| Gene Symbol | FMN2 |
| Entrez Gene ID | 100220308 |
| Full Name | formin 2 |
| Gene Type | protein-coding |
| Organism | Taeniopygia guttata(zebra finch) |
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FMN2 cDNA ORF clone, Taeniopygia guttata(zebra finch)
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Gene
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Clones
gRNAs
The following FMN2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the FMN2 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.
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Reference Sequences (Refseq)
CloneID OTd15251 Clone ID Related Accession (Same CDS sequence) XM_012572477.1 Accession Version XM_012572477.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 5109bp)
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 formin-2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002198511.1) 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 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## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921
4981
5041
5101ATGCAGGCAA TAAAAACCGT GGAAAAAGAA GTGATTTTTC TAAAGGAAAC ACTTTTCACA
GAATCCTTCC TAAAGCAACA AAAGTGCAGC AGAAGCCCGG AGAGCAGGCA GCTCCAAGAG
CAGCAGCCAT TGGAAGGAGC TGTCTGCAGC TCTCAGTGCT GTACTGAGCA TGTCCCAGCG
GAGCCCAGTG CAAGCAGCAC ATTATGCAAA AAGGCAGCTC CAGCAGATGG GAGAGAGGCA
CAGCAAGCAT TTGCTTCACT TGCATCCCCG CCGCCTGCAA ACAAGCCTGG ATCGCTAGAG
GGGATCTTGC CAGCAGGCCA AAGGAATGAA ATCCAGGAGG ATGGCTTGAT TGTCAAAGGT
GCTGCACTGC AAAAAATCAT GGGGAATCAA GATGGGAAGC TAAAGAAAAA TACAGGTGAT
GTGCAAGAAG GAGGAGAAGA TGCCTCTGGG CCCAAGGATA CGGACGGCAC AAAGAAGGTA
TCGGGAGGCA GAAGGGGGCT GGGGAAGCAT GCAAAAGGAG GCGAATCAGG TAAGAAGAAG
GGTAAGTCGG ACTCCAGGCC CTCTGTGTTT TCAAATCTGA GGATCAGAAA AAATCTGTCC
AAGGCTAAAG ATGGGAATAG CAGCTCACGG GAGGATGTTT TGGAAAGCCA GGCCTTGCAG
CCTGGGGAGC TGGACAGTAC TCATTCAATT GTAACCAAAA CTCCTGATAT AAGCATCTCT
GCAGATGAAG GGGGTCTCTC AGACACAGAT GTTGAACATT TTGAAATCAG AAATGAAACT
GTTCCAGCTG CTGCAGAGAC ACAGGATGGA CAAAGGACCA GCTCTGGCTC TGATACGGAT
ATATACAGTT TCCATTCAGC TGCAGAACAA GAGGATTTGC TTTCTGATAT CCAGCAAGCT
ATTAGACTGC AGCAGCAGCA GCAGCAGGGG GCAATTAACA TTGGAACTGA GGACCCTGTC
GCCAAAACAA TGGGCCGACA CATGGCTAAT TCTCAAGCAA CCTCCTTAGA TTTTGAACGT
TTTTTTTCTG TAACTACCAC TGACAAAGAG AGGAGCCCAG ACACTGAGGG GGCTTTTCCA
GCGGTATCGG AAATTGTGGA AAACATTCCT GTCTCCTGTG CAACTGAATG GGAACCGAAA
GAAGCGGTAA ACAGCACAGG CTCTCCTGGT AACGGCTTAT TTGAAACACA AGAACGTCAG
CTACTGATTG AGGAGCAGCC CGTTGCTGGA GTGGATGCTG TAGCCAGTGA ACTACAAGAT
GGTTTGAATA GAGCTGCAGT AAAAAACGGG TCTCAGGCAC ACAGCTCCAC AGAACCTTTT
CCATCTCCAG TGGCAGATGC TGAGGCTAAA ATTGCTGAAG TGCAGGCTGT TGATTCTCAG
GGCTCAGTAA CAGAGGGTGG TATTCCAGAT GCAGGCCGTG ATCATGCTGC TGAGACTCAG
GAAGGGAAAC ACACTCTGTC AGCCAGTCAA GAGGAGCTGA GTAATGGTTT ATCCACAGAA
ATGAAAAATG GCAGTTTGTC CTCTGAAGGA ACAGCGGACA GTCCGATGCT TGGTTCCCGA
TGCTTTAAGC CCTATCTAAT TAACGCCTGT TACATCAAAA CCACAACTAG GCAACTGAGT
TCTCCCAACC ATTCACCTTC TCCCTCCCCA TCCCAGAGCC CACTTTTCAC AAGGAGGCAG
GAGTCCTTCC ACAAAAAGGA AAAAGTCTCA ATCAGGAAGA AGAGGTCTGC TAGTTTGGCA
GGTTTGTTCA GTCGTTCTGC AGACTGGACA GAAGAGGTGT CTAATCACAA AAGCGAGATA
ACAGAGAAGG TGAGCTCTGC AGACTACTTG GAGCACAAGG GGTTTAGAGA GAAATTTCAA
ACAGAAAGAG TGCCTTTGAA TCATTCAAGA AAGTCCTCAG GGGTCCAGGC TTCTACAGAG
ACATTTCCCA ATGTCTTTTC AGGACGAACT CTGCTGGAAA AGCTCTTCAG CCAGCAGGAA
AATGCACCAC AAGAAGAAGC AGAAAAACTC TGTTCTCGCA TTATTGCAAT GGGTCTTTTA
CTTCCATTCA CTGACTGCTT CAGAGAGCCA TGTAACCAGA GTGCCAAGCA AAGCACACCC
ACATTTGATC AAGACCAGCT TTATACTTGG GCTGCAGTTA GCCAACCCAC ACATTCAAGA
GATTACACTG AAGGAAGTTT TCCAAGGAGA ATTCCATCTG CGTGGCCTCC ACCCAAACCT
CCAGATGAAG AACAAAGGCT GAAAAGTTCA GAAGAAGAGT TGAAATCTAC AGTCCTAGAA
AAAGAGAAGC AATGCACAGA TGGTGTACAG CGGGCACAGG ATGCTTTTGA GGTGAAATCT
GAGGAGCGTG CCAGTGTCAT CCAACAACTT GAGCAAACTA TTGAGGATCT GAGGACAAAA
ATTGCAGAAC TAGAGAAACA ATTTCCTGCC GCAGAGGTAC AGACTGCTGG GAGGGAGCAG
GAAAATGAGC ATGCACATGC AGACTCTGGG GAACTCAGCA GTGTGACTCT TCAAAGGAAT
GAAGAGGAGA CCACAACCAG GACTGTGTCA CAGGCGAGAT CTGTACAAAC GTCACCAACA
GAGGATTATT TAACACATAA AATGCCTTCA GCCAGTGCAC TGCCACAGCC ACCCCCACCA
CCACACTTGG AAGGGGGCAA AAGTGAAGGG CCTACTCAGA ATTTGCCAGC TCTAGAACTA
CAGCCCACAT TCTGTTCTGA AATCTCCTTA ATTCTGTCAC CGAAGCTAAT CTCAGTGCCA
CTGGATGCAA GCCAATCAGT ACAGAGTATA CCACAGTCAC CTCTTCCAGG ACCCAAAGTT
GATTTGTCCC TTGCATTTGA AGGAGAGACT GAAACGAAAG TTTCCCATCA GCCTCTAAGC
ACTGTAGATG TAACTTGTAG TGAACATCCT CCTTCCTTGC CCCCAGAGCC CACATGTAGC
ATTCCCCCAT CGCTGCCACT GACTGAACAG GCTGCCCCCC TGCCTGGAAC ACATGGCCAT
TCCTTTGTTA CTCCCATGTC TGTGGCCGGA TTACCACTGC CACCACCTCT GCCTGGCTCA
GGACTCTCTG CTTCTGCTGT CTCAGCACTG ACACACCTGG ACCATTCTTT ACCAGGTGCC
ATGATGTCAC CTCTCCCTCC TCCTCCACAT TTTCCAAGTG GGGAGATAAC AACTCTGCCT
CCAGCTCCTC TCCTTCCATG TCCTGGATTC CCTCCACAAC CTTTGCCTGG AGCAGGAGTA
CCAGCTGCTC TGCCTGGTTG GGGTATCCCA CCTCCCCCTC CACCACCACC ACCTTTACCT
GGAGCTGCTG TCCCTCCTCC ACCTCCTCCT CTGCCCAGCC TGGGATTTGC ACCCCCACCA
CCACTGCTTC CTGGAGCAGG ACTGCCACCA CCTCCTCCAC CTCTGCCTGG AGGGGGCATT
CCACCACCTC CTCCTCCACC GCCACCTCTG CCTGGTGCTG CTGTGCCCCC TCCATCTCCT
CCACCGCCAC CTCTGCCTGG TGCTGCTGTG CCCCCTCCAC CTCCTCACAC CTCTGCTGCT
TCCTTAATTC CTCCACCACT TCTGATTGGT CTAAATATGC CCCCTCCACC ACCTAAGCCT
GGTGCTGGTG TCCCTCCACC ACCCCCTCCT TTGCCTGGGT TGGGGATGCC TCCTCCAGCC
CCACCACCCC TTCCAGCACC AGTCCAGGGC AGCAGCTACC CAGCATTCCC ACAGGGCTGT
