mRNA and Protein(s)
mRNA |
Protein |
Name |
NM_142221.2 |
NP_650478.1 |
aldehyde oxidase 4 |
Drosophila melanogaster (fruit fly) |
CG18516 |
NP_650478.1 |
Anopheles gambiae (African malaria mosquito) |
AgaP_AGAP006226 |
XP_316294.4 |
Anopheles gambiae (African malaria mosquito) |
AgaP_AGAP005636 |
XP_315654.3 |
Anopheles gambiae (African malaria mosquito) |
AgaP_AGAP006220 |
XP_001688830.1 |
Oryza sativa (rice) |
Os03g0790900 |
NP_001051518.1 |
Drosophila melanogaster (fruit fly) |
CG18522 |
NP_650475.1 |
Anopheles gambiae (African malaria mosquito) |
AgaP_AGAP005638 |
XP_315656.4 |
Oryza sativa (rice) |
Os10g0138100 |
NP_001064133.1 |
Anopheles gambiae (African malaria mosquito) |
AgaP_AGAP006225 |
XP_316291.4 |
Anopheles gambiae (African malaria mosquito) |
AgaP_AGAP006221 |
XP_001688831.1 |
Arabidopsis thaliana (thale cress) |
AO1 |
NP_568407.2 |
Arabidopsis thaliana (thale cress) |
AO4 |
NP_563711.1 |
Drosophila melanogaster (fruit fly) |
CG18519 |
NP_732047.1 |
Drosophila melanogaster (fruit fly) |
CG6045 |
NP_650477.1 |
Anopheles gambiae (African malaria mosquito) |
AgaP_AGAP005637 |
XP_001688700.1 |
Arabidopsis thaliana (thale cress) |
AAO2 |
NP_189946.1 |
Anopheles gambiae (African malaria mosquito) |
AgaP_AGAP006224 |
XP_001688833.1 |
Arabidopsis thaliana (thale cress) |
AAO3 |
NP_180283.1 |
Related articles in PubMed
Gene Model Annotations for Drosophila melanogaster: Impact of High-Throughput Data.
Matthews BB, Dos Santos G, Crosby MA, Emmert DB, St Pierre SE, Gramates LS, Zhou P, Schroeder AJ, Falls K, Strelets V, Russo SM, Gelbart WM,
G3 (Bethesda, Md.)5(8)1721-36(2015 Jun)
Gene Model Annotations for Drosophila melanogaster: The Rule-Benders.
Crosby MA, Gramates LS, Dos Santos G, Matthews BB, St Pierre SE, Zhou P, Schroeder AJ, Falls K, Emmert DB, Russo SM, Gelbart WM,
G3 (Bethesda, Md.)5(8)1737-49(2015 Jun)
Sequence finishing and mapping of Drosophila melanogaster heterochromatin.
Hoskins RA, Carlson JW, Kennedy C, Acevedo D, Evans-Holm M, Frise E, Wan KH, Park S, Mendez-Lago M, Rossi F, Villasante A, Dimitri P, Karpen GH, Celniker SE
Science (New York, N.Y.)316(5831)1625-8(2007 Jun)
The Release 5.1 annotation of Drosophila melanogaster heterochromatin.
Smith CD, Shu S, Mungall CJ, Karpen GH
Science (New York, N.Y.)316(5831)1586-91(2007 Jun)
Combined evidence annotation of transposable elements in genome sequences.
Quesneville H, Bergman CM, Andrieu O, Autard D, Nouaud D, Ashburner M, Anxolabehere D
PLoS computational biology1(2)166-75(2005 Jul)
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 |
OFa05024 |
Clone ID Related Accession (Same CDS sequence) |
NM_142221.2
|
Accession Version |
NM_142221.2 Latest version! |
Documents for ORF clone product in default vector |
Sequence Information |
ORF Nucleotide Sequence (Length: 3771bp)
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 |
2019-04-24 |
Organism |
Drosophila melanogaster(fruit fly) |
Product |
aldehyde oxidase 4 |
Comment |
Comment: REVIEWED REFSEQ: This record has been curated by FlyBase. This record is derived from an annotated genomic sequence (NT_033777). On Jan 16, 2013 this sequence version replaced NM_142221.1.
