AOX4 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene
Clones
gRNAs

Summary

Gene Symbol	AOX4
Entrez Gene ID	100470835
Full Name	aldehyde oxidase 4
Gene Type	protein-coding
Organism	Ailuropoda melanoleuca(giant panda)

mRNA and Protein(s)

mRNA	Protein	Name
XM_019795968.1	XP_019651527.1	aldehyde oxidase 4 isoform X1
NM_001304853.1	NP_001291782.1	aldehyde oxidase 4

Pathways from BioSystems
Gene Ontology
Bibliography

Related articles in PubMed

Structure and evolution of vertebrate aldehyde oxidases: from gene duplication to gene suppression.
Kurosaki M, Bolis M, Fratelli M, Barzago MM, Pattini L, Perretta G, Terao M, Garattini E
Cellular and molecular life sciences : CMLS70(10)1807-30(2013 May)

GeneRIFs: Gene References Into Functions What's a GeneRIF?

The following AOX4 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the AOX4 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
OAc03473	NM_001304853.1 Latest version!	Ailuropoda melanoleuca aldehyde oxidase 4 (AOX4), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00
OAc90412	XM_019795968.1 Latest version!	Ailuropoda melanoleuca aldehyde oxidase 4 (AOX4), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00

ORF Online Only Promotion

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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)

AOX4 ( NM_001304853.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> NP_001291782.1 Ailuropoda melanoleuca aldehyde oxidase 4 (AOX4), mRNA.

Price & Availability↑

CloneID	OAc03473
Clone ID Related Accession (Same CDS sequence)	NM_001304853.1
Accession Version	NM_001304853.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4008bp) 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	1484323200000
Organism	Ailuropoda melanoleuca(giant panda)
Product	aldehyde oxidase 4
Comment	Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from BK008709.1. On Feb 11, 2015 this sequence version replaced XM_002915839.2. ##Evidence-Data-START## Transcript exon combination :: BK008709.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMN04012075 [ECO:0000348] ##Evidence-Data-END##

ATGGCTTCTG TTCCCAATTC TGATGAACTG ATTTTTTTTG TGAATGGAAG AAAGGTCATA 
GAGAAGAATG CTGATCCTGA AGTCAACCTA CTATACTACC TGAGGAAAGT CCTCTATCTC 
ACAGGCACCA AGTACAGCTG TGGGGGAGGA GGCTGTGGCG CCTGCACCGT CATGGTGTCA 
AGATACGACC CCAAGACCAA GAAGATCCAC CACTCTCCAG TTACAGCGTG CTTGGTGCCC 
ATCTGCTCTC TGCATGGGGC TGCTGTCACA ACAGTGGAAG GTGTAGGAAG CATCCGCACC 
AGGATTCATC CCGTACAGGA GAGACTTGCC AAGTGTCATG GCACACAGTG TGGCTTCTGC 
AGTCCAGGAA TGGTGATGTC CATCTACACA CTGCTGAGGA ACCACCCAGA GCCAACCCTG 
GAGCAGATAA CCAAAGCTCT TGGAGGTAAC TTGTGCCGCT GTACTGGATA CCGACCAATT 
GTAGAAAGTG GAAAAACTTT CTGTGCGGAA TCAACTATTT GTGGACTGAA AGGATCAGGA 
AAATGTTGCA TGGATCAAGA AGAGAGGTCT TTTGTAAATA GACAGGAAAA AATGTGTACC 
AAACTGTATA ATGAAGATGA ATTCCAGCCC TTGGATCCAT CCCAGGAACC TATATTCCCT 
CCTGAACTAA TAAGAATGGC AGAAGATCCA AACAAGAGAA GGTTGATGTT CCAAGGGGAG 
AGGACTACCT GGATCACCCC CGTGACCCTC AGTGATCTTC TGGAGCTGAA AGCCAATTTC 
CCTGAAGCCC CCCTCATCAT GGGGAACACT GCAGTGGGAC CCAGCATTAA ATTCAAAGGT 
GAATTTCATC CAGATTTCAT ATCTCCACTT GGGCTTCCAG AACTATATTT TGTGGACTAC 
ACAGATGATG GAGTGACAAT AGGGGCAGGA TACAGCCTGG CCCAGTTGAA TGACGCTTTA 
CATCTTACTG TTTTGGAGCA ACCAAAGGAG AAAACTAAGA CTTACCGTGC TCTCCTGAAG 
CATCTGAGGA CACTTGCTGG AGCCCAGATA AGGAATATGG CGACTTTAGG AGGACATGTG 
GTGAGCAGAC CTAATTTTTC TGACCTAAAT CCCATTTTAG CAGCAGGAAA TGCTACCATC 
AATCTGATAT CCAAAGGAGG AGAACGGCAG ATTCCTTTAA ACAGCCATTT CCTTGAGAGA 
TCACCTGAAG CCAGCCTCAA ATCGGAAGAG ATTGTGTTAT CTGTTCATAT TCCCCACTCT 
ACTCAGTGGC ACTTTGTGTC AGGACTCCGG CTGGCCCAAC GTCAGGAAAA TGCTTTTGCC 
ATTGTCAATG CCGGCATGAG TGTGAAGTTT GAAGATGGTA CAGACACGAT TAAGGATCTT 
CAGATGTTCT ATGGAAGTGT TGGCCCCACT GTTGTCTCTG CAAGCCAAAC ATGCAAGCAG 
CTCATTGGGA GGTCGTGGGA TGACCACATG CTGAGTGATG CCTGCCGTTG GGTCCTGGAT 
GAGATTTACA TTCCACCAGC AGCTAAAGGT GGCATGGTGG AGTACAGGCG AACCCTCATC 
ATCAGCTTAC TCTTCAAATT CTACCTCAAA GTGAGGCGAG GACTGAATAA AAAGGATCCC 
CATAAGTTTC CTGATATCCC AGAAAGGTAC ATGAGTGCTC TAGATGATTT CCCCATAAAA 
ACACCACAAG GAATTCAGAT GTTTCAGTGT GTGGATCCCT ACCAATCCCC ACAAGACCCC 
ATCGGCCACC CAGTCATGCA CCAGTCAGCC ATCAAACATG CCACAGGGGA GGCTGTATTT 
AGCGATGACA TGCCCCCTAT TGCCCAAGAA CTCTTCCTGG CTGTGACCAC CAGCACCAGA 
GCTCACGCAA AGATCATATC AATTGATGCT TCAGAAGCCC TGGCCCTTCC AGGTGTTGTT 
GATGTGATAA CAGCAGAGGA TGTTCCAGGA GATAATAACC ATCAGGGAGA GGTCCTCTAT 
GCACAGAATG AGGTGATTTG CGTGGGTCAG ATTGTCTGCA CTGTGGCTGC TGACACCTAT 
TCTCATGCAA GAGAGGCGGC TAAAAAAGTG AAGATCACTT ATGAAGACAT AGAACCAAGG 
ATTATCACAA TAGAGCAAGC GCTAGAGCAC AATTCATTTT TTTCCATCGA AAAGAAAGTC 
GAGCAAGGAA ATGTAGAGCA AGCCTTTAAA TATGTTGATC AAATCATTGA AGGTGAGGCC 
CATGTAGAAG GGCAGGAACA TTTCTACATG GAAACGCAAA CTATCCTGGC TATCCCAAAA 
CAGGAAGATA AAGAAATGGT CCTATACCTG GGAACACAGT TTCCAAGCCA TGCGCAGGAA 
TTTGTGGCTG CAGCATTAAA CATTCCAAGG AGTAGGATCG CCTGCCACGT GAAAAGAATT 
GGAGGAGGGT TTGGGGGAAA AGTGACCAAG CCTGCTCTGC TAGGAGCCAT CGGTGCCGTG 
GCCGCCAACA AGACTGGCCG CCCAATCCGG TTTATTCTAG AGCGTGGTGA TGACATGCTG 
ATAACTGCTG GCCGCCACCC ACTCCTCGGA AAATACAAAA TTGGATTCAT GAACAACAGT 
GTGATCAAAG CTGCTGATGT TGAATATTAT ATCAATGGTG GATGCACTCC TGATGAGTCT 
GAGTCGGTAA CAGAGTTCAT CGTGCTGAAG TCGGACAATG CATATTATAT TCCTAATTTC 
CGGTGCCGGG GTAGGCCCTG CAAGACAAAT TTGCCATCCA ACACAGCCTT CCGAGGATAT 
GGCTTCCCTG AGGCTGCAGT GGTGGCGGAA GCTTACATGG CTGCTGTGGC ATCGCAATGT 
AACTTATCCC CTGAAGAGGT TAAAGAAATA AACATGTATA AGAGAATTAG CACAACAGCC 
TACAAGCAGA CATTTAATCC AGAGCCATTG CGAAGATGCT GGAAAGAATG TCTGGAGAAA 
TCTTCATTCT CTGCTAGGAA ACTGGCTACA GAGGAATTTA ACAAAAAGAA CTACTGGAAG 
AAGAGGGGGC TTGCCGCAGT CCCCATGAAA TTTACCGTTG GGTTCCCTGT GGCCTACTAC 
AATCAGGCTG CTGCTCTAGT CCACATCTAC CTTGATGGCT CCGTCCTGGT GACTCATGGT 
GGCTGTGAAA TGGGACAAGG TCTTCACACC AAAATGATTC AGGTGGCTAG TCGAGAACTG 
AACATCCCCC AGTCATATAT ACACCTGTCT GAAACAAGTA CCGTCACAGT GCCCAATGCT 
AGCTTCACAG CGGCGTCAAT GGGAGCAGAC ATCAACGGGA AGGCTGTACA GAATGCCTGC 
CAAATTCTTA TGGCCCGTCT TCAGCCAATC ATCAGGAAAA ACCCTGAAGG AAGATGGGAG 
GACTGGATTG CAAAAGCCTT TGAAGAATCC ATCAGTCTCT CGACTACTGG ATATTTCAAA 
GGCTACCAGA CGTATATGGA CTGGGAGAAG GAGAAAGGTG ACCCCTATCC ATATTATGTT 
TATGGAGCAT CCTGTTCTGA GGTCGAAGTT GACTGTCTGA CTGGGGCTCA TAAGCTCCTT 
AGAACTGACA TCTTCATGGA TGCTGCTTTC AGCATAAACC CAGCCCTGGA CATTGGACAG 
ATTGAAGGAG CATTTATCCA AGGCATGGGA TTCTATACCA TAGAGGAACT GAAATATTCT 
CCAGAAGGTG TGCTCTACTC TAGAAGTCCA GATGACTACA AAATCCCGAC TGTCACTGAG 
ATACCAGAAG AGTTCTATGT CACTTTGGTG CGTTCCCAAA ATCCCACAGC CATCTATTCC 
TCCAAGGGGT TGGGTGAGGC TGGAATGTTC TTGGGATCCT CCGTGTTGTT CGCCATATTT 
GATGCAGTGA CTGCTGCCCG CAAAGAGAGG GGGCTGACCA AGACCTTCAC CCTGAATAGC 
CCAGCAACTC CTGAGTTTAT TAGGATGACG TGTATGGATC AGTTTACTGA CATGATTCCT 
AGAGATGATC CTTCAACATT TACACCTTGG TCCATCCACG TGTCTTAA

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

RefSeq	NP_001291782.1
CDS	1..4008
Translation	MASVPNSDELIFFVNGRKVIEKNADPEVNLLYYLRKVLYLTGTKYSCGGGGCGACTVMVSRYDPKTKKIHHSPVTACLVPICSLHGAAVTTVEGVGSIRTRIHPVQERLAKCHGTQCGFCSPGMVMSIYTLLRNHPEPTLEQITKALGGNLCRCTGYRPIVESGKTFCAESTICGLKGSGKCCMDQEERSFVNRQEKMCTKLYNEDEFQPLDPSQEPIFPPELIRMAEDPNKRRLMFQGERTTWITPVTLSDLLELKANFPEAPLIMGNTAVGPSIKFKGEFHPDFISPLGLPELYFVDYTDDGVTIGAGYSLAQLNDALHLTVLEQPKEKTKTYRALLKHLRTLAGAQIRNMATLGGHVVSRPNFSDLNPILAAGNATINLISKGGERQIPLNSHFLERSPEASLKSEEIVLSVHIPHSTQWHFVSGLRLAQRQENAFAIVNAGMSVKFEDGTDTIKDLQMFYGSVGPTVVSASQTCKQLIGRSWDDHMLSDACRWVLDEIYIPPAAKGGMVEYRRTLIISLLFKFYLKVRRGLNKKDPHKFPDIPERYMSALDDFPIKTPQGIQMFQCVDPYQSPQDPIGHPVMHQSAIKHATGEAVFSDDMPPIAQELFLAVTTSTRAHAKIISIDASEALALPGVVDVITAEDVPGDNNHQGEVLYAQNEVICVGQIVCTVAADTYSHAREAAKKVKITYEDIEPRIITIEQALEHNSFFSIEKKVEQGNVEQAFKYVDQIIEGEAHVEGQEHFYMETQTILAIPKQEDKEMVLYLGTQFPSHAQEFVAAALNIPRSRIACHVKRIGGGFGGKVTKPALLGAIGAVAANKTGRPIRFILERGDDMLITAGRHPLLGKYKIGFMNNSVIKAADVEYYINGGCTPDESESVTEFIVLKSDNAYYIPNFRCRGRPCKTNLPSNTAFRGYGFPEAAVVAEAYMAAVASQCNLSPEEVKEINMYKRISTTAYKQTFNPEPLRRCWKECLEKSSFSARKLATEEFNKKNYWKKRGLAAVPMKFTVGFPVAYYNQAAALVHIYLDGSVLVTHGGCEMGQGLHTKMIQVASRELNIPQSYIHLSETSTVTVPNASFTAASMGADINGKAVQNACQILMARLQPIIRKNPEGRWEDWIAKAFEESISLSTTGYFKGYQTYMDWEKEKGDPYPYYVYGASCSEVEVDCLTGAHKLLRTDIFMDAAFSINPALDIGQIEGAFIQGMGFYTIEELKYSPEGVLYSRSPDDYKIPTVTEIPEEFYVTLVRSQNPTAIYSSKGLGEAGMFLGSSVLFAIFDAVTAARKERGLTKTFTLNSPATPEFIRMTCMDQFTDMIPRDDPSTFTPWSIHVS

Target ORF information:

RefSeq Version	NM_001304853.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca aldehyde oxidase 4 (AOX4), mRNA.

Target ORF information:

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

NM_001304853.1

ORF Insert Sequence:

ATGGCTTCTG TTCCCAATTC TGATGAACTG ATTTTTTTTG TGAATGGAAG AAAGGTCATA 
GAGAAGAATG CTGATCCTGA AGTCAACCTA CTATACTACC TGAGGAAAGT CCTCTATCTC 
ACAGGCACCA AGTACAGCTG TGGGGGAGGA GGCTGTGGCG CCTGCACCGT CATGGTGTCA 
AGATACGACC CCAAGACCAA GAAGATCCAC CACTCTCCAG TTACAGCGTG CTTGGTGCCC 
ATCTGCTCTC TGCATGGGGC TGCTGTCACA ACAGTGGAAG GTGTAGGAAG CATCCGCACC 
AGGATTCATC CCGTACAGGA GAGACTTGCC AAGTGTCATG GCACACAGTG TGGCTTCTGC 
AGTCCAGGAA TGGTGATGTC CATCTACACA CTGCTGAGGA ACCACCCAGA GCCAACCCTG 
GAGCAGATAA CCAAAGCTCT TGGAGGTAAC TTGTGCCGCT GTACTGGATA CCGACCAATT 
GTAGAAAGTG GAAAAACTTT CTGTGCGGAA TCAACTATTT GTGGACTGAA AGGATCAGGA 
AAATGTTGCA TGGATCAAGA AGAGAGGTCT TTTGTAAATA GACAGGAAAA AATGTGTACC 
AAACTGTATA ATGAAGATGA ATTCCAGCCC TTGGATCCAT CCCAGGAACC TATATTCCCT 
CCTGAACTAA TAAGAATGGC AGAAGATCCA AACAAGAGAA GGTTGATGTT CCAAGGGGAG 
AGGACTACCT GGATCACCCC CGTGACCCTC AGTGATCTTC TGGAGCTGAA AGCCAATTTC 
CCTGAAGCCC CCCTCATCAT GGGGAACACT GCAGTGGGAC CCAGCATTAA ATTCAAAGGT 
GAATTTCATC CAGATTTCAT ATCTCCACTT GGGCTTCCAG AACTATATTT TGTGGACTAC 
ACAGATGATG GAGTGACAAT AGGGGCAGGA TACAGCCTGG CCCAGTTGAA TGACGCTTTA 
CATCTTACTG TTTTGGAGCA ACCAAAGGAG AAAACTAAGA CTTACCGTGC TCTCCTGAAG 
CATCTGAGGA CACTTGCTGG AGCCCAGATA AGGAATATGG CGACTTTAGG AGGACATGTG 
GTGAGCAGAC CTAATTTTTC TGACCTAAAT CCCATTTTAG CAGCAGGAAA TGCTACCATC 
AATCTGATAT CCAAAGGAGG AGAACGGCAG ATTCCTTTAA ACAGCCATTT CCTTGAGAGA 
TCACCTGAAG CCAGCCTCAA ATCGGAAGAG ATTGTGTTAT CTGTTCATAT TCCCCACTCT 
ACTCAGTGGC ACTTTGTGTC AGGACTCCGG CTGGCCCAAC GTCAGGAAAA TGCTTTTGCC 
ATTGTCAATG CCGGCATGAG TGTGAAGTTT GAAGATGGTA CAGACACGAT TAAGGATCTT 
CAGATGTTCT ATGGAAGTGT TGGCCCCACT GTTGTCTCTG CAAGCCAAAC ATGCAAGCAG 
CTCATTGGGA GGTCGTGGGA TGACCACATG CTGAGTGATG CCTGCCGTTG GGTCCTGGAT 
GAGATTTACA TTCCACCAGC AGCTAAAGGT GGCATGGTGG AGTACAGGCG AACCCTCATC 
ATCAGCTTAC TCTTCAAATT CTACCTCAAA GTGAGGCGAG GACTGAATAA AAAGGATCCC 
CATAAGTTTC CTGATATCCC AGAAAGGTAC ATGAGTGCTC TAGATGATTT CCCCATAAAA 
ACACCACAAG GAATTCAGAT GTTTCAGTGT GTGGATCCCT ACCAATCCCC ACAAGACCCC 
ATCGGCCACC CAGTCATGCA CCAGTCAGCC ATCAAACATG CCACAGGGGA GGCTGTATTT 
AGCGATGACA TGCCCCCTAT TGCCCAAGAA CTCTTCCTGG CTGTGACCAC CAGCACCAGA 
GCTCACGCAA AGATCATATC AATTGATGCT TCAGAAGCCC TGGCCCTTCC AGGTGTTGTT 
GATGTGATAA CAGCAGAGGA TGTTCCAGGA GATAATAACC ATCAGGGAGA GGTCCTCTAT 
GCACAGAATG AGGTGATTTG CGTGGGTCAG ATTGTCTGCA CTGTGGCTGC TGACACCTAT 
TCTCATGCAA GAGAGGCGGC TAAAAAAGTG AAGATCACTT ATGAAGACAT AGAACCAAGG 
ATTATCACAA TAGAGCAAGC GCTAGAGCAC AATTCATTTT TTTCCATCGA AAAGAAAGTC 
GAGCAAGGAA ATGTAGAGCA AGCCTTTAAA TATGTTGATC AAATCATTGA AGGTGAGGCC 
CATGTAGAAG GGCAGGAACA TTTCTACATG GAAACGCAAA CTATCCTGGC TATCCCAAAA 
CAGGAAGATA AAGAAATGGT CCTATACCTG GGAACACAGT TTCCAAGCCA TGCGCAGGAA 
TTTGTGGCTG CAGCATTAAA CATTCCAAGG AGTAGGATCG CCTGCCACGT GAAAAGAATT 
GGAGGAGGGT TTGGGGGAAA AGTGACCAAG CCTGCTCTGC TAGGAGCCAT CGGTGCCGTG 
GCCGCCAACA AGACTGGCCG CCCAATCCGG TTTATTCTAG AGCGTGGTGA TGACATGCTG 
ATAACTGCTG GCCGCCACCC ACTCCTCGGA AAATACAAAA TTGGATTCAT GAACAACAGT 
GTGATCAAAG CTGCTGATGT TGAATATTAT ATCAATGGTG GATGCACTCC TGATGAGTCT 
GAGTCGGTAA CAGAGTTCAT CGTGCTGAAG TCGGACAATG CATATTATAT TCCTAATTTC 
CGGTGCCGGG GTAGGCCCTG CAAGACAAAT TTGCCATCCA ACACAGCCTT CCGAGGATAT 
GGCTTCCCTG AGGCTGCAGT GGTGGCGGAA GCTTACATGG CTGCTGTGGC ATCGCAATGT 
AACTTATCCC CTGAAGAGGT TAAAGAAATA AACATGTATA AGAGAATTAG CACAACAGCC 
TACAAGCAGA CATTTAATCC AGAGCCATTG CGAAGATGCT GGAAAGAATG TCTGGAGAAA 
TCTTCATTCT CTGCTAGGAA ACTGGCTACA GAGGAATTTA ACAAAAAGAA CTACTGGAAG 
AAGAGGGGGC TTGCCGCAGT CCCCATGAAA TTTACCGTTG GGTTCCCTGT GGCCTACTAC 
AATCAGGCTG CTGCTCTAGT CCACATCTAC CTTGATGGCT CCGTCCTGGT GACTCATGGT 
GGCTGTGAAA TGGGACAAGG TCTTCACACC AAAATGATTC AGGTGGCTAG TCGAGAACTG 
AACATCCCCC AGTCATATAT ACACCTGTCT GAAACAAGTA CCGTCACAGT GCCCAATGCT 
AGCTTCACAG CGGCGTCAAT GGGAGCAGAC ATCAACGGGA AGGCTGTACA GAATGCCTGC 
CAAATTCTTA TGGCCCGTCT TCAGCCAATC ATCAGGAAAA ACCCTGAAGG AAGATGGGAG 
GACTGGATTG CAAAAGCCTT TGAAGAATCC ATCAGTCTCT CGACTACTGG ATATTTCAAA 
GGCTACCAGA CGTATATGGA CTGGGAGAAG GAGAAAGGTG ACCCCTATCC ATATTATGTT 
TATGGAGCAT CCTGTTCTGA GGTCGAAGTT GACTGTCTGA CTGGGGCTCA TAAGCTCCTT 
AGAACTGACA TCTTCATGGA TGCTGCTTTC AGCATAAACC CAGCCCTGGA CATTGGACAG 
ATTGAAGGAG CATTTATCCA AGGCATGGGA TTCTATACCA TAGAGGAACT GAAATATTCT 
CCAGAAGGTG TGCTCTACTC TAGAAGTCCA GATGACTACA AAATCCCGAC TGTCACTGAG 
ATACCAGAAG AGTTCTATGT CACTTTGGTG CGTTCCCAAA ATCCCACAGC CATCTATTCC 
TCCAAGGGGT TGGGTGAGGC TGGAATGTTC TTGGGATCCT CCGTGTTGTT CGCCATATTT 
GATGCAGTGA CTGCTGCCCG CAAAGAGAGG GGGCTGACCA AGACCTTCAC CCTGAATAGC 
CCAGCAACTC CTGAGTTTAT TAGGATGACG TGTATGGATC AGTTTACTGA CATGATTCCT 
AGAGATGATC CTTCAACATT TACACCTTGG TCCATCCACG TGTCTTAA

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

AOX4 ( XM_019795968.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019651527.1 Ailuropoda melanoleuca aldehyde oxidase 4 (AOX4), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OAc90412
Clone ID Related Accession (Same CDS sequence)	XM_019795968.1
Accession Version	XM_019795968.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4074bp) 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	1482768000000
Organism	Ailuropoda melanoleuca(giant panda)
Product	aldehyde oxidase 4 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217395.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGATGGCTT CTGTTCCCAA TTCTGATGAA CTGATTTTTT TTGTGAATGG AAGAAAGGTC 
ATAGAGAAGA ATGCTGATCC TGAAGTCAAC CTACTATACT ACCTGAGGAA AGTCCTCTAT 
CTCACAGGCA CCAAGTACAG CTGTGGGGGA GGAGGCTGTG GCGCCTGCAC CGTCATGGTG 
TCAAGATACG ACCCCAAGAC CAAGAAGATC CACCACTCTC CAGTTACAGC GTGCTTGGTG 
CCCATCTGCT CTCTGCATGG GGCTGCTGTC ACAACAGTGG AAGGTGTAGG AAGCATCCGC 
ACCAGGATTC ATCCCGTACA GGAGAGACTT GCCAAGTGTC ATGGCACACA GTGTGGCTTC 
TGCAGTCCAG GAATGGTGAT GTCCATCTAC ACACTGCTGA GGAACCACCC AGAGCCAACC 
CTGGAGCAGA TAACCAAAGC TCTTGGAGGT AACTTGTGCC GCTGTACTGG ATACCGACCA 
ATTGTAGAAA GTGGAAAAAC TTTCTGTGCG GAATCAACTA TTTGTGGACT GAAAGGATCA 
GGAAAATGTT GCATGGATCA AGAAGAGAGG TCTTTTGTAA ATAGACAGGA AAAAATGTGT 
ACCAAACTGT ATAATGAAGA TGAATTCCAG CCCTTGGATC CATCCCAGGA ACCTATATTC 
CCTCCTGAAC TAATAAGAAT GGCAGAAGAT CCAAACAAGA GAAGGTTGAT GTTCCAAGGG 
GAGAGGACTA CCTGGATCAC CCCCGTGACC CTCAGTGATC TTCTGGAGCT GAAAGCCAAT 
TTCCCTGAAG CCCCCCTCAT CATGGGGAAC ACTGCAGTGG GACCCAGCAT TAAATTCAAA 
GGTGAATTTC ATCCAGATTT CATATCTCCA CTTGGGCTTC CAGAACTATA TTTTGTGGAC 
TACACAGATG ATGGAGTGAC AATAGGGGCA GGATACAGCC TGGCCCAGTT GAATGACGCT 
TTACATCTTA CTGTTTTGGA GCAACCAAAG GAGAAAACTA AGACTTACCG TGCTCTCCTG 
AAGCATCTGA GGACACTTGC TGGAGCCCAG ATAAGGAATA TGGCGACTTT AGGAGGACAT 
GTGGTGAGCA GACCTAATTT TTCTGACCTA AATCCCATTT TAGCAGCAGG AAATGCTACC 
ATCAATCTGA TATCCAAAGG AGGAGAACGG CAGATTCCTT TAAACAGCCA TTTCCTTGAG 
AGATCACCTG AAGCCAGCCT CAAATCGGAA GAGATTGTGT TATCTGTTCA TATTCCCCAC 
TCTACTCAGT GGCACTTTGT GTCAGGACTC CGGCTGGCCC AACGTCAGGA AAATGCTTTT 
GCCATTGTCA ATGCCGGCAT GAGTGTGAAG TTTGAAGATG GTACAGACAC GATTAAGGAT 
CTTCAGATGT TCTATGGAAG TGTTGGCCCC ACTGTTGTCT CTGCAAGCCA AACATGCAAG 
CAGCTCATTG GGAGGTCGTG GGATGACCAC ATGCTGAGTG ATGCCTGCCG TTGGGTCCTG 
GATGAGATTT ACATTCCACC AGCAGCTAAA GGTGGCATGG TGGAGTACAG GCGAACCCTC 
ATCATCAGCT TACTCTTCAA ATTCTACCTC AAAGTGAGGC GAGGACTGAA TAAAAAGGAT 
CCCCATAAGT TTCCTGATAT CCCAGAAAGG TACATGAGTG CTCTAGATGA TTTCCCCATA 
AAAACACCAC AAGGAATTCA GATGTTTCAG TGTGTGGATC CCTACCAATC CCCACAAGAC 
CCCATCGGCC ACCCAGTCAT GCACCAGTCA GCCATCAAAC ATGCCACAGG GGAGGCTGTA 
TTTAGCGATG ACATGCCCCC TATTGCCCAA GAACTCTTCC TGGCTGTGAC CACCAGCACC 
AGAGCTCACG CAAAGATCAT ATCAATTGAT GCTTCAGAAG CCCTGGCCCT TCCAGGTGTT 
GTTGATGTGA TAACAGCAGA GGATGTTCCA GGAGATAATA ACCATCAGGG AGAGGTCCTC 
TATGCACAGA ATGAGGTGAT TTGCGTGGGT CAGATTGTCT GCACTGTGGC TGCTGACACC 
TATTCTCATG CAAGAGAGGC GGCTAAAAAA GTGAAGATCA CTTATGAAGA CATAGAACCA 
AGGATTATCA CAATAGAGCA AGCGCTAGAG CACAATTCAT TTTTTTCCAT CGAAAAGAAA 
GTCGAGCAAG GAAATGTAGA GCAAGCCTTT AAATATGTTG ATCAAATCAT TGAAGGTGAG 
GCCCATGTAG AAGGGCAGGA ACATTTCTAC ATGGAAACGC AAACTATCCT GGCTATCCCA 
AAACAGGAAG ATAAAGAAAT GGTCCTATAC CTGGGAACAC AGTTTCCAAG CCATGCGCAG 
GAATTTGTGG CTGCAGCATT AAACATTCCA AGGAGTAGGA TCGCCTGCCA CGTGAAAAGA 
ATTGGAGGAG GGTTTGGGGG AAAAGTGACC AAGCCTGCTC TGCTAGGAGC CATCGGTGCC 
GTGGCCGCCA ACAAGACTGG CCGCCCAATC CGGTTTATTC TAGAGCGTGG TGATGACATG 
CTGATAACTG CTGGCCGCCA CCCACTCCTC GGAAAATACA AAATTGGATT CATGAACAAC 
AGTGTGATCA AAGCTGCTGA TGTTGAATAT TATATCAATG GTGGATGCAC TCCTGATGAG 
TCTGAGTCGG TAACAGAGTT CATCGTGCTG AAGTCGGACA ATGCATATTA TATTCCTAAT 
TTCCGGTGCC GGGGTAGGCC CTGCAAGACA AATTTGCCAT CCAACACAGC CTTCCGAGGA 
TATGGCTTCC CTGAGGCTGC AGTGGTGGCG GAAGCTTACA TGGCTGCTGT GGCATCGCAA 
TGTAACTTAT CCCCTGAAGA GGTTAAAGAA ATAAACATGT ATAAGAGAAT TAGCACAACA 
GCCTACAAGC AGACATTTAA TCCAGAGCCA TTGCGAAGAT GCTGGAAAGA ATGTCTGGAG 
AAATCTTCAT TCTCTGCTAG GAAACTGGCT ACAGAGGAAT TTAACAAAAA GAACTACTGG 
AAGAAGAGGG GGCTTGCCGC AGTCCCCATG AAATTTACCG TTGGGTTCCC TGTGGCCTAC 
TACAATCAGG CTGCTGCTCT AGTCCACATC TACCTTGATG GCTCCGTCCT GGTGACTCAT 
GGTGGCTGTG AAATGGGACA AGGTCTTCAC ACCAAAATGA TTCAGGTGGC TAGTCGAGAA 
CTGAACATCC CCCAGTCATA TATACACCTG TCTGAAACAA GTACCGTCAC AGTGCCCAAT 
GCTAGCTTCA CAGCGGCGTC AATGGGAGCA GACATCAACG GGAAGGCTGT ACAGAATGCC 
TGCCAAATTC TTATGGCCCG TCTTCAGCCA ATCATCAGGA AAAACCCTGA AGGAAGATGG 
GAGGACTGGA TTGCAAAAGC CTTTGAAGAA TCCATCAGTC TCTCGACTAC TGGATATTTC 
AAAGGCTACC AGACGTATAT GGACTGGGAG AAGGAGAAAG GTGACCCCTA TCCATATTAT 
GTTTATGGAG CATCCTGTTC TGAGGTCGAA GTTGACTGTC TGACTGGGGC TCATAAGCTC 
CTTAGAACTG ACATCTTCAT GGATGCTGCT TTCAGCATAA ACCCAGCCCT GGACATTGGA 
CAGATTGAAG GAGCATTTAT CCAAGGCATG GGATTCTATA CCATAGAGGA ACTGAAATAT 
TCTCCAGAAG GTGTGCTCTA CTCTAGAAGT CCAGATGACT ACAAAATCCC GACTGTCACT 
GAGATACCAG AAGAGTTCTA TGTCACTTTG GTGCGTTCCC AAAATCCCAC AGCCATCTAT 
TCCTCCAAGG GGTTGGGTGA GGCTGGAATG TTCTTGGGAT CCTCCGTGTT GTTCGCCATA 
TTTGATGCAG TGACTGCTGC CCGCAAAGAG AGGGGGCTGA CCAAGACCTT CACCCTGAAT 
AGCCCAGCAA CTCCTGAGTT TATTAGGATG ACGTGTATGG ATCAGTTTAC TGACATGGTA 
AGGGTGGTGA GGAGAGGTCT CTGTGGTAAT CGCCACTTAC GTGGACTTTC AGGTTCTTGG 
TATGGATTTG GTAACCATGA CAAAATCCCA GGGCAGGTTC ATCTTTTCCA ATGA

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

RefSeq	XP_019651527.1
CDS	68..4141
Translation	MMASVPNSDELIFFVNGRKVIEKNADPEVNLLYYLRKVLYLTGTKYSCGGGGCGACTVMVSRYDPKTKKIHHSPVTACLVPICSLHGAAVTTVEGVGSIRTRIHPVQERLAKCHGTQCGFCSPGMVMSIYTLLRNHPEPTLEQITKALGGNLCRCTGYRPIVESGKTFCAESTICGLKGSGKCCMDQEERSFVNRQEKMCTKLYNEDEFQPLDPSQEPIFPPELIRMAEDPNKRRLMFQGERTTWITPVTLSDLLELKANFPEAPLIMGNTAVGPSIKFKGEFHPDFISPLGLPELYFVDYTDDGVTIGAGYSLAQLNDALHLTVLEQPKEKTKTYRALLKHLRTLAGAQIRNMATLGGHVVSRPNFSDLNPILAAGNATINLISKGGERQIPLNSHFLERSPEASLKSEEIVLSVHIPHSTQWHFVSGLRLAQRQENAFAIVNAGMSVKFEDGTDTIKDLQMFYGSVGPTVVSASQTCKQLIGRSWDDHMLSDACRWVLDEIYIPPAAKGGMVEYRRTLIISLLFKFYLKVRRGLNKKDPHKFPDIPERYMSALDDFPIKTPQGIQMFQCVDPYQSPQDPIGHPVMHQSAIKHATGEAVFSDDMPPIAQELFLAVTTSTRAHAKIISIDASEALALPGVVDVITAEDVPGDNNHQGEVLYAQNEVICVGQIVCTVAADTYSHAREAAKKVKITYEDIEPRIITIEQALEHNSFFSIEKKVEQGNVEQAFKYVDQIIEGEAHVEGQEHFYMETQTILAIPKQEDKEMVLYLGTQFPSHAQEFVAAALNIPRSRIACHVKRIGGGFGGKVTKPALLGAIGAVAANKTGRPIRFILERGDDMLITAGRHPLLGKYKIGFMNNSVIKAADVEYYINGGCTPDESESVTEFIVLKSDNAYYIPNFRCRGRPCKTNLPSNTAFRGYGFPEAAVVAEAYMAAVASQCNLSPEEVKEINMYKRISTTAYKQTFNPEPLRRCWKECLEKSSFSARKLATEEFNKKNYWKKRGLAAVPMKFTVGFPVAYYNQAAALVHIYLDGSVLVTHGGCEMGQGLHTKMIQVASRELNIPQSYIHLSETSTVTVPNASFTAASMGADINGKAVQNACQILMARLQPIIRKNPEGRWEDWIAKAFEESISLSTTGYFKGYQTYMDWEKEKGDPYPYYVYGASCSEVEVDCLTGAHKLLRTDIFMDAAFSINPALDIGQIEGAFIQGMGFYTIEELKYSPEGVLYSRSPDDYKIPTVTEIPEEFYVTLVRSQNPTAIYSSKGLGEAGMFLGSSVLFAIFDAVTAARKERGLTKTFTLNSPATPEFIRMTCMDQFTDMVRVVRRGLCGNRHLRGLSGSWYGFGNHDKIPGQVHLFQ

Target ORF information:

RefSeq Version	XM_019795968.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca aldehyde oxidase 4 (AOX4), transcript variant X1, mRNA.

Target ORF information:

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

XM_019795968.1

ORF Insert Sequence:

ATGATGGCTT CTGTTCCCAA TTCTGATGAA CTGATTTTTT TTGTGAATGG AAGAAAGGTC 
ATAGAGAAGA ATGCTGATCC TGAAGTCAAC CTACTATACT ACCTGAGGAA AGTCCTCTAT 
CTCACAGGCA CCAAGTACAG CTGTGGGGGA GGAGGCTGTG GCGCCTGCAC CGTCATGGTG 
TCAAGATACG ACCCCAAGAC CAAGAAGATC CACCACTCTC CAGTTACAGC GTGCTTGGTG 
CCCATCTGCT CTCTGCATGG GGCTGCTGTC ACAACAGTGG AAGGTGTAGG AAGCATCCGC 
ACCAGGATTC ATCCCGTACA GGAGAGACTT GCCAAGTGTC ATGGCACACA GTGTGGCTTC 
TGCAGTCCAG GAATGGTGAT GTCCATCTAC ACACTGCTGA GGAACCACCC AGAGCCAACC 
CTGGAGCAGA TAACCAAAGC TCTTGGAGGT AACTTGTGCC GCTGTACTGG ATACCGACCA 
ATTGTAGAAA GTGGAAAAAC TTTCTGTGCG GAATCAACTA TTTGTGGACT GAAAGGATCA 
GGAAAATGTT GCATGGATCA AGAAGAGAGG TCTTTTGTAA ATAGACAGGA AAAAATGTGT 
ACCAAACTGT ATAATGAAGA TGAATTCCAG CCCTTGGATC CATCCCAGGA ACCTATATTC 
CCTCCTGAAC TAATAAGAAT GGCAGAAGAT CCAAACAAGA GAAGGTTGAT GTTCCAAGGG 
GAGAGGACTA CCTGGATCAC CCCCGTGACC CTCAGTGATC TTCTGGAGCT GAAAGCCAAT 
TTCCCTGAAG CCCCCCTCAT CATGGGGAAC ACTGCAGTGG GACCCAGCAT TAAATTCAAA 
GGTGAATTTC ATCCAGATTT CATATCTCCA CTTGGGCTTC CAGAACTATA TTTTGTGGAC 
TACACAGATG ATGGAGTGAC AATAGGGGCA GGATACAGCC TGGCCCAGTT GAATGACGCT 
TTACATCTTA CTGTTTTGGA GCAACCAAAG GAGAAAACTA AGACTTACCG TGCTCTCCTG 
AAGCATCTGA GGACACTTGC TGGAGCCCAG ATAAGGAATA TGGCGACTTT AGGAGGACAT 
GTGGTGAGCA GACCTAATTT TTCTGACCTA AATCCCATTT TAGCAGCAGG AAATGCTACC 
ATCAATCTGA TATCCAAAGG AGGAGAACGG CAGATTCCTT TAAACAGCCA TTTCCTTGAG 
AGATCACCTG AAGCCAGCCT CAAATCGGAA GAGATTGTGT TATCTGTTCA TATTCCCCAC 
TCTACTCAGT GGCACTTTGT GTCAGGACTC CGGCTGGCCC AACGTCAGGA AAATGCTTTT 
GCCATTGTCA ATGCCGGCAT GAGTGTGAAG TTTGAAGATG GTACAGACAC GATTAAGGAT 
CTTCAGATGT TCTATGGAAG TGTTGGCCCC ACTGTTGTCT CTGCAAGCCA AACATGCAAG 
CAGCTCATTG GGAGGTCGTG GGATGACCAC ATGCTGAGTG ATGCCTGCCG TTGGGTCCTG 
GATGAGATTT ACATTCCACC AGCAGCTAAA GGTGGCATGG TGGAGTACAG GCGAACCCTC 
ATCATCAGCT TACTCTTCAA ATTCTACCTC AAAGTGAGGC GAGGACTGAA TAAAAAGGAT 
CCCCATAAGT TTCCTGATAT CCCAGAAAGG TACATGAGTG CTCTAGATGA TTTCCCCATA 
AAAACACCAC AAGGAATTCA GATGTTTCAG TGTGTGGATC CCTACCAATC CCCACAAGAC 
CCCATCGGCC ACCCAGTCAT GCACCAGTCA GCCATCAAAC ATGCCACAGG GGAGGCTGTA 
TTTAGCGATG ACATGCCCCC TATTGCCCAA GAACTCTTCC TGGCTGTGAC CACCAGCACC 
AGAGCTCACG CAAAGATCAT ATCAATTGAT GCTTCAGAAG CCCTGGCCCT TCCAGGTGTT 
GTTGATGTGA TAACAGCAGA GGATGTTCCA GGAGATAATA ACCATCAGGG AGAGGTCCTC 
TATGCACAGA ATGAGGTGAT TTGCGTGGGT CAGATTGTCT GCACTGTGGC TGCTGACACC 
TATTCTCATG CAAGAGAGGC GGCTAAAAAA GTGAAGATCA CTTATGAAGA CATAGAACCA 
AGGATTATCA CAATAGAGCA AGCGCTAGAG CACAATTCAT TTTTTTCCAT CGAAAAGAAA 
GTCGAGCAAG GAAATGTAGA GCAAGCCTTT AAATATGTTG ATCAAATCAT TGAAGGTGAG 
GCCCATGTAG AAGGGCAGGA ACATTTCTAC ATGGAAACGC AAACTATCCT GGCTATCCCA 
AAACAGGAAG ATAAAGAAAT GGTCCTATAC CTGGGAACAC AGTTTCCAAG CCATGCGCAG 
GAATTTGTGG CTGCAGCATT AAACATTCCA AGGAGTAGGA TCGCCTGCCA CGTGAAAAGA 
ATTGGAGGAG GGTTTGGGGG AAAAGTGACC AAGCCTGCTC TGCTAGGAGC CATCGGTGCC 
GTGGCCGCCA ACAAGACTGG CCGCCCAATC CGGTTTATTC TAGAGCGTGG TGATGACATG 
CTGATAACTG CTGGCCGCCA CCCACTCCTC GGAAAATACA AAATTGGATT CATGAACAAC 
AGTGTGATCA AAGCTGCTGA TGTTGAATAT TATATCAATG GTGGATGCAC TCCTGATGAG 
TCTGAGTCGG TAACAGAGTT CATCGTGCTG AAGTCGGACA ATGCATATTA TATTCCTAAT 
TTCCGGTGCC GGGGTAGGCC CTGCAAGACA AATTTGCCAT CCAACACAGC CTTCCGAGGA 
TATGGCTTCC CTGAGGCTGC AGTGGTGGCG GAAGCTTACA TGGCTGCTGT GGCATCGCAA 
TGTAACTTAT CCCCTGAAGA GGTTAAAGAA ATAAACATGT ATAAGAGAAT TAGCACAACA 
GCCTACAAGC AGACATTTAA TCCAGAGCCA TTGCGAAGAT GCTGGAAAGA ATGTCTGGAG 
AAATCTTCAT TCTCTGCTAG GAAACTGGCT ACAGAGGAAT TTAACAAAAA GAACTACTGG 
AAGAAGAGGG GGCTTGCCGC AGTCCCCATG AAATTTACCG TTGGGTTCCC TGTGGCCTAC 
TACAATCAGG CTGCTGCTCT AGTCCACATC TACCTTGATG GCTCCGTCCT GGTGACTCAT 
GGTGGCTGTG AAATGGGACA AGGTCTTCAC ACCAAAATGA TTCAGGTGGC TAGTCGAGAA 
CTGAACATCC CCCAGTCATA TATACACCTG TCTGAAACAA GTACCGTCAC AGTGCCCAAT 
GCTAGCTTCA CAGCGGCGTC AATGGGAGCA GACATCAACG GGAAGGCTGT ACAGAATGCC 
TGCCAAATTC TTATGGCCCG TCTTCAGCCA ATCATCAGGA AAAACCCTGA AGGAAGATGG 
GAGGACTGGA TTGCAAAAGC CTTTGAAGAA TCCATCAGTC TCTCGACTAC TGGATATTTC 
AAAGGCTACC AGACGTATAT GGACTGGGAG AAGGAGAAAG GTGACCCCTA TCCATATTAT 
GTTTATGGAG CATCCTGTTC TGAGGTCGAA GTTGACTGTC TGACTGGGGC TCATAAGCTC 
CTTAGAACTG ACATCTTCAT GGATGCTGCT TTCAGCATAA ACCCAGCCCT GGACATTGGA 
CAGATTGAAG GAGCATTTAT CCAAGGCATG GGATTCTATA CCATAGAGGA ACTGAAATAT 
TCTCCAGAAG GTGTGCTCTA CTCTAGAAGT CCAGATGACT ACAAAATCCC GACTGTCACT 
GAGATACCAG AAGAGTTCTA TGTCACTTTG GTGCGTTCCC AAAATCCCAC AGCCATCTAT 
TCCTCCAAGG GGTTGGGTGA GGCTGGAATG TTCTTGGGAT CCTCCGTGTT GTTCGCCATA 
TTTGATGCAG TGACTGCTGC CCGCAAAGAG AGGGGGCTGA CCAAGACCTT CACCCTGAAT 
AGCCCAGCAA CTCCTGAGTT TATTAGGATG ACGTGTATGG ATCAGTTTAC TGACATGGTA 
AGGGTGGTGA GGAGAGGTCT CTGTGGTAAT CGCCACTTAC GTGGACTTTC AGGTTCTTGG 
TATGGATTTG GTAACCATGA CAAAATCCCA GGGCAGGTTC ATCTTTTCCA ATGA

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

PubMed

Structure and evolution of vertebrate aldehyde oxidases: from gene duplication to gene suppression.
Cellular and molecular life sciences : CMLS70(10)1807-30(2013 May)
Kurosaki M,Bolis M,Fratelli M,Barzago MM,Pattini L,Perretta G,Terao M,Garattini E

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AOX4 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene

Clones

gRNAs

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Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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