GGTTTTCTTC CTCCTCCATT ACCATCTGGT TTATTTGCAA TGGGGATGAA TCAGGAAAAA
GGGAGCAGGA AACACGTAAT AGAGCCTACT CGGCCAATGA AGCCTCTTTA CTGGACAAGA
ATTCAGCTCC ACAGTAAAAC AGATTCTAGT GCTTCACTTG TGTGGGAAAA AATTGAAGAG
CCTTCCATAG ATTATCATGA GTTTGAAGAA CTGTTTTCTA AAACAGCTGT TAAAGAGAGG
AAGAAACCCA TTTCGGACAC CATTACAAAA AGAAAGACTA AACAAGTTGT CAAGTTGTTA
AGTAACAAAA GATCTCAAGC TGTTGGAATA TTAATGTCTA GCCTTCATTT AGACATGAAA
GACATTCAGC GTGCTGTTGT GAACTTGGAC AACTCTGTGG TTGACCTAGA GACGCTGCAA
GCTCTGTATG AGAATAGAGC ACAATCAGAT GAACTAGAAA AAATAGAAAA GCATAGCAAG
GCATCCAAGG AGAAAGAAAA CGCCAAGTCT TTGGATAAGC CAGAACAGTT CCTCTATGAA
CTCTCACTGA TTCCAAACTT TTCAGAACGT GTGTTTTGCA TCCTGTTCCA GTCAACATTT
TCAGAAAGCA TTGGTTCAAT CCATCGCAAA CTTGAATTGT TACAGAAACT GTGTGAGACA
TTGAAGAATG AATCAGGAGT TATGCGGGTT CTGGGTTTGG TTCTTGCCTT TGGAAATTAC
ATGAATGGTG GAAACAGGAC ACGAGGACAG GCTGATGGGT TTGGATTAGA TATCCTGCCA
AAACTGAAAG ATGTCAAGAG CAGTGATAAC AGCCGAAGTC TTCTATCGTA CATTGTCTCA
TATTATTTGC GTAATTTTGA TGAGGATGCT GGAAGAGAAC AATGCATCTT CCCTCTTCCG
GATCCACAGG ATCTCTTCCA GGCTTCACAA CTGAAGTTTG ATGATTTTCA AAAAGATCTC
CGCAAAATGA AGAAAGATTT GCGAGCATGT GAGACAGAAG CAGCAAAAGT TTATCAGCTA
TCACTAGAAG AGCACCTACA GCCCTTCAAA GACAACATGG AGCAATTCAT TAGTCAAGCC
AAAATAGACC AAGAAAATGA AGAGAAATCA CTGACAGAAG CACATAAAAG CTTTTTGGAA
ACTACAGCCT ATTTCTCTAT GAAACCAAAA ATGGGTGAGA AGGAGGTGTC CCCACATTCT
TTCTTCAGTA TTTGGCATGA ATTCAGTTCT GACTTCAAAG ACTTTTGGAA GAAGGAAAAC
AAACTTATTC TTCAAGAAAG AGTCAAAGAA GCAGAGGAAG TCTGCAGACA GAAAAAGGGG
AAGTCGCTAT ACAATATTAG ACAAAAACAT GACTCTGGAA TTAAAGCAAA GATAAGTATG
AAAATCTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_012427931.1 CDS 43..5151 Translation 
Target ORF information:
RefSeq Version XM_012572477.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata formin 2 (FMN2), mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_012572477.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921
4981
5041
5101ATGCAGGCAA TAAAAACCGT GGAAAAAGAA GTGATTTTTC TAAAGGAAAC ACTTTTCACA
GAATCCTTCC TAAAGCAACA AAAGTGCAGC AGAAGCCCGG AGAGCAGGCA GCTCCAAGAG
CAGCAGCCAT TGGAAGGAGC TGTCTGCAGC TCTCAGTGCT GTACTGAGCA TGTCCCAGCG
GAGCCCAGTG CAAGCAGCAC ATTATGCAAA AAGGCAGCTC CAGCAGATGG GAGAGAGGCA
CAGCAAGCAT TTGCTTCACT TGCATCCCCG CCGCCTGCAA ACAAGCCTGG ATCGCTAGAG
GGGATCTTGC CAGCAGGCCA AAGGAATGAA ATCCAGGAGG ATGGCTTGAT TGTCAAAGGT
GCTGCACTGC AAAAAATCAT GGGGAATCAA GATGGGAAGC TAAAGAAAAA TACAGGTGAT
GTGCAAGAAG GAGGAGAAGA TGCCTCTGGG CCCAAGGATA CGGACGGCAC AAAGAAGGTA
TCGGGAGGCA GAAGGGGGCT GGGGAAGCAT GCAAAAGGAG GCGAATCAGG TAAGAAGAAG
GGTAAGTCGG ACTCCAGGCC CTCTGTGTTT TCAAATCTGA GGATCAGAAA AAATCTGTCC
AAGGCTAAAG ATGGGAATAG CAGCTCACGG GAGGATGTTT TGGAAAGCCA GGCCTTGCAG
CCTGGGGAGC TGGACAGTAC TCATTCAATT GTAACCAAAA CTCCTGATAT AAGCATCTCT
GCAGATGAAG GGGGTCTCTC AGACACAGAT GTTGAACATT TTGAAATCAG AAATGAAACT
GTTCCAGCTG CTGCAGAGAC ACAGGATGGA CAAAGGACCA GCTCTGGCTC TGATACGGAT
ATATACAGTT TCCATTCAGC TGCAGAACAA GAGGATTTGC TTTCTGATAT CCAGCAAGCT
ATTAGACTGC AGCAGCAGCA GCAGCAGGGG GCAATTAACA TTGGAACTGA GGACCCTGTC
GCCAAAACAA TGGGCCGACA CATGGCTAAT TCTCAAGCAA CCTCCTTAGA TTTTGAACGT
TTTTTTTCTG TAACTACCAC TGACAAAGAG AGGAGCCCAG ACACTGAGGG GGCTTTTCCA
GCGGTATCGG AAATTGTGGA AAACATTCCT GTCTCCTGTG CAACTGAATG GGAACCGAAA
GAAGCGGTAA ACAGCACAGG CTCTCCTGGT AACGGCTTAT TTGAAACACA AGAACGTCAG
CTACTGATTG AGGAGCAGCC CGTTGCTGGA GTGGATGCTG TAGCCAGTGA ACTACAAGAT
GGTTTGAATA GAGCTGCAGT AAAAAACGGG TCTCAGGCAC ACAGCTCCAC AGAACCTTTT
CCATCTCCAG TGGCAGATGC TGAGGCTAAA ATTGCTGAAG TGCAGGCTGT TGATTCTCAG
GGCTCAGTAA CAGAGGGTGG TATTCCAGAT GCAGGCCGTG ATCATGCTGC TGAGACTCAG
GAAGGGAAAC ACACTCTGTC AGCCAGTCAA GAGGAGCTGA GTAATGGTTT ATCCACAGAA
ATGAAAAATG GCAGTTTGTC CTCTGAAGGA ACAGCGGACA GTCCGATGCT TGGTTCCCGA
TGCTTTAAGC CCTATCTAAT TAACGCCTGT TACATCAAAA CCACAACTAG GCAACTGAGT
TCTCCCAACC ATTCACCTTC TCCCTCCCCA TCCCAGAGCC CACTTTTCAC AAGGAGGCAG
GAGTCCTTCC ACAAAAAGGA AAAAGTCTCA ATCAGGAAGA AGAGGTCTGC TAGTTTGGCA
GGTTTGTTCA GTCGTTCTGC AGACTGGACA GAAGAGGTGT CTAATCACAA AAGCGAGATA
ACAGAGAAGG TGAGCTCTGC AGACTACTTG GAGCACAAGG GGTTTAGAGA GAAATTTCAA
ACAGAAAGAG TGCCTTTGAA TCATTCAAGA AAGTCCTCAG GGGTCCAGGC TTCTACAGAG
ACATTTCCCA ATGTCTTTTC AGGACGAACT CTGCTGGAAA AGCTCTTCAG CCAGCAGGAA
AATGCACCAC AAGAAGAAGC AGAAAAACTC TGTTCTCGCA TTATTGCAAT GGGTCTTTTA
CTTCCATTCA CTGACTGCTT CAGAGAGCCA TGTAACCAGA GTGCCAAGCA AAGCACACCC
ACATTTGATC AAGACCAGCT TTATACTTGG GCTGCAGTTA GCCAACCCAC ACATTCAAGA
GATTACACTG AAGGAAGTTT TCCAAGGAGA ATTCCATCTG CGTGGCCTCC ACCCAAACCT
CCAGATGAAG AACAAAGGCT GAAAAGTTCA GAAGAAGAGT TGAAATCTAC AGTCCTAGAA
AAAGAGAAGC AATGCACAGA TGGTGTACAG CGGGCACAGG ATGCTTTTGA GGTGAAATCT
GAGGAGCGTG CCAGTGTCAT CCAACAACTT GAGCAAACTA TTGAGGATCT GAGGACAAAA
ATTGCAGAAC TAGAGAAACA ATTTCCTGCC GCAGAGGTAC AGACTGCTGG GAGGGAGCAG
GAAAATGAGC ATGCACATGC AGACTCTGGG GAACTCAGCA GTGTGACTCT TCAAAGGAAT
GAAGAGGAGA CCACAACCAG GACTGTGTCA CAGGCGAGAT CTGTACAAAC GTCACCAACA
GAGGATTATT TAACACATAA AATGCCTTCA GCCAGTGCAC TGCCACAGCC ACCCCCACCA
CCACACTTGG AAGGGGGCAA AAGTGAAGGG CCTACTCAGA ATTTGCCAGC TCTAGAACTA
CAGCCCACAT TCTGTTCTGA AATCTCCTTA ATTCTGTCAC CGAAGCTAAT CTCAGTGCCA
CTGGATGCAA GCCAATCAGT ACAGAGTATA CCACAGTCAC CTCTTCCAGG ACCCAAAGTT
GATTTGTCCC TTGCATTTGA AGGAGAGACT GAAACGAAAG TTTCCCATCA GCCTCTAAGC
ACTGTAGATG TAACTTGTAG TGAACATCCT CCTTCCTTGC CCCCAGAGCC CACATGTAGC
ATTCCCCCAT CGCTGCCACT GACTGAACAG GCTGCCCCCC TGCCTGGAAC ACATGGCCAT
