The following egfr gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the egfr 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 |
OXa61064 |
Clone ID Related Accession (Same CDS sequence) |
XM_002939914.5
|
Accession Version |
XM_002939914.5 Latest version! |
Documents for ORF clone product in default vector |
Sequence Information |
ORF Nucleotide Sequence (Length: 3633bp)
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 |
epidermal growth factor receptor |
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
On Dec 18, 2019 this sequence version replaced XM_002939914.4.
##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
| ATGGGGTCTT TTAGCCGGAG TGTGGGATTA TATATCTGCG TCTTCTTCGT CAGTCAGTCC TGCTTTTCTC TGGAAGAAAA GAAAGTCTGC CTGGGCAATA ACAACAGATT AAATCAGCTG GGTAACACAG ACGAACACTA TGCCAGCCTT AAAAGGATGT ATGATGGTTG TGAAATTGTG CTTGGTAATC TGGAAATCAC TTATTTAGAC CGCCTGAACG ATACCTCCTT CCTGCGGAAC ATACAAGAAG TAGGAGGTTA TGTGCTCATA GCAATCAACT CTGTTAGATC CATTCATCTT GAAAACCTTC AAATTGTTCG TGGGAATATG TTGTACAAAA GCACATATGC TCTAGCTATA GTGAGTAATG AATCACTGAA TACCACTAAT GCTTTGGAGG AACTGCATAT GGGACGTTTG ACAGAAATTC TTAATGGCGG AGTCCTTATT TCAAAAAATC GGAAACTTTG CTACTTGAAT ACCATCCAGT GGAATGATAT TGTGCATACA GACAATCCCA TCAATAAAAT ATCTGTGGAT AAAAGCTTTT CTCCCCAGTG TCCTAAATGT GATGCAGAAA GCTGCAATGG ATCGTGCTGG GGACCTGGAC AAGGAAACTG TCAGAAATTA ACAAAGCTCA CCTGTGCCCA GCAGTGTTCC GGTCGTTGCA GAGGTCCACT GCCAAGTGAT TGCTGCCACA GCCAATGTGC TTCTGGCTGT ACAGGGCCAA GGGAAAATAA CTGCTTGGCT TGCCGTAAGT TTCGAGATGG TGAGACATGC AAAGAAGGCT GCCCTCAGCT GCAGATATAT AATCCTGCAA CATACCAAAT GGATCTAAAT CCTGATGGAA AGTACAGTTT TGGAGCTTCA TGTGTGAAAA AGTGCCCACA TAACTATGTT GTGACAGATC ATGGATCATG TGTTCGAACT TGCAACTCAG ATTCCCAAGA AGTAGAGGAG AATGGTATCC GAATATGTAA AAAGTGTGAT GGGTCATGTA ATAAAGATAA GGTTTGTGAT GGAATCAACA TGGGAAAGCT GAAAAGTGTC TTGTCAGTAA ACGCCTCAAA TATAGATTTA TTCCAGAACT GTACCAAAGT AAATGGAGAT GTAGCCATTT TACATGTGGC AGGATATGGT GACCCTTTTA CCAACACTAG TAAACTGGAT CCTGCAAAGT TATCTGTATT TAAATCTGTC CGAGAAATAA CAGGTTCCTT ATTGATTCAG TGGTGGCCAG ATAATTACAC AGACCTGAGT GTGTTTGAAA ATCTCGAGAC TATCCGAGGC AGAACAAAGC AGCATGGCAT TTATTCTCTT GCTATTGTGA AAAGATCCAT AACTTCCTTG GGTCTACGAT CGCTCAAAGA AGTGAGTGAT GGAGATGTTA TCATTAAAAC AAACAAAAAT CTCTGCTTTG TTAACACCAT CAACTTTACA AACATCTTTA GAATACCGAA ACAGGCAAGG ATAATTGAAG ACAACAAAAG TCCTGAGCAG TGTGAAAGTG AAGGCAATGT TTGTGATCCT TTGTGCTCTG AGGAGGGATG TTGGGGACCT GGGCCTTTTC AATGTGTTTC CTGCCGTAAA TATATGCGTG GAAGGGAATG TGTAGAAAAC TGCAACTTTC TTAGTGGGGA GCCACGAGAA TACACAGAAG ATGGCAAGTG CTTTGCCTGT AACGCAGAGT GTTTACAGCT GAATGAAACC CAAACTTGCT CGGGTCCTGG TGCAGATGAA TGTTTTAAAT GTGGTCACAA TAGTGATGGT CCATTCTGTG TCAAGACTTG CCCAGCTGGA ATCCAAGGAG AAAATAGCAC TTTAATTTGG AAGTATCCTG ATGAAACAGG AGCATGTCAG CTCTGTCATC CAGAATGCAA ACTGGGATGT GTGGGACATG GCCTAGATGG ATGCCCTCTT CCTTGGTCCA GCCACTCTGT TGCTGCAGGT GTTGTTGGAG GCATTCTTGG AGCTGTCGTG ATTGGACTTG TTGCTTTCTT CTTTATTAGA AGGAGTCGAA TCAATAGGAA ACGAACCCTA CGTAGGATAC TTCAAGAAAG AGAGCTGGTT GAACCTGTCA CCCCCAGTGG AGAGGCACCA AATCAAGCTC TTCTCCGGAT CTTAAAGGAG ACAGAGTTCA AGAAAATAAA AGTTCTTGGC TCTGGGGCGT TTGGGACAGT TTACCAGGGG CTATGGATTC CTGAGGGGGA GGGCATCAAG ATCCCAGTTG CCATTAAGGA GTTGCGAGAA GCCACGTCCC CTAAAGCCAA CAAAGAAATT CTAGATGAAG CATACGTCAT GGCCAGCGTG GAGAATCCCT ATGTTTGCCG TTTGCTAGGA ATCTGCCTGA CCTCCACTGT CCAGCTGATC ACCCAGTTAA TGCCATTTGG TTGCCTCCTC GACTATGTTC GAGATAACAA AGACAACATT GGGTCACAAC ATCTTCTCAA CTGGTGTGTG CAGATTGCCA AGGGAATGAA TTATCTTGAA GAAAGACGTT TGGTGCATCG TGATTTAGCT GCCAGGAATG TTCTAGTTAA AGGCCCACAG CATGTCAAAA TCACAGATTT TGGGCTAGCA AAGCTTCTGG GAGCAGATGA GAAAGCGTAT CATGCAGAAG GGGGCAAAGT GCCTATCAAG TGGATGGCAT TAGAGTCCAT CTTGCACAGA ACCTACACCC ATCAAAGTGA TGTTTGGAGT TATGGGGTCA CAGTTTGGGA ATTAATGACA TTCGGTTTGA AGCCCTATGA TGGAATTCCA GCCAGTGAAA TCTCAAATAT TTTAGAAAAA GGGGAGCGTC TTCCACAGCC TCCAATCTGC ACCATTGATG TCTATATGAT TATGGTGAAA TGCTGGATGA TTGATGCAGA GAGTCGCCCA AAGTTCCGGG AACTGAGCGC TGAATTTACC AAAATGGCTC GTGACCCAAC CCGCTACTTG GTCATACAGG GGGATGATAG AATGCATTTG CCTAGTCCTG TTGAATCCAA GATCCATCCT GCATTGGTTC AAGAGGGTCT GGGTGACATT GTTGATGCTG AAGAGTATCT GTTGCCACAT CAAGGATTCT TCACAAGTCC CTCTAATTCA AGAACACCTT TACTGAGCAC TATGAGTTCT ACTAGCAACA ACTCACCTGT CATCTGTACC ATGCGAAATG GGGGACCACC TGTTAGAGAA GACAGCTTTG TACAAAGATA CAGCACAGAT CCAACAGTCA TTTTGGAAGA CAGCATTGAT GATGAGTTCC TGCCTGTGCC AGAATATGTG AATCAGATGG TTCCAAAACC AATTGTGGAG ACACAGACAA ATGCAGTATA TCAAAATTTG GTTCCACTGG GGAATACTGT GTCTCCTAAA GAGAACCTTT ACCAGAATTC TCACAGCAAT GGCCTTAATA ACCCAGAGTA TCTGAACACA GGCCATACCC TTGTACCCAA AACTGACTTT GACTATTCCT CCATCTGGGA CCAAAAGGCT AACCTTCAGA TTAACCTGGA TAACCCTGAC TATCAACAGG ACTTCTTTCC AAAAGAACCT AAAACCAATG GACATTTTAA AATTCCTGCA GCGCAAAACC CTGAATACTT GGGGTTGGCA CCTGTGAGCG ATTATATTGA AGCTTCAGCA TGA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq |
XP_002939960.3 |
CDS | 22..3654 |
Translation | |
Target ORF information:
RefSeq Version | XM_002939914.5 |
Organism | Xenopus tropicalis(tropical clawed frog) |
Definition | Xenopus tropicalis epidermal growth factor receptor (egfr), mRNA. |
Target ORF information:
Epitope | DYKDDDDK |
Bacterial selection | AMPR |
Mammalian selection | NeoR |
Vector | pcDNA3.1+/C-(K)DYK |
|
XM_002939914.5 |
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
| ATGGGGTCTT TTAGCCGGAG TGTGGGATTA TATATCTGCG TCTTCTTCGT CAGTCAGTCC TGCTTTTCTC TGGAAGAAAA GAAAGTCTGC CTGGGCAATA ACAACAGATT AAATCAGCTG GGTAACACAG ACGAACACTA TGCCAGCCTT AAAAGGATGT ATGATGGTTG TGAAATTGTG CTTGGTAATC TGGAAATCAC TTATTTAGAC CGCCTGAACG ATACCTCCTT CCTGCGGAAC ATACAAGAAG TAGGAGGTTA TGTGCTCATA GCAATCAACT CTGTTAGATC CATTCATCTT GAAAACCTTC AAATTGTTCG TGGGAATATG TTGTACAAAA GCACATATGC TCTAGCTATA GTGAGTAATG AATCACTGAA TACCACTAAT GCTTTGGAGG AACTGCATAT GGGACGTTTG ACAGAAATTC TTAATGGCGG AGTCCTTATT TCAAAAAATC GGAAACTTTG CTACTTGAAT ACCATCCAGT GGAATGATAT TGTGCATACA GACAATCCCA TCAATAAAAT ATCTGTGGAT AAAAGCTTTT CTCCCCAGTG TCCTAAATGT GATGCAGAAA GCTGCAATGG ATCGTGCTGG GGACCTGGAC AAGGAAACTG TCAGAAATTA ACAAAGCTCA CCTGTGCCCA GCAGTGTTCC GGTCGTTGCA GAGGTCCACT GCCAAGTGAT TGCTGCCACA GCCAATGTGC TTCTGGCTGT ACAGGGCCAA GGGAAAATAA CTGCTTGGCT TGCCGTAAGT TTCGAGATGG TGAGACATGC AAAGAAGGCT GCCCTCAGCT GCAGATATAT AATCCTGCAA CATACCAAAT GGATCTAAAT CCTGATGGAA AGTACAGTTT TGGAGCTTCA TGTGTGAAAA AGTGCCCACA TAACTATGTT GTGACAGATC ATGGATCATG TGTTCGAACT TGCAACTCAG ATTCCCAAGA AGTAGAGGAG AATGGTATCC GAATATGTAA AAAGTGTGAT GGGTCATGTA ATAAAGATAA GGTTTGTGAT GGAATCAACA TGGGAAAGCT GAAAAGTGTC TTGTCAGTAA ACGCCTCAAA TATAGATTTA TTCCAGAACT GTACCAAAGT AAATGGAGAT GTAGCCATTT TACATGTGGC AGGATATGGT GACCCTTTTA CCAACACTAG TAAACTGGAT CCTGCAAAGT TATCTGTATT TAAATCTGTC CGAGAAATAA CAGGTTCCTT ATTGATTCAG TGGTGGCCAG ATAATTACAC AGACCTGAGT GTGTTTGAAA ATCTCGAGAC TATCCGAGGC AGAACAAAGC AGCATGGCAT TTATTCTCTT GCTATTGTGA AAAGATCCAT AACTTCCTTG GGTCTACGAT CGCTCAAAGA AGTGAGTGAT GGAGATGTTA TCATTAAAAC AAACAAAAAT CTCTGCTTTG TTAACACCAT CAACTTTACA AACATCTTTA GAATACCGAA ACAGGCAAGG ATAATTGAAG ACAACAAAAG TCCTGAGCAG TGTGAAAGTG AAGGCAATGT TTGTGATCCT TTGTGCTCTG AGGAGGGATG TTGGGGACCT GGGCCTTTTC AATGTGTTTC CTGCCGTAAA TATATGCGTG GAAGGGAATG TGTAGAAAAC TGCAACTTTC TTAGTGGGGA GCCACGAGAA TACACAGAAG ATGGCAAGTG CTTTGCCTGT AACGCAGAGT GTTTACAGCT GAATGAAACC CAAACTTGCT CGGGTCCTGG TGCAGATGAA TGTTTTAAAT GTGGTCACAA TAGTGATGGT CCATTCTGTG TCAAGACTTG CCCAGCTGGA ATCCAAGGAG AAAATAGCAC TTTAATTTGG AAGTATCCTG ATGAAACAGG AGCATGTCAG CTCTGTCATC CAGAATGCAA ACTGGGATGT GTGGGACATG GCCTAGATGG ATGCCCTCTT CCTTGGTCCA GCCACTCTGT TGCTGCAGGT GTTGTTGGAG GCATTCTTGG AGCTGTCGTG ATTGGACTTG TTGCTTTCTT CTTTATTAGA AGGAGTCGAA TCAATAGGAA ACGAACCCTA CGTAGGATAC TTCAAGAAAG AGAGCTGGTT GAACCTGTCA CCCCCAGTGG AGAGGCACCA AATCAAGCTC TTCTCCGGAT CTTAAAGGAG ACAGAGTTCA AGAAAATAAA AGTTCTTGGC TCTGGGGCGT TTGGGACAGT TTACCAGGGG CTATGGATTC CTGAGGGGGA GGGCATCAAG ATCCCAGTTG CCATTAAGGA GTTGCGAGAA GCCACGTCCC CTAAAGCCAA CAAAGAAATT CTAGATGAAG CATACGTCAT GGCCAGCGTG GAGAATCCCT ATGTTTGCCG TTTGCTAGGA ATCTGCCTGA CCTCCACTGT CCAGCTGATC ACCCAGTTAA TGCCATTTGG TTGCCTCCTC GACTATGTTC GAGATAACAA AGACAACATT GGGTCACAAC ATCTTCTCAA CTGGTGTGTG CAGATTGCCA AGGGAATGAA TTATCTTGAA GAAAGACGTT TGGTGCATCG TGATTTAGCT GCCAGGAATG TTCTAGTTAA AGGCCCACAG CATGTCAAAA TCACAGATTT TGGGCTAGCA AAGCTTCTGG GAGCAGATGA GAAAGCGTAT CATGCAGAAG GGGGCAAAGT GCCTATCAAG TGGATGGCAT TAGAGTCCAT CTTGCACAGA ACCTACACCC ATCAAAGTGA TGTTTGGAGT TATGGGGTCA CAGTTTGGGA ATTAATGACA TTCGGTTTGA AGCCCTATGA TGGAATTCCA GCCAGTGAAA TCTCAAATAT TTTAGAAAAA GGGGAGCGTC TTCCACAGCC TCCAATCTGC ACCATTGATG TCTATATGAT TATGGTGAAA TGCTGGATGA TTGATGCAGA GAGTCGCCCA AAGTTCCGGG AACTGAGCGC TGAATTTACC AAAATGGCTC GTGACCCAAC CCGCTACTTG GTCATACAGG GGGATGATAG AATGCATTTG CCTAGTCCTG TTGAATCCAA GATCCATCCT GCATTGGTTC AAGAGGGTCT GGGTGACATT GTTGATGCTG AAGAGTATCT GTTGCCACAT CAAGGATTCT TCACAAGTCC CTCTAATTCA AGAACACCTT TACTGAGCAC TATGAGTTCT ACTAGCAACA ACTCACCTGT CATCTGTACC ATGCGAAATG GGGGACCACC TGTTAGAGAA GACAGCTTTG TACAAAGATA CAGCACAGAT CCAACAGTCA TTTTGGAAGA CAGCATTGAT GATGAGTTCC TGCCTGTGCC AGAATATGTG AATCAGATGG TTCCAAAACC AATTGTGGAG ACACAGACAA ATGCAGTATA TCAAAATTTG GTTCCACTGG GGAATACTGT GTCTCCTAAA GAGAACCTTT ACCAGAATTC TCACAGCAAT GGCCTTAATA ACCCAGAGTA TCTGAACACA GGCCATACCC TTGTACCCAA AACTGACTTT GACTATTCCT CCATCTGGGA CCAAAAGGCT AACCTTCAGA TTAACCTGGA TAACCCTGAC TATCAACAGG ACTTCTTTCC AAAAGAACCT AAAACCAATG GACATTTTAA AATTCCTGCA GCGCAAAACC CTGAATACTT GGGGTTGGCA CCTGTGAGCG ATTATATTGA AGCTTCAGCA TGA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID |
OXa11863 |
Clone ID Related Accession (Same CDS sequence) |
XM_002939914.4
|
Accession Version |
XM_002939914.4 Latest version! |
Documents for ORF clone product in default vector |
Sequence Information |
ORF Nucleotide Sequence (Length: 3633bp)
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 |
epidermal growth factor receptor |
Comment |
Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030682.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process
On Sep 8, 2016 this sequence version replaced XM_002939914.3.
##Genome-Annotation-Data-START##
Annotation Provider :: NCBI
Annotation Status :: Full annotation
Annotation Version :: Xenopus tropicalis Annotation Release 103
Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline
Annotation Software Version :: 7.1
Annotation Method :: Best-placed RefSeq; Gnomon
Features Annotated :: Gene; mRNA; CDS; ncRNA
##Genome-Annotation-Data-END##
|
1 61 121 181 241 301 361 421 481 541 601 661 721 781 841 901 961 1021 1081 1141 1201 1261 1321 1381 1441 1501 1561 1621 1681 1741 1801 1861 1921 1981 2041 2101 2161 2221 2281 2341 2401 2461 2521 2581 2641 2701 2761 2821 2881 2941 3001 3061 3121 3181 3241 3301 3361 3421 3481 3541 3601
| ATGGGGTCTT TTAGCCGGAG TGTGGGATTA TATATCTGCG TCTTCTTCGT CAGTCAGTCC TGCTTTTCTC TGGAAGAAAA GAAAGTCTGC CTGGGCAATA ACAACAGATT AAATCAGCTG GGTAACACAG ACGAACACTA TGCCAGCCTT AAAAGGATGT ATGATGGTTG TGAAATTGTG CTTGGTAATC TGGAAATCAC TTATTTAGAC CGCCTGAACG ATACCTCCTT CCTGCGGAAC ATACAAGAAG TAGGAGGTTA TGTGCTCATA GCAATCAACT CTGTTAGATC CATTCATCTT GAAAACCTTC AAATTGTTCG TGGGAATATG TTGTACAAAA GCACATATGC TCTAGCTATA GTGAGTAATG AATCACTGAA TACCACTAAT GCTTTGGAGG AACTGCATAT GGGACGTTTG ACAGAAATTC TTAATGGCGG AGTCCTTATT TCAAAAAATC GGAAACTTTG CTACTTGAAT ACCATCCAGT GGAATGATAT TGTGCATACA GACAATCCCA TCAATAAAAT ATCTGTGGAT AAAAGCTTTT CTCCCCAATG TCCTAAATGT GATGCAGAAA GCTGCAATGG ATCGTGCTGG GGACCTGGAC AAGGAAACTG TCAGAAATTA ACAAAGCTCA CCTGTGCCCA GCAGTGTTCC GGTCGTTGCA GAGGTCCACT GCCAAGTGAT TGCTGCCACA GCCAATGTGC TTCTGGCTGT ACAGGGCCAA GGGAAAATAA CTGCTTGGCT TGCCGTAAGT TTCGAGATGG TGAGACATGC AAAGAAGGCT GCCCTCAGCT GCAGATATAT AATCCTGCAA CATACCAAAT GGATCTAAAT CCTGATGGAA AGTACAGTTT TGGAGCTTCA TGTGTGAAAA AGTGCCCACA TAACTATGTT GTGACAGATC ATGGATCATG TGTTCGAACT TGCAACTCAG ATTCCCAAGA AGTAGAGGAG AATGGTATCC GAATATGTAA AAAGTGTGAT GGGTCATGTA ATAAAGATAA GGTTTGTGAT GGAATCAACA TGGGAAAGCT GAAAAGTGTC TTGTCAGTAA ACGCCTCAAA TATAGATTTA TTCCAGAACT GTACCAAAGT AAATGGAGAT GTGGCCATTT TACATGTGGC AGGATATGGT GACCCTTTTA CCAACACTAG TAAACTGGAT CCTGCAAAGT TATCTGTATT TAAATCTGTC CGAGAAATAA CAGGTTCCTT ATTGATTCAG TGGTGGCCAG ATAATTACAC AGACCTGAGT GTGTTTGAAA ATCTCGAGAC TATCCGAGGC AGAACAAAGC AGCATGGCAT TTATTCTCTT GCTATTGTGA AAAGATCCAT AACTTCCTTG GGTCTACGAT CGCTCAAAGA AGTGAGTGAT GGAGATGTTA TCATTAAAAC AAACAAAAAT CTCTGCTTTG TTAACACCAT CAACTTTACA AACATCTTTA GAATACCGAA ACAGGCAAGG ATAATTGAAG ACAACAAAAG TCCTGAGCAG TGTGAAAGTG AAGGCAATGT TTGTGATCCT TTGTGCTCTG AGGAGGGATG TTGGGGACCT GGGCCTTTTC AATGTGTTTC CTGCCGTAAA TATATGCGTG GAAGGGAATG TGTAGAAAAC TGCAACTTTC TTAGTGGGGA GCCACGAGAA TACACAGAAG ATGGCAAGTG CTTTGCCTGT AACGCAGAGT GTTTACAGCT GAATGAAACC CAAACTTGCT CGGGTCCTGG TGCAGATGAA TGTTTTAAAT GTGGCCACAA TAGTGATGGT CCATTCTGTG TCAAGACTTG CCCAGCTGGA ATCCAAGGAG AAAATAGCAC TTTAATTTGG AAGTATCCTG ATGAAACAGG AGCATGTCAG CTCTGTCATC CAGAATGCAA ACTGGGATGT GTGGGACATG GCCTAGATGG ATGCCCTCTT CCTTGGTCCA GCCACTCTGT TGCTGCAGGT GTTGTTGGAG GCATTCTTGG AGCTGTCGTG ATTGGACTTG TTGCTTTCTT CTTTATTAGA AGGAGTCGAA TCAATAGGAA ACGAACCCTA CGTAGGATAC TTCAAGAAAG AGAGCTGGTT GAACCTGTCA CCCCCAGTGG AGAGGCACCA AATCAAGCTC TTCTCCGGAT CTTAAAGGAG ACAGAGTTCA AGAAAATAAA AGTTCTTGGC TCTGGGGCGT TTGGGACAGT TTACCAGGGG CTATGGATTC CTGAGGGGGA GGGCATCAAG ATCCCAGTTG CCATTAAGGA GTTGCGAGAA GCCACGTCCC CTAAAGCCAA CAAAGAAATT CTAGATGAAG CATACGTCAT GGCCAGCGTG GAGAATCCCT ATGTTTGCCG TTTGCTAGGA ATCTGCCTGA CCTCCACTGT CCAGCTGATC ACCCAGTTAA TGCCATTTGG TTGCCTCCTC GACTATGTTC GAGATAACAA AGACAACATT GGGTCACAAC ATCTTCTCAA CTGGTGTGTG CAGATTGCCA AGGGAATGAA TTATCTTGAA GAAAGACGTT TGGTGCATCG TGATTTAGCT GCCAGGAATG TTCTAGTTAA AGGCCCACAG CATGTCAAAA TCACAGATTT TGGGCTAGCA AAGCTTCTGG GAGCAGATGA GAAAGCGTAT CATGCAGAAG GGGGCAAAGT GCCTATCAAG TGGATGGCAT TAGAGTCCAT CTTGCACAGA ACCTACACCC ATCAAAGTGA TGTTTGGAGT TATGGGGTCA CAGTTTGGGA ATTAATGACA TTCGGTTTGA AGCCCTATGA TGGAATTCCA GCCAGTGAAA TCTCAAATAT TTTAGAAAAA GGGGAGCGTC TTCCACAGCC TCCAATCTGC ACCATTGATG TCTATATGAT TATGGTGAAA TGCTGGATGA TTGATGCAGA GAGTCGCCCA AAGTTCCGGG AACTGAGCGC TGAATTTACC AAAATGGCTC GTGACCCAAC CCGCTACTTG GTCATACAGG GGGATGATAG AATGCATTTG CCTAGTCCTG TTGAATCCAA GATCCATCCT GCATTGGTTC AAGAGGGTCT GGGTGACATT GTTGATGCTG AAGAGTATCT GTTGCCACAT CAAGGATTCT TCACAAGTCC CTCTAATTCA AGAACACCTT TACTGAGCAC TATGAGTTCT ACTAGCAACA ACTCACCTGT CATCTGTACC ATGCGAAATG GGGGACCACC TGTTAGAGAA GACAGCTTTG TACAAAGATA CAGCACAGAT CCAACAGTCA TTTTGGAAGA CAGCATTGAT GATGAGTTCC TGCCTGTGCC AGAATATGTG AATCAGATGG TTCCAAAACC AATTGTGGAG ACACAGACAA ATGCAGTATA TCAAAATTTG GTTCCACTGG GGAATACTGT GTCTCCTAAA GAGACCCTTT ACCAGAATTC TCACAGCAAT GGCCTTAATA ACCCAGAGTA TCTGAACACA GGCCATACCC TTGTACCCAA AACTGACTTT GACTATTCCT CCATCTGGGA CCAAAAGGCT AACCTTCAGA TTAACCTGGA TAACCCTGAC TATCAACAGG ACTTCTTTCC AAAAGAACCT AAAACCAATG GACATTTTAA AATTCCTGCA GCGCAAAACC CTGAATACTT GGGGTTGGCA CCTGTGAGCG ATTATATTGA AGCTTCAGCA TGA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq |
XP_002939960.2 |
CDS | 26..3658 |
Translation | |
Target ORF information:
RefSeq Version | XM_002939914.4 |
Organism | Xenopus tropicalis(tropical clawed frog) |
Definition | Xenopus tropicalis epidermal growth factor receptor (egfr), mRNA. |
Target ORF information:
Epitope | DYKDDDDK |
Bacterial selection | AMPR |
Mammalian selection | NeoR |
Vector | pcDNA3.1+/C-(K)DYK |
|
XM_002939914.4 |
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
| ATGGGGTCTT TTAGCCGGAG TGTGGGATTA TATATCTGCG TCTTCTTCGT CAGTCAGTCC TGCTTTTCTC TGGAAGAAAA GAAAGTCTGC CTGGGCAATA ACAACAGATT AAATCAGCTG GGTAACACAG ACGAACACTA TGCCAGCCTT AAAAGGATGT ATGATGGTTG TGAAATTGTG CTTGGTAATC TGGAAATCAC TTATTTAGAC CGCCTGAACG ATACCTCCTT CCTGCGGAAC ATACAAGAAG TAGGAGGTTA TGTGCTCATA GCAATCAACT CTGTTAGATC CATTCATCTT GAAAACCTTC AAATTGTTCG TGGGAATATG TTGTACAAAA GCACATATGC TCTAGCTATA GTGAGTAATG AATCACTGAA TACCACTAAT GCTTTGGAGG AACTGCATAT GGGACGTTTG ACAGAAATTC TTAATGGCGG AGTCCTTATT TCAAAAAATC GGAAACTTTG CTACTTGAAT ACCATCCAGT GGAATGATAT TGTGCATACA GACAATCCCA TCAATAAAAT ATCTGTGGAT AAAAGCTTTT CTCCCCAATG TCCTAAATGT GATGCAGAAA GCTGCAATGG ATCGTGCTGG GGACCTGGAC AAGGAAACTG TCAGAAATTA ACAAAGCTCA CCTGTGCCCA GCAGTGTTCC GGTCGTTGCA GAGGTCCACT GCCAAGTGAT TGCTGCCACA GCCAATGTGC TTCTGGCTGT ACAGGGCCAA GGGAAAATAA CTGCTTGGCT TGCCGTAAGT TTCGAGATGG TGAGACATGC AAAGAAGGCT GCCCTCAGCT GCAGATATAT AATCCTGCAA CATACCAAAT GGATCTAAAT CCTGATGGAA AGTACAGTTT TGGAGCTTCA TGTGTGAAAA AGTGCCCACA TAACTATGTT GTGACAGATC ATGGATCATG TGTTCGAACT TGCAACTCAG ATTCCCAAGA AGTAGAGGAG AATGGTATCC GAATATGTAA AAAGTGTGAT GGGTCATGTA ATAAAGATAA GGTTTGTGAT GGAATCAACA TGGGAAAGCT GAAAAGTGTC TTGTCAGTAA ACGCCTCAAA TATAGATTTA TTCCAGAACT GTACCAAAGT AAATGGAGAT GTGGCCATTT TACATGTGGC AGGATATGGT GACCCTTTTA CCAACACTAG TAAACTGGAT CCTGCAAAGT TATCTGTATT TAAATCTGTC CGAGAAATAA CAGGTTCCTT ATTGATTCAG TGGTGGCCAG ATAATTACAC AGACCTGAGT GTGTTTGAAA ATCTCGAGAC TATCCGAGGC AGAACAAAGC AGCATGGCAT TTATTCTCTT GCTATTGTGA AAAGATCCAT AACTTCCTTG GGTCTACGAT CGCTCAAAGA AGTGAGTGAT GGAGATGTTA TCATTAAAAC AAACAAAAAT CTCTGCTTTG TTAACACCAT CAACTTTACA AACATCTTTA GAATACCGAA ACAGGCAAGG ATAATTGAAG ACAACAAAAG TCCTGAGCAG TGTGAAAGTG AAGGCAATGT TTGTGATCCT TTGTGCTCTG AGGAGGGATG TTGGGGACCT GGGCCTTTTC AATGTGTTTC CTGCCGTAAA TATATGCGTG GAAGGGAATG TGTAGAAAAC TGCAACTTTC TTAGTGGGGA GCCACGAGAA TACACAGAAG ATGGCAAGTG CTTTGCCTGT AACGCAGAGT GTTTACAGCT GAATGAAACC CAAACTTGCT CGGGTCCTGG TGCAGATGAA TGTTTTAAAT GTGGCCACAA TAGTGATGGT CCATTCTGTG TCAAGACTTG CCCAGCTGGA ATCCAAGGAG AAAATAGCAC TTTAATTTGG AAGTATCCTG ATGAAACAGG AGCATGTCAG CTCTGTCATC CAGAATGCAA ACTGGGATGT GTGGGACATG GCCTAGATGG ATGCCCTCTT CCTTGGTCCA GCCACTCTGT TGCTGCAGGT GTTGTTGGAG GCATTCTTGG AGCTGTCGTG ATTGGACTTG TTGCTTTCTT CTTTATTAGA AGGAGTCGAA TCAATAGGAA ACGAACCCTA CGTAGGATAC TTCAAGAAAG AGAGCTGGTT GAACCTGTCA CCCCCAGTGG AGAGGCACCA AATCAAGCTC TTCTCCGGAT CTTAAAGGAG ACAGAGTTCA AGAAAATAAA AGTTCTTGGC TCTGGGGCGT TTGGGACAGT TTACCAGGGG CTATGGATTC CTGAGGGGGA GGGCATCAAG ATCCCAGTTG CCATTAAGGA GTTGCGAGAA GCCACGTCCC CTAAAGCCAA CAAAGAAATT CTAGATGAAG CATACGTCAT GGCCAGCGTG GAGAATCCCT ATGTTTGCCG TTTGCTAGGA ATCTGCCTGA CCTCCACTGT CCAGCTGATC ACCCAGTTAA TGCCATTTGG TTGCCTCCTC GACTATGTTC GAGATAACAA AGACAACATT GGGTCACAAC ATCTTCTCAA CTGGTGTGTG CAGATTGCCA AGGGAATGAA TTATCTTGAA GAAAGACGTT TGGTGCATCG TGATTTAGCT GCCAGGAATG TTCTAGTTAA AGGCCCACAG CATGTCAAAA TCACAGATTT TGGGCTAGCA AAGCTTCTGG GAGCAGATGA GAAAGCGTAT CATGCAGAAG GGGGCAAAGT GCCTATCAAG TGGATGGCAT TAGAGTCCAT CTTGCACAGA ACCTACACCC ATCAAAGTGA TGTTTGGAGT TATGGGGTCA CAGTTTGGGA ATTAATGACA TTCGGTTTGA AGCCCTATGA TGGAATTCCA GCCAGTGAAA TCTCAAATAT TTTAGAAAAA GGGGAGCGTC TTCCACAGCC TCCAATCTGC ACCATTGATG TCTATATGAT TATGGTGAAA TGCTGGATGA TTGATGCAGA GAGTCGCCCA AAGTTCCGGG AACTGAGCGC TGAATTTACC AAAATGGCTC GTGACCCAAC CCGCTACTTG GTCATACAGG GGGATGATAG AATGCATTTG CCTAGTCCTG TTGAATCCAA GATCCATCCT GCATTGGTTC AAGAGGGTCT GGGTGACATT GTTGATGCTG AAGAGTATCT GTTGCCACAT CAAGGATTCT TCACAAGTCC CTCTAATTCA AGAACACCTT TACTGAGCAC TATGAGTTCT ACTAGCAACA ACTCACCTGT CATCTGTACC ATGCGAAATG GGGGACCACC TGTTAGAGAA GACAGCTTTG TACAAAGATA CAGCACAGAT CCAACAGTCA TTTTGGAAGA CAGCATTGAT GATGAGTTCC TGCCTGTGCC AGAATATGTG AATCAGATGG TTCCAAAACC AATTGTGGAG ACACAGACAA ATGCAGTATA TCAAAATTTG GTTCCACTGG GGAATACTGT GTCTCCTAAA GAGACCCTTT ACCAGAATTC TCACAGCAAT GGCCTTAATA ACCCAGAGTA TCTGAACACA GGCCATACCC TTGTACCCAA AACTGACTTT GACTATTCCT CCATCTGGGA CCAAAAGGCT AACCTTCAGA TTAACCTGGA TAACCCTGAC TATCAACAGG ACTTCTTTCC AAAAGAACCT AAAACCAATG GACATTTTAA AATTCCTGCA GCGCAAAACC CTGAATACTT GGGGTTGGCA CCTGTGAGCG ATTATATTGA AGCTTCAGCA TGA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.