGTGAG AGCGGCAGTT
    CTGGATACTC GCTATCTCAT TGAACCCTGT GGCTCTGGCA AATCAAAGCT GACGCATATT
    TCCAGAGTTG ATCTCAAGGG CCACAGTCCT GAGTGGTACA ATAAATGTTT TGGACATCTT
    TGCGCATCAG AGGCTTTAAG GATCCGAAAT TCTTTCCAGC CAATTTCCAC CGAGGGTCCT
    GAAACAAAAA TCTGA

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

    RefSeq XP_012812635.2
    CDS352..3666
    Translation

    Target ORF information:

    RefSeq Version XM_012957181.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis StAR related lipid transfer domain containing 13 (stard13), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012957181.3

    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
    ATGAGCGGCA AAAAGAGATC CGCCAAATTC CTGCTGCGGA GGTCCCTGAG CGAACAGTTA 
    AAGGACTCCA CCAGCAAAGC GTGGGACCTG CTGTGGAAAA ACGTCCGAGA GAAGCGGCTG
    GCAGAACTCG AAGCAAAAGA AGCATGCGAT TGGCTACGTG CAGCTGGATT CCCTCAATAC
    GCTCAGCTTT ATGAAGATTC CCAATTCCCA ATTGATATCG CATCTGTAAA GCGGGACCAT
    GATTTCCTTG ACAGAGACCA TGTAGAACCA CTTTGCAGGC GACTGAAGAC GTTGAATAAG
    TGTGCCTCAA TGAAACTCGA TGTCAGCTTC CAAAGGAAGA AGAGTGAAGA TTCAGATGAA
    GAAGACCTGT GTGCCATCAG TGACAAATGG AGGTTCCAAA GACTCAGCCG CCAATGGTCT
    CGGGTAGATG ACATTGATTC GCTGTTTGAG CGATCGGAGA GACTTGGTTC ATCTGGGGAA
    ATGAAAAACA CGACTAGCAG TGAAAGTGTC TTGACTGATC TCAGTGAGCC AGAAATATGT
    TCTATCCACA GTGGAAGTAG CGGTGGAAGT GACTGCAGAT GTTCCTATGT TGGTAACAGT
    GCTTCCAGGG AAACATTTGA GTGTGCGGAC ACAATGTGTA TTCATGATCC CAATTCCATG
    ACCATATTAC CTCCATGGCC TAAAGATGTT TCAGACGGTA AGCTGAATGC CAAGAATGAA
    AAGCCTGCAC ACAATAAAAC AAAAACTTTT CTAAAATGCA TGGGGACTCT TAGATCTAAA
    GGGACCTATG GTAAATCAAA AGGCCTCCAA AGAACTGGAG CGATAGTAAT TAGTGAGCCC
    ATTCTGCAAC TGGAGCCTGA ACCTCTGAAA CCAATTCCAC AGCTGGAGCC TGACCCCCTT
    AAAACAATGA GCTGTGTTGG CAATGGCCAA GTCCAAGACT CCTCTATGAA CTTTACAGCA
    ACTGGAAATC TAAATTCGGT ATCTGAAATA CAAACTAGCA CTGAGAGCTC TCCTTGCTTA
    AAAGAAATGC AAGCTCTTGA GCCCAACAAA CGAGGAGGCA TGTACCTAGA GGACATTGAT
    GTCTTTACAG ATTTAGGGAC AGCAAAAGCC GGTCATAATC ACAACCATGA CTTCCATTCG
    CAAGAAGACT TGGTTGTACA TATTCCAAAG GATCACAAAC CTGGAACGTT TCCAAAAGCA
    CTTTCTATTG AAAGCCTCTC TCCCACAGAG AACTTCTATG GTGTCAACTG GCGGAGTGGA
    GGGATTCCTC TTAGCAGGCA GAAAGGTATT CGTGCTAAAG AACCAAGAAT TATGTCTTCC
    AGGTGCTCCA GAGGTAGCAG GCTTAGTGTT TATGATAACG TGCCCGGATC CCACTTGTAT