TCCTTTGTTA CTCCCATGTC TGTGGCCGGA TTACCACTGC CACCACCTCT GCCTGGCTCA
GGACTCTCTG CTTCTGCTGT CTCAGCACTG ACACACCTGG ACCATTCTTT ACCAGGTGCC
ATGATGTCAC CTCTCCCTCC TCCTCCACAT TTTCCAAGTG GGGAGATAAC AACTCTGCCT
CCAGCTCCTC TCCTTCCATG TCCTGGATTC CCTCCACAAC CTTTGCCTGG AGCAGGAGTA
CCAGCTGCTC TGCCTGGTTG GGGTATCCCA CCTCCCCCTC CACCACCACC ACCTTTACCT
GGAGCTGCTG TCCCTCCTCC ACCTCCTCCT CTGCCCAGCC TGGGATTTGC ACCCCCACCA
CCACTGCTTC CTGGAGCAGG ACTGCCACCA CCTCCTCCAC CTCTGCCTGG AGGGGGCATT
CCACCACCTC CTCCTCCACC GCCACCTCTG CCTGGTGCTG CTGTGCCCCC TCCATCTCCT
CCACCGCCAC CTCTGCCTGG TGCTGCTGTG CCCCCTCCAC CTCCTCACAC CTCTGCTGCT
TCCTTAATTC CTCCACCACT TCTGATTGGT CTAAATATGC CCCCTCCACC ACCTAAGCCT
GGTGCTGGTG TCCCTCCACC ACCCCCTCCT TTGCCTGGGT TGGGGATGCC TCCTCCAGCC
CCACCACCCC TTCCAGCACC AGTCCAGGGC AGCAGCTACC CAGCATTCCC ACAGGGCTGT
GGTTTTCTTC CTCCTCCATT ACCATCTGGT TTATTTGCAA TGGGGATGAA TCAGGAAAAA
GGGAGCAGGA AACACGTAAT AGAGCCTACT CGGCCAATGA AGCCTCTTTA CTGGACAAGA
ATTCAGCTCC ACAGTAAAAC AGATTCTAGT GCTTCACTTG TGTGGGAAAA AATTGAAGAG
CCTTCCATAG ATTATCATGA GTTTGAAGAA CTGTTTTCTA AAACAGCTGT TAAAGAGAGG
AAGAAACCCA TTTCGGACAC CATTACAAAA AGAAAGACTA AACAAGTTGT CAAGTTGTTA
AGTAACAAAA GATCTCAAGC TGTTGGAATA TTAATGTCTA GCCTTCATTT AGACATGAAA
GACATTCAGC GTGCTGTTGT GAACTTGGAC AACTCTGTGG TTGACCTAGA GACGCTGCAA
GCTCTGTATG AGAATAGAGC ACAATCAGAT GAACTAGAAA AAATAGAAAA GCATAGCAAG
GCATCCAAGG AGAAAGAAAA CGCCAAGTCT TTGGATAAGC CAGAACAGTT CCTCTATGAA
CTCTCACTGA TTCCAAACTT TTCAGAACGT GTGTTTTGCA TCCTGTTCCA GTCAACATTT
TCAGAAAGCA TTGGTTCAAT CCATCGCAAA CTTGAATTGT TACAGAAACT GTGTGAGACA
TTGAAGAATG AATCAGGAGT TATGCGGGTT CTGGGTTTGG TTCTTGCCTT TGGAAATTAC
ATGAATGGTG GAAACAGGAC ACGAGGACAG GCTGATGGGT TTGGATTAGA TATCCTGCCA
AAACTGAAAG ATGTCAAGAG CAGTGATAAC AGCCGAAGTC TTCTATCGTA CATTGTCTCA
TATTATTTGC GTAATTTTGA TGAGGATGCT GGAAGAGAAC AATGCATCTT CCCTCTTCCG
GATCCACAGG ATCTCTTCCA GGCTTCACAA CTGAAGTTTG ATGATTTTCA AAAAGATCTC
CGCAAAATGA AGAAAGATTT GCGAGCATGT GAGACAGAAG CAGCAAAAGT TTATCAGCTA
TCACTAGAAG AGCACCTACA GCCCTTCAAA GACAACATGG AGCAATTCAT TAGTCAAGCC
AAAATAGACC AAGAAAATGA AGAGAAATCA CTGACAGAAG CACATAAAAG CTTTTTGGAA
ACTACAGCCT ATTTCTCTAT GAAACCAAAA ATGGGTGAGA AGGAGGTGTC CCCACATTCT
TTCTTCAGTA TTTGGCATGA ATTCAGTTCT GACTTCAAAG ACTTTTGGAA GAAGGAAAAC
AAACTTATTC TTCAAGAAAG AGTCAAAGAA GCAGAGGAAG TCTGCAGACA GAAAAAGGGG
AAGTCGCTAT ACAATATTAG ACAAAAACAT GACTCTGGAA TTAAAGCAAA GATAAGTATG
AAAATCTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd42227 Clone ID Related Accession (Same CDS sequence) XM_030268217.1 Accession Version XM_030268217.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 5334bp)
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 formin-2 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044214.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921
4981
5041
5101
5161
5221
5281ATGCAGGCAA TAAAAACCGT GGAAAAAGAA GTGATTTTTC TAAAGGAAAC ACTTTTCACA
GAATCCTTCC TAAAGCAACA AAAGTGCAGC AGAAGCCCGG AGAGCAGGCA GCTCCAAGAG
CAGCAGCCAT TGGAAGGAGC TGTCTGCAGC TCTCAGTGCT GTACTGAGCA TGTCCCAGCG
GAGCCCAGTG CAAGCAGCAC ATTATGCAAA AAGGCAGCTC CAGCAGATGG GAGAGAGGCA
CAGCAAGCAT TTGCTTCACT TGCATCCCCG CCGCCTGCAA ACAAGCCTGG ATCGCTAGAG
GGGATCTTGC CAGCAGGCCA AAGGAATGAA ATCCAGGAGG ATGGCTTGAT TGTCAAAGGT
GCTGCACTGC AAAAAATCAT GGGGAATCAA GATGGGAAGC TAAAGAAAAA TACAGGTGAT
GTGCAAGAAG GAGGAGAAGA TGCCTCTGGG CCCAAGGATA CGGACGGCAC AAAGAAGGTA
TCGGGAGGCA GAAGGGGGCT GGGGAAGCAT GCAAAAGGAG GCGAATCAGG TAAGAAGAAG
GGTAAGTCGG ACTCCAGGCC CTCTGTGTTT TCAAATCTGA GGATCAGAAA AAATCTGTCC
AAGGCTAAAG ATGGGAATAG CAGCTCACGG GAGGATGTTT TGGAAAGCCA GGCCTTGCAG
CCTGGGGAGC TGGACAGTAC TCATTCAATT GTAACCAAAA CTCCTGATAT AAGCATCTCT
GCAGATGAAG GGGGTCTCTC AGACACAGAT GTTGAACATT TTGAAATCAG AAATGAAACT
GTTCCAGCTG CTGCAGAGAC ACAGGATGGA CAAAGGACCA GCTCTGGCTC TGATACGGAT
ATATACAGTT TCCATTCAGC TGCAGAACAA GAGGATTTGC TTTCTGATAT CCAGCAAGCT
ATTAGACTGC AGCAGCAGCA GCAGCAGGGG GCAATTAACA TTGGAACTGA GGACCCTGTC
GCCAAAACAA TGGGCCGACA CATGGCTAAT TCTCAAGCAA CCTCCTTAGA TTTTGAACGT
TTTTTTTCTG TAACTACCAC TGACAAAGAG AGGAGCCCAG ACACTGAGGG GGCTTTTCCA
GCGGTATCGG AAATTGTGGA AAACATTCCT GTCTCCTGTG CAACTGAATG GGAACCGAAA
GAAGCGGTAA ACAGCACAGG CTCTCCTGGT AACGGCTTAT TTGAAACACA AGAACGTCAG
CTACTGATTG AGGAGCAGCC CGTTGCTGGA GTGGATGCTG TAGCCAGTGA ACTACAAGAT
GGTTTGAATA GAGCTGCAGT AAAAAACGGG TCTCAGGCAC ACAGCTCCAC AGAACCTTTT
CCATCTCCAG TGGCAGATGC TGAGGCTAAA ATTGCTGAAG TGCAGGCTGT TGATTCTCAG
GGCTCAGTAA CAGAGGGTGG TATTCCAGAT GCAGGCCGTG ATCATGCTGC TGAGACTCAG
GAAGGGAAAC ACACTCTGTC AGCCAGTCAA GAGGAGCTGA GTAATGGTTT ATCCACAGAA
ATGAAAAATG GCAGTTTGTC CTCTGAAGGA ACAGCGGACA GTCCGATGCT TGGTTCCCGA
TGCTTTAAGC CCTATCTAAT TAACGCCTGT TACATCAAAA CCACAACTAG GCAACTGAGT
TCTCCCAACC ATTCACCTTC TCCCTCCCCA TCCCAGAGCC CACTTTTCAC AAGGAGGCAG
GAGTCCTTCC ACAAAAAGGA AAAAGTCTCA ATCAGGAAGA AGAGGTCTGC TAGTTTGGCA
GGTTTGTTCA GTCGTTCTGC AGACTGGACA GAAGAGGTGT CTAATCACAA AAGCGAGATA
ACAGAGAAGG TGAGCTCTGC AGACTACTTG GAGCACAAGG GGTTTAGAGA GAAATTTCAA
ACAGAAAGAG TGCCTTTGAA TCATTCAAGA AAGTCCTCAG GGGTCCAGGC TTCTACAGAG
ACATTTCCCA ATGTCTTTTC AGGACGAACT CTGCTGGAAA AGCTCTTCAG CCAGCAGGAA
AATGCACCAC AAGAAGAAGC AGAAAAACTC TGTTCTCGCA TTATTGCAAT GGGTCTTTTA
CTTCCATTCA CTGACTGCTT CAGAGAGCCA TGTAACCAGA GTGCCAAGCA AAGCACACCC
ACATTTGATC AAGACCAGCT TTATACTTGG GCTGCAGTTA GCCAACCCAC ACATTCAAGA
GATTACACTG AAGGAAGTTT TCCAAGGAGA ATTCCATCTG CGTGGCCTCC ACCCAAACCT
