The following IGF1R gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the IGF1R 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 |
OTd26767 |
Clone ID Related Accession (Same CDS sequence) |
XM_002199807.3
|
Accession Version |
XM_002199807.3 Latest version! |
Documents for ORF clone product in default vector |
Sequence Information |
ORF Nucleotide Sequence (Length: 4092bp)
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 |
2019-08-08 |
Organism |
Taeniopygia guttata(zebra finch) |
Product |
insulin-like growth factor 1 receptor isoform X1 |
Comment |
Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044222.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process
On Aug 9, 2019 this sequence version replaced XM_002199807.2.
##Genome-Annotation-Data-START##
Annotation Provider :: NCBI
Annotation Status :: Full annotation
Annotation Name :: Taeniopygia guttata Annotation Release 104
Annotation Version :: 104
Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline
Annotation Software Version :: 8.2
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
| ATGAAGTCTG GCGCTGGAGG AGGGTCCCTC GCCGTCGTCT GGGGGTTCCT GCTCGTTTTC GCCGCACTTT GTCTGTGGCC AACAAATGGG GAAATTTGCG GGCCAAACGT CGACATTCGC AATGATATCC ATGAGCTGAA GCGCCTGGAG AACTGCACGG TGATCGAGGG TTTCCTGCAG ATCCTGCTCA TCTCCAAAGC GGAGGATTAC CGCAACTTCC GCTTCCCAAA GCTCACTGTC ATCACTGACT ACTTGCTGCT GTTCCGTGTG GCAGGCTTGG AAAGCCTCAG TGATCTCTTC CCCAACCTCA CAGTCATTCG TGGCAGGAAC CTCTTCTATA ACTATGCCTT GGTGATCTTT GAAATGACGA ATCTTAAGGA GATTGGGCTT CACAACTTGA GGAACATCAC CCGCGGGGCC ATCCGGATCG AGAAGAACTC TGACCTGTGT TACCTCTCCA CAGTGGACTG GTCTCTCATC CTGGATGCAG TGTCCAATAA CTACATCGTT GGGAATAAAC CTCCAAAGGA ATGTGGGGAC TTGTGTCCAG GAACAATGGA AGAGAAGCCA TTGTGTGAGA AGACATCTAT TAACAATGAG TACAACTACC GCTGCTGGAC CACAAACCAC TGCCAGAAAA TGTGCCCCAG CTCGTGTGGG AAGCGAGCCT GCACAGACCA AAACGAGTGT TGCCACCCCG AGTGCCTGGG GAGCTGCACG GCGCCCGACA ACAACACGGC GTGCGTGGCC TGCCGCAACT ACTACTACGA GGGCGTGTGC CTGCCCACCT GCCCCCCCAA CACCTACAAG TTCGAGGGCT GGCGCTGTGT CACCAGGGAG TTCTGCTCCA AAGTCCCCGC CACGGACGCC AGCGAGTACG AGAAGTTCGT GATTCACAAC GACGAGTGCA TGGCCGAGTG TCCCTCGGGC TTCATCCGCA ACGGCAGCCA AAGCATGTTC TGCAGCCCTT GTGAGGGGCC TTGCCCCAAA ATTTGTGAGG ATGGGAAAAC AAAGACCATT GACTCAGTGA CATCAGCACA AATGTTGCAG GGATGCACAA TTCTCAAGGG AAATCTGCTG ATCAACATCC GCCGTGGCAA TAACATTGCC TCAGAACTGG AGAATTTTAT GGGTCTGATT GAGACAGTAA CAGGGTATGT GAAGATTCGT CATTCCCATG CGTTGGTCTC CCTGTCTTTC CTGAAGAACC TGCGGTACAT TCTGGGAGAG GAACAGGTGG ATGGGAATTA TTCCTTCTAC GTGCTTGACA ACCACAATCT TCAGCAGCTG TGGGACTGGA ACCATCATAA CTTGACAATC AGTGAGGGGA AAATGTACTT TGCATTTAAT CCTAAACTGT GTGTTTCTGA GATTTACCGT ATGGAGGAGG TTTCAGGAAC CAAGGGACGA CAGAGCAAAG GAGATATAAA TCCAAGGAAC AATGGGGAGA GAGCCTCTTG TGAAAGCAAA ATTCTGCATT TTGTTTCCAA CACGACGCTC AAGAACCGGA TTAAACTGAC ATGGGAGCGG TATCGCCCTC CAGATTACAG AGACCTCATC AGCTTCACTG TTTACTACAA AGAGGCACCA TTCAAAAATG TGACAGAGTA TGACGGGCAA GATGCCTGTG GCTCCAATAG CTGGAACATG GTTGATGTTG ACCTGCCACC AAACAAGGAG AACAATCCTG GAATTCTGCT GCAGGGGTTG AAACCTTGGA CTCAGTATGC CATTTATGTC AAGGCTGTTA CCCTCACAAT GATGGAAAAT CATCATATTC ATGGAGCAAA AAGTGAAATT ATATATATTC GAACCAATGC TGCAGTGCCA TCCATTCCCC TGGATGTTAT TTCAGCATCC AACTCCTCAT CCCAGCTGAT TGTGAAATGG AATCCTCCCT CTCTTCCCAA TGGGAACCTC TCCTACTACA TCGTGCGCTG GCAGCAGCAG CCTCAGGACA GTTACCTGTA CAGACACAAT TACTGCTCCA AAGATAAAGT CCCAATTCGA AGATATGCTG ATGGGACCAT TGATACAGAA GAAGCCACTG AGCCCACCAA GCCAGAGGGC TGTGGGGGAG AAAAAGGACC TTGTTGTGCT TGTCCCAAGA CAGAGGCAGA AAAGCAGGCG GAGAAGGAGG AAGCAGAGTA CCGGAAAGTC TTTGAGAACT TCCTTCATAA CTCCATCTTT GTCCCCAGGC CTGACCGTAA GCGGAGGGAC GTGTTCCGAA TCGCCAACGC CACCCTGGCC ACTCGGAGCC GGAACGCGAC CGGGACCGAC CACTTCACCA ACGCCTCTGA CACGGAGGAG AGCGAGGTGG AATATCCCTT CTTTGAGACC AAGGTGGATG GCAAGGAGAG GACTGTGATC TCCCATCTCC AGCCTTTCAC TCTTTACCGC ATCGATATTC ACAGCTGCAA CCACGAGGCC GACACGCTCG GCTGCAGCGC CTCCAACTTC GTGTTTGCCA GAACGATGCC CTCAGAGGGA GCAGACAACA TTCCAGGAAC GGTATCATGG GAAGCAAAAG AGGAAAATAC TGTCTACCTG AAGTGGTTGG AGCCTGCAAA TCCAAATGGG CTGATCCTGA TGTATGAAAT CAAATATGGG CAGCATGGTG AGGAGAAGCG GGAATGTGTT TCCAGACAGG AATACAAGAA ACTTGGAGGA GCTAAACTAA CTCACTTGAA CCCTGGAAAC TATTCTGCCA GAGTTCAGGC CACTTCCTTA GCTGGGAATG GGTCCTGGAC CGAGCCCATC TCTTTCTATG TGCAGCCCAA ATCAGCAAAC TATGGAAACT TCCTGCACTT GGTAATTGTG CTCCCTATTG TTCTGCTGTT CATCCTTGGG GCATTGCTGG TAATGCTCTA TGTCGTTAAC AAAAAGAGGA ACAGTGACAG ACTGGGCAAT GGAGTACTTT ATGCTTCTGT GAACCCTGAG TACTTCAGTG CCTCAGATGT GTATGTTCCT GACGAGTGGG AGGTGCCCCG GGAGAAGATC ACCATGTGTC GGGAGCTTGG GCAAGGCTCC TTTGGAATGG TGTACGAGGG AATAGCCAAG GGAGTGGTGA AGGACGAGCC AGAGACCAGG GTGGCCATCA AGACGGTCAA CGAGTCCGCG AGCATGCGCG AGAGGATCGA GTTCCTGAAC GAGGCCTCGG TGATGAAGGA GTTCAACTGT CACCATGTGG TTCGGCTGCT TGGTGTTGTT TCTCAGGGCC AGCCTACACT GGTTATCATG GAGCTGATGA CACGTGGGGA CCTCAAAAGT TACCTGAGAT CATTGAGGCC AGACACAGAG AACAACCCTG GGCAGGCGCC CCCGACGCTG AAGAAGATGA TCCAGATGGC GGGGGAGATC GCCGACGGCA TGGCCTATCT CAACGCCAAC AAGTTCGTGC ACAGGGACCT CGCCGCCAGG AACTGCATGG TGGCCGAGGA CTTCACAGTC AAAATTGGAG ATTTTGGCAT GACGAGAGAC ATCTACGAGA CAGATTATTA CCGGAAAGGA GGGAAGGGTT TGCTGCCTGT CCGCTGGATG TCCCCGGAGT CGCTGAAAGA TGGAGTCTTC ACAACGCACT CCGACGTCTG GTCCTTCGGC GTGGTGCTGT GGGAGATCGC GACGCTGGCG GAGCAGCCGT ACCAGGGCAT GACCAACGAG CAGGTGCTGC GCTTCGTCAT GGAAGGGGGG CTGCTGGAAA AGCCAGACAA CTGTCCCGAC ATGCTGTTCG AACTGATGCG CATGTGCTGG CAGTACAACC CGAAAATGAG ACCCTCCTTC CTGGAAATCA TCGGTAGCAT CAAAGACGAG CTGGACCCGG CCTTCAAAGA GGTCTCCTTC TTCTACAGTG AAGAGAACAA ACCTCCGGAC ACAGAGGAGC TTGACCTGGA GACTGAAAAC ATGGAGAGCA TTCCTTTAGA CCCCTCCTCC ACCCTGCAAC CCACTGACAA GCACTCAGGA CACAAGGCCG AGAACGGCCC CGGCGTGGTG GTGCTGCGGG CCAGCTTCGA GGAGCGCCAG CCGTACGCAC ACATGAACGG GGGCCGCAAG AACGAGAGGG CCCTGCCGCT GCCCCAGTCC TCGGCCTGCT GA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq |
XP_002199843.1 |
CDS | 880..4971 |
Translation | |
Target ORF information:
RefSeq Version | XM_002199807.3 |
Organism | Taeniopygia guttata(zebra finch) |
Definition | Taeniopygia guttata insulin like growth factor 1 receptor (IGF1R), transcript variant X1, mRNA. |
Target ORF information:
Epitope | DYKDDDDK |
Bacterial selection | AMPR |
Mammalian selection | NeoR |
Vector | pcDNA3.1+/C-(K)DYK |
|
XM_002199807.3 |
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
| ATGAAGTCTG GCGCTGGAGG AGGGTCCCTC GCCGTCGTCT GGGGGTTCCT GCTCGTTTTC GCCGCACTTT GTCTGTGGCC AACAAATGGG GAAATTTGCG GGCCAAACGT CGACATTCGC AATGATATCC ATGAGCTGAA GCGCCTGGAG AACTGCACGG TGATCGAGGG TTTCCTGCAG ATCCTGCTCA TCTCCAAAGC GGAGGATTAC CGCAACTTCC GCTTCCCAAA GCTCACTGTC ATCACTGACT ACTTGCTGCT GTTCCGTGTG GCAGGCTTGG AAAGCCTCAG TGATCTCTTC CCCAACCTCA CAGTCATTCG TGGCAGGAAC CTCTTCTATA ACTATGCCTT GGTGATCTTT GAAATGACGA ATCTTAAGGA GATTGGGCTT CACAACTTGA GGAACATCAC CCGCGGGGCC ATCCGGATCG AGAAGAACTC TGACCTGTGT TACCTCTCCA CAGTGGACTG GTCTCTCATC CTGGATGCAG TGTCCAATAA CTACATCGTT GGGAATAAAC CTCCAAAGGA ATGTGGGGAC TTGTGTCCAG GAACAATGGA AGAGAAGCCA TTGTGTGAGA AGACATCTAT TAACAATGAG TACAACTACC GCTGCTGGAC CACAAACCAC TGCCAGAAAA TGTGCCCCAG CTCGTGTGGG AAGCGAGCCT GCACAGACCA AAACGAGTGT TGCCACCCCG AGTGCCTGGG GAGCTGCACG GCGCCCGACA ACAACACGGC GTGCGTGGCC TGCCGCAACT ACTACTACGA GGGCGTGTGC CTGCCCACCT GCCCCCCCAA CACCTACAAG TTCGAGGGCT GGCGCTGTGT CACCAGGGAG TTCTGCTCCA AAGTCCCCGC CACGGACGCC AGCGAGTACG AGAAGTTCGT GATTCACAAC GACGAGTGCA TGGCCGAGTG TCCCTCGGGC TTCATCCGCA ACGGCAGCCA AAGCATGTTC TGCAGCCCTT GTGAGGGGCC TTGCCCCAAA ATTTGTGAGG ATGGGAAAAC AAAGACCATT GACTCAGTGA CATCAGCACA AATGTTGCAG GGATGCACAA TTCTCAAGGG AAATCTGCTG ATCAACATCC GCCGTGGCAA TAACATTGCC TCAGAACTGG AGAATTTTAT GGGTCTGATT GAGACAGTAA CAGGGTATGT GAAGATTCGT CATTCCCATG CGTTGGTCTC CCTGTCTTTC CTGAAGAACC TGCGGTACAT TCTGGGAGAG GAACAGGTGG ATGGGAATTA TTCCTTCTAC GTGCTTGACA ACCACAATCT TCAGCAGCTG TGGGACTGGA ACCATCATAA CTTGACAATC AGTGAGGGGA AAATGTACTT TGCATTTAAT CCTAAACTGT GTGTTTCTGA GATTTACCGT ATGGAGGAGG TTTCAGGAAC CAAGGGACGA CAGAGCAAAG GAGATATAAA TCCAAGGAAC AATGGGGAGA GAGCCTCTTG TGAAAGCAAA ATTCTGCATT TTGTTTCCAA CACGACGCTC AAGAACCGGA TTAAACTGAC ATGGGAGCGG TATCGCCCTC CAGATTACAG AGACCTCATC AGCTTCACTG TTTACTACAA AGAGGCACCA TTCAAAAATG TGACAGAGTA TGACGGGCAA GATGCCTGTG GCTCCAATAG CTGGAACATG GTTGATGTTG ACCTGCCACC AAACAAGGAG AACAATCCTG GAATTCTGCT GCAGGGGTTG AAACCTTGGA CTCAGTATGC CATTTATGTC AAGGCTGTTA CCCTCACAAT GATGGAAAAT CATCATATTC ATGGAGCAAA AAGTGAAATT ATATATATTC GAACCAATGC TGCAGTGCCA TCCATTCCCC TGGATGTTAT TTCAGCATCC AACTCCTCAT CCCAGCTGAT TGTGAAATGG AATCCTCCCT CTCTTCCCAA TGGGAACCTC TCCTACTACA TCGTGCGCTG GCAGCAGCAG CCTCAGGACA GTTACCTGTA CAGACACAAT TACTGCTCCA AAGATAAAGT CCCAATTCGA AGATATGCTG ATGGGACCAT TGATACAGAA GAAGCCACTG AGCCCACCAA GCCAGAGGGC TGTGGGGGAG AAAAAGGACC TTGTTGTGCT TGTCCCAAGA CAGAGGCAGA AAAGCAGGCG GAGAAGGAGG AAGCAGAGTA CCGGAAAGTC TTTGAGAACT TCCTTCATAA CTCCATCTTT GTCCCCAGGC CTGACCGTAA GCGGAGGGAC GTGTTCCGAA TCGCCAACGC CACCCTGGCC ACTCGGAGCC GGAACGCGAC CGGGACCGAC CACTTCACCA ACGCCTCTGA CACGGAGGAG AGCGAGGTGG AATATCCCTT CTTTGAGACC AAGGTGGATG GCAAGGAGAG GACTGTGATC TCCCATCTCC AGCCTTTCAC TCTTTACCGC ATCGATATTC ACAGCTGCAA CCACGAGGCC GACACGCTCG GCTGCAGCGC CTCCAACTTC GTGTTTGCCA GAACGATGCC CTCAGAGGGA GCAGACAACA TTCCAGGAAC GGTATCATGG GAAGCAAAAG AGGAAAATAC TGTCTACCTG AAGTGGTTGG AGCCTGCAAA TCCAAATGGG CTGATCCTGA TGTATGAAAT CAAATATGGG CAGCATGGTG AGGAGAAGCG GGAATGTGTT TCCAGACAGG AATACAAGAA ACTTGGAGGA GCTAAACTAA CTCACTTGAA CCCTGGAAAC TATTCTGCCA GAGTTCAGGC CACTTCCTTA GCTGGGAATG GGTCCTGGAC CGAGCCCATC TCTTTCTATG TGCAGCCCAA ATCAGCAAAC TATGGAAACT TCCTGCACTT GGTAATTGTG CTCCCTATTG TTCTGCTGTT CATCCTTGGG GCATTGCTGG TAATGCTCTA TGTCGTTAAC AAAAAGAGGA ACAGTGACAG ACTGGGCAAT GGAGTACTTT ATGCTTCTGT GAACCCTGAG TACTTCAGTG CCTCAGATGT GTATGTTCCT GACGAGTGGG AGGTGCCCCG GGAGAAGATC ACCATGTGTC GGGAGCTTGG GCAAGGCTCC TTTGGAATGG TGTACGAGGG AATAGCCAAG GGAGTGGTGA AGGACGAGCC AGAGACCAGG GTGGCCATCA AGACGGTCAA CGAGTCCGCG AGCATGCGCG AGAGGATCGA GTTCCTGAAC GAGGCCTCGG TGATGAAGGA GTTCAACTGT CACCATGTGG TTCGGCTGCT TGGTGTTGTT TCTCAGGGCC AGCCTACACT GGTTATCATG GAGCTGATGA CACGTGGGGA CCTCAAAAGT TACCTGAGAT CATTGAGGCC AGACACAGAG AACAACCCTG GGCAGGCGCC CCCGACGCTG AAGAAGATGA TCCAGATGGC GGGGGAGATC GCCGACGGCA TGGCCTATCT CAACGCCAAC AAGTTCGTGC ACAGGGACCT CGCCGCCAGG AACTGCATGG TGGCCGAGGA CTTCACAGTC AAAATTGGAG ATTTTGGCAT GACGAGAGAC ATCTACGAGA CAGATTATTA CCGGAAAGGA GGGAAGGGTT TGCTGCCTGT CCGCTGGATG TCCCCGGAGT CGCTGAAAGA TGGAGTCTTC ACAACGCACT CCGACGTCTG GTCCTTCGGC GTGGTGCTGT GGGAGATCGC GACGCTGGCG GAGCAGCCGT ACCAGGGCAT GACCAACGAG CAGGTGCTGC GCTTCGTCAT GGAAGGGGGG CTGCTGGAAA AGCCAGACAA CTGTCCCGAC ATGCTGTTCG AACTGATGCG CATGTGCTGG CAGTACAACC CGAAAATGAG ACCCTCCTTC CTGGAAATCA TCGGTAGCAT CAAAGACGAG CTGGACCCGG CCTTCAAAGA GGTCTCCTTC TTCTACAGTG AAGAGAACAA ACCTCCGGAC ACAGAGGAGC TTGACCTGGA GACTGAAAAC ATGGAGAGCA TTCCTTTAGA CCCCTCCTCC ACCCTGCAAC CCACTGACAA GCACTCAGGA CACAAGGCCG AGAACGGCCC CGGCGTGGTG GTGCTGCGGG CCAGCTTCGA GGAGCGCCAG CCGTACGCAC ACATGAACGG GGGCCGCAAG AACGAGAGGG CCCTGCCGCT GCCCCAGTCC TCGGCCTGCT GA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID |
OTd26768 |
Clone ID Related Accession (Same CDS sequence) |
XM_030281623.1
|
Accession Version |
XM_030281623.1 Latest version! |
Documents for ORF clone product in default vector |
Sequence Information |
ORF Nucleotide Sequence (Length: 4089bp)
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 |
2019-08-08 |
Organism |
Taeniopygia guttata(zebra finch) |
Product |
insulin-like growth factor 1 receptor isoform X2 |
Comment |
Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044222.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process
##Genome-Annotation-Data-START##
Annotation Provider :: NCBI
Annotation Status :: Full annotation
Annotation Name :: Taeniopygia guttata Annotation Release 104
Annotation Version :: 104
Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline
Annotation Software Version :: 8.2
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
| ATGAAGTCTG GCGCTGGAGG AGGGTCCCTC GCCGTCGTCT GGGGGTTCCT GCTCGTTTTC GCCGCACTTT GTCTGTGGCC AACAAATGGG GAAATTTGCG GGCCAAACGT CGACATTCGC AATGATATCC ATGAGCTGAA GCGCCTGGAG AACTGCACGG TGATCGAGGG TTTCCTGCAG ATCCTGCTCA TCTCCAAAGC GGAGGATTAC CGCAACTTCC GCTTCCCAAA GCTCACTGTC ATCACTGACT ACTTGCTGCT GTTCCGTGTG GCAGGCTTGG AAAGCCTCAG TGATCTCTTC CCCAACCTCA CAGTCATTCG TGGCAGGAAC CTCTTCTATA ACTATGCCTT GGTGATCTTT GAAATGACGA ATCTTAAGGA GATTGGGCTT CACAACTTGA GGAACATCAC CCGCGGGGCC ATCCGGATCG AGAAGAACTC TGACCTGTGT TACCTCTCCA CAGTGGACTG GTCTCTCATC CTGGATGCAG TGTCCAATAA CTACATCGTT GGGAATAAAC CTCCAAAGGA ATGTGGGGAC TTGTGTCCAG GAACAATGGA AGAGAAGCCA TTGTGTGAGA AGACATCTAT TAACAATGAG TACAACTACC GCTGCTGGAC CACAAACCAC TGCCAGAAAA TGTGCCCCAG CTCGTGTGGG AAGCGAGCCT GCACAGACCA AAACGAGTGT TGCCACCCCG AGTGCCTGGG GAGCTGCACG GCGCCCGACA ACAACACGGC GTGCGTGGCC TGCCGCAACT ACTACTACGA GGGCGTGTGC CTGCCCACCT GCCCCCCCAA CACCTACAAG TTCGAGGGCT GGCGCTGTGT CACCAGGGAG TTCTGCTCCA AAGTCCCCGC CACGGACGCC AGCGAGTACG AGAAGTTCGT GATTCACAAC GACGAGTGCA TGGCCGAGTG TCCCTCGGGC TTCATCCGCA ACGGCAGCCA AAGCATGTTC TGCAGCCCTT GTGAGGGGCC TTGCCCCAAA ATTTGTGAGG ATGGGAAAAC AAAGACCATT GACTCAGTGA CATCAGCACA AATGTTGCAG GGATGCACAA TTCTCAAGGG AAATCTGCTG ATCAACATCC GCCGTGGCAA TAACATTGCC TCAGAACTGG AGAATTTTAT GGGTCTGATT GAGACAGTAA CAGGGTATGT GAAGATTCGT CATTCCCATG CGTTGGTCTC CCTGTCTTTC CTGAAGAACC TGCGGTACAT TCTGGGAGAG GAACAGGTGG ATGGGAATTA TTCCTTCTAC GTGCTTGACA ACCACAATCT TCAGCAGCTG TGGGACTGGA ACCATCATAA CTTGACAATC AGTGAGGGGA AAATGTACTT TGCATTTAAT CCTAAACTGT GTGTTTCTGA GATTTACCGT ATGGAGGAGG TTTCAGGAAC CAAGGGACGA CAGAGCAAAG GAGATATAAA TCCAAGGAAC AATGGGGAGA GAGCCTCTTG TGAAAGCAAA ATTCTGCATT TTGTTTCCAA CACGACGCTC AAGAACCGGA TTAAACTGAC ATGGGAGCGG TATCGCCCTC CAGATTACAG AGACCTCATC AGCTTCACTG TTTACTACAA AGAGGCACCA TTCAAAAATG TGACAGAGTA TGACGGGCAA GATGCCTGTG GCTCCAATAG CTGGAACATG GTTGATGTTG ACCTGCCACC AAACAAGGAG AACAATCCTG GAATTCTGCT GCAGGGGTTG AAACCTTGGA CTCAGTATGC CATTTATGTC AAGGCTGTTA CCCTCACAAT GATGGAAAAT CATCATATTC ATGGAGCAAA AAGTGAAATT ATATATATTC GAACCAATGC TGCAGTGCCA TCCATTCCCC TGGATGTTAT TTCAGCATCC AACTCCTCAT CCCAGCTGAT TGTGAAATGG AATCCTCCCT CTCTTCCCAA TGGGAACCTC TCCTACTACA TCGTGCGCTG GCAGCAGCAG CCTCAGGACA GTTACCTGTA CAGACACAAT TACTGCTCCA AAGATAAAGT CCCAATTCGA AGATATGCTG ATGGGACCAT TGATACAGAA GAAGCCACTG AGCCCACCAA GCCAGAGGGC TGTGGGGGAG AAAAAGGACC TTGTTGTGCT TGTCCCAAGA CAGAGGCAGA AAAGCAGGCG GAGAAGGAGG AAGCAGAGTA CCGGAAAGTC TTTGAGAACT TCCTTCATAA CTCCATCTTT GTCCCCAGGC CTGACCGTAA GCGGAGGGAC GTGTTCCGAA TCGCCAACGC CACCCTGGCC ACTCGGAGCC GGAACGCGAC CGGGACCGAC CACTTCACCA ACGCCTCTGA CACGGAGGAG AGCGAGGTGG AATATCCCTT CTTTGAGACC AAGGTGGATG GCAAGGAGAG GACTGTGATC TCCCATCTCC AGCCTTTCAC TCTTTACCGC ATCGATATTC ACAGCTGCAA CCACGAGGCC GACACGCTCG GCTGCAGCGC CTCCAACTTC GTGTTTGCCA GAACGATGCC CTCAGAGGGA GCAGACAACA TTCCAGGAAC GGTATCATGG GAAGCAAAAG AGGAAAATAC TGTCTACCTG AAGTGGTTGG AGCCTGCAAA TCCAAATGGG CTGATCCTGA TGTATGAAAT CAAATATGGG CAGCATGGTG AGGAGAAGCG GGAATGTGTT TCCAGACAGG AATACAAGAA ACTTGGAGGA GCTAAACTAA CTCACTTGAA CCCTGGAAAC TATTCTGCCA GAGTTCAGGC CACTTCCTTA GCTGGGAATG GGTCCTGGAC CGAGCCCATC TCTTTCTATG TGCAGCCCAA ATCAAACTAT GGAAACTTCC TGCACTTGGT AATTGTGCTC CCTATTGTTC TGCTGTTCAT CCTTGGGGCA TTGCTGGTAA TGCTCTATGT CGTTAACAAA AAGAGGAACA GTGACAGACT GGGCAATGGA GTACTTTATG CTTCTGTGAA CCCTGAGTAC TTCAGTGCCT CAGATGTGTA TGTTCCTGAC GAGTGGGAGG TGCCCCGGGA GAAGATCACC ATGTGTCGGG AGCTTGGGCA AGGCTCCTTT GGAATGGTGT ACGAGGGAAT AGCCAAGGGA GTGGTGAAGG ACGAGCCAGA GACCAGGGTG GCCATCAAGA CGGTCAACGA GTCCGCGAGC ATGCGCGAGA GGATCGAGTT CCTGAACGAG GCCTCGGTGA TGAAGGAGTT CAACTGTCAC CATGTGGTTC GGCTGCTTGG TGTTGTTTCT CAGGGCCAGC CTACACTGGT TATCATGGAG CTGATGACAC GTGGGGACCT CAAAAGTTAC CTGAGATCAT TGAGGCCAGA CACAGAGAAC AACCCTGGGC AGGCGCCCCC GACGCTGAAG AAGATGATCC AGATGGCGGG GGAGATCGCC GACGGCATGG CCTATCTCAA CGCCAACAAG TTCGTGCACA GGGACCTCGC CGCCAGGAAC TGCATGGTGG CCGAGGACTT CACAGTCAAA ATTGGAGATT TTGGCATGAC GAGAGACATC TACGAGACAG ATTATTACCG GAAAGGAGGG AAGGGTTTGC TGCCTGTCCG CTGGATGTCC CCGGAGTCGC TGAAAGATGG AGTCTTCACA ACGCACTCCG ACGTCTGGTC CTTCGGCGTG GTGCTGTGGG AGATCGCGAC GCTGGCGGAG CAGCCGTACC AGGGCATGAC CAACGAGCAG GTGCTGCGCT TCGTCATGGA AGGGGGGCTG CTGGAAAAGC CAGACAACTG TCCCGACATG CTGTTCGAAC TGATGCGCAT GTGCTGGCAG TACAACCCGA AAATGAGACC CTCCTTCCTG GAAATCATCG GTAGCATCAA AGACGAGCTG GACCCGGCCT TCAAAGAGGT CTCCTTCTTC TACAGTGAAG AGAACAAACC TCCGGACACA GAGGAGCTTG ACCTGGAGAC TGAAAACATG GAGAGCATTC CTTTAGACCC CTCCTCCACC CTGCAACCCA CTGACAAGCA CTCAGGACAC AAGGCCGAGA ACGGCCCCGG CGTGGTGGTG CTGCGGGCCA GCTTCGAGGA GCGCCAGCCG TACGCACACA TGAACGGGGG CCGCAAGAAC GAGAGGGCCC TGCCGCTGCC CCAGTCCTCG GCCTGCTGA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq |
XP_030137483.1 |
CDS | 250..4338 |
Translation | |
Target ORF information:
RefSeq Version | XM_030281623.1 |
Organism | Taeniopygia guttata(zebra finch) |
Definition | Taeniopygia guttata insulin like growth factor 1 receptor (IGF1R), transcript variant X2, mRNA. |
Target ORF information:
Epitope | DYKDDDDK |
Bacterial selection | AMPR |
Mammalian selection | NeoR |
Vector | pcDNA3.1+/C-(K)DYK |
|
XM_030281623.1 |
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
| ATGAAGTCTG GCGCTGGAGG AGGGTCCCTC GCCGTCGTCT GGGGGTTCCT GCTCGTTTTC GCCGCACTTT GTCTGTGGCC AACAAATGGG GAAATTTGCG GGCCAAACGT CGACATTCGC AATGATATCC ATGAGCTGAA GCGCCTGGAG AACTGCACGG TGATCGAGGG TTTCCTGCAG ATCCTGCTCA TCTCCAAAGC GGAGGATTAC CGCAACTTCC GCTTCCCAAA GCTCACTGTC ATCACTGACT ACTTGCTGCT GTTCCGTGTG GCAGGCTTGG AAAGCCTCAG TGATCTCTTC CCCAACCTCA CAGTCATTCG TGGCAGGAAC CTCTTCTATA ACTATGCCTT GGTGATCTTT GAAATGACGA ATCTTAAGGA GATTGGGCTT CACAACTTGA GGAACATCAC CCGCGGGGCC ATCCGGATCG AGAAGAACTC TGACCTGTGT TACCTCTCCA CAGTGGACTG GTCTCTCATC CTGGATGCAG TGTCCAATAA CTACATCGTT GGGAATAAAC CTCCAAAGGA ATGTGGGGAC TTGTGTCCAG GAACAATGGA AGAGAAGCCA TTGTGTGAGA AGACATCTAT TAACAATGAG TACAACTACC GCTGCTGGAC CACAAACCAC TGCCAGAAAA TGTGCCCCAG CTCGTGTGGG AAGCGAGCCT GCACAGACCA AAACGAGTGT TGCCACCCCG AGTGCCTGGG GAGCTGCACG GCGCCCGACA ACAACACGGC GTGCGTGGCC TGCCGCAACT ACTACTACGA GGGCGTGTGC CTGCCCACCT GCCCCCCCAA CACCTACAAG TTCGAGGGCT GGCGCTGTGT CACCAGGGAG TTCTGCTCCA AAGTCCCCGC CACGGACGCC AGCGAGTACG AGAAGTTCGT GATTCACAAC GACGAGTGCA TGGCCGAGTG TCCCTCGGGC TTCATCCGCA ACGGCAGCCA AAGCATGTTC TGCAGCCCTT GTGAGGGGCC TTGCCCCAAA ATTTGTGAGG ATGGGAAAAC AAAGACCATT GACTCAGTGA CATCAGCACA AATGTTGCAG GGATGCACAA TTCTCAAGGG AAATCTGCTG ATCAACATCC GCCGTGGCAA TAACATTGCC TCAGAACTGG AGAATTTTAT GGGTCTGATT GAGACAGTAA CAGGGTATGT GAAGATTCGT CATTCCCATG CGTTGGTCTC CCTGTCTTTC CTGAAGAACC TGCGGTACAT TCTGGGAGAG GAACAGGTGG ATGGGAATTA TTCCTTCTAC GTGCTTGACA ACCACAATCT TCAGCAGCTG TGGGACTGGA ACCATCATAA CTTGACAATC AGTGAGGGGA AAATGTACTT TGCATTTAAT CCTAAACTGT GTGTTTCTGA GATTTACCGT ATGGAGGAGG TTTCAGGAAC CAAGGGACGA CAGAGCAAAG GAGATATAAA TCCAAGGAAC AATGGGGAGA GAGCCTCTTG TGAAAGCAAA ATTCTGCATT TTGTTTCCAA CACGACGCTC AAGAACCGGA TTAAACTGAC ATGGGAGCGG TATCGCCCTC CAGATTACAG AGACCTCATC AGCTTCACTG TTTACTACAA AGAGGCACCA TTCAAAAATG TGACAGAGTA TGACGGGCAA GATGCCTGTG GCTCCAATAG CTGGAACATG GTTGATGTTG ACCTGCCACC AAACAAGGAG AACAATCCTG GAATTCTGCT GCAGGGGTTG AAACCTTGGA CTCAGTATGC CATTTATGTC AAGGCTGTTA CCCTCACAAT GATGGAAAAT CATCATATTC ATGGAGCAAA AAGTGAAATT ATATATATTC GAACCAATGC TGCAGTGCCA TCCATTCCCC TGGATGTTAT TTCAGCATCC AACTCCTCAT CCCAGCTGAT TGTGAAATGG AATCCTCCCT CTCTTCCCAA TGGGAACCTC TCCTACTACA TCGTGCGCTG GCAGCAGCAG CCTCAGGACA GTTACCTGTA CAGACACAAT TACTGCTCCA AAGATAAAGT CCCAATTCGA AGATATGCTG ATGGGACCAT TGATACAGAA GAAGCCACTG AGCCCACCAA GCCAGAGGGC TGTGGGGGAG AAAAAGGACC TTGTTGTGCT TGTCCCAAGA CAGAGGCAGA AAAGCAGGCG GAGAAGGAGG AAGCAGAGTA CCGGAAAGTC TTTGAGAACT TCCTTCATAA CTCCATCTTT GTCCCCAGGC CTGACCGTAA GCGGAGGGAC GTGTTCCGAA TCGCCAACGC CACCCTGGCC ACTCGGAGCC GGAACGCGAC CGGGACCGAC CACTTCACCA ACGCCTCTGA CACGGAGGAG AGCGAGGTGG AATATCCCTT CTTTGAGACC AAGGTGGATG GCAAGGAGAG GACTGTGATC TCCCATCTCC AGCCTTTCAC TCTTTACCGC ATCGATATTC ACAGCTGCAA CCACGAGGCC GACACGCTCG GCTGCAGCGC CTCCAACTTC GTGTTTGCCA GAACGATGCC CTCAGAGGGA GCAGACAACA TTCCAGGAAC GGTATCATGG GAAGCAAAAG AGGAAAATAC TGTCTACCTG AAGTGGTTGG AGCCTGCAAA TCCAAATGGG CTGATCCTGA TGTATGAAAT CAAATATGGG CAGCATGGTG AGGAGAAGCG GGAATGTGTT TCCAGACAGG AATACAAGAA ACTTGGAGGA GCTAAACTAA CTCACTTGAA CCCTGGAAAC TATTCTGCCA GAGTTCAGGC CACTTCCTTA GCTGGGAATG GGTCCTGGAC CGAGCCCATC TCTTTCTATG TGCAGCCCAA ATCAAACTAT GGAAACTTCC TGCACTTGGT AATTGTGCTC CCTATTGTTC TGCTGTTCAT CCTTGGGGCA TTGCTGGTAA TGCTCTATGT CGTTAACAAA AAGAGGAACA GTGACAGACT GGGCAATGGA GTACTTTATG CTTCTGTGAA CCCTGAGTAC TTCAGTGCCT CAGATGTGTA TGTTCCTGAC GAGTGGGAGG TGCCCCGGGA GAAGATCACC ATGTGTCGGG AGCTTGGGCA AGGCTCCTTT GGAATGGTGT ACGAGGGAAT AGCCAAGGGA GTGGTGAAGG ACGAGCCAGA GACCAGGGTG GCCATCAAGA CGGTCAACGA GTCCGCGAGC ATGCGCGAGA GGATCGAGTT CCTGAACGAG GCCTCGGTGA TGAAGGAGTT CAACTGTCAC CATGTGGTTC GGCTGCTTGG TGTTGTTTCT CAGGGCCAGC CTACACTGGT TATCATGGAG CTGATGACAC GTGGGGACCT CAAAAGTTAC CTGAGATCAT TGAGGCCAGA CACAGAGAAC AACCCTGGGC AGGCGCCCCC GACGCTGAAG AAGATGATCC AGATGGCGGG GGAGATCGCC GACGGCATGG CCTATCTCAA CGCCAACAAG TTCGTGCACA GGGACCTCGC CGCCAGGAAC TGCATGGTGG CCGAGGACTT CACAGTCAAA ATTGGAGATT TTGGCATGAC GAGAGACATC TACGAGACAG ATTATTACCG GAAAGGAGGG AAGGGTTTGC TGCCTGTCCG CTGGATGTCC CCGGAGTCGC TGAAAGATGG AGTCTTCACA ACGCACTCCG ACGTCTGGTC CTTCGGCGTG GTGCTGTGGG AGATCGCGAC GCTGGCGGAG CAGCCGTACC AGGGCATGAC CAACGAGCAG GTGCTGCGCT TCGTCATGGA AGGGGGGCTG CTGGAAAAGC CAGACAACTG TCCCGACATG CTGTTCGAAC TGATGCGCAT GTGCTGGCAG TACAACCCGA AAATGAGACC CTCCTTCCTG GAAATCATCG GTAGCATCAA AGACGAGCTG GACCCGGCCT TCAAAGAGGT CTCCTTCTTC TACAGTGAAG AGAACAAACC TCCGGACACA GAGGAGCTTG ACCTGGAGAC TGAAAACATG GAGAGCATTC CTTTAGACCC CTCCTCCACC CTGCAACCCA CTGACAAGCA CTCAGGACAC AAGGCCGAGA ACGGCCCCGG CGTGGTGGTG CTGCGGGCCA GCTTCGAGGA GCGCCAGCCG TACGCACACA TGAACGGGGG CCGCAAGAAC GAGAGGGCCC TGCCGCTGCC CCAGTCCTCG GCCTGCTGA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID |
OTd26769 |
Clone ID Related Accession (Same CDS sequence) |
XM_030281624.1
|
Accession Version |
XM_030281624.1 Latest version! |
Documents for ORF clone product in default vector |
Sequence Information |
ORF Nucleotide Sequence (Length: 3594bp)
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 |
2019-08-08 |
Organism |
Taeniopygia guttata(zebra finch) |
Product |
insulin-like growth factor 1 receptor isoform X3 |
Comment |
Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044222.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process
##Genome-Annotation-Data-START##
Annotation Provider :: NCBI
Annotation Status :: Full annotation
Annotation Name :: Taeniopygia guttata Annotation Release 104
Annotation Version :: 104
Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline
Annotation Software Version :: 8.2
Annotation Method :: Best-placed RefSeq; Gnomon
Features Annotated :: Gene; mRNA; CDS; ncRNA
##Genome-Annotation-Data-END##
##RefSeq-Attributes-START##
ab initio :: 1% 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
| ATGAAGTCTG GCGCTGGAGG AGGGTCCCTC GCCGTCGTCT GGGGGTTCCT GCTCGTTTTC GCCGCACTTT GTCTGTGGCC AACAAATGGG GAAATTTGCG GGCCAAACGT CGACATTCGC AATGATATCC ATGAGCTGAA GCGCCTGGAG AACTGCACGG TGATCGAGGG TTTCCTGCAG ATCCTGCTCA TCTCCAAAGC GGAGGATTAC CGCAACTTCC GCTTCCCAAA GCTCACTGTC ATCACTGACT ACTTGCTGCT GTTCCGTGTG GCAGGCTTGG AAAGCCTCAG TGATCTCTTC CCCAACCTCA CAGTCATTCG TGGCAGGAAC CTCTTCTATA ACTATGCCTT GGTGATCTTT GAAATGACGA ATCTTAAGGA GATTGGGCTT CACAACTTGA GGAACATCAC CCGCGGGGCC ATCCGGATCG AGAAGAACTC TGACCTGTGT TACCTCTCCA CAGTGGACTG GTCTCTCATC CTGGATGCAG TGTCCAATAA CTACATCGTT GGGAATAAAC CTCCAAAGGA ATGTGGGGAC TTGTGTCCAG GAACAATGGA AGAGAAGCCA TTGTGTGAGA AGACATCTAT TAACAATGAG TACAACTACC GCTGCTGGAC CACAAACCAC TGCCAGAAAA TGTGCCCCAG CTCGTGTGGG AAGCGAGCCT GCACAGACCA AAACGAGTGT TGCCACCCCG AGTGCCTGGG GAGCTGCACG GCGCCCGACA ACAACACGGC GTGCGTGGCC TGCCGCAACT ACTACTACGA GGGCGTGTGC CTGCCCACCT GCCCCCCCAA CACCTACAAG TTCGAGGGCT GGCGCTGTGT CACCAGGGAG TTCTGCTCCA AAGTCCCCGC CACGGACGCC AGCGAGTACG AGAAGTTCGT GATTCACAAC GACGAGTGCA TGGCCGAGTG TCCCTCGGGC TTCATCCGCA ACGGCAGCCA AAGCATGTTC TGCAGCCCTT GTGAGGGGCC TTGCCCCAAA ATTTGTGAGG ATGGGAAAAC AAAGACCATT GACTCAGTGA CATCAGCACA AATGTTGCAG GGATGCACAA TTCTCAAGGG AAATCTGCTG ATCAACATCC GCCGTGGCAA TAACATTGCC TCAGAACTGG AGAATTTTAT GGGTCTGATT GAGACAGTAA CAGGGTATGT GAAGATTCGT CATTCCCATG CGTTGGTCTC CCTGTCTTTC CTGAAGAACC TGCGGTACAT TCTGGGAGAG GAACAGGTGG ATGGGAATTA TTCCTTCTAC GTGCTTGACA ACCACAATCT TCAGCAGCTG TGGGACTGGA ACCATCATAA CTTGACAATC AGTGAGGGGA AAATGTACTT TGCATTTAAT CCTAAACTGT GTGTTTCTGA GATTTACCGT ATGGAGGAGG TTTCAGGAAC CAAGGGACGA CAGAGCAAAG GAGATATAAA TCCAAGGAAC AATGGGGAGA GAGCCTCTTG TGAAAGCAAA ATTCTGCATT TTGTTTCCAA CACGACGCTC AAGAACCGGA TTAAACTGAC ATGGGAGCGG TATCGCCCTC CAGATTACAG AGACCTCATC AGCTTCACTG TTTACTACAA AGAGGCACCA TTCAAAAATG TGACAGAGTA TGACGGGCAA GATGCCTGTG GCTCCAATAG CTGGAACATG GTTGATGTTG ACCTGCCACC AAACAAGGAG AACAATCCTG GAATTCTGCT GCAGGGGTTG AAACCTTGGA CTCAGTATGC CATTTATGTC AAGGCTGTTA CCCTCACAAT GATGGAAAAT CATCATATTC ATGGAGCAAA AAGTGAAATT ATATATATTC GAACCAATGC TGCAGTGCCA TCCATTCCCC TGGATGTTAT TTCAGCATCC AACTCCTCAT CCCAGCTGAT TGTGAAATGG AATCCTCCCT CTCTTCCCAA TGGGAACCTC TCCTACTACA TCGTGCGCTG GCAGCAGCAG CCTCAGGACA GTTACCTGTA CAGACACAAT TACTGCTCCA AAGATAAAGT CCCAATTCGA AGATATGCTG ATGGGACCAT TGATACAGAA GAAGCCACTG AGCCCACCAA GCCAGAGGGC TGTGGGGGAG AAAAAGGACC TTGTTGTGCT TGTCCCAAGA CAGAGGCAGA AAAGCAGGCG GAGAAGGAGG AAGCAGAGTA CCGGAAAGTC TTTGAGAACT TCCTTCATAA CTCCATCTTT GTCCCCAGGC CTGACCGTAA GCGGAGGGAC GTGTTCCGAA TCGCCAACGC CACCCTGGCC ACTCGGAGCC GGAACGCGAC CGGGACCGAC CACTTCACCA ACGCCTCTGA CACGGAGGAG AGCGAGGTGG AATATCCCTT CTTTGAGACC AAGGTGGATG GCAAGGAGAG GACTGTGATC TCCCATCTCC AGCCTTTCAC TCTTTACCGC ATCGATATTC ACAGCTGCAA CCACGAGGCC GACACGCTCG GCTGCAGCGC CTCCAACTTC GTGTTTGCCA GAACGATGCC CTCAGAGGGA GCAGACAACA TTCCAGGAAC GGTATCATGG GAAGCAAAAG AGGAAAATAC TGTCTACCTG AAGTGGTTGG AGCCTGCAAA TCCAAATGGG CTGATCCTGA TGTATGAAAT CAAATATGGG CAGCATGGTG AGGAGAAGCG GGAATGTGTT TCCAGACAGG AATACAAGAA ACTTGGAGGA GCTAAACTAA CTCACTTGAA CCCTGGAAAC TATTCTGCCA GAGTTCAGGC CACTTCCTTA GCTGGGAATG GGTCCTGGAC CGAGCCCATC TCTTTCTATG TGCAGCCCAA ATCAGCAAAC TATGGAAACT TCCTGCACTT GGTAATTGTG CTCCCTATTG TTCTGCTGTT CATCCTTGGG GCATTGCTGG TAATGCTCTA TGTCGTTAAC AAAAAGAGGA ACAGTGACAG ACTGGGCAAT GGAGTACTTT ATGCTTCTGT GAACCCTGAG TACTTCAGTG CCTCAGATGT GTATGTTCCT GACGAGTGGG AGGTGCCCCG GGAGAAGATC ACCATGTGTC GGGAGCTTGG GCAAGGCTCC TTTGGAATGG TGTACGAGGG AATAGCCAAG GGAGTGGTGA AGGACGAGCC AGAGACCAGG GTGGCCATCA AGACGGTCAA CGAGTCCGCG AGCATGCGCG AGAGGATCGA GTTCCTGAAC GAGGCCTCGG TGATGAAGGA GTTCAACTGT CACCATGTGG TTCGGCTGCT TGGTGTTGTT TCTCAGGGCC AGCCTACACT GGTTATCATG GAGCTGATGA CACGTGGGGA CCTCAAAAGT TACCTGAGAT CATTGAGGCC AGACACAGAG AACAACCCTG GGCAGGCGCC CCCGACGCTG AAGAAGATGA TCCAGATGGC GGGGGAGATC GCCGACGGCA TGGCCTATCT CAACGCCAAC AAGTTCGTGC ACAGGGACCT CGCCGCCAGG AACTGCATGG TGGCCGAGGA CTTCACAGTC AAAATTGGAG ATTTTGGCAT GACGAGAGAC ATCTACGAGA CAGATTATTA CCGGAAAGGA GGGAAGGGTT TGCTGCCTGT CCGCTGGATG TCCCCGGAGT CGCTGAAAGA TGGAGTCTTC ACAACGCACT CCGACGTCTG GTAA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq |
XP_030137484.1 |
CDS | 250..3843 |
Translation | |
Target ORF information:
RefSeq Version | XM_030281624.1 |
Organism | Taeniopygia guttata(zebra finch) |
Definition | Taeniopygia guttata insulin like growth factor 1 receptor (IGF1R), transcript variant X3, mRNA. |
Target ORF information:
Epitope | DYKDDDDK |
Bacterial selection | AMPR |
Mammalian selection | NeoR |
Vector | pcDNA3.1+/C-(K)DYK |
|
XM_030281624.1 |
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
| ATGAAGTCTG GCGCTGGAGG AGGGTCCCTC GCCGTCGTCT GGGGGTTCCT GCTCGTTTTC GCCGCACTTT GTCTGTGGCC AACAAATGGG GAAATTTGCG GGCCAAACGT CGACATTCGC AATGATATCC ATGAGCTGAA GCGCCTGGAG AACTGCACGG TGATCGAGGG TTTCCTGCAG ATCCTGCTCA TCTCCAAAGC GGAGGATTAC CGCAACTTCC GCTTCCCAAA GCTCACTGTC ATCACTGACT ACTTGCTGCT GTTCCGTGTG GCAGGCTTGG AAAGCCTCAG TGATCTCTTC CCCAACCTCA CAGTCATTCG TGGCAGGAAC CTCTTCTATA ACTATGCCTT GGTGATCTTT GAAATGACGA ATCTTAAGGA GATTGGGCTT CACAACTTGA GGAACATCAC CCGCGGGGCC ATCCGGATCG AGAAGAACTC TGACCTGTGT TACCTCTCCA CAGTGGACTG GTCTCTCATC CTGGATGCAG TGTCCAATAA CTACATCGTT GGGAATAAAC CTCCAAAGGA ATGTGGGGAC TTGTGTCCAG GAACAATGGA AGAGAAGCCA TTGTGTGAGA AGACATCTAT TAACAATGAG TACAACTACC GCTGCTGGAC CACAAACCAC TGCCAGAAAA TGTGCCCCAG CTCGTGTGGG AAGCGAGCCT GCACAGACCA AAACGAGTGT TGCCACCCCG AGTGCCTGGG GAGCTGCACG GCGCCCGACA ACAACACGGC GTGCGTGGCC TGCCGCAACT ACTACTACGA GGGCGTGTGC CTGCCCACCT GCCCCCCCAA CACCTACAAG TTCGAGGGCT GGCGCTGTGT CACCAGGGAG TTCTGCTCCA AAGTCCCCGC CACGGACGCC AGCGAGTACG AGAAGTTCGT GATTCACAAC GACGAGTGCA TGGCCGAGTG TCCCTCGGGC TTCATCCGCA ACGGCAGCCA AAGCATGTTC TGCAGCCCTT GTGAGGGGCC TTGCCCCAAA ATTTGTGAGG ATGGGAAAAC AAAGACCATT GACTCAGTGA CATCAGCACA AATGTTGCAG GGATGCACAA TTCTCAAGGG AAATCTGCTG ATCAACATCC GCCGTGGCAA TAACATTGCC TCAGAACTGG AGAATTTTAT GGGTCTGATT GAGACAGTAA CAGGGTATGT GAAGATTCGT CATTCCCATG CGTTGGTCTC CCTGTCTTTC CTGAAGAACC TGCGGTACAT TCTGGGAGAG GAACAGGTGG ATGGGAATTA TTCCTTCTAC GTGCTTGACA ACCACAATCT TCAGCAGCTG TGGGACTGGA ACCATCATAA CTTGACAATC AGTGAGGGGA AAATGTACTT TGCATTTAAT CCTAAACTGT GTGTTTCTGA GATTTACCGT ATGGAGGAGG TTTCAGGAAC CAAGGGACGA CAGAGCAAAG GAGATATAAA TCCAAGGAAC AATGGGGAGA GAGCCTCTTG TGAAAGCAAA ATTCTGCATT TTGTTTCCAA CACGACGCTC AAGAACCGGA TTAAACTGAC ATGGGAGCGG TATCGCCCTC CAGATTACAG AGACCTCATC AGCTTCACTG TTTACTACAA AGAGGCACCA TTCAAAAATG TGACAGAGTA TGACGGGCAA GATGCCTGTG GCTCCAATAG CTGGAACATG GTTGATGTTG ACCTGCCACC AAACAAGGAG AACAATCCTG GAATTCTGCT GCAGGGGTTG AAACCTTGGA CTCAGTATGC CATTTATGTC AAGGCTGTTA CCCTCACAAT GATGGAAAAT CATCATATTC ATGGAGCAAA AAGTGAAATT ATATATATTC GAACCAATGC TGCAGTGCCA TCCATTCCCC TGGATGTTAT TTCAGCATCC AACTCCTCAT CCCAGCTGAT TGTGAAATGG AATCCTCCCT CTCTTCCCAA TGGGAACCTC TCCTACTACA TCGTGCGCTG GCAGCAGCAG CCTCAGGACA GTTACCTGTA CAGACACAAT TACTGCTCCA AAGATAAAGT CCCAATTCGA AGATATGCTG ATGGGACCAT TGATACAGAA GAAGCCACTG AGCCCACCAA GCCAGAGGGC TGTGGGGGAG AAAAAGGACC TTGTTGTGCT TGTCCCAAGA CAGAGGCAGA AAAGCAGGCG GAGAAGGAGG AAGCAGAGTA CCGGAAAGTC TTTGAGAACT TCCTTCATAA CTCCATCTTT GTCCCCAGGC CTGACCGTAA GCGGAGGGAC GTGTTCCGAA TCGCCAACGC CACCCTGGCC ACTCGGAGCC GGAACGCGAC CGGGACCGAC CACTTCACCA ACGCCTCTGA CACGGAGGAG AGCGAGGTGG AATATCCCTT CTTTGAGACC AAGGTGGATG GCAAGGAGAG GACTGTGATC TCCCATCTCC AGCCTTTCAC TCTTTACCGC ATCGATATTC ACAGCTGCAA CCACGAGGCC GACACGCTCG GCTGCAGCGC CTCCAACTTC GTGTTTGCCA GAACGATGCC CTCAGAGGGA GCAGACAACA TTCCAGGAAC GGTATCATGG GAAGCAAAAG AGGAAAATAC TGTCTACCTG AAGTGGTTGG AGCCTGCAAA TCCAAATGGG CTGATCCTGA TGTATGAAAT CAAATATGGG CAGCATGGTG AGGAGAAGCG GGAATGTGTT TCCAGACAGG AATACAAGAA ACTTGGAGGA GCTAAACTAA CTCACTTGAA CCCTGGAAAC TATTCTGCCA GAGTTCAGGC CACTTCCTTA GCTGGGAATG GGTCCTGGAC CGAGCCCATC TCTTTCTATG TGCAGCCCAA ATCAGCAAAC TATGGAAACT TCCTGCACTT GGTAATTGTG CTCCCTATTG TTCTGCTGTT CATCCTTGGG GCATTGCTGG TAATGCTCTA TGTCGTTAAC AAAAAGAGGA ACAGTGACAG ACTGGGCAAT GGAGTACTTT ATGCTTCTGT GAACCCTGAG TACTTCAGTG CCTCAGATGT GTATGTTCCT GACGAGTGGG AGGTGCCCCG GGAGAAGATC ACCATGTGTC GGGAGCTTGG GCAAGGCTCC TTTGGAATGG TGTACGAGGG AATAGCCAAG GGAGTGGTGA AGGACGAGCC AGAGACCAGG GTGGCCATCA AGACGGTCAA CGAGTCCGCG AGCATGCGCG AGAGGATCGA GTTCCTGAAC GAGGCCTCGG TGATGAAGGA GTTCAACTGT CACCATGTGG TTCGGCTGCT TGGTGTTGTT TCTCAGGGCC AGCCTACACT GGTTATCATG GAGCTGATGA CACGTGGGGA CCTCAAAAGT TACCTGAGAT CATTGAGGCC AGACACAGAG AACAACCCTG GGCAGGCGCC CCCGACGCTG AAGAAGATGA TCCAGATGGC GGGGGAGATC GCCGACGGCA TGGCCTATCT CAACGCCAAC AAGTTCGTGC ACAGGGACCT CGCCGCCAGG AACTGCATGG TGGCCGAGGA CTTCACAGTC AAAATTGGAG ATTTTGGCAT GACGAGAGAC ATCTACGAGA CAGATTATTA CCGGAAAGGA GGGAAGGGTT TGCTGCCTGT CCGCTGGATG TCCCCGGAGT CGCTGAAAGA TGGAGTCTTC ACAACGCACT CCGACGTCTG GTAA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID |
OTd00799 |
Clone ID Related Accession (Same CDS sequence) |
XM_002199807.2
|
Accession Version |
XM_002199807.2 Latest version! |
Documents for ORF clone product in default vector |
Sequence Information |
ORF Nucleotide Sequence (Length: 4092bp)
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 |
2015-05-25 |
Organism |
Taeniopygia guttata(zebra finch) |
Product |
insulin-like growth factor 1 receptor |
Comment |
Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002197117.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process
On Feb 12, 2013 this sequence version replaced XM_002199807.1.
##Genome-Annotation-Data-START##
Annotation Provider :: NCBI
Annotation Status :: Full annotation
Annotation Version :: Taeniopygia guttata Annotation Release 103
Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline
Annotation Software Version :: 6.3
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
| ATGAAGTCTG GCGCTGGAGG AGGGTCCCTC GCCGTCGTCT GGGGGTTCCT GCTCGTTTTC GCCGCACTTT GTCTGTGGCC AACAAATGGG GAAATTTGCG GGCCAAACGT CGACATTCGC AATGATATCC ATGAGCTGAA GCGCCTGGAG AACTGCACGG TGATCGAGGG TTTCCTGCAG ATCCTGCTCA TCTCCAAAGC GGAGGATTAC CGCAACTTCC GCTTCCCAAA GCTCACTGTC ATCACTGACT ACTTGCTGCT GTTCCGTGTG GCAGGCTTGG AAAGCCTCAG TGATCTCTTC CCCAACCTCA CAGTCATTCG TGGCAGGAAC CTCTTCTATA ACTATGCCTT GGTGATCTTT GAAATGACGA ATCTTAAGGA GATTGGGCTT CACAACTTGA GGAACATCAC CCGCGGGGCC ATCCGGATCG AGAAGAACTC TGACCTGTGT TACCTCTCCA CAGTGGACTG GTCTCTCATC CTAGATGCAG TGTCCAATAA CTACATCGTT GGGAATAAAC CTCCAAAGGA ATGTGGGGAC TTGTGTCCAG GAACAATGGA AGAGAAGCCA TTGTGTGAGA AGACATCTAT TAACAATGAG TACAACTACC GCTGCTGGAC CACAAACCAC TGCCAGAAAA TGTGCCCCAG CTCGTGTGGG AAGCGAGCCT GCACAGACCA AAACGAGTGT TGCCACCCCG AGTGCCTGGG GAGCTGCACG GCGCCCGACA ACAACACGGC GTGCGTGGCC TGCCGCAACT ACTACTACGA GGGCGTGTGC CTGCCCACCT GCCCCCCCAA CACCTACAAG TTCGAGGGCT GGCGCTGTGT CACCAGGGAG TTCTGCTCCA AAGTCCCCGC CACGGACGCC AGCGAGTACG AGAAGTTCGT GATTCACAAC GACGAGTGCA TGGCCGAGTG TCCCTCGGGC TTCATCCGCA ACGGCAGCCA AAGCATGTTC TGCAGCCCTT GTGAGGGGCC TTGCCCCAAA ATTTGTGAGG ATGGGAAAAC AAAGACCATT GACTCAGTGA CATCAGCACA AATGTTGCAG GGATGCACAA TTCTCAAGGG AAATCTGCTG ATCAACATCC GCCGTGGCAA TAACATTGCC TCAGAACTGG AGAATTTTAT GGGTCTGATT GAGACAGTAA CAGGGTATGT GAAGATTCGT CATTCCCATG CGTTGGTCTC CCTGTCTTTC CTGAAGAACC TGCGGTACAT TCTGGGAGAG GAACAGGTGG ATGGGAATTA TTCCTTCTAC GTGCTTGACA ACCACAATCT TCAGCAGCTG TGGGACTGGA ACCATCATAA CTTGACAATC AGTGAGGGGA AAATGTACTT TGCATTTAAT CCTAAACTGT GTGTTTCTGA GATTTACCGT ATGGAGGAGG TTTCAGGAAC CAAGGGACGA CAGAGCAAAG GAGATATAAA TCCAAGGAAC AATGGGGAGA GAGCCTCTTG TGAAAGCAAA ATTCTGCATT TTGTTTCCAA CACGACGCTC AAGAACCGGA TTAAACTGAC ATGGGAGCGG TATCGCCCTC CAGATTACAG AGACCTCATC AGCTTCACTG TTTACTACAA AGAGGCACCA TTCAAAAATG TGACAGAGTA TGACGGGCAA GATGCCTGTG GCTCCAATAG CTGGAACATG GTTGATGTTG ACCTGCCACC AAACAAGGAG AACAATCCTG GAATTCTGCT GCAGGGGTTG AAACCTTGGA CTCAGTATGC CATTTATGTC AAGGCTGTTA CCCTCACAAT GATGGAAAAT CATCATATTC ATGGAGCAAA AAGTGAAATT ATATATATTC GAACCAATGC TGCAGTGCCA TCCATTCCCC TGGATGTTAT TTCAGCATCC AACTCCTCAT CCCAGCTGAT TGTGAAATGG AATCCTCCCT CTCTTCCCAA TGGGAACCTC TCCTACTACA TCGTGCGCTG GCAGCAGCAG CCTCAGGACA GTTACCTGTA CAGACACAAT TACTGCTCCA AAGATAAAGT CCCAATTCGA AGATATGCTG ATGGGACCAT TGATACAGAA GAAGCCACTG AGCCCACCAA GCCAGAGGGC TGTGGGGGAG AAAAAGGACC TTGTTGTGCT TGTCCCAAGA CAGAGGCAGA AAAGCAGGCG GAGAAGGAGG AAGCAGAGTA CCGGAAAGTC TTTGAGAACT TCCTTCATAA CTCCATCTTT GTCCCCAGGC CTGACCGTAA GCGGAGGGAC GTGTTCCGAA TCGCCAACGC CACCCTGGCC ACTCGGAGCC GGAACGCGAC CGGGACCGAC CACTTCACCA ACGCCTCTGA CACGGAGGAG AGCGAGGTGG AATATCCCTT CTTTGAGACC AAGGTGGATG GCAAGGAGAG GACTGTGATC TCCCATCTCC AGCCTTTCAC TCTTTACCGC ATCGATATTC ACAGCTGCAA CCACGAGGCC GACACGCTCG GCTGCAGCGC CTCCAACTTC GTGTTTGCCA GAACGATGCC CTCAGAGGGA GCAGACAACA TTCCAGGAAC GGTATCATGG GAAGCAAAAG AGGAAAATAC TGTCTACCTG AAGTGGTTGG AGCCTGCAAA TCCAAATGGG CTGATCCTGA TGTATGAAAT CAAATATGGG CAGCATGGTG AGGAGAAGCG GGAATGTGTT TCCAGACAGG AATACAAGAA ACTTGGAGGA GCTAAACTAA CTCACTTGAA CCCTGGAAAC TATTCTGCCA GAGTTCAGGC CACTTCCTTA GCTGGGAATG GGTCCTGGAC TGAGCCCATC TCTTTCTATG TGCAGCCCAA ATCAGCAAAC TATGGAAACT TCCTGCACTT GGTAATTGTG CTCCCTATTG TTCTGCTGTT CATCCTTGGG GCATTGCTGG TAATGCTCTA TGTCGTTAAC AAAAAGAGGA ACAGTGACAG ACTGGGCAAT GGAGTACTTT ATGCTTCTGT GAACCCTGAG TACTTCAGTG CCTCAGATGT GTATGTTCCT GACGAGTGGG AGGTGCCCCG GGAGAAGATC ACCATGTGTC GGGAGCTTGG GCAAGGCTCC TTTGGAATGG TGTACGAGGG AATAGCCAAG GGAGTGGTGA AGGACGAGCC AGAGACCAGG GTGGCCATCA AGACGGTCAA CGAGTCCGCG AGCATGCGCG AGAGGATCGA GTTCCTGAAC GAGGCCTCGG TGATGAAGGA GTTCAACTGT CACCATGTGG TTCGGCTGCT TGGTGTTGTT TCTCAGGGCC AGCCTACACT GGTTATCATG GAGCTGATGA CACGTGGGGA CCTCAAAAGT TACCTGAGAT CATTGAGGCC AGACACAGAG AACAACCCTG GGCAGGCGCC CCCGACGCTG AAGAAGATGA TCCAGATGGC GGGGGAGATC GCCGACGGCA TGGCCTATCT CAACGCCAAC AAGTTCGTGC ACAGGGACCT CGCCGCCAGG AACTGCATGG TGGCCGAGGA CTTCACAGTC AAAATTGGAG ATTTTGGCAT GACGAGAGAC ATCTACGAGA CAGATTATTA CCGGAAAGGA GGGAAGGGTT TGCTGCCTGT CCGCTGGATG TCCCCGGAGT CGCTGAAAGA TGGAGTCTTC ACAACGCACT CCGACGTCTG GTCCTTCGGC GTGGTGCTGT GGGAGATCGC GACGCTGGCG GAGCAGCCGT ACCAGGGCAT GACCAACGAG CAGGTGCTGC GCTTCGTCAT GGAAGGGGGG CTGCTGGAAA AGCCAGACAA CTGTCCCGAC ATGCTGTTCG AACTGATGCG CATGTGCTGG CAGTACAACC CGAAAATGAG ACCCTCCTTC CTGGAAATCA TCGGTAGCAT CAAAGACGAG CTGGACCCGG CCTTCAAAGA GGTCTCCTTC TTCTACAGTG AAGAGAACAA ACCTCCGGAC ACAGAGGAGC TTGACCTGGA GACTGAAAAC ATGGAGAGCA TTCCTTTAGA CCCCTCCTCC ACCCTGCAAC CCACTGACAA GCACTCAGGA CACAAGGCCG AGAACGGCCC CGGCGTGGTG GTGCTGCGGG CCAGCTTCGA GGAGCGCCAG CCGTACGCAC ACATGAACGG GGGCCGCAAG AACGAGAGGG CCCTGCCGCT GCCCCAGTCC TCGGCCTGCT GA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq |
XP_002199843.1 |
CDS | 199..4290 |
Translation | |
Target ORF information:
RefSeq Version | XM_002199807.2 |
Organism | Taeniopygia guttata(zebra finch) |
Definition | Taeniopygia guttata insulin-like growth factor 1 receptor (IGF1R), mRNA. |
Target ORF information:
Epitope | DYKDDDDK |
Bacterial selection | AMPR |
Mammalian selection | NeoR |
Vector | pcDNA3.1+/C-(K)DYK |
|
XM_002199807.2 |
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 3781 3841 3901 3961 4021 4081
| ATGAAGTCTG GCGCTGGAGG AGGGTCCCTC GCCGTCGTCT GGGGGTTCCT GCTCGTTTTC GCCGCACTTT GTCTGTGGCC AACAAATGGG GAAATTTGCG GGCCAAACGT CGACATTCGC AATGATATCC ATGAGCTGAA GCGCCTGGAG AACTGCACGG TGATCGAGGG TTTCCTGCAG ATCCTGCTCA TCTCCAAAGC GGAGGATTAC CGCAACTTCC GCTTCCCAAA GCTCACTGTC ATCACTGACT ACTTGCTGCT GTTCCGTGTG GCAGGCTTGG AAAGCCTCAG TGATCTCTTC CCCAACCTCA CAGTCATTCG TGGCAGGAAC CTCTTCTATA ACTATGCCTT GGTGATCTTT GAAATGACGA ATCTTAAGGA GATTGGGCTT CACAACTTGA GGAACATCAC CCGCGGGGCC ATCCGGATCG AGAAGAACTC TGACCTGTGT TACCTCTCCA CAGTGGACTG GTCTCTCATC CTAGATGCAG TGTCCAATAA CTACATCGTT GGGAATAAAC CTCCAAAGGA ATGTGGGGAC TTGTGTCCAG GAACAATGGA AGAGAAGCCA TTGTGTGAGA AGACATCTAT TAACAATGAG TACAACTACC GCTGCTGGAC CACAAACCAC TGCCAGAAAA TGTGCCCCAG CTCGTGTGGG AAGCGAGCCT GCACAGACCA AAACGAGTGT TGCCACCCCG AGTGCCTGGG GAGCTGCACG GCGCCCGACA ACAACACGGC GTGCGTGGCC TGCCGCAACT ACTACTACGA GGGCGTGTGC CTGCCCACCT GCCCCCCCAA CACCTACAAG TTCGAGGGCT GGCGCTGTGT CACCAGGGAG TTCTGCTCCA AAGTCCCCGC CACGGACGCC AGCGAGTACG AGAAGTTCGT GATTCACAAC GACGAGTGCA TGGCCGAGTG TCCCTCGGGC TTCATCCGCA ACGGCAGCCA AAGCATGTTC TGCAGCCCTT GTGAGGGGCC TTGCCCCAAA ATTTGTGAGG ATGGGAAAAC AAAGACCATT GACTCAGTGA CATCAGCACA AATGTTGCAG GGATGCACAA TTCTCAAGGG AAATCTGCTG ATCAACATCC GCCGTGGCAA TAACATTGCC TCAGAACTGG AGAATTTTAT GGGTCTGATT GAGACAGTAA CAGGGTATGT GAAGATTCGT CATTCCCATG CGTTGGTCTC CCTGTCTTTC CTGAAGAACC TGCGGTACAT TCTGGGAGAG GAACAGGTGG ATGGGAATTA TTCCTTCTAC GTGCTTGACA ACCACAATCT TCAGCAGCTG TGGGACTGGA ACCATCATAA CTTGACAATC AGTGAGGGGA AAATGTACTT TGCATTTAAT CCTAAACTGT GTGTTTCTGA GATTTACCGT ATGGAGGAGG TTTCAGGAAC CAAGGGACGA CAGAGCAAAG GAGATATAAA TCCAAGGAAC AATGGGGAGA GAGCCTCTTG TGAAAGCAAA ATTCTGCATT TTGTTTCCAA CACGACGCTC AAGAACCGGA TTAAACTGAC ATGGGAGCGG TATCGCCCTC CAGATTACAG AGACCTCATC AGCTTCACTG TTTACTACAA AGAGGCACCA TTCAAAAATG TGACAGAGTA TGACGGGCAA GATGCCTGTG GCTCCAATAG CTGGAACATG GTTGATGTTG ACCTGCCACC AAACAAGGAG AACAATCCTG GAATTCTGCT GCAGGGGTTG AAACCTTGGA CTCAGTATGC CATTTATGTC AAGGCTGTTA CCCTCACAAT GATGGAAAAT CATCATATTC ATGGAGCAAA AAGTGAAATT ATATATATTC GAACCAATGC TGCAGTGCCA TCCATTCCCC TGGATGTTAT TTCAGCATCC AACTCCTCAT CCCAGCTGAT TGTGAAATGG AATCCTCCCT CTCTTCCCAA TGGGAACCTC TCCTACTACA TCGTGCGCTG GCAGCAGCAG CCTCAGGACA GTTACCTGTA CAGACACAAT TACTGCTCCA AAGATAAAGT CCCAATTCGA AGATATGCTG ATGGGACCAT TGATACAGAA GAAGCCACTG AGCCCACCAA GCCAGAGGGC TGTGGGGGAG AAAAAGGACC TTGTTGTGCT TGTCCCAAGA CAGAGGCAGA AAAGCAGGCG GAGAAGGAGG AAGCAGAGTA CCGGAAAGTC TTTGAGAACT TCCTTCATAA CTCCATCTTT GTCCCCAGGC CTGACCGTAA GCGGAGGGAC GTGTTCCGAA TCGCCAACGC CACCCTGGCC ACTCGGAGCC GGAACGCGAC CGGGACCGAC CACTTCACCA ACGCCTCTGA CACGGAGGAG AGCGAGGTGG AATATCCCTT CTTTGAGACC AAGGTGGATG GCAAGGAGAG GACTGTGATC TCCCATCTCC AGCCTTTCAC TCTTTACCGC ATCGATATTC ACAGCTGCAA CCACGAGGCC GACACGCTCG GCTGCAGCGC CTCCAACTTC GTGTTTGCCA GAACGATGCC CTCAGAGGGA GCAGACAACA TTCCAGGAAC GGTATCATGG GAAGCAAAAG AGGAAAATAC TGTCTACCTG AAGTGGTTGG AGCCTGCAAA TCCAAATGGG CTGATCCTGA TGTATGAAAT CAAATATGGG CAGCATGGTG AGGAGAAGCG GGAATGTGTT TCCAGACAGG AATACAAGAA ACTTGGAGGA GCTAAACTAA CTCACTTGAA CCCTGGAAAC TATTCTGCCA GAGTTCAGGC CACTTCCTTA GCTGGGAATG GGTCCTGGAC TGAGCCCATC TCTTTCTATG TGCAGCCCAA ATCAGCAAAC TATGGAAACT TCCTGCACTT GGTAATTGTG CTCCCTATTG TTCTGCTGTT CATCCTTGGG GCATTGCTGG TAATGCTCTA TGTCGTTAAC AAAAAGAGGA ACAGTGACAG ACTGGGCAAT GGAGTACTTT ATGCTTCTGT GAACCCTGAG TACTTCAGTG CCTCAGATGT GTATGTTCCT GACGAGTGGG AGGTGCCCCG GGAGAAGATC ACCATGTGTC GGGAGCTTGG GCAAGGCTCC TTTGGAATGG TGTACGAGGG AATAGCCAAG GGAGTGGTGA AGGACGAGCC AGAGACCAGG GTGGCCATCA AGACGGTCAA CGAGTCCGCG AGCATGCGCG AGAGGATCGA GTTCCTGAAC GAGGCCTCGG TGATGAAGGA GTTCAACTGT CACCATGTGG TTCGGCTGCT TGGTGTTGTT TCTCAGGGCC AGCCTACACT GGTTATCATG GAGCTGATGA CACGTGGGGA CCTCAAAAGT TACCTGAGAT CATTGAGGCC AGACACAGAG AACAACCCTG GGCAGGCGCC CCCGACGCTG AAGAAGATGA TCCAGATGGC GGGGGAGATC GCCGACGGCA TGGCCTATCT CAACGCCAAC AAGTTCGTGC ACAGGGACCT CGCCGCCAGG AACTGCATGG TGGCCGAGGA CTTCACAGTC AAAATTGGAG ATTTTGGCAT GACGAGAGAC ATCTACGAGA CAGATTATTA CCGGAAAGGA GGGAAGGGTT TGCTGCCTGT CCGCTGGATG TCCCCGGAGT CGCTGAAAGA TGGAGTCTTC ACAACGCACT CCGACGTCTG GTCCTTCGGC GTGGTGCTGT GGGAGATCGC GACGCTGGCG GAGCAGCCGT ACCAGGGCAT GACCAACGAG CAGGTGCTGC GCTTCGTCAT GGAAGGGGGG CTGCTGGAAA AGCCAGACAA CTGTCCCGAC ATGCTGTTCG AACTGATGCG CATGTGCTGG CAGTACAACC CGAAAATGAG ACCCTCCTTC CTGGAAATCA TCGGTAGCAT CAAAGACGAG CTGGACCCGG CCTTCAAAGA GGTCTCCTTC TTCTACAGTG AAGAGAACAA ACCTCCGGAC ACAGAGGAGC TTGACCTGGA GACTGAAAAC ATGGAGAGCA TTCCTTTAGA CCCCTCCTCC ACCCTGCAAC CCACTGACAA GCACTCAGGA CACAAGGCCG AGAACGGCCC CGGCGTGGTG GTGCTGCGGG CCAGCTTCGA GGAGCGCCAG CCGTACGCAC ACATGAACGG GGGCCGCAAG AACGAGAGGG CCCTGCCGCT GCCCCAGTCC TCGGCCTGCT GA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.