    GCCAGCACCG GGGATCTCAT GGATTTAGAT AGGGATGATT TATTTCCTCA CTTAGATGAT
    GTTTTGCAGC ACATTAATGG ACTCCAACAG TCTGTGTACC ACTGGTCAAA AGACATAATG
    CCAGATCTTC AAGATGACGA TTTCTCTGTT GGGGAGTCTG GAACCTCAAA CTTTCATTTG
    CCTAACCCAA TGAGCATGGA CTTTGAAGGC AATTCTATTT CTGATGGTAG GACTACCCCG
    AGTGACATGG AGAGAGACGC TACATCGCTT AATGACTCTG ATACTACTGG AACCAGAGAA
    AGAAGGGATT CTGGGGTTGG AGCCTCCCTC ACCAGAACAA ACAGGCGGTT TCGGTGGAGC
    AGTTTCCAGC TCTCCCATCA GCAAAGCAGC TCTGGGGCAT CACTTCAGAT CAGCAATCAG
    TCTGCAGGCC AGCTCAATCT GTTGCAGAAA TTCTCCTTGC TTCGCCTGAC AGCCATCATG
    GAGAAATATT CCTTGTCAAA CAAGCACGGA TGGACATGGT CTGTGCCGAA GTTTATGAAG
    AGGATGAAGG GACCTGATTT CAAGGATAAG ACTATTTTTG GTGTGCCTTT AATGGTTCAT
    GTACAGAGAA CTGGACAGCC TCTTCCCCAG AGTATCCAGC AAGCATTGCG TTTCCTCCGC
    AGTCACTGCC TCGATCAGGT TGGTTTGTTC AGAAAGTCGG GTGTTAAATC TCGAATCCAG
    GCTCTGCGCC AGATGAACGA GACTGCATCA GAGAATGTGA GCTATGAAGA TCAGTGCGCC
    TACGATGTGG CAGATATGAT GAAACAGTTC TTCAGGGATC TCCCTGAACC TCTTCTCACC
    AGTAAATTAG GGGAGACCTT TCTCCATATA TACCAGTATG TCCCCAAAGA CCAGAGGCTC
    CAGGCTGTGC AGTCGGCTAT CATGCTGATG TCAGATGAAA ACCGAGAGGT CTTGCAGACC
    CTTCTGTGCT TTCTCAGTGA TGTCACCTCG GTGGAAGAGA ATCAGATGAC CCCGATGAAT
    CTCGCTGTAT GTTTGGCGCC ATCACTGTTC CATCTCAATT TATTAAAGAA GGACAACTCT
    CCAAGAGCAA TACAGAAAAA ATATGCAACA GGAAGACCGG ATCAGAAGGA CCTAAATGAG
    AATTTTGCAG CTACTCAGGG CCTGGCACAC ATGATAATGG AGTGCAACAG GTTATTTGAG
    ATTCCACATG ACGTTATAGC CCAGTCCCGC AATTCCTATG TCGAAGCTGA TGTGCACGTC
    CTCACAATGG AGGAATTAGG AAAGCAACTG GAAGAGGAAG GGGGGAGCGT GAGCACGTAC
    TTTGAGAGTA CAATTCAGGG CCTACAGAAG GAAGCTAAGG AGAAGTTCAA GGGATGGATG
    TCCCTCTCCA GCGCAGAGAA CACTGACCTT GCTTACAAAA AGGTTGGTGA TGGAAATTCA
    TTGAGAGTGT GGAAGGTTTC GGTGGAAGTG GAGGCCCCGC CATCTGTGGT TCTTAATCGC
    ATTTTGAGAG AACGACAACT TTGGGATGAT GACTTGTTGC AGTCGAAAGT GATAGAAAGT
    CTGGATAACC AAACAGAAGT GTACCAGTAT GTGCTGAACA GCATGGCTCC GCACCCCTCC
    AGGGACTTTG TTGTTTTGAG GTCCTGGAGA ACAGACTTGC CAAAAGGAAT CTGCGCGCTG
    GCAGCCGTAT CAGTAGAACA TGACGAGGCC CATCTCATAG GAGGAGTGAG AGCGGCAGTT
    CTGGATACTC GCTATCTCAT TGAACCCTGT GGCTCTGGCA AATCAAAGCT GACGCATATT
    TCCAGAGTTG ATCTCAAGGG CCACAGTCCT GAGTGGTACA ATAAATGTTT TGGACATCTT
    TGCGCATCAG AGGCTTTAAG GATCCGAAAT TCTTTCCAGC CAATTTCCAC CGAGGGTCCT
    GAAACAAAAA TCTGA