CCAGATGAAG AACAAAGGCT GAAAAGTTCA GAAGAAGAAG CTGGAGAGTT GAAATCTACA
GTCCTAGAAA AAGAGAAGCA ATGCACAGAT GGTGTACAGC GGGCACAGAA AGAAGACTGT
TCCACAGTAC CTGGGTCCTG GGATGCTTTT GAGGTGAAAT CTGAGGAGCG TGCCAGTGTC
ATCCAACAAC TTGAGCAAAC TATTGAGGAT CTGAGGACAA AAATTGCAGA ACTAGAGAAA
CAATTTCCTG CCGCAGAGGT ACAGACTGCT GGGAGGGAGC AGGAAAATGA GCATGCACAT
GCAGACTCTG GGGAACTCAG CAGTGTGACT CTTCAAAGGA ATGAAGAGGA GACCACAACC
AGGACTGTGT CACAGGCGAG ATCTGTACAA ACGTCACCAA CAGAGGATTA TTTAACACAT
AAAATGCCTT CAGCCAGTGC ACTGCCACAG CCACCCCCAC CACCACACTT GGAAGGGGGC
AAAAGTGAAG GGCCTACTCA GAATTTGCCA GCTCTAGAAC TACAGCCCAC ATTCTGTTCT
GAAATCTCCT TAATTCTGTC ACCGAAGCTA ATCTCAGTGC CACTGGATGC AAGCCAATCA
GTACAGAGTA TACCACAGTC ACCTCTTCCA GGACCCAAAG TTGATTTGTC CCTTGCATTT
GAAGGAGAGA CTGAAACGAA AGTTTCCCAT CAGCCTCTAA GCACTGTAGA TGTAACTTGT
AGTGAACATC CTCCTTCCTT GCCCCCAGAG CCCACATGTA GCATTCCCCC ATCGCTGCCA
CTGACTGAAC AGGCTGCCCC CCTGCCTGGA ACACATGGCC ATTCCTTTGT TACTCCCATG
TCTGTGGCCG GATTACCACT GCCACCACCT CTGCCTGGCT CAGGACTCTC TGCTTCTGCT
GTCTCAGCAC TGACACACCT GGACCATTCT TTACCAGGTG CCATGATGTC ACCTCTCCCT
CCTCCTCCAC ATTTTCCAAG TGGGGAGATA ACAACTCTGC CTCCAGCTCC TCTCCTTCCA
TGTCCTGGAT TCCCTCCACA ACCTTTGCCT GGAGCAGGAG TACCAGCTGC TCTGCCTGGT
TGGGGTATCC CACCTCCCCC TCCACCACCA CCACCTTTAC CTGGAGCTGC TGTCCCTCCT
CCACCTCCTC CTCTGCCCAG CCTGGGATTT GCACCCCCAC CACCACTGCT TCCTGGAGCA
GGACTGCCAC CACCTCCTCC ACCTCTGCCT GGAGGGGGCA TTCCACCACC TCCTCCTCCA
CCGCCACCTC TGCCTGGTGC TGCTGTGCCC CCTCCACCTC CTCCACCGCC ACCTCTGCCT
GGTGCTGCTG TGCCCCCTCC ACCTCCTCCA CCACCTCTGC CTGGTGTAGC TGTGCCCCCT
CCACCTCCTC CACCACCTCT GCCTGGTGTA GCTGTGCCCC CTCCACCCCC TCCACCACCT
CTGCCTGGTG TAGCTGTGCC CCCTCCACCT CCTCCACCAC CTCTGCCTGG TGTAGCTGTG
CCGCCTCCAC CTCCTCCACC ACCTCTGCCT GGTGTGGCTG TGCCTCCTCC ACCTCCTCCA
CCACCTCTGC CTGGTCTAGC TGTGCCCCCT CCACCACCTC TGCCTGGTGC TGGTGTCCCT
CCACCACCCC CTCCTTTGCC TGGGTTGGGG ATGCCTCCTC CAGCCCCACC ACCCCTTCCA
GCACCAGTCC AGGGCAGCAG CTACCCAGCA GTCCCACAGG GCTGTGGTTT TCTTCCTCCT
CCATTACCAT CTGGTTTATT TGCAATGGGG ATGAATCAGG AAAAAGGGAG CAGGAAACAC
GTAATAGAGC CTACTCGGCC AATGAAGCCT CTTTACTGGA CAAGAATTCA GCTCCACAGT
AAAACAGATT CTAGTGCTTC ACTTGTGTGG GAAAAAATTG AAGAGCCTTC CATAGATTAT
CATGAGTTTG AAGAACTGTT TTCTAAAACA GCTGTTAAAG AGAGGAAGAA ACCCATTTCG
GACACCATTA CAAAAAGAAA GACTAAACAA GTTGTCAAGT TGTTAAGTAA CAAAAGATCT
CAAGCTGTTG GAATATTAAT GTCTAGCCTT CATTTAGACA TGAAAGACAT TCAGCGTGCT
GTTGTGAACT TGGACAACTC TGTGGTTGAC CTAGAGACGC TGCAAGCTCT GTATGAGAAT
AGAGCACAAT CAGATGAACT AGAAAAAATA GAAAAGCATA GCAAGGCATC CAAGGAGAAA
GAAAACGCCA AGTCTTTGGA TAAGCCAGAA CAGTTCCTCT ATGAACTCTC ACTGATTCCA
AACTTTTCAG AACGTGTGTT TTGCATCCTG TTCCAGTCAA CATTTTCAGA AAGCATTGGT
TCAATCCATC GCAAACTTGA ATTGTTACAG AAACTGTGTG AGACATTGAA GAATGAATCA
GGAGTTATGC GGGTTCTGGG TTTGGTTCTT GCCTTTGGAA ATTACATGAA TGGTGGAAAC
AGGACACGAG GACAGGCTGA TGGGTTTGGA TTAGATATCC TGCCAAAACT GAAAGATGTC
AAGAGCAGTG ATAACAGCCG AAGTCTTCTA TCGTACATTG TCTCATATTA TTTGCGTAAT
TTTGATGAGG ATGCTGGAAG AGAACAATGC ATCTTCCCTC TTCCGGATCC ACAGGATCTC
TTCCAGGCTT CACAACTGAA GTTTGATGAT TTTCAAAAAG ATCTCCGCAA AATGAAGAAA
GATTTGCGAG CATGTGAGAC AGAAGCAGCA AAAGTTTATC AGCTATCACT AGAAGAGCAC
CTACAGCCCT TCAAAGACAA CATGGAGCAA TTCATTAGTC AAGCCAAAAT AGACCAAGAA
AATGAAGAGA AATCACTGAC AGAAGCACAT AAAAGCTTTT TGGAAACTAC AGCCTATTTC
TCTATGAAAC CAAAAATGGG TGAGAAGGAG GTGTCCCCAC ATTCTTTCTT CAGTATTTGG
CATGAATTCA GTTCTGACTT CAAAGACTTT TGGAAGAAGG AAAACAAACT TATTCTTCAA
GAAAGAGTCA AAGAAGCAGA GGAAGTCTGC AGACAGAAAA AGGGGAAGTC GCTATACAAT
ATTAGACAAA AACATGACTC TGGAATTAAA GCAAAGATAA GTATGAAAAT CTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030124077.1 CDS 44..5377 Translation
Target ORF information:
RefSeq Version XM_030268217.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata formin 2 (FMN2), transcript variant X1, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030268217.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921
4981
5041
5101
5161
5221
5281ATGCAGGCAA TAAAAACCGT GGAAAAAGAA GTGATTTTTC TAAAGGAAAC ACTTTTCACA
GAATCCTTCC TAAAGCAACA AAAGTGCAGC AGAAGCCCGG AGAGCAGGCA GCTCCAAGAG
CAGCAGCCAT TGGAAGGAGC TGTCTGCAGC TCTCAGTGCT GTACTGAGCA TGTCCCAGCG
GAGCCCAGTG CAAGCAGCAC ATTATGCAAA AAGGCAGCTC CAGCAGATGG GAGAGAGGCA
CAGCAAGCAT TTGCTTCACT TGCATCCCCG CCGCCTGCAA ACAAGCCTGG ATCGCTAGAG
GGGATCTTGC CAGCAGGCCA AAGGAATGAA ATCCAGGAGG ATGGCTTGAT TGTCAAAGGT
GCTGCACTGC AAAAAATCAT GGGGAATCAA GATGGGAAGC TAAAGAAAAA TACAGGTGAT
GTGCAAGAAG GAGGAGAAGA TGCCTCTGGG CCCAAGGATA CGGACGGCAC AAAGAAGGTA
TCGGGAGGCA GAAGGGGGCT GGGGAAGCAT GCAAAAGGAG GCGAATCAGG TAAGAAGAAG
GGTAAGTCGG ACTCCAGGCC CTCTGTGTTT TCAAATCTGA GGATCAGAAA AAATCTGTCC
AAGGCTAAAG ATGGGAATAG CAGCTCACGG GAGGATGTTT TGGAAAGCCA GGCCTTGCAG
CCTGGGGAGC TGGACAGTAC TCATTCAATT GTAACCAAAA CTCCTGATAT AAGCATCTCT
GCAGATGAAG GGGGTCTCTC AGACACAGAT GTTGAACATT TTGAAATCAG AAATGAAACT
GTTCCAGCTG CTGCAGAGAC ACAGGATGGA CAAAGGACCA GCTCTGGCTC TGATACGGAT
ATATACAGTT TCCATTCAGC TGCAGAACAA GAGGATTTGC TTTCTGATAT CCAGCAAGCT
ATTAGACTGC AGCAGCAGCA GCAGCAGGGG GCAATTAACA TTGGAACTGA GGACCCTGTC
GCCAAAACAA TGGGCCGACA CATGGCTAAT TCTCAAGCAA CCTCCTTAGA TTTTGAACGT
TTTTTTTCTG TAACTACCAC TGACAAAGAG AGGAGCCCAG ACACTGAGGG GGCTTTTCCA
GCGGTATCGG AAATTGTGGA AAACATTCCT GTCTCCTGTG CAACTGAATG GGAACCGAAA
GAAGCGGTAA ACAGCACAGG CTCTCCTGGT AACGGCTTAT TTGAAACACA AGAACGTCAG
CTACTGATTG AGGAGCAGCC CGTTGCTGGA GTGGATGCTG TAGCCAGTGA ACTACAAGAT
