LOC108701448 cDNA ORF clone, Xenopus laevis(African clawed frog)

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC108701448
Entrez Gene ID	108701448
Full Name	aldehyde oxidase 2-like
Gene Type	protein-coding
Organism	Xenopus laevis(African clawed frog)

mRNA and Protein(s)

mRNA	Protein	Name
XM_018236153.1	XP_018091642.1	aldehyde oxidase 2-like isoform X1
XM_018236154.1	XP_018091643.1	aldehyde oxidase 2-like isoform X2

Pathways from BioSystems
Gene Ontology

The following LOC108701448 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC108701448 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
OAf46538	XM_018236153.1 Latest version!	Xenopus laevis aldehyde oxidase 2-like (LOC108701448), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OAf46539	XM_018236154.1 Latest version!	Xenopus laevis aldehyde oxidase 2-like (LOC108701448), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00

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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)

LOC108701448 ( XM_018236153.1 ) cDNA ORF clone, Xenopus laevis(African clawed frog) -> XP_018091642.1 Xenopus laevis aldehyde oxidase 2-like (LOC108701448), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OAf46538
Clone ID Related Accession (Same CDS sequence)	XM_018236153.1
Accession Version	XM_018236153.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3321bp) 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	1474214400000
Organism	Xenopus laevis(African clawed frog)
Product	aldehyde oxidase 2-like isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030740.1) 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 laevis Annotation Release 100 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##