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

    CloneID OXa01981
    Clone ID Related Accession (Same CDS sequence) NM_001045767.1
    Accession Version NM_001045767.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3138bp)
    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 2019-12-21
    Organism Xenopus tropicalis(tropical clawed frog)
    Product stAR-related lipid transfer protein 13
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CR942686.2. ##Evidence-Data-START## Transcript exon combination :: CR942686.2, BC161604.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMD00028290, SAMD00028291 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## gene product(s) localized to mito. :: inferred from homology ##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
    ATGGGAGGCC AGCCTTGGAA AAAGCAGCGG ATTGAGAAAC GGAGAAGTTC CTTGTCCTTG 
    GTGGGCCAGC TATTCATACA AAGTTGTGTG TTTACTTCCA GGCGACTGAA GACGTTGAAT
    AAGTGTGCCT CAATGAAACT CGATGTCAGC TTCCAAAGGA AGAAGAGTGA AGATTCAGAT
    GAAGAAGACC TGTGTGCCAT CAGTGACAAA TGGAGGTTCC AAAGACTCAG CCGCCAATGG
    TCTCGGGTAG ATGACATTGA TTCGCTGTTT GAGCGATCGG AGAGACTTGG TTCATCTGGG
    GAAATGAAAA ACACGACTAG CAGTGAAAGT GTCTTGACTG ATCTCAGTGA GCCAGAAATA
    TGTTCTATCC ACAGTGGAAG TAGCGGTGGA AGTGACTGCA GATGTTCCTA TGTTGGTAAC
    AGTGCTTCCA GGGAAACATT TGAGTGTGCG GACACAATGT GTATTCATGA TCCCAATTCC
    ATGACCATAT TACCTCCATG GCCTAAAGAT GTTTCAGACG GTAAGCTGAA TGCCAAGAAT
    GAAAAGCCTG CACACAATAA AACAAAAACT TTTCTAAAAT GCATGGGGAC TCTTAGATCT
    AAAGGGACCT ATGGTAAATC AAAAGGCCTC CAAAGAACTG GAGCGATAGT AATTAGTGAG
    CCCATTCTGC AACTGGAGCC TGAACCTCTG AAACCAATTC CACAGCTGGA GCCTGACCCC
    CTTAAAACAA TGAGCTGTGT TGGCAATGGC CAAGTCCAAG ACTCCTCTAT GAACTTTACA
    GCAACTGGAA ATCTAAATTC GGTATCTGAA ATACAAACTA GCACTGAGAG CTCTCCTTGC
    TTAAAAGAAA TGCAAGCTCT TGAGCCCAAC AAACGAGGAG GCATGTACCT AGAGGACATT
    GATGTCTTTA CAGATTTAGG GACAGCAAAA GCCGGTCATA ATCACAACCA TGACTTCCAT
    TCGCAAGAAG ACTTGGTTGT ACATATTCCA AAGGATCACA AACCTGGAAC GTTTCCAAAA
    GCACTTTCTA TTGAAAGCCT CTCTCCCACA GAGAACTTCT ATGGTGTCAA CTGGCGGAGT
    GGAGGGATTC CTCTTAGCAG GCAGAAAGGT ATTCGTGCTA AAGAACCAAG AATTATGTCT
    TCCAGGTGCT CCAGAGGTAG CAGGCTTAGT GTTTATGATA ACGTGCCCGG ATCCCACTTG
    TATGCCAGCA CCGGGGATCT CATGGATTTA GATAGGGATG ATTTATTTCC TCACTTAGAT
    GATGTTTTGC AGCACATTAA TGGACTCCAA CAGTCTGTGT ACCACTGGTC AAAAGACATA
    ATGCCAGATC TTCAAGATGA CGATTTCTCT GTTGGGGAGT CTGGAACCTC AAACTTTCAT
    TTGCCTAACC CAATGAGCAT GGACTTTGAA GGCAATTCTA TTTCTGATGG TAGGACTACC
    CCGAGTGACA TGGAGAGAGA CGCTACATCG CTTAATGACT CTGATACTAC TGGAACCAGA
    GAAAGAAGGG ATTCTGGGGT TGGAGCCTCC CTCACCAGAA CAAACAGGCG GTTTCGGTGG
    AGCAGTTTCC AGCTCTCCCA TCAGCAAAGC AGCTCTGGGG CATCACTTCA GATCAGCAAT
    CAGTCTGCAG GCCAGCTCAA TCTGTTGCAG AAATTCTCCT TGCTTCGCCT GACAGCCATC
    ATGGAGAAAT ATTCCTTGTC AAACAAGCAC GGATGGACAT GGTCTGTGCC GAAGTTTATG
    AAGAGGATGA AGGGACCTGA TTTCAAGGAT AAGACTATTT TTGGTGTGCC TTTAATGGTT
    CATGTACAGA GAACTGGACA GCCTCTTCCC CAGAGTATCC AGCAAGCATT GCGTTTCCTC
    CGCAGTCACT GCCTCGATCA GGTTGGTTTG TTCAGAAAGT CGGGTGTTAA ATCTCGAATC
    CAGGCTCTGC GCCAGATGAA CGAGACTGCA TCAGAGAATG TGAGCTATGA AGATCAGTGC
    GCCTACGATG TGGCAGATAT GATGAAACAG TTCTTCAGGG ATCTCCCTGA ACCTCTTCTC
    ACCAGTAAAT TAGGGGAGAC CTTTCTCCAT ATATACCAGT ATGTCCCCAA AGACCAGAGG
    CTCCAGGCTG TGCAGTCGGC TATCATGCTG ATGTCAGATG AAAACCGAGA GGTCTTGCAG
    ACCCTTCTGT GCTTTCTCAG TGATGTCACC TCGGTGGAAG AGAATCAGAT GACCCCGATG
    AATCTCGCTG TATGTTTGGC GCCATCACTG TTCCATCTCA ATTTATTAAA GAAGGACAAC
    TCTCCAAGAG CAATACAGAA AAAATATGCA ACAGGAAGAC CGGATCAGAA GGACCTAAAT
    GAGAATTTTG CAGCTACTCA GGGCCTGGCA CACATGATAA TGGAGTGCAA CAGGTTATTT
    GAGATTCCAC ATGACGTTAT AGCCCAGTCC CGCAATTCCT ATGTCGAAGC TGATGTGCAC
    GTCCTCACAA TGGAGGAATT AGGAAAGCAA CTGGAAGAGG AAGGGGGGAG CGTGAGCACG
    TACTTTGAGA GTACAATTCA GGGCCTACAG AAGGAAGCTA AGGAGAAGTT CAAGGGATGG
    ATGTCCCTCT CCAGCGCAGA GAACACTGAC CTTGCTTACA AAAAGGTTGG TGATGGAAAT
    TCATTGAGAG TGTGGAAGGT TTCGGTGGAA GTGGAGGCCC CGCCATCTGT GGTTCTTAAT
    CGCATTTTGA GAGAACGACA ACTTTGGGAT GATGACTTGT TGCAGTCGAA AGTGATAGAA
    AGTCTGGATA ACCAAACAGA AGTGTACCAG TATGTGCTGA ACAGCATGGC TCCGCACCCC
    TCCAGGGACT TTGTTGTTTT GAGGTCCTGG AGAACAGACT TGCCAAAAGG AATCTGCGCG
    CTGGCAGCCG TATCAGTAGA ACATGACGAG GCCCATCTCA TAGGAGGAGT GAGAGCGGCA
    GTTCTGGATA CTCGCTATCT CATTGAACCC TGTGGCTCTG GCAAATCAAA GCTGACGCAT
    ATTTCCAGAG TTGATCTCAA GGGCCACAGT CCTGAGTGGT ACAATAAATG TTTTGGACAT
    CTTTGCGCAT CAGAGGCTTT AAGGATCCGA AATTCTTTCC AGCCAATTTC CACCGAGGGT
    CCTGAAACAA AAATCTGA