GGTTTGAATA GAGCTGCAGT AAAAAACGGG TCTCAGGCAC ACAGCTCCAC AGAACCTTTT
CCATCTCCAG TGGCAGATGC TGAGGCTAAA ATTGCTGAAG TGCAGGCTGT TGATTCTCAG
GGCTCAGTAA CAGAGGGTGG TATTCCAGAT GCAGGCCGTG ATCATGCTGC TGAGACTCAG
GAAGGGAAAC ACACTCTGTC AGCCAGTCAA GAGGAGCTGA GTAATGGTTT ATCCACAGAA
ATGAAAAATG GCAGTTTGTC CTCTGAAGGA ACAGCGGACA GTCCGATGCT TGGTTCCCGA
TGCTTTAAGC CCTATCTAAT TAACGCCTGT TACATCAAAA CCACAACTAG GCAACTGAGT
TCTCCCAACC ATTCACCTTC TCCCTCCCCA TCCCAGAGCC CACTTTTCAC AAGGAGGCAG
GAGTCCTTCC ACAAAAAGGA AAAAGTCTCA ATCAGGAAGA AGAGGTCTGC TAGTTTGGCA
GGTTTGTTCA GTCGTTCTGC AGACTGGACA GAAGAGGTGT CTAATCACAA AAGCGAGATA
ACAGAGAAGG TGAGCTCTGC AGACTACTTG GAGCACAAGG GGTTTAGAGA GAAATTTCAA
ACAGAAAGAG TGCCTTTGAA TCATTCAAGA AAGTCCTCAG GGGTCCAGGC TTCTACAGAG
ACATTTCCCA ATGTCTTTTC AGGACGAACT CTGCTGGAAA AGCTCTTCAG CCAGCAGGAA
AATGCACCAC AAGAAGAAGC AGAAAAACTC TGTTCTCGCA TTATTGCAAT GGGTCTTTTA
CTTCCATTCA CTGACTGCTT CAGAGAGCCA TGTAACCAGA GTGCCAAGCA AAGCACACCC
ACATTTGATC AAGACCAGCT TTATACTTGG GCTGCAGTTA GCCAACCCAC ACATTCAAGA
GATTACACTG AAGGAAGTTT TCCAAGGAGA ATTCCATCTG CGTGGCCTCC ACCCAAACCT
CCAGATGAAG AACAAAGGCT GAAAAGTTCA GAAGAAGAAG CTGGAGAGTT GAAATCTACA
GTCCTAGAAA AAGAGAAGCA ATGCACAGAT GGTGTACAGC GGGCACAGAA AGAAGACTGT
TCCACAGTAC CTGGGTCCTG GGATGCTTTT GAGGTGAAAT CTGAGGAGCG TGCCAGTGTC
ATCCAACAAC TTGAGCAAAC TATTGAGGAT CTGAGGACAA AAATTGCAGA ACTAGAGAAA
CAATTTCCTG CCGCAGAGGT ACAGACTGCT GGGAGGGAGC AGGAAAATGA GCATGCACAT
GCAGACTCTG GGGAACTCAG CAGTGTGACT CTTCAAAGGA ATGAAGAGGA GACCACAACC
AGGACTGTGT CACAGGCGAG ATCTGTACAA ACGTCACCAA CAGAGGATTA TTTAACACAT
AAAATGCCTT CAGCCAGTGC ACTGCCACAG CCACCCCCAC CACCACACTT GGAAGGGGGC
AAAAGTGAAG GGCCTACTCA GAATTTGCCA GCTCTAGAAC TACAGCCCAC ATTCTGTTCT
GAAATCTCCT TAATTCTGTC ACCGAAGCTA ATCTCAGTGC CACTGGATGC AAGCCAATCA
GTACAGAGTA TACCACAGTC ACCTCTTCCA GGACCCAAAG TTGATTTGTC CCTTGCATTT
GAAGGAGAGA CTGAAACGAA AGTTTCCCAT CAGCCTCTAA GCACTGTAGA TGTAACTTGT
AGTGAACATC CTCCTTCCTT GCCCCCAGAG CCCACATGTA GCATTCCCCC ATCGCTGCCA
CTGACTGAAC AGGCTGCCCC CCTGCCTGGA ACACATGGCC ATTCCTTTGT TACTCCCATG
TCTGTGGCCG GATTACCACT GCCACCACCT CTGCCTGGCT CAGGACTCTC TGCTTCTGCT
GTCTCAGCAC TGACACACCT GGACCATTCT TTACCAGGTG CCATGATGTC ACCTCTCCCT
CCTCCTCCAC ATTTTCCAAG TGGGGAGATA ACAACTCTGC CTCCAGCTCC TCTCCTTCCA
TGTCCTGGAT TCCCTCCACA ACCTTTGCCT GGAGCAGGAG TACCAGCTGC TCTGCCTGGT
TGGGGTATCC CACCTCCCCC TCCACCACCA CCACCTTTAC CTGGAGCTGC TGTCCCTCCT
CCACCTCCTC CTCTGCCCAG CCTGGGATTT GCACCCCCAC CACCACTGCT TCCTGGAGCA
GGACTGCCAC CACCTCCTCC ACCTCTGCCT GGAGGGGGCA TTCCACCACC TCCTCCTCCA
CCGCCACCTC TGCCTGGTGC TGCTGTGCCC CCTCCACCTC CTCCACCGCC ACCTCTGCCT
GGTGCTGCTG TGCCCCCTCC ACCTCCTCCA CCACCTCTGC CTGGTGTAGC TGTGCCCCCT
CCACCTCCTC CACCACCTCT GCCTGGTGTA GCTGTGCCCC CTCCACCCCC TCCACCACCT
CTGCCTGGTG TAGCTGTGCC CCCTCCACCT CCTCCACCAC CTCTGCCTGG TGTAGCTGTG
CCGCCTCCAC CTCCTCCACC ACCTCTGCCT GGTGTGGCTG TGCCTCCTCC ACCTCCTCCA
CCACCTCTGC CTGGTCTAGC TGTGCCCCCT CCACCACCTC TGCCTGGTGC TGGTGTCCCT
CCACCACCCC CTCCTTTGCC TGGGTTGGGG ATGCCTCCTC CAGCCCCACC ACCCCTTCCA
GCACCAGTCC AGGGCAGCAG CTACCCAGCA GTCCCACAGG GCTGTGGTTT TCTTCCTCCT
CCATTACCAT CTGGTTTATT TGCAATGGGG ATGAATCAGG AAAAAGGGAG CAGGAAACAC
GTAATAGAGC CTACTCGGCC AATGAAGCCT CTTTACTGGA CAAGAATTCA GCTCCACAGT
AAAACAGATT CTAGTGCTTC ACTTGTGTGG GAAAAAATTG AAGAGCCTTC CATAGATTAT
CATGAGTTTG AAGAACTGTT TTCTAAAACA GCTGTTAAAG AGAGGAAGAA ACCCATTTCG
GACACCATTA CAAAAAGAAA GACTAAACAA GTTGTCAAGT TGTTAAGTAA CAAAAGATCT
CAAGCTGTTG GAATATTAAT GTCTAGCCTT CATTTAGACA TGAAAGACAT TCAGCGTGCT
GTTGTGAACT TGGACAACTC TGTGGTTGAC CTAGAGACGC TGCAAGCTCT GTATGAGAAT
AGAGCACAAT CAGATGAACT AGAAAAAATA GAAAAGCATA GCAAGGCATC CAAGGAGAAA
GAAAACGCCA AGTCTTTGGA TAAGCCAGAA CAGTTCCTCT ATGAACTCTC ACTGATTCCA
AACTTTTCAG AACGTGTGTT TTGCATCCTG TTCCAGTCAA CATTTTCAGA AAGCATTGGT
TCAATCCATC GCAAACTTGA ATTGTTACAG AAACTGTGTG AGACATTGAA GAATGAATCA
GGAGTTATGC GGGTTCTGGG TTTGGTTCTT GCCTTTGGAA ATTACATGAA TGGTGGAAAC
AGGACACGAG GACAGGCTGA TGGGTTTGGA TTAGATATCC TGCCAAAACT GAAAGATGTC
AAGAGCAGTG ATAACAGCCG AAGTCTTCTA TCGTACATTG TCTCATATTA TTTGCGTAAT
TTTGATGAGG ATGCTGGAAG AGAACAATGC ATCTTCCCTC TTCCGGATCC ACAGGATCTC
TTCCAGGCTT CACAACTGAA GTTTGATGAT TTTCAAAAAG ATCTCCGCAA AATGAAGAAA
GATTTGCGAG CATGTGAGAC AGAAGCAGCA AAAGTTTATC AGCTATCACT AGAAGAGCAC
CTACAGCCCT TCAAAGACAA CATGGAGCAA TTCATTAGTC AAGCCAAAAT AGACCAAGAA
AATGAAGAGA AATCACTGAC AGAAGCACAT AAAAGCTTTT TGGAAACTAC AGCCTATTTC
TCTATGAAAC CAAAAATGGG TGAGAAGGAG GTGTCCCCAC ATTCTTTCTT CAGTATTTGG
CATGAATTCA GTTCTGACTT CAAAGACTTT TGGAAGAAGG AAAACAAACT TATTCTTCAA
GAAAGAGTCA AAGAAGCAGA GGAAGTCTGC AGACAGAAAA AGGGGAAGTC GCTATACAAT
ATTAGACAAA AACATGACTC TGGAATTAAA GCAAAGATAA GTATGAAAAT CTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd42228 Clone ID Related Accession (Same CDS sequence) XM_030268218.1 Accession Version XM_030268218.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 5325bp)
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 formin-2 isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044214.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921
4981
5041
5101
5161
5221
5281ATGCAGGCAA TAAAAACCGT GGAAAAAGAA GTGATTTTTC TAAAGGAAAC ACTTTTCACA
GAATCCTTCC TAAAGCAACA AAAGTGCAGC AGAAGCCCGG AGAGCAGGCA GCTCCAAGAG
CAGCAGCCAT TGGAAGGAGC TGTCTGCAGC TCTCAGTGCT GTACTGAGCA TGTCCCAGCG
GAGCCCAGTG CAAGCAGCAC ATTATGCAAA AAGGCAGCTC CAGCAGATGG GAGAGAGGCA
