ORF » Species Summary » Xenopus tropicalis » mroh1 cDNA ORF clone

mroh1 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following mroh1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the mroh1 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
OXa60978 XM_031904562.1
Latest version!		 Xenopus tropicalis maestro heat-like repeat family member 1 (mroh1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OXa60978 XM_031904563.1
Latest version!		 Xenopus tropicalis maestro heat-like repeat family member 1 (mroh1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OXa60978 XM_031904565.1
Latest version!		 Xenopus tropicalis maestro heat-like repeat family member 1 (mroh1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OXa60979 XM_031904566.1
Latest version!		 Xenopus tropicalis maestro heat-like repeat family member 1 (mroh1), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OXa41213 XM_018090153.1
Latest version!		 Xenopus tropicalis maestro heat-like repeat family member 1 (mroh1), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $1021.30
$1459.00

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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)
    mroh1 ( XM_031904563.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_031760423.1 Xenopus tropicalis maestro heat-like repeat family member 1 (mroh1), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OXa60978
    Clone ID Related Accession (Same CDS sequence) XM_031904563.1 , XM_031904565.1 , XM_031904562.1
    Accession Version XM_031904563.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4974bp)
    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 maestro heat-like repeat-containing protein family member 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030682.2) 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
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    ATGGCCGTCT CCAGCATTAA ACGCCTCGCC GTTACCCTTA TGGACGCCTC TACTGACAAG 
    GATCCTGAGG TCCAGGAACA GATCTACAGC TCGCTGTGCT TCATGGGAGA GGCGGCCCCC 
    ACCGAGATCC TCGAGTCATG TGACTCGTAT CTGAGGCAGC ACGATAAGCT CTCCTACGCT 
    CATCGAACCA TTATCCTTAG GGCCATGGAG ACCATAGTGA AGAACAGTCT CAAAGCCCTA 
    ACAAAAGAGA CTGCCAAGAT GGTGATATTG CTGGCTTCAA ATGAGATGAC CAAGTCTAAG 
    GATATCATAT TTGAGTGGCA GCAGGGTGCC AGTAATGTTC TCGTTGCCAT TGGGAGACAC 
    TTTATTAACA ATGTTATGGA GGAGATCTTG GTGAAGTTCC AGCCGGGGAT CCTCCCTCAT 
    TTCTTTATCA TGCAGACACT GGCCAACCTC TCTGTGGCCA ACGTGTTTGG GATGGTGCCG 
    TTCCTGAACT CCATCCTGGG CACCATGTTA CCCATGCTAG GGATGGCCAA GCAAGACCCC 
    ATGAAAGCTG TCTTCTGTGT GGCGCTGCAG CATTTTAGTG AGAGTATCCA GGAATATTTG 
    GCCAACCTGG ACAAGGCCCC CGACCCCACC GTGCGGAAGG ACACCTTCTC CAATGAAATC 
    TTCAACGCCT ACGATGTTCT CTTCAACACC TGGTTGCAGA ACCGAGAGTC CAAAGTCCGA 
    CTGGCTGTGG TGGAAGCTCT GGGCCCAATG AGCCATTTGC TTCCAAACGA GAAACTAGAA 
    GAGCAGCTTC CCCGCCTTGT ACCCGGGATC TTGTCCCTCT ACAAGAAGAA TGTGGAGGCT 
    CTGTTTGTAA CTAAGAGCTT TTGCCAGATA CTGGAGAGCG CAGTTTCCAA TGAAAGCCGC 
    ACACTGGAGG GTCTCATGGA TTCGATCCTG GGGGCTTTGC ACTCACAGAT CTGTTTGTCC 
    CTGGACTCAT CCAATCAGAT GCTGGTGAGG AATCAGAATG AGGTGCTTCG CTGTTTCACA 
    GTACTGGTCT CCAGGTTCCC AGATCACTTA CTGGCGTTCC TGTTGCCCAA ACTGGAGGCC 
    AATAGCCCCA AGGTCCGTGT GGGGACTCTC GTCATCATGA AACAAGTCAT CAACTCTGCA 
    CCCACAAGCA TGGAGGTGAA GAAGCCACTG ATTCTGGCCG CTGTGAGGCA GCCCCTGCAG 
    GACCCCACTA ACAGGGTGAG GCGGGCGATG GTGCAGCTGA TCAGCGCTAT GGCACACCAT 
    GGGTACCTGG AACAGCCCGG GGGGGAGTTG CTGCTGGAAT ATCTCATCAG ACTGTGCTGT 
    GTCACCCCCA GCCCCTCGTC TCGTCAGCAG AACTCGGAAC CAGAAGAGGT AACTGAGGAG 
    AATGTGCGGC GGATCAGCAT CAGCACCTTG TACCTGATCA GCACCACCGT GGATCGAATG 
    AATAACATCT TGTGGCCGTA CCTGTTGGAG TTTATTGTCC CAGTGCAGTT TTCCAATGCT 
    CTGACCCCCA TCTGTAAGAG TTTGGTGCAG CTCGGCCAGA AGAGACAGGC GGAGAGTGTG 
    GAGACCTTTC TCATCAATTA CAATGTTCAC ACCAACCTGC CGTCCCCACA CGCCCTCGTT 
    GCCCGGCTCT TGGTGGCCGC TGCTGCATTG GAGCCCGGGG ATGGGCGGAG CTCCGCTGCA 
    CTCCGCCTTC TCAATGTCAT GCAGATTAAT ATCCACCCGA CAGTGGGCCG GTGCTGGGAC 
    CAGGAGATTC CTTTACTGCT GAACTGCTTG GAAGAGCACG GAGCTGAATC TCTTCTGCAG 
    CAAAATGAAT GGGAAGATAA GATGCTCAAG TTCCTGGGGG TCACCCTACA GGCTGTGGCC 
    GATGATAAGT GGATCAGCCA ACTGGGCCAG GAGATGCACC AACAGCTGCT CAGCTACAAT 
    TCCCTCCCCC TGGAGAAGAA CTTCCTGTAC AAATGCATTG GGACGACGCT GGCCGCCTGC 
    GAGAAGCGCG AGGTGGTGAG GAAACAGCTG CAGGTCTTAT TGAGCACCGC CCGGTACCAG 
    GAGGAGTCTG AGCGGGAGGG TTTGGCCGTG GCGTTTGGCA TTTGCTCGGC GCGGCACTTG 
    GACGAGGCGC TGGACACGCT GGGCGACTTC CTCAAGTCTG ACATCATGAA GAGGAACGCG 
    GGGATATTCA ATCTGTTCAA GGACCGGGCC GATGGGGATC TGGAGAAGAT CAAGAGCTCG 
    CTCATCCTCT GTTACGGTTA CGTTACCGTT TACGCTCCCA TTGAACTTGT TCTTCCCCGG 
    ATCGAGTGTG AGATCCTGCG CAACGTCTTT AGCTACTTCC ACACCAAGGT TCTGGGGATA 
    AAGGTAGAGC CCAAGGATCT GACCCTCAAG CTCTGCCTCA TCAGAACCAT CTCCATGATT 
    GGCCTGGCCA TCTGCAGCAG CACCCAGGCC GGCTTCTTCC ACTTCTCCCG CAAAGCCGAG 
    CTCCTCTCTC ATCTCCTGGA ATTTATAAAG TCGGAGCCCC CAGACTGCCT GAAATCCGCT 
    CTGCGCCAAC GCGCTCTGAC TGCCTGCACT TACCTGGTTA AATTGGAACC CCCATTAAGT 
    GATGCCAACA AATCAGAGTT GCTTACAACC TGCCTTTCCA GCGTCTTCTC TCTCTCACCA 
    GTGGGCTCCG GGGCCCCAGG AGAGCTGCAC ATACAGACCC TCTACCAAGA CACGGTGGAG 
    GCACTGAAGG ACTTACTGAG GAGCCTGTTA TTGTGGAACC TGACACCGCA TGGGCTGCAG 
    GAGATGTTTC AGGTGCTGGG GCCCTGGATT AAATCAAACA AGGAGCATGA GAGGGACCGG 
    GCCATGGAAG TGAGCGCCGC CCTGCTGGAG TGTTACCTAC ACAAGCTGAA CGTTAATGCC 
    ATGGTGCCAT TTTACAACTT GGGACTTTTG ATTGGGAAGA TATCGCCTCG CTGCTCCGAC 
    TCTGTGGCCT CTGTCCGCCG GCGCACTGTG GACTGTATCT ACTACCTGTT GTATATCCAG 
    CTGAGATATG AAGGATTTGC CCCAGATCAC AAAGATGAGT TAGTGGAGAA ACTTCTCAGC 
    TTCAAGCAGG GTCTCCAGAA GCCGGACCCA AGCGTCTTGT ACCACACGTG CTTCAATGTG 
    GCCATGATAA TTGGGAAGCG CCTCCCCCCT GAGCAGCTCA TCAGCCTCCT CTTCATCACT 
    TTTGAGGGAT TATCTGACCC TGATATTAAC TGCTCCCGAG CAGCCTCCGT CATGGTGAAT 
    TCCCTGCTGA AAGATCGGGG TTCTATCTTA CTCGCTAAGG TGCCGGACAT CATGGCGCGG 
    GTAGAGGAGC AGCTGCAGGA GACGCAGGAG GCGCATGTCA GGAAAGCTGC GCTACAGACT 
    GTCTATATCC TGGCCTCGCA ACACCTGGAG GCCGTACTGA GCAGCCTCTT GTCCTGCCCC 
    CTCCCCTACG CCAGTGAGAC GTGTGTGCTG TGGGGGGCGC TCTCGTCGGA CCCCCCCCTT 
    ACCTCCCAGG TACTGGAACT GCTCATGGGC AAAATGGGTG TTGATGTCCC CTACAAGGAG 
    AGCAAATCCT CCCTGCTGAG CTCTGTGTCC GGCCGCGTCG CCACCCTCCT GCCGCTCGCT 
    GCCTCGTGTG CTGTATGTGA GATCCTCTCT GCGCCAGACT CCGCCCCCGC GGTACAGGAG 
    CTGTACCCCC AGCTCTTTGT GACCCTCCTC CTCCGCATCA GCGTCATGAT TGGGGTGCAA 
    CTGCCAAAGA ACCTGGGGCC TTCCAAGGAT CGGAAAAACT CCAGCAGCCC CCCATCCAGG 
    GACCTGGACC CCTGCGGCTC TGCGGTGGAG GCGCTGAAGT TCATGCTGAG CCGGGGGGGC 
    AGCGAGGAGG TGACGTGCAG TTTGGAGGCA GAAGGAGGTT GGGAGAACAT GAGGAAAGAG 
    GAGACTCACC ATTTAGGGGT TTCCTCCCTG AGCAGCTCCA TGGTGCAGTA CGCGGGCCCC 
    AAGCTCCCGG TGATACTGAA GGCTCTGCAG CCGGCACTGA GCAGTGTGTA TGAGCGACAG 
    CGAATCACAG CCACAGCCTT CCTGGCCGAG CTTTTGCGCA GCAGTAACCT GGGCAACCTG 
    ATTGTCATTG AGCCCCTGAT GGACAACATG ACGAGTCGGC TGAAGGATGG CGCCGTGACC 
    GTGCGTATGT TGGCGGTGCG GGGGCTGGGC AATATGGCCG CTGGAGCCCC TGACAAGGTA 
    CGGAAGCACG GCCCCCAGCT CCTCACCGCC ATGATCAACG CTATGGACGA CAGGGAGGAC 
    CCGGAGCACA TTGTCACCCA AGAGGCCATG TCCAGCCTGT GCCTCCTGCT GCCCTACGTA 
    CAGGAGAAGG ACATCCGCTC CCTCCTTATC CACACCGCCA TCCGCGTCCG GCCCTTCTTC 
    GACCACGAGA GGGAGGAGCT CCGCAAGGCT TCCATTTCTC TTTTCGGGAA TCTCATCAAG 
    TTCTGCTCCG GGAATGGGAA TGGGGAGGAG GTATTTTATG AGCAAATGAT GAGCGGTCTC 
    GTGGCGCTGC TGCTCCACCT GCAGGACCCC CGGGCCGACG TGGTAAAGGC CTGTAAGTTT 
    GCCCTACAGA TGTGCGCCCC CCGCATGAAC AACCCCAGCC TGGCGGACAT GTTCCTGAGC 
    CACCTCCAGC CGGAGCGCGG GCTGCACTAT GGCGAGTTCA TGAATAACGT GTGCAAACAC 
    CTGTTACAGG GGACCCCGGA GCTGCTCTCC CGCCTCATTC AGACCAACGT CAGTTATTTC 
    AAGAGCATCT GGCCTGATAT CCGCGCAGCT GCCCCCCTCT TTATAGGGTT CCTGGTGCTG 
    CACATGCAGG AGGATCAGAC CAAACAAGTT GATCTGGAAC ATTTAGTCTC CTCGCTGATC 
    GTTCTGCTGA AGGACCCGCA CCCCCCAGTC CGTGCCCGGG CCTCCGAGAC TATTGGGCGC 
    CTGGTCAGGT TTGCGCAGTC AGAACCGACC CAAGTGGCCC CCCGGGCCCT ATAG

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

    RefSeq XP_031760423.1
    CDS647..5620
    Translation

    Target ORF information:

    RefSeq Version XM_031904563.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis maestro heat-like repeat family member 1 (mroh1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_031904563.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    ATGGCCGTCT CCAGCATTAA ACGCCTCGCC GTTACCCTTA TGGACGCCTC TACTGACAAG 
    GATCCTGAGG TCCAGGAACA GATCTACAGC TCGCTGTGCT TCATGGGAGA GGCGGCCCCC 
    ACCGAGATCC TCGAGTCATG TGACTCGTAT CTGAGGCAGC ACGATAAGCT CTCCTACGCT 
    CATCGAACCA TTATCCTTAG GGCCATGGAG ACCATAGTGA AGAACAGTCT CAAAGCCCTA 
    ACAAAAGAGA CTGCCAAGAT GGTGATATTG CTGGCTTCAA ATGAGATGAC CAAGTCTAAG 
    GATATCATAT TTGAGTGGCA GCAGGGTGCC AGTAATGTTC TCGTTGCCAT TGGGAGACAC 
    TTTATTAACA ATGTTATGGA GGAGATCTTG GTGAAGTTCC AGCCGGGGAT CCTCCCTCAT 
    TTCTTTATCA TGCAGACACT GGCCAACCTC TCTGTGGCCA ACGTGTTTGG GATGGTGCCG 
    TTCCTGAACT CCATCCTGGG CACCATGTTA CCCATGCTAG GGATGGCCAA GCAAGACCCC 
    ATGAAAGCTG TCTTCTGTGT GGCGCTGCAG CATTTTAGTG AGAGTATCCA GGAATATTTG 
    GCCAACCTGG ACAAGGCCCC CGACCCCACC GTGCGGAAGG ACACCTTCTC CAATGAAATC 
    TTCAACGCCT ACGATGTTCT CTTCAACACC TGGTTGCAGA ACCGAGAGTC CAAAGTCCGA 
    CTGGCTGTGG TGGAAGCTCT GGGCCCAATG AGCCATTTGC TTCCAAACGA GAAACTAGAA 
    GAGCAGCTTC CCCGCCTTGT ACCCGGGATC TTGTCCCTCT ACAAGAAGAA TGTGGAGGCT 
    CTGTTTGTAA CTAAGAGCTT TTGCCAGATA CTGGAGAGCG CAGTTTCCAA TGAAAGCCGC 
    ACACTGGAGG GTCTCATGGA TTCGATCCTG GGGGCTTTGC ACTCACAGAT CTGTTTGTCC 
    CTGGACTCAT CCAATCAGAT GCTGGTGAGG AATCAGAATG AGGTGCTTCG CTGTTTCACA 
    GTACTGGTCT CCAGGTTCCC AGATCACTTA CTGGCGTTCC TGTTGCCCAA ACTGGAGGCC 
    AATAGCCCCA AGGTCCGTGT GGGGACTCTC GTCATCATGA AACAAGTCAT CAACTCTGCA 
    CCCACAAGCA TGGAGGTGAA GAAGCCACTG ATTCTGGCCG CTGTGAGGCA GCCCCTGCAG 
    GACCCCACTA ACAGGGTGAG GCGGGCGATG GTGCAGCTGA TCAGCGCTAT GGCACACCAT 
    GGGTACCTGG AACAGCCCGG GGGGGAGTTG CTGCTGGAAT ATCTCATCAG ACTGTGCTGT 
    GTCACCCCCA GCCCCTCGTC TCGTCAGCAG AACTCGGAAC CAGAAGAGGT AACTGAGGAG 
    AATGTGCGGC GGATCAGCAT CAGCACCTTG TACCTGATCA GCACCACCGT GGATCGAATG 
    AATAACATCT TGTGGCCGTA CCTGTTGGAG TTTATTGTCC CAGTGCAGTT TTCCAATGCT 
    CTGACCCCCA TCTGTAAGAG TTTGGTGCAG CTCGGCCAGA AGAGACAGGC GGAGAGTGTG 
    GAGACCTTTC TCATCAATTA CAATGTTCAC ACCAACCTGC CGTCCCCACA CGCCCTCGTT 
    GCCCGGCTCT TGGTGGCCGC TGCTGCATTG GAGCCCGGGG ATGGGCGGAG CTCCGCTGCA 
    CTCCGCCTTC TCAATGTCAT GCAGATTAAT ATCCACCCGA CAGTGGGCCG GTGCTGGGAC 
    CAGGAGATTC CTTTACTGCT GAACTGCTTG GAAGAGCACG GAGCTGAATC TCTTCTGCAG 
    CAAAATGAAT GGGAAGATAA GATGCTCAAG TTCCTGGGGG TCACCCTACA GGCTGTGGCC 
    GATGATAAGT GGATCAGCCA ACTGGGCCAG GAGATGCACC AACAGCTGCT CAGCTACAAT 
    TCCCTCCCCC TGGAGAAGAA CTTCCTGTAC AAATGCATTG GGACGACGCT GGCCGCCTGC 
    GAGAAGCGCG AGGTGGTGAG GAAACAGCTG CAGGTCTTAT TGAGCACCGC CCGGTACCAG 
    GAGGAGTCTG AGCGGGAGGG TTTGGCCGTG GCGTTTGGCA TTTGCTCGGC GCGGCACTTG 
    GACGAGGCGC TGGACACGCT GGGCGACTTC CTCAAGTCTG ACATCATGAA GAGGAACGCG 
    GGGATATTCA ATCTGTTCAA GGACCGGGCC GATGGGGATC TGGAGAAGAT CAAGAGCTCG 
    CTCATCCTCT GTTACGGTTA CGTTACCGTT TACGCTCCCA TTGAACTTGT TCTTCCCCGG 
    ATCGAGTGTG AGATCCTGCG CAACGTCTTT AGCTACTTCC ACACCAAGGT TCTGGGGATA 
    AAGGTAGAGC CCAAGGATCT GACCCTCAAG CTCTGCCTCA TCAGAACCAT CTCCATGATT 
    GGCCTGGCCA TCTGCAGCAG CACCCAGGCC GGCTTCTTCC ACTTCTCCCG CAAAGCCGAG 
    CTCCTCTCTC ATCTCCTGGA ATTTATAAAG TCGGAGCCCC CAGACTGCCT GAAATCCGCT 
    CTGCGCCAAC GCGCTCTGAC TGCCTGCACT TACCTGGTTA AATTGGAACC CCCATTAAGT 
    GATGCCAACA AATCAGAGTT GCTTACAACC TGCCTTTCCA GCGTCTTCTC TCTCTCACCA 
    GTGGGCTCCG GGGCCCCAGG AGAGCTGCAC ATACAGACCC TCTACCAAGA CACGGTGGAG 
    GCACTGAAGG ACTTACTGAG GAGCCTGTTA TTGTGGAACC TGACACCGCA TGGGCTGCAG 
    GAGATGTTTC AGGTGCTGGG GCCCTGGATT AAATCAAACA AGGAGCATGA GAGGGACCGG 
    GCCATGGAAG TGAGCGCCGC CCTGCTGGAG TGTTACCTAC ACAAGCTGAA CGTTAATGCC 
    ATGGTGCCAT TTTACAACTT GGGACTTTTG ATTGGGAAGA TATCGCCTCG CTGCTCCGAC 
    TCTGTGGCCT CTGTCCGCCG GCGCACTGTG GACTGTATCT ACTACCTGTT GTATATCCAG 
    CTGAGATATG AAGGATTTGC CCCAGATCAC AAAGATGAGT TAGTGGAGAA ACTTCTCAGC 
    TTCAAGCAGG GTCTCCAGAA GCCGGACCCA AGCGTCTTGT ACCACACGTG CTTCAATGTG 
    GCCATGATAA TTGGGAAGCG CCTCCCCCCT GAGCAGCTCA TCAGCCTCCT CTTCATCACT 
    TTTGAGGGAT TATCTGACCC TGATATTAAC TGCTCCCGAG CAGCCTCCGT CATGGTGAAT 
    TCCCTGCTGA AAGATCGGGG TTCTATCTTA CTCGCTAAGG TGCCGGACAT CATGGCGCGG 
    GTAGAGGAGC AGCTGCAGGA GACGCAGGAG GCGCATGTCA GGAAAGCTGC GCTACAGACT 
    GTCTATATCC TGGCCTCGCA ACACCTGGAG GCCGTACTGA GCAGCCTCTT GTCCTGCCCC 
    CTCCCCTACG CCAGTGAGAC GTGTGTGCTG TGGGGGGCGC TCTCGTCGGA CCCCCCCCTT 
    ACCTCCCAGG TACTGGAACT GCTCATGGGC AAAATGGGTG TTGATGTCCC CTACAAGGAG 
    AGCAAATCCT CCCTGCTGAG CTCTGTGTCC GGCCGCGTCG CCACCCTCCT GCCGCTCGCT 
    GCCTCGTGTG CTGTATGTGA GATCCTCTCT GCGCCAGACT CCGCCCCCGC GGTACAGGAG 
    CTGTACCCCC AGCTCTTTGT GACCCTCCTC CTCCGCATCA GCGTCATGAT TGGGGTGCAA 
    CTGCCAAAGA ACCTGGGGCC TTCCAAGGAT CGGAAAAACT CCAGCAGCCC CCCATCCAGG 
    GACCTGGACC CCTGCGGCTC TGCGGTGGAG GCGCTGAAGT TCATGCTGAG CCGGGGGGGC 
    AGCGAGGAGG TGACGTGCAG TTTGGAGGCA GAAGGAGGTT GGGAGAACAT GAGGAAAGAG 
    GAGACTCACC ATTTAGGGGT TTCCTCCCTG AGCAGCTCCA TGGTGCAGTA CGCGGGCCCC 
    AAGCTCCCGG TGATACTGAA GGCTCTGCAG CCGGCACTGA GCAGTGTGTA TGAGCGACAG 
    CGAATCACAG CCACAGCCTT CCTGGCCGAG CTTTTGCGCA GCAGTAACCT GGGCAACCTG 
    ATTGTCATTG AGCCCCTGAT GGACAACATG ACGAGTCGGC TGAAGGATGG CGCCGTGACC 
    GTGCGTATGT TGGCGGTGCG GGGGCTGGGC AATATGGCCG CTGGAGCCCC TGACAAGGTA 
    CGGAAGCACG GCCCCCAGCT CCTCACCGCC ATGATCAACG CTATGGACGA CAGGGAGGAC 
    CCGGAGCACA TTGTCACCCA AGAGGCCATG TCCAGCCTGT GCCTCCTGCT GCCCTACGTA 
    CAGGAGAAGG ACATCCGCTC CCTCCTTATC CACACCGCCA TCCGCGTCCG GCCCTTCTTC 
    GACCACGAGA GGGAGGAGCT CCGCAAGGCT TCCATTTCTC TTTTCGGGAA TCTCATCAAG 
    TTCTGCTCCG GGAATGGGAA TGGGGAGGAG GTATTTTATG AGCAAATGAT GAGCGGTCTC 
    GTGGCGCTGC TGCTCCACCT GCAGGACCCC CGGGCCGACG TGGTAAAGGC CTGTAAGTTT 
    GCCCTACAGA TGTGCGCCCC CCGCATGAAC AACCCCAGCC TGGCGGACAT GTTCCTGAGC 
    CACCTCCAGC CGGAGCGCGG GCTGCACTAT GGCGAGTTCA TGAATAACGT GTGCAAACAC 
    CTGTTACAGG GGACCCCGGA GCTGCTCTCC CGCCTCATTC AGACCAACGT CAGTTATTTC 
    AAGAGCATCT GGCCTGATAT CCGCGCAGCT GCCCCCCTCT TTATAGGGTT CCTGGTGCTG 
    CACATGCAGG AGGATCAGAC CAAACAAGTT GATCTGGAAC ATTTAGTCTC CTCGCTGATC 
    GTTCTGCTGA AGGACCCGCA CCCCCCAGTC CGTGCCCGGG CCTCCGAGAC TATTGGGCGC 
    CTGGTCAGGT TTGCGCAGTC AGAACCGACC CAAGTGGCCC CCCGGGCCCT ATAG

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

    mroh1 ( XM_031904565.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_031760425.1 Xenopus tropicalis maestro heat-like repeat family member 1 (mroh1), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OXa60978
    Clone ID Related Accession (Same CDS sequence) XM_031904563.1 , XM_031904565.1 , XM_031904562.1
    Accession Version XM_031904565.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4974bp)
    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 maestro heat-like repeat-containing protein family member 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030682.2) 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
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    ATGGCCGTCT CCAGCATTAA ACGCCTCGCC GTTACCCTTA TGGACGCCTC TACTGACAAG 
    GATCCTGAGG TCCAGGAACA GATCTACAGC TCGCTGTGCT TCATGGGAGA GGCGGCCCCC 
    ACCGAGATCC TCGAGTCATG TGACTCGTAT CTGAGGCAGC ACGATAAGCT CTCCTACGCT 
    CATCGAACCA TTATCCTTAG GGCCATGGAG ACCATAGTGA AGAACAGTCT CAAAGCCCTA 
    ACAAAAGAGA CTGCCAAGAT GGTGATATTG CTGGCTTCAA ATGAGATGAC CAAGTCTAAG 
    GATATCATAT TTGAGTGGCA GCAGGGTGCC AGTAATGTTC TCGTTGCCAT TGGGAGACAC 
    TTTATTAACA ATGTTATGGA GGAGATCTTG GTGAAGTTCC AGCCGGGGAT CCTCCCTCAT 
    TTCTTTATCA TGCAGACACT GGCCAACCTC TCTGTGGCCA ACGTGTTTGG GATGGTGCCG 
    TTCCTGAACT CCATCCTGGG CACCATGTTA CCCATGCTAG GGATGGCCAA GCAAGACCCC 
    ATGAAAGCTG TCTTCTGTGT GGCGCTGCAG CATTTTAGTG AGAGTATCCA GGAATATTTG 
    GCCAACCTGG ACAAGGCCCC CGACCCCACC GTGCGGAAGG ACACCTTCTC CAATGAAATC 
    TTCAACGCCT ACGATGTTCT CTTCAACACC TGGTTGCAGA ACCGAGAGTC CAAAGTCCGA 
    CTGGCTGTGG TGGAAGCTCT GGGCCCAATG AGCCATTTGC TTCCAAACGA GAAACTAGAA 
    GAGCAGCTTC CCCGCCTTGT ACCCGGGATC TTGTCCCTCT ACAAGAAGAA TGTGGAGGCT 
    CTGTTTGTAA CTAAGAGCTT TTGCCAGATA CTGGAGAGCG CAGTTTCCAA TGAAAGCCGC 
    ACACTGGAGG GTCTCATGGA TTCGATCCTG GGGGCTTTGC ACTCACAGAT CTGTTTGTCC 
    CTGGACTCAT CCAATCAGAT GCTGGTGAGG AATCAGAATG AGGTGCTTCG CTGTTTCACA 
    GTACTGGTCT CCAGGTTCCC AGATCACTTA CTGGCGTTCC TGTTGCCCAA ACTGGAGGCC 
    AATAGCCCCA AGGTCCGTGT GGGGACTCTC GTCATCATGA AACAAGTCAT CAACTCTGCA 
    CCCACAAGCA TGGAGGTGAA GAAGCCACTG ATTCTGGCCG CTGTGAGGCA GCCCCTGCAG 
    GACCCCACTA ACAGGGTGAG GCGGGCGATG GTGCAGCTGA TCAGCGCTAT GGCACACCAT 
    GGGTACCTGG AACAGCCCGG GGGGGAGTTG CTGCTGGAAT ATCTCATCAG ACTGTGCTGT 
    GTCACCCCCA GCCCCTCGTC TCGTCAGCAG AACTCGGAAC CAGAAGAGGT AACTGAGGAG 
    AATGTGCGGC GGATCAGCAT CAGCACCTTG TACCTGATCA GCACCACCGT GGATCGAATG 
    AATAACATCT TGTGGCCGTA CCTGTTGGAG TTTATTGTCC CAGTGCAGTT TTCCAATGCT 
    CTGACCCCCA TCTGTAAGAG TTTGGTGCAG CTCGGCCAGA AGAGACAGGC GGAGAGTGTG 
    GAGACCTTTC TCATCAATTA CAATGTTCAC ACCAACCTGC CGTCCCCACA CGCCCTCGTT 
    GCCCGGCTCT TGGTGGCCGC TGCTGCATTG GAGCCCGGGG ATGGGCGGAG CTCCGCTGCA 
    CTCCGCCTTC TCAATGTCAT GCAGATTAAT ATCCACCCGA CAGTGGGCCG GTGCTGGGAC 
    CAGGAGATTC CTTTACTGCT GAACTGCTTG GAAGAGCACG GAGCTGAATC TCTTCTGCAG 
    CAAAATGAAT GGGAAGATAA GATGCTCAAG TTCCTGGGGG TCACCCTACA GGCTGTGGCC 
    GATGATAAGT GGATCAGCCA ACTGGGCCAG GAGATGCACC AACAGCTGCT CAGCTACAAT 
    TCCCTCCCCC TGGAGAAGAA CTTCCTGTAC AAATGCATTG GGACGACGCT GGCCGCCTGC 
    GAGAAGCGCG AGGTGGTGAG GAAACAGCTG CAGGTCTTAT TGAGCACCGC CCGGTACCAG 
    GAGGAGTCTG AGCGGGAGGG TTTGGCCGTG GCGTTTGGCA TTTGCTCGGC GCGGCACTTG 
    GACGAGGCGC TGGACACGCT GGGCGACTTC CTCAAGTCTG ACATCATGAA GAGGAACGCG 
    GGGATATTCA ATCTGTTCAA GGACCGGGCC GATGGGGATC TGGAGAAGAT CAAGAGCTCG 
    CTCATCCTCT GTTACGGTTA CGTTACCGTT TACGCTCCCA TTGAACTTGT TCTTCCCCGG 
    ATCGAGTGTG AGATCCTGCG CAACGTCTTT AGCTACTTCC ACACCAAGGT TCTGGGGATA 
    AAGGTAGAGC CCAAGGATCT GACCCTCAAG CTCTGCCTCA TCAGAACCAT CTCCATGATT 
    GGCCTGGCCA TCTGCAGCAG CACCCAGGCC GGCTTCTTCC ACTTCTCCCG CAAAGCCGAG 
    CTCCTCTCTC ATCTCCTGGA ATTTATAAAG TCGGAGCCCC CAGACTGCCT GAAATCCGCT 
    CTGCGCCAAC GCGCTCTGAC TGCCTGCACT TACCTGGTTA AATTGGAACC CCCATTAAGT 
    GATGCCAACA AATCAGAGTT GCTTACAACC TGCCTTTCCA GCGTCTTCTC TCTCTCACCA 
    GTGGGCTCCG GGGCCCCAGG AGAGCTGCAC ATACAGACCC TCTACCAAGA CACGGTGGAG 
    GCACTGAAGG ACTTACTGAG GAGCCTGTTA TTGTGGAACC TGACACCGCA TGGGCTGCAG 
    GAGATGTTTC AGGTGCTGGG GCCCTGGATT AAATCAAACA AGGAGCATGA GAGGGACCGG 
    GCCATGGAAG TGAGCGCCGC CCTGCTGGAG TGTTACCTAC ACAAGCTGAA CGTTAATGCC 
    ATGGTGCCAT TTTACAACTT GGGACTTTTG ATTGGGAAGA TATCGCCTCG CTGCTCCGAC 
    TCTGTGGCCT CTGTCCGCCG GCGCACTGTG GACTGTATCT ACTACCTGTT GTATATCCAG 
    CTGAGATATG AAGGATTTGC CCCAGATCAC AAAGATGAGT TAGTGGAGAA ACTTCTCAGC 
    TTCAAGCAGG GTCTCCAGAA GCCGGACCCA AGCGTCTTGT ACCACACGTG CTTCAATGTG 
    GCCATGATAA TTGGGAAGCG CCTCCCCCCT GAGCAGCTCA TCAGCCTCCT CTTCATCACT 
    TTTGAGGGAT TATCTGACCC TGATATTAAC TGCTCCCGAG CAGCCTCCGT CATGGTGAAT 
    TCCCTGCTGA AAGATCGGGG TTCTATCTTA CTCGCTAAGG TGCCGGACAT CATGGCGCGG 
    GTAGAGGAGC AGCTGCAGGA GACGCAGGAG GCGCATGTCA GGAAAGCTGC GCTACAGACT 
    GTCTATATCC TGGCCTCGCA ACACCTGGAG GCCGTACTGA GCAGCCTCTT GTCCTGCCCC 
    CTCCCCTACG CCAGTGAGAC GTGTGTGCTG TGGGGGGCGC TCTCGTCGGA CCCCCCCCTT 
    ACCTCCCAGG TACTGGAACT GCTCATGGGC AAAATGGGTG TTGATGTCCC CTACAAGGAG 
    AGCAAATCCT CCCTGCTGAG CTCTGTGTCC GGCCGCGTCG CCACCCTCCT GCCGCTCGCT 
    GCCTCGTGTG CTGTATGTGA GATCCTCTCT GCGCCAGACT CCGCCCCCGC GGTACAGGAG 
    CTGTACCCCC AGCTCTTTGT GACCCTCCTC CTCCGCATCA GCGTCATGAT TGGGGTGCAA 
    CTGCCAAAGA ACCTGGGGCC TTCCAAGGAT CGGAAAAACT CCAGCAGCCC CCCATCCAGG 
    GACCTGGACC CCTGCGGCTC TGCGGTGGAG GCGCTGAAGT TCATGCTGAG CCGGGGGGGC 
    AGCGAGGAGG TGACGTGCAG TTTGGAGGCA GAAGGAGGTT GGGAGAACAT GAGGAAAGAG 
    GAGACTCACC ATTTAGGGGT TTCCTCCCTG AGCAGCTCCA TGGTGCAGTA CGCGGGCCCC 
    AAGCTCCCGG TGATACTGAA GGCTCTGCAG CCGGCACTGA GCAGTGTGTA TGAGCGACAG 
    CGAATCACAG CCACAGCCTT CCTGGCCGAG CTTTTGCGCA GCAGTAACCT GGGCAACCTG 
    ATTGTCATTG AGCCCCTGAT GGACAACATG ACGAGTCGGC TGAAGGATGG CGCCGTGACC 
    GTGCGTATGT TGGCGGTGCG GGGGCTGGGC AATATGGCCG CTGGAGCCCC TGACAAGGTA 
    CGGAAGCACG GCCCCCAGCT CCTCACCGCC ATGATCAACG CTATGGACGA CAGGGAGGAC 
    CCGGAGCACA TTGTCACCCA AGAGGCCATG TCCAGCCTGT GCCTCCTGCT GCCCTACGTA 
    CAGGAGAAGG ACATCCGCTC CCTCCTTATC CACACCGCCA TCCGCGTCCG GCCCTTCTTC 
    GACCACGAGA GGGAGGAGCT CCGCAAGGCT TCCATTTCTC TTTTCGGGAA TCTCATCAAG 
    TTCTGCTCCG GGAATGGGAA TGGGGAGGAG GTATTTTATG AGCAAATGAT GAGCGGTCTC 
    GTGGCGCTGC TGCTCCACCT GCAGGACCCC CGGGCCGACG TGGTAAAGGC CTGTAAGTTT 
    GCCCTACAGA TGTGCGCCCC CCGCATGAAC AACCCCAGCC TGGCGGACAT GTTCCTGAGC 
    CACCTCCAGC CGGAGCGCGG GCTGCACTAT GGCGAGTTCA TGAATAACGT GTGCAAACAC 
    CTGTTACAGG GGACCCCGGA GCTGCTCTCC CGCCTCATTC AGACCAACGT CAGTTATTTC 
    AAGAGCATCT GGCCTGATAT CCGCGCAGCT GCCCCCCTCT TTATAGGGTT CCTGGTGCTG 
    CACATGCAGG AGGATCAGAC CAAACAAGTT GATCTGGAAC ATTTAGTCTC CTCGCTGATC 
    GTTCTGCTGA AGGACCCGCA CCCCCCAGTC CGTGCCCGGG CCTCCGAGAC TATTGGGCGC 
    CTGGTCAGGT TTGCGCAGTC AGAACCGACC CAAGTGGCCC CCCGGGCCCT ATAG

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

    RefSeq XP_031760425.1
    CDS650..5623
    Translation

    Target ORF information:

    RefSeq Version XM_031904565.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis maestro heat-like repeat family member 1 (mroh1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_031904565.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    ATGGCCGTCT CCAGCATTAA ACGCCTCGCC GTTACCCTTA TGGACGCCTC TACTGACAAG 
    GATCCTGAGG TCCAGGAACA GATCTACAGC TCGCTGTGCT TCATGGGAGA GGCGGCCCCC 
    ACCGAGATCC TCGAGTCATG TGACTCGTAT CTGAGGCAGC ACGATAAGCT CTCCTACGCT 
    CATCGAACCA TTATCCTTAG GGCCATGGAG ACCATAGTGA AGAACAGTCT CAAAGCCCTA 
    ACAAAAGAGA CTGCCAAGAT GGTGATATTG CTGGCTTCAA ATGAGATGAC CAAGTCTAAG 
    GATATCATAT TTGAGTGGCA GCAGGGTGCC AGTAATGTTC TCGTTGCCAT TGGGAGACAC 
    TTTATTAACA ATGTTATGGA GGAGATCTTG GTGAAGTTCC AGCCGGGGAT CCTCCCTCAT 
    TTCTTTATCA TGCAGACACT GGCCAACCTC TCTGTGGCCA ACGTGTTTGG GATGGTGCCG 
    TTCCTGAACT CCATCCTGGG CACCATGTTA CCCATGCTAG GGATGGCCAA GCAAGACCCC 
    ATGAAAGCTG TCTTCTGTGT GGCGCTGCAG CATTTTAGTG AGAGTATCCA GGAATATTTG 
    GCCAACCTGG ACAAGGCCCC CGACCCCACC GTGCGGAAGG ACACCTTCTC CAATGAAATC 
    TTCAACGCCT ACGATGTTCT CTTCAACACC TGGTTGCAGA ACCGAGAGTC CAAAGTCCGA 
    CTGGCTGTGG TGGAAGCTCT GGGCCCAATG AGCCATTTGC TTCCAAACGA GAAACTAGAA 
    GAGCAGCTTC CCCGCCTTGT ACCCGGGATC TTGTCCCTCT ACAAGAAGAA TGTGGAGGCT 
    CTGTTTGTAA CTAAGAGCTT TTGCCAGATA CTGGAGAGCG CAGTTTCCAA TGAAAGCCGC 
    ACACTGGAGG GTCTCATGGA TTCGATCCTG GGGGCTTTGC ACTCACAGAT CTGTTTGTCC 
    CTGGACTCAT CCAATCAGAT GCTGGTGAGG AATCAGAATG AGGTGCTTCG CTGTTTCACA 
    GTACTGGTCT CCAGGTTCCC AGATCACTTA CTGGCGTTCC TGTTGCCCAA ACTGGAGGCC 
    AATAGCCCCA AGGTCCGTGT GGGGACTCTC GTCATCATGA AACAAGTCAT CAACTCTGCA 
    CCCACAAGCA TGGAGGTGAA GAAGCCACTG ATTCTGGCCG CTGTGAGGCA GCCCCTGCAG 
    GACCCCACTA ACAGGGTGAG GCGGGCGATG GTGCAGCTGA TCAGCGCTAT GGCACACCAT 
    GGGTACCTGG AACAGCCCGG GGGGGAGTTG CTGCTGGAAT ATCTCATCAG ACTGTGCTGT 
    GTCACCCCCA GCCCCTCGTC TCGTCAGCAG AACTCGGAAC CAGAAGAGGT AACTGAGGAG 
    AATGTGCGGC GGATCAGCAT CAGCACCTTG TACCTGATCA GCACCACCGT GGATCGAATG 
    AATAACATCT TGTGGCCGTA CCTGTTGGAG TTTATTGTCC CAGTGCAGTT TTCCAATGCT 
    CTGACCCCCA TCTGTAAGAG TTTGGTGCAG CTCGGCCAGA AGAGACAGGC GGAGAGTGTG 
    GAGACCTTTC TCATCAATTA CAATGTTCAC ACCAACCTGC CGTCCCCACA CGCCCTCGTT 
    GCCCGGCTCT TGGTGGCCGC TGCTGCATTG GAGCCCGGGG ATGGGCGGAG CTCCGCTGCA 
    CTCCGCCTTC TCAATGTCAT GCAGATTAAT ATCCACCCGA CAGTGGGCCG GTGCTGGGAC 
    CAGGAGATTC CTTTACTGCT GAACTGCTTG GAAGAGCACG GAGCTGAATC TCTTCTGCAG 
    CAAAATGAAT GGGAAGATAA GATGCTCAAG TTCCTGGGGG TCACCCTACA GGCTGTGGCC 
    GATGATAAGT GGATCAGCCA ACTGGGCCAG GAGATGCACC AACAGCTGCT CAGCTACAAT 
    TCCCTCCCCC TGGAGAAGAA CTTCCTGTAC AAATGCATTG GGACGACGCT GGCCGCCTGC 
    GAGAAGCGCG AGGTGGTGAG GAAACAGCTG CAGGTCTTAT TGAGCACCGC CCGGTACCAG 
    GAGGAGTCTG AGCGGGAGGG TTTGGCCGTG GCGTTTGGCA TTTGCTCGGC GCGGCACTTG 
    GACGAGGCGC TGGACACGCT GGGCGACTTC CTCAAGTCTG ACATCATGAA GAGGAACGCG 
    GGGATATTCA ATCTGTTCAA GGACCGGGCC GATGGGGATC TGGAGAAGAT CAAGAGCTCG 
    CTCATCCTCT GTTACGGTTA CGTTACCGTT TACGCTCCCA TTGAACTTGT TCTTCCCCGG 
    ATCGAGTGTG AGATCCTGCG CAACGTCTTT AGCTACTTCC ACACCAAGGT TCTGGGGATA 
    AAGGTAGAGC CCAAGGATCT GACCCTCAAG CTCTGCCTCA TCAGAACCAT CTCCATGATT 
    GGCCTGGCCA TCTGCAGCAG CACCCAGGCC GGCTTCTTCC ACTTCTCCCG CAAAGCCGAG 
    CTCCTCTCTC ATCTCCTGGA ATTTATAAAG TCGGAGCCCC CAGACTGCCT GAAATCCGCT 
    CTGCGCCAAC GCGCTCTGAC TGCCTGCACT TACCTGGTTA AATTGGAACC CCCATTAAGT 
    GATGCCAACA AATCAGAGTT GCTTACAACC TGCCTTTCCA GCGTCTTCTC TCTCTCACCA 
    GTGGGCTCCG GGGCCCCAGG AGAGCTGCAC ATACAGACCC TCTACCAAGA CACGGTGGAG 
    GCACTGAAGG ACTTACTGAG GAGCCTGTTA TTGTGGAACC TGACACCGCA TGGGCTGCAG 
    GAGATGTTTC AGGTGCTGGG GCCCTGGATT AAATCAAACA AGGAGCATGA GAGGGACCGG 
    GCCATGGAAG TGAGCGCCGC CCTGCTGGAG TGTTACCTAC ACAAGCTGAA CGTTAATGCC 
    ATGGTGCCAT TTTACAACTT GGGACTTTTG ATTGGGAAGA TATCGCCTCG CTGCTCCGAC 
    TCTGTGGCCT CTGTCCGCCG GCGCACTGTG GACTGTATCT ACTACCTGTT GTATATCCAG 
    CTGAGATATG AAGGATTTGC CCCAGATCAC AAAGATGAGT TAGTGGAGAA ACTTCTCAGC 
    TTCAAGCAGG GTCTCCAGAA GCCGGACCCA AGCGTCTTGT ACCACACGTG CTTCAATGTG 
    GCCATGATAA TTGGGAAGCG CCTCCCCCCT GAGCAGCTCA TCAGCCTCCT CTTCATCACT 
    TTTGAGGGAT TATCTGACCC TGATATTAAC TGCTCCCGAG CAGCCTCCGT CATGGTGAAT 
    TCCCTGCTGA AAGATCGGGG TTCTATCTTA CTCGCTAAGG TGCCGGACAT CATGGCGCGG 
    GTAGAGGAGC AGCTGCAGGA GACGCAGGAG GCGCATGTCA GGAAAGCTGC GCTACAGACT 
    GTCTATATCC TGGCCTCGCA ACACCTGGAG GCCGTACTGA GCAGCCTCTT GTCCTGCCCC 
    CTCCCCTACG CCAGTGAGAC GTGTGTGCTG TGGGGGGCGC TCTCGTCGGA CCCCCCCCTT 
    ACCTCCCAGG TACTGGAACT GCTCATGGGC AAAATGGGTG TTGATGTCCC CTACAAGGAG 
    AGCAAATCCT CCCTGCTGAG CTCTGTGTCC GGCCGCGTCG CCACCCTCCT GCCGCTCGCT 
    GCCTCGTGTG CTGTATGTGA GATCCTCTCT GCGCCAGACT CCGCCCCCGC GGTACAGGAG 
    CTGTACCCCC AGCTCTTTGT GACCCTCCTC CTCCGCATCA GCGTCATGAT TGGGGTGCAA 
    CTGCCAAAGA ACCTGGGGCC TTCCAAGGAT CGGAAAAACT CCAGCAGCCC CCCATCCAGG 
    GACCTGGACC CCTGCGGCTC TGCGGTGGAG GCGCTGAAGT TCATGCTGAG CCGGGGGGGC 
    AGCGAGGAGG TGACGTGCAG TTTGGAGGCA GAAGGAGGTT GGGAGAACAT GAGGAAAGAG 
    GAGACTCACC ATTTAGGGGT TTCCTCCCTG AGCAGCTCCA TGGTGCAGTA CGCGGGCCCC 
    AAGCTCCCGG TGATACTGAA GGCTCTGCAG CCGGCACTGA GCAGTGTGTA TGAGCGACAG 
    CGAATCACAG CCACAGCCTT CCTGGCCGAG CTTTTGCGCA GCAGTAACCT GGGCAACCTG 
    ATTGTCATTG AGCCCCTGAT GGACAACATG ACGAGTCGGC TGAAGGATGG CGCCGTGACC 
    GTGCGTATGT TGGCGGTGCG GGGGCTGGGC AATATGGCCG CTGGAGCCCC TGACAAGGTA 
    CGGAAGCACG GCCCCCAGCT CCTCACCGCC ATGATCAACG CTATGGACGA CAGGGAGGAC 
    CCGGAGCACA TTGTCACCCA AGAGGCCATG TCCAGCCTGT GCCTCCTGCT GCCCTACGTA 
    CAGGAGAAGG ACATCCGCTC CCTCCTTATC CACACCGCCA TCCGCGTCCG GCCCTTCTTC 
    GACCACGAGA GGGAGGAGCT CCGCAAGGCT TCCATTTCTC TTTTCGGGAA TCTCATCAAG 
    TTCTGCTCCG GGAATGGGAA TGGGGAGGAG GTATTTTATG AGCAAATGAT GAGCGGTCTC 
    GTGGCGCTGC TGCTCCACCT GCAGGACCCC CGGGCCGACG TGGTAAAGGC CTGTAAGTTT 
    GCCCTACAGA TGTGCGCCCC CCGCATGAAC AACCCCAGCC TGGCGGACAT GTTCCTGAGC 
    CACCTCCAGC CGGAGCGCGG GCTGCACTAT GGCGAGTTCA TGAATAACGT GTGCAAACAC 
    CTGTTACAGG GGACCCCGGA GCTGCTCTCC CGCCTCATTC AGACCAACGT CAGTTATTTC 
    AAGAGCATCT GGCCTGATAT CCGCGCAGCT GCCCCCCTCT TTATAGGGTT CCTGGTGCTG 
    CACATGCAGG AGGATCAGAC CAAACAAGTT GATCTGGAAC ATTTAGTCTC CTCGCTGATC 
    GTTCTGCTGA AGGACCCGCA CCCCCCAGTC CGTGCCCGGG CCTCCGAGAC TATTGGGCGC 
    CTGGTCAGGT TTGCGCAGTC AGAACCGACC CAAGTGGCCC CCCGGGCCCT ATAG

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

    mroh1 ( XM_031904562.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_031760422.1 Xenopus tropicalis maestro heat-like repeat family member 1 (mroh1), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OXa60978
    Clone ID Related Accession (Same CDS sequence) XM_031904563.1 , XM_031904565.1 , XM_031904562.1
    Accession Version XM_031904562.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4974bp)
    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 maestro heat-like repeat-containing protein family member 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030682.2) 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
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    ATGGCCGTCT CCAGCATTAA ACGCCTCGCC GTTACCCTTA TGGACGCCTC TACTGACAAG 
    GATCCTGAGG TCCAGGAACA GATCTACAGC TCGCTGTGCT TCATGGGAGA GGCGGCCCCC 
    ACCGAGATCC TCGAGTCATG TGACTCGTAT CTGAGGCAGC ACGATAAGCT CTCCTACGCT 
    CATCGAACCA TTATCCTTAG GGCCATGGAG ACCATAGTGA AGAACAGTCT CAAAGCCCTA 
    ACAAAAGAGA CTGCCAAGAT GGTGATATTG CTGGCTTCAA ATGAGATGAC CAAGTCTAAG 
    GATATCATAT TTGAGTGGCA GCAGGGTGCC AGTAATGTTC TCGTTGCCAT TGGGAGACAC 
    TTTATTAACA ATGTTATGGA GGAGATCTTG GTGAAGTTCC AGCCGGGGAT CCTCCCTCAT 
    TTCTTTATCA TGCAGACACT GGCCAACCTC TCTGTGGCCA ACGTGTTTGG GATGGTGCCG 
    TTCCTGAACT CCATCCTGGG CACCATGTTA CCCATGCTAG GGATGGCCAA GCAAGACCCC 
    ATGAAAGCTG TCTTCTGTGT GGCGCTGCAG CATTTTAGTG AGAGTATCCA GGAATATTTG 
    GCCAACCTGG ACAAGGCCCC CGACCCCACC GTGCGGAAGG ACACCTTCTC CAATGAAATC 
    TTCAACGCCT ACGATGTTCT CTTCAACACC TGGTTGCAGA ACCGAGAGTC CAAAGTCCGA 
    CTGGCTGTGG TGGAAGCTCT GGGCCCAATG AGCCATTTGC TTCCAAACGA GAAACTAGAA 
    GAGCAGCTTC CCCGCCTTGT ACCCGGGATC TTGTCCCTCT ACAAGAAGAA TGTGGAGGCT 
    CTGTTTGTAA CTAAGAGCTT TTGCCAGATA CTGGAGAGCG CAGTTTCCAA TGAAAGCCGC 
    ACACTGGAGG GTCTCATGGA TTCGATCCTG GGGGCTTTGC ACTCACAGAT CTGTTTGTCC 
    CTGGACTCAT CCAATCAGAT GCTGGTGAGG AATCAGAATG AGGTGCTTCG CTGTTTCACA 
    GTACTGGTCT CCAGGTTCCC AGATCACTTA CTGGCGTTCC TGTTGCCCAA ACTGGAGGCC 
    AATAGCCCCA AGGTCCGTGT GGGGACTCTC GTCATCATGA AACAAGTCAT CAACTCTGCA 
    CCCACAAGCA TGGAGGTGAA GAAGCCACTG ATTCTGGCCG CTGTGAGGCA GCCCCTGCAG 
    GACCCCACTA ACAGGGTGAG GCGGGCGATG GTGCAGCTGA TCAGCGCTAT GGCACACCAT 
    GGGTACCTGG AACAGCCCGG GGGGGAGTTG CTGCTGGAAT ATCTCATCAG ACTGTGCTGT 
    GTCACCCCCA GCCCCTCGTC TCGTCAGCAG AACTCGGAAC CAGAAGAGGT AACTGAGGAG 
    AATGTGCGGC GGATCAGCAT CAGCACCTTG TACCTGATCA GCACCACCGT GGATCGAATG 
    AATAACATCT TGTGGCCGTA CCTGTTGGAG TTTATTGTCC CAGTGCAGTT TTCCAATGCT 
    CTGACCCCCA TCTGTAAGAG TTTGGTGCAG CTCGGCCAGA AGAGACAGGC GGAGAGTGTG 
    GAGACCTTTC TCATCAATTA CAATGTTCAC ACCAACCTGC CGTCCCCACA CGCCCTCGTT 
    GCCCGGCTCT TGGTGGCCGC TGCTGCATTG GAGCCCGGGG ATGGGCGGAG CTCCGCTGCA 
    CTCCGCCTTC TCAATGTCAT GCAGATTAAT ATCCACCCGA CAGTGGGCCG GTGCTGGGAC 
    CAGGAGATTC CTTTACTGCT GAACTGCTTG GAAGAGCACG GAGCTGAATC TCTTCTGCAG 
    CAAAATGAAT GGGAAGATAA GATGCTCAAG TTCCTGGGGG TCACCCTACA GGCTGTGGCC 
    GATGATAAGT GGATCAGCCA ACTGGGCCAG GAGATGCACC AACAGCTGCT CAGCTACAAT 
    TCCCTCCCCC TGGAGAAGAA CTTCCTGTAC AAATGCATTG GGACGACGCT GGCCGCCTGC 
    GAGAAGCGCG AGGTGGTGAG GAAACAGCTG CAGGTCTTAT TGAGCACCGC CCGGTACCAG 
    GAGGAGTCTG AGCGGGAGGG TTTGGCCGTG GCGTTTGGCA TTTGCTCGGC GCGGCACTTG 
    GACGAGGCGC TGGACACGCT GGGCGACTTC CTCAAGTCTG ACATCATGAA GAGGAACGCG 
    GGGATATTCA ATCTGTTCAA GGACCGGGCC GATGGGGATC TGGAGAAGAT CAAGAGCTCG 
    CTCATCCTCT GTTACGGTTA CGTTACCGTT TACGCTCCCA TTGAACTTGT TCTTCCCCGG 
    ATCGAGTGTG AGATCCTGCG CAACGTCTTT AGCTACTTCC ACACCAAGGT TCTGGGGATA 
    AAGGTAGAGC CCAAGGATCT GACCCTCAAG CTCTGCCTCA TCAGAACCAT CTCCATGATT 
    GGCCTGGCCA TCTGCAGCAG CACCCAGGCC GGCTTCTTCC ACTTCTCCCG CAAAGCCGAG 
    CTCCTCTCTC ATCTCCTGGA ATTTATAAAG TCGGAGCCCC CAGACTGCCT GAAATCCGCT 
    CTGCGCCAAC GCGCTCTGAC TGCCTGCACT TACCTGGTTA AATTGGAACC CCCATTAAGT 
    GATGCCAACA AATCAGAGTT GCTTACAACC TGCCTTTCCA GCGTCTTCTC TCTCTCACCA 
    GTGGGCTCCG GGGCCCCAGG AGAGCTGCAC ATACAGACCC TCTACCAAGA CACGGTGGAG 
    GCACTGAAGG ACTTACTGAG GAGCCTGTTA TTGTGGAACC TGACACCGCA TGGGCTGCAG 
    GAGATGTTTC AGGTGCTGGG GCCCTGGATT AAATCAAACA AGGAGCATGA GAGGGACCGG 
    GCCATGGAAG TGAGCGCCGC CCTGCTGGAG TGTTACCTAC ACAAGCTGAA CGTTAATGCC 
    ATGGTGCCAT TTTACAACTT GGGACTTTTG ATTGGGAAGA TATCGCCTCG CTGCTCCGAC 
    TCTGTGGCCT CTGTCCGCCG GCGCACTGTG GACTGTATCT ACTACCTGTT GTATATCCAG 
    CTGAGATATG AAGGATTTGC CCCAGATCAC AAAGATGAGT TAGTGGAGAA ACTTCTCAGC 
    TTCAAGCAGG GTCTCCAGAA GCCGGACCCA AGCGTCTTGT ACCACACGTG CTTCAATGTG 
    GCCATGATAA TTGGGAAGCG CCTCCCCCCT GAGCAGCTCA TCAGCCTCCT CTTCATCACT 
    TTTGAGGGAT TATCTGACCC TGATATTAAC TGCTCCCGAG CAGCCTCCGT CATGGTGAAT 
    TCCCTGCTGA AAGATCGGGG TTCTATCTTA CTCGCTAAGG TGCCGGACAT CATGGCGCGG 
    GTAGAGGAGC AGCTGCAGGA GACGCAGGAG GCGCATGTCA GGAAAGCTGC GCTACAGACT 
    GTCTATATCC TGGCCTCGCA ACACCTGGAG GCCGTACTGA GCAGCCTCTT GTCCTGCCCC 
    CTCCCCTACG CCAGTGAGAC GTGTGTGCTG TGGGGGGCGC TCTCGTCGGA CCCCCCCCTT 
    ACCTCCCAGG TACTGGAACT GCTCATGGGC AAAATGGGTG TTGATGTCCC CTACAAGGAG 
    AGCAAATCCT CCCTGCTGAG CTCTGTGTCC GGCCGCGTCG CCACCCTCCT GCCGCTCGCT 
    GCCTCGTGTG CTGTATGTGA GATCCTCTCT GCGCCAGACT CCGCCCCCGC GGTACAGGAG 
    CTGTACCCCC AGCTCTTTGT GACCCTCCTC CTCCGCATCA GCGTCATGAT TGGGGTGCAA 
    CTGCCAAAGA ACCTGGGGCC TTCCAAGGAT CGGAAAAACT CCAGCAGCCC CCCATCCAGG 
    GACCTGGACC CCTGCGGCTC TGCGGTGGAG GCGCTGAAGT TCATGCTGAG CCGGGGGGGC 
    AGCGAGGAGG TGACGTGCAG TTTGGAGGCA GAAGGAGGTT GGGAGAACAT GAGGAAAGAG 
    GAGACTCACC ATTTAGGGGT TTCCTCCCTG AGCAGCTCCA TGGTGCAGTA CGCGGGCCCC 
    AAGCTCCCGG TGATACTGAA GGCTCTGCAG CCGGCACTGA GCAGTGTGTA TGAGCGACAG 
    CGAATCACAG CCACAGCCTT CCTGGCCGAG CTTTTGCGCA GCAGTAACCT GGGCAACCTG 
    ATTGTCATTG AGCCCCTGAT GGACAACATG ACGAGTCGGC TGAAGGATGG CGCCGTGACC 
    GTGCGTATGT TGGCGGTGCG GGGGCTGGGC AATATGGCCG CTGGAGCCCC TGACAAGGTA 
    CGGAAGCACG GCCCCCAGCT CCTCACCGCC ATGATCAACG CTATGGACGA CAGGGAGGAC 
    CCGGAGCACA TTGTCACCCA AGAGGCCATG TCCAGCCTGT GCCTCCTGCT GCCCTACGTA 
    CAGGAGAAGG ACATCCGCTC CCTCCTTATC CACACCGCCA TCCGCGTCCG GCCCTTCTTC 
    GACCACGAGA GGGAGGAGCT CCGCAAGGCT TCCATTTCTC TTTTCGGGAA TCTCATCAAG 
    TTCTGCTCCG GGAATGGGAA TGGGGAGGAG GTATTTTATG AGCAAATGAT GAGCGGTCTC 
    GTGGCGCTGC TGCTCCACCT GCAGGACCCC CGGGCCGACG TGGTAAAGGC CTGTAAGTTT 
    GCCCTACAGA TGTGCGCCCC CCGCATGAAC AACCCCAGCC TGGCGGACAT GTTCCTGAGC 
    CACCTCCAGC CGGAGCGCGG GCTGCACTAT GGCGAGTTCA TGAATAACGT GTGCAAACAC 
    CTGTTACAGG GGACCCCGGA GCTGCTCTCC CGCCTCATTC AGACCAACGT CAGTTATTTC 
    AAGAGCATCT GGCCTGATAT CCGCGCAGCT GCCCCCCTCT TTATAGGGTT CCTGGTGCTG 
    CACATGCAGG AGGATCAGAC CAAACAAGTT GATCTGGAAC ATTTAGTCTC CTCGCTGATC 
    GTTCTGCTGA AGGACCCGCA CCCCCCAGTC CGTGCCCGGG CCTCCGAGAC TATTGGGCGC 
    CTGGTCAGGT TTGCGCAGTC AGAACCGACC CAAGTGGCCC CCCGGGCCCT ATAG

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

    RefSeq XP_031760422.1
    CDS634..5607
    Translation

    Target ORF information:

    RefSeq Version XM_031904562.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis maestro heat-like repeat family member 1 (mroh1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_031904562.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    ATGGCCGTCT CCAGCATTAA ACGCCTCGCC GTTACCCTTA TGGACGCCTC TACTGACAAG 
    GATCCTGAGG TCCAGGAACA GATCTACAGC TCGCTGTGCT TCATGGGAGA GGCGGCCCCC 
    ACCGAGATCC TCGAGTCATG TGACTCGTAT CTGAGGCAGC ACGATAAGCT CTCCTACGCT 
    CATCGAACCA TTATCCTTAG GGCCATGGAG ACCATAGTGA AGAACAGTCT CAAAGCCCTA 
    ACAAAAGAGA CTGCCAAGAT GGTGATATTG CTGGCTTCAA ATGAGATGAC CAAGTCTAAG 
    GATATCATAT TTGAGTGGCA GCAGGGTGCC AGTAATGTTC TCGTTGCCAT TGGGAGACAC 
    TTTATTAACA ATGTTATGGA GGAGATCTTG GTGAAGTTCC AGCCGGGGAT CCTCCCTCAT 
    TTCTTTATCA TGCAGACACT GGCCAACCTC TCTGTGGCCA ACGTGTTTGG GATGGTGCCG 
    TTCCTGAACT CCATCCTGGG CACCATGTTA CCCATGCTAG GGATGGCCAA GCAAGACCCC 
    ATGAAAGCTG TCTTCTGTGT GGCGCTGCAG CATTTTAGTG AGAGTATCCA GGAATATTTG 
    GCCAACCTGG ACAAGGCCCC CGACCCCACC GTGCGGAAGG ACACCTTCTC CAATGAAATC 
    TTCAACGCCT ACGATGTTCT CTTCAACACC TGGTTGCAGA ACCGAGAGTC CAAAGTCCGA 
    CTGGCTGTGG TGGAAGCTCT GGGCCCAATG AGCCATTTGC TTCCAAACGA GAAACTAGAA 
    GAGCAGCTTC CCCGCCTTGT ACCCGGGATC TTGTCCCTCT ACAAGAAGAA TGTGGAGGCT 
    CTGTTTGTAA CTAAGAGCTT TTGCCAGATA CTGGAGAGCG CAGTTTCCAA TGAAAGCCGC 
    ACACTGGAGG GTCTCATGGA TTCGATCCTG GGGGCTTTGC ACTCACAGAT CTGTTTGTCC 
    CTGGACTCAT CCAATCAGAT GCTGGTGAGG AATCAGAATG AGGTGCTTCG CTGTTTCACA 
    GTACTGGTCT CCAGGTTCCC AGATCACTTA CTGGCGTTCC TGTTGCCCAA ACTGGAGGCC 
    AATAGCCCCA AGGTCCGTGT GGGGACTCTC GTCATCATGA AACAAGTCAT CAACTCTGCA 
    CCCACAAGCA TGGAGGTGAA GAAGCCACTG ATTCTGGCCG CTGTGAGGCA GCCCCTGCAG 
    GACCCCACTA ACAGGGTGAG GCGGGCGATG GTGCAGCTGA TCAGCGCTAT GGCACACCAT 
    GGGTACCTGG AACAGCCCGG GGGGGAGTTG CTGCTGGAAT ATCTCATCAG ACTGTGCTGT 
    GTCACCCCCA GCCCCTCGTC TCGTCAGCAG AACTCGGAAC CAGAAGAGGT AACTGAGGAG 
    AATGTGCGGC GGATCAGCAT CAGCACCTTG TACCTGATCA GCACCACCGT GGATCGAATG 
    AATAACATCT TGTGGCCGTA CCTGTTGGAG TTTATTGTCC CAGTGCAGTT TTCCAATGCT 
    CTGACCCCCA TCTGTAAGAG TTTGGTGCAG CTCGGCCAGA AGAGACAGGC GGAGAGTGTG 
    GAGACCTTTC TCATCAATTA CAATGTTCAC ACCAACCTGC CGTCCCCACA CGCCCTCGTT 
    GCCCGGCTCT TGGTGGCCGC TGCTGCATTG GAGCCCGGGG ATGGGCGGAG CTCCGCTGCA 
    CTCCGCCTTC TCAATGTCAT GCAGATTAAT ATCCACCCGA CAGTGGGCCG GTGCTGGGAC 
    CAGGAGATTC CTTTACTGCT GAACTGCTTG GAAGAGCACG GAGCTGAATC TCTTCTGCAG 
    CAAAATGAAT GGGAAGATAA GATGCTCAAG TTCCTGGGGG TCACCCTACA GGCTGTGGCC 
    GATGATAAGT GGATCAGCCA ACTGGGCCAG GAGATGCACC AACAGCTGCT CAGCTACAAT 
    TCCCTCCCCC TGGAGAAGAA CTTCCTGTAC AAATGCATTG GGACGACGCT GGCCGCCTGC 
    GAGAAGCGCG AGGTGGTGAG GAAACAGCTG CAGGTCTTAT TGAGCACCGC CCGGTACCAG 
    GAGGAGTCTG AGCGGGAGGG TTTGGCCGTG GCGTTTGGCA TTTGCTCGGC GCGGCACTTG 
    GACGAGGCGC TGGACACGCT GGGCGACTTC CTCAAGTCTG ACATCATGAA GAGGAACGCG 
    GGGATATTCA ATCTGTTCAA GGACCGGGCC GATGGGGATC TGGAGAAGAT CAAGAGCTCG 
    CTCATCCTCT GTTACGGTTA CGTTACCGTT TACGCTCCCA TTGAACTTGT TCTTCCCCGG 
    ATCGAGTGTG AGATCCTGCG CAACGTCTTT AGCTACTTCC ACACCAAGGT TCTGGGGATA 
    AAGGTAGAGC CCAAGGATCT GACCCTCAAG CTCTGCCTCA TCAGAACCAT CTCCATGATT 
    GGCCTGGCCA TCTGCAGCAG CACCCAGGCC GGCTTCTTCC ACTTCTCCCG CAAAGCCGAG 
    CTCCTCTCTC ATCTCCTGGA ATTTATAAAG TCGGAGCCCC CAGACTGCCT GAAATCCGCT 
    CTGCGCCAAC GCGCTCTGAC TGCCTGCACT TACCTGGTTA AATTGGAACC CCCATTAAGT 
    GATGCCAACA AATCAGAGTT GCTTACAACC TGCCTTTCCA GCGTCTTCTC TCTCTCACCA 
    GTGGGCTCCG GGGCCCCAGG AGAGCTGCAC ATACAGACCC TCTACCAAGA CACGGTGGAG 
    GCACTGAAGG ACTTACTGAG GAGCCTGTTA TTGTGGAACC TGACACCGCA TGGGCTGCAG 
    GAGATGTTTC AGGTGCTGGG GCCCTGGATT AAATCAAACA AGGAGCATGA GAGGGACCGG 
    GCCATGGAAG TGAGCGCCGC CCTGCTGGAG TGTTACCTAC ACAAGCTGAA CGTTAATGCC 
    ATGGTGCCAT TTTACAACTT GGGACTTTTG ATTGGGAAGA TATCGCCTCG CTGCTCCGAC 
    TCTGTGGCCT CTGTCCGCCG GCGCACTGTG GACTGTATCT ACTACCTGTT GTATATCCAG 
    CTGAGATATG AAGGATTTGC CCCAGATCAC AAAGATGAGT TAGTGGAGAA ACTTCTCAGC 
    TTCAAGCAGG GTCTCCAGAA GCCGGACCCA AGCGTCTTGT ACCACACGTG CTTCAATGTG 
    GCCATGATAA TTGGGAAGCG CCTCCCCCCT GAGCAGCTCA TCAGCCTCCT CTTCATCACT 
    TTTGAGGGAT TATCTGACCC TGATATTAAC TGCTCCCGAG CAGCCTCCGT CATGGTGAAT 
    TCCCTGCTGA AAGATCGGGG TTCTATCTTA CTCGCTAAGG TGCCGGACAT CATGGCGCGG 
    GTAGAGGAGC AGCTGCAGGA GACGCAGGAG GCGCATGTCA GGAAAGCTGC GCTACAGACT 
    GTCTATATCC TGGCCTCGCA ACACCTGGAG GCCGTACTGA GCAGCCTCTT GTCCTGCCCC 
    CTCCCCTACG CCAGTGAGAC GTGTGTGCTG TGGGGGGCGC TCTCGTCGGA CCCCCCCCTT 
    ACCTCCCAGG TACTGGAACT GCTCATGGGC AAAATGGGTG TTGATGTCCC CTACAAGGAG 
    AGCAAATCCT CCCTGCTGAG CTCTGTGTCC GGCCGCGTCG CCACCCTCCT GCCGCTCGCT 
    GCCTCGTGTG CTGTATGTGA GATCCTCTCT GCGCCAGACT CCGCCCCCGC GGTACAGGAG 
    CTGTACCCCC AGCTCTTTGT GACCCTCCTC CTCCGCATCA GCGTCATGAT TGGGGTGCAA 
    CTGCCAAAGA ACCTGGGGCC TTCCAAGGAT CGGAAAAACT CCAGCAGCCC CCCATCCAGG 
    GACCTGGACC CCTGCGGCTC TGCGGTGGAG GCGCTGAAGT TCATGCTGAG CCGGGGGGGC 
    AGCGAGGAGG TGACGTGCAG TTTGGAGGCA GAAGGAGGTT GGGAGAACAT GAGGAAAGAG 
    GAGACTCACC ATTTAGGGGT TTCCTCCCTG AGCAGCTCCA TGGTGCAGTA CGCGGGCCCC 
    AAGCTCCCGG TGATACTGAA GGCTCTGCAG CCGGCACTGA GCAGTGTGTA TGAGCGACAG 
    CGAATCACAG CCACAGCCTT CCTGGCCGAG CTTTTGCGCA GCAGTAACCT GGGCAACCTG 
    ATTGTCATTG AGCCCCTGAT GGACAACATG ACGAGTCGGC TGAAGGATGG CGCCGTGACC 
    GTGCGTATGT TGGCGGTGCG GGGGCTGGGC AATATGGCCG CTGGAGCCCC TGACAAGGTA 
    CGGAAGCACG GCCCCCAGCT CCTCACCGCC ATGATCAACG CTATGGACGA CAGGGAGGAC 
    CCGGAGCACA TTGTCACCCA AGAGGCCATG TCCAGCCTGT GCCTCCTGCT GCCCTACGTA 
    CAGGAGAAGG ACATCCGCTC CCTCCTTATC CACACCGCCA TCCGCGTCCG GCCCTTCTTC 
    GACCACGAGA GGGAGGAGCT CCGCAAGGCT TCCATTTCTC TTTTCGGGAA TCTCATCAAG 
    TTCTGCTCCG GGAATGGGAA TGGGGAGGAG GTATTTTATG AGCAAATGAT GAGCGGTCTC 
    GTGGCGCTGC TGCTCCACCT GCAGGACCCC CGGGCCGACG TGGTAAAGGC CTGTAAGTTT 
    GCCCTACAGA TGTGCGCCCC CCGCATGAAC AACCCCAGCC TGGCGGACAT GTTCCTGAGC 
    CACCTCCAGC CGGAGCGCGG GCTGCACTAT GGCGAGTTCA TGAATAACGT GTGCAAACAC 
    CTGTTACAGG GGACCCCGGA GCTGCTCTCC CGCCTCATTC AGACCAACGT CAGTTATTTC 
    AAGAGCATCT GGCCTGATAT CCGCGCAGCT GCCCCCCTCT TTATAGGGTT CCTGGTGCTG 
    CACATGCAGG AGGATCAGAC CAAACAAGTT GATCTGGAAC ATTTAGTCTC CTCGCTGATC 
    GTTCTGCTGA AGGACCCGCA CCCCCCAGTC CGTGCCCGGG CCTCCGAGAC TATTGGGCGC 
    CTGGTCAGGT TTGCGCAGTC AGAACCGACC CAAGTGGCCC CCCGGGCCCT ATAG

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

    mroh1 ( XM_031904566.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_031760426.1 Xenopus tropicalis maestro heat-like repeat family member 1 (mroh1), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OXa60979
    Clone ID Related Accession (Same CDS sequence) XM_031904566.1
    Accession Version XM_031904566.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4947bp)
    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 maestro heat-like repeat-containing protein family member 1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030682.2) 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
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    ATGGCCGTCT CCAGCATTAA ACGCCTCGCC GTTACCCTTA TGGACGCCTC TACTGACAAG 
    GATCCTGAGG TCCAGGAACA GATCTACAGC TCGCTGTGCT TCATGGGAGA GGCGGCCCCC 
    ACCGAGATCC TCGAGTCATG TGACTCGTAT CTGAGGCAGC ACGATAAGCT CTCCTACGCT 
    CATCGAACCA TTATCCTTAG GGCCATGGAG ACCATAGTGA AGAACAGTCT CAAAGCCCTA 
    ACAAAAGAGA CTGCCAAGAT GGTGATATTG CTGGCTTCAA ATGAGATGAC CAAGTCTAAG 
    GATATCATAT TTGAGTGGCA GCAGGGTGCC AGTAATGTTC TCGTTGCCAT TGGGAGACAC 
    TTTATTAACA ATGTTATGGA GGAGATCTTG GTGAAGTTCC AGCCGGGGAT CCTCCCTCAT 
    TTCTTTATCA TGCAGACACT GGCCAACCTC TCTGTGGCCA ACGTGTTTGG GATGGTGCCG 
    TTCCTGAACT CCATCCTGGG CACCATGTTA CCCATGCTAG GGATGGCCAA GCAAGACCCC 
    ATGAAAGCTG TCTTCTGTGT GGCGCTGCAG CATTTTAGTG AGAGTATCCA GGAATATTTG 
    GCCAACCTGG ACAAGGCCCC CGACCCCACC GTGCGGAAGG ACACCTTCTC CAATGAAATC 
    TTCAACGCCT ACGATGTTCT CTTCAACACC TGGTTGCAGA ACCGAGAGTC CAAAGTCCGA 
    CTGGCTGTGG TGGAAGCTCT GGGCCCAATG AGCCATTTGC TTCCAAACGA GAAACTAGAA 
    GAGCAGCTTC CCCGCCTTGT ACCCGGGATC TTGTCCCTCT ACAAGAAGAA TGTGGAGGCT 
    CTGTTTGTAA CTAAGAGCTT TTGCCAGATA CTGGAGAGCG CAGTTTCCAA TGAAAGCCGC 
    ACACTGGAGG GTCTCATGGA TTCGATCCTG GGGGCTTTGC ACTCACAGAT CTGTTTGTCC 
    CTGGACTCAT CCAATCAGAT GCTGGTGAGG AATCAGAATG AGGTGCTTCG CTGTTTCACA 
    GTACTGGTCT CCAGGTTCCC AGATCACTTA CTGGCGTTCC TGTTGCCCAA ACTGGAGGCC 
    AATAGCCCCA AGGTCCGTGT GGGGACTCTC GTCATCATGA AACAAGTCAT CAACTCTGCA 
    CCCACAAGCA TGGAGGTGAA GAAGCCACTG ATTCTGGCCG CTGTGAGGCA GCCCCTGCAG 
    GACCCCACTA ACAGGGTGAG GCGGGCGATG GTGCAGCTGA TCAGCGCTAT GGCACACCAT 
    GGGTACCTGG AACAGCCCGG GGGGGAGTTG CTGCTGGAAT ATCTCATCAG ACTGTGCTGT 
    GTCACCCCCA GCCCCTCGTC TCGTCAGCAG AACTCGGAAC CAGAAGAGGT AACTGAGGAG 
    AATGTGCGGC GGATCAGCAT CAGCACCTTG TACCTGATCA GCACCACCGT GGATCGAATG 
    AATAACATCT TGTGGCCGTA CCTGTTGGAG TTTATTGTCC CAGTGCAGTT TTCCAATGCT 
    CTGACCCCCA TCTGTAAGAG TTTGGTGCAG CTCGGCCAGA AGAGACAGGC GGAGAGTGTG 
    GAGACCTTTC TCATCAATTA CAATGTTCAC ACCAACCTGC CGTCCCCACA CGCCCTCGTT 
    GCCCGGCTCT TGGTGGCCGC TGCTGCATTG GAGCCCGGGG ATGGGCGGAG CTCCGCTGCA 
    CTCCGCCTTC TCAATGTCAT GCAGATTAAT ATCCACCCGA CAGTGGGCCG GTGCTGGGAC 
    CAGGAGATTC CTTTACTGCT GAACTGCTTG GAAGAGCACG GAGCTGAATC TCTTCTGCAG 
    CAAAATGAAT GGGAAGATAA GATGCTCAAG TTCCTGGGGG TCACCCTACA GGCTGTGGCC 
    GATGATAAGT GGATCAGCCA ACTGGGCCAG GAGATGCACC AACAGCTGCT CAGCTACAAT 
    TCCCTCCCCC TGGAGAAGAA CTTCCTGTAC AAATGCATTG GGACGACGCT GGCCGCCTGC 
    GAGAAGCGCG AGGTGGTGAG GAAACAGCTG CAGGTCTTAT TGAGCACCGC CCGGTACCAG 
    GAGGAGTCTG AGCGGGAGGG TTTGGCCGTG GCGTTTGGCA TTTGCTCGGC GCGGCACTTG 
    GACGAGGCGC TGGACACGCT GGGCGACTTC CTCAAGTCTG ACATCATGAA GAGGAACGCG 
    GGGATATTCA ATCTGTTCAA GGACCGGGCC GATGGGGATC TGGAGAAGAT CAAGAGCTCG 
    CTCATCCTCT GTTACGGTTA CGTTACCGTT TACGCTCCCA TTGAACTTGT TCTTCCCCGG 
    ATCGAGTGTG AGATCCTGCG CAACGTCTTT AGCTACTTCC ACACCAAGGA TCTGACCCTC 
    AAGCTCTGCC TCATCAGAAC CATCTCCATG ATTGGCCTGG CCATCTGCAG CAGCACCCAG 
    GCCGGCTTCT TCCACTTCTC CCGCAAAGCC GAGCTCCTCT CTCATCTCCT GGAATTTATA 
    AAGTCGGAGC CCCCAGACTG CCTGAAATCC GCTCTGCGCC AACGCGCTCT GACTGCCTGC 
    ACTTACCTGG TTAAATTGGA ACCCCCATTA AGTGATGCCA ACAAATCAGA GTTGCTTACA 
    ACCTGCCTTT CCAGCGTCTT CTCTCTCTCA CCAGTGGGCT CCGGGGCCCC AGGAGAGCTG 
    CACATACAGA CCCTCTACCA AGACACGGTG GAGGCACTGA AGGACTTACT GAGGAGCCTG 
    TTATTGTGGA ACCTGACACC GCATGGGCTG CAGGAGATGT TTCAGGTGCT GGGGCCCTGG 
    ATTAAATCAA ACAAGGAGCA TGAGAGGGAC CGGGCCATGG AAGTGAGCGC CGCCCTGCTG 
    GAGTGTTACC TACACAAGCT GAACGTTAAT GCCATGGTGC CATTTTACAA CTTGGGACTT 
    TTGATTGGGA AGATATCGCC TCGCTGCTCC GACTCTGTGG CCTCTGTCCG CCGGCGCACT 
    GTGGACTGTA TCTACTACCT GTTGTATATC CAGCTGAGAT ATGAAGGATT TGCCCCAGAT 
    CACAAAGATG AGTTAGTGGA GAAACTTCTC AGCTTCAAGC AGGGTCTCCA GAAGCCGGAC 
    CCAAGCGTCT TGTACCACAC GTGCTTCAAT GTGGCCATGA TAATTGGGAA GCGCCTCCCC 
    CCTGAGCAGC TCATCAGCCT CCTCTTCATC ACTTTTGAGG GATTATCTGA CCCTGATATT 
    AACTGCTCCC GAGCAGCCTC CGTCATGGTG AATTCCCTGC TGAAAGATCG GGGTTCTATC 
    TTACTCGCTA AGGTGCCGGA CATCATGGCG CGGGTAGAGG AGCAGCTGCA GGAGACGCAG 
    GAGGCGCATG TCAGGAAAGC TGCGCTACAG ACTGTCTATA TCCTGGCCTC GCAACACCTG 
    GAGGCCGTAC TGAGCAGCCT CTTGTCCTGC CCCCTCCCCT ACGCCAGTGA GACGTGTGTG 
    CTGTGGGGGG CGCTCTCGTC GGACCCCCCC CTTACCTCCC AGGTACTGGA ACTGCTCATG 
    GGCAAAATGG GTGTTGATGT CCCCTACAAG GAGAGCAAAT CCTCCCTGCT GAGCTCTGTG 
    TCCGGCCGCG TCGCCACCCT CCTGCCGCTC GCTGCCTCGT GTGCTGTATG TGAGATCCTC 
    TCTGCGCCAG ACTCCGCCCC CGCGGTACAG GAGCTGTACC CCCAGCTCTT TGTGACCCTC 
    CTCCTCCGCA TCAGCGTCAT GATTGGGGTG CAACTGCCAA AGAACCTGGG GCCTTCCAAG 
    GATCGGAAAA ACTCCAGCAG CCCCCCATCC AGGGACCTGG ACCCCTGCGG CTCTGCGGTG 
    GAGGCGCTGA AGTTCATGCT GAGCCGGGGG GGCAGCGAGG AGGTGACGTG CAGTTTGGAG 
    GCAGAAGGAG GTTGGGAGAA CATGAGGAAA GAGGAGACTC ACCATTTAGG GGTTTCCTCC 
    CTGAGCAGCT CCATGGTGCA GTACGCGGGC CCCAAGCTCC CGGTGATACT GAAGGCTCTG 
    CAGCCGGCAC TGAGCAGTGT GTATGAGCGA CAGCGAATCA CAGCCACAGC CTTCCTGGCC 
    GAGCTTTTGC GCAGCAGTAA CCTGGGCAAC CTGATTGTCA TTGAGCCCCT GATGGACAAC 
    ATGACGAGTC GGCTGAAGGA TGGCGCCGTG ACCGTGCGTA TGTTGGCGGT GCGGGGGCTG 
    GGCAATATGG CCGCTGGAGC CCCTGACAAG GTACGGAAGC ACGGCCCCCA GCTCCTCACC 
    GCCATGATCA ACGCTATGGA CGACAGGGAG GACCCGGAGC ACATTGTCAC CCAAGAGGCC 
    ATGTCCAGCC TGTGCCTCCT GCTGCCCTAC GTACAGGAGA AGGACATCCG CTCCCTCCTT 
    ATCCACACCG CCATCCGCGT CCGGCCCTTC TTCGACCACG AGAGGGAGGA GCTCCGCAAG 
    GCTTCCATTT CTCTTTTCGG GAATCTCATC AAGTTCTGCT CCGGGAATGG GAATGGGGAG 
    GAGGTATTTT ATGAGCAAAT GATGAGCGGT CTCGTGGCGC TGCTGCTCCA CCTGCAGGAC 
    CCCCGGGCCG ACGTGGTAAA GGCCTGTAAG TTTGCCCTAC AGATGTGCGC CCCCCGCATG 
    AACAACCCCA GCCTGGCGGA CATGTTCCTG AGCCACCTCC AGCCGGAGCG CGGGCTGCAC 
    TATGGCGAGT TCATGAATAA CGTGTGCAAA CACCTGTTAC AGGGGACCCC GGAGCTGCTC 
    TCCCGCCTCA TTCAGACCAA CGTCAGTTAT TTCAAGAGCA TCTGGCCTGA TATCCGCGCA 
    GCTGCCCCCC TCTTTATAGG GTTCCTGGTG CTGCACATGC AGGAGGATCA GACCAAACAA 
    GTTGATCTGG AACATTTAGT CTCCTCGCTG ATCGTTCTGC TGAAGGACCC GCACCCCCCA 
    GTCCGTGCCC GGGCCTCCGA GACTATTGGG CGCCTGGTCA GGTTTGCGCA GTCAGAACCG 
    ACCCAAGTGG CCCCCCGGGC CCTATAG

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

    RefSeq XP_031760426.1
    CDS634..5580
    Translation

    Target ORF information:

    RefSeq Version XM_031904566.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis maestro heat-like repeat family member 1 (mroh1), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_031904566.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    ATGGCCGTCT CCAGCATTAA ACGCCTCGCC GTTACCCTTA TGGACGCCTC TACTGACAAG 
    GATCCTGAGG TCCAGGAACA GATCTACAGC TCGCTGTGCT TCATGGGAGA GGCGGCCCCC 
    ACCGAGATCC TCGAGTCATG TGACTCGTAT CTGAGGCAGC ACGATAAGCT CTCCTACGCT 
    CATCGAACCA TTATCCTTAG GGCCATGGAG ACCATAGTGA AGAACAGTCT CAAAGCCCTA 
    ACAAAAGAGA CTGCCAAGAT GGTGATATTG CTGGCTTCAA ATGAGATGAC CAAGTCTAAG 
    GATATCATAT TTGAGTGGCA GCAGGGTGCC AGTAATGTTC TCGTTGCCAT TGGGAGACAC 
    TTTATTAACA ATGTTATGGA GGAGATCTTG GTGAAGTTCC AGCCGGGGAT CCTCCCTCAT 
    TTCTTTATCA TGCAGACACT GGCCAACCTC TCTGTGGCCA ACGTGTTTGG GATGGTGCCG 
    TTCCTGAACT CCATCCTGGG CACCATGTTA CCCATGCTAG GGATGGCCAA GCAAGACCCC 
    ATGAAAGCTG TCTTCTGTGT GGCGCTGCAG CATTTTAGTG AGAGTATCCA GGAATATTTG 
    GCCAACCTGG ACAAGGCCCC CGACCCCACC GTGCGGAAGG ACACCTTCTC CAATGAAATC 
    TTCAACGCCT ACGATGTTCT CTTCAACACC TGGTTGCAGA ACCGAGAGTC CAAAGTCCGA 
    CTGGCTGTGG TGGAAGCTCT GGGCCCAATG AGCCATTTGC TTCCAAACGA GAAACTAGAA 
    GAGCAGCTTC CCCGCCTTGT ACCCGGGATC TTGTCCCTCT ACAAGAAGAA TGTGGAGGCT 
    CTGTTTGTAA CTAAGAGCTT TTGCCAGATA CTGGAGAGCG CAGTTTCCAA TGAAAGCCGC 
    ACACTGGAGG GTCTCATGGA TTCGATCCTG GGGGCTTTGC ACTCACAGAT CTGTTTGTCC 
    CTGGACTCAT CCAATCAGAT GCTGGTGAGG AATCAGAATG AGGTGCTTCG CTGTTTCACA 
    GTACTGGTCT CCAGGTTCCC AGATCACTTA CTGGCGTTCC TGTTGCCCAA ACTGGAGGCC 
    AATAGCCCCA AGGTCCGTGT GGGGACTCTC GTCATCATGA AACAAGTCAT CAACTCTGCA 
    CCCACAAGCA TGGAGGTGAA GAAGCCACTG ATTCTGGCCG CTGTGAGGCA GCCCCTGCAG 
    GACCCCACTA ACAGGGTGAG GCGGGCGATG GTGCAGCTGA TCAGCGCTAT GGCACACCAT 
    GGGTACCTGG AACAGCCCGG GGGGGAGTTG CTGCTGGAAT ATCTCATCAG ACTGTGCTGT 
    GTCACCCCCA GCCCCTCGTC TCGTCAGCAG AACTCGGAAC CAGAAGAGGT AACTGAGGAG 
    AATGTGCGGC GGATCAGCAT CAGCACCTTG TACCTGATCA GCACCACCGT GGATCGAATG 
    AATAACATCT TGTGGCCGTA CCTGTTGGAG TTTATTGTCC CAGTGCAGTT TTCCAATGCT 
    CTGACCCCCA TCTGTAAGAG TTTGGTGCAG CTCGGCCAGA AGAGACAGGC GGAGAGTGTG 
    GAGACCTTTC TCATCAATTA CAATGTTCAC ACCAACCTGC CGTCCCCACA CGCCCTCGTT 
    GCCCGGCTCT TGGTGGCCGC TGCTGCATTG GAGCCCGGGG ATGGGCGGAG CTCCGCTGCA 
    CTCCGCCTTC TCAATGTCAT GCAGATTAAT ATCCACCCGA CAGTGGGCCG GTGCTGGGAC 
    CAGGAGATTC CTTTACTGCT GAACTGCTTG GAAGAGCACG GAGCTGAATC TCTTCTGCAG 
    CAAAATGAAT GGGAAGATAA GATGCTCAAG TTCCTGGGGG TCACCCTACA GGCTGTGGCC 
    GATGATAAGT GGATCAGCCA ACTGGGCCAG GAGATGCACC AACAGCTGCT CAGCTACAAT 
    TCCCTCCCCC TGGAGAAGAA CTTCCTGTAC AAATGCATTG GGACGACGCT GGCCGCCTGC 
    GAGAAGCGCG AGGTGGTGAG GAAACAGCTG CAGGTCTTAT TGAGCACCGC CCGGTACCAG 
    GAGGAGTCTG AGCGGGAGGG TTTGGCCGTG GCGTTTGGCA TTTGCTCGGC GCGGCACTTG 
    GACGAGGCGC TGGACACGCT GGGCGACTTC CTCAAGTCTG ACATCATGAA GAGGAACGCG 
    GGGATATTCA ATCTGTTCAA GGACCGGGCC GATGGGGATC TGGAGAAGAT CAAGAGCTCG 
    CTCATCCTCT GTTACGGTTA CGTTACCGTT TACGCTCCCA TTGAACTTGT TCTTCCCCGG 
    ATCGAGTGTG AGATCCTGCG CAACGTCTTT AGCTACTTCC ACACCAAGGA TCTGACCCTC 
    AAGCTCTGCC TCATCAGAAC CATCTCCATG ATTGGCCTGG CCATCTGCAG CAGCACCCAG 
    GCCGGCTTCT TCCACTTCTC CCGCAAAGCC GAGCTCCTCT CTCATCTCCT GGAATTTATA 
    AAGTCGGAGC CCCCAGACTG CCTGAAATCC GCTCTGCGCC AACGCGCTCT GACTGCCTGC 
    ACTTACCTGG TTAAATTGGA ACCCCCATTA AGTGATGCCA ACAAATCAGA GTTGCTTACA 
    ACCTGCCTTT CCAGCGTCTT CTCTCTCTCA CCAGTGGGCT CCGGGGCCCC AGGAGAGCTG 
    CACATACAGA CCCTCTACCA AGACACGGTG GAGGCACTGA AGGACTTACT GAGGAGCCTG 
    TTATTGTGGA ACCTGACACC GCATGGGCTG CAGGAGATGT TTCAGGTGCT GGGGCCCTGG 
    ATTAAATCAA ACAAGGAGCA TGAGAGGGAC CGGGCCATGG AAGTGAGCGC CGCCCTGCTG 
    GAGTGTTACC TACACAAGCT GAACGTTAAT GCCATGGTGC CATTTTACAA CTTGGGACTT 
    TTGATTGGGA AGATATCGCC TCGCTGCTCC GACTCTGTGG CCTCTGTCCG CCGGCGCACT 
    GTGGACTGTA TCTACTACCT GTTGTATATC CAGCTGAGAT ATGAAGGATT TGCCCCAGAT 
    CACAAAGATG AGTTAGTGGA GAAACTTCTC AGCTTCAAGC AGGGTCTCCA GAAGCCGGAC 
    CCAAGCGTCT TGTACCACAC GTGCTTCAAT GTGGCCATGA TAATTGGGAA GCGCCTCCCC 
    CCTGAGCAGC TCATCAGCCT CCTCTTCATC ACTTTTGAGG GATTATCTGA CCCTGATATT 
    AACTGCTCCC GAGCAGCCTC CGTCATGGTG AATTCCCTGC TGAAAGATCG GGGTTCTATC 
    TTACTCGCTA AGGTGCCGGA CATCATGGCG CGGGTAGAGG AGCAGCTGCA GGAGACGCAG 
    GAGGCGCATG TCAGGAAAGC TGCGCTACAG ACTGTCTATA TCCTGGCCTC GCAACACCTG 
    GAGGCCGTAC TGAGCAGCCT CTTGTCCTGC CCCCTCCCCT ACGCCAGTGA GACGTGTGTG 
    CTGTGGGGGG CGCTCTCGTC GGACCCCCCC CTTACCTCCC AGGTACTGGA ACTGCTCATG 
    GGCAAAATGG GTGTTGATGT CCCCTACAAG GAGAGCAAAT CCTCCCTGCT GAGCTCTGTG 
    TCCGGCCGCG TCGCCACCCT CCTGCCGCTC GCTGCCTCGT GTGCTGTATG TGAGATCCTC 
    TCTGCGCCAG ACTCCGCCCC CGCGGTACAG GAGCTGTACC CCCAGCTCTT TGTGACCCTC 
    CTCCTCCGCA TCAGCGTCAT GATTGGGGTG CAACTGCCAA AGAACCTGGG GCCTTCCAAG 
    GATCGGAAAA ACTCCAGCAG CCCCCCATCC AGGGACCTGG ACCCCTGCGG CTCTGCGGTG 
    GAGGCGCTGA AGTTCATGCT GAGCCGGGGG GGCAGCGAGG AGGTGACGTG CAGTTTGGAG 
    GCAGAAGGAG GTTGGGAGAA CATGAGGAAA GAGGAGACTC ACCATTTAGG GGTTTCCTCC 
    CTGAGCAGCT CCATGGTGCA GTACGCGGGC CCCAAGCTCC CGGTGATACT GAAGGCTCTG 
    CAGCCGGCAC TGAGCAGTGT GTATGAGCGA CAGCGAATCA CAGCCACAGC CTTCCTGGCC 
    GAGCTTTTGC GCAGCAGTAA CCTGGGCAAC CTGATTGTCA TTGAGCCCCT GATGGACAAC 
    ATGACGAGTC GGCTGAAGGA TGGCGCCGTG ACCGTGCGTA TGTTGGCGGT GCGGGGGCTG 
    GGCAATATGG CCGCTGGAGC CCCTGACAAG GTACGGAAGC ACGGCCCCCA GCTCCTCACC 
    GCCATGATCA ACGCTATGGA CGACAGGGAG GACCCGGAGC ACATTGTCAC CCAAGAGGCC 
    ATGTCCAGCC TGTGCCTCCT GCTGCCCTAC GTACAGGAGA AGGACATCCG CTCCCTCCTT 
    ATCCACACCG CCATCCGCGT CCGGCCCTTC TTCGACCACG AGAGGGAGGA GCTCCGCAAG 
    GCTTCCATTT CTCTTTTCGG GAATCTCATC AAGTTCTGCT CCGGGAATGG GAATGGGGAG 
    GAGGTATTTT ATGAGCAAAT GATGAGCGGT CTCGTGGCGC TGCTGCTCCA CCTGCAGGAC 
    CCCCGGGCCG ACGTGGTAAA GGCCTGTAAG TTTGCCCTAC AGATGTGCGC CCCCCGCATG 
    AACAACCCCA GCCTGGCGGA CATGTTCCTG AGCCACCTCC AGCCGGAGCG CGGGCTGCAC 
    TATGGCGAGT TCATGAATAA CGTGTGCAAA CACCTGTTAC AGGGGACCCC GGAGCTGCTC 
    TCCCGCCTCA TTCAGACCAA CGTCAGTTAT TTCAAGAGCA TCTGGCCTGA TATCCGCGCA 
    GCTGCCCCCC TCTTTATAGG GTTCCTGGTG CTGCACATGC AGGAGGATCA GACCAAACAA 
    GTTGATCTGG AACATTTAGT CTCCTCGCTG ATCGTTCTGC TGAAGGACCC GCACCCCCCA 
    GTCCGTGCCC GGGCCTCCGA GACTATTGGG CGCCTGGTCA GGTTTGCGCA GTCAGAACCG 
    ACCCAAGTGG CCCCCCGGGC CCTATAG

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

    mroh1 ( XM_018090153.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_017945642.1 Xenopus tropicalis maestro heat-like repeat family member 1 (mroh1), mRNA.
    Price & Availability↑
    CloneID OXa41213
    Clone ID Related Accession (Same CDS sequence) XM_018090153.1
    Accession Version XM_018090153.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5070bp)
    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 maestro heat-like repeat-containing protein family member 1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_016683602.1) 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 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 :: 3% 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
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    ATGCCGGGGG GGGCTGTACT GGGACTGCCC CAGTCCAGAC ACGGGTGCTT CTATGGGCCA 
    GTGCTTTCTC GCCTGAGTGC AGCCTTCCCT CCCTCCCTCG CTCCCTTCCT TTCTGGTCCC 
    ACTCACCTTT GCGCAATTGG TTGGTTCCCG GTAGGCCTCG CCGTTACCCT TATGGACGCC 
    TCTACTGACA AGGATCCTGA GGTCCAGGAA CAGATCTACA GCTCGCTGTG CTTCATGGGA 
    GAGGCGGCCC CCACCGAGAT CCTCGAGTCA TGTGACTCGT ATCTGAGGCA GCACGATAAG 
    CTCTCCTACG CTCATCGAAC CATTATCCTT AGGGCCATGG AGACCATAGT GAAGAACAGT 
    CTCAAAGCCC TAACAAAAGA GACTGCCAAG ATGGTGATAT TGCTGGCTTC AAATGAGATG 
    ACCAAGTCTA AGGATATCAT ATTTGAGTGG CAGCAGGGTG CCAGTAATGT TCTCGTTGCC 
    ATTGGGAGAC ACTTTATTAA CAATGTTATG GAGGAGATCT TGGTGAAGTT CCAGCCGGGG 
    ATCCTCCCTC ATTTCTTTAT CATGCAGACA CTGGCCAACC TCTCTGTGGC CAACGTGTTT 
    GGGATGGTGC CGTTCCTGAA CTCCATCCTG GGCACCATGT TACCCATGCT AGGGATGGCC 
    AAGCAAGACC CCATGAAAGC TGTCTTCTGT GTGGCGCTGC AGCATTTTAG TGAGAGTATC 
    CAGGAATATT TGGCCAACCT GGACAAGGCC CCCGACCCCA CCGTGCGGAA GGACACCTTC 
    TCCAATGAAA TCTTCAACGC CTACGATGTT CTCTTCAACA CCTGGTTGCA GAACCGAGAG 
    TCCAAAGTAA ACAAGGCAGA CGGCCCCTGG TTACATTTCC ATTTGATTGG CTGTACTGCT 
    AAGGCCATAG CTCTACATAA TAATAATAAT ATAATGACAC TTTCCCTGTA TCCCTTCTCT 
    TCCCCAGTCT CCAGGTTCCC AGATCACTTA CTGGCGTTCC TGTTGCCCAA ACTGGAGGCC 
    AATAGCCCCA AGGTCCGTGT GGGGACTCTC GTCATCATGA AACAAGTCAT CAACTCTGCA 
    CCCACAAGCA TGGAGGTGAA GAAGCCACTG ATTCTGGCCG CTGTGAGGCA GCCCCTGCAG 
    GACCCCACTA ACAGGGTGAG GCGGGCGATG GTGCAGCTGA TCAGCGCTAT GGCACACCAT 
    GGGTACCTGG AACAGCCCGG GGGGGAGTTG CTGCTGGAAT ATCTCATCAG ACTGTGCTGT 
    GTCACCCCCA GCCCCTCGTC TCGTCAGCAG AACTCGGAAC CAGAAGAGGT AACTGAGGAG 
    AATGTGCGGC GGATCAGCAT CAGCACCTTG TACCTGATCA GCACCACCGT GGATCGAATG 
    AATAACATCT TGTGGCCGTA CCTGTTGGAG TTTATTGTCC CAGTGCAGTT TTCCAATGCT 
    CTGACCCCCA TCTGTAAGAG TTTGGTGCAG CTCGGCCAGA AGAGACAGGC GGAGAGTGTG 
    GAGACCTTTC TCATCAATTA CAATGTTCAC ACCAACCTGC CGTCCCCACA CGCCCTCGTT 
    GCCCGGCTCT TGGTGGCCGC TGCTGCATTG GAGCCCGGGG ATGGGCGGAG CTCCGCTGCA 
    CTCCGCCTTC TCAATGTCAT GCAGATTAAT ATCCACCCGA CAGTGGGCCG GTGCTGGGAC 
    CAGGAGATTC CTTTACTGCT GAACTGCTTG GAAGAGCACG GAGCTGAATC TCTTCTGCAG 
    CAAAATGAAT GGGAAGATAA GATGCTCAAG TTCCTGGGGG TCACCCTACA GGCTGTGGCC 
    GATGATAAGT GGATCAGCCA ACTGGGCCAG GAGATGCACC AACAGCTGCT CAGCTACAAT 
    TCCCTCCCCC TGGAGAAGCC GCAGGTTTTA TTGAGCCCCC CCCGGTACCA AGAGGAGTCT 
    GAGCGGGAGG GTTTGGCCGT GGCGTTTGGC ATTTGCTCGG CGCGGCACTT GGACGAGGCG 
    CTGGACACGC TGGGCGACTT CCTCAAGTCT GACATCATGA AGAGGAACGC GGGGATATTC 
    AATCTGTTCA AGGACCGGGC CGATGGGGAT CTGGAGAAGA TCAAGAGCTC GCTCATCCTC 
    TGTTACGGTT ACGTTACCGT TTACGCTCCC ATTGAACTTG TTCTTCCCCG GATCGAGTGT 
    GAGATCCTGC GCAACGTCTT TAGCTACTTC CACACCAAGG TTCTGGGGAT AAAGGTAGAG 
    CCCAAGGTAC AGTCTTCCAA ATGTCACAGG TCTCTTCTCT CTACTTCTGT CTCTCAACTG 
    TCTCTCTGCT GGGAACTCTT ACTCTCCCGC CTTGTTATCC TTACTCTCCC GCCTTGTTAT 
    CCTTACTCTC CCGCCTTGTT ATCCTTACTC TCCCGCCTTG TTATCCTTAC TCTCCCTCCT 
    TGTTATCCTT ACTCTCCCGC CTTGTTATCC TTACTCTCCC TCCTTGTTAT CCTTACTCTC 
    CCTCCTTGTT ATCCTTACTC TCCCGCCTTG TTTTCCTTAC TCTCCCGCCT TGTTATCCTT 
    ACTCTCCCGC CTTGTTATCC TTACTCTCCC GCCTTGTTAT CCTTACTCTC CCGCCTTGTT 
    ATCCTTACTC TCCCTCCTTG TTATCCTTAC TCTCCCTCCT TGTTATCCTT ACTCTCCCTC 
    CTTGTTATCC TTACTCTCCC TCCTTGTTAT CCTTACTCTC CCGCCTTGTT ATCCTGTGTT 
    GCCCCTGCTG GGGAAACTAG TTCTAGTCCC TCTGTGCTTT TTTCTATGCA GACCCTCTAC 
    CAAGACACGG TGGAGGCACT GAAGGACTTA CTGAGGAGCC TGTTATTGTG GAACCTGACA 
    CCGCATGGGC TGCAGGAGAT GTTTCAGGTG CTGGGGCCCT GGATTAAATC AAACAAGGAG 
    CATGAGAGGG ACCGGGCCAT GGAAGTGAGC GCCGCCCTGC TGGAGTGTTA CCTACACAAG 
    CTGAACGTTA ATGCCATGGT GCCATTTTAC TCATCCCATC CCCCCGCTGG GTGCAGGGAG 
    TTACTCTCCT TCCTCTCCCC CCACCAGGCC ATAGTGCCAT TTTACTCATC CCATCCCCCT 
    GCTGGGTGCA GGGAGTTACT CTCCTTCCTC TCCCCCCACC AGGCCATGGT GCCATTTTAC 
    TCACCCCCCT GCTGGGTGCA GGGAGTTACT CTCCTTCCTC TCCCCCCACC AGGCCATAGT 
    GCCATTTTAC TCATCCCATC CCCCTGCTGG GTGCAGGGAG TTACTCTCCT TCCTCTCCCC 
    CCACCAGGCC ATGGTGCCAT TTTACTCATC CCCCCGCTGG GTGGTTTCCA GAAGCCGGAC 
    CCAAGGGTCT TGTACCACAC GTGCTTCAAT GTGGCCATGA TAATTGGGAA GCGCCTCCCC 
    CCTGAGCAGC TCATCAGCCT CCTCTTCATC ACTTTTGAGG GATTATCTGA CCCTGATATT 
    AACTGCTCCC GAGCAGCCTC CGTCATGGTG AATTCCCTGC TGAAAGATCG GGGTTCTATC 
    TTACTCGCTA AGGTGCCGGA CATCATGGCG CGGGTAGAGG AGCAGCTGCA GGAGACGCAG 
    GAGGCGCATG TCAGGAAAGC TGCGCTACAG ACTGTCTATA TCCTGGCCTC GCAACACCTG 
    GAGGCCGTAC TGAGCAGCCT CTTGTCCTGC CCCCTCCCCT ACGCCAGCCG CCTGCCTGGA 
    GCCACTTGGT ACAACCTACG GCCATCCCAG CTCTGGGCCT CGTGTGCTGT ATGTGAGATC 
    CTCTCTGCGC CAGACTCCGC CCCCGCGGTA CAGGAGCTGT ACCCCCAGCT CTTTGTGACC 
    CTCCTCCTCC GCATCAGCGT CATGATTGGG GTGCAACTGC CAAAGAACCT GGGGCCTTCC 
    AAGGATCGGA AAAACTCCAG CAGCCCCCCA TCCAGGGACC TGGACCCCTG CGGCTCTGCG 
    GTGGAGGCGC TGAAGTTCAT GCTGAGCCGG GGGGGCAGCG AGGAGGTGAC GTGCAGTTTG 
    GAGGCAGAAG GAGGTTGGGA GAACATGAGG AAAGAGGAGA CTCACCATTT AGGGGTTTCC 
    TCCCTGAGCA GCTCCATGGT GCAGTACGCG GGCCCCAAGC TCCCGGTGAT ACTGAAGGCT 
    CTGCAGCCGG CACTGAGCAG TGTGTATGAG CGACAGCGAA TCACAGCCAC AGCCTTCCTG 
    GCCGAGCTTT TGCGCAGCAG TAACCTGGGC AACCTGATTG TCATTGAGCC CCTGATGGAC 
    AACATGACGA GTCGGCTGAA GGATGGCGCC GTGACCGTGC GTATGTTGGC GGTGCGGGGG 
    CTGGGCAATA TGGCCGCTGG AGCCCCTGAC AAGGTACGGA AGCACGGCCC CCAGCTCCTC 
    ACCGCCATGA TCAACGCTAT GGACGACAGG GAGGACCCGG AGCACATTGT CACCCAAGAG 
    GCCATGTCCA GCCTGTGCCT CCTGCTGCCC TACGTACAGG AGAAGGACAT CCGCTCCCTC 
    CTTATCCACA CCGCCATCCG CGTCCGGCCC TTCTTCGACC ACGAGAGGGA GGAGCTCCGC 
    AAGGCTTCCA TTTCTCTTTT CGGGAATCTC ATCAAGTTCT GCTCCGGGAA TGGGAATGGG 
    GAGGAGGTAT TTTATGAGCA AATGATGAGC GGTCTCGTGG CGCTGCTGCT CCACCTGCAG 
    GACCCCCGGG CCGACGTGGT AAAGGCCTGT AAGTTTGCCC TACAGATGTG CGCCCCCCGC 
    ATGAACAACC CCAGCCTGGC GGACATGTTC CTGAGCCACC TCCAGCCGGA GCGCGGGCTG 
    CACTATGGCG AGTTCATGAA TAACGTGTGC AAACACCTGT TACAGGGGAC CCCGGAGCTG 
    CTCTCCCGCC TCATTCAGAC CAACGTCAGT TATTTCAAGA GCATCTGGCC TGATATCCGC 
    GCAGCTGCCC CCCTCTTTAT AGGGTTCCTG GTGCTGCACA TGCAGGAGGA TCAGACCAAA 
    CAAGTTGATC TGGAACATTT AGTCTCCTCG CTGATCGTTC TGCTGAAGGA CCCGCACCCC 
    CCAGTCCGTG CCCGGGCCTC CGAGACTATT GGGCGCCTGG TCAGGTTTGC GCAGTCAGAA 
    CCGACCCAAG TGGCCCCCCG GGCCCTATAG

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

    RefSeq XP_017945642.1
    CDS1..5070
    Translation

    Target ORF information:

    RefSeq Version XM_018090153.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis maestro heat-like repeat family member 1 (mroh1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_018090153.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    ATGCCGGGGG GGGCTGTACT GGGACTGCCC CAGTCCAGAC ACGGGTGCTT CTATGGGCCA 
    GTGCTTTCTC GCCTGAGTGC AGCCTTCCCT CCCTCCCTCG CTCCCTTCCT TTCTGGTCCC 
    ACTCACCTTT GCGCAATTGG TTGGTTCCCG GTAGGCCTCG CCGTTACCCT TATGGACGCC 
    TCTACTGACA AGGATCCTGA GGTCCAGGAA CAGATCTACA GCTCGCTGTG CTTCATGGGA 
    GAGGCGGCCC CCACCGAGAT CCTCGAGTCA TGTGACTCGT ATCTGAGGCA GCACGATAAG 
    CTCTCCTACG CTCATCGAAC CATTATCCTT AGGGCCATGG AGACCATAGT GAAGAACAGT 
    CTCAAAGCCC TAACAAAAGA GACTGCCAAG ATGGTGATAT TGCTGGCTTC AAATGAGATG 
    ACCAAGTCTA AGGATATCAT ATTTGAGTGG CAGCAGGGTG CCAGTAATGT TCTCGTTGCC 
    ATTGGGAGAC ACTTTATTAA CAATGTTATG GAGGAGATCT TGGTGAAGTT CCAGCCGGGG 
    ATCCTCCCTC ATTTCTTTAT CATGCAGACA CTGGCCAACC TCTCTGTGGC CAACGTGTTT 
    GGGATGGTGC CGTTCCTGAA CTCCATCCTG GGCACCATGT TACCCATGCT AGGGATGGCC 
    AAGCAAGACC CCATGAAAGC TGTCTTCTGT GTGGCGCTGC AGCATTTTAG TGAGAGTATC 
    CAGGAATATT TGGCCAACCT GGACAAGGCC CCCGACCCCA CCGTGCGGAA GGACACCTTC 
    TCCAATGAAA TCTTCAACGC CTACGATGTT CTCTTCAACA CCTGGTTGCA GAACCGAGAG 
    TCCAAAGTAA ACAAGGCAGA CGGCCCCTGG TTACATTTCC ATTTGATTGG CTGTACTGCT 
    AAGGCCATAG CTCTACATAA TAATAATAAT ATAATGACAC TTTCCCTGTA TCCCTTCTCT 
    TCCCCAGTCT CCAGGTTCCC AGATCACTTA CTGGCGTTCC TGTTGCCCAA ACTGGAGGCC 
    AATAGCCCCA AGGTCCGTGT GGGGACTCTC GTCATCATGA AACAAGTCAT CAACTCTGCA 
    CCCACAAGCA TGGAGGTGAA GAAGCCACTG ATTCTGGCCG CTGTGAGGCA GCCCCTGCAG 
    GACCCCACTA ACAGGGTGAG GCGGGCGATG GTGCAGCTGA TCAGCGCTAT GGCACACCAT 
    GGGTACCTGG AACAGCCCGG GGGGGAGTTG CTGCTGGAAT ATCTCATCAG ACTGTGCTGT 
    GTCACCCCCA GCCCCTCGTC TCGTCAGCAG AACTCGGAAC CAGAAGAGGT AACTGAGGAG 
    AATGTGCGGC GGATCAGCAT CAGCACCTTG TACCTGATCA GCACCACCGT GGATCGAATG 
    AATAACATCT TGTGGCCGTA CCTGTTGGAG TTTATTGTCC CAGTGCAGTT TTCCAATGCT 
    CTGACCCCCA TCTGTAAGAG TTTGGTGCAG CTCGGCCAGA AGAGACAGGC GGAGAGTGTG 
    GAGACCTTTC TCATCAATTA CAATGTTCAC ACCAACCTGC CGTCCCCACA CGCCCTCGTT 
    GCCCGGCTCT TGGTGGCCGC TGCTGCATTG GAGCCCGGGG ATGGGCGGAG CTCCGCTGCA 
    CTCCGCCTTC TCAATGTCAT GCAGATTAAT ATCCACCCGA CAGTGGGCCG GTGCTGGGAC 
    CAGGAGATTC CTTTACTGCT GAACTGCTTG GAAGAGCACG GAGCTGAATC TCTTCTGCAG 
    CAAAATGAAT GGGAAGATAA GATGCTCAAG TTCCTGGGGG TCACCCTACA GGCTGTGGCC 
    GATGATAAGT GGATCAGCCA ACTGGGCCAG GAGATGCACC AACAGCTGCT CAGCTACAAT 
    TCCCTCCCCC TGGAGAAGCC GCAGGTTTTA TTGAGCCCCC CCCGGTACCA AGAGGAGTCT 
    GAGCGGGAGG GTTTGGCCGT GGCGTTTGGC ATTTGCTCGG CGCGGCACTT GGACGAGGCG 
    CTGGACACGC TGGGCGACTT CCTCAAGTCT GACATCATGA AGAGGAACGC GGGGATATTC 
    AATCTGTTCA AGGACCGGGC CGATGGGGAT CTGGAGAAGA TCAAGAGCTC GCTCATCCTC 
    TGTTACGGTT ACGTTACCGT TTACGCTCCC ATTGAACTTG TTCTTCCCCG GATCGAGTGT 
    GAGATCCTGC GCAACGTCTT TAGCTACTTC CACACCAAGG TTCTGGGGAT AAAGGTAGAG 
    CCCAAGGTAC AGTCTTCCAA ATGTCACAGG TCTCTTCTCT CTACTTCTGT CTCTCAACTG 
    TCTCTCTGCT GGGAACTCTT ACTCTCCCGC CTTGTTATCC TTACTCTCCC GCCTTGTTAT 
    CCTTACTCTC CCGCCTTGTT ATCCTTACTC TCCCGCCTTG TTATCCTTAC TCTCCCTCCT 
    TGTTATCCTT ACTCTCCCGC CTTGTTATCC TTACTCTCCC TCCTTGTTAT CCTTACTCTC 
    CCTCCTTGTT ATCCTTACTC TCCCGCCTTG TTTTCCTTAC TCTCCCGCCT TGTTATCCTT 
    ACTCTCCCGC CTTGTTATCC TTACTCTCCC GCCTTGTTAT CCTTACTCTC CCGCCTTGTT 
    ATCCTTACTC TCCCTCCTTG TTATCCTTAC TCTCCCTCCT TGTTATCCTT ACTCTCCCTC 
    CTTGTTATCC TTACTCTCCC TCCTTGTTAT CCTTACTCTC CCGCCTTGTT ATCCTGTGTT 
    GCCCCTGCTG GGGAAACTAG TTCTAGTCCC TCTGTGCTTT TTTCTATGCA GACCCTCTAC 
    CAAGACACGG TGGAGGCACT GAAGGACTTA CTGAGGAGCC TGTTATTGTG GAACCTGACA 
    CCGCATGGGC TGCAGGAGAT GTTTCAGGTG CTGGGGCCCT GGATTAAATC AAACAAGGAG 
    CATGAGAGGG ACCGGGCCAT GGAAGTGAGC GCCGCCCTGC TGGAGTGTTA CCTACACAAG 
    CTGAACGTTA ATGCCATGGT GCCATTTTAC TCATCCCATC CCCCCGCTGG GTGCAGGGAG 
    TTACTCTCCT TCCTCTCCCC CCACCAGGCC ATAGTGCCAT TTTACTCATC CCATCCCCCT 
    GCTGGGTGCA GGGAGTTACT CTCCTTCCTC TCCCCCCACC AGGCCATGGT GCCATTTTAC 
    TCACCCCCCT GCTGGGTGCA GGGAGTTACT CTCCTTCCTC TCCCCCCACC AGGCCATAGT 
    GCCATTTTAC TCATCCCATC CCCCTGCTGG GTGCAGGGAG TTACTCTCCT TCCTCTCCCC 
    CCACCAGGCC ATGGTGCCAT TTTACTCATC CCCCCGCTGG GTGGTTTCCA GAAGCCGGAC 
    CCAAGGGTCT TGTACCACAC GTGCTTCAAT GTGGCCATGA TAATTGGGAA GCGCCTCCCC 
    CCTGAGCAGC TCATCAGCCT CCTCTTCATC ACTTTTGAGG GATTATCTGA CCCTGATATT 
    AACTGCTCCC GAGCAGCCTC CGTCATGGTG AATTCCCTGC TGAAAGATCG GGGTTCTATC 
    TTACTCGCTA AGGTGCCGGA CATCATGGCG CGGGTAGAGG AGCAGCTGCA GGAGACGCAG 
    GAGGCGCATG TCAGGAAAGC TGCGCTACAG ACTGTCTATA TCCTGGCCTC GCAACACCTG 
    GAGGCCGTAC TGAGCAGCCT CTTGTCCTGC CCCCTCCCCT ACGCCAGCCG CCTGCCTGGA 
    GCCACTTGGT ACAACCTACG GCCATCCCAG CTCTGGGCCT CGTGTGCTGT ATGTGAGATC 
    CTCTCTGCGC CAGACTCCGC CCCCGCGGTA CAGGAGCTGT ACCCCCAGCT CTTTGTGACC 
    CTCCTCCTCC GCATCAGCGT CATGATTGGG GTGCAACTGC CAAAGAACCT GGGGCCTTCC 
    AAGGATCGGA AAAACTCCAG CAGCCCCCCA TCCAGGGACC TGGACCCCTG CGGCTCTGCG 
    GTGGAGGCGC TGAAGTTCAT GCTGAGCCGG GGGGGCAGCG AGGAGGTGAC GTGCAGTTTG 
    GAGGCAGAAG GAGGTTGGGA GAACATGAGG AAAGAGGAGA CTCACCATTT AGGGGTTTCC 
    TCCCTGAGCA GCTCCATGGT GCAGTACGCG GGCCCCAAGC TCCCGGTGAT ACTGAAGGCT 
    CTGCAGCCGG CACTGAGCAG TGTGTATGAG CGACAGCGAA TCACAGCCAC AGCCTTCCTG 
    GCCGAGCTTT TGCGCAGCAG TAACCTGGGC AACCTGATTG TCATTGAGCC CCTGATGGAC 
    AACATGACGA GTCGGCTGAA GGATGGCGCC GTGACCGTGC GTATGTTGGC GGTGCGGGGG 
    CTGGGCAATA TGGCCGCTGG AGCCCCTGAC AAGGTACGGA AGCACGGCCC CCAGCTCCTC 
    ACCGCCATGA TCAACGCTAT GGACGACAGG GAGGACCCGG AGCACATTGT CACCCAAGAG 
    GCCATGTCCA GCCTGTGCCT CCTGCTGCCC TACGTACAGG AGAAGGACAT CCGCTCCCTC 
    CTTATCCACA CCGCCATCCG CGTCCGGCCC TTCTTCGACC ACGAGAGGGA GGAGCTCCGC 
    AAGGCTTCCA TTTCTCTTTT CGGGAATCTC ATCAAGTTCT GCTCCGGGAA TGGGAATGGG 
    GAGGAGGTAT TTTATGAGCA AATGATGAGC GGTCTCGTGG CGCTGCTGCT CCACCTGCAG 
    GACCCCCGGG CCGACGTGGT AAAGGCCTGT AAGTTTGCCC TACAGATGTG CGCCCCCCGC 
    ATGAACAACC CCAGCCTGGC GGACATGTTC CTGAGCCACC TCCAGCCGGA GCGCGGGCTG 
    CACTATGGCG AGTTCATGAA TAACGTGTGC AAACACCTGT TACAGGGGAC CCCGGAGCTG 
    CTCTCCCGCC TCATTCAGAC CAACGTCAGT TATTTCAAGA GCATCTGGCC TGATATCCGC 
    GCAGCTGCCC CCCTCTTTAT AGGGTTCCTG GTGCTGCACA TGCAGGAGGA TCAGACCAAA 
    CAAGTTGATC TGGAACATTT AGTCTCCTCG CTGATCGTTC TGCTGAAGGA CCCGCACCCC 
    CCAGTCCGTG CCCGGGCCTC CGAGACTATT GGGCGCCTGG TCAGGTTTGC GCAGTCAGAA 
    CCGACCCAAG TGGCCCCCCG GGCCCTATAG

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

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