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

    RefSeq NP_001039232.1
    CDS95..3232
    Translation

    Target ORF information:

    RefSeq Version NM_001045767.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis StAR related lipid transfer domain containing 13 (stard13), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001045767.1

    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
    ATGGGAGGCC AGCCTTGGAA AAAGCAGCGG ATTGAGAAAC GGAGAAGTTC CTTGTCCTTG 
    GTGGGCCAGC TATTCATACA AAGTTGTGTG TTTACTTCCA GGCGACTGAA GACGTTGAAT
    AAGTGTGCCT CAATGAAACT CGATGTCAGC TTCCAAAGGA AGAAGAGTGA AGATTCAGAT
    GAAGAAGACC TGTGTGCCAT CAGTGACAAA TGGAGGTTCC AAAGACTCAG CCGCCAATGG
    TCTCGGGTAG ATGACATTGA TTCGCTGTTT GAGCGATCGG AGAGACTTGG TTCATCTGGG
    GAAATGAAAA ACACGACTAG CAGTGAAAGT GTCTTGACTG ATCTCAGTGA GCCAGAAATA
    TGTTCTATCC ACAGTGGAAG TAGCGGTGGA AGTGACTGCA GATGTTCCTA TGTTGGTAAC
    AGTGCTTCCA GGGAAACATT TGAGTGTGCG GACACAATGT GTATTCATGA TCCCAATTCC
    ATGACCATAT TACCTCCATG GCCTAAAGAT GTTTCAGACG GTAAGCTGAA TGCCAAGAAT
    GAAAAGCCTG CACACAATAA AACAAAAACT TTTCTAAAAT GCATGGGGAC TCTTAGATCT
    AAAGGGACCT ATGGTAAATC AAAAGGCCTC CAAAGAACTG GAGCGATAGT AATTAGTGAG
    CCCATTCTGC AACTGGAGCC TGAACCTCTG AAACCAATTC CACAGCTGGA GCCTGACCCC
    CTTAAAACAA TGAGCTGTGT TGGCAATGGC CAAGTCCAAG ACTCCTCTAT GAACTTTACA
    GCAACTGGAA ATCTAAATTC GGTATCTGAA ATACAAACTA GCACTGAGAG CTCTCCTTGC
    TTAAAAGAAA TGCAAGCTCT TGAGCCCAAC AAACGAGGAG GCATGTACCT AGAGGACATT
    GATGTCTTTA CAGATTTAGG GACAGCAAAA GCCGGTCATA ATCACAACCA TGACTTCCAT
    TCGCAAGAAG ACTTGGTTGT ACATATTCCA AAGGATCACA AACCTGGAAC GTTTCCAAAA
    GCACTTTCTA TTGAAAGCCT CTCTCCCACA GAGAACTTCT ATGGTGTCAA CTGGCGGAGT
    GGAGGGATTC CTCTTAGCAG GCAGAAAGGT ATTCGTGCTA AAGAACCAAG AATTATGTCT
    TCCAGGTGCT CCAGAGGTAG CAGGCTTAGT GTTTATGATA ACGTGCCCGG ATCCCACTTG
    TATGCCAGCA CCGGGGATCT CATGGATTTA GATAGGGATG ATTTATTTCC TCACTTAGAT
    GATGTTTTGC AGCACATTAA TGGACTCCAA CAGTCTGTGT ACCACTGGTC AAAAGACATA
    ATGCCAGATC TTCAAGATGA CGATTTCTCT GTTGGGGAGT CTGGAACCTC AAACTTTCAT
    TTGCCTAACC CAATGAGCAT GGACTTTGAA GGCAATTCTA TTTCTGATGG TAGGACTACC
    CCGAGTGACA TGGAGAGAGA CGCTACATCG CTTAATGACT CTGATACTAC TGGAACCAGA
    GAAAGAAGGG ATTCTGGGGT TGGAGCCTCC CTCACCAGAA CAAACAGGCG GTTTCGGTGG
    AGCAGTTTCC AGCTCTCCCA TCAGCAAAGC AGCTCTGGGG CATCACTTCA GATCAGCAAT
    CAGTCTGCAG GCCAGCTCAA TCTGTTGCAG AAATTCTCCT TGCTTCGCCT GACAGCCATC
    ATGGAGAAAT ATTCCTTGTC AAACAAGCAC GGATGGACAT GGTCTGTGCC GAAGTTTATG
    AAGAGGATGA AGGGACCTGA TTTCAAGGAT AAGACTATTT TTGGTGTGCC TTTAATGGTT
    CATGTACAGA GAACTGGACA GCCTCTTCCC CAGAGTATCC AGCAAGCATT GCGTTTCCTC
    CGCAGTCACT GCCTCGATCA GGTTGGTTTG TTCAGAAAGT CGGGTGTTAA ATCTCGAATC
    CAGGCTCTGC GCCAGATGAA CGAGACTGCA TCAGAGAATG TGAGCTATGA AGATCAGTGC
    GCCTACGATG TGGCAGATAT GATGAAACAG TTCTTCAGGG ATCTCCCTGA ACCTCTTCTC
    ACCAGTAAAT TAGGGGAGAC CTTTCTCCAT ATATACCAGT ATGTCCCCAA AGACCAGAGG
    CTCCAGGCTG TGCAGTCGGC TATCATGCTG ATGTCAGATG AAAACCGAGA GGTCTTGCAG
    ACCCTTCTGT GCTTTCTCAG TGATGTCACC TCGGTGGAAG AGAATCAGAT GACCCCGATG
    AATCTCGCTG TATGTTTGGC GCCATCACTG TTCCATCTCA ATTTATTAAA GAAGGACAAC
    TCTCCAAGAG CAATACAGAA AAAATATGCA ACAGGAAGAC CGGATCAGAA GGACCTAAAT
    GAGAATTTTG CAGCTACTCA GGGCCTGGCA CACATGATAA TGGAGTGCAA CAGGTTATTT
    GAGATTCCAC ATGACGTTAT AGCCCAGTCC CGCAATTCCT ATGTCGAAGC TGATGTGCAC
    GTCCTCACAA TGGAGGAATT AGGAAAGCAA CTGGAAGAGG AAGGGGGGAG CGTGAGCACG
    TACTTTGAGA GTACAATTCA GGGCCTACAG AAGGAAGCTA AGGAGAAGTT CAAGGGATGG
    ATGTCCCTCT CCAGCGCAGA GAACACTGAC CTTGCTTACA AAAAGGTTGG TGATGGAAAT
    TCATTGAGAG TGTGGAAGGT TTCGGTGGAA GTGGAGGCCC CGCCATCTGT GGTTCTTAAT
    CGCATTTTGA GAGAACGACA ACTTTGGGAT GATGACTTGT TGCAGTCGAA AGTGATAGAA
    AGTCTGGATA ACCAAACAGA AGTGTACCAG TATGTGCTGA ACAGCATGGC TCCGCACCCC
    TCCAGGGACT TTGTTGTTTT GAGGTCCTGG AGAACAGACT TGCCAAAAGG AATCTGCGCG
    CTGGCAGCCG TATCAGTAGA ACATGACGAG GCCCATCTCA TAGGAGGAGT GAGAGCGGCA
    GTTCTGGATA CTCGCTATCT CATTGAACCC TGTGGCTCTG GCAAATCAAA GCTGACGCAT
    ATTTCCAGAG TTGATCTCAA GGGCCACAGT CCTGAGTGGT ACAATAAATG TTTTGGACAT
    CTTTGCGCAT CAGAGGCTTT AAGGATCCGA AATTCTTTCC AGCCAATTTC CACCGAGGGT
    CCTGAAACAA AAATCTGA