CAGCAAGCAT TTGCTTCACT TGCATCCCCG CCGCCTGCAA ACAAGCCTGG ATCGCTAGAG
GGGATCTTGC CAGCAGGCCA AAGGAATGAA ATCCAGGAGG ATGGCTTGAT TGTCAAAGGT
GCTGCACTGC AAAAAATCAT GGGGAATCAA GATGGGAAGC TAAAGAAAAA TACAGGTGAT
GTGCAAGAAG GAGGAGAAGA TGCCTCTGGG CCCAAGGATA CGGACGGCAC AAAGAAGGTA
TCGGGAGGCA GAAGGGGGCT GGGGAAGCAT GCAAAAGGAG GCGAATCAGG TAAGAAGAAG
GGTAAGTCGG ACTCCAGGCC CTCTGTGTTT TCAAATCTGA GGATCAGAAA AAATCTGTCC
AAGGCTAAAG ATGGGAATAG CAGCTCACGG GAGGATGTTT TGGAAAGCCA GGCCTTGCAG
CCTGGGGAGC TGGACAGTAC TCATTCAATT GTAACCAAAA CTCCTGATAT AAGCATCTCT
GCAGATGAAG GGGGTCTCTC AGACACAGAT GTTGAACATT TTGAAATCAG AAATGAAACT
GTTCCAGCTG CTGCAGAGAC ACAGGATGGA CAAAGGACCA GCTCTGGCTC TGATACGGAT
ATATACAGTT TCCATTCAGC TGCAGAACAA GAGGATTTGC TTTCTGATAT CCAGCAAGCT
ATTAGACTGC AGCAGCAGCA GCAGCAGGGG GCAATTAACA TTGGAACTGA GGACCCTGTC
GCCAAAACAA TGGGCCGACA CATGGCTAAT TCTCAAGCAA CCTCCTTAGA TTTTGAACGT
TTTTTTTCTG TAACTACCAC TGACAAAGAG AGGAGCCCAG ACACTGAGGG GGCTTTTCCA
GCGGTATCGG AAATTGTGGA AAACATTCCT GTCTCCTGTG CAACTGAATG GGAACCGAAA
GAAGCGGTAA ACAGCACAGG CTCTCCTGGT AACGGCTTAT TTGAAACACA AGAACGTCAG
CTACTGATTG AGGAGCAGCC CGTTGCTGGA GTGGATGCTG TAGCCAGTGA ACTACAAGAT
GGTTTGAATA GAGCTGCAGT AAAAAACGGG TCTCAGGCAC ACAGCTCCAC AGAACCTTTT
CCATCTCCAG TGGCAGATGC TGAGGCTAAA ATTGCTGAAG TGCAGGCTGT TGATTCTCAG
GGCTCAGTAA CAGAGGGTGG TATTCCAGAT GCAGGCCGTG ATCATGCTGC TGAGACTCAG
GAAGGGAAAC ACACTCTGTC AGCCAGTCAA GAGGAGCTGA GTAATGGTTT ATCCACAGAA
ATGAAAAATG GCAGTTTGTC CTCTGAAGGA ACAGCGGACA GTCCGATGCT TGGTTCCCGA
TGCTTTAAGC CCTATCTAAT TAACGCCTGT TACATCAAAA CCACAACTAG GCAACTGAGT
TCTCCCAACC ATTCACCTTC TCCCTCCCCA TCCCAGAGCC CACTTTTCAC AAGGAGGCAG
GAGTCCTTCC ACAAAAAGGA AAAAGTCTCA ATCAGGAAGA AGAGGTCTGC TAGTTTGGCA
GGTTTGTTCA GTCGTTCTGC AGACTGGACA GAAGAGGTGT CTAATCACAA AAGCGAGATA
ACAGAGAAGG TGAGCTCTGC AGACTACTTG GAGCACAAGG GGTTTAGAGA GAAATTTCAA
ACAGAAAGAG TGCCTTTGAA TCATTCAAGA AAGTCCTCAG GGGTCCAGGC TTCTACAGAG
ACATTTCCCA ATGTCTTTTC AGGACGAACT CTGCTGGAAA AGCTCTTCAG CCAGCAGGAA
AATGCACCAC AAGAAGAAGC AGAAAAACTC TGTTCTCGCA TTATTGCAAT GGGTCTTTTA
CTTCCATTCA CTGACTGCTT CAGAGAGCCA TGTAACCAGA GTGCCAAGCA AAGCACACCC
ACATTTGATC AAGACCAGCT TTATACTTGG GCTGCAGTTA GCCAACCCAC ACATTCAAGA
GATTACACTG AAGGAAGTTT TCCAAGGAGA ATTCCATCTG CGTGGCCTCC ACCCAAACCT
CCAGATGAAG AACAAAGGCT GAAAAGTTCA GAAGAAGAGT TGAAATCTAC AGTCCTAGAA
AAAGAGAAGC AATGCACAGA TGGTGTACAG CGGGCACAGA AAGAAGACTG TTCCACAGTA
CCTGGGTCCT GGGATGCTTT TGAGGTGAAA TCTGAGGAGC GTGCCAGTGT CATCCAACAA
CTTGAGCAAA CTATTGAGGA TCTGAGGACA AAAATTGCAG AACTAGAGAA ACAATTTCCT
GCCGCAGAGG TACAGACTGC TGGGAGGGAG CAGGAAAATG AGCATGCACA TGCAGACTCT
GGGGAACTCA GCAGTGTGAC TCTTCAAAGG AATGAAGAGG AGACCACAAC CAGGACTGTG
TCACAGGCGA GATCTGTACA AACGTCACCA ACAGAGGATT ATTTAACACA TAAAATGCCT
TCAGCCAGTG CACTGCCACA GCCACCCCCA CCACCACACT TGGAAGGGGG CAAAAGTGAA
GGGCCTACTC AGAATTTGCC AGCTCTAGAA CTACAGCCCA CATTCTGTTC TGAAATCTCC
TTAATTCTGT CACCGAAGCT AATCTCAGTG CCACTGGATG CAAGCCAATC AGTACAGAGT
ATACCACAGT CACCTCTTCC AGGACCCAAA GTTGATTTGT CCCTTGCATT TGAAGGAGAG
ACTGAAACGA AAGTTTCCCA TCAGCCTCTA AGCACTGTAG ATGTAACTTG TAGTGAACAT
CCTCCTTCCT TGCCCCCAGA GCCCACATGT AGCATTCCCC CATCGCTGCC ACTGACTGAA
CAGGCTGCCC CCCTGCCTGG AACACATGGC CATTCCTTTG TTACTCCCAT GTCTGTGGCC
GGATTACCAC TGCCACCACC TCTGCCTGGC TCAGGACTCT CTGCTTCTGC TGTCTCAGCA
CTGACACACC TGGACCATTC TTTACCAGGT GCCATGATGT CACCTCTCCC TCCTCCTCCA
CATTTTCCAA GTGGGGAGAT AACAACTCTG CCTCCAGCTC CTCTCCTTCC ATGTCCTGGA
TTCCCTCCAC AACCTTTGCC TGGAGCAGGA GTACCAGCTG CTCTGCCTGG TTGGGGTATC
CCACCTCCCC CTCCACCACC ACCACCTTTA CCTGGAGCTG CTGTCCCTCC TCCACCTCCT
CCTCTGCCCA GCCTGGGATT TGCACCCCCA CCACCACTGC TTCCTGGAGC AGGACTGCCA
CCACCTCCTC CACCTCTGCC TGGAGGGGGC ATTCCACCAC CTCCTCCTCC ACCGCCACCT
CTGCCTGGTG CTGCTGTGCC CCCTCCACCT CCTCCACCGC CACCTCTGCC TGGTGCTGCT
GTGCCCCCTC CACCTCCTCC ACCACCTCTG CCTGGTGTAG CTGTGCCCCC TCCACCTCCT
CCACCACCTC TGCCTGGTGT AGCTGTGCCC CCTCCACCCC CTCCACCACC TCTGCCTGGT
GTAGCTGTGC CCCCTCCACC TCCTCCACCA CCTCTGCCTG GTGTAGCTGT GCCGCCTCCA
CCTCCTCCAC CACCTCTGCC TGGTGTGGCT GTGCCTCCTC CACCTCCTCC ACCACCTCTG
CCTGGTCTAG CTGTGCCCCC TCCACCACCT CTGCCTGGTG CTGGTGTCCC TCCACCACCC
CCTCCTTTGC CTGGGTTGGG GATGCCTCCT CCAGCCCCAC CACCCCTTCC AGCACCAGTC
CAGGGCAGCA GCTACCCAGC AGTCCCACAG GGCTGTGGTT TTCTTCCTCC TCCATTACCA
TCTGGTTTAT TTGCAATGGG GATGAATCAG GAAAAAGGGA GCAGGAAACA CGTAATAGAG
CCTACTCGGC CAATGAAGCC TCTTTACTGG ACAAGAATTC AGCTCCACAG TAAAACAGAT
TCTAGTGCTT CACTTGTGTG GGAAAAAATT GAAGAGCCTT CCATAGATTA TCATGAGTTT
GAAGAACTGT TTTCTAAAAC AGCTGTTAAA GAGAGGAAGA AACCCATTTC GGACACCATT
ACAAAAAGAA AGACTAAACA AGTTGTCAAG TTGTTAAGTA ACAAAAGATC TCAAGCTGTT
GGAATATTAA TGTCTAGCCT TCATTTAGAC ATGAAAGACA TTCAGCGTGC TGTTGTGAAC
TTGGACAACT CTGTGGTTGA CCTAGAGACG CTGCAAGCTC TGTATGAGAA TAGAGCACAA
TCAGATGAAC TAGAAAAAAT AGAAAAGCAT AGCAAGGCAT CCAAGGAGAA AGAAAACGCC
AAGTCTTTGG ATAAGCCAGA ACAGTTCCTC TATGAACTCT CACTGATTCC AAACTTTTCA
GAACGTGTGT TTTGCATCCT GTTCCAGTCA ACATTTTCAG AAAGCATTGG TTCAATCCAT
CGCAAACTTG AATTGTTACA GAAACTGTGT GAGACATTGA AGAATGAATC AGGAGTTATG
CGGGTTCTGG GTTTGGTTCT TGCCTTTGGA AATTACATGA ATGGTGGAAA CAGGACACGA
GGACAGGCTG ATGGGTTTGG ATTAGATATC CTGCCAAAAC TGAAAGATGT CAAGAGCAGT
GATAACAGCC GAAGTCTTCT ATCGTACATT GTCTCATATT ATTTGCGTAA TTTTGATGAG
GATGCTGGAA GAGAACAATG CATCTTCCCT CTTCCGGATC CACAGGATCT CTTCCAGGCT
TCACAACTGA AGTTTGATGA TTTTCAAAAA GATCTCCGCA AAATGAAGAA AGATTTGCGA
GCATGTGAGA CAGAAGCAGC AAAAGTTTAT CAGCTATCAC TAGAAGAGCA CCTACAGCCC
TTCAAAGACA ACATGGAGCA ATTCATTAGT CAAGCCAAAA TAGACCAAGA AAATGAAGAG
AAATCACTGA CAGAAGCACA TAAAAGCTTT TTGGAAACTA CAGCCTATTT CTCTATGAAA
CCAAAAATGG GTGAGAAGGA GGTGTCCCCA CATTCTTTCT TCAGTATTTG GCATGAATTC
AGTTCTGACT TCAAAGACTT TTGGAAGAAG GAAAACAAAC TTATTCTTCA AGAAAGAGTC
AAAGAAGCAG AGGAAGTCTG CAGACAGAAA AAGGGGAAGT CGCTATACAA TATTAGACAA
AAACATGACT CTGGAATTAA AGCAAAGATA AGTATGAAAA TCTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030124078.1 CDS 44..5368 Translation
Target ORF information:
RefSeq Version XM_030268218.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata formin 2 (FMN2), transcript variant X2, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030268218.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921
4981
5041
5101
5161
5221
5281ATGCAGGCAA TAAAAACCGT GGAAAAAGAA GTGATTTTTC TAAAGGAAAC ACTTTTCACA
GAATCCTTCC TAAAGCAACA AAAGTGCAGC AGAAGCCCGG AGAGCAGGCA GCTCCAAGAG
CAGCAGCCAT TGGAAGGAGC TGTCTGCAGC TCTCAGTGCT GTACTGAGCA TGTCCCAGCG
GAGCCCAGTG CAAGCAGCAC ATTATGCAAA AAGGCAGCTC CAGCAGATGG GAGAGAGGCA
CAGCAAGCAT TTGCTTCACT TGCATCCCCG CCGCCTGCAA ACAAGCCTGG ATCGCTAGAG
GGGATCTTGC CAGCAGGCCA AAGGAATGAA ATCCAGGAGG ATGGCTTGAT TGTCAAAGGT
GCTGCACTGC AAAAAATCAT GGGGAATCAA GATGGGAAGC TAAAGAAAAA TACAGGTGAT
GTGCAAGAAG GAGGAGAAGA TGCCTCTGGG CCCAAGGATA CGGACGGCAC AAAGAAGGTA
TCGGGAGGCA GAAGGGGGCT GGGGAAGCAT GCAAAAGGAG GCGAATCAGG TAAGAAGAAG
GGTAAGTCGG ACTCCAGGCC CTCTGTGTTT TCAAATCTGA GGATCAGAAA AAATCTGTCC
AAGGCTAAAG ATGGGAATAG CAGCTCACGG GAGGATGTTT TGGAAAGCCA GGCCTTGCAG
CCTGGGGAGC TGGACAGTAC TCATTCAATT GTAACCAAAA CTCCTGATAT AAGCATCTCT
GCAGATGAAG GGGGTCTCTC AGACACAGAT GTTGAACATT TTGAAATCAG AAATGAAACT
GTTCCAGCTG CTGCAGAGAC ACAGGATGGA CAAAGGACCA GCTCTGGCTC TGATACGGAT
ATATACAGTT TCCATTCAGC TGCAGAACAA GAGGATTTGC TTTCTGATAT CCAGCAAGCT
ATTAGACTGC AGCAGCAGCA GCAGCAGGGG GCAATTAACA TTGGAACTGA GGACCCTGTC
GCCAAAACAA TGGGCCGACA CATGGCTAAT TCTCAAGCAA CCTCCTTAGA TTTTGAACGT
TTTTTTTCTG TAACTACCAC TGACAAAGAG AGGAGCCCAG ACACTGAGGG GGCTTTTCCA
GCGGTATCGG AAATTGTGGA AAACATTCCT GTCTCCTGTG CAACTGAATG GGAACCGAAA
GAAGCGGTAA ACAGCACAGG CTCTCCTGGT AACGGCTTAT TTGAAACACA AGAACGTCAG
CTACTGATTG AGGAGCAGCC CGTTGCTGGA GTGGATGCTG TAGCCAGTGA ACTACAAGAT
GGTTTGAATA GAGCTGCAGT AAAAAACGGG TCTCAGGCAC ACAGCTCCAC AGAACCTTTT
CCATCTCCAG TGGCAGATGC TGAGGCTAAA ATTGCTGAAG TGCAGGCTGT TGATTCTCAG
GGCTCAGTAA CAGAGGGTGG TATTCCAGAT GCAGGCCGTG ATCATGCTGC TGAGACTCAG
GAAGGGAAAC ACACTCTGTC AGCCAGTCAA GAGGAGCTGA GTAATGGTTT ATCCACAGAA
ATGAAAAATG GCAGTTTGTC CTCTGAAGGA ACAGCGGACA GTCCGATGCT TGGTTCCCGA
TGCTTTAAGC CCTATCTAAT TAACGCCTGT TACATCAAAA CCACAACTAG GCAACTGAGT
TCTCCCAACC ATTCACCTTC TCCCTCCCCA TCCCAGAGCC CACTTTTCAC AAGGAGGCAG
GAGTCCTTCC ACAAAAAGGA AAAAGTCTCA ATCAGGAAGA AGAGGTCTGC TAGTTTGGCA
GGTTTGTTCA GTCGTTCTGC AGACTGGACA GAAGAGGTGT CTAATCACAA AAGCGAGATA
ACAGAGAAGG TGAGCTCTGC AGACTACTTG GAGCACAAGG GGTTTAGAGA GAAATTTCAA
ACAGAAAGAG TGCCTTTGAA TCATTCAAGA AAGTCCTCAG GGGTCCAGGC TTCTACAGAG
ACATTTCCCA ATGTCTTTTC AGGACGAACT CTGCTGGAAA AGCTCTTCAG CCAGCAGGAA
AATGCACCAC AAGAAGAAGC AGAAAAACTC TGTTCTCGCA TTATTGCAAT GGGTCTTTTA
CTTCCATTCA CTGACTGCTT CAGAGAGCCA TGTAACCAGA GTGCCAAGCA AAGCACACCC
ACATTTGATC AAGACCAGCT TTATACTTGG GCTGCAGTTA GCCAACCCAC ACATTCAAGA
GATTACACTG AAGGAAGTTT TCCAAGGAGA ATTCCATCTG CGTGGCCTCC ACCCAAACCT
CCAGATGAAG AACAAAGGCT GAAAAGTTCA GAAGAAGAGT TGAAATCTAC AGTCCTAGAA
AAAGAGAAGC AATGCACAGA TGGTGTACAG CGGGCACAGA AAGAAGACTG TTCCACAGTA
CCTGGGTCCT GGGATGCTTT TGAGGTGAAA TCTGAGGAGC GTGCCAGTGT CATCCAACAA
CTTGAGCAAA CTATTGAGGA TCTGAGGACA AAAATTGCAG AACTAGAGAA ACAATTTCCT
GCCGCAGAGG TACAGACTGC TGGGAGGGAG CAGGAAAATG AGCATGCACA TGCAGACTCT
GGGGAACTCA GCAGTGTGAC TCTTCAAAGG AATGAAGAGG AGACCACAAC CAGGACTGTG
TCACAGGCGA GATCTGTACA AACGTCACCA ACAGAGGATT ATTTAACACA TAAAATGCCT
TCAGCCAGTG CACTGCCACA GCCACCCCCA CCACCACACT TGGAAGGGGG CAAAAGTGAA
GGGCCTACTC AGAATTTGCC AGCTCTAGAA CTACAGCCCA CATTCTGTTC TGAAATCTCC
TTAATTCTGT CACCGAAGCT AATCTCAGTG CCACTGGATG CAAGCCAATC AGTACAGAGT
ATACCACAGT CACCTCTTCC AGGACCCAAA GTTGATTTGT CCCTTGCATT TGAAGGAGAG
ACTGAAACGA AAGTTTCCCA TCAGCCTCTA AGCACTGTAG ATGTAACTTG TAGTGAACAT
CCTCCTTCCT TGCCCCCAGA GCCCACATGT AGCATTCCCC CATCGCTGCC ACTGACTGAA
CAGGCTGCCC CCCTGCCTGG AACACATGGC CATTCCTTTG TTACTCCCAT GTCTGTGGCC
GGATTACCAC TGCCACCACC TCTGCCTGGC TCAGGACTCT CTGCTTCTGC TGTCTCAGCA
CTGACACACC TGGACCATTC TTTACCAGGT GCCATGATGT CACCTCTCCC TCCTCCTCCA
CATTTTCCAA GTGGGGAGAT AACAACTCTG CCTCCAGCTC CTCTCCTTCC ATGTCCTGGA
TTCCCTCCAC AACCTTTGCC TGGAGCAGGA GTACCAGCTG CTCTGCCTGG TTGGGGTATC
CCACCTCCCC CTCCACCACC ACCACCTTTA CCTGGAGCTG CTGTCCCTCC TCCACCTCCT
CCTCTGCCCA GCCTGGGATT TGCACCCCCA CCACCACTGC TTCCTGGAGC AGGACTGCCA
CCACCTCCTC CACCTCTGCC TGGAGGGGGC ATTCCACCAC CTCCTCCTCC ACCGCCACCT
CTGCCTGGTG CTGCTGTGCC CCCTCCACCT CCTCCACCGC CACCTCTGCC TGGTGCTGCT
GTGCCCCCTC CACCTCCTCC ACCACCTCTG CCTGGTGTAG CTGTGCCCCC TCCACCTCCT
CCACCACCTC TGCCTGGTGT AGCTGTGCCC CCTCCACCCC CTCCACCACC TCTGCCTGGT
GTAGCTGTGC CCCCTCCACC TCCTCCACCA CCTCTGCCTG GTGTAGCTGT GCCGCCTCCA
CCTCCTCCAC CACCTCTGCC TGGTGTGGCT GTGCCTCCTC CACCTCCTCC ACCACCTCTG
CCTGGTCTAG CTGTGCCCCC TCCACCACCT CTGCCTGGTG CTGGTGTCCC TCCACCACCC
CCTCCTTTGC CTGGGTTGGG GATGCCTCCT CCAGCCCCAC CACCCCTTCC AGCACCAGTC
CAGGGCAGCA GCTACCCAGC AGTCCCACAG GGCTGTGGTT TTCTTCCTCC TCCATTACCA
TCTGGTTTAT TTGCAATGGG GATGAATCAG GAAAAAGGGA GCAGGAAACA CGTAATAGAG
CCTACTCGGC CAATGAAGCC TCTTTACTGG ACAAGAATTC AGCTCCACAG TAAAACAGAT
TCTAGTGCTT CACTTGTGTG GGAAAAAATT GAAGAGCCTT CCATAGATTA TCATGAGTTT
GAAGAACTGT TTTCTAAAAC AGCTGTTAAA GAGAGGAAGA AACCCATTTC GGACACCATT
ACAAAAAGAA AGACTAAACA AGTTGTCAAG TTGTTAAGTA ACAAAAGATC TCAAGCTGTT
GGAATATTAA TGTCTAGCCT TCATTTAGAC ATGAAAGACA TTCAGCGTGC TGTTGTGAAC
TTGGACAACT CTGTGGTTGA CCTAGAGACG CTGCAAGCTC TGTATGAGAA TAGAGCACAA
TCAGATGAAC TAGAAAAAAT AGAAAAGCAT AGCAAGGCAT CCAAGGAGAA AGAAAACGCC
AAGTCTTTGG ATAAGCCAGA ACAGTTCCTC TATGAACTCT CACTGATTCC AAACTTTTCA
GAACGTGTGT TTTGCATCCT GTTCCAGTCA ACATTTTCAG AAAGCATTGG TTCAATCCAT
CGCAAACTTG AATTGTTACA GAAACTGTGT GAGACATTGA AGAATGAATC AGGAGTTATG
CGGGTTCTGG GTTTGGTTCT TGCCTTTGGA AATTACATGA ATGGTGGAAA CAGGACACGA
GGACAGGCTG ATGGGTTTGG ATTAGATATC CTGCCAAAAC TGAAAGATGT CAAGAGCAGT
GATAACAGCC GAAGTCTTCT ATCGTACATT GTCTCATATT ATTTGCGTAA TTTTGATGAG
GATGCTGGAA GAGAACAATG CATCTTCCCT CTTCCGGATC CACAGGATCT CTTCCAGGCT
TCACAACTGA AGTTTGATGA TTTTCAAAAA GATCTCCGCA AAATGAAGAA AGATTTGCGA
GCATGTGAGA CAGAAGCAGC AAAAGTTTAT CAGCTATCAC TAGAAGAGCA CCTACAGCCC
TTCAAAGACA ACATGGAGCA ATTCATTAGT CAAGCCAAAA TAGACCAAGA AAATGAAGAG
AAATCACTGA CAGAAGCACA TAAAAGCTTT TTGGAAACTA CAGCCTATTT CTCTATGAAA
CCAAAAATGG GTGAGAAGGA GGTGTCCCCA CATTCTTTCT TCAGTATTTG GCATGAATTC
AGTTCTGACT TCAAAGACTT TTGGAAGAAG GAAAACAAAC TTATTCTTCA AGAAAGAGTC
AAAGAAGCAG AGGAAGTCTG CAGACAGAAA AAGGGGAAGT CGCTATACAA TATTAGACAA
AAACATGACT CTGGAATTAA AGCAAAGATA AGTATGAAAA TCTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd42229 Clone ID Related Accession (Same CDS sequence) XM_030268219.1 Accession Version XM_030268219.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 5325bp)
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 formin-2 isoform X3 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044214.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921
4981
5041
5101
5161
5221
5281ATGCAGGCAA TAAAAACCGT GGAAAAAGAA GTGATTTTTC TAAAGGAAAC ACTTTTCACA
GAATCCTTCC TAAAGCAACA AAAGTGCAGC AGAAGCCCGG AGAGCAGGCA GCTCCAAGAG
CAGCAGCCAT TGGAAGGAGC TGTCTGCAGC TCTCAGTGCT GTACTGAGCA TGTCCCAGCG
GAGCCCAGTG CAAGCAGCAC ATTATGCAAA AAGGCAGCTC CAGCAGATGG GAGAGAGGCA
CAGCAAGCAT TTGCTTCACT TGCATCCCCG CCGCCTGCAA ACAAGCCTGG ATCGCTAGAG
GGGATCTTGC CAGCAGGCCA AAGGAATGAA ATCCAGGAGG ATGGCTTGAT TGTCAAAGGT
GCTGCACTGC AAAAAATCAT GGGGAATCAA GATGGGAAGC TAAAGAAAAA TACAGGTGAT
GTGCAAGAAG GAGGAGAAGA TGCCTCTGGG CCCAAGGATA CGGACGGCAC AAAGAAGGTA
TCGGGAGGCA GAAGGGGGCT GGGGAAGCAT GCAAAAGGAG GCGAATCAGG TAAGAAGAAG
GGTAAGTCGG ACTCCAGGCC CTCTGTGTTT TCAAATCTGA GGATCAGAAA AAATCTGTCC
AAGGCTAAAG ATGGGAATAG CAGCTCACGG GAGGATGTTT TGGAAAGCCA GGCCTTGCAG
CCTGGGGAGC TGGACAGTAC TCATTCAATT GTAACCAAAA CTCCTGATAT AAGCATCTCT
GCAGATGAAG GGGGTCTCTC AGACACAGAT GTTGAACATT TTGAAATCAG AAATGAAACT
GTTCCAGCTG CTGCAGAGAC ACAGGATGGA CAAAGGACCA GCTCTGGCTC TGATACGGAT
ATATACAGTT TCCATTCAGC TGCAGAACAA GAGGATTTGC TTTCTGATAT CCAGCAAGCT
ATTAGACTGC AGCAGCAGCA GCAGCAGGGG GCAATTAACA TTGGAACTGA GGACCCTGTC
GCCAAAACAA TGGGCCGACA CATGGCTAAT TCTCAAGCAA CCTCCTTAGA TTTTGAACGT
TTTTTTTCTG TAACTACCAC TGACAAAGAG AGGAGCCCAG ACACTGAGGG GGCTTTTCCA
GCGGTATCGG AAATTGTGGA AAACATTCCT GTCTCCTGTG CAACTGAATG GGAACCGAAA
GAAGCGGTAA ACAGCACAGG CTCTCCTGGT AACGGCTTAT TTGAAACACA AGAACGTCAG
CTACTGATTG AGGAGCAGCC CGTTGCTGGA GTGGATGCTG TAGCCAGTGA ACTACAAGAT
GGTTTGAATA GAGCTGCAGT AAAAAACGGG TCTCAGGCAC ACAGCTCCAC AGAACCTTTT
CCATCTCCAG TGGCAGATGC TGAGGCTAAA ATTGCTGAAG TGCAGGCTGT TGATTCTCAG
GGCTCAGTAA CAGAGGGTGG TATTCCAGAT GCAGGCCGTG ATCATGCTGC TGAGACTCAG
GAAGGGAAAC ACACTCTGTC AGCCAGTCAA GAGGAGCTGA GTAATGGTTT ATCCACAGAA
ATGAAAAATG GCAGTTTGTC CTCTGAAGGA ACAGCGGACA GTCCGATGCT TGGTTCCCGA
TGCTTTAAGC CCTATCTAAT TAACGCCTGT TACATCAAAA CCACAACTAG GCAACTGAGT
TCTCCCAACC ATTCACCTTC TCCCTCCCCA TCCCAGAGCC CACTTTTCAC AAGGAGGCAG
GAGTCCTTCC ACAAAAAGGA AAAAGTCTCA ATCAGGAAGA AGAGGTCTGC TAGTTTGGCA
GGTTTGTTCA GTCGTTCTGC AGACTGGACA GAAGAGGTGT CTAATCACAA AAGCGAGATA
ACAGAGAAGG TGAGCTCTGC AGACTACTTG GAGCACAAGG GGTTTAGAGA GAAATTTCAA
ACAGAAAGAG TGCCTTTGAA TCATTCAAGA AAGTCCTCAG GGGTCCAGGC TTCTACAGAG
ACATTTCCCA ATGTCTTTTC AGGACGAACT CTGCTGGAAA AGCTCTTCAG CCAGCAGGAA
AATGCACCAC AAGAAGAAGC AGAAAAACTC TGTTCTCGCA TTATTGCAAT GGGTCTTTTA
CTTCCATTCA CTGACTGCTT CAGAGAGCCA TGTAACCAGA GTGCCAAGCA AAGCACACCC
ACATTTGATC AAGACCAGCT TTATACTTGG GCTGCAGTTA GCCAACCCAC ACATTCAAGA
GATTACACTG AAGGAAGTTT TCCAAGGAGA ATTCCATCTG CGTGGCCTCC ACCCAAACCT
CCAGATGAAG AACAAAGGCT GAAAAGTTCA GAAGAAGAAG CTGGAGAGTT GAAATCTACA
GTCCTAGAAA AAGAGAAGCA ATGCACAGAT GGTGTACAGC GGGCACAGAA AGAAGACTGT
TCCACAGTAC CTGGGTCCTG GGATGCTTTT GAGGTGAAAT CTGAGGAGCG TGCCAGTGTC
ATCCAACAAC TTGAGCAAAC TATTGAGGAT CTGAGGACAA AAATTGCAGA ACTAGAGAAA
CAATTTCCTG CCGCAGAGGT ACAGACTGCT GGGAGGGAGC AGGAAAATGA GCATGCACAT
GCAGACTCTG GGGAACTCAG CAGTGTGACT CTTCAAAGGA ATGAAGAGGA GACCACAACC
AGGACTGTGT CACAGGCGAG ATCTGTACAA ACGTCACCAA CAGAGGATTA TTTAACACAT
AAAATGCCTT CAGCCAGTGC ACTGCCACAG CCACCCCCAC CACCACACTT GGAAGGGGGC
AAAAGTGAAG GGCCTACTCA GAATTTGCCA GCTCTAGAAC TACAGCCCAC ATTCTGTTCT
GAAATCTCCT TAATTCTGTC ACCGAAGCTA ATCTCAGTGC CACTGGATGC AAGCCAATCA
GTACAGAGTA TACCACAGTC ACCTCTTCCA GGACCCAAAG TTGATTTGTC CCTTGCATTT
GAAGGAGAGA CTGAAACGAA AGTTTCCCAT CAGCCTCTAA GCACTGTAGA TGTAACTTGT
AGTGAACATC CTCCTTCCTT GCCCCCAGAG CCCACATGTA GCATTCCCCC ATCGCTGCCA
CTGACTGAAC AGