| Gene Symbol | JAK2 |
| Entrez Gene ID | 100225452 |
| Full Name | Janus kinase 2 |
| Gene Type | protein-coding |
| Organism | Taeniopygia guttata(zebra finch) |
- REAGENT SERVICES Hot!
-
PRODUCTS
-
Most Popular Reagents
-
Instruments
-
Antibodies
-
ELISA Kits
-
Protein Electrophoresis and Blotting
-
Protein and Antibody Purification
-
Recombinant Proteins
-
Molecular Biology
-
Stable Cell Lines
-
Cell Isolation and Activation
-
IVD Raw Materials
-
Therapy Applications
-
Resources
-
![AmMag™ Quatro Automated Plasmid Purification]()
AmMag™ Quatro automated plasmid purification
-
![Anti-Camelid VHH]()
MonoRab™ Anti-VHH Antibodies
-
![ELISA Kits]()
ELISA Kits
-
![Precast Gels]()
SurePAGE™ Precast Gels
-
![Quatro ProAb Automated Protein and Antibody Purification System]()
AmMag™ Quatro ProAb Automated Protein and Antibody Purification System
-
![Target Proteins]()
Target Proteins
-
![AmMag™ Quatro Automated Plasmid Purification]()
AmMag™ Quatro automated plasmid purification
-
![Stable Cell Lines]()
Stable Cell Lines
-
![Cell Isolation and Activation]()
Cell Isolation and Activation
-
![Quick
Order]()
Quick Order
-
![Quick
Order]()
Quick Order
- APPLICATIONS
- RESOURCES
- ABOUT US
JAK2 cDNA ORF clone, Taeniopygia guttata(zebra finch)
-
Gene
-
Clones
gRNAs
The following JAK2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the JAK2 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.
-
Reference Sequences (Refseq)
CloneID OTd13360 Clone ID Related Accession (Same CDS sequence) XM_002195400.4 , XM_002195400.3 , XM_030257486.1 , XM_030257483.1 , XM_030257484.1 , XM_030257488.1 , XM_030257487.1 , XM_030257485.1 Accession Version XM_002195400.4 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3393bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector 
User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1565193600000 Organism Taeniopygia guttata(zebra finch) Product tyrosine-protein kinase JAK2 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044241.1) 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_002195400.3. ##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
3361ATGGCTTGTC TTACAATGAC AAATATGGAA AGTACAGCAA CTTCTACTGT CCGCCAGAAT
GGTGACATCC GTGGAAATAG CAGTGCACCC AAGCAGACAG AACCATTGCT TCAAGTGTAC
CTTTATCATT CTCCTGGGAA GACAGAAGGA GATTACCTTC AGTTTTCAGC TGGAGAATAT
GTTGCAGAAG AGATTTGCGC TGTTGCCTGT AAAGCCTGTG GTATCATGCC AGTGTATCAT
AACATGTTTG CACTCATGAA TGAAACAGAC AGAATGTGGT ATCCCCCAAA TCACATCTTC
CATGTAGATG AGACAACCAG ACTCATCCTA ATTTACCGGA TAAGGTTTTA TTTTCCCCAC
TGGTATTGCA GTGGCAGCAA CAGAGCATAC CGGTATGGCA TTCTTCGTGG TGCAGAAAGC
CCCGTCCTTG ATGATCTTGT CATGTCTTAC CTATTTGCAC AGTGGCGAAC TGATTTTTTG
GATGGATGGG TACAGATGCC TGTTACTCAT GAAACACAAG AAGAATGCCT TGGAATGGCT
GTTCTAGATA TGATGAGAGT GGCCAAAGAA AAGGACCAAA CCCCAATGGC TATTTACAAT
TCAGTCAGCT ACAAAATGTT TTTACCTAAG TGTGTGCGAG CAAAAATCCA AGACTACCAT
ATTTTGACCC GAAAAAGAAT AAGGTACAGA TTCCGCAAAT TTATACAACA GTTTGGCCAA
TGCAAAGCTA CTGCCAGAAA CCTGAAACTC AAGTATCTCA TAAATCTGGA AACCCTTCAG
CCTGCCTTCT ATTCAGAGGT TTTTGAAGTA AAAGAACCTG GTGGAGGTCC TTCTGGAGAG
GAAAGTTTTG CAACTGTTGT AATAACTGGA AATGGAGGAA TTCAGTGCTC AAGAGGAAAA
CTTAAAGATT GTGAAACACT TGGAGAGCAG GATTTACAAA CATACTGTGA TTTTCCTGAT
ATCATTGATG TCAGCATTAA ACAGGCGAGC CAAGAAGGCT CCAGTGAGAG AAGAATTGTC
ACCATTCACA AACAAGACAG CAAGAATCTG GAGGCTGAAT TTCAGTCATT AAGAGAAGCT
CTCTCCTTTG TATCATTAAT TGATGGATAT TACAGATTAA CAGCGGATGC ACATCATTAT
CTCTGTAAAG AAGTAGCACC ACCATCAGTC CTTGAAAATA TCCAAAGCAA CTGTCATGGA
CCAATTTTCA TGGACTTTGC TATCAGTAAA CTGAAGAAAG CTGGTAATCA GACTGGTTTC
TACGTTCTTC GTTGCAGTCC TAAAGATTTT AAAAAATACT TCCTTACCTT TGCTATAGAG
CGTGACAGTA CTACAGATTA TAAGCACTGT TTAATTACGA AGAATGAGAA CGGAGAATAT
AATCTTAGTG GAACCAAGAG AAGTTTTAGT AATCTTAAGG ATCTCTTGAC CTGTTACCAG
ACAGAAACTG TCCGTTCAGA CAGCATAATT TTCCAGTTCG TCAAATGCTG TCCTCCGAAA
CCAAAAGATA AATCAAATCT CCTTGTTTTC AGAAGCAATA GCGTTTCCGA TGTATCTTCA
TCACCTATGC TACAGAGGCA CAATAATGTC AATCAAATGG TCTTTCATAA AATCCGTAAT
GAGGACTTGA TATTCGAGGA GAGTCTTGGA CAGGGCACAT TTACTAAGAT TTTCAAAGGT
GTAAGGAAAG AAGTGGGAGA CTATGGCCAG CTCCATCAAA CTGAAGTTCT TTTAAAGGTG
CTGGATAAAG TGCACAGAAA CTACTCTGAG TCCTTTTTTG AAGCAGCAAG TATGATGAGC
CAGCTTTCTT ACAAACATTT GGTGTTGAAT TATGGAGTCT GTGTTTGTGG AGAAGAGAAT
ATCCTTGTAC AAGAATATGT AAAATTTGGA TCCTTGGACA CATATTTGAA AAAGAACAAA
AATGTTATCA ATATCTTGTG GAAGCTGGAA GTAGCCAAAC AGTTGGCATT AGCCATGCAT
TTTCTGGAGG ATAAAGGTCT TGTTCATGGG AATGTCTGTG CAAAAAACAT CTTGCTTATC
AGAGAGGAAG ACAGGAAGTC TGGAAACCTC CCGTTTATAA AGCTGAGTGA TCCTGGCATC
AGTATTACAG TTTTGCCAAG AGATATTCTT CTGGAGAGAA TACCCTGGGT TCCCCCTGAA
TGTATTGAGA ATCCCAAACA GCTAAGCCTA GCTACAGACA AGTGGAGTTT TGGTACCACT
TTGTGGGAAA TCTGCAGTGG AGGAGACAAA CCCCTGAGTG CACTAGATTC TTCAAGAAAA
CTACAATTTT ATGAAGACAG GCACCAGCTT CCTGCCCCCA ACTGGACAGA ACTTGCAAAC
CTCATAAACA ACTGCATGGA TTATGAGCCA GATTTCAGGC CTTCTTTTAG AGCAATTATA
CGTGATTTGA ACAGTTTGTT CACTCCAGAT TACGAGCTAT TGACAGAAAG TGATATGTTG
CCAAATATGA GAATTGGAGC ACTTGGATTT TCTGGCGCTT TTGAAGATCG GGACCCAACA
CAATTTGAAG AAAGACATCT TAAGTTTTTA CAGCAACTTG GCAAGGGAAA TTTTGGCAGC
GTTGAGATGT GCCGGTATGA CCCGCTGCAG GATAATACTG GGGAGGTGGT GGCTGTGAAA
AAGCTGCAAC ATAGCACAGA AGAGCACCTT AGGGACTTTG AAAGAGAAAT TGAAATACTT
AAATCACTGC AGCATGATAA CATCGTTAAA TACAAAGGAG TATGCTACAG TGCAGGACGT
AGGAATCTAA GATTAATTAT GGAATACTTA CCATACGGAA GTTTACGCGA TTATCTGCAG
AAACACAAGG AGAGGCTGGA CCACAAGAAG CTTTTACTGT ATGCGTCTCA GATATGCAAG
GGCATGGAGT ATCTGGGTAC AAAAAGATAT GTTCACCGGG ATTTGGCAAC AAGAAATATC
TTGGTGGAGA ATGAGAACAG AGTTAAAATT GGAGATTTTG GATTGACGAA AGTCTTGCCA
CAAGACAAAG AATACTACAA AGTAAAAGAA CCTGGTGAAA GTCCTATATT TTGGTACGCT
CCAGAATCTC TGACAGAAAG CAAATTTTCT GTGGCCTCGG ATGTGTGGAG CTTTGGTGTG
GTCTTGTATG AACTTTTCAC CTATATTGAC AAAAGCAAAA GCCCACCAGC TGAATTCATG
CGCATGATTG GCAATGATAA ACAAGGGCAG ATGATTGTAT TTCATTTGAT AGAGCTTTTG
AAGAATAATG GACGACTGCC GAGACCAGAT GGATGCCCTG ATGAGATTTA TGCTATCATG
AAAGAATGCT GGAACAATAA TGTTTCCCAG CGCCCCACCT TTCGGGATCT TTCTCAGCGA
GTGGATCATA TAAGGGAAAA CATGGGTGGA TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_002195436.1 CDS 315..3707 Translation 
Target ORF information:
RefSeq Version XM_002195400.4 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata Janus kinase 2 (JAK2), transcript variant X3, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_002195400.4
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
3361ATGGCTTGTC TTACAATGAC AAATATGGAA AGTACAGCAA CTTCTACTGT CCGCCAGAAT
GGTGACATCC GTGGAAATAG CAGTGCACCC AAGCAGACAG AACCATTGCT TCAAGTGTAC
CTTTATCATT CTCCTGGGAA GACAGAAGGA GATTACCTTC AGTTTTCAGC TGGAGAATAT
GTTGCAGAAG AGATTTGCGC TGTTGCCTGT AAAGCCTGTG GTATCATGCC AGTGTATCAT
AACATGTTTG CACTCATGAA TGAAACAGAC AGAATGTGGT ATCCCCCAAA TCACATCTTC
CATGTAGATG AGACAACCAG ACTCATCCTA ATTTACCGGA TAAGGTTTTA TTTTCCCCAC
TGGTATTGCA GTGGCAGCAA CAGAGCATAC CGGTATGGCA TTCTTCGTGG TGCAGAAAGC
CCCGTCCTTG ATGATCTTGT CATGTCTTAC CTATTTGCAC AGTGGCGAAC TGATTTTTTG
GATGGATGGG TACAGATGCC TGTTACTCAT GAAACACAAG AAGAATGCCT TGGAATGGCT
GTTCTAGATA TGATGAGAGT GGCCAAAGAA AAGGACCAAA CCCCAATGGC TATTTACAAT
TCAGTCAGCT ACAAAATGTT TTTACCTAAG TGTGTGCGAG CAAAAATCCA AGACTACCAT
ATTTTGACCC GAAAAAGAAT AAGGTACAGA TTCCGCAAAT TTATACAACA GTTTGGCCAA
TGCAAAGCTA CTGCCAGAAA CCTGAAACTC AAGTATCTCA TAAATCTGGA AACCCTTCAG
CCTGCCTTCT ATTCAGAGGT TTTTGAAGTA AAAGAACCTG GTGGAGGTCC TTCTGGAGAG
GAAAGTTTTG CAACTGTTGT AATAACTGGA AATGGAGGAA TTCAGTGCTC AAGAGGAAAA
CTTAAAGATT GTGAAACACT TGGAGAGCAG GATTTACAAA CATACTGTGA TTTTCCTGAT
ATCATTGATG TCAGCATTAA ACAGGCGAGC CAAGAAGGCT CCAGTGAGAG AAGAATTGTC
ACCATTCACA AACAAGACAG CAAGAATCTG GAGGCTGAAT TTCAGTCATT AAGAGAAGCT
CTCTCCTTTG TATCATTAAT TGATGGATAT TACAGATTAA CAGCGGATGC ACATCATTAT
CTCTGTAAAG AAGTAGCACC ACCATCAGTC CTTGAAAATA TCCAAAGCAA CTGTCATGGA
CCAATTTTCA TGGACTTTGC TATCAGTAAA CTGAAGAAAG CTGGTAATCA GACTGGTTTC
TACGTTCTTC GTTGCAGTCC TAAAGATTTT AAAAAATACT TCCTTACCTT TGCTATAGAG
CGTGACAGTA CTACAGATTA TAAGCACTGT TTAATTACGA AGAATGAGAA CGGAGAATAT
AATCTTAGTG GAACCAAGAG AAGTTTTAGT AATCTTAAGG ATCTCTTGAC CTGTTACCAG
ACAGAAACTG TCCGTTCAGA CAGCATAATT TTCCAGTTCG TCAAATGCTG TCCTCCGAAA
CCAAAAGATA AATCAAATCT CCTTGTTTTC AGAAGCAATA GCGTTTCCGA TGTATCTTCA
TCACCTATGC TACAGAGGCA CAATAATGTC AATCAAATGG TCTTTCATAA AATCCGTAAT
GAGGACTTGA TATTCGAGGA GAGTCTTGGA CAGGGCACAT TTACTAAGAT TTTCAAAGGT
GTAAGGAAAG AAGTGGGAGA CTATGGCCAG CTCCATCAAA CTGAAGTTCT TTTAAAGGTG
CTGGATAAAG TGCACAGAAA CTACTCTGAG TCCTTTTTTG AAGCAGCAAG TATGATGAGC
CAGCTTTCTT ACAAACATTT GGTGTTGAAT TATGGAGTCT GTGTTTGTGG AGAAGAGAAT
ATCCTTGTAC AAGAATATGT AAAATTTGGA TCCTTGGACA CATATTTGAA AAAGAACAAA
AATGTTATCA ATATCTTGTG GAAGCTGGAA GTAGCCAAAC AGTTGGCATT AGCCATGCAT
TTTCTGGAGG ATAAAGGTCT TGTTCATGGG AATGTCTGTG CAAAAAACAT CTTGCTTATC
AGAGAGGAAG ACAGGAAGTC TGGAAACCTC CCGTTTATAA AGCTGAGTGA TCCTGGCATC
AGTATTACAG TTTTGCCAAG AGATATTCTT CTGGAGAGAA TACCCTGGGT TCCCCCTGAA
TGTATTGAGA ATCCCAAACA GCTAAGCCTA GCTACAGACA AGTGGAGTTT TGGTACCACT
TTGTGGGAAA TCTGCAGTGG AGGAGACAAA CCCCTGAGTG CACTAGATTC TTCAAGAAAA
CTACAATTTT ATGAAGACAG GCACCAGCTT CCTGCCCCCA ACTGGACAGA ACTTGCAAAC
CTCATAAACA ACTGCATGGA TTATGAGCCA GATTTCAGGC CTTCTTTTAG AGCAATTATA
CGTGATTTGA ACAGTTTGTT CACTCCAGAT TACGAGCTAT TGACAGAAAG TGATATGTTG
CCAAATATGA GAATTGGAGC ACTTGGATTT TCTGGCGCTT TTGAAGATCG GGACCCAACA
CAATTTGAAG AAAGACATCT TAAGTTTTTA CAGCAACTTG GCAAGGGAAA TTTTGGCAGC
GTTGAGATGT GCCGGTATGA CCCGCTGCAG GATAATACTG GGGAGGTGGT GGCTGTGAAA
AAGCTGCAAC ATAGCACAGA AGAGCACCTT AGGGACTTTG AAAGAGAAAT TGAAATACTT
AAATCACTGC AGCATGATAA CATCGTTAAA TACAAAGGAG TATGCTACAG TGCAGGACGT
AGGAATCTAA GATTAATTAT GGAATACTTA CCATACGGAA GTTTACGCGA TTATCTGCAG
AAACACAAGG AGAGGCTGGA CCACAAGAAG CTTTTACTGT ATGCGTCTCA GATATGCAAG
GGCATGGAGT ATCTGGGTAC AAAAAGATAT GTTCACCGGG ATTTGGCAAC AAGAAATATC
TTGGTGGAGA ATGAGAACAG AGTTAAAATT GGAGATTTTG GATTGACGAA AGTCTTGCCA
CAAGACAAAG AATACTACAA AGTAAAAGAA CCTGGTGAAA GTCCTATATT TTGGTACGCT
CCAGAATCTC TGACAGAAAG CAAATTTTCT GTGGCCTCGG ATGTGTGGAG CTTTGGTGTG
GTCTTGTATG AACTTTTCAC CTATATTGAC AAAAGCAAAA GCCCACCAGC TGAATTCATG
CGCATGATTG GCAATGATAA ACAAGGGCAG ATGATTGTAT TTCATTTGAT AGAGCTTTTG
AAGAATAATG GACGACTGCC GAGACCAGAT GGATGCCCTG ATGAGATTTA TGCTATCATG
AAAGAATGCT GGAACAATAA TGTTTCCCAG CGCCCCACCT TTCGGGATCT TTCTCAGCGA
GTGGATCATA TAAGGGAAAA CATGGGTGGA TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd13360 Clone ID Related Accession (Same CDS sequence) XM_002195400.4 , XM_002195400.3 , XM_030257486.1 , XM_030257483.1 , XM_030257484.1 , XM_030257488.1 , XM_030257487.1 , XM_030257485.1 Accession Version XM_002195400.3 Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3393bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1432483200000 Organism Taeniopygia guttata(zebra finch) Product tyrosine-protein kinase JAK2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002234472.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On May 26, 2015 this sequence version replaced XM_002195400.2. ##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
3361ATGGCTTGTC TTACAATGAC AAATATGGAA AGTACAGCAA CTTCTACTGT CCGCCAGAAT
GGTGACATCC GTGGAAATAG CAGTGCACCC AAGCAGACAG AACCATTGCT TCAAGTGTAC
CTTTATCATT CTCCTGGGAA GACAGAAGGA GATTACCTTC AGTTTTCAGC TGGAGAATAT
GTTGCAGAAG AGATTTGCGC TGTTGCCTGT AAAGCCTGTG GTATCATGCC AGTGTATCAT
AACATGTTTG CACTCATGAA TGAAACAGAC AGAATGTGGT ATCCCCCAAA TCACATCTTC
CATGTAGATG AGACAACCAG ACTCATCCTA ATTTACCGGA TAAGGTTTTA TTTTCCCCAC
TGGTATTGCA GTGGCAGCAA CAGAGCATAC CGGTATGGCA TTCTTCGTGG TGCAGAAAGC
CCCGTCCTTG ATGATCTTGT CATGTCTTAC CTATTTGCAC AGTGGCGAAC TGATTTTTTG
GATGGATGGG TACAGATGCC TGTTACTCAT GAAACACAAG AAGAATGCCT TGGAATGGCT
GTTCTAGATA TGATGAGAGT GGCCAAAGAA AAGGACCAAA CCCCAATGGC TATTTACAAT
TCAGTCAGCT ACAAAATGTT TTTACCTAAG TGTGTGCGAG CAAAAATCCA AGACTACCAT
ATTTTGACCC GAAAAAGAAT AAGGTACAGA TTCCGCAAAT TTATACAACA GTTTGGCCAA
TGCAAAGCTA CTGCCAGAAA CCTGAAACTC AAGTATCTCA TAAATCTGGA AACCCTTCAG
CCTGCCTTCT ATTCAGAGGT TTTTGAAGTA AAAGAACCTG GTGGAGGTCC TTCTGGAGAG
GAAAGTTTTG CAACTGTTGT AATAACTGGA AATGGAGGAA TTCAGTGCTC AAGAGGAAAA
CTTAAAGATT GTGAAACACT TGGAGAGCAG GATTTACAAA CATACTGTGA TTTTCCTGAT
ATCATTGATG TCAGCATTAA ACAGGCGAGC CAAGAAGGCT CCAGTGAGAG AAGAATTGTC
ACCATTCACA AACAAGACAG CAAGAATCTG GAGGCTGAAT TTCAGTCATT AAGAGAAGCT
CTCTCCTTTG TATCATTAAT TGATGGATAT TACAGATTAA CAGCGGATGC ACATCATTAT
CTCTGTAAAG AAGTAGCACC ACCATCAGTC CTTGAAAATA TCCAAAGCAA CTGTCATGGA
CCAATTTTCA TGGACTTTGC TATCAGTAAA CTGAAGAAAG CTGGTAATCA GACTGGTTTC
TACGTTCTTC GTTGCAGTCC TAAAGATTTT AAAAAATACT TCCTTACCTT TGCTATAGAG
CGTGACAGTA CTACAGATTA TAAGCACTGT TTAATTACGA AGAATGAGAA CGGAGAATAT
AATCTTAGTG GAACCAAGAG AAGTTTTAGT AATCTTAAGG ATCTCTTGAC CTGTTACCAG
ACAGAAACTG TCCGTTCAGA CAGCATAATT TTCCAGTTCG TCAAATGCTG TCCTCCGAAA
CCAAAAGATA AATCAAATCT CCTTGTTTTC AGAAGCAATA GCGTTTCCGA TGTATCTTCA
TCACCTATGC TACAGAGGCA CAATAATGTC AATCAAATGG TCTTTCATAA AATCCGTAAT
GAGGACTTGA TATTCGAGGA GAGTCTTGGA CAGGGCACAT TTACTAAGAT TTTCAAAGGT
GTAAGGAAAG AAGTGGGAGA CTATGGCCAG CTCCATCAAA CTGAAGTTCT TTTAAAGGTG
CTGGATAAAG TGCACAGAAA CTACTCTGAG TCCTTTTTTG AAGCAGCAAG TATGATGAGC
CAGCTTTCTT ACAAACATTT GGTGTTGAAT TATGGAGTCT GTGTTTGTGG AGAAGAGAAT
ATCCTTGTAC AAGAATATGT AAAATTTGGA TCCTTGGACA CATATTTGAA AAAGAACAAA
AATGTTATCA ATATCTTGTG GAAGCTGGAA GTAGCCAAAC AGTTGGCATT AGCCATGCAT
TTTCTGGAGG ATAAAGGTCT TGTTCATGGG AATGTCTGTG CAAAAAACAT CTTGCTTATC
AGAGAGGAAG ACAGGAAGTC TGGAAACCTC CCGTTTATAA AGCTGAGTGA TCCTGGCATC
AGTATTACAG TTTTGCCAAG AGATATTCTT CTGGAGAGAA TACCCTGGGT TCCCCCTGAA
TGTATTGAGA ATCCCAAACA GCTAAGCCTA GCTACAGACA AGTGGAGTTT TGGTACCACT
TTGTGGGAAA TCTGCAGTGG AGGAGACAAA CCCCTGAGTG CACTAGATTC TTCAAGAAAA
CTACAATTTT ATGAAGACAG GCACCAGCTT CCTGCCCCCA ACTGGACAGA ACTTGCAAAC
CTCATAAACA ACTGCATGGA TTATGAGCCA GATTTCAGGC CTTCTTTTAG AGCAATTATA
CGTGATTTGA ACAGTTTGTT CACTCCAGAT TACGAGCTAT TGACAGAAAG TGATATGTTG
CCAAATATGA GAATTGGAGC ACTTGGATTT TCTGGCGCTT TTGAAGATCG GGACCCAACA
CAATTTGAAG AAAGACATCT TAAGTTTTTA CAGCAACTTG GCAAGGGAAA TTTTGGCAGC
GTTGAGATGT GCCGGTATGA CCCGCTGCAG GATAATACTG GGGAGGTGGT GGCTGTGAAA
AAGCTGCAAC ATAGCACAGA AGAGCACCTT AGGGACTTTG AAAGAGAAAT TGAAATACTT
AAATCACTGC AGCATGATAA CATCGTTAAA TACAAAGGAG TATGCTACAG TGCAGGACGT
AGGAATCTAA GATTAATTAT GGAATACTTA CCATACGGAA GTTTACGCGA TTATCTGCAG
AAACACAAGG AGAGGCTGGA CCACAAGAAG CTTTTACTGT ATGCGTCTCA GATATGCAAG
GGCATGGAGT ATCTGGGTAC AAAAAGATAT GTTCACCGGG ATTTGGCAAC AAGAAATATC
TTGGTGGAGA ATGAGAACAG AGTTAAAATT GGAGATTTTG GATTGACGAA AGTCTTGCCA
CAAGACAAAG AATACTACAA AGTAAAAGAA CCTGGTGAAA GTCCTATATT TTGGTACGCT
CCAGAATCTC TGACAGAAAG CAAATTTTCT GTGGCCTCGG ATGTGTGGAG CTTTGGTGTG
GTCTTGTATG AACTTTTCAC CTATATTGAC AAAAGCAAAA GCCCACCAGC TGAATTCATG
CGCATGATTG GCAATGATAA ACAAGGGCAG ATGATTGTAT TTCATTTGAT AGAGCTTTTG
AAGAATAATG GACGACTGCC GAGACCAGAT GGATGCCCTG ATGAGATTTA TGCTATCATG
AAAGAATGCT GGAACAATAA TGTTTCCCAG CGCCCCACCT TTCGGGATCT TTCTCAGCGA
GTGGATCATA TAAGGGAAAA CATGGGTGGA TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_002195436.1 CDS 298..3690 Translation
Target ORF information:
RefSeq Version XM_002195400.3 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata Janus kinase 2 (JAK2), mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_002195400.3
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
3361ATGGCTTGTC TTACAATGAC AAATATGGAA AGTACAGCAA CTTCTACTGT CCGCCAGAAT
GGTGACATCC GTGGAAATAG CAGTGCACCC AAGCAGACAG AACCATTGCT TCAAGTGTAC
CTTTATCATT CTCCTGGGAA GACAGAAGGA GATTACCTTC AGTTTTCAGC TGGAGAATAT
GTTGCAGAAG AGATTTGCGC TGTTGCCTGT AAAGCCTGTG GTATCATGCC AGTGTATCAT
AACATGTTTG CACTCATGAA TGAAACAGAC AGAATGTGGT ATCCCCCAAA TCACATCTTC
CATGTAGATG AGACAACCAG ACTCATCCTA ATTTACCGGA TAAGGTTTTA TTTTCCCCAC
TGGTATTGCA GTGGCAGCAA CAGAGCATAC CGGTATGGCA TTCTTCGTGG TGCAGAAAGC
CCCGTCCTTG ATGATCTTGT CATGTCTTAC CTATTTGCAC AGTGGCGAAC TGATTTTTTG
GATGGATGGG TACAGATGCC TGTTACTCAT GAAACACAAG AAGAATGCCT TGGAATGGCT
GTTCTAGATA TGATGAGAGT GGCCAAAGAA AAGGACCAAA CCCCAATGGC TATTTACAAT
TCAGTCAGCT ACAAAATGTT TTTACCTAAG TGTGTGCGAG CAAAAATCCA AGACTACCAT
ATTTTGACCC GAAAAAGAAT AAGGTACAGA TTCCGCAAAT TTATACAACA GTTTGGCCAA
TGCAAAGCTA CTGCCAGAAA CCTGAAACTC AAGTATCTCA TAAATCTGGA AACCCTTCAG
CCTGCCTTCT ATTCAGAGGT TTTTGAAGTA AAAGAACCTG GTGGAGGTCC TTCTGGAGAG
GAAAGTTTTG CAACTGTTGT AATAACTGGA AATGGAGGAA TTCAGTGCTC AAGAGGAAAA
CTTAAAGATT GTGAAACACT TGGAGAGCAG GATTTACAAA CATACTGTGA TTTTCCTGAT
ATCATTGATG TCAGCATTAA ACAGGCGAGC CAAGAAGGCT CCAGTGAGAG AAGAATTGTC
ACCATTCACA AACAAGACAG CAAGAATCTG GAGGCTGAAT TTCAGTCATT AAGAGAAGCT
CTCTCCTTTG TATCATTAAT TGATGGATAT TACAGATTAA CAGCGGATGC ACATCATTAT
CTCTGTAAAG AAGTAGCACC ACCATCAGTC CTTGAAAATA TCCAAAGCAA CTGTCATGGA
CCAATTTTCA TGGACTTTGC TATCAGTAAA CTGAAGAAAG CTGGTAATCA GACTGGTTTC
TACGTTCTTC GTTGCAGTCC TAAAGATTTT AAAAAATACT TCCTTACCTT TGCTATAGAG
CGTGACAGTA CTACAGATTA TAAGCACTGT TTAATTACGA AGAATGAGAA CGGAGAATAT
AATCTTAGTG GAACCAAGAG AAGTTTTAGT AATCTTAAGG ATCTCTTGAC CTGTTACCAG
ACAGAAACTG TCCGTTCAGA CAGCATAATT TTCCAGTTCG TCAAATGCTG TCCTCCGAAA
CCAAAAGATA AATCAAATCT CCTTGTTTTC AGAAGCAATA GCGTTTCCGA TGTATCTTCA
TCACCTATGC TACAGAGGCA CAATAATGTC AATCAAATGG TCTTTCATAA AATCCGTAAT
GAGGACTTGA TATTCGAGGA GAGTCTTGGA CAGGGCACAT TTACTAAGAT TTTCAAAGGT
GTAAGGAAAG AAGTGGGAGA CTATGGCCAG CTCCATCAAA CTGAAGTTCT TTTAAAGGTG
CTGGATAAAG TGCACAGAAA CTACTCTGAG TCCTTTTTTG AAGCAGCAAG TATGATGAGC
CAGCTTTCTT ACAAACATTT GGTGTTGAAT TATGGAGTCT GTGTTTGTGG AGAAGAGAAT
ATCCTTGTAC AAGAATATGT AAAATTTGGA TCCTTGGACA CATATTTGAA AAAGAACAAA
AATGTTATCA ATATCTTGTG GAAGCTGGAA GTAGCCAAAC AGTTGGCATT AGCCATGCAT
TTTCTGGAGG ATAAAGGTCT TGTTCATGGG AATGTCTGTG CAAAAAACAT CTTGCTTATC
AGAGAGGAAG ACAGGAAGTC TGGAAACCTC CCGTTTATAA AGCTGAGTGA TCCTGGCATC
AGTATTACAG TTTTGCCAAG AGATATTCTT CTGGAGAGAA TACCCTGGGT TCCCCCTGAA
TGTATTGAGA ATCCCAAACA GCTAAGCCTA GCTACAGACA AGTGGAGTTT TGGTACCACT
TTGTGGGAAA TCTGCAGTGG AGGAGACAAA CCCCTGAGTG CACTAGATTC TTCAAGAAAA
CTACAATTTT ATGAAGACAG GCACCAGCTT CCTGCCCCCA ACTGGACAGA ACTTGCAAAC
CTCATAAACA ACTGCATGGA TTATGAGCCA GATTTCAGGC CTTCTTTTAG AGCAATTATA
CGTGATTTGA ACAGTTTGTT CACTCCAGAT TACGAGCTAT TGACAGAAAG TGATATGTTG
CCAAATATGA GAATTGGAGC ACTTGGATTT TCTGGCGCTT TTGAAGATCG GGACCCAACA
CAATTTGAAG AAAGACATCT TAAGTTTTTA CAGCAACTTG GCAAGGGAAA TTTTGGCAGC
GTTGAGATGT GCCGGTATGA CCCGCTGCAG GATAATACTG GGGAGGTGGT GGCTGTGAAA
AAGCTGCAAC ATAGCACAGA AGAGCACCTT AGGGACTTTG AAAGAGAAAT TGAAATACTT
AAATCACTGC AGCATGATAA CATCGTTAAA TACAAAGGAG TATGCTACAG TGCAGGACGT
AGGAATCTAA GATTAATTAT GGAATACTTA CCATACGGAA GTTTACGCGA TTATCTGCAG
AAACACAAGG AGAGGCTGGA CCACAAGAAG CTTTTACTGT ATGCGTCTCA GATATGCAAG
GGCATGGAGT ATCTGGGTAC AAAAAGATAT GTTCACCGGG ATTTGGCAAC AAGAAATATC
TTGGTGGAGA ATGAGAACAG AGTTAAAATT GGAGATTTTG GATTGACGAA AGTCTTGCCA
CAAGACAAAG AATACTACAA AGTAAAAGAA CCTGGTGAAA GTCCTATATT TTGGTACGCT
CCAGAATCTC TGACAGAAAG CAAATTTTCT GTGGCCTCGG ATGTGTGGAG CTTTGGTGTG
GTCTTGTATG AACTTTTCAC CTATATTGAC AAAAGCAAAA GCCCACCAGC TGAATTCATG
CGCATGATTG GCAATGATAA ACAAGGGCAG ATGATTGTAT TTCATTTGAT AGAGCTTTTG
AAGAATAATG GACGACTGCC GAGACCAGAT GGATGCCCTG ATGAGATTTA TGCTATCATG
AAAGAATGCT GGAACAATAA TGTTTCCCAG CGCCCCACCT TTCGGGATCT TTCTCAGCGA
GTGGATCATA TAAGGGAAAA CATGGGTGGA TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd13360 Clone ID Related Accession (Same CDS sequence) XM_002195400.4 , XM_002195400.3 , XM_030257486.1 , XM_030257483.1 , XM_030257484.1 , XM_030257488.1 , XM_030257487.1 , XM_030257485.1 Accession Version XM_030257486.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3393bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1565193600000 Organism Taeniopygia guttata(zebra finch) Product tyrosine-protein kinase JAK2 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044241.1) 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
3361ATGGCTTGTC TTACAATGAC AAATATGGAA AGTACAGCAA CTTCTACTGT CCGCCAGAAT
GGTGACATCC GTGGAAATAG CAGTGCACCC AAGCAGACAG AACCATTGCT TCAAGTGTAC
CTTTATCATT CTCCTGGGAA GACAGAAGGA GATTACCTTC AGTTTTCAGC TGGAGAATAT
GTTGCAGAAG AGATTTGCGC TGTTGCCTGT AAAGCCTGTG GTATCATGCC AGTGTATCAT
AACATGTTTG CACTCATGAA TGAAACAGAC AGAATGTGGT ATCCCCCAAA TCACATCTTC
CATGTAGATG AGACAACCAG ACTCATCCTA ATTTACCGGA TAAGGTTTTA TTTTCCCCAC
TGGTATTGCA GTGGCAGCAA CAGAGCATAC CGGTATGGCA TTCTTCGTGG TGCAGAAAGC
CCCGTCCTTG ATGATCTTGT CATGTCTTAC CTATTTGCAC AGTGGCGAAC TGATTTTTTG
GATGGATGGG TACAGATGCC TGTTACTCAT GAAACACAAG AAGAATGCCT TGGAATGGCT
GTTCTAGATA TGATGAGAGT GGCCAAAGAA AAGGACCAAA CCCCAATGGC TATTTACAAT
TCAGTCAGCT ACAAAATGTT TTTACCTAAG TGTGTGCGAG CAAAAATCCA AGACTACCAT
ATTTTGACCC GAAAAAGAAT AAGGTACAGA TTCCGCAAAT TTATACAACA GTTTGGCCAA
TGCAAAGCTA CTGCCAGAAA CCTGAAACTC AAGTATCTCA TAAATCTGGA AACCCTTCAG
CCTGCCTTCT ATTCAGAGGT TTTTGAAGTA AAAGAACCTG GTGGAGGTCC TTCTGGAGAG
GAAAGTTTTG CAACTGTTGT AATAACTGGA AATGGAGGAA TTCAGTGCTC AAGAGGAAAA
CTTAAAGATT GTGAAACACT TGGAGAGCAG GATTTACAAA CATACTGTGA TTTTCCTGAT
ATCATTGATG TCAGCATTAA ACAGGCGAGC CAAGAAGGCT CCAGTGAGAG AAGAATTGTC
ACCATTCACA AACAAGACAG CAAGAATCTG GAGGCTGAAT TTCAGTCATT AAGAGAAGCT
CTCTCCTTTG TATCATTAAT TGATGGATAT TACAGATTAA CAGCGGATGC ACATCATTAT
CTCTGTAAAG AAGTAGCACC ACCATCAGTC CTTGAAAATA TCCAAAGCAA CTGTCATGGA
CCAATTTTCA TGGACTTTGC TATCAGTAAA CTGAAGAAAG CTGGTAATCA GACTGGTTTC
TACGTTCTTC GTTGCAGTCC TAAAGATTTT AAAAAATACT TCCTTACCTT TGCTATAGAG
CGTGACAGTA CTACAGATTA TAAGCACTGT TTAATTACGA AGAATGAGAA CGGAGAATAT
AATCTTAGTG GAACCAAGAG AAGTTTTAGT AATCTTAAGG ATCTCTTGAC CTGTTACCAG
ACAGAAACTG TCCGTTCAGA CAGCATAATT TTCCAGTTCG TCAAATGCTG TCCTCCGAAA
CCAAAAGATA AATCAAATCT CCTTGTTTTC AGAAGCAATA GCGTTTCCGA TGTATCTTCA
TCACCTATGC TACAGAGGCA CAATAATGTC AATCAAATGG TCTTTCATAA AATCCGTAAT
GAGGACTTGA TATTCGAGGA GAGTCTTGGA CAGGGCACAT TTACTAAGAT TTTCAAAGGT
GTAAGGAAAG AAGTGGGAGA CTATGGCCAG CTCCATCAAA CTGAAGTTCT TTTAAAGGTG
CTGGATAAAG TGCACAGAAA CTACTCTGAG TCCTTTTTTG AAGCAGCAAG TATGATGAGC
CAGCTTTCTT ACAAACATTT GGTGTTGAAT TATGGAGTCT GTGTTTGTGG AGAAGAGAAT
ATCCTTGTAC AAGAATATGT AAAATTTGGA TCCTTGGACA CATATTTGAA AAAGAACAAA
AATGTTATCA ATATCTTGTG GAAGCTGGAA GTAGCCAAAC AGTTGGCATT AGCCATGCAT
TTTCTGGAGG ATAAAGGTCT TGTTCATGGG AATGTCTGTG CAAAAAACAT CTTGCTTATC
AGAGAGGAAG ACAGGAAGTC TGGAAACCTC CCGTTTATAA AGCTGAGTGA TCCTGGCATC
AGTATTACAG TTTTGCCAAG AGATATTCTT CTGGAGAGAA TACCCTGGGT TCCCCCTGAA
TGTATTGAGA ATCCCAAACA GCTAAGCCTA GCTACAGACA AGTGGAGTTT TGGTACCACT
TTGTGGGAAA TCTGCAGTGG AGGAGACAAA CCCCTGAGTG CACTAGATTC TTCAAGAAAA
CTACAATTTT ATGAAGACAG GCACCAGCTT CCTGCCCCCA ACTGGACAGA ACTTGCAAAC
CTCATAAACA ACTGCATGGA TTATGAGCCA GATTTCAGGC CTTCTTTTAG AGCAATTATA
CGTGATTTGA ACAGTTTGTT CACTCCAGAT TACGAGCTAT TGACAGAAAG TGATATGTTG
CCAAATATGA GAATTGGAGC ACTTGGATTT TCTGGCGCTT TTGAAGATCG GGACCCAACA
CAATTTGAAG AAAGACATCT TAAGTTTTTA CAGCAACTTG GCAAGGGAAA TTTTGGCAGC
GTTGAGATGT GCCGGTATGA CCCGCTGCAG GATAATACTG GGGAGGTGGT GGCTGTGAAA
AAGCTGCAAC ATAGCACAGA AGAGCACCTT AGGGACTTTG AAAGAGAAAT TGAAATACTT
AAATCACTGC AGCATGATAA CATCGTTAAA TACAAAGGAG TATGCTACAG TGCAGGACGT
AGGAATCTAA GATTAATTAT GGAATACTTA CCATACGGAA GTTTACGCGA TTATCTGCAG
AAACACAAGG AGAGGCTGGA CCACAAGAAG CTTTTACTGT ATGCGTCTCA GATATGCAAG
GGCATGGAGT ATCTGGGTAC AAAAAGATAT GTTCACCGGG ATTTGGCAAC AAGAAATATC
TTGGTGGAGA ATGAGAACAG AGTTAAAATT GGAGATTTTG GATTGACGAA AGTCTTGCCA
CAAGACAAAG AATACTACAA AGTAAAAGAA CCTGGTGAAA GTCCTATATT TTGGTACGCT
CCAGAATCTC TGACAGAAAG CAAATTTTCT GTGGCCTCGG ATGTGTGGAG CTTTGGTGTG
GTCTTGTATG AACTTTTCAC CTATATTGAC AAAAGCAAAA GCCCACCAGC TGAATTCATG
CGCATGATTG GCAATGATAA ACAAGGGCAG ATGATTGTAT TTCATTTGAT AGAGCTTTTG
AAGAATAATG GACGACTGCC GAGACCAGAT GGATGCCCTG ATGAGATTTA TGCTATCATG
AAAGAATGCT GGAACAATAA TGTTTCCCAG CGCCCCACCT TTCGGGATCT TTCTCAGCGA
GTGGATCATA TAAGGGAAAA CATGGGTGGA TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030113346.1 CDS 111..3503 Translation
Target ORF information:
RefSeq Version XM_030257486.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata Janus kinase 2 (JAK2), transcript variant X5, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030257486.1
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
3361ATGGCTTGTC TTACAATGAC AAATATGGAA AGTACAGCAA CTTCTACTGT CCGCCAGAAT
GGTGACATCC GTGGAAATAG CAGTGCACCC AAGCAGACAG AACCATTGCT TCAAGTGTAC
CTTTATCATT CTCCTGGGAA GACAGAAGGA GATTACCTTC AGTTTTCAGC TGGAGAATAT
GTTGCAGAAG AGATTTGCGC TGTTGCCTGT AAAGCCTGTG GTATCATGCC AGTGTATCAT
AACATGTTTG CACTCATGAA TGAAACAGAC AGAATGTGGT ATCCCCCAAA TCACATCTTC
CATGTAGATG AGACAACCAG ACTCATCCTA ATTTACCGGA TAAGGTTTTA TTTTCCCCAC
TGGTATTGCA GTGGCAGCAA CAGAGCATAC CGGTATGGCA TTCTTCGTGG TGCAGAAAGC
CCCGTCCTTG ATGATCTTGT CATGTCTTAC CTATTTGCAC AGTGGCGAAC TGATTTTTTG
GATGGATGGG TACAGATGCC TGTTACTCAT GAAACACAAG AAGAATGCCT TGGAATGGCT
GTTCTAGATA TGATGAGAGT GGCCAAAGAA AAGGACCAAA CCCCAATGGC TATTTACAAT
TCAGTCAGCT ACAAAATGTT TTTACCTAAG TGTGTGCGAG CAAAAATCCA AGACTACCAT
ATTTTGACCC GAAAAAGAAT AAGGTACAGA TTCCGCAAAT TTATACAACA GTTTGGCCAA
TGCAAAGCTA CTGCCAGAAA CCTGAAACTC AAGTATCTCA TAAATCTGGA AACCCTTCAG
CCTGCCTTCT ATTCAGAGGT TTTTGAAGTA AAAGAACCTG GTGGAGGTCC TTCTGGAGAG
GAAAGTTTTG CAACTGTTGT AATAACTGGA AATGGAGGAA TTCAGTGCTC AAGAGGAAAA
CTTAAAGATT GTGAAACACT TGGAGAGCAG GATTTACAAA CATACTGTGA TTTTCCTGAT
ATCATTGATG TCAGCATTAA ACAGGCGAGC CAAGAAGGCT CCAGTGAGAG AAGAATTGTC
ACCATTCACA AACAAGACAG CAAGAATCTG GAGGCTGAAT TTCAGTCATT AAGAGAAGCT
CTCTCCTTTG TATCATTAAT TGATGGATAT TACAGATTAA CAGCGGATGC ACATCATTAT
CTCTGTAAAG AAGTAGCACC ACCATCAGTC CTTGAAAATA TCCAAAGCAA CTGTCATGGA
CCAATTTTCA TGGACTTTGC TATCAGTAAA CTGAAGAAAG CTGGTAATCA GACTGGTTTC
TACGTTCTTC GTTGCAGTCC TAAAGATTTT AAAAAATACT TCCTTACCTT TGCTATAGAG
CGTGACAGTA CTACAGATTA TAAGCACTGT TTAATTACGA AGAATGAGAA CGGAGAATAT
AATCTTAGTG GAACCAAGAG AAGTTTTAGT AATCTTAAGG ATCTCTTGAC CTGTTACCAG
ACAGAAACTG TCCGTTCAGA CAGCATAATT TTCCAGTTCG TCAAATGCTG TCCTCCGAAA
CCAAAAGATA AATCAAATCT CCTTGTTTTC AGAAGCAATA GCGTTTCCGA TGTATCTTCA
TCACCTATGC TACAGAGGCA CAATAATGTC AATCAAATGG TCTTTCATAA AATCCGTAAT
GAGGACTTGA TATTCGAGGA GAGTCTTGGA CAGGGCACAT TTACTAAGAT TTTCAAAGGT
GTAAGGAAAG AAGTGGGAGA CTATGGCCAG CTCCATCAAA CTGAAGTTCT TTTAAAGGTG
CTGGATAAAG TGCACAGAAA CTACTCTGAG TCCTTTTTTG AAGCAGCAAG TATGATGAGC
CAGCTTTCTT ACAAACATTT GGTGTTGAAT TATGGAGTCT GTGTTTGTGG AGAAGAGAAT
ATCCTTGTAC AAGAATATGT AAAATTTGGA TCCTTGGACA CATATTTGAA AAAGAACAAA
AATGTTATCA ATATCTTGTG GAAGCTGGAA GTAGCCAAAC AGTTGGCATT AGCCATGCAT
TTTCTGGAGG ATAAAGGTCT TGTTCATGGG AATGTCTGTG CAAAAAACAT CTTGCTTATC
AGAGAGGAAG ACAGGAAGTC TGGAAACCTC CCGTTTATAA AGCTGAGTGA TCCTGGCATC
AGTATTACAG TTTTGCCAAG AGATATTCTT CTGGAGAGAA TACCCTGGGT TCCCCCTGAA
TGTATTGAGA ATCCCAAACA GCTAAGCCTA GCTACAGACA AGTGGAGTTT TGGTACCACT
TTGTGGGAAA TCTGCAGTGG AGGAGACAAA CCCCTGAGTG CACTAGATTC TTCAAGAAAA
CTACAATTTT ATGAAGACAG GCACCAGCTT CCTGCCCCCA ACTGGACAGA ACTTGCAAAC
CTCATAAACA ACTGCATGGA TTATGAGCCA GATTTCAGGC CTTCTTTTAG AGCAATTATA
CGTGATTTGA ACAGTTTGTT CACTCCAGAT TACGAGCTAT TGACAGAAAG TGATATGTTG
CCAAATATGA GAATTGGAGC ACTTGGATTT TCTGGCGCTT TTGAAGATCG GGACCCAACA
CAATTTGAAG AAAGACATCT TAAGTTTTTA CAGCAACTTG GCAAGGGAAA TTTTGGCAGC
GTTGAGATGT GCCGGTATGA CCCGCTGCAG GATAATACTG GGGAGGTGGT GGCTGTGAAA
AAGCTGCAAC ATAGCACAGA AGAGCACCTT AGGGACTTTG AAAGAGAAAT TGAAATACTT
AAATCACTGC AGCATGATAA CATCGTTAAA TACAAAGGAG TATGCTACAG TGCAGGACGT
AGGAATCTAA GATTAATTAT GGAATACTTA CCATACGGAA GTTTACGCGA TTATCTGCAG
AAACACAAGG AGAGGCTGGA CCACAAGAAG CTTTTACTGT ATGCGTCTCA GATATGCAAG
GGCATGGAGT ATCTGGGTAC AAAAAGATAT GTTCACCGGG ATTTGGCAAC AAGAAATATC
TTGGTGGAGA ATGAGAACAG AGTTAAAATT GGAGATTTTG GATTGACGAA AGTCTTGCCA
CAAGACAAAG AATACTACAA AGTAAAAGAA CCTGGTGAAA GTCCTATATT TTGGTACGCT
CCAGAATCTC TGACAGAAAG CAAATTTTCT GTGGCCTCGG ATGTGTGGAG CTTTGGTGTG
GTCTTGTATG AACTTTTCAC CTATATTGAC AAAAGCAAAA GCCCACCAGC TGAATTCATG
CGCATGATTG GCAATGATAA ACAAGGGCAG ATGATTGTAT TTCATTTGAT AGAGCTTTTG
AAGAATAATG GACGACTGCC GAGACCAGAT GGATGCCCTG ATGAGATTTA TGCTATCATG
AAAGAATGCT GGAACAATAA TGTTTCCCAG CGCCCCACCT TTCGGGATCT TTCTCAGCGA
GTGGATCATA TAAGGGAAAA CATGGGTGGA TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd13360 Clone ID Related Accession (Same CDS sequence) XM_002195400.4 , XM_002195400.3 , XM_030257486.1 , XM_030257483.1 , XM_030257484.1 , XM_030257488.1 , XM_030257487.1 , XM_030257485.1 Accession Version XM_030257483.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3393bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1565193600000 Organism Taeniopygia guttata(zebra finch) Product tyrosine-protein kinase JAK2 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044241.1) 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
3361ATGGCTTGTC TTACAATGAC AAATATGGAA AGTACAGCAA CTTCTACTGT CCGCCAGAAT
GGTGACATCC GTGGAAATAG CAGTGCACCC AAGCAGACAG AACCATTGCT TCAAGTGTAC
CTTTATCATT CTCCTGGGAA GACAGAAGGA GATTACCTTC AGTTTTCAGC TGGAGAATAT
GTTGCAGAAG AGATTTGCGC TGTTGCCTGT AAAGCCTGTG GTATCATGCC AGTGTATCAT
AACATGTTTG CACTCATGAA TGAAACAGAC AGAATGTGGT ATCCCCCAAA TCACATCTTC
CATGTAGATG AGACAACCAG ACTCATCCTA ATTTACCGGA TAAGGTTTTA TTTTCCCCAC
TGGTATTGCA GTGGCAGCAA CAGAGCATAC CGGTATGGCA TTCTTCGTGG TGCAGAAAGC
CCCGTCCTTG ATGATCTTGT CATGTCTTAC CTATTTGCAC AGTGGCGAAC TGATTTTTTG
GATGGATGGG TACAGATGCC TGTTACTCAT GAAACACAAG AAGAATGCCT TGGAATGGCT
GTTCTAGATA TGATGAGAGT GGCCAAAGAA AAGGACCAAA CCCCAATGGC TATTTACAAT
TCAGTCAGCT ACAAAATGTT TTTACCTAAG TGTGTGCGAG CAAAAATCCA AGACTACCAT
ATTTTGACCC GAAAAAGAAT AAGGTACAGA TTCCGCAAAT TTATACAACA GTTTGGCCAA
TGCAAAGCTA CTGCCAGAAA CCTGAAACTC AAGTATCTCA TAAATCTGGA AACCCTTCAG
CCTGCCTTCT ATTCAGAGGT TTTTGAAGTA AAAGAACCTG GTGGAGGTCC TTCTGGAGAG
GAAAGTTTTG CAACTGTTGT AATAACTGGA AATGGAGGAA TTCAGTGCTC AAGAGGAAAA
CTTAAAGATT GTGAAACACT TGGAGAGCAG GATTTACAAA CATACTGTGA TTTTCCTGAT
ATCATTGATG TCAGCATTAA ACAGGCGAGC CAAGAAGGCT CCAGTGAGAG AAGAATTGTC
ACCATTCACA AACAAGACAG CAAGAATCTG GAGGCTGAAT TTCAGTCATT AAGAGAAGCT
CTCTCCTTTG TATCATTAAT TGATGGATAT TACAGATTAA CAGCGGATGC ACATCATTAT
CTCTGTAAAG AAGTAGCACC ACCATCAGTC CTTGAAAATA TCCAAAGCAA CTGTCATGGA
CCAATTTTCA TGGACTTTGC TATCAGTAAA CTGAAGAAAG CTGGTAATCA GACTGGTTTC
TACGTTCTTC GTTGCAGTCC TAAAGATTTT AAAAAATACT TCCTTACCTT TGCTATAGAG
CGTGACAGTA CTACAGATTA TAAGCACTGT TTAATTACGA AGAATGAGAA CGGAGAATAT
AATCTTAGTG GAACCAAGAG AAGTTTTAGT AATCTTAAGG ATCTCTTGAC CTGTTACCAG
ACAGAAACTG TCCGTTCAGA CAGCATAATT TTCCAGTTCG TCAAATGCTG TCCTCCGAAA
CCAAAAGATA AATCAAATCT CCTTGTTTTC AGAAGCAATA GCGTTTCCGA TGTATCTTCA
TCACCTATGC TACAGAGGCA CAATAATGTC AATCAAATGG TCTTTCATAA AATCCGTAAT
GAGGACTTGA TATTCGAGGA GAGTCTTGGA CAGGGCACAT TTACTAAGAT TTTCAAAGGT
GTAAGGAAAG AAGTGGGAGA CTATGGCCAG CTCCATCAAA CTGAAGTTCT TTTAAAGGTG
CTGGATAAAG TGCACAGAAA CTACTCTGAG TCCTTTTTTG AAGCAGCAAG TATGATGAGC
CAGCTTTCTT ACAAACATTT GGTGTTGAAT TATGGAGTCT GTGTTTGTGG AGAAGAGAAT
ATCCTTGTAC AAGAATATGT AAAATTTGGA TCCTTGGACA CATATTTGAA AAAGAACAAA
AATGTTATCA ATATCTTGTG GAAGCTGGAA GTAGCCAAAC AGTTGGCATT AGCCATGCAT
TTTCTGGAGG ATAAAGGTCT TGTTCATGGG AATGTCTGTG CAAAAAACAT CTTGCTTATC
AGAGAGGAAG ACAGGAAGTC TGGAAACCTC CCGTTTATAA AGCTGAGTGA TCCTGGCATC
AGTATTACAG TTTTGCCAAG AGATATTCTT CTGGAGAGAA TACCCTGGGT TCCCCCTGAA
TGTATTGAGA ATCCCAAACA GCTAAGCCTA GCTACAGACA AGTGGAGTTT TGGTACCACT
TTGTGGGAAA TCTGCAGTGG AGGAGACAAA CCCCTGAGTG CACTAGATTC TTCAAGAAAA
CTACAATTTT ATGAAGACAG GCACCAGCTT CCTGCCCCCA ACTGGACAGA ACTTGCAAAC
CTCATAAACA ACTGCATGGA TTATGAGCCA GATTTCAGGC CTTCTTTTAG AGCAATTATA
CGTGATTTGA ACAGTTTGTT CACTCCAGAT TACGAGCTAT TGACAGAAAG TGATATGTTG
CCAAATATGA GAATTGGAGC ACTTGGATTT TCTGGCGCTT TTGAAGATCG GGACCCAACA
CAATTTGAAG AAAGACATCT TAAGTTTTTA CAGCAACTTG GCAAGGGAAA TTTTGGCAGC
GTTGAGATGT GCCGGTATGA CCCGCTGCAG GATAATACTG GGGAGGTGGT GGCTGTGAAA
AAGCTGCAAC ATAGCACAGA AGAGCACCTT AGGGACTTTG AAAGAGAAAT TGAAATACTT
AAATCACTGC AGCATGATAA CATCGTTAAA TACAAAGGAG TATGCTACAG TGCAGGACGT
AGGAATCTAA GATTAATTAT GGAATACTTA CCATACGGAA GTTTACGCGA TTATCTGCAG
AAACACAAGG AGAGGCTGGA CCACAAGAAG CTTTTACTGT ATGCGTCTCA GATATGCAAG
GGCATGGAGT ATCTGGGTAC AAAAAGATAT GTTCACCGGG ATTTGGCAAC AAGAAATATC
TTGGTGGAGA ATGAGAACAG AGTTAAAATT GGAGATTTTG GATTGACGAA AGTCTTGCCA
CAAGACAAAG AATACTACAA AGTAAAAGAA CCTGGTGAAA GTCCTATATT TTGGTACGCT
CCAGAATCTC TGACAGAAAG CAAATTTTCT GTGGCCTCGG ATGTGTGGAG CTTTGGTGTG
GTCTTGTATG AACTTTTCAC CTATATTGAC AAAAGCAAAA GCCCACCAGC TGAATTCATG
CGCATGATTG GCAATGATAA ACAAGGGCAG ATGATTGTAT TTCATTTGAT AGAGCTTTTG
AAGAATAATG GACGACTGCC GAGACCAGAT GGATGCCCTG ATGAGATTTA TGCTATCATG
AAAGAATGCT GGAACAATAA TGTTTCCCAG CGCCCCACCT TTCGGGATCT TTCTCAGCGA
GTGGATCATA TAAGGGAAAA CATGGGTGGA TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030113343.1 CDS 294..3686 Translation
Target ORF information:
RefSeq Version XM_030257483.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata Janus kinase 2 (JAK2), transcript variant X1, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030257483.1
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
3361ATGGCTTGTC TTACAATGAC AAATATGGAA AGTACAGCAA CTTCTACTGT CCGCCAGAAT
GGTGACATCC GTGGAAATAG CAGTGCACCC AAGCAGACAG AACCATTGCT TCAAGTGTAC
CTTTATCATT CTCCTGGGAA GACAGAAGGA GATTACCTTC AGTTTTCAGC TGGAGAATAT
GTTGCAGAAG AGATTTGCGC TGTTGCCTGT AAAGCCTGTG GTATCATGCC AGTGTATCAT
AACATGTTTG CACTCATGAA TGAAACAGAC AGAATGTGGT ATCCCCCAAA TCACATCTTC
CATGTAGATG AGACAACCAG ACTCATCCTA ATTTACCGGA TAAGGTTTTA TTTTCCCCAC
TGGTATTGCA GTGGCAGCAA CAGAGCATAC CGGTATGGCA TTCTTCGTGG TGCAGAAAGC
CCCGTCCTTG ATGATCTTGT CATGTCTTAC CTATTTGCAC AGTGGCGAAC TGATTTTTTG
GATGGATGGG TACAGATGCC TGTTACTCAT GAAACACAAG AAGAATGCCT TGGAATGGCT
GTTCTAGATA TGATGAGAGT GGCCAAAGAA AAGGACCAAA CCCCAATGGC TATTTACAAT
TCAGTCAGCT ACAAAATGTT TTTACCTAAG TGTGTGCGAG CAAAAATCCA AGACTACCAT
ATTTTGACCC GAAAAAGAAT AAGGTACAGA TTCCGCAAAT TTATACAACA GTTTGGCCAA
TGCAAAGCTA CTGCCAGAAA CCTGAAACTC AAGTATCTCA TAAATCTGGA AACCCTTCAG
CCTGCCTTCT ATTCAGAGGT TTTTGAAGTA AAAGAACCTG GTGGAGGTCC TTCTGGAGAG
GAAAGTTTTG CAACTGTTGT AATAACTGGA AATGGAGGAA TTCAGTGCTC AAGAGGAAAA
CTTAAAGATT GTGAAACACT TGGAGAGCAG GATTTACAAA CATACTGTGA TTTTCCTGAT
ATCATTGATG TCAGCATTAA ACAGGCGAGC CAAGAAGGCT CCAGTGAGAG AAGAATTGTC
ACCATTCACA AACAAGACAG CAAGAATCTG GAGGCTGAAT TTCAGTCATT AAGAGAAGCT
CTCTCCTTTG TATCATTAAT TGATGGATAT TACAGATTAA CAGCGGATGC ACATCATTAT
CTCTGTAAAG AAGTAGCACC ACCATCAGTC CTTGAAAATA TCCAAAGCAA CTGTCATGGA
CCAATTTTCA TGGACTTTGC TATCAGTAAA CTGAAGAAAG CTGGTAATCA GACTGGTTTC
TACGTTCTTC GTTGCAGTCC TAAAGATTTT AAAAAATACT TCCTTACCTT TGCTATAGAG
CGTGACAGTA CTACAGATTA TAAGCACTGT TTAATTACGA AGAATGAGAA CGGAGAATAT
AATCTTAGTG GAACCAAGAG AAGTTTTAGT AATCTTAAGG ATCTCTTGAC CTGTTACCAG
ACAGAAACTG TCCGTTCAGA CAGCATAATT TTCCAGTTCG TCAAATGCTG TCCTCCGAAA
CCAAAAGATA AATCAAATCT CCTTGTTTTC AGAAGCAATA GCGTTTCCGA TGTATCTTCA
TCACCTATGC TACAGAGGCA CAATAATGTC AATCAAATGG TCTTTCATAA AATCCGTAAT
GAGGACTTGA TATTCGAGGA GAGTCTTGGA CAGGGCACAT TTACTAAGAT TTTCAAAGGT
GTAAGGAAAG AAGTGGGAGA CTATGGCCAG CTCCATCAAA CTGAAGTTCT TTTAAAGGTG
CTGGATAAAG TGCACAGAAA CTACTCTGAG TCCTTTTTTG AAGCAGCAAG TATGATGAGC
CAGCTTTCTT ACAAACATTT GGTGTTGAAT TATGGAGTCT GTGTTTGTGG AGAAGAGAAT
ATCCTTGTAC AAGAATATGT AAAATTTGGA TCCTTGGACA CATATTTGAA AAAGAACAAA
AATGTTATCA ATATCTTGTG GAAGCTGGAA GTAGCCAAAC AGTTGGCATT AGCCATGCAT
TTTCTGGAGG ATAAAGGTCT TGTTCATGGG AATGTCTGTG CAAAAAACAT CTTGCTTATC
AGAGAGGAAG ACAGGAAGTC TGGAAACCTC CCGTTTATAA AGCTGAGTGA TCCTGGCATC
AGTATTACAG TTTTGCCAAG AGATATTCTT CTGGAGAGAA TACCCTGGGT TCCCCCTGAA
TGTATTGAGA ATCCCAAACA GCTAAGCCTA GCTACAGACA AGTGGAGTTT TGGTACCACT
TTGTGGGAAA TCTGCAGTGG AGGAGACAAA CCCCTGAGTG CACTAGATTC TTCAAGAAAA
CTACAATTTT ATGAAGACAG GCACCAGCTT CCTGCCCCCA ACTGGACAGA ACTTGCAAAC
CTCATAAACA ACTGCATGGA TTATGAGCCA GATTTCAGGC CTTCTTTTAG AGCAATTATA
CGTGATTTGA ACAGTTTGTT CACTCCAGAT TACGAGCTAT TGACAGAAAG TGATATGTTG
CCAAATATGA GAATTGGAGC ACTTGGATTT TCTGGCGCTT TTGAAGATCG GGACCCAACA
CAATTTGAAG AAAGACATCT TAAGTTTTTA CAGCAACTTG GCAAGGGAAA TTTTGGCAGC
GTTGAGATGT GCCGGTATGA CCCGCTGCAG GATAATACTG GGGAGGTGGT GGCTGTGAAA
AAGCTGCAAC ATAGCACAGA AGAGCACCTT AGGGACTTTG AAAGAGAAAT TGAAATACTT
AAATCACTGC AGCATGATAA CATCGTTAAA TACAAAGGAG TATGCTACAG TGCAGGACGT
AGGAATCTAA GATTAATTAT GGAATACTTA CCATACGGAA GTTTACGCGA TTATCTGCAG
AAACACAAGG AGAGGCTGGA CCACAAGAAG CTTTTACTGT ATGCGTCTCA GATATGCAAG
GGCATGGAGT ATCTGGGTAC AAAAAGATAT GTTCACCGGG ATTTGGCAAC AAGAAATATC
TTGGTGGAGA ATGAGAACAG AGTTAAAATT GGAGATTTTG GATTGACGAA AGTCTTGCCA
CAAGACAAAG AATACTACAA AGTAAAAGAA CCTGGTGAAA GTCCTATATT TTGGTACGCT
CCAGAATCTC TGACAGAAAG CAAATTTTCT GTGGCCTCGG ATGTGTGGAG CTTTGGTGTG
GTCTTGTATG AACTTTTCAC CTATATTGAC AAAAGCAAAA GCCCACCAGC TGAATTCATG
CGCATGATTG GCAATGATAA ACAAGGGCAG ATGATTGTAT TTCATTTGAT AGAGCTTTTG
AAGAATAATG GACGACTGCC GAGACCAGAT GGATGCCCTG ATGAGATTTA TGCTATCATG
AAAGAATGCT GGAACAATAA TGTTTCCCAG CGCCCCACCT TTCGGGATCT TTCTCAGCGA
GTGGATCATA TAAGGGAAAA CATGGGTGGA TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd13360 Clone ID Related Accession (Same CDS sequence) XM_002195400.4 , XM_002195400.3 , XM_030257486.1 , XM_030257483.1 , XM_030257484.1 , XM_030257488.1 , XM_030257487.1 , XM_030257485.1 Accession Version XM_030257484.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3393bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1565193600000 Organism Taeniopygia guttata(zebra finch) Product tyrosine-protein kinase JAK2 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044241.1) 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
3361ATGGCTTGTC TTACAATGAC AAATATGGAA AGTACAGCAA CTTCTACTGT CCGCCAGAAT
GGTGACATCC GTGGAAATAG CAGTGCACCC AAGCAGACAG AACCATTGCT TCAAGTGTAC
CTTTATCATT CTCCTGGGAA GACAGAAGGA GATTACCTTC AGTTTTCAGC TGGAGAATAT
GTTGCAGAAG AGATTTGCGC TGTTGCCTGT AAAGCCTGTG GTATCATGCC AGTGTATCAT
AACATGTTTG CACTCATGAA TGAAACAGAC AGAATGTGGT ATCCCCCAAA TCACATCTTC
CATGTAGATG AGACAACCAG ACTCATCCTA ATTTACCGGA TAAGGTTTTA TTTTCCCCAC
TGGTATTGCA GTGGCAGCAA CAGAGCATAC CGGTATGGCA TTCTTCGTGG TGCAGAAAGC
CCCGTCCTTG ATGATCTTGT CATGTCTTAC CTATTTGCAC AGTGGCGAAC TGATTTTTTG
GATGGATGGG TACAGATGCC TGTTACTCAT GAAACACAAG AAGAATGCCT TGGAATGGCT
GTTCTAGATA TGATGAGAGT GGCCAAAGAA AAGGACCAAA CCCCAATGGC TATTTACAAT
TCAGTCAGCT ACAAAATGTT TTTACCTAAG TGTGTGCGAG CAAAAATCCA AGACTACCAT
ATTTTGACCC GAAAAAGAAT AAGGTACAGA TTCCGCAAAT TTATACAACA GTTTGGCCAA
TGCAAAGCTA CTGCCAGAAA CCTGAAACTC AAGTATCTCA TAAATCTGGA AACCCTTCAG
CCTGCCTTCT ATTCAGAGGT TTTTGAAGTA AAAGAACCTG GTGGAGGTCC TTCTGGAGAG
GAAAGTTTTG CAACTGTTGT AATAACTGGA AATGGAGGAA TTCAGTGCTC AAGAGGAAAA
CTTAAAGATT GTGAAACACT TGGAGAGCAG GATTTACAAA CATACTGTGA TTTTCCTGAT
ATCATTGATG TCAGCATTAA ACAGGCGAGC CAAGAAGGCT CCAGTGAGAG AAGAATTGTC
ACCATTCACA AACAAGACAG CAAGAATCTG GAGGCTGAAT TTCAGTCATT AAGAGAAGCT
CTCTCCTTTG TATCATTAAT TGATGGATAT TACAGATTAA CAGCGGATGC ACATCATTAT
CTCTGTAAAG AAGTAGCACC ACCATCAGTC CTTGAAAATA TCCAAAGCAA CTGTCATGGA
CCAATTTTCA TGGACTTTGC TATCAGTAAA CTGAAGAAAG CTGGTAATCA GACTGGTTTC
TACGTTCTTC GTTGCAGTCC TAAAGATTTT AAAAAATACT TCCTTACCTT TGCTATAGAG
CGTGACAGTA CTACAGATTA TAAGCACTGT TTAATTACGA AGAATGAGAA CGGAGAATAT
AATCTTAGTG GAACCAAGAG AAGTTTTAGT AATCTTAAGG ATCTCTTGAC CTGTTACCAG
ACAGAAACTG TCCGTTCAGA CAGCATAATT TTCCAGTTCG TCAAATGCTG TCCTCCGAAA
CCAAAAGATA AATCAAATCT CCTTGTTTTC AGAAGCAATA GCGTTTCCGA TGTATCTTCA
TCACCTATGC TACAGAGGCA CAATAATGTC AATCAAATGG TCTTTCATAA AATCCGTAAT
GAGGACTTGA TATTCGAGGA GAGTCTTGGA CAGGGCACAT TTACTAAGAT TTTCAAAGGT
GTAAGGAAAG AAGTGGGAGA CTATGGCCAG CTCCATCAAA CTGAAGTTCT TTTAAAGGTG
CTGGATAAAG TGCACAGAAA CTACTCTGAG TCCTTTTTTG AAGCAGCAAG TATGATGAGC
CAGCTTTCTT ACAAACATTT GGTGTTGAAT TATGGAGTCT GTGTTTGTGG AGAAGAGAAT
ATCCTTGTAC AAGAATATGT AAAATTTGGA TCCTTGGACA CATATTTGAA AAAGAACAAA
AATGTTATCA ATATCTTGTG GAAGCTGGAA GTAGCCAAAC AGTTGGCATT AGCCATGCAT
TTTCTGGAGG ATAAAGGTCT TGTTCATGGG AATGTCTGTG CAAAAAACAT CTTGCTTATC
AGAGAGGAAG ACAGGAAGTC TGGAAACCTC CCGTTTATAA AGCTGAGTGA TCCTGGCATC
AGTATTACAG TTTTGCCAAG AGATATTCTT CTGGAGAGAA TACCCTGGGT TCCCCCTGAA
TGTATTGAGA ATCCCAAACA GCTAAGCCTA GCTACAGACA AGTGGAGTTT TGGTACCACT
TTGTGGGAAA TCTGCAGTGG AGGAGACAAA CCCCTGAGTG CACTAGATTC TTCAAGAAAA
CTACAATTTT ATGAAGACAG GCACCAGCTT CCTGCCCCCA ACTGGACAGA ACTTGCAAAC
CTCATAAACA ACTGCATGGA TTATGAGCCA GATTTCAGGC CTTCTTTTAG AGCAATTATA
CGTGATTTGA ACAGTTTGTT CACTCCAGAT TACGAGCTAT TGACAGAAAG TGATATGTTG
CCAAATATGA GAATTGGAGC ACTTGGATTT TCTGGCGCTT TTGAAGATCG GGACCCAACA
CAATTTGAAG AAAGACATCT TAAGTTTTTA CAGCAACTTG GCAAGGGAAA TTTTGGCAGC
GTTGAGATGT GCCGGTATGA CCCGCTGCAG GATAATACTG GGGAGGTGGT GGCTGTGAAA
AAGCTGCAAC ATAGCACAGA AGAGCACCTT AGGGACTTTG AAAGAGAAAT TGAAATACTT
AAATCACTGC AGCATGATAA CATCGTTAAA TACAAAGGAG TATGCTACAG TGCAGGACGT
AGGAATCTAA GATTAATTAT GGAATACTTA CCATACGGAA GTTTACGCGA TTATCTGCAG
AAACACAAGG AGAGGCTGGA CCACAAGAAG CTTTTACTGT ATGCGTCTCA GATATGCAAG
GGCATGGAGT ATCTGGGTAC AAAAAGATAT GTTCACCGGG ATTTGGCAAC AAGAAATATC
TTGGTGGAGA ATGAGAACAG AGTTAAAATT GGAGATTTTG GATTGACGAA AGTCTTGCCA
CAAGACAAAG AATACTACAA AGTAAAAGAA CCTGGTGAAA GTCCTATATT TTGGTACGCT
CCAGAATCTC TGACAGAAAG CAAATTTTCT GTGGCCTCGG ATGTGTGGAG CTTTGGTGTG
GTCTTGTATG AACTTTTCAC CTATATTGAC AAAAGCAAAA GCCCACCAGC TGAATTCATG
CGCATGATTG GCAATGATAA ACAAGGGCAG ATGATTGTAT TTCATTTGAT AGAGCTTTTG
AAGAATAATG GACGACTGCC GAGACCAGAT GGATGCCCTG ATGAGATTTA TGCTATCATG
AAAGAATGCT GGAACAATAA TGTTTCCCAG CGCCCCACCT TTCGGGATCT TTCTCAGCGA
GTGGATCATA TAAGGGAAAA CATGGGTGGA TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030113344.1 CDS 229..3621 Translation
Target ORF information:
RefSeq Version XM_030257484.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata Janus kinase 2 (JAK2), transcript variant X2, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030257484.1
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
3361ATGGCTTGTC TTACAATGAC AAATATGGAA AGTACAGCAA CTTCTACTGT CCGCCAGAAT
GGTGACATCC GTGGAAATAG CAGTGCACCC AAGCAGACAG AACCATTGCT TCAAGTGTAC
CTTTATCATT CTCCTGGGAA GACAGAAGGA GATTACCTTC AGTTTTCAGC TGGAGAATAT
GTTGCAGAAG AGATTTGCGC TGTTGCCTGT AAAGCCTGTG GTATCATGCC AGTGTATCAT
AACATGTTTG CACTCATGAA TGAAACAGAC AGAATGTGGT ATCCCCCAAA TCACATCTTC
CATGTAGATG AGACAACCAG ACTCATCCTA ATTTACCGGA TAAGGTTTTA TTTTCCCCAC
TGGTATTGCA GTGGCAGCAA CAGAGCATAC CGGTATGGCA TTCTTCGTGG TGCAGAAAGC
CCCGTCCTTG ATGATCTTGT CATGTCTTAC CTATTTGCAC AGTGGCGAAC TGATTTTTTG
GATGGATGGG TACAGATGCC TGTTACTCAT GAAACACAAG AAGAATGCCT TGGAATGGCT
GTTCTAGATA TGATGAGAGT GGCCAAAGAA AAGGACCAAA CCCCAATGGC TATTTACAAT
TCAGTCAGCT ACAAAATGTT TTTACCTAAG TGTGTGCGAG CAAAAATCCA AGACTACCAT
ATTTTGACCC GAAAAAGAAT AAGGTACAGA TTCCGCAAAT TTATACAACA GTTTGGCCAA
TGCAAAGCTA CTGCCAGAAA CCTGAAACTC AAGTATCTCA TAAATCTGGA AACCCTTCAG
CCTGCCTTCT ATTCAGAGGT TTTTGAAGTA AAAGAACCTG GTGGAGGTCC TTCTGGAGAG
GAAAGTTTTG CAACTGTTGT AATAACTGGA AATGGAGGAA TTCAGTGCTC AAGAGGAAAA
CTTAAAGATT GTGAAACACT TGGAGAGCAG GATTTACAAA CATACTGTGA TTTTCCTGAT
ATCATTGATG TCAGCATTAA ACAGGCGAGC CAAGAAGGCT CCAGTGAGAG AAGAATTGTC
ACCATTCACA AACAAGACAG CAAGAATCTG GAGGCTGAAT TTCAGTCATT AAGAGAAGCT
CTCTCCTTTG TATCATTAAT TGATGGATAT TACAGATTAA CAGCGGATGC ACATCATTAT
CTCTGTAAAG AAGTAGCACC ACCATCAGTC CTTGAAAATA TCCAAAGCAA CTGTCATGGA
CCAATTTTCA TGGACTTTGC TATCAGTAAA CTGAAGAAAG CTGGTAATCA GACTGGTTTC
TACGTTCTTC GTTGCAGTCC TAAAGATTTT AAAAAATACT TCCTTACCTT TGCTATAGAG
CGTGACAGTA CTACAGATTA TAAGCACTGT TTAATTACGA AGAATGAGAA CGGAGAATAT
AATCTTAGTG GAACCAAGAG AAGTTTTAGT AATCTTAAGG ATCTCTTGAC CTGTTACCAG
ACAGAAACTG TCCGTTCAGA CAGCATAATT TTCCAGTTCG TCAAATGCTG TCCTCCGAAA
CCAAAAGATA AATCAAATCT CCTTGTTTTC AGAAGCAATA GCGTTTCCGA TGTATCTTCA
TCACCTATGC TACAGAGGCA CAATAATGTC AATCAAATGG TCTTTCATAA AATCCGTAAT
GAGGACTTGA TATTCGAGGA GAGTCTTGGA CAGGGCACAT TTACTAAGAT TTTCAAAGGT
GTAAGGAAAG AAGTGGGAGA CTATGGCCAG CTCCATCAAA CTGAAGTTCT TTTAAAGGTG
CTGGATAAAG TGCACAGAAA CTACTCTGAG TCCTTTTTTG AAGCAGCAAG TATGATGAGC
CAGCTTTCTT ACAAACATTT GGTGTTGAAT TATGGAGTCT GTGTTTGTGG AGAAGAGAAT
ATCCTTGTAC AAGAATATGT AAAATTTGGA TCCTTGGACA CATATTTGAA AAAGAACAAA
AATGTTATCA ATATCTTGTG GAAGCTGGAA GTAGCCAAAC AGTTGGCATT AGCCATGCAT
TTTCTGGAGG ATAAAGGTCT TGTTCATGGG AATGTCTGTG CAAAAAACAT CTTGCTTATC
AGAGAGGAAG ACAGGAAGTC TGGAAACCTC CCGTTTATAA AGCTGAGTGA TCCTGGCATC
AGTATTACAG TTTTGCCAAG AGATATTCTT CTGGAGAGAA TACCCTGGGT TCCCCCTGAA
TGTATTGAGA ATCCCAAACA GCTAAGCCTA GCTACAGACA AGTGGAGTTT TGGTACCACT
TTGTGGGAAA TCTGCAGTGG AGGAGACAAA CCCCTGAGTG CACTAGATTC TTCAAGAAAA
CTACAATTTT ATGAAGACAG GCACCAGCTT CCTGCCCCCA ACTGGACAGA ACTTGCAAAC
CTCATAAACA ACTGCATGGA TTATGAGCCA GATTTCAGGC CTTCTTTTAG AGCAATTATA
CGTGATTTGA ACAGTTTGTT CACTCCAGAT TACGAGCTAT TGACAGAAAG TGATATGTTG
CCAAATATGA GAATTGGAGC ACTTGGATTT TCTGGCGCTT TTGAAGATCG GGACCCAACA
CAATTTGAAG AAAGACATCT TAAGTTTTTA CAGCAACTTG GCAAGGGAAA TTTTGGCAGC
GTTGAGATGT GCCGGTATGA CCCGCTGCAG GATAATACTG GGGAGGTGGT GGCTGTGAAA
AAGCTGCAAC ATAGCACAGA AGAGCACCTT AGGGACTTTG AAAGAGAAAT TGAAATACTT
AAATCACTGC AGCATGATAA CATCGTTAAA TACAAAGGAG TATGCTACAG TGCAGGACGT
AGGAATCTAA GATTAATTAT GGAATACTTA CCATACGGAA GTTTACGCGA TTATCTGCAG
AAACACAAGG AGAGGCTGGA CCACAAGAAG CTTTTACTGT ATGCGTCTCA GATATGCAAG
GGCATGGAGT ATCTGGGTAC AAAAAGATAT GTTCACCGGG ATTTGGCAAC AAGAAATATC
TTGGTGGAGA ATGAGAACAG AGTTAAAATT GGAGATTTTG GATTGACGAA AGTCTTGCCA
CAAGACAAAG AATACTACAA AGTAAAAGAA CCTGGTGAAA GTCCTATATT TTGGTACGCT
CCAGAATCTC TGACAGAAAG CAAATTTTCT GTGGCCTCGG ATGTGTGGAG CTTTGGTGTG
GTCTTGTATG AACTTTTCAC CTATATTGAC AAAAGCAAAA GCCCACCAGC TGAATTCATG
CGCATGATTG GCAATGATAA ACAAGGGCAG ATGATTGTAT TTCATTTGAT AGAGCTTTTG
AAGAATAATG GACGACTGCC GAGACCAGAT GGATGCCCTG ATGAGATTTA TGCTATCATG
AAAGAATGCT GGAACAATAA TGTTTCCCAG CGCCCCACCT TTCGGGATCT TTCTCAGCGA
GTGGATCATA TAAGGGAAAA CATGGGTGGA TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd13360 Clone ID Related Accession (Same CDS sequence) XM_002195400.4 , XM_002195400.3 , XM_030257486.1 , XM_030257483.1 , XM_030257484.1 , XM_030257488.1 , XM_030257487.1 , XM_030257485.1 Accession Version XM_030257488.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3393bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1565193600000 Organism Taeniopygia guttata(zebra finch) Product tyrosine-protein kinase JAK2 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044241.1) 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
3361ATGGCTTGTC TTACAATGAC AAATATGGAA AGTACAGCAA CTTCTACTGT CCGCCAGAAT
GGTGACATCC GTGGAAATAG CAGTGCACCC AAGCAGACAG AACCATTGCT TCAAGTGTAC
CTTTATCATT CTCCTGGGAA GACAGAAGGA GATTACCTTC AGTTTTCAGC TGGAGAATAT
GTTGCAGAAG AGATTTGCGC TGTTGCCTGT AAAGCCTGTG GTATCATGCC AGTGTATCAT
AACATGTTTG CACTCATGAA TGAAACAGAC AGAATGTGGT ATCCCCCAAA TCACATCTTC
CATGTAGATG AGACAACCAG ACTCATCCTA ATTTACCGGA TAAGGTTTTA TTTTCCCCAC
TGGTATTGCA GTGGCAGCAA CAGAGCATAC CGGTATGGCA TTCTTCGTGG TGCAGAAAGC
CCCGTCCTTG ATGATCTTGT CATGTCTTAC CTATTTGCAC AGTGGCGAAC TGATTTTTTG
GATGGATGGG TACAGATGCC TGTTACTCAT GAAACACAAG AAGAATGCCT TGGAATGGCT
GTTCTAGATA TGATGAGAGT GGCCAAAGAA AAGGACCAAA CCCCAATGGC TATTTACAAT
TCAGTCAGCT ACAAAATGTT TTTACCTAAG TGTGTGCGAG CAAAAATCCA AGACTACCAT
ATTTTGACCC GAAAAAGAAT AAGGTACAGA TTCCGCAAAT TTATACAACA GTTTGGCCAA
TGCAAAGCTA CTGCCAGAAA CCTGAAACTC AAGTATCTCA TAAATCTGGA AACCCTTCAG
CCTGCCTTCT ATTCAGAGGT TTTTGAAGTA AAAGAACCTG GTGGAGGTCC TTCTGGAGAG
GAAAGTTTTG CAACTGTTGT AATAACTGGA AATGGAGGAA TTCAGTGCTC AAGAGGAAAA
CTTAAAGATT GTGAAACACT TGGAGAGCAG GATTTACAAA CATACTGTGA TTTTCCTGAT
ATCATTGATG TCAGCATTAA ACAGGCGAGC CAAGAAGGCT CCAGTGAGAG AAGAATTGTC
ACCATTCACA AACAAGACAG CAAGAATCTG GAGGCTGAAT TTCAGTCATT AAGAGAAGCT
CTCTCCTTTG TATCATTAAT TGATGGATAT TACAGATTAA CAGCGGATGC ACATCATTAT
CTCTGTAAAG AAGTAGCACC ACCATCAGTC CTTGAAAATA TCCAAAGCAA CTGTCATGGA
CCAATTTTCA TGGACTTTGC TATCAGTAAA CTGAAGAAAG CTGGTAATCA GACTGGTTTC
TACGTTCTTC GTTGCAGTCC TAAAGATTTT AAAAAATACT TCCTTACCTT TGCTATAGAG
CGTGACAGTA CTACAGATTA TAAGCACTGT TTAATTACGA AGAATGAGAA CGGAGAATAT
AATCTTAGTG GAACCAAGAG AAGTTTTAGT AATCTTAAGG ATCTCTTGAC CTGTTACCAG
ACAGAAACTG TCCGTTCAGA CAGCATAATT TTCCAGTTCG TCAAATGCTG TCCTCCGAAA
CCAAAAGATA AATCAAATCT CCTTGTTTTC AGAAGCAATA GCGTTTCCGA TGTATCTTCA
TCACCTATGC TACAGAGGCA CAATAATGTC AATCAAATGG TCTTTCATAA AATCCGTAAT
GAGGACTTGA TATTCGAGGA GAGTCTTGGA CAGGGCACAT TTACTAAGAT TTTCAAAGGT
GTAAGGAAAG AAGTGGGAGA CTATGGCCAG CTCCATCAAA CTGAAGTTCT TTTAAAGGTG
CTGGATAAAG TGCACAGAAA CTACTCTGAG TCCTTTTTTG AAGCAGCAAG TATGATGAGC
CAGCTTTCTT ACAAACATTT GGTGTTGAAT TATGGAGTCT GTGTTTGTGG AGAAGAGAAT
ATCCTTGTAC AAGAATATGT AAAATTTGGA TCCTTGGACA CATATTTGAA AAAGAACAAA
AATGTTATCA ATATCTTGTG GAAGCTGGAA GTAGCCAAAC AGTTGGCATT AGCCATGCAT
TTTCTGGAGG ATAAAGGTCT TGTTCATGGG AATGTCTGTG CAAAAAACAT CTTGCTTATC
AGAGAGGAAG ACAGGAAGTC TGGAAACCTC CCGTTTATAA AGCTGAGTGA TCCTGGCATC
AGTATTACAG TTTTGCCAAG AGATATTCTT CTGGAGAGAA TACCCTGGGT TCCCCCTGAA
TGTATTGAGA ATCCCAAACA GCTAAGCCTA GCTACAGACA AGTGGAGTTT TGGTACCACT
TTGTGGGAAA TCTGCAGTGG AGGAGACAAA CCCCTGAGTG CACTAGATTC TTCAAGAAAA
CTACAATTTT ATGAAGACAG GCACCAGCTT CCTGCCCCCA ACTGGACAGA ACTTGCAAAC
CTCATAAACA ACTGCATGGA TTATGAGCCA GATTTCAGGC CTTCTTTTAG AGCAATTATA
CGTGATTTGA ACAGTTTGTT CACTCCAGAT TACGAGCTAT TGACAGAAAG TGATATGTTG
CCAAATATGA GAATTGGAGC ACTTGGATTT TCTGGCGCTT TTGAAGATCG GGACCCAACA
CAATTTGAAG AAAGACATCT TAAGTTTTTA CAGCAACTTG GCAAGGGAAA TTTTGGCAGC
GTTGAGATGT GCCGGTATGA CCCGCTGCAG GATAATACTG GGGAGGTGGT GGCTGTGAAA
AAGCTGCAAC ATAGCACAGA AGAGCACCTT AGGGACTTTG AAAGAGAAAT TGAAATACTT
AAATCACTGC AGCATGATAA CATCGTTAAA TACAAAGGAG TATGCTACAG TGCAGGACGT
AGGAATCTAA GATTAATTAT GGAATACTTA CCATACGGAA GTTTACGCGA TTATCTGCAG
AAACACAAGG AGAGGCTGGA CCACAAGAAG CTTTTACTGT ATGCGTCTCA GATATGCAAG
GGCATGGAGT ATCTGGGTAC AAAAAGATAT GTTCACCGGG ATTTGGCAAC AAGAAATATC
TTGGTGGAGA ATGAGAACAG AGTTAAAATT GGAGATTTTG GATTGACGAA AGTCTTGCCA
CAAGACAAAG AATACTACAA AGTAAAAGAA CCTGGTGAAA GTCCTATATT TTGGTACGCT
CCAGAATCTC TGACAGAAAG CAAATTTTCT GTGGCCTCGG ATGTGTGGAG CTTTGGTGTG
GTCTTGTATG AACTTTTCAC CTATATTGAC AAAAGCAAAA GCCCACCAGC TGAATTCATG
CGCATGATTG GCAATGATAA ACAAGGGCAG ATGATTGTAT TTCATTTGAT AGAGCTTTTG
AAGAATAATG GACGACTGCC GAGACCAGAT GGATGCCCTG ATGAGATTTA TGCTATCATG
AAAGAATGCT GGAACAATAA TGTTTCCCAG CGCCCCACCT TTCGGGATCT TTCTCAGCGA
GTGGATCATA TAAGGGAAAA CATGGGTGGA TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030113348.1 CDS 124..3516 Translation
Target ORF information:
RefSeq Version XM_030257488.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata Janus kinase 2 (JAK2), transcript variant X7, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030257488.1
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
3361ATGGCTTGTC TTACAATGAC AAATATGGAA AGTACAGCAA CTTCTACTGT CCGCCAGAAT
GGTGACATCC GTGGAAATAG CAGTGCACCC AAGCAGACAG AACCATTGCT TCAAGTGTAC
CTTTATCATT CTCCTGGGAA GACAGAAGGA GATTACCTTC AGTTTTCAGC TGGAGAATAT
GTTGCAGAAG AGATTTGCGC TGTTGCCTGT AAAGCCTGTG GTATCATGCC AGTGTATCAT
AACATGTTTG CACTCATGAA TGAAACAGAC AGAATGTGGT ATCCCCCAAA TCACATCTTC
CATGTAGATG AGACAACCAG ACTCATCCTA ATTTACCGGA TAAGGTTTTA TTTTCCCCAC
TGGTATTGCA GTGGCAGCAA CAGAGCATAC CGGTATGGCA TTCTTCGTGG TGCAGAAAGC
CCCGTCCTTG ATGATCTTGT CATGTCTTAC CTATTTGCAC AGTGGCGAAC TGATTTTTTG
GATGGATGGG TACAGATGCC TGTTACTCAT GAAACACAAG AAGAATGCCT TGGAATGGCT
GTTCTAGATA TGATGAGAGT GGCCAAAGAA AAGGACCAAA CCCCAATGGC TATTTACAAT
TCAGTCAGCT ACAAAATGTT TTTACCTAAG TGTGTGCGAG CAAAAATCCA AGACTACCAT
ATTTTGACCC GAAAAAGAAT AAGGTACAGA TTCCGCAAAT TTATACAACA GTTTGGCCAA
TGCAAAGCTA CTGCCAGAAA CCTGAAACTC AAGTATCTCA TAAATCTGGA AACCCTTCAG
CCTGCCTTCT ATTCAGAGGT TTTTGAAGTA AAAGAACCTG GTGGAGGTCC TTCTGGAGAG
GAAAGTTTTG CAACTGTTGT AATAACTGGA AATGGAGGAA TTCAGTGCTC AAGAGGAAAA
CTTAAAGATT GTGAAACACT TGGAGAGCAG GATTTACAAA CATACTGTGA TTTTCCTGAT
ATCATTGATG TCAGCATTAA ACAGGCGAGC CAAGAAGGCT CCAGTGAGAG AAGAATTGTC
ACCATTCACA AACAAGACAG CAAGAATCTG GAGGCTGAAT TTCAGTCATT AAGAGAAGCT
CTCTCCTTTG TATCATTAAT TGATGGATAT TACAGATTAA CAGCGGATGC ACATCATTAT
CTCTGTAAAG AAGTAGCACC ACCATCAGTC CTTGAAAATA TCCAAAGCAA CTGTCATGGA
CCAATTTTCA TGGACTTTGC TATCAGTAAA CTGAAGAAAG CTGGTAATCA GACTGGTTTC
TACGTTCTTC GTTGCAGTCC TAAAGATTTT AAAAAATACT TCCTTACCTT TGCTATAGAG
CGTGACAGTA CTACAGATTA TAAGCACTGT TTAATTACGA AGAATGAGAA CGGAGAATAT
AATCTTAGTG GAACCAAGAG AAGTTTTAGT AATCTTAAGG ATCTCTTGAC CTGTTACCAG
ACAGAAACTG TCCGTTCAGA CAGCATAATT TTCCAGTTCG TCAAATGCTG TCCTCCGAAA
CCAAAAGATA AATCAAATCT CCTTGTTTTC AGAAGCAATA GCGTTTCCGA TGTATCTTCA
TCACCTATGC TACAGAGGCA CAATAATGTC AATCAAATGG TCTTTCATAA AATCCGTAAT
GAGGACTTGA TATTCGAGGA GAGTCTTGGA CAGGGCACAT TTACTAAGAT TTTCAAAGGT
GTAAGGAAAG AAGTGGGAGA CTATGGCCAG CTCCATCAAA CTGAAGTTCT TTTAAAGGTG
CTGGATAAAG TGCACAGAAA CTACTCTGAG TCCTTTTTTG AAGCAGCAAG TATGATGAGC
CAGCTTTCTT ACAAACATTT GGTGTTGAAT TATGGAGTCT GTGTTTGTGG AGAAGAGAAT
ATCCTTGTAC AAGAATATGT AAAATTTGGA TCCTTGGACA CATATTTGAA AAAGAACAAA
AATGTTATCA ATATCTTGTG GAAGCTGGAA GTAGCCAAAC AGTTGGCATT AGCCATGCAT
TTTCTGGAGG ATAAAGGTCT TGTTCATGGG AATGTCTGTG CAAAAAACAT CTTGCTTATC
AGAGAGGAAG ACAGGAAGTC TGGAAACCTC CCGTTTATAA AGCTGAGTGA TCCTGGCATC
AGTATTACAG TTTTGCCAAG AGATATTCTT CTGGAGAGAA TACCCTGGGT TCCCCCTGAA
TGTATTGAGA ATCCCAAACA GCTAAGCCTA GCTACAGACA AGTGGAGTTT TGGTACCACT
TTGTGGGAAA TCTGCAGTGG AGGAGACAAA CCCCTGAGTG CACTAGATTC TTCAAGAAAA
CTACAATTTT ATGAAGACAG GCACCAGCTT CCTGCCCCCA ACTGGACAGA ACTTGCAAAC
CTCATAAACA ACTGCATGGA TTATGAGCCA GATTTCAGGC CTTCTTTTAG AGCAATTATA
CGTGATTTGA ACAGTTTGTT CACTCCAGAT TACGAGCTAT TGACAGAAAG TGATATGTTG
CCAAATATGA GAATTGGAGC ACTTGGATTT TCTGGCGCTT TTGAAGATCG GGACCCAACA
CAATTTGAAG AAAGACATCT TAAGTTTTTA CAGCAACTTG GCAAGGGAAA TTTTGGCAGC
GTTGAGATGT GCCGGTATGA CCCGCTGCAG GATAATACTG GGGAGGTGGT GGCTGTGAAA
AAGCTGCAAC ATAGCACAGA AGAGCACCTT AGGGACTTTG AAAGAGAAAT TGAAATACTT
AAATCACTGC AGCATGATAA CATCGTTAAA TACAAAGGAG TATGCTACAG TGCAGGACGT
AGGAATCTAA GATTAATTAT GGAATACTTA CCATACGGAA GTTTACGCGA TTATCTGCAG
AAACACAAGG AGAGGCTGGA CCACAAGAAG CTTTTACTGT ATGCGTCTCA GATATGCAAG
GGCATGGAGT ATCTGGGTAC AAAAAGATAT GTTCACCGGG ATTTGGCAAC AAGAAATATC
TTGGTGGAGA ATGAGAACAG AGTTAAAATT GGAGATTTTG GATTGACGAA AGTCTTGCCA
CAAGACAAAG AATACTACAA AGTAAAAGAA CCTGGTGAAA GTCCTATATT TTGGTACGCT
CCAGAATCTC TGACAGAAAG CAAATTTTCT GTGGCCTCGG ATGTGTGGAG CTTTGGTGTG
GTCTTGTATG AACTTTTCAC CTATATTGAC AAAAGCAAAA GCCCACCAGC TGAATTCATG
CGCATGATTG GCAATGATAA ACAAGGGCAG ATGATTGTAT TTCATTTGAT AGAGCTTTTG
AAGAATAATG GACGACTGCC GAGACCAGAT GGATGCCCTG ATGAGATTTA TGCTATCATG
AAAGAATGCT GGAACAATAA TGTTTCCCAG CGCCCCACCT TTCGGGATCT TTCTCAGCGA
GTGGATCATA TAAGGGAAAA CATGGGTGGA TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd13360 Clone ID Related Accession (Same CDS sequence) XM_002195400.4 , XM_002195400.3 , XM_030257486.1 , XM_030257483.1 , XM_030257484.1 , XM_030257488.1 , XM_030257487.1 , XM_030257485.1 Accession Version XM_030257487.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3393bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1565193600000 Organism Taeniopygia guttata(zebra finch) Product tyrosine-protein kinase JAK2 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044241.1) 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
3361ATGGCTTGTC TTACAATGAC AAATATGGAA AGTACAGCAA CTTCTACTGT CCGCCAGAAT
GGTGACATCC GTGGAAATAG CAGTGCACCC AAGCAGACAG AACCATTGCT TCAAGTGTAC
CTTTATCATT CTCCTGGGAA GACAGAAGGA GATTACCTTC AGTTTTCAGC TGGAGAATAT
GTTGCAGAAG AGATTTGCGC TGTTGCCTGT AAAGCCTGTG GTATCATGCC AGTGTATCAT
AACATGTTTG CACTCATGAA TGAAACAGAC AGAATGTGGT ATCCCCCAAA TCACATCTTC
CATGTAGATG AGACAACCAG ACTCATCCTA ATTTACCGGA TAAGGTTTTA TTTTCCCCAC
TGGTATTGCA GTGGCAGCAA CAGAGCATAC CGGTATGGCA TTCTTCGTGG TGCAGAAAGC
CCCGTCCTTG ATGATCTTGT CATGTCTTAC CTATTTGCAC AGTGGCGAAC TGATTTTTTG
GATGGATGGG TACAGATGCC TGTTACTCAT GAAACACAAG AAGAATGCCT TGGAATGGCT
GTTCTAGATA TGATGAGAGT GGCCAAAGAA AAGGACCAAA CCCCAATGGC TATTTACAAT
TCAGTCAGCT ACAAAATGTT TTTACCTAAG TGTGTGCGAG CAAAAATCCA AGACTACCAT
ATTTTGACCC GAAAAAGAAT AAGGTACAGA TTCCGCAAAT TTATACAACA GTTTGGCCAA
TGCAAAGCTA CTGCCAGAAA CCTGAAACTC AAGTATCTCA TAAATCTGGA AACCCTTCAG
CCTGCCTTCT ATTCAGAGGT TTTTGAAGTA AAAGAACCTG GTGGAGGTCC TTCTGGAGAG
GAAAGTTTTG CAACTGTTGT AATAACTGGA AATGGAGGAA TTCAGTGCTC AAGAGGAAAA
CTTAAAGATT GTGAAACACT TGGAGAGCAG GATTTACAAA CATACTGTGA TTTTCCTGAT
ATCATTGATG TCAGCATTAA ACAGGCGAGC CAAGAAGGCT CCAGTGAGAG AAGAATTGTC
ACCATTCACA AACAAGACAG CAAGAATCTG GAGGCTGAAT TTCAGTCATT AAGAGAAGCT
CTCTCCTTTG TATCATTAAT TGATGGATAT TACAGATTAA CAGCGGATGC ACATCATTAT
CTCTGTAAAG AAGTAGCACC ACCATCAGTC CTTGAAAATA TCCAAAGCAA CTGTCATGGA
CCAATTTTCA TGGACTTTGC TATCAGTAAA CTGAAGAAAG CTGGTAATCA GACTGGTTTC
TACGTTCTTC GTTGCAGTCC TAAAGATTTT AAAAAATACT TCCTTACCTT TGCTATAGAG
CGTGACAGTA CTACAGATTA TAAGCACTGT TTAATTACGA AGAATGAGAA CGGAGAATAT
AATCTTAGTG GAACCAAGAG AAGTTTTAGT AATCTTAAGG ATCTCTTGAC CTGTTACCAG
ACAGAAACTG TCCGTTCAGA CAGCATAATT TTCCAGTTCG TCAAATGCTG TCCTCCGAAA
CCAAAAGATA AATCAAATCT CCTTGTTTTC AGAAGCAATA GCGTTTCCGA TGTATCTTCA
TCACCTATGC TACAGAGGCA CAATAATGTC AATCAAATGG TCTTTCATAA AATCCGTAAT
GAGGACTTGA TATTCGAGGA GAGTCTTGGA CAGGGCACAT TTACTAAGAT TTTCAAAGGT
GTAAGGAAAG AAGTGGGAGA CTATGGCCAG CTCCATCAAA CTGAAGTTCT TTTAAAGGTG
CTGGATAAAG TGCACAGAAA CTACTCTGAG TCCTTTTTTG AAGCAGCAAG TATGATGAGC
CAGCTTTCTT ACAAACATTT GGTGTTGAAT TATGGAGTCT GTGTTTGTGG AGAAGAGAAT
ATCCTTGTAC AAGAATATGT AAAATTTGGA TCCTTGGACA CATATTTGAA AAAGAACAAA
AATGTTATCA ATATCTTGTG GAAGCTGGAA GTAGCCAAAC AGTTGGCATT AGCCATGCAT
TTTCTGGAGG ATAAAGGTCT TGTTCATGGG AATGTCTGTG CAAAAAACAT CTTGCTTATC
AGAGAGGAAG ACAGGAAGTC TGGAAACCTC CCGTTTATAA AGCTGAGTGA TCCTGGCATC
AGTATTACAG TTTTGCCAAG AGATATTCTT CTGGAGAGAA TACCCTGGGT TCCCCCTGAA
TGTATTGAGA ATCCCAAACA GCTAAGCCTA GCTACAGACA AGTGGAGTTT TGGTACCACT
TTGTGGGAAA TCTGCAGTGG AGGAGACAAA CCCCTGAGTG CACTAGATTC TTCAAGAAAA
CTACAATTTT ATGAAGACAG GCACCAGCTT CCTGCCCCCA ACTGGACAGA ACTTGCAAAC
CTCATAAACA ACTGCATGGA TTATGAGCCA GATTTCAGGC CTTCTTTTAG AGCAATTATA
CGTGATTTGA ACAGTTTGTT CACTCCAGAT TACGAGCTAT TGACAGAAAG TGATATGTTG
CCAAATATGA GAATTGGAGC ACTTGGATTT TCTGGCGCTT TTGAAGATCG GGACCCAACA
CAATTTGAAG AAAGACATCT TAAGTTTTTA CAGCAACTTG GCAAGGGAAA TTTTGGCAGC
GTTGAGATGT GCCGGTATGA CCCGCTGCAG GATAATACTG GGGAGGTGGT GGCTGTGAAA
AAGCTGCAAC ATAGCACAGA AGAGCACCTT AGGGACTTTG AAAGAGAAAT TGAAATACTT
AAATCACTGC AGCATGATAA CATCGTTAAA TACAAAGGAG TATGCTACAG TGCAGGACGT
AGGAATCTAA GATTAATTAT GGAATACTTA CCATACGGAA GTTTACGCGA TTATCTGCAG
AAACACAAGG AGAGGCTGGA CCACAAGAAG CTTTTACTGT ATGCGTCTCA GATATGCAAG
GGCATGGAGT ATCTGGGTAC AAAAAGATAT GTTCACCGGG ATTTGGCAAC AAGAAATATC
TTGGTGGAGA ATGAGAACAG AGTTAAAATT GGAGATTTTG GATTGACGAA AGTCTTGCCA
CAAGACAAAG AATACTACAA AGTAAAAGAA CCTGGTGAAA GTCCTATATT TTGGTACGCT
CCAGAATCTC TGACAGAAAG CAAATTTTCT GTGGCCTCGG ATGTGTGGAG CTTTGGTGTG
GTCTTGTATG AACTTTTCAC CTATATTGAC AAAAGCAAAA GCCCACCAGC TGAATTCATG
CGCATGATTG GCAATGATAA ACAAGGGCAG ATGATTGTAT TTCATTTGAT AGAGCTTTTG
AAGAATAATG GACGACTGCC GAGACCAGAT GGATGCCCTG ATGAGATTTA TGCTATCATG
AAAGAATGCT GGAACAATAA TGTTTCCCAG CGCCCCACCT TTCGGGATCT TTCTCAGCGA
GTGGATCATA TAAGGGAAAA CATGGGTGGA TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030113347.1 CDS 209..3601 Translation
Target ORF information:
RefSeq Version XM_030257487.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata Janus kinase 2 (JAK2), transcript variant X6, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030257487.1
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
3361ATGGCTTGTC TTACAATGAC AAATATGGAA AGTACAGCAA CTTCTACTGT CCGCCAGAAT
GGTGACATCC GTGGAAATAG CAGTGCACCC AAGCAGACAG AACCATTGCT TCAAGTGTAC
CTTTATCATT CTCCTGGGAA GACAGAAGGA GATTACCTTC AGTTTTCAGC TGGAGAATAT
GTTGCAGAAG AGATTTGCGC TGTTGCCTGT AAAGCCTGTG GTATCATGCC AGTGTATCAT
AACATGTTTG CACTCATGAA TGAAACAGAC AGAATGTGGT ATCCCCCAAA TCACATCTTC
CATGTAGATG AGACAACCAG ACTCATCCTA ATTTACCGGA TAAGGTTTTA TTTTCCCCAC
TGGTATTGCA GTGGCAGCAA CAGAGCATAC CGGTATGGCA TTCTTCGTGG TGCAGAAAGC
CCCGTCCTTG ATGATCTTGT CATGTCTTAC CTATTTGCAC AGTGGCGAAC TGATTTTTTG
GATGGATGGG TACAGATGCC TGTTACTCAT GAAACACAAG AAGAATGCCT TGGAATGGCT
GTTCTAGATA TGATGAGAGT GGCCAAAGAA AAGGACCAAA CCCCAATGGC TATTTACAAT
TCAGTCAGCT ACAAAATGTT TTTACCTAAG TGTGTGCGAG CAAAAATCCA AGACTACCAT
ATTTTGACCC GAAAAAGAAT AAGGTACAGA TTCCGCAAAT TTATACAACA GTTTGGCCAA
TGCAAAGCTA CTGCCAGAAA CCTGAAACTC AAGTATCTCA TAAATCTGGA AACCCTTCAG
CCTGCCTTCT ATTCAGAGGT TTTTGAAGTA AAAGAACCTG GTGGAGGTCC TTCTGGAGAG
GAAAGTTTTG CAACTGTTGT AATAACTGGA AATGGAGGAA TTCAGTGCTC AAGAGGAAAA
CTTAAAGATT GTGAAACACT TGGAGAGCAG GATTTACAAA CATACTGTGA TTTTCCTGAT
ATCATTGATG TCAGCATTAA ACAGGCGAGC CAAGAAGGCT CCAGTGAGAG AAGAATTGTC
ACCATTCACA AACAAGACAG CAAGAATCTG GAGGCTGAAT TTCAGTCATT AAGAGAAGCT
CTCTCCTTTG TATCATTAAT TGATGGATAT TACAGATTAA CAGCGGATGC ACATCATTAT
CTCTGTAAAG AAGTAGCACC ACCATCAGTC CTTGAAAATA TCCAAAGCAA CTGTCATGGA
CCAATTTTCA TGGACTTTGC TATCAGTAAA CTGAAGAAAG CTGGTAATCA GACTGGTTTC
TACGTTCTTC GTTGCAGTCC TAAAGATTTT AAAAAATACT TCCTTACCTT TGCTATAGAG
CGTGACAGTA CTACAGATTA TAAGCACTGT TTAATTACGA AGAATGAGAA CGGAGAATAT
AATCTTAGTG GAACCAAGAG AAGTTTTAGT AATCTTAAGG ATCTCTTGAC CTGTTACCAG
ACAGAAACTG TCCGTTCAGA CAGCATAATT TTCCAGTTCG TCAAATGCTG TCCTCCGAAA
CCAAAAGATA AATCAAATCT CCTTGTTTTC AGAAGCAATA GCGTTTCCGA TGTATCTTCA
TCACCTATGC TACAGAGGCA CAATAATGTC AATCAAATGG TCTTTCATAA AATCCGTAAT
GAGGACTTGA TATTCGAGGA GAGTCTTGGA CAGGGCACAT TTACTAAGAT TTTCAAAGGT
GTAAGGAAAG AAGTGGGAGA CTATGGCCAG CTCCATCAAA CTGAAGTTCT TTTAAAGGTG
CTGGATAAAG TGCACAGAAA CTACTCTGAG TCCTTTTTTG AAGCAGCAAG TATGATGAGC
CAGCTTTCTT ACAAACATTT GGTGTTGAAT TATGGAGTCT GTGTTTGTGG AGAAGAGAAT
ATCCTTGTAC AAGAATATGT AAAATTTGGA TCCTTGGACA CATATTTGAA AAAGAACAAA
AATGTTATCA ATATCTTGTG GAAGCTGGAA GTAGCCAAAC AGTTGGCATT AGCCATGCAT
TTTCTGGAGG ATAAAGGTCT TGTTCATGGG AATGTCTGTG CAAAAAACAT CTTGCTTATC
AGAGAGGAAG ACAGGAAGTC TGGAAACCTC CCGTTTATAA AGCTGAGTGA TCCTGGCATC
AGTATTACAG TTTTGCCAAG AGATATTCTT CTGGAGAGAA TACCCTGGGT TCCCCCTGAA
TGTATTGAGA ATCCCAAACA GCTAAGCCTA GCTACAGACA AGTGGAGTTT TGGTACCACT
TTGTGGGAAA TCTGCAGTGG AGGAGACAAA CCCCTGAGTG CACTAGATTC TTCAAGAAAA
CTACAATTTT ATGAAGACAG GCACCAGCTT CCTGCCCCCA ACTGGACAGA ACTTGCAAAC
CTCATAAACA ACTGCATGGA TTATGAGCCA GATTTCAGGC CTTCTTTTAG AGCAATTATA
CGTGATTTGA ACAGTTTGTT CACTCCAGAT TACGAGCTAT TGACAGAAAG TGATATGTTG
CCAAATATGA GAATTGGAGC ACTTGGATTT TCTGGCGCTT TTGAAGATCG GGACCCAACA
CAATTTGAAG AAAGACATCT TAAGTTTTTA CAGCAACTTG GCAAGGGAAA TTTTGGCAGC
GTTGAGATGT GCCGGTATGA CCCGCTGCAG GATAATACTG GGGAGGTGGT GGCTGTGAAA
AAGCTGCAAC ATAGCACAGA AGAGCACCTT AGGGACTTTG AAAGAGAAAT TGAAATACTT
AAATCACTGC AGCATGATAA CATCGTTAAA TACAAAGGAG TATGCTACAG TGCAGGACGT
AGGAATCTAA GATTAATTAT GGAATACTTA CCATACGGAA GTTTACGCGA TTATCTGCAG
AAACACAAGG AGAGGCTGGA CCACAAGAAG CTTTTACTGT ATGCGTCTCA GATATGCAAG
GGCATGGAGT ATCTGGGTAC AAAAAGATAT GTTCACCGGG ATTTGGCAAC AAGAAATATC
TTGGTGGAGA ATGAGAACAG AGTTAAAATT GGAGATTTTG GATTGACGAA AGTCTTGCCA
CAAGACAAAG AATACTACAA AGTAAAAGAA CCTGGTGAAA GTCCTATATT TTGGTACGCT
CCAGAATCTC TGACAGAAAG CAAATTTTCT GTGGCCTCGG ATGTGTGGAG CTTTGGTGTG
GTCTTGTATG AACTTTTCAC CTATATTGAC AAAAGCAAAA GCCCACCAGC TGAATTCATG
CGCATGATTG GCAATGATAA ACAAGGGCAG ATGATTGTAT TTCATTTGAT AGAGCTTTTG
AAGAATAATG GACGACTGCC GAGACCAGAT GGATGCCCTG ATGAGATTTA TGCTATCATG
AAAGAATGCT GGAACAATAA TGTTTCCCAG CGCCCCACCT TTCGGGATCT TTCTCAGCGA
GTGGATCATA TAAGGGAAAA CATGGGTGGA TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd13360 Clone ID Related Accession (Same CDS sequence) XM_002195400.4 , XM_002195400.3 , XM_030257486.1 , XM_030257483.1 , XM_030257484.1 , XM_030257488.1 , XM_030257487.1 , XM_030257485.1 Accession Version XM_030257485.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3393bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1565193600000 Organism Taeniopygia guttata(zebra finch) Product tyrosine-protein kinase JAK2 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044241.1) 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
3361ATGGCTTGTC TTACAATGAC AAATATGGAA AGTACAGCAA CTTCTACTGT CCGCCAGAAT
GGTGACATCC GTGGAAATAG CAGTGCACCC AAGCAGACAG AACCATTGCT TCAAGTGTAC
CTTTATCATT CTCCTGGGAA GACAGAAGGA GATTACCTTC AGTTTTCAGC TGGAGAATAT
GTTGCAGAAG AGATTTGCGC TGTTGCCTGT AAAGCCTGTG GTATCATGCC AGTGTATCAT
AACATGTTTG CACTCATGAA TGAAACAGAC AGAATGTGGT ATCCCCCAAA TCACATCTTC
CATGTAGATG AGACAACCAG ACTCATCCTA ATTTACCGGA TAAGGTTTTA TTTTCCCCAC
TGGTATTGCA GTGGCAGCAA CAGAGCATAC CGGTATGGCA TTCTTCGTGG TGCAGAAAGC
CCCGTCCTTG ATGATCTTGT CATGTCTTAC CTATTTGCAC AGTGGCGAAC TGATTTTTTG
GATGGATGGG TACAGATGCC TGTTACTCAT GAAACACAAG AAGAATGCCT TGGAATGGCT
GTTCTAGATA TGATGAGAGT GGCCAAAGAA AAGGACCAAA CCCCAATGGC TATTTACAAT
TCAGTCAGCT ACAAAATGTT TTTACCTAAG TGTGTGCGAG CAAAAATCCA AGACTACCAT
ATTTTGACCC GAAAAAGAAT AAGGTACAGA TTCCGCAAAT TTATACAACA GTTTGGCCAA
TGCAAAGCTA CTGCCAGAAA CCTGAAACTC AAGTATCTCA TAAATCTGGA AACCCTTCAG
CCTGCCTTCT ATTCAGAGGT TTTTGAAGTA AAAGAACCTG GTGGAGGTCC TTCTGGAGAG
GAAAGTTTTG CAACTGTTGT AATAACTGGA AATGGAGGAA TTCAGTGCTC AAGAGGAAAA
CTTAAAGATT GTGAAACACT TGGAGAGCAG GATTTACAAA CATACTGTGA TTTTCCTGAT
ATCATTGATG TCAGCATTAA ACAGGCGAGC CAAGAAGGCT CCAGTGAGAG AAGAATTGTC
ACCATTCACA AACAAGACAG CAAGAATCTG GAGGCTGAAT TTCAGTCATT AAGAGAAGCT
CTCTCCTTTG TATCATTAAT TGATGGATAT TACAGATTAA CAGCGGATGC ACATCATTAT
CTCTGTAAAG AAGTAGCACC ACCATCAGTC CTTGAAAATA TCCAAAGCAA CTGTCATGGA
CCAATTTTCA TGGACTTTGC TATCAGTAAA CTGAAGAAAG CTGGTAATCA GACTGGTTTC
TACGTTCTTC GTTGCAGTCC TAAAGATTTT AAAAAATACT TCCTTACCTT TGCTATAGAG
CGTGACAGTA CTACAGATTA TAAGCACTGT TTAATTACGA AGAATGAGAA CGGAGAATAT
AATCTTAGTG GAACCAAGAG AAGTTTTAGT AATCTTAAGG ATCTCTTGAC CTGTTACCAG
ACAGAAACTG TCCGTTCAGA CAGCATAATT TTCCAGTTCG TCAAATGCTG TCCTCCGAAA
CCAAAAGATA AATCAAATCT CCTTGTTTTC AGAAGCAATA GCGTTTCCGA TGTATCTTCA
TCACCTATGC TACAGAGGCA CAATAATGTC AATCAAATGG TCTTTCATAA AATCCGTAAT
GAGGACTTGA TATTCGAGGA GAGTCTTGGA CAGGGCACAT TTACTAAGAT TTTCAAAGGT
GTAAGGAAAG AAGTGGGAGA CTATGGCCAG CTCCATCAAA CTGAAGTTCT TTTAAAGGTG
CTGGATAAAG TGCACAGAAA CTACTCTGAG TCCTTTTTTG AAGCAGCAAG TATGATGAGC
CAGCTTTCTT ACAAACATTT GGTGTTGAAT TATGGAGTCT GTGTTTGTGG AGAAGAGAAT
ATCCTTGTAC AAGAATATGT AAAATTTGGA TCCTTGGACA CATATTTGAA AAAGAACAAA
AATGTTATCA ATATCTTGTG GAAGCTGGAA GTAGCCAAAC AGTTGGCATT AGCCATGCAT
TTTCTGGAGG ATAAAGGTCT TGTTCATGGG AATGTCTGTG CAAAAAACAT CTTGCTTATC
AGAGAGGAAG ACAGGAAGTC TGGAAACCTC CCGTTTATAA AGCTGAGTGA TCCTGGCATC
AGTATTACAG TTTTGCCAAG AGATATTCTT CTGGAGAGAA TACCCTGGGT TCCCCCTGAA
TGTATTGAGA ATCCCAAACA GCTAAGCCTA GCTACAGACA AGTGGAGTTT TGGTACCACT
TTGTGGGAAA TCTGCAGTGG AGGAGACAAA CCCCTGAGTG CACTAGATTC TTCAAGAAAA
CTACAATTTT ATGAAGACAG GCACCAGCTT CCTGCCCCCA ACTGGACAGA ACTTGCAAAC
CTCATAAACA ACTGCATGGA TTATGAGCCA GATTTCAGGC CTTCTTTTAG AGCAATTATA
CGTGATTTGA ACAGTTTGTT CACTCCAGAT TACGAGCTAT TGACAGAAAG TGATATGTTG
CCAAATATGA GAATTGGAGC ACTTGGATTT TCTGGCGCTT TTGAAGATCG GGACCCAACA
CAATTTGAAG AAAGACATCT TAAGTTTTTA CAGCAACTTG GCAAGGGAAA TTTTGGCAGC
GTTGAGATGT GCCGGTATGA CCCGCTGCAG GATAATACTG GGGAGGTGGT GGCTGTGAAA
AAGCTGCAAC ATAGCACAGA AGAGCACCTT AGGGACTTTG AAAGAGAAAT TGAAATACTT
AAATCACTGC AGCATGATAA CATCGTTAAA TACAAAGGAG TATGCTACAG TGCAGGACGT
AGGAATCTAA GATTAATTAT GGAATACTTA CCATACGGAA GTTTACGCGA TTATCTGCAG
AAACACAAGG AGAGGCTGGA CCACAAGAAG CTTTTACTGT ATGCGTCTCA GATATGCAAG
GGCATGGAGT ATCTGGGTAC AAAAAGATAT GTTCACCGGG ATTTGGCAAC AAGAAATATC
TTGGTGGAGA ATGAGAACAG AGTTAAAATT GGAGATTTTG GATTGACGAA AGTCTTGCCA
CAAGACAAAG AATACTACAA AGTAAAAGAA CCTGGTGAAA GTCCTATATT TTGGTACGCT
CCAGAATCTC TGACAGAAAG CAAATTTTCT GTGGCCTCGG ATGTGTGGAG CTTTGGTGTG
GTCTTGTATG AACTTTTCAC CTATATTGAC AAAAGCAAAA GCCCACCAGC TGAATTCATG
CGCATGATTG GCAATGATAA ACAAGGGCAG ATGATTGTAT TTCATTTGAT AGAGCTTTTG
AAGAATAATG GACGACTGCC GAGACCAGAT GGATGCCCTG ATGAGATTTA TGCTATCATG
AAAGAATGCT GGAACAATAA TGTTTCCCAG CGCCCCACCT TTCGGGATCT TTCTCAGCGA
GTGGATCATA TAAGGGAAAA CATGGGTGGA TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030113345.1 CDS 166..3558 Translation
Target ORF information:
RefSeq Version XM_030257485.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata Janus kinase 2 (JAK2), transcript variant X4, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030257485.1
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
3361ATGGCTTGTC TTACAATGAC AAATATGGAA AGTACAGCAA CTTCTACTGT CCGCCAGAAT
GGTGACATCC GTGGAAATAG CAGTGCACCC AAGCAGACAG AACCATTGCT TCAAGTGTAC
CTTTATCATT CTCCTGGGAA GACAGAAGGA GATTACCTTC AGTTTTCAGC TGGAGAATAT
GTTGCAGAAG AGATTTGCGC TGTTGCCTGT AAAGCCTGTG GTATCATGCC AGTGTATCAT
AACATGTTTG CACTCATGAA TGAAACAGAC AGAATGTGGT ATCCCCCAAA TCACATCTTC
CATGTAGATG AGACAACCAG ACTCATCCTA ATTTACCGGA TAAGGTTTTA TTTTCCCCAC
TGGTATTGCA GTGGCAGCAA CAGAGCATAC CGGTATGGCA TTCTTCGTGG TGCAGAAAGC
CCCGTCCTTG ATGATCTTGT CATGTCTTAC CTATTTGCAC AGTGGCGAAC TGATTTTTTG
GATGGATGGG TACAGATGCC TGTTACTCAT GAAACACAAG AAGAATGCCT TGGAATGGCT
GTTCTAGATA TGATGAGAGT GGCCAAAGAA AAGGACCAAA CCCCAATGGC TATTTACAAT
TCAGTCAGCT ACAAAATGTT TTTACCTAAG TGTGTGCGAG CAAAAATCCA AGACTACCAT
ATTTTGACCC GAAAAAGAAT AAGGTACAGA TTCCGCAAAT TTATACAACA GTTTGGCCAA
TGCAAAGCTA CTGCCAGAAA CCTGAAACTC AAGTATCTCA TAAATCTGGA AACCCTTCAG
CCTGCCTTCT ATTCAGAGGT TTTTGAAGTA AAAGAACCTG GTGGAGGTCC TTCTGGAGAG
GAAAGTTTTG CAACTGTTGT AATAACTGGA AATGGAGGAA TTCAGTGCTC AAGAGGAAAA
CTTAAAGATT GTGAAACACT TGGAGAGCAG GATTTACAAA CATACTGTGA TTTTCCTGAT
ATCATTGATG TCAGCATTAA ACAGGCGAGC CAAGAAGGCT CCAGTGAGAG AAGAATTGTC
ACCATTCACA AACAAGACAG CAAGAATCTG GAGGCTGAAT TTCAGTCATT AAGAGAAGCT
CTCTCCTTTG TATCATTAAT TGATGGATAT TACAGATTAA CAGCGGATGC ACATCATTAT
CTCTGTAAAG AAGTAGCACC ACCATCAGTC CTTGAAAATA TCCAAAGCAA CTGTCATGGA
CCAATTTTCA TGGACTTTGC TATCAGTAAA CTGAAGAAAG CTGGTAATCA GACTGGTTTC
TACGTTCTTC GTTGCAGTCC TAAAGATTTT AAAAAATACT TCCTTACCTT TGCTATAGAG
CGTGACAGTA CTACAGATTA TAAGCACTGT TTAATTACGA AGAATGAGAA CGGAGAATAT
AATCTTAGTG GAACCAAGAG AAGTTTTAGT AATCTTAAGG ATCTCTTGAC CTGTTACCAG
ACAGAAACTG TCCGTTCAGA CAGCATAATT TTCCAGTTCG TCAAATGCTG TCCTCCGAAA
CCAAAAGATA AATCAAATCT CCTTGTTTTC AGAAGCAATA GCGTTTCCGA TGTATCTTCA
TCACCTATGC TACAGAGGCA CAATAATGTC AATCAAATGG TCTTTCATAA AATCCGTAAT
GAGGACTTGA TATTCGAGGA GAGTCTTGGA CAGGGCACAT TTACTAAGAT TTTCAAAGGT
GTAAGGAAAG AAGTGGGAGA CTATGGCCAG CTCCATCAAA CTGAAGTTCT TTTAAAGGTG
CTGGATAAAG TGCACAGAAA CTACTCTGAG TCCTTTTTTG AAGCAGCAAG TATGATGAGC
CAGCTTTCTT ACAAACATTT GGTGTTGAAT TATGGAGTCT GTGTTTGTGG AGAAGAGAAT
ATCCTTGTAC AAGAATATGT AAAATTTGGA TCCTTGGACA CATATTTGAA AAAGAACAAA
AATGTTATCA ATATCTTGTG GAAGCTGGAA GTAGCCAAAC AGTTGGCATT AGCCATGCAT
TTTCTGGAGG ATAAAGGTCT TGTTCATGGG AATGTCTGTG CAAAAAACAT CTTGCTTATC
AGAGAGGAAG ACAGGAAGTC TGGAAACCTC CCGTTTATAA AGCTGAGTGA TCCTGGCATC
AGTATTACAG TTTTGCCAAG AGATATTCTT CTGGAGAGAA TACCCTGGGT TCCCCCTGAA
TGTATTGAGA ATCCCAAACA GCTAAGCCTA GCTACAGACA AGTGGAGTTT TGGTACCACT
TTGTGGGAAA TCTGCAGTGG AGGAGACAAA CCCCTGAGTG CACTAGATTC TTCAAGAAAA
CTACAATTTT ATGAAGACAG GCACCAGCTT CCTGCCCCCA ACTGGACAGA ACTTGCAAAC
CTCATAAACA ACTGCATGGA TTATGAGCCA GATTTCAGGC CTTCTTTTAG AGCAATTATA
CGTGATTTGA ACAGTTTGTT CACTCCAGAT TACGAGCTAT TGACAGAAAG TGATATGTTG
CCAAATATGA GAATTGGAGC ACTTGGATTT TCTGGCGCTT TTGAAGATCG GGACCCAACA
CAATTTGAAG AAAGACATCT TAAGTTTTTA CAGCAACTTG GCAAGGGAAA TTTTGGCAGC
GTTGAGATGT GCCGGTATGA CCCGCTGCAG GATAATACTG GGGAGGTGGT GGCTGTGAAA
AAGCTGCAAC ATAGCACAGA AGAGCACCTT AGGGACTTTG AAAGAGAAAT TGAAATACTT
AAATCACTGC AGCATGATAA CATCGTTAAA TACAAAGGAG TATGCTACAG TGCAGGACGT
AGGAATCTAA GATTAATTAT GGAATACTTA CCATACGGAA GTTTACGCGA TTATCTGCAG
AAACACAAGG AGAGGCTGGA CCACAAGAAG CTTTTACTGT ATGCGTCTCA GATATGCAAG
GGCATGGAGT ATCTGGGTAC AAAAAGATAT GTTCACCGGG ATTTGGCAAC AAGAAATATC
TTGGTGGAGA ATGAGAACAG AGTTAAAATT GGAGATTTTG GATTGACGAA AGTCTTGCCA
CAAGACAAAG AATACTACAA AGTAAAAGAA CCTGGTGAAA GTCCTATATT TTGGTACGCT
CCAGAATCTC TGACAGAAAG CAAATTTTCT GTGGCCTCGG ATGTGTGGAG CTTTGGTGTG
GTCTTGTATG AACTTTTCAC CTATATTGAC AAAAGCAAAA GCCCACCAGC TGAATTCATG
CGCATGATTG GCAATGATAA ACAAGGGCAG ATGATTGTAT TTCATTTGAT AGAGCTTTTG
AAGAATAATG GACGACTGCC GAGACCAGAT GGATGCCCTG ATGAGATTTA TGCTATCATG
AAAGAATGCT GGAACAATAA TGTTTCCCAG CGCCCCACCT TTCGGGATCT TTCTCAGCGA
GTGGATCATA TAAGGGAAAA CATGGGTGGA TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd52645 Clone ID Related Accession (Same CDS sequence) XM_030257489.1 Accession Version XM_030257489.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3168bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1565193600000 Organism Taeniopygia guttata(zebra finch) Product tyrosine-protein kinase JAK2 isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044241.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation 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
3121ATGCCAGTGT ATCATAACAT GTTTGCACTC ATGAATGAAA CAGACAGAAT GTGGTATCCC
CCAAATCACA TCTTCCATGT AGATGAGACA ACCAGACTCA TCCTAATTTA CCGGATAAGG
TTTTATTTTC CCCACTGGTA TTGCAGTGGC AGCAACAGAG CATACCGGTA TGGCATTCTT
CGTGGTGCAG AAAGCCCCGT CCTTGATGAT CTTGTCATGT CTTACCTATT TGCACAGTGG
CGAACTGATT TTTTGGATGG ATGGGTACAG ATGCCTGTTA CTCATGAAAC ACAAGAAGAA
TGCCTTGGAA TGGCTGTTCT AGATATGATG AGAGTGGCCA AAGAAAAGGA CCAAACCCCA
ATGGCTATTT ACAATTCAGT CAGCTACAAA ATGTTTTTAC CTAAGTGTGT GCGAGCAAAA
ATCCAAGACT ACCATATTTT GACCCGAAAA AGAATAAGGT ACAGATTCCG CAAATTTATA
CAACAGTTTG GCCAATGCAA AGCTACTGCC AGAAACCTGA AACTCAAGTA TCTCATAAAT
CTGGAAACCC TTCAGCCTGC CTTCTATTCA GAGGTTTTTG AAGTAAAAGA ACCTGGTGGA
GGTCCTTCTG GAGAGGAAAG TTTTGCAACT GTTGTAATAA CTGGAAATGG AGGAATTCAG
TGCTCAAGAG GAAAACTTAA AGATTGTGAA ACACTTGGAG AGCAGGATTT ACAAACATAC
TGTGATTTTC CTGATATCAT TGATGTCAGC ATTAAACAGG CGAGCCAAGA AGGCTCCAGT
GAGAGAAGAA TTGTCACCAT TCACAAACAA GACAGCAAGA ATCTGGAGGC TGAATTTCAG
TCATTAAGAG AAGCTCTCTC CTTTGTATCA TTAATTGATG GATATTACAG ATTAACAGCG
GATGCACATC ATTATCTCTG TAAAGAAGTA GCACCACCAT CAGTCCTTGA AAATATCCAA
AGCAACTGTC ATGGACCAAT TTTCATGGAC TTTGCTATCA GTAAACTGAA GAAAGCTGGT
AATCAGACTG GTTTCTACGT TCTTCGTTGC AGTCCTAAAG ATTTTAAAAA ATACTTCCTT
ACCTTTGCTA TAGAGCGTGA CAGTACTACA GATTATAAGC ACTGTTTAAT TACGAAGAAT
GAGAACGGAG AATATAATCT TAGTGGAACC AAGAGAAGTT TTAGTAATCT TAAGGATCTC
TTGACCTGTT ACCAGACAGA AACTGTCCGT TCAGACAGCA TAATTTTCCA GTTCGTCAAA
TGCTGTCCTC CGAAACCAAA AGATAAATCA AATCTCCTTG TTTTCAGAAG CAATAGCGTT
TCCGATGTAT CTTCATCACC TATGCTACAG AGGCACAATA ATGTCAATCA AATGGTCTTT
CATAAAATCC GTAATGAGGA CTTGATATTC GAGGAGAGTC TTGGACAGGG CACATTTACT
AAGATTTTCA AAGGTGTAAG GAAAGAAGTG GGAGACTATG GCCAGCTCCA TCAAACTGAA
GTTCTTTTAA AGGTGCTGGA TAAAGTGCAC AGAAACTACT CTGAGTCCTT TTTTGAAGCA
GCAAGTATGA TGAGCCAGCT TTCTTACAAA CATTTGGTGT TGAATTATGG AGTCTGTGTT
TGTGGAGAAG AGAATATCCT TGTACAAGAA TATGTAAAAT TTGGATCCTT GGACACATAT
TTGAAAAAGA ACAAAAATGT TATCAATATC TTGTGGAAGC TGGAAGTAGC CAAACAGTTG
GCATTAGCCA TGCATTTTCT GGAGGATAAA GGTCTTGTTC ATGGGAATGT CTGTGCAAAA
AACATCTTGC TTATCAGAGA GGAAGACAGG AAGTCTGGAA ACCTCCCGTT TATAAAGCTG
AGTGATCCTG GCATCAGTAT TACAGTTTTG CCAAGAGATA TTCTTCTGGA GAGAATACCC
TGGGTTCCCC CTGAATGTAT TGAGAATCCC AAACAGCTAA GCCTAGCTAC AGACAAGTGG
AGTTTTGGTA CCACTTTGTG GGAAATCTGC AGTGGAGGAG ACAAACCCCT GAGTGCACTA
GATTCTTCAA GAAAACTACA ATTTTATGAA GACAGGCACC AGCTTCCTGC CCCCAACTGG
ACAGAACTTG CAAACCTCAT AAACAACTGC ATGGATTATG AGCCAGATTT CAGGCCTTCT
TTTAGAGCAA TTATACGTGA TTTGAACAGT TTGTTCACTC CAGATTACGA GCTATTGACA
GAAAGTGATA TGTTGCCAAA TATGAGAATT GGAGCACTTG GATTTTCTGG CGCTTTTGAA
GATCGGGACC CAACACAATT TGAAGAAAGA CATCTTAAGT TTTTACAGCA ACTTGGCAAG
GGAAATTTTG GCAGCGTTGA GATGTGCCGG TATGACCCGC TGCAGGATAA TACTGGGGAG
GTGGTGGCTG TGAAAAAGCT GCAACATAGC ACAGAAGAGC ACCTTAGGGA CTTTGAAAGA
GAAATTGAAA TACTTAAATC ACTGCAGCAT GATAACATCG TTAAATACAA AGGAGTATGC
TACAGTGCAG GACGTAGGAA TCTAAGATTA ATTATGGAAT ACTTACCATA CGGAAGTTTA
CGCGATTATC TGCAGAAACA CAAGGAGAGG CTGGACCACA AGAAGCTTTT ACTGTATGCG
TCTCAGATAT GCAAGGGCAT GGAGTATCTG GGTACAAAAA GATATGTTCA CCGGGATTTG
GCAACAAGAA ATATCTTGGT GGAGAATGAG AACAGAGTTA AAATTGGAGA TTTTGGATTG
ACGAAAGTCT TGCCACAAGA CAAAGAATAC TACAAAGTAA AAGAACCTGG TGAAAGTCCT
ATATTTTGGT ACGCTCCAGA ATCTCTGACA GAAAGCAAAT TTTCTGTGGC CTCGGATGTG
TGGAGCTTTG GTGTGGTCTT GTATGAACTT TTCACCTATA TTGACAAAAG CAAAAGCCCA
CCAGCTGAAT TCATGCGCAT GATTGGCAAT GATAAACAAG GGCAGATGAT TGTATTTCAT
TTGATAGAGC TTTTGAAGAA TAATGGACGA CTGCCGAGAC CAGATGGATG CCCTGATGAG
ATTTATGCTA TCATGAAAGA ATGCTGGAAC AATAATGTTT CCCAGCGCCC CACCTTTCGG
GATCTTTCTC AGCGAGTGGA TCATATAAGG GAAAACATGG GTGGATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030113349.1 CDS 219..3386 Translation
Target ORF information:
RefSeq Version XM_030257489.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata Janus kinase 2 (JAK2), transcript variant X9, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030257489.1
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
3121ATGCCAGTGT ATCATAACAT GTTTGCACTC ATGAATGAAA CAGACAGAAT GTGGTATCCC
CCAAATCACA TCTTCCATGT AGATGAGACA ACCAGACTCA TCCTAATTTA CCGGATAAGG
TTTTATTTTC CCCACTGGTA TTGCAGTGGC AGCAACAGAG CATACCGGTA TGGCATTCTT
CGTGGTGCAG AAAGCCCCGT CCTTGATGAT CTTGTCATGT CTTACCTATT TGCACAGTGG
CGAACTGATT TTTTGGATGG ATGGGTACAG ATGCCTGTTA CTCATGAAAC ACAAGAAGAA
TGCCTTGGAA TGGCTGTTCT AGATATGATG AGAGTGGCCA AAGAAAAGGA CCAAACCCCA
ATGGCTATTT ACAATTCAGT CAGCTACAAA ATGTTTTTAC CTAAGTGTGT GCGAGCAAAA
ATCCAAGACT ACCATATTTT GACCCGAAAA AGAATAAGGT ACAGATTCCG CAAATTTATA
CAACAGTTTG GCCAATGCAA AGCTACTGCC AGAAACCTGA AACTCAAGTA TCTCATAAAT
CTGGAAACCC TTCAGCCTGC CTTCTATTCA GAGGTTTTTG AAGTAAAAGA ACCTGGTGGA
GGTCCTTCTG GAGAGGAAAG TTTTGCAACT GTTGTAATAA CTGGAAATGG AGGAATTCAG
TGCTCAAGAG GAAAACTTAA AGATTGTGAA ACACTTGGAG AGCAGGATTT ACAAACATAC
TGTGATTTTC CTGATATCAT TGATGTCAGC ATTAAACAGG CGAGCCAAGA AGGCTCCAGT
GAGAGAAGAA TTGTCACCAT TCACAAACAA GACAGCAAGA ATCTGGAGGC TGAATTTCAG
TCATTAAGAG AAGCTCTCTC CTTTGTATCA TTAATTGATG GATATTACAG ATTAACAGCG
GATGCACATC ATTATCTCTG TAAAGAAGTA GCACCACCAT CAGTCCTTGA AAATATCCAA
AGCAACTGTC ATGGACCAAT TTTCATGGAC TTTGCTATCA GTAAACTGAA GAAAGCTGGT
AATCAGACTG GTTTCTACGT TCTTCGTTGC AGTCCTAAAG ATTTTAAAAA ATACTTCCTT
ACCTTTGCTA TAGAGCGTGA CAGTACTACA GATTATAAGC ACTGTTTAAT TACGAAGAAT
GAGAACGGAG AATATAATCT TAGTGGAACC AAGAGAAGTT TTAGTAATCT TAAGGATCTC
TTGACCTGTT ACCAGACAGA AACTGTCCGT TCAGACAGCA TAATTTTCCA GTTCGTCAAA
TGCTGTCCTC CGAAACCAAA AGATAAATCA AATCTCCTTG TTTTCAGAAG CAATAGCGTT
TCCGATGTAT CTTCATCACC TATGCTACAG AGGCACAATA ATGTCAATCA AATGGTCTTT
CATAAAATCC GTAATGAGGA CTTGATATTC GAGGAGAGTC TTGGACAGGG CACATTTACT
AAGATTTTCA AAGGTGTAAG GAAAGAAGTG GGAGACTATG GCCAGCTCCA TCAAACTGAA
GTTCTTTTAA AGGTGCTGGA TAAAGTGCAC AGAAACTACT CTGAGTCCTT TTTTGAAGCA
GCAAGTATGA TGAGCCAGCT TTCTTACAAA CATTTGGTGT TGAATTATGG AGTCTGTGTT
TGTGGAGAAG AGAATATCCT TGTACAAGAA TATGTAAAAT TTGGATCCTT GGACACATAT
TTGAAAAAGA ACAAAAATGT TATCAATATC TTGTGGAAGC TGGAAGTAGC CAAACAGTTG
GCATTAGCCA TGCATTTTCT GGAGGATAAA GGTCTTGTTC ATGGGAATGT CTGTGCAAAA
AACATCTTGC TTATCAGAGA GGAAGACAGG AAGTCTGGAA ACCTCCCGTT TATAAAGCTG
AGTGATCCTG GCATCAGTAT TACAGTTTTG CCAAGAGATA TTCTTCTGGA GAGAATACCC
TGGGTTCCCC CTGAATGTAT TGAGAATCCC AAACAGCTAA GCCTAGCTAC AGACAAGTGG
AGTTTTGGTA CCACTTTGTG GGAAATCTGC AGTGGAGGAG ACAAACCCCT GAGTGCACTA
GATTCTTCAA GAAAACTACA ATTTTATGAA GACAGGCACC AGCTTCCTGC CCCCAACTGG
ACAGAACTTG CAAACCTCAT AAACAACTGC ATGGATTATG AGCCAGATTT CAGGCCTTCT
TTTAGAGCAA TTATACGTGA TTTGAACAGT TTGTTCACTC CAGATTACGA GCTATTGACA
GAAAGTGATA TGTTGCCAAA TATGAGAATT GGAGCACTTG GATTTTCTGG CGCTTTTGAA
GATCGGGACC CAACACAATT TGAAGAAAGA CATCTTAAGT TTTTACAGCA ACTTGGCAAG
GGAAATTTTG GCAGCGTTGA GATGTGCCGG TATGACCCGC TGCAGGATAA TACTGGGGAG
GTGGTGGCTG TGAAAAAGCT GCAACATAGC ACAGAAGAGC ACCTTAGGGA CTTTGAAAGA
GAAATTGAAA TACTTAAATC ACTGCAGCAT GATAACATCG TTAAATACAA AGGAGTATGC
TACAGTGCAG GACGTAGGAA TCTAAGATTA ATTATGGAAT ACTTACCATA CGGAAGTTTA
CGCGATTATC TGCAGAAACA CAAGGAGAGG CTGGACCACA AGAAGCTTTT ACTGTATGCG
TCTCAGATAT GCAAGGGCAT GGAGTATCTG GGTACAAAAA GATATGTTCA CCGGGATTTG
GCAACAAGAA ATATCTTGGT GGAGAATGAG AACAGAGTTA AAATTGGAGA TTTTGGATTG
ACGAAAGTCT TGCCACAAGA CAAAGAATAC TACAAAGTAA AAGAACCTGG TGAAAGTCCT
ATATTTTGGT ACGCTCCAGA ATCTCTGACA GAAAGCAAAT TTTCTGTGGC CTCGGATGTG
TGGAGCTTTG GTGTGGTCTT GTATGAACTT TTCACCTATA TTGACAAAAG CAAAAGCCCA
CCAGCTGAAT TCATGCGCAT GATTGGCAAT GATAAACAAG GGCAGATGAT TGTATTTCAT
TTGATAGAGC TTTTGAAGAA TAATGGACGA CTGCCGAGAC CAGATGGATG CCCTGATGAG
ATTTATGCTA TCATGAAAGA ATGCTGGAAC AATAATGTTT CCCAGCGCCC CACCTTTCGG
GATCTTTCTC AGCGAGTGGA TCATATAAGG GAAAACATGG GTGGATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd52646 Clone ID Related Accession (Same CDS sequence) XM_030257490.1 Accession Version XM_030257490.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3114bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1565193600000 Organism Taeniopygia guttata(zebra finch) Product tyrosine-protein kinase JAK2 isoform X3 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044241.1) 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
3061ATGGCTTGTC TTACAATGAC AAATATGGAA AGTACAGCAA CTTCTACTGT CCGCCAGAAT
GGTGACATCC GTGGAAATAG CAGTGCACCC AAGCAGACAG AACCATTGCT TCAAGTGTAC
CTTTATCATT CTCCTGGGAA GACAGAAGGA GATTACCTTC AGTTTTCAGC TGGAGAATAT
GTTGCAGAAG AGATTTGCGC TGTTGCCTGT AAAGCCTGTG GTATCATGCC AGTGTATCAT
AACATGTTTG CACTCATGAA TGAAACAGAC AGAATGTGGT ATCCCCCAAA TCACATCTTC
CATGTAGATG AGACAACCAG ACTCATCCTA ATTTACCGGA TAAGGTTTTA TTTTCCCCAC
TGGTATTGCA GTGGCAGCAA CAGAGCATAC CGGTATGGCA TTCTTCGTGG TGCAGAAAGC
CCCGTCCTTG ATGATCTTGT CATGTCTTAC CTATTTGCAC AGTGGCGAAC TGATTTTTTG
GATGGATGGG TACAGATGCC TGTTACTCAT GAAACACAAG AAGAATGCCT TGGAATGGCT
GTTCTAGATA TGATGAGAGT GGCCAAAGAA AAGGACCAAA CCCCAATGGC TATTTACAAT
TCAGTCAGCT ACAAAATGTT TTTACCTAAG TGTGTGCGAG CAAAAATCCA AGACTACCAT
ATTTTGACCC GAAAAAGAAT AAGGTACAGA TTCCGCAAAT TTATACAACA GTTTGGCCAA
TGCAAAGCTA CTGCCAGAAA CCTGAAACTC AAGTATCTCA TAAATCTGGA AACCCTTCAG
CCTGCCTTCT ATTCAGAGGT TTTTGAAGTA AAAGAACCTG GTGGAGGTCC TTCTGGAGAG
GAAAGTTTTG CAACTGTTGT AATAACTGGA AATGGAGGAA TTCAGTGCTC AAGAGGAAAA
CTTAAAGATT GTGAAACACT TGGAGAGCAG GATTTACAAA CATACTGTGA TTTTCCTGAT
ATCATTGATG TCAGCATTAA ACAGGCGAGC CAAGAAGGCT CCAGTGAGAG AAGAATTGTC
ACCATTCACA AACAAGACAG CAAGAATCTG GAGGCTGAAT TTCAGTCATT AAGAGAAGCT
CTCTCCTTTG TATCATTAAT TGATGGATAT TACAGATTAA CAGCGGATGC ACATCATTAT
CTCTGTAAAG AAGTAGCACC ACCATCAGTC CTTGAAAATA TCCAAAGCAA CTGTCATGGA
CCAATTTTCA TGGACTTTGC TATCAGTAAA CTGAAGAAAG CTGGTAATCA GACTGGTTTC
TACGTTCTTC GTTGCAGTCC TAAAGATTTT AAAAAATACT TCCTTACCTT TGCTATAGAG
CGTGACAGTA CTACAGATTA TAAGCACTGT TTAATTACGA AGAATGAGAA CGGAGAATAT
AATCTTAGTG GAACCAAGAG AAGTTTTAGT AATCTTAAGG ATCTCTTGAC CTGTTACCAG
ACAGAAACTG TCCGTTCAGA CAGCATAATT TTCCAGTTCG TCAAATGCTG TCCTCCGAAA
CCAAAAGATA AATCAAATCT CCTTGTTTTC AGAAGCAATA GCGTTTCCGA TGTATCTTCA
TCACCTATGC TACAGAGGCA CAATAATGTC AATCAAATGG TCTTTCATAA AATCCGTAAT
GAGGACTTGA TATTCGAGGA GAGTCTTGGA CAGGGCACAT TTACTAAGAT TTTCAAAGGT
GTAAGGAAAG AAGTGGGAGA CTATGGCCAG CTCCATCAAA CTGAAGTTCT TTTAAAGGTG
CTGGATAAAG TGCACAGAAA CTACTCTGAG TCCTTTTTTG AAGCAGCAAG TATGATGAGC
CAGCTTTCTT ACAAACATTT GGTGTTGAAT TATGGAGTCT GTGTTTGTGG AGAAGAGAAT
ATCCTTGTAC AAGAATATGT AAAATTTGGA TCCTTGGACA CATATTTGAA AAAGAACAAA
AATGTTATCA ATATCTTGTG GAAGCTGGAA GTAGCCAAAC AGTTGGCATT AGCCATGCAT
TTTCTGGAGG ATAAAGGTCT TGTTCATGGG AATGTCTGTG CAAAAAACAT CTTGCTTATC
AGAGAGGAAG ACAGGAAGTC TGGAAACCTC CCGTTTATAA AGCTGAGTGA TCCTGGCATC
AGTATTACAG TTTTGCCAAG AGATATTCTT CTGGAGAGAA TACCCTGGGT TCCCCCTGAA
TGTATTGAGA ATCCCAAACA GCTAAGCCTA GCTACAGACA AGTGGAGTTT TGGTACCACT
TTGTGGGAAA TCTGCAGTGG AGGAGACAAA CCCCTGAGTG CACTAGATTC TTCAAGAAAA
CTACAATTTT ATGAAGACAG GCACCAGCTT CCTGCCCCCA ACTGGACAGA ACTTGCAAAC
CTCATAAACA ACTGCATGGA TTATGAGCCA GATTTCAGGC CTTCTTTTAG AGCAATTATA
CGTGATTTGA ACAGTTTGTT CACTCCAGAT TACGAGCTAT TGACAGAAAG TGATATGTTG
CCAAATATGA GAATTGGAGC ACTTGGATTT TCTGGCGCTT TTGAAGATCG GGACCCAACA
CAATTTGAAG AAAGACATCT TAAGTTTTTA CAGCAACTTG GCAAGGGAAA TTTTGGCAGC
GTTGAGATGT GCCGGTATGA CCCGCTGCAG GATAATACTG GGGAGGTGGT GGCTGTGAAA
AAGCTGCAAC ATAGCACAGA AGAGCACCTT AGGGACTTTG AAAGAGAAAT TGAAATACTT
AAATCACTGC AGCATGATAA CATCGTTAAA TACAAAGGAG TATGCTACAG TGCAGGACGT
AGGAATCTAA GATTAATTAT GGAATACTTA CCATACGGAA GTTTACGCGA TTATCTGCAG
AAACACAAGG AGAGGCTGGA CCACAAGAAG CTTTTACTGT ATGCGTCTCA GATATGCAAG
ATCATCAGTG AAGGCATTAA GCAGGACTGG GCCCAACACA AATCCCTGGG GAACACCACT
GGTGACCAGC TACCTACTGG ATGCAGCACC GCTCACCAGC ACTCTCTGGG TCCGGCCATC
CAGCCAGTTC TGAACCCAGC ACTGAGTGCT CCTGTCCCAG CCGTGGGCTG CAGCTTCTCC
AGGAGTGTGC TGTGGGAGAC AGTGCCAAAG GAGGGTCTGC TGAAGTCCAA ATAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030113350.1 CDS 300..3413 Translation
Target ORF information:
RefSeq Version XM_030257490.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata Janus kinase 2 (JAK2), transcript variant X10, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030257490.1
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
3061ATGGCTTGTC TTACAATGAC AAATATGGAA AGTACAGCAA CTTCTACTGT CCGCCAGAAT
GGTGACATCC GTGGAAATAG CAGTGCACCC AAGCAGACAG AACCATTGCT TCAAGTGTAC
CTTTATCATT CTCCTGGGAA GACAGAAGGA GATTACCTTC AGTTTTCAGC TGGAGAATAT
GTTGCAGAAG AGATTTGCGC TGTTGCCTGT AAAGCCTGTG GTATCATGCC AGTGTATCAT
AACATGTTTG CACTCATGAA TGAAACAGAC AGAATGTGGT ATCCCCCAAA TCACATCTTC
CATGTAGATG AGACAACCAG ACTCATCCTA ATTTACCGGA TAAGGTTTTA TTTTCCCCAC
TGGTATTGCA GTGGCAGCAA CAGAGCATAC CGGTATGGCA TTCTTCGTGG TGCAGAAAGC
CCCGTCCTTG ATGATCTTGT CATGTCTTAC CTATTTGCAC AGTGGCGAAC TGATTTTTTG
GATGGATGGG TACAGATGCC TGTTACTCAT GAAACACAAG AAGAATGCCT TGGAATGGCT
GTTCTAGATA TGATGAGAGT GGCCAAAGAA AAGGACCAAA CCCCAATGGC TATTTACAAT
TCAGTCAGCT ACAAAATGTT TTTACCTAAG TGTGTGCGAG CAAAAATCCA AGACTACCAT
ATTTTGACCC GAAAAAGAAT AAGGTACAGA TTCCGCAAAT TTATACAACA GTTTGGCCAA
TGCAAAGCTA CTGCCAGAAA CCTGAAACTC AAGTATCTCA TAAATCTGGA AACCCTTCAG
CCTGCCTTCT ATTCAGAGGT TTTTGAAGTA AAAGAACCTG GTGGAGGTCC TTCTGGAGAG
GAAAGTTTTG CAACTGTTGT AATAACTGGA AATGGAGGAA TTCAGTGCTC AAGAGGAAAA
CTTAAAGATT GTGAAACACT TGGAGAGCAG GATTTACAAA CATACTGTGA TTTTCCTGAT
ATCATTGATG TCAGCATTAA ACAGGCGAGC CAAGAAGGCT CCAGTGAGAG AAGAATTGTC
ACCATTCACA AACAAGACAG CAAGAATCTG GAGGCTGAAT TTCAGTCATT AAGAGAAGCT
CTCTCCTTTG TATCATTAAT TGATGGATAT TACAGATTAA CAGCGGATGC ACATCATTAT
CTCTGTAAAG AAGTAGCACC ACCATCAGTC CTTGAAAATA TCCAAAGCAA CTGTCATGGA
CCAATTTTCA TGGACTTTGC TATCAGTAAA CTGAAGAAAG CTGGTAATCA GACTGGTTTC
TACGTTCTTC GTTGCAGTCC TAAAGATTTT AAAAAATACT TCCTTACCTT TGCTATAGAG
CGTGACAGTA CTACAGATTA TAAGCACTGT TTAATTACGA AGAATGAGAA CGGAGAATAT
AATCTTAGTG GAACCAAGAG AAGTTTTAGT AATCTTAAGG ATCTCTTGAC CTGTTACCAG
ACAGAAACTG TCCGTTCAGA CAGCATAATT TTCCAGTTCG TCAAATGCTG TCCTCCGAAA
CCAAAAGATA AATCAAATCT CCTTGTTTTC AGAAGCAATA GCGTTTCCGA TGTATCTTCA
TCACCTATGC TACAGAGGCA CAATAATGTC AATCAAATGG TCTTTCATAA AATCCGTAAT
GAGGACTTGA TATTCGAGGA GAGTCTTGGA CAGGGCACAT TTACTAAGAT TTTCAAAGGT
GTAAGGAAAG AAGTGGGAGA CTATGGCCAG CTCCATCAAA CTGAAGTTCT TTTAAAGGTG
CTGGATAAAG TGCACAGAAA CTACTCTGAG TCCTTTTTTG AAGCAGCAAG TATGATGAGC
CAGCTTTCTT ACAAACATTT GGTGTTGAAT TATGGAGTCT GTGTTTGTGG AGAAGAGAAT
ATCCTTGTAC AAGAATATGT AAAATTTGGA TCCTTGGACA CATATTTGAA AAAGAACAAA
AATGTTATCA ATATCTTGTG GAAGCTGGAA GTAGCCAAAC AGTTGGCATT AGCCATGCAT
TTTCTGGAGG ATAAAGGTCT TGTTCATGGG AATGTCTGTG CAAAAAACAT CTTGCTTATC
AGAGAGGAAG ACAGGAAGTC TGGAAACCTC CCGTTTATAA AGCTGAGTGA TCCTGGCATC
AGTATTACAG TTTTGCCAAG AGATATTCTT CTGGAGAGAA TACCCTGGGT TCCCCCTGAA
TGTATTGAGA ATCCCAAACA GCTAAGCCTA GCTACAGACA AGTGGAGTTT TGGTACCACT
TTGTGGGAAA TCTGCAGTGG AGGAGACAAA CCCCTGAGTG CACTAGATTC TTCAAGAAAA
CTACAATTTT ATGAAGACAG GCACCAGCTT CCTGCCCCCA ACTGGACAGA ACTTGCAAAC
CTCATAAACA ACTGCATGGA TTATGAGCCA GATTTCAGGC CTTCTTTTAG AGCAATTATA
CGTGATTTGA ACAGTTTGTT CACTCCAGAT TACGAGCTAT TGACAGAAAG TGATATGTTG
CCAAATATGA GAATTGGAGC ACTTGGATTT TCTGGCGCTT TTGAAGATCG GGACCCAACA
CAATTTGAAG AAAGACATCT TAAGTTTTTA CAGCAACTTG GCAAGGGAAA TTTTGGCAGC
GTTGAGATGT GCCGGTATGA CCCGCTGCAG GATAATACTG GGGAGGTGGT GGCTGTGAAA
AAGCTGCAAC ATAGCACAGA AGAGCACCTT AGGGACTTTG AAAGAGAAAT TGAAATACTT
AAATCACTGC AGCATGATAA CATCGTTAAA TACAAAGGAG TATGCTACAG TGCAGGACGT
AGGAATCTAA GATTAATTAT GGAATACTTA CCATACGGAA GTTTACGCGA TTATCTGCAG
AAACACAAGG AGAGGCTGGA CCACAAGAAG CTTTTACTGT ATGCGTCTCA GATATGCAAG
ATCATCAGTG AAGGCATTAA GCAGGACTGG GCCCAACACA AATCCCTGGG GAACACCACT
GGTGACCAGC TACCTACTGG ATGCAGCACC GCTCACCAGC ACTCTCTGGG TCCGGCCATC
CAGCCAGTTC TGAACCCAGC ACTGAGTGCT CCTGTCCCAG CCGTGGGCTG CAGCTTCTCC
AGGAGTGTGC TGTGGGAGAC AGTGCCAAAG GAGGGTCTGC TGAAGTCCAA ATAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
-
PubMed
-
-
Most Popular Services
-
Services & Products
-
News & Blogs
- An immunotoxin directed at regulatory T cells leads to long-lasting tumor regression
- Predicting Patient Outcome to Cancer Treatments Using Organoids
- Deciphering m6A within mRNAs by MAZTER-seq
- Quick and economical method of determining the specificity of antibody drug lead and target-binding moiety for the target
- Empowering Dendritic Cells for Improved Oncotherapy
- Severe Respiratory Infections: New Mechanism for Pathology
- Hope for cancer patients: an immune-boosting protein without side effects created
- NGS - A Tool to Identification Variants in Acute Myeloid Leukemia Patients
-
-
-
PubMed
-