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

    CloneID OXa28842
    Clone ID Related Accession (Same CDS sequence) XM_012957180.2
    Accession Version XM_012957180.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3357bp)
    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 stAR-related lipid transfer protein 13 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030678.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_012957180.1. ##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##

    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
    ATGTGGAAGC AGGAGCCCCA AAGTACAGCG GCAGGCTGTA AGCGGTTAAA TTCTGTGTCA 
    CCTGATGGCC AGGAGTATTA TATGTACTTT GATAAGAGAA GGAGATCCCC GTATAGAATG
    AGCAGGATCC TGGCACGGCA GCAGCTCCTG ACTAAGATAC AGCAAGAACT CGAAGCAAAA
    GAAGCATGCG ATTGGCTACG TGCAGCTGGA TTCCCTCAAT ACGCTCAGCT TTATGAAGAT
    TCCCAATTCC CAATTGATAT CGCATCTGTA AAGCGGGACC ATGATTTCCT TGACAGAGAC
    CATGTAGAAC CACTTTGCAG GCGACTGAAG ACGTTGAATA AGTGTGCCTC AATGAAACTC
    GATGTCAGCT TCCAAAGGAA GAAGAGTGAA GATTCAGATG AAGAAGACCT GTGTGCCATC
    AGTGACAAAT GGAGGTTCCA AAGACTCAGC CGCCAATGGT CTCGGGTAGA TGACATTGAT
    TCGCTGTTTG AGCGATCGGA GAGACTTGGT TCATCTGGGG AAATGAAAAA CACGACTAGC
    AGTGAAAGTG TCTTGACTGA TCTCAGTGAG CCAGAAATAT GTTCTATCCA CAGTGGAAGT
    AGCGGTGGAA GTGACTGCAG ATGTTCCTAT GTTGGTAACA GTGCTTCCAG GGAAACATTT
    GAGTGTGCGG ACACAATGTG TATTCATGAT CCCAATTCCA TGACCATATT ACCTCCATGG
    CCTAAAGATG TTTCAGACGG TAAGCTGAAT GCCAAGAATG AAAAGCCTGC ACACAATAAA
    ACAAAAACTT TTCTAAAATG CATGGGGACT CTTAGATCTA AAGGGACCTA TGGTAAATCA
    AAAGGCCTCC AAAGAACTGG AGCGATAGTA ATTAGTGAGC CCATTCTGCA ACTGGAGCCT
    GAACCTCTGA AACCAATTCC ACAGCTGGAG CCTGACCCCC TTAAAACAAT GAGCTGTGTT
    GGCAATGGCC AAGTCCAAGA CTCCTCTATG AACTTTACAG CAACTGGAAA TCTAAATTCG
    GTATCTGAAA TACAAACTAG CACTGAGAGC TCTCCTTGCT TAAAAGAAAT GCAAGCTCTT
    GAGCCCAACA AACGAGGAGG CATGTACCTA GAGGACATTG ATGTCTTTAC AGATTTAGGG
    ACAGCAAAAG CCGGTCATAA TCACAACCAT GACTTCCATT CGCAAGAAGA CTTGGTTGTA
    CATATTCCAA AGGATCACAA ACCTGGAACG TTTCCAAAAG CACTTTCTAT TGAAAGCCTC
    TCTCCCACAG AGAACTTCTA TGGTGTCAAC TGGCGGAGTG GAGGGATTCC TCTTAGCAGG
    CAGAAAGGTA TTCGTGCTAA AGAACCAAGA ATTATGTCTT CCAGGTGCTC CAGAGGTAGC
    AGGCTTAGTG TTTATGATAA CGTGCCCGGA TCCCACTTGT ATGCCAGCAC CGGGGATCTC
    ATGGATTTAG ATAGGGATGA TTTATTTCCT CACTTAGATG ATGTTTTGCA GCACATTAAT
    GGACTCCAAC AGTCTGTGTA CCACTGGTCA AAAGACATAA TGCCAGATCT TCAAGATGAC
    GATTTCTCTG TTGGGGAGTC TGGAACCTCA AACTTTCATT TGCCTAACCC AATGAGCATG
    GACTTTGAAG GCAATTCTAT TTCTGATGGT AGGACTACCC CGAGTGACAT GGAGAGAGAC
    GCTACATCGC TTAATGACTC TGATACTACT GGAACCAGAG AAAGAAGGGA TTCTGGGGTT
    GGAGCCTCCC TCACCAGAAC AAACAGGCGG TTTCGGTGGA GCAGTTTCCA GCTCTCCCAT
    CAGCAAAGCA GCTCTGGGGC ATCACTTCAG ATCAGCAATC AGTCTGCAGG CCAGCTCAAT
    CTGTTGCAGA AATTCTCCTT GCTTCGCCTG ACAGCCATCA TGGAGAAATA TTCCTTGTCA
    AACAAGCACG GATGGACATG GTCTGTGCCG AAGTTTATGA AGAGGATGAA GGGACCTGAT
    TTCAAGGATA AGACTATTTT TGGTGTGCCT TTAATGGTTC ATGTACAGAG AACTGGACAG
    CCTCTTCCCC AGAGTATCCA GCAAGCATTG CGTTTCCTCC GCAGTCACTG CCTCGATCAG
    GTTGGTTTGT TCAGAAAGTC GGGTGTTAAA TCTCGAATCC AGGCTCTGCG CCAGATGAAC
    GAGACTGCAT CAGAGAATGT GAGCTATGAA GATCAGTGCG CCTACGATGT GGCAGATATG
    ATGAAACAGT TCTTCAGGGA TCTCCCTGAA CCTCTTCTCA CCAGTAAATT AGGGGAGACC
    TTTCTCCATA TATACCAGTA TGTCCCCAAA GACCAGAGGC TCCAGGCTGT GCAGTCGGCT
    ATCATGCTGA TGTCAGATGA AAACCGAGAG GTCTTGCAGA CCCTTCTGTG CTTTCTCAGT
    GATGTCACCT CGGTGGAAGA GAATCAGATG ACCCCGATGA ATCTCGCTGT ATGTTTGGCG
    CCATCACTGT TCCATCTCAA TTTATTAAAG AAGGACAACT CTCCAAGAGC AATACAGAAA
    AAATATGCAA CAGGAAGACC GGATCAGAAG GACCTAAATG AGAATTTTGC AGCTACTCAG
    GGCCTGGCAC ACATGATAAT GGAGTGCAAC AGGTTATTTG AGATTCCACA TGACGTTATA
    GCCCAGTCCC GCAATTCCTA TGTCGAAGCT GATGTGCACG TCCTCACAAT GGAGGAATTA
    GGAAAGCAAC TGGAAGAGGA AGGGGGGAGC GTGAGCACGT ACTTTGAGAG TACAATTCAG
    GGCCTACAGA AGGAAGCTAA GGAGAAGTTC AAGGGATGGA TGTCCCTCTC CAGCGCAGAG
    AACACTGACC TTGCTTACAA AAAGGTTGGT GATGGAAATT CATTGAGAGT GTGGAAGGTT
    TCGGTGGAAG TGGAGGCCCC GCCATCTGTG GTTCTTAATC GCATTTTGAG AGAACGACAA
    CTTTGGGATG ATGACTTGTT GCAGTCGAAA GTGATAGAAA GTCTGGATAA CCAAACAGAA
    GTGTACCAGT ATGTGCTGAA CAGCATGGCT CCGCACCCCT CCAGGGACTT TGTTGTTTTG
    AGGTCCTGGA GAACAGACTT GCCAAAAGGA ATCTGCACGC TGGCAGCCGT ATCAGTAGAG
    CATGACGAGG CCCATCTCAT TGGAGGAGTG AGAGCGGCAG TTCTGGATAC TCGCTATCTC
    ATTGAACCCT GTGGCTCTGG CAAATCAAAG CTGACGCATA TTTCCAGAGT TGATCTCAAG
    GGCCACAGTC CTGAGTGGTA CAATAAATGT TTTGGACATC TTTGCGCATC CGAGGCTTTA
    AGGATCCGAA ATTCTTTCCA GCCAATTTCC ACCGAGGGAC CTGAAACAAA AATCTGA

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

    RefSeq XP_012812634.1
    CDS144..3500
    Translation

    Target ORF information:

    RefSeq Version XM_012957180.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis StAR related lipid transfer domain containing 13 (stard13), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012957180.2

    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
    ATGTGGAAGC AGGAGCCCCA AAGTACAGCG GCAGGCTGTA AGCGGTTAAA TTCTGTGTCA 
    CCTGATGGCC AGGAGTATTA TATGTACTTT GATAAGAGAA GGAGATCCCC GTATAGAATG
    AGCAGGATCC TGGCACGGCA GCAGCTCCTG ACTAAGATAC AGCAAGAACT CGAAGCAAAA
    GAAGCATGCG ATTGGCTACG TGCAGCTGGA TTCCCTCAAT ACGCTCAGCT TTATGAAGAT
    TCCCAATTCC CAATTGATAT CGCATCTGTA AAGCGGGACC ATGATTTCCT TGACAGAGAC
    CATGTAGAAC CACTTTGCAG GCGACTGAAG ACGTTGAATA AGTGTGCCTC AATGAAACTC
    GATGTCAGCT TCCAAAGGAA GAAGAGTGAA GATTCAGATG AAGAAGACCT GTGTGCCATC
    AGTGACAAAT GGAGGTTCCA AAGACTCAGC CGCCAATGGT CTCGGGTAGA TGACATTGAT
    TCGCTGTTTG AGCGATCGGA GAGACTTGGT TCATCTGGGG AAATGAAAAA CACGACTAGC
    AGTGAAAGTG TCTTGACTGA TCTCAGTGAG CCAGAAATAT GTTCTATCCA CAGTGGAAGT
    AGCGGTGGAA GTGACTGCAG ATGTTCCTAT GTTGGTAACA GTGCTTCCAG GGAAACATTT
    GAGTGTGCGG ACACAATGTG TATTCATGAT CCCAATTCCA TGACCATATT ACCTCCATGG
    CCTAAAGATG TTTCAGACGG TAAGCTGAAT GCCAAGAATG AAAAGCCTGC ACACAATAAA
    ACAAAAACTT TTCTAAAATG CATGGGGACT CTTAGATCTA AAGGGACCTA TGGTAAATCA
    AAAGGCCTCC AAAGAACTGG AGCGATAGTA ATTAGTGAGC CCATTCTGCA ACTGGAGCCT
    GAACCTCTGA AACCAATTCC ACAGCTGGAG CCTGACCCCC TTAAAACAAT GAGCTGTGTT
    GGCAATGGCC AAGTCCAAGA CTCCTCTATG AACTTTACAG CAACTGGAAA TCTAAATTCG
    GTATCTGAAA TACAAACTAG CACTGAGAGC TCTCCTTGCT TAAAAGAAAT GCAAGCTCTT
    GAGCCCAACA AACGAGGAGG CATGTACCTA GAGGACATTG ATGTCTTTAC AGATTTAGGG
    ACAGCAAAAG CCGGTCATAA TCACAACCAT GACTTCCATT CGCAAGAAGA CTTGGTTGTA
    CATATTCCAA AGGATCACAA ACCTGGAACG TTTCCAAAAG CACTTTCTAT TGAAAGCCTC
    TCTCCCACAG AGAACTTCTA TGGTGTCAAC TGGCGGAGTG GAGGGATTCC TCTTAGCAGG
    CAGAAAGGTA TTCGTGCTAA AGAACCAAGA ATTATGTCTT CCAGGTGCTC CAGAGGTAGC
    AGGCTTAGTG TTTATGATAA CGTGCCCGGA TCCCACTTGT ATGCCAGCAC CGGGGATCTC
    ATGGATTTAG ATAGGGATGA TTTATTTCCT CACTTAGATG ATGTTTTGCA GCACATTAAT
    GGACTCCAAC AGTCTGTGTA CCACTGGTCA AAAGACATAA TGCCAGATCT TCAAGATGAC
    GATTTCTCTG TTGGGGAGTC TGGAACCTCA AACTTTCATT TGCCTAACCC AATGAGCATG
    GACTTTGAAG GCAATTCTAT TTCTGATGGT AGGACTACCC CGAGTGACAT GGAGAGAGAC
    GCTACATCGC TTAATGACTC TGATACTACT GGAACCAGAG AAAGAAGGGA TTCTGGGGTT
    GGAGCCTCCC TCACCAGAAC AAACAGGCGG TTTCGGTGGA GCAGTTTCCA GCTCTCCCAT
    CAGCAAAGCA GCTCTGGGGC ATCACTTCAG ATCAGCAATC AGTCTGCAGG CCAGCTCAAT
    CTGTTGCAGA AATTCTCCTT GCTTCGCCTG ACAGCCATCA TGGAGAAATA TTCCTTGTCA
    AACAAGCACG GATGGACATG GTCTGTGCCG AAGTTTATGA AGAGGATGAA GGGACCTGAT
    TTCAAGGATA AGACTATTTT TGGTGTGCCT TTAATGGTTC ATGTACAGAG AACTGGACAG
    CCTCTTCCCC AGAGTATCCA GCAAGCATTG CGTTTCCTCC GCAGTCACTG CCTCGATCAG
    GTTGGTTTGT TCAGAAAGTC GGGTGTTAAA TCTCGAATCC AGGCTCTGCG CCAGATGAAC
    GAGACTGCAT CAGAGAATGT GAGCTATGAA GATCAGTGCG CCTACGATGT GGCAGATATG
    ATGAAACAGT TCTTCAGGGA TCTCCCTGAA CCTCTTCTCA CCAGTAAATT AGGGGAGACC
    TTTCTCCATA TATACCAGTA TGTCCCCAAA GACCAGAGGC TCCAGGCTGT GCAGTCGGCT
    ATCATGCTGA TGTCAGATGA AAACCGAGAG GTCTTGCAGA CCCTTCTGTG CTTTCTCAGT
    GATGTCACCT CGGTGGAAGA GAATCAGATG ACCCCGATGA ATCTCGCTGT ATGTTTGGCG
    CCATCACTGT TCCATCTCAA TTTATTAAAG AAGGACAACT CTCCAAGAGC AATACAGAAA
    AAATATGCAA CAGGAAGACC GGATCAGAAG GACCTAAATG AGAATTTTGC AGCTACTCAG
    GGCCTGGCAC ACATGATAAT GGAGTGCAAC AGGTTATTTG AGATTCCACA TGACGTTATA
    GCCCAGTCCC GCAATTCCTA TGTCGAAGCT GATGTGCACG TCCTCACAAT GGAGGAATTA
    GGAAAGCAAC TGGAAGAGGA AGGGGGGAGC GTGAGCACGT ACTTTGAGAG TACAATTCAG
    GGCCTACAGA AGGAAGCTAA GGAGAAGTTC AAGGGATGGA TGTCCCTCTC CAGCGCAGAG
    AACACTGACC TTGCTTACAA AAAGGTTGGT GATGGAAATT CATTGAGAGT GTGGAAGGTT
    TCGGTGGAAG TGGAGGCCCC GCCATCTGTG GTTCTTAATC GCATTTTGAG AGAACGACAA
    CTTTGGGATG ATGACTTGTT GCAGTCGAAA GTGATAGAAA GTCTGGATAA CCAAACAGAA
    GTGTACCAGT ATGTGCTGAA CAGCATGGCT CCGCACCCCT CCAGGGACTT TGTTGTTTTG
    AGGTCCTGGA GAACAGACTT GCCAAAAGGA ATCTGCACGC TGGCAGCCGT ATCAGTAGAG
    CATGACGAGG CCCATCTCAT TGGAGGAGTG AGAGCGGCAG TTCTGGATAC TCGCTATCTC
    ATTGAACCCT GTGGCTCTGG CAAATCAAAG CTGACGCATA TTTCCAGAGT TGATCTCAAG
    GGCCACAGTC CTGAGTGGTA CAATAAATGT TTTGGACATC TTTGCGCATC CGAGGCTTTA
    AGGATCCGAA ATTCTTTCCA GCCAATTTCC ACCGAGGGAC CTGAAACAAA AATCTGA

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

    CloneID OXa28843
    Clone ID Related Accession (Same CDS sequence) XM_012957181.2
    Accession Version XM_012957181.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3315bp)
    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 stAR-related lipid transfer protein 13 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030678.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_012957181.1. ##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##

    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
    ATGAGCGGCA AAAAGAGATC CGCCAAATTC CTGCTGCGGA GGTCCCTGAG CGAACAGTTA 
    AAGGACTCCA CCAGCAAAGC GTGGGACCTG CTGTGGAAAA ACGTCCGAGA GAAGCGGCTG
    GCAGAACTCG AAGCAAAAGA AGCATGCGAT TGGCTACGTG CAGCTGGATT CCCTCAATAC
    GCTCAGCTTT ATGAAGATTC CCAATTCCCA ATTGATATCG CATCTGTAAA GCGGGACCAT
    GATTTCCTTG ACAGAGACCA TGTAGAACCA CTTTGCAGGC GACTGAAGAC GTTGAATAAG
    TGTGCCTCAA TGAAACTCGA TGTCAGCTTC CAAAGGAAGA AGAGTGAAGA TTCAGATGAA
    GAAGACCTGT GTGCCATCAG TGACAAATGG AGGTTCCAAA GACTCAGCCG CCAATGGTCT
    CGGGTAGATG ACATTGATTC GCTGTTTGAG CGATCGGAGA GACTTGGTTC ATCTGGGGAA
    ATGAAAAACA CGACTAGCAG TGAAAGTGTC TTGACTGATC TCAGTGAGCC AGAAATATGT
    TCTATCCACA GTGGAAGTAG CGGTGGAAGT GACTGCAGAT GTTCCTATGT TGGTAACAGT
    GCTTCCAGGG AAACATTTGA GTGTGCGGAC ACAATGTGTA TTCATGATCC CAATTCCATG
    ACCATATTAC CTCCATGGCC TAAAGATGTT TCAGACGGTA AGCTGAATGC CAAGAATGAA
    AAGCCTGCAC ACAATAAAAC AAAAACTTTT CTAAAATGCA TGGGGACTCT TAGATCTAAA
    GGGACCTATG GTAAATCAAA AGGCCTCCAA AGAACTGGAG CGATAGTAAT TAGTGAGCCC
    ATTCTGCAAC TGGAGCCTGA ACCTCTGAAA CCAATTCCAC AGCTGGAGCC TGACCCCCTT
    AAAACAATGA GCTGTGTTGG CAATGGCCAA GTCCAAGACT CCTCTATGAA CTTTACAGCA
    ACTGGAAATC TAAATTCGGT ATCTGAAATA CAAACTAGCA CTGAGAGCTC TCCTTGCTTA
    AAAGAAATGC AAGCTCTTGA GCCCAACAAA CGAGGAGGCA TGTACCTAGA GGACATTGAT
    GTCTTTACAG ATTTAGGGAC AGCAAAAGCC GGTCATAATC ACAACCATGA CTTCCATTCG
    CAAGAAGACT TGGTTGTACA TATTCCAAAG GATCACAAAC CTGGAACGTT TCCAAAAGCA
    CTTTCTATTG AAAGCCTCTC TCCCACAGAG AACTTCTATG GTGTCAACTG GCGGAGTGGA
    GGGATTCCTC TTAGCAGGCA GAAAGGTATT CGTGCTAAAG AACCAAGAAT TATGTCTTCC
    AGGTGCTCCA GAGGTAGCAG GCTTAGTGTT TATGATAACG TGCCCGGATC CCACTTGTAT
    GCCAGCACCG GGGATCTCAT GGATTTAGAT AGGGATGATT TATTTCCTCA CTTAGATGAT
    GTTTTGCAGC ACATTAATGG ACTCCAACAG TCTGTGTACC ACTGGTCAAA AGACATAATG
    CCAGATCTTC AAGATGACGA TTTCTCTGTT GGGGAGTCTG GAACCTCAAA CTTTCATTTG
    CCTAACCCAA TGAGCATGGA CTTTGAAGGC AATTCTATTT CTGATGGTAG GACTACCCCG
    AGTGACATGG AGAGAGACGC TACATCGCTT AATGACTCTG ATACTACTGG AACCAGAGAA
    AGAAGGGATT CTGGGGTTGG AGCCTCCCTC ACCAGAACAA ACAGGCGGTT TCGGTGGAGC
    AGTTTCCAGC TCTCCCATCA GCAAAGCAGC TCTGGGGCAT CACTTCAGAT CAGCAATCAG
    TCTGCAGGCC AGCTCAATCT GTTGCAGAAA TTCTCCTTGC TTCGCCTGAC AGCCATCATG
    GAGAAATATT CCTTGTCAAA CAAGCACGGA TGGACATGGT CTGTGCCGAA GTTTATGAAG
    AGGATGAAGG GACCTGATTT CAAGGATAAG ACTATTTTTG GTGTGCCTTT AATGGTTCAT
    GTACAGAGAA CTGGACAGCC TCTTCCCCAG AGTATCCAGC AAGCATTGCG TTTCCTCCGC
    AGTCACTGCC TCGATCAGGT TGGTTTGTTC AGAAAGTCGG GTGTTAAATC TCGAATCCAG
    GCTCTGCGCC AGATGAACGA GACTGCATCA GAGAATGTGA GCTATGAAGA TCAGTGCGCC
    TACGATGTGG CAGATATGAT GAAACAGTTC TTCAGGGATC TCCCTGAACC TCTTCTCACC
    AGTAAATTAG GGGAGACCTT TCTCCATATA TACCAGTATG TCCCCAAAGA CCAGAGGCTC
    CAGGCTGTGC AGTCGGCTAT CATGCTGATG TCAGATGAAA ACCGAGAGGT CTTGCAGACC
    CTTCTGTGCT TTCTCAGTGA TGTCACCTCG GTGGAAGAGA ATCAGATGAC CCCGATGAAT
    CTCGCTGTAT GTTTGGCGCC ATCACTGTTC CATCTCAATT TATTAAAGAA GGACAACTCT
    CCAAGAGCAA TACAGAAAAA ATATGCAACA GGAAGACCGG ATCAGAAGGA CCTAAATGAG
    AATTTTGCAG CTACTCAGGG CCTGGCACAC ATGATAATGG AGTGCAACAG GTTATTTGAG
    ATTCCACATG ACGTTATAGC CCAGTCCCGC AATTCCTATG TCGAAGCTGA TGTGCACGTC
    CTCACAATGG AGGAATTAGG AAAGCAACTG GAAGAGGAAG GGGGGAGCGT GAGCACGTAC
    TTTGAGAGTA CAATTCAGGG CCTACAGAAG GAAGCTAAGG AGAAGTTCAA GGGATGGATG
    TCCCTCTCCA GCGCAGAGAA CACTGACCTT GCTTACAAAA AGGTTGGTGA TGGAAATTCA
    TTGAGAGTGT GGAAGGTTTC GGTGGAAGTG GAGGCCCCGC CATCTGTGGT TCTTAATCGC
    ATTTTGAGAG AACGACAACT TTGGGATGAT GACTTGTTGC AGTCGAAAGT GATAGAAAGT
    CTGGATAACC AAACAGAAGT GTACCAGTAT GTGCTGAACA GCATGGCTCC GCACCCCTCC
    AGGGACTTTG TTGTTTTGAG GTCCTGGAGA ACAGACTTGC CAAAAGGAAT CTGCACGCTG
    GCAGCCGTAT CAGTAGAGCA TGACGAGGCC CATCTCATTG GAGGAGTGAG AGCGGCAGTT
    CTGGATACTC GCTATCTCAT TGAACCCTGT GGCTCTGGCA AATCAAAGCT GACGCATATT
    TCCAGAGTTG ATCTCAAGGG CCACAGTCCT GAGTGGTACA ATAAATGTTT TGGACATCTT
    TGCGCATCCG AGGCTTTAAG GATCCGAAAT TCTTTCCAGC CAATTTCCAC CGAGGGACCT
    GAAACAAAAA TCTGA

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

    RefSeq XP_012812635.1
    CDS203..3517
    Translation

    Target ORF information:

    RefSeq Version XM_012957181.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis StAR related lipid transfer domain containing 13 (stard13), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012957181.2

    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
    ATGAGCGGCA AAAAGAGATC CGCCAAATTC CTGCTGCGGA GGTCCCTGAG CGAACAGTTA 
    AAGGACTCCA CCAGCAAAGC GTGGGACCTG CTGTGGAAAA ACGTCCGAGA GAAGCGGCTG
    GCAGAACTCG AAGCAAAAGA AGCATGCGAT TGGCTACGTG CAGCTGGATT CCCTCAATAC
    GCTCAGCTTT ATGAAGATTC CCAATTCCCA ATTGATATCG CATCTGTAAA GCGGGACCAT
    GATTTCCTTG ACAGAGACCA TGTAGAACCA CTTTGCAGGC GACTGAAGAC GTTGAATAAG
    TGTGCCTCAA TGAAACTCGA TGTCAGCTTC CAAAGGAAGA AGAGTGAAGA TTCAGATGAA
    GAAGACCTGT GTGCCATCAG TGACAAATGG AGGTTCCAAA GACTCAGCCG CCAATGGTCT
    CGGGTAGATG ACATTGATTC GCTGTTTGAG CGATCGGAGA GACTTGGTTC ATCTGGGGAA
    ATGAAAAACA CGACTAGCAG TGAAAGTGTC TTGACTGATC TCAGTGAGCC AGAAATATGT
    TCTATCCACA GTGGAAGTAG CGGTGGAAGT GACTGCAGAT GTTCCTATGT TGGTAACAGT
    GCTTCCAGGG AAACATTTGA GTGTGCGGAC ACAATGTGTA TTCATGATCC CAATTCCATG
    ACCATATTAC CTCCATGGCC TAAAGATGTT TCAGACGGTA AGCTGAATGC CAAGAATGAA
    AAGCCTGCAC ACAATAAAAC AAAAACTTTT CTAAAATGCA TGGGGACTCT TAGATCTAAA
    GGGACCTATG GTAAATCAAA AGGCCTCCAA AGAACTGGAG CGATAGTAAT TAGTGAGCCC
    ATTCTGCAAC TGGAGCCTGA ACCTCTGAAA CCAATTCCAC AGCTGGAGCC TGACCCCCTT
    AAAACAATGA GCTGTGTTGG CAATGGCCAA GTCCAAGACT CCTCTATGAA CTTTACAGCA
    ACTGGAAATC TAAATTCGGT ATCTGAAATA CAAACTAGCA CTGAGAGCTC TCCTTGCTTA
    AAAGAAATGC AAGCTCTTGA GCCCAACAAA CGAGGAGGCA TGTACCTAGA GGACATTGAT
    GTCTTTACAG ATTTAGGGAC AGCAAAAGCC GGTCATAATC ACAACCATGA CTTCCATTCG
    CAAGAAGACT TGGTTGTACA TATTCCAAAG GATCACAAAC CTGGAACGTT TCCAAAAGCA
    CTTTCTATTG AAAGCCTCTC TCCCACAGAG AACTTCTATG GTGTCAACTG GCGGAGTGGA
    GGGATTCCTC TTAGCAGGCA GAAAGGTATT CGTGCTAAAG AACCAAGAAT TATGTCTTCC
    AGGTGCTCCA GAGGTAGCAG GCTTAGTGTT TATGATAACG TGCCCGGATC CCACTTGTAT
    GCCAGCACCG GGGATCTCAT GGATTTAGAT AGGGATGATT TATTTCCTCA CTTAGATGAT
    GTTTTGCAGC ACATTAATGG ACTCCAACAG TCTGTGTACC ACTGGTCAAA AGACATAATG
    CCAGATCTTC AAGATGACGA TTTCTCTGTT GGGGAGTCTG GAACCTCAAA CTTTCATTTG
    CCTAACCCAA TGAGCATGGA CTTTGAAGGC AATTCTATTT CTGATGGTAG GACTACCCCG
    AGTGACATGG AGAGAGACGC TACATCGCTT AATGACTCTG ATACTACTGG AACCAGAGAA
    AGAAGGGATT CTGGGGTTGG AGCCTCCCTC ACCAGAACAA ACAGGCGGTT TCGGTGGAGC
    AGTTTCCAGC TCTCCCATCA GCAAAGCAGC TCTGGGGCAT CACTTCAGAT CAGCAATCAG
    TCTGCAGGCC AGCTCAATCT GTTGCAGAAA TTCTCCTTGC TTCGCCTGAC AGCCATCATG
    GAGAAATATT CCTTGTCAAA CAAGCACGGA TGGACATGGT CTGTGCCGAA GTTTATGAAG
    AGGATGAAGG GACCTGATTT CAAGGATAAG ACTATTTTTG GTGTGCCTTT AATGGTTCAT
    GTACAGAGAA CTGGACAGCC TCTTCCCCAG AGTATCCAGC AAGCATTGCG TTTCCTCCGC
    AGTCACTGCC TCGATCAGGT TGGTTTGTTC AGAAAGTCGG GTGTTAAATC TCGAATCCAG
    GCTCTGCGCC AGATGAACGA GACTGCATCA GAGAATGTGA GCTATGAAGA TCAGTGCGCC
    TACGATGTGG CAGATATGAT GAAACAGTTC TTCAGGGATC TCCCTGAACC TCTTCTCACC
    AGTAAATTAG GGGAGACCTT TCTCCATATA TACCAGTATG TCCCCAAAGA CCAGAGGCTC
    CAGGCTGTGC AGTCGGCTAT CATGCTGATG TCAGATGAAA ACCGAGAGGT CTTGCAGACC
    CTTCTGTGCT TTCTCAGTGA TGTCACCTCG GTGGAAGAGA ATCAGATGAC CCCGATGAAT
    CTCGCTGTAT GTTTGGCGCC ATCACTGTTC CATCTCAATT TATTAAAGAA GGACAACTCT
    CCAAGAGCAA TACAGAAAAA ATATGCAACA GGAAGACCGG ATCAGAAGGA CCTAAATGAG
    AATTTTGCAG CTACTCAGGG CCTGGCACAC ATGATAATGG AGTGCAACAG GTTATTTGAG
    ATTCCACATG ACGTTATAGC CCAGTCCCGC AATTCCTATG TCGAAGCTGA TGTGCACGTC
    CTCACAATGG AGGAATTAGG AAAGCAACTG GAAGAGGAAG GGGGGAGCGT GAGCACGTAC
    TTTGAGAGTA CAATTCAGGG CCTACAGAAG GAAGCTAAGG AGAAGTTCAA GGGATGGATG
    TCCCTCTCCA GCGCAGAGAA CACTGACCTT GCTTACAAAA AGGTTGGTGA TGGAAATTCA
    TTGAGAGTGT GGAAGGTTTC GGTGGAAGTG GAGGCCCCGC CATCTGTGGT TCTTAATCGC
    ATTTTGAGAG AACGACAACT TTGGGATGAT GACTTGTTGC AGTCGAAAGT GATAGAAAGT
    CTGGATAACC AAACAGAAGT GTACCAGTAT GTGCTGAACA GCATGGCTCC GCACCCCTCC
    AGGGACTTTG TTGTTTTGAG GTCCTGGAGA ACAGACTTGC CAAAAGGAAT CTGCACGCTG
    GCAGCCGTAT CAGTAGAGCA TGACGAGGCC CATCTCATTG GAGGAGTGAG AGCGGCAGTT
    CTGGATACTC GCTATCTCAT TGAACCCTGT GGCTCTGGCA AATCAAAGCT GACGCATATT
    TCCAGAGTTG ATCTCAAGGG CCACAGTCCT GAGTGGTACA ATAAATGTTT TGGACATCTT
    TGCGCATCCG AGGCTTTAAG GATCCGAAAT TCTTTCCAGC CAATTTCCAC CGAGGGACCT
    GAAACAAAAA TCTGA

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