ATGGAGGAGG ATCCGAAGAA CAGAATTCTG GTCCTTCAAG GTGATAAGAG CACATGGGTT 
ACTCCATCAT GTCTCAATGA ACTCTTGGAT CTAAAAGCTG TCTACCCCAT GGCTCCACTG 
GTGGTAGGAA ATACACTTAT TGGCCCTCAG GTCAAGCTGA CTGGTTCATA CTATCCTGTA 
ATCATCTCCC TTTCTAGAGT CCCAGAGCTG AGTGTCATGA GTTATACAGA AAAAGGGATA 
ACTATTGGGG CAGCTTGCAG CCTTTCAATG GTACGATCTA TTCTGTCTGA GGTTGTCTCT 
CAGTTACCGG AGGAAAAGAA CAAAATGTTT CGAGTTCTGT TACAGCAGTT ATCGGTGCAG 
AATTTAAGAA ATGACGCATC ACTAGGAGGG AGCATTTTGA GTGGAAGTGC AACGTGGGAG 
CTGAACCCTA TTCTTGCTGT TGGACACTGT ACCTTTAATC TAGCATCAAA AGACAGAAGA 
CGAAAGGTCT CCCTTCGGCA ACTACTGTTT GGAGAGCCAG GGATAGCAGC ACAGAGGCCA 
GAAGAGCTCT TAATTTCTAT TGATATTCCA TTTTCCAAGA AGTGGGAATT TGTGTCAGCT 
TTCAGACAAG TCCAGAGATG GGAAAGTGCA GTTCCCTCTG TGGTTGCTGC CATGAGTGTC 
CTCTTGAAAG ATGGCACTGA CCTTATTCTG GCCATGAACA TTTATTATGG AGGCTCTGAG 
TCAGCATGCT TGTTTGCAAA GTGGGTCAGT GAACAGCTCA TTGGAAGGCA CTGGAATGAA 
GCCATGCTGG ATGAAGCTTG CAGGTTATTT TTGGGAGAGA TACGTCTTCG AGATTCAACA 
TTTGGTGTGA TGGCCGATCA TGAAAGAACC CTTGCAGTCA GCTTCCTTTT TAAATTCTAC 
CTTCAAATCT TGCAAGAGTT GAATAAAAAC AGCAACTTTC TACAAAAGCC CATTTTTGAT 
GCTCTTAAAA CAAATGTTTT GCTAAATAAG AAGAATCCAA TATATGACTT GCAACAGAGG 
ATCTCCAATG GATTTCACCT AAATCAGGAT GAAGATGATA ATCTCAGTTA CTCATATGAA 
GGCATCAACG GGGAAACAAT TAAACACCAA GCACACATGC TACACACCAT TGCAGAGGAG 
GAGTTTGACG ACGAAGGCTC ACACGTAGTG GAGGGAGAGC TGTTTCTTGC ACTAGTAACC 
AGCACCAGAC ATCACGCTAA AATTATATCC ATACATTCAG AAGATGCATT AAAACTGCCT 
GGAGTTGTTG ATGTGATAAC AGCTGTGGAT GTTCCACGGG CAAATGACAA AGATGTATTT 
GCAGAGCATG AGGTGCACTA TATTGGGCAG GTGGTATGTG CTGTTGTAGC TGACACCAAA 
AAACGCGCCA GTCTAGGAGC ATCACGAATA AGAGTAGACT ATGAAGACTT GGAACCTGTG 
ATCCTTTCCA TTCAGGATGC GGTAAAGAAC AACTCATACT TTGAGCCAAC ACGAAAATTA 
GAACAAGGAA ACATAGAAGA GGCCTTTCAA AATGCTTATC ATATCCTCGA AGGTGAGGAC 
TATATCGGAG GACAGGATGA TTCCCTGCTC CCATCACATA CTCTGTCTGT GATCCCAAGA 
CTGGAAGAAA ATGAGATTGA GGTTCTTGTA TCAACAAATG ATCCAGCTCT AATACAGGCT 
GCTGTGGCAA CAGCATTGAA TATTCCCTCT GACTTTGTTA TTTGCCATGG GGAACCACAA 
AGAGATTTAG AGGCACAGAA TTACCAAGCT GCATCTCTGG CCGCCATAAC TGCAGTAGCT 
GCACACAAAA CTGGGCAAAT AGTGCATTCA GTCCTGGAAT GGAGAGAGGA AGGATCCATA 
TCCAGATACC AGTCACCTTT TCTTGGGAAA TACAAGGTGG GATACAAGAG TGATGGTACA 
ATCATAGCAC TGGACATCAC ATATTACTGC AACGCTGGGC ATAGATTGGA TGAATCGTCT 
AACGTGCTTG CTGTGTCTCT GCTGAGTGCC CAAAATGCAT ATTACATCCC CAACACCAGA 
TGCTGTGTAG TTGCTTGCAG GACAAATTCA CAAGCAAAGA GTTTCTGCAG AGGGTGTGGA 
TTCCCACGTG CTGGAATGCT TGCTGAAATA TGGGTAGATG CAGTGGCAGA CAGATGCGCA 
TTACCTCCAG AAAAGGTGCG TCAGATAAAT TTGCACGGGT CAGTCGGTCA CGTTGCCTTT 
AAACGAGATT TTGATTCATC AAATTTATTA AAGTGCTGGA ATGAGTGTAT ACAGAAGTCT 
TCATATCACA AGAGGCATGC AGCAGCAAAA GAAAGCAACA AACAATGTCC CTGGAAGAAA 
AAGGGGCTCT CCGTTATTCC AGTGATGTTC CCTGCAGGAT TTATAGCAGA TGTTCTTAAC 
CAGGCATCTG TGCTAGTTCA TGTTTCTGTG GATGGATGGG TGCTTCTGAC TCCTGCTGGA 
AATGAGACAC AAGAGGAAAC ACACGCTATC ATGATGCAGG TTGCAAGCCG GGAACTAAGG 
ATACCAATAT CTCATATCTA TATTAGCGAG ACCAATACAA CCATTTCATC AACCACCTCT 
GACACAAGAT CATCTGTTAC ATCTACTGTG TATGCATTGG CAGTACGGGA GGCTTGCCAG 
ATTCTTCTTC AGCGTTTACG TCCAGTTATC ATGTTAAACC AAGACGCCAC CTGGATGGAG 
TATGTACAAG AAGCTTTTCA TCTCAGAATT TGCCTTTCAG CAGCTGGACA CTACAGGAGT 
ACTGAAGCAG TGGATTGGTG TCTAAAGGAA GGGTTAGAAA GTCCAAACTT CATATTTGGA 
GCAGCATGTT CTGAGGTTGA ATTAGACTGC AGCACTGGAT ATCACAAGTG TTTAAGAATT 
GATGTTGTCG TGGATGTCGG TTCCAGCGTC AATCGTACTA AAAACACAGA TCAGATTAAA 
GATGCGTTTG TCCAGAGCCT TGATATTTTC ACAAGTGAAG ATTTTAAGTA CAGCTTGCAT 
GGGTCACTTA ATGGTGCACA GTGTGAGGAG CCTGAGGTGG CGAAAGCACC AGAACAATTT 
AATGTGACTT TGCTTGAGTC TTCACTGCCA AACCTAAATG TGTCCTGCTC ACCAAAGGCT 
GTTGAAGAAA CATCACTGTT CTTTGGTGCA TCCGTGTTCT TTGCTCTGAA AGATGCAGTC 
CTTTCTGCCC GTAAAGATGC CGGTCTTCCT GGTACTGTCT CACTGCCCCT CCCTGTCAGG 
CCTCAACATT TGCGGATAGC ATGTGGTAGT CACTTTATAC ATACAGCACA ACTATCAAAT 
CCTGAAGAAC AAAGTATCTA A

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

RefSeq	XP_018091642.1
CDS	334..3654
Translation	MEEDPKNRILVLQGDKSTWVTPSCLNELLDLKAVYPMAPLVVGNTLIGPQVKLTGSYYPVIISLSRVPELSVMSYTEKGITIGAACSLSMVRSILSEVVSQLPEEKNKMFRVLLQQLSVQNLRNDASLGGSILSGSATWELNPILAVGHCTFNLASKDRRRKVSLRQLLFGEPGIAAQRPEELLISIDIPFSKKWEFVSAFRQVQRWESAVPSVVAAMSVLLKDGTDLILAMNIYYGGSESACLFAKWVSEQLIGRHWNEAMLDEACRLFLGEIRLRDSTFGVMADHERTLAVSFLFKFYLQILQELNKNSNFLQKPIFDALKTNVLLNKKNPIYDLQQRISNGFHLNQDEDDNLSYSYEGINGETIKHQAHMLHTIAEEEFDDEGSHVVEGELFLALVTSTRHHAKIISIHSEDALKLPGVVDVITAVDVPRANDKDVFAEHEVHYIGQVVCAVVADTKKRASLGASRIRVDYEDLEPVILSIQDAVKNNSYFEPTRKLEQGNIEEAFQNAYHILEGEDYIGGQDDSLLPSHTLSVIPRLEENEIEVLVSTNDPALIQAAVATALNIPSDFVICHGEPQRDLEAQNYQAASLAAITAVAAHKTGQIVHSVLEWREEGSISRYQSPFLGKYKVGYKSDGTIIALDITYYCNAGHRLDESSNVLAVSLLSAQNAYYIPNTRCCVVACRTNSQAKSFCRGCGFPRAGMLAEIWVDAVADRCALPPEKVRQINLHGSVGHVAFKRDFDSSNLLKCWNECIQKSSYHKRHAAAKESNKQCPWKKKGLSVIPVMFPAGFIADVLNQASVLVHVSVDGWVLLTPAGNETQEETHAIMMQVASRELRIPISHIYISETNTTISSTTSDTRSSVTSTVYALAVREACQILLQRLRPVIMLNQDATWMEYVQEAFHLRICLSAAGHYRSTEAVDWCLKEGLESPNFIFGAACSEVELDCSTGYHKCLRIDVVVDVGSSVNRTKNTDQIKDAFVQSLDIFTSEDFKYSLHGSLNGAQCEEPEVAKAPEQFNVTLLESSLPNLNVSCSPKAVEETSLFFGASVFFALKDAVLSARKDAGLPGTVSLPLPVRPQHLRIACGSHFIHTAQLSNPEEQSI

Target ORF information:

RefSeq Version	XM_018236153.1
Organism	Xenopus laevis(African clawed frog)
Definition	Xenopus laevis aldehyde oxidase 2-like (LOC108701448), transcript variant X1, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_018236153.1

ORF Insert Sequence:

ATGGAGGAGG ATCCGAAGAA CAGAATTCTG GTCCTTCAAG GTGATAAGAG CACATGGGTT 
ACTCCATCAT GTCTCAATGA ACTCTTGGAT CTAAAAGCTG TCTACCCCAT GGCTCCACTG 
GTGGTAGGAA ATACACTTAT TGGCCCTCAG GTCAAGCTGA CTGGTTCATA CTATCCTGTA 
ATCATCTCCC TTTCTAGAGT CCCAGAGCTG AGTGTCATGA GTTATACAGA AAAAGGGATA 
ACTATTGGGG CAGCTTGCAG CCTTTCAATG GTACGATCTA TTCTGTCTGA GGTTGTCTCT 
CAGTTACCGG AGGAAAAGAA CAAAATGTTT CGAGTTCTGT TACAGCAGTT ATCGGTGCAG 
AATTTAAGAA ATGACGCATC ACTAGGAGGG AGCATTTTGA GTGGAAGTGC AACGTGGGAG 
CTGAACCCTA TTCTTGCTGT TGGACACTGT ACCTTTAATC TAGCATCAAA AGACAGAAGA 
CGAAAGGTCT CCCTTCGGCA ACTACTGTTT GGAGAGCCAG GGATAGCAGC ACAGAGGCCA 
GAAGAGCTCT TAATTTCTAT TGATATTCCA TTTTCCAAGA AGTGGGAATT TGTGTCAGCT 
TTCAGACAAG TCCAGAGATG GGAAAGTGCA GTTCCCTCTG TGGTTGCTGC CATGAGTGTC 
CTCTTGAAAG ATGGCACTGA CCTTATTCTG GCCATGAACA TTTATTATGG AGGCTCTGAG 
TCAGCATGCT TGTTTGCAAA GTGGGTCAGT GAACAGCTCA TTGGAAGGCA CTGGAATGAA 
GCCATGCTGG ATGAAGCTTG CAGGTTATTT TTGGGAGAGA TACGTCTTCG AGATTCAACA 
TTTGGTGTGA TGGCCGATCA TGAAAGAACC CTTGCAGTCA GCTTCCTTTT TAAATTCTAC 
CTTCAAATCT TGCAAGAGTT GAATAAAAAC AGCAACTTTC TACAAAAGCC CATTTTTGAT 
GCTCTTAAAA CAAATGTTTT GCTAAATAAG AAGAATCCAA TATATGACTT GCAACAGAGG 
ATCTCCAATG GATTTCACCT AAATCAGGAT GAAGATGATA ATCTCAGTTA CTCATATGAA 
GGCATCAACG GGGAAACAAT TAAACACCAA GCACACATGC TACACACCAT TGCAGAGGAG 
GAGTTTGACG ACGAAGGCTC ACACGTAGTG GAGGGAGAGC TGTTTCTTGC ACTAGTAACC 
AGCACCAGAC ATCACGCTAA AATTATATCC ATACATTCAG AAGATGCATT AAAACTGCCT 
GGAGTTGTTG ATGTGATAAC AGCTGTGGAT GTTCCACGGG CAAATGACAA AGATGTATTT 
GCAGAGCATG AGGTGCACTA TATTGGGCAG GTGGTATGTG CTGTTGTAGC TGACACCAAA 
AAACGCGCCA GTCTAGGAGC ATCACGAATA AGAGTAGACT ATGAAGACTT GGAACCTGTG 
ATCCTTTCCA TTCAGGATGC GGTAAAGAAC AACTCATACT TTGAGCCAAC ACGAAAATTA 
GAACAAGGAA ACATAGAAGA GGCCTTTCAA AATGCTTATC ATATCCTCGA AGGTGAGGAC 
TATATCGGAG GACAGGATGA TTCCCTGCTC CCATCACATA CTCTGTCTGT GATCCCAAGA 
CTGGAAGAAA ATGAGATTGA GGTTCTTGTA TCAACAAATG ATCCAGCTCT AATACAGGCT 
GCTGTGGCAA CAGCATTGAA TATTCCCTCT GACTTTGTTA TTTGCCATGG GGAACCACAA 
AGAGATTTAG AGGCACAGAA TTACCAAGCT GCATCTCTGG CCGCCATAAC TGCAGTAGCT 
GCACACAAAA CTGGGCAAAT AGTGCATTCA GTCCTGGAAT GGAGAGAGGA AGGATCCATA 
TCCAGATACC AGTCACCTTT TCTTGGGAAA TACAAGGTGG GATACAAGAG TGATGGTACA 
ATCATAGCAC TGGACATCAC ATATTACTGC AACGCTGGGC ATAGATTGGA TGAATCGTCT 
AACGTGCTTG CTGTGTCTCT GCTGAGTGCC CAAAATGCAT ATTACATCCC CAACACCAGA 
TGCTGTGTAG TTGCTTGCAG GACAAATTCA CAAGCAAAGA GTTTCTGCAG AGGGTGTGGA 
TTCCCACGTG CTGGAATGCT TGCTGAAATA TGGGTAGATG CAGTGGCAGA CAGATGCGCA 
TTACCTCCAG AAAAGGTGCG TCAGATAAAT TTGCACGGGT CAGTCGGTCA CGTTGCCTTT 
AAACGAGATT TTGATTCATC AAATTTATTA AAGTGCTGGA ATGAGTGTAT ACAGAAGTCT 
TCATATCACA AGAGGCATGC AGCAGCAAAA GAAAGCAACA AACAATGTCC CTGGAAGAAA 
AAGGGGCTCT CCGTTATTCC AGTGATGTTC CCTGCAGGAT TTATAGCAGA TGTTCTTAAC 
CAGGCATCTG TGCTAGTTCA TGTTTCTGTG GATGGATGGG TGCTTCTGAC TCCTGCTGGA 
AATGAGACAC AAGAGGAAAC ACACGCTATC ATGATGCAGG TTGCAAGCCG GGAACTAAGG 
ATACCAATAT CTCATATCTA TATTAGCGAG ACCAATACAA CCATTTCATC AACCACCTCT 
GACACAAGAT CATCTGTTAC ATCTACTGTG TATGCATTGG CAGTACGGGA GGCTTGCCAG 
ATTCTTCTTC AGCGTTTACG TCCAGTTATC ATGTTAAACC AAGACGCCAC CTGGATGGAG 
TATGTACAAG AAGCTTTTCA TCTCAGAATT TGCCTTTCAG CAGCTGGACA CTACAGGAGT 
ACTGAAGCAG TGGATTGGTG TCTAAAGGAA GGGTTAGAAA GTCCAAACTT CATATTTGGA 
GCAGCATGTT CTGAGGTTGA ATTAGACTGC AGCACTGGAT ATCACAAGTG TTTAAGAATT 
GATGTTGTCG TGGATGTCGG TTCCAGCGTC AATCGTACTA AAAACACAGA TCAGATTAAA 
GATGCGTTTG TCCAGAGCCT TGATATTTTC ACAAGTGAAG ATTTTAAGTA CAGCTTGCAT 
GGGTCACTTA ATGGTGCACA GTGTGAGGAG CCTGAGGTGG CGAAAGCACC AGAACAATTT 
AATGTGACTT TGCTTGAGTC TTCACTGCCA AACCTAAATG TGTCCTGCTC ACCAAAGGCT 
GTTGAAGAAA CATCACTGTT CTTTGGTGCA TCCGTGTTCT TTGCTCTGAA AGATGCAGTC 
CTTTCTGCCC GTAAAGATGC CGGTCTTCCT GGTACTGTCT CACTGCCCCT CCCTGTCAGG 
CCTCAACATT TGCGGATAGC ATGTGGTAGT CACTTTATAC ATACAGCACA ACTATCAAAT 
CCTGAAGAAC AAAGTATCTA A