##Genome-Annotation-Data-START##
Annotation Provider :: FlyBase
Annotation Status :: Full annotation
Annotation Version :: Release 6.26
URL :: http://flybase.org
##Genome-Annotation-Data-END##
COMPLETENESS: incomplete on the 3' 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
| ATGTCGACCA CATTTACCAT AAATGGACAA CCGTATGCAG TTAACCTTAC CGACCTCCCA CCGGACATAA CTCTGAACAC CTTCATCCGG GAACACGCCC AACTGACGGC CACGAAGTTT ATGTGCCTGG AGGGAGGATG TGGAGCTTGT GTTTGCGCAG TGAGCGATGG GAAGAGCACC TGGACAGTGA ACTCGTGTCT CAAGCTGCTG AATACCTGTG CCCAGCTGGA GATTATTACG TGCGAGGGAC TGGGTAACCA GGTAACGGGC TACCATCCGA TTCAGAAGCG GCTGGCCAAG ATGAACGGCA CCCAGTGCGG CTTTTGCTCG CCGGGATTCG TGATGAACAT GTATGGGTTG ATGGAACAGC ATGGCGGCAG AGTGACCATG GAGGAGGTGG AGAACTCCTT CGGCGGAAAC ATTTGTCGCT GCACTGGATA TCGTCCCATT CTGGATGCCA TGAAGTCCTT TGCGGTGGAC AGCACCGTTG AGGTTTCCGA AGAGAGCGTT GATATTGAGG ATCTCAATCT GAAGGCTCGA AACTGTCCAA GATCGGGAAA AGTCTGCAAG GGTACATGTC GGCAATCCAA ACTAATCTAC GAGGATGGAT CCCAGTGGTA CTGGCCAAGC ACACTGGCGG AAATATTCGA GGCACTAGAA AATGTGGGGG ATTCGGAAGA GTTCATGCTG GTTGGAGGTA ATACGGCTCA TGGGGTCTAC AGGAGATCCC CCGACATAAA GCATTTCATT GATGTGAATG GTGTGGAGGA TTTGCATCAG TACAGCTCAG ATAAGGAAAA ACTAACCTTG GGCGCTAGTC TCAGTTTGAC CGAAACGATG GAAATAATAC AAAGCACTTC GAAGCAATCA GGATTTGAGT ATCTTGAGGT CCTGTGGCAC CACATCGACC TTGTCGCCAA TGTTCCTGTT CGAAATTCTG GCACTTTGGC AGGCAATATT TGTACCAAAA AGGAACATCC CGAGTTTCCA TCCGATATAT TTATATCCTT TGAAGCTCTG GATGTCAAGG TTGTTGCAAT GAAAGGCATC GACGATGAAA AAGAAATGAC TTTAGAGGAA TTTTTGGGTG ATACGGATAG AAAAATGCTG CTCAAGGCCT TCATTCTCCC TAGATACCCC AAGGATATGT ATATTTACGA CTCCTTCAAG ATCATGCCAA GAGCGCAAAA TGCTCATGCT TATGTTAATG CAGGATTTCT TCTGGAATTG GATGGCAACT CAATGGTGAA ATCTGCCCGT ATTTGCTTTG GTGGAATTCG ACCGGATTTC ATTCATGCCA CAGATATTGA ACAGTTAATG GTGGGTCACA GTCCCTACGA ATCAAATTTG GTGGAACAAA CATTCAACAA GCTGGAGAGT CTGGTCAAGC CGGATGAGGT TCTACCCGAT GCCAGTCCCG CCTACCGTTC CAAATTGGCC TGCGGACTGC TCTACAAGTT CCTCTTGAAA CACGCCCCCG ATGCGGAGGT CAGCGGAAAG TTCAAGAGCG GCGGTGAGCT GCTCCAGCGG CCACTCTCCT CCGGCTTGCA GCTCTTCCAG ACCAATAAAC AGACCTACCC CGTGACACAG GGCGTGCAGA AGCTGGAGGG CATGATTCAG TGCTCCGGAG AGGCCACATA TATGAACGAT GTGCTGACCA CTTCCAACTC CGTTTACTGC GCCTTTGTGG GCGCCACAAA GGTGGGAGCC ACCATTGATC AAATCGATGC TACGGAAGCT CTCCAACATC CAGGAGTGGT GGCCTTTTAC ACTGCGAAGG ACATTCCCGG AACGAATACT TTCTGTGAGC CCAGTTTTGG TTACGAAGCG GAGGAGATTT TCTGCTCTGG AATGGTGCGC CACTCGGAAC AACCAGTGGG TGTAATCGTG GCTCTTACTG CTGACCAAGC CCAAAGGGCA ACAAAGCTTG TCAAGATCAG CTATAGCAGC CCCAGTTCCA ACTTCAAGCT GATGCCGAGT TTGAAGGATG TGTTCTCCTC CGAAACTCCA GATACTTCTC GCATTATACC CTTGGTTATA TCAAAGCTTA AGGAAGTAAA GTTTTCTGAC AAACCTGATT TGGAAGTGAG GGGCATATTC GAGATGGGAC TGCAGTATCA CTTCACCATG GAACCGCAGA CCACTATTAT TATTCCCTTT GAAGATGGAC TAAAGGTCTT CTCGGCTACC CAATGGATTG ATCAGACTCA ATCAGTGATT GCTCATACCC TGCAGATGAA AGCCAAAGAT GTGCAACTAG AGGTTCGCAG ATTGGGTGGT GGATATGGCT GCAAAATATC CAGAGGTAAC CAGGTTGCCT GTGCAGCCGC CTTGGCTGCC CATAAGCTGA ATCGTCCCGT TCGCTTTGTC CAATCCCTGG AGTCCATGAT GGATTGCAAT GGAAAGAGGT GGGCCTGTCG TTCCGAATAT CAGTGTCACG TGAAGACCAG TGGCAGGATC GTCGGGCTGT CCAACGATTT TTACGAGGAC GCTGGCTGGA ACACGAACGA GAGTCCTGTG CAAGGACACT CCACTTTCAC AGCAGCCAAC TGCTATGAAT TCACCGATAG CAACTTCAAG CTGAGTGGTC ATGCTGTTCT TACGGATGCC CCAAGTTCCA CTTGGTGCCG TGCTCCTGGA TCAGTGGAGG GCATTGCTAT GATGGAGAAC ATCATCGAGC ACGTGGCATT CGAAATCCAG AAAGACCCAG CCGAAGTGCG ACTAGCAAAC ATTAGTAAGA AGAGTAAGAT GGCAACCGTC TTTCCAGAGT TCCTCAAGAC TAGGGAGTAC TACTCCCGGA AGAAGGAGAT CGAGGCATTC AATGCCAACA ATCGATGGAA AAAAAGAGGC TTGGGTCTCT CCTTGATGAA CTTCCCCATT ATCTACATTG GGCAGTTTCC GGCAACGGTG ACTATTTACC ATGTAGATGG CACTGTTGTG GTTACCCATG GGGGCATAGA AATGGGTCAG GGTATGAATA CAAAGATAGC TCAAGTGGCG GCCTATACCC TGGGAATCGA TTTGAGCTAC GTGAAAGTGG AGTCCTCAAC TAGCATCAAT GGAGCCAATT CAATGGTCAC TGGCTATGCC ATCGGAAGCG AGAGTGTCTG CTACGCAGTC CGTAAGATCT GCGAGACGCT CAATGCCCGA TTGAAGCCAG TGAGGAAGGC CAAGGCCACT TGGGTGGAGA CTGTGGAAGC GGCCAATGCC CAGTTGATCA ATCTGATAGC CTCGGATCAC TACAAGACCG GCGACATGCA GAACTACCAT GTGCTGGGAC TTGCCCTTTC CGAGGTGGAG ATCGATGTGC TGACCGGCAA CATTCTGATC AGGCGGGTGG ACATCCTAGA GGACGCCGGT GAGAGCCTGA GTCCCTGGAT AGATGTCGGT CAGGTGGAGG GCGCCTTCGT CATGGGCCTG GGCTACTGGC TCAGCGAACT GCTCATCTAC GAGGGCGACA ATGGTCGCCT GCTGACTAAC CGCACATGGA ACTACAAGCC GTTGGGTGCG AAGGACATTC CCATTGATTT CCGCGTGGAA CTGGTCCACA ATCCACGACC GAGTAGTTCG GGTTTCATGG GCTCAAAGGC CACCGGAGAG CCTCCTTGCT GTTTGGCTGT TAGTGTGATT TTTGCACTTC AACAGGCTCT GCAATCAGCG CGCCAGGATG CAGGACTTCC TCGGGAGTGG CTTCGCTTGG GGGCACCCAC AACTCCAGAG ACTCTGCTAC TAAATGCCGG ACACCAAGTC TCGGAGTTCA AGTTGAAATA A |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq |
NP_650478.1 |
CDS | 62..3832 |
Translation | |
Target ORF information:
RefSeq Version | NM_142221.2 |
Organism | Drosophila melanogaster(fruit fly) |
Definition | Drosophila melanogaster aldehyde oxidase 4 (AOX4), partial mRNA. |
Target ORF information:
Epitope | DYKDDDDK |
Bacterial selection | AMPR |
Mammalian selection | NeoR |
Vector | pcDNA3.1+/C-(K)DYK |
|
NM_142221.2 |
ORF Insert Sequence:
1 61 121 181 241 301 361 421 481 541 601 661 721 781 841 901 961 1021 1081 1141 1201 1261 1321 1381 1441 1501 1561 1621 1681 1741 1801 1861 1921 1981 2041 2101 2161 2221 2281 2341 2401 2461 2521 2581 2641 2701 2761 2821 2881 2941 3001 3061 3121 3181 3241 3301 3361 3421 3481 3541 3601 3661 3721
| ATGTCGACCA CATTTACCAT AAATGGACAA CCGTATGCAG TTAACCTTAC CGACCTCCCA CCGGACATAA CTCTGAACAC CTTCATCCGG GAACACGCCC AACTGACGGC CACGAAGTTT ATGTGCCTGG AGGGAGGATG TGGAGCTTGT GTTTGCGCAG TGAGCGATGG GAAGAGCACC TGGACAGTGA ACTCGTGTCT CAAGCTGCTG AATACCTGTG CCCAGCTGGA GATTATTACG TGCGAGGGAC TGGGTAACCA GGTAACGGGC TACCATCCGA TTCAGAAGCG GCTGGCCAAG ATGAACGGCA CCCAGTGCGG CTTTTGCTCG CCGGGATTCG TGATGAACAT GTATGGGTTG ATGGAACAGC ATGGCGGCAG AGTGACCATG GAGGAGGTGG AGAACTCCTT CGGCGGAAAC ATTTGTCGCT GCACTGGATA TCGTCCCATT CTGGATGCCA TGAAGTCCTT TGCGGTGGAC AGCACCGTTG AGGTTTCCGA AGAGAGCGTT GATATTGAGG ATCTCAATCT GAAGGCTCGA AACTGTCCAA GATCGGGAAA AGTCTGCAAG GGTACATGTC GGCAATCCAA ACTAATCTAC GAGGATGGAT CCCAGTGGTA CTGGCCAAGC ACACTGGCGG AAATATTCGA GGCACTAGAA AATGTGGGGG ATTCGGAAGA GTTCATGCTG GTTGGAGGTA ATACGGCTCA TGGGGTCTAC AGGAGATCCC CCGACATAAA GCATTTCATT GATGTGAATG GTGTGGAGGA TTTGCATCAG TACAGCTCAG ATAAGGAAAA ACTAACCTTG GGCGCTAGTC TCAGTTTGAC CGAAACGATG GAAATAATAC AAAGCACTTC GAAGCAATCA GGATTTGAGT ATCTTGAGGT CCTGTGGCAC CACATCGACC TTGTCGCCAA TGTTCCTGTT CGAAATTCTG GCACTTTGGC AGGCAATATT TGTACCAAAA AGGAACATCC CGAGTTTCCA TCCGATATAT TTATATCCTT TGAAGCTCTG GATGTCAAGG TTGTTGCAAT GAAAGGCATC GACGATGAAA AAGAAATGAC TTTAGAGGAA TTTTTGGGTG ATACGGATAG AAAAATGCTG CTCAAGGCCT TCATTCTCCC TAGATACCCC AAGGATATGT ATATTTACGA CTCCTTCAAG ATCATGCCAA GAGCGCAAAA TGCTCATGCT TATGTTAATG CAGGATTTCT TCTGGAATTG GATGGCAACT CAATGGTGAA ATCTGCCCGT ATTTGCTTTG GTGGAATTCG ACCGGATTTC ATTCATGCCA CAGATATTGA ACAGTTAATG GTGGGTCACA GTCCCTACGA ATCAAATTTG GTGGAACAAA CATTCAACAA GCTGGAGAGT CTGGTCAAGC CGGATGAGGT TCTACCCGAT GCCAGTCCCG CCTACCGTTC CAAATTGGCC TGCGGACTGC TCTACAAGTT CCTCTTGAAA CACGCCCCCG ATGCGGAGGT CAGCGGAAAG TTCAAGAGCG GCGGTGAGCT GCTCCAGCGG CCACTCTCCT CCGGCTTGCA GCTCTTCCAG ACCAATAAAC AGACCTACCC CGTGACACAG GGCGTGCAGA AGCTGGAGGG CATGATTCAG TGCTCCGGAG AGGCCACATA TATGAACGAT GTGCTGACCA CTTCCAACTC CGTTTACTGC GCCTTTGTGG GCGCCACAAA GGTGGGAGCC ACCATTGATC AAATCGATGC TACGGAAGCT CTCCAACATC CAGGAGTGGT GGCCTTTTAC ACTGCGAAGG ACATTCCCGG AACGAATACT TTCTGTGAGC CCAGTTTTGG TTACGAAGCG GAGGAGATTT TCTGCTCTGG AATGGTGCGC CACTCGGAAC AACCAGTGGG TGTAATCGTG GCTCTTACTG CTGACCAAGC CCAAAGGGCA ACAAAGCTTG TCAAGATCAG CTATAGCAGC CCCAGTTCCA ACTTCAAGCT GATGCCGAGT TTGAAGGATG TGTTCTCCTC CGAAACTCCA GATACTTCTC GCATTATACC CTTGGTTATA TCAAAGCTTA AGGAAGTAAA GTTTTCTGAC AAACCTGATT TGGAAGTGAG GGGCATATTC GAGATGGGAC TGCAGTATCA CTTCACCATG GAACCGCAGA CCACTATTAT TATTCCCTTT GAAGATGGAC TAAAGGTCTT CTCGGCTACC CAATGGATTG ATCAGACTCA ATCAGTGATT GCTCATACCC TGCAGATGAA AGCCAAAGAT GTGCAACTAG AGGTTCGCAG ATTGGGTGGT GGATATGGCT GCAAAATATC CAGAGGTAAC CAGGTTGCCT GTGCAGCCGC CTTGGCTGCC CATAAGCTGA ATCGTCCCGT TCGCTTTGTC CAATCCCTGG AGTCCATGAT GGATTGCAAT GGAAAGAGGT GGGCCTGTCG TTCCGAATAT CAGTGTCACG TGAAGACCAG TGGCAGGATC GTCGGGCTGT CCAACGATTT TTACGAGGAC GCTGGCTGGA ACACGAACGA GAGTCCTGTG CAAGGACACT CCACTTTCAC AGCAGCCAAC TGCTATGAAT TCACCGATAG CAACTTCAAG CTGAGTGGTC ATGCTGTTCT TACGGATGCC CCAAGTTCCA CTTGGTGCCG TGCTCCTGGA TCAGTGGAGG GCATTGCTAT GATGGAGAAC ATCATCGAGC ACGTGGCATT CGAAATCCAG AAAGACCCAG CCGAAGTGCG ACTAGCAAAC ATTAGTAAGA AGAGTAAGAT GGCAACCGTC TTTCCAGAGT TCCTCAAGAC TAGGGAGTAC TACTCCCGGA AGAAGGAGAT CGAGGCATTC AATGCCAACA ATCGATGGAA AAAAAGAGGC TTGGGTCTCT CCTTGATGAA CTTCCCCATT ATCTACATTG GGCAGTTTCC GGCAACGGTG ACTATTTACC ATGTAGATGG CACTGTTGTG GTTACCCATG GGGGCATAGA AATGGGTCAG GGTATGAATA CAAAGATAGC TCAAGTGGCG GCCTATACCC TGGGAATCGA TTTGAGCTAC GTGAAAGTGG AGTCCTCAAC TAGCATCAAT GGAGCCAATT CAATGGTCAC TGGCTATGCC ATCGGAAGCG AGAGTGTCTG CTACGCAGTC CGTAAGATCT GCGAGACGCT CAATGCCCGA TTGAAGCCAG TGAGGAAGGC CAAGGCCACT TGGGTGGAGA CTGTGGAAGC GGCCAATGCC CAGTTGATCA ATCTGATAGC CTCGGATCAC TACAAGACCG GCGACATGCA GAACTACCAT GTGCTGGGAC TTGCCCTTTC CGAGGTGGAG ATCGATGTGC TGACCGGCAA CATTCTGATC AGGCGGGTGG ACATCCTAGA GGACGCCGGT GAGAGCCTGA GTCCCTGGAT AGATGTCGGT CAGGTGGAGG GCGCCTTCGT CATGGGCCTG GGCTACTGGC TCAGCGAACT GCTCATCTAC GAGGGCGACA ATGGTCGCCT GCTGACTAAC CGCACATGGA ACTACAAGCC GTTGGGTGCG AAGGACATTC CCATTGATTT CCGCGTGGAA CTGGTCCACA ATCCACGACC GAGTAGTTCG GGTTTCATGG GCTCAAAGGC CACCGGAGAG CCTCCTTGCT GTTTGGCTGT TAGTGTGATT TTTGCACTTC AACAGGCTCT GCAATCAGCG CGCCAGGATG CAGGACTTCC TCGGGAGTGG CTTCGCTTGG GGGCACCCAC AACTCCAGAG ACTCTGCTAC TAAATGCCGG ACACCAAGTC TCGGAGTTCA AGTTGAAATA A |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
 |
Gene Model Annotations for Drosophila melanogaster: Impact of High-Throughput Data.
G3 (Bethesda, Md.)5(8)1721-36(2015 Jun)
Matthews BB,Dos Santos G,Crosby MA,Emmert DB,St Pierre SE,Gramates LS,Zhou P,Schroeder AJ,Falls K,Strelets V,Russo SM,Gelbart WM, |
 |
Gene Model Annotations for Drosophila melanogaster: The Rule-Benders.
G3 (Bethesda, Md.)5(8)1737-49(2015 Jun)
Crosby MA,Gramates LS,Dos Santos G,Matthews BB,St Pierre SE,Zhou P,Schroeder AJ,Falls K,Emmert DB,Russo SM,Gelbart WM, |
 |
Sequence finishing and mapping of Drosophila melanogaster heterochromatin.
Science (New York, N.Y.)316(5831)1625-8(2007 Jun)
Hoskins RA,Carlson JW,Kennedy C,Acevedo D,Evans-Holm M,Frise E,Wan KH,Park S,Mendez-Lago M,Rossi F,Villasante A,Dimitri P,Karpen GH,Celniker SE |