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

LOC108701448 ( XM_018236154.1 ) cDNA ORF clone, Xenopus laevis(African clawed frog) -> XP_018091643.1 Xenopus laevis aldehyde oxidase 2-like (LOC108701448), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OAf46539
Clone ID Related Accession (Same CDS sequence)	XM_018236154.1
Accession Version	XM_018236154.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3318bp) 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	1474214400000
Organism	Xenopus laevis(African clawed frog)
Product	aldehyde oxidase 2-like isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030740.1) 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 laevis Annotation Release 100 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##

ATGGAGGAGG ATCCGAAGAA CAGAATTCTG GTCCTTCAAG GTGATAAGAG CACATGGGTT 
ACTCCATCAT GTCTCAATGA ACTCTTGGAT CTAAAAGCTG TCTACCCCAT GGCTCCACTG 
GTGGTAGGAA ATACACTTAT TGGCCCTCAG GTCAAGCTGA CTGGTTCATA CTATCCTGTA 
ATCATCTCCC TTTCTAGAGT CCCAGAGCTG AGTGTCATGA GTTATACAGA AAAAGGGATA 
ACTATTGGGG CAGCTTGCAG CCTTTCAATG GTACGATCTA TTCTGTCTGA GGTTGTCTCT 
CAGTTACCGG AGGAAAAGAA CAAAATGTTT CGAGTTCTGT TACAGCAGTT ATCGGTGCAG 
AATTTAAGAA ATGACGCATC ACTAGGAGGG AGCATTTTGA GTGGAAGTGC AACGTGGGAG 
CTGAACCCTA TTCTTGCTGT TGGACACTGT ACCTTTAATC TAGCATCAAA AGACAGAAGA 
CGAAAGGTCT CCCTTCGGCA ACTACTGTTT GGAGAGCCAG GGATAGCAGC ACAGAGGCCA 
GAAGAGCTCT TAATTTCTAT TGATATTCCA TTTTCCAAGA AGTGGGAATT TGTGTCAGCT 
TTCAGACAAG TCCAGAGATG GGAAAGTGCA GTTCCCTCTG TGGTTGCTGC CATGAGTGTC 
CTCTTGAAAG ATGGCACTGA CCTTATTCTG GCCATGAACA TTTATTATGG AGGCTCTGAG 
TCAGCATGCT TGTTTGCAAA GTGGGTCAGT GAACAGCTCA TTGGAAGGCA CTGGAATGAA 
GCCATGCTGG ATGAAGCTTG CAGGTTATTT TTGGGAGAGA TACGTCTTCG AGATTCAACA 
TTTGGTGTGA TGGCCGATCA TGAAAGAACC CTTGCAGTCA GCTTCCTTTT TAAATTCTAC 
CTTCAAATCT TGCAAGAGTT GAATAAAAAC AGCAACTTTC TACAAAAGCC CATTTTTGAT 
GCTCTTAAAA CAAATGTTTT GCTAAATAAG AAGAATCCAA TATATGACTT GCAACAGAGG 
ATCTCCAATG GATTTCACCT AAATGATGAA GATGATAATC TCAGTTACTC ATATGAAGGC 
ATCAACGGGG AAACAATTAA ACACCAAGCA CACATGCTAC ACACCATTGC AGAGGAGGAG 
TTTGACGACG AAGGCTCACA CGTAGTGGAG GGAGAGCTGT TTCTTGCACT AGTAACCAGC 
ACCAGACATC ACGCTAAAAT TATATCCATA CATTCAGAAG ATGCATTAAA ACTGCCTGGA 
GTTGTTGATG TGATAACAGC TGTGGATGTT CCACGGGCAA ATGACAAAGA TGTATTTGCA 
GAGCATGAGG TGCACTATAT TGGGCAGGTG GTATGTGCTG TTGTAGCTGA CACCAAAAAA 
CGCGCCAGTC TAGGAGCATC ACGAATAAGA GTAGACTATG AAGACTTGGA ACCTGTGATC 
CTTTCCATTC AGGATGCGGT AAAGAACAAC TCATACTTTG AGCCAACACG AAAATTAGAA 
CAAGGAAACA TAGAAGAGGC CTTTCAAAAT GCTTATCATA TCCTCGAAGG TGAGGACTAT 
ATCGGAGGAC AGGATGATTC CCTGCTCCCA TCACATACTC TGTCTGTGAT CCCAAGACTG 
GAAGAAAATG AGATTGAGGT TCTTGTATCA ACAAATGATC CAGCTCTAAT ACAGGCTGCT 
GTGGCAACAG CATTGAATAT TCCCTCTGAC TTTGTTATTT GCCATGGGGA ACCACAAAGA 
GATTTAGAGG CACAGAATTA CCAAGCTGCA TCTCTGGCCG CCATAACTGC AGTAGCTGCA 
CACAAAACTG GGCAAATAGT GCATTCAGTC CTGGAATGGA GAGAGGAAGG ATCCATATCC 
AGATACCAGT CACCTTTTCT TGGGAAATAC AAGGTGGGAT ACAAGAGTGA TGGTACAATC 
ATAGCACTGG ACATCACATA TTACTGCAAC GCTGGGCATA GATTGGATGA ATCGTCTAAC 
GTGCTTGCTG TGTCTCTGCT GAGTGCCCAA AATGCATATT ACATCCCCAA CACCAGATGC 
TGTGTAGTTG CTTGCAGGAC AAATTCACAA GCAAAGAGTT TCTGCAGAGG GTGTGGATTC 
CCACGTGCTG GAATGCTTGC TGAAATATGG GTAGATGCAG TGGCAGACAG ATGCGCATTA 
CCTCCAGAAA AGGTGCGTCA GATAAATTTG CACGGGTCAG TCGGTCACGT TGCCTTTAAA 
CGAGATTTTG ATTCATCAAA TTTATTAAAG TGCTGGAATG AGTGTATACA GAAGTCTTCA 
TATCACAAGA GGCATGCAGC AGCAAAAGAA AGCAACAAAC AATGTCCCTG GAAGAAAAAG 
GGGCTCTCCG TTATTCCAGT GATGTTCCCT GCAGGATTTA TAGCAGATGT TCTTAACCAG 
GCATCTGTGC TAGTTCATGT TTCTGTGGAT GGATGGGTGC TTCTGACTCC TGCTGGAAAT 
GAGACACAAG AGGAAACACA CGCTATCATG ATGCAGGTTG CAAGCCGGGA ACTAAGGATA 
CCAATATCTC ATATCTATAT TAGCGAGACC AATACAACCA TTTCATCAAC CACCTCTGAC 
ACAAGATCAT CTGTTACATC TACTGTGTAT GCATTGGCAG TACGGGAGGC TTGCCAGATT 
CTTCTTCAGC GTTTACGTCC AGTTATCATG TTAAACCAAG ACGCCACCTG GATGGAGTAT 
GTACAAGAAG CTTTTCATCT CAGAATTTGC CTTTCAGCAG CTGGACACTA CAGGAGTACT 
GAAGCAGTGG ATTGGTGTCT AAAGGAAGGG TTAGAAAGTC CAAACTTCAT ATTTGGAGCA 
GCATGTTCTG AGGTTGAATT AGACTGCAGC ACTGGATATC ACAAGTGTTT AAGAATTGAT 
GTTGTCGTGG ATGTCGGTTC CAGCGTCAAT CGTACTAAAA ACACAGATCA GATTAAAGAT 
GCGTTTGTCC AGAGCCTTGA TATTTTCACA AGTGAAGATT TTAAGTACAG CTTGCATGGG 
TCACTTAATG GTGCACAGTG TGAGGAGCCT GAGGTGGCGA AAGCACCAGA ACAATTTAAT 
GTGACTTTGC TTGAGTCTTC ACTGCCAAAC CTAAATGTGT CCTGCTCACC AAAGGCTGTT 
GAAGAAACAT CACTGTTCTT TGGTGCATCC GTGTTCTTTG CTCTGAAAGA TGCAGTCCTT 
TCTGCCCGTA AAGATGCCGG TCTTCCTGGT ACTGTCTCAC TGCCCCTCCC TGTCAGGCCT 
CAACATTTGC GGATAGCATG TGGTAGTCAC TTTATACATA CAGCACAACT ATCAAATCCT 
GAAGAACAAA GTATCTAA

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

RefSeq	XP_018091643.1
CDS	333..3650
Translation	MEEDPKNRILVLQGDKSTWVTPSCLNELLDLKAVYPMAPLVVGNTLIGPQVKLTGSYYPVIISLSRVPELSVMSYTEKGITIGAACSLSMVRSILSEVVSQLPEEKNKMFRVLLQQLSVQNLRNDASLGGSILSGSATWELNPILAVGHCTFNLASKDRRRKVSLRQLLFGEPGIAAQRPEELLISIDIPFSKKWEFVSAFRQVQRWESAVPSVVAAMSVLLKDGTDLILAMNIYYGGSESACLFAKWVSEQLIGRHWNEAMLDEACRLFLGEIRLRDSTFGVMADHERTLAVSFLFKFYLQILQELNKNSNFLQKPIFDALKTNVLLNKKNPIYDLQQRISNGFHLNDEDDNLSYSYEGINGETIKHQAHMLHTIAEEEFDDEGSHVVEGELFLALVTSTRHHAKIISIHSEDALKLPGVVDVITAVDVPRANDKDVFAEHEVHYIGQVVCAVVADTKKRASLGASRIRVDYEDLEPVILSIQDAVKNNSYFEPTRKLEQGNIEEAFQNAYHILEGEDYIGGQDDSLLPSHTLSVIPRLEENEIEVLVSTNDPALIQAAVATALNIPSDFVICHGEPQRDLEAQNYQAASLAAITAVAAHKTGQIVHSVLEWREEGSISRYQSPFLGKYKVGYKSDGTIIALDITYYCNAGHRLDESSNVLAVSLLSAQNAYYIPNTRCCVVACRTNSQAKSFCRGCGFPRAGMLAEIWVDAVADRCALPPEKVRQINLHGSVGHVAFKRDFDSSNLLKCWNECIQKSSYHKRHAAAKESNKQCPWKKKGLSVIPVMFPAGFIADVLNQASVLVHVSVDGWVLLTPAGNETQEETHAIMMQVASRELRIPISHIYISETNTTISSTTSDTRSSVTSTVYALAVREACQILLQRLRPVIMLNQDATWMEYVQEAFHLRICLSAAGHYRSTEAVDWCLKEGLESPNFIFGAACSEVELDCSTGYHKCLRIDVVVDVGSSVNRTKNTDQIKDAFVQSLDIFTSEDFKYSLHGSLNGAQCEEPEVAKAPEQFNVTLLESSLPNLNVSCSPKAVEETSLFFGASVFFALKDAVLSARKDAGLPGTVSLPLPVRPQHLRIACGSHFIHTAQLSNPEEQSI

Target ORF information:

RefSeq Version	XM_018236154.1
Organism	Xenopus laevis(African clawed frog)
Definition	Xenopus laevis aldehyde oxidase 2-like (LOC108701448), transcript variant X2, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_018236154.1

ORF Insert Sequence:

ATGGAGGAGG ATCCGAAGAA CAGAATTCTG GTCCTTCAAG GTGATAAGAG CACATGGGTT 
ACTCCATCAT GTCTCAATGA ACTCTTGGAT CTAAAAGCTG TCTACCCCAT GGCTCCACTG 
GTGGTAGGAA ATACACTTAT TGGCCCTCAG GTCAAGCTGA CTGGTTCATA CTATCCTGTA 
ATCATCTCCC TTTCTAGAGT CCCAGAGCTG AGTGTCATGA GTTATACAGA AAAAGGGATA 
ACTATTGGGG CAGCTTGCAG CCTTTCAATG GTACGATCTA TTCTGTCTGA GGTTGTCTCT 
CAGTTACCGG AGGAAAAGAA CAAAATGTTT CGAGTTCTGT TACAGCAGTT ATCGGTGCAG 
AATTTAAGAA ATGACGCATC ACTAGGAGGG AGCATTTTGA GTGGAAGTGC AACGTGGGAG 
CTGAACCCTA TTCTTGCTGT TGGACACTGT ACCTTTAATC TAGCATCAAA AGACAGAAGA 
CGAAAGGTCT CCCTTCGGCA ACTACTGTTT GGAGAGCCAG GGATAGCAGC ACAGAGGCCA 
GAAGAGCTCT TAATTTCTAT TGATATTCCA TTTTCCAAGA AGTGGGAATT TGTGTCAGCT 
TTCAGACAAG TCCAGAGATG GGAAAGTGCA GTTCCCTCTG TGGTTGCTGC CATGAGTGTC 
CTCTTGAAAG ATGGCACTGA CCTTATTCTG GCCATGAACA TTTATTATGG AGGCTCTGAG 
TCAGCATGCT TGTTTGCAAA GTGGGTCAGT GAACAGCTCA TTGGAAGGCA CTGGAATGAA 
GCCATGCTGG ATGAAGCTTG CAGGTTATTT TTGGGAGAGA TACGTCTTCG AGATTCAACA 
TTTGGTGTGA TGGCCGATCA TGAAAGAACC CTTGCAGTCA GCTTCCTTTT TAAATTCTAC 
CTTCAAATCT TGCAAGAGTT GAATAAAAAC AGCAACTTTC TACAAAAGCC CATTTTTGAT 
GCTCTTAAAA CAAATGTTTT GCTAAATAAG AAGAATCCAA TATATGACTT GCAACAGAGG 
ATCTCCAATG GATTTCACCT AAATGATGAA GATGATAATC TCAGTTACTC ATATGAAGGC 
ATCAACGGGG AAACAATTAA ACACCAAGCA CACATGCTAC ACACCATTGC AGAGGAGGAG 
TTTGACGACG AAGGCTCACA CGTAGTGGAG GGAGAGCTGT TTCTTGCACT AGTAACCAGC 
ACCAGACATC ACGCTAAAAT TATATCCATA CATTCAGAAG ATGCATTAAA ACTGCCTGGA 
GTTGTTGATG TGATAACAGC TGTGGATGTT CCACGGGCAA ATGACAAAGA TGTATTTGCA 
GAGCATGAGG TGCACTATAT TGGGCAGGTG GTATGTGCTG TTGTAGCTGA CACCAAAAAA 
CGCGCCAGTC TAGGAGCATC ACGAATAAGA GTAGACTATG AAGACTTGGA ACCTGTGATC 
CTTTCCATTC AGGATGCGGT AAAGAACAAC TCATACTTTG AGCCAACACG AAAATTAGAA 
CAAGGAAACA TAGAAGAGGC CTTTCAAAAT GCTTATCATA TCCTCGAAGG TGAGGACTAT 
ATCGGAGGAC AGGATGATTC CCTGCTCCCA TCACATACTC TGTCTGTGAT CCCAAGACTG 
GAAGAAAATG AGATTGAGGT TCTTGTATCA ACAAATGATC CAGCTCTAAT ACAGGCTGCT 
GTGGCAACAG CATTGAATAT TCCCTCTGAC TTTGTTATTT GCCATGGGGA ACCACAAAGA 
GATTTAGAGG CACAGAATTA CCAAGCTGCA TCTCTGGCCG CCATAACTGC AGTAGCTGCA 
CACAAAACTG GGCAAATAGT GCATTCAGTC CTGGAATGGA GAGAGGAAGG ATCCATATCC 
AGATACCAGT CACCTTTTCT TGGGAAATAC AAGGTGGGAT ACAAGAGTGA TGGTACAATC 
ATAGCACTGG ACATCACATA TTACTGCAAC GCTGGGCATA GATTGGATGA ATCGTCTAAC 
GTGCTTGCTG TGTCTCTGCT GAGTGCCCAA AATGCATATT ACATCCCCAA CACCAGATGC 
TGTGTAGTTG CTTGCAGGAC AAATTCACAA GCAAAGAGTT TCTGCAGAGG GTGTGGATTC 
CCACGTGCTG GAATGCTTGC TGAAATATGG GTAGATGCAG TGGCAGACAG ATGCGCATTA 
CCTCCAGAAA AGGTGCGTCA GATAAATTTG CACGGGTCAG TCGGTCACGT TGCCTTTAAA 
CGAGATTTTG ATTCATCAAA TTTATTAAAG TGCTGGAATG AGTGTATACA GAAGTCTTCA 
TATCACAAGA GGCATGCAGC AGCAAAAGAA AGCAACAAAC AATGTCCCTG GAAGAAAAAG 
GGGCTCTCCG TTATTCCAGT GATGTTCCCT GCAGGATTTA TAGCAGATGT TCTTAACCAG 
GCATCTGTGC TAGTTCATGT TTCTGTGGAT GGATGGGTGC TTCTGACTCC TGCTGGAAAT 
GAGACACAAG AGGAAACACA CGCTATCATG ATGCAGGTTG CAAGCCGGGA ACTAAGGATA 
CCAATATCTC ATATCTATAT TAGCGAGACC AATACAACCA TTTCATCAAC CACCTCTGAC 
ACAAGATCAT CTGTTACATC TACTGTGTAT GCATTGGCAG TACGGGAGGC TTGCCAGATT 
CTTCTTCAGC GTTTACGTCC AGTTATCATG TTAAACCAAG ACGCCACCTG GATGGAGTAT 
GTACAAGAAG CTTTTCATCT CAGAATTTGC CTTTCAGCAG CTGGACACTA CAGGAGTACT 
GAAGCAGTGG ATTGGTGTCT AAAGGAAGGG TTAGAAAGTC CAAACTTCAT ATTTGGAGCA 
GCATGTTCTG AGGTTGAATT AGACTGCAGC ACTGGATATC ACAAGTGTTT AAGAATTGAT 
GTTGTCGTGG ATGTCGGTTC CAGCGTCAAT CGTACTAAAA ACACAGATCA GATTAAAGAT 
GCGTTTGTCC AGAGCCTTGA TATTTTCACA AGTGAAGATT TTAAGTACAG CTTGCATGGG 
TCACTTAATG GTGCACAGTG TGAGGAGCCT GAGGTGGCGA AAGCACCAGA ACAATTTAAT 
GTGACTTTGC TTGAGTCTTC ACTGCCAAAC CTAAATGTGT CCTGCTCACC AAAGGCTGTT 
GAAGAAACAT CACTGTTCTT TGGTGCATCC GTGTTCTTTG CTCTGAAAGA TGCAGTCCTT 
TCTGCCCGTA AAGATGCCGG TCTTCCTGGT ACTGTCTCAC TGCCCCTCCC TGTCAGGCCT 
CAACATTTGC GGATAGCATG TGGTAGTCAC TTTATACATA CAGCACAACT ATCAAATCCT 
GAAGAACAAA GTATCTAA

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

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LOC108701448 cDNA ORF clone, Xenopus laevis(African clawed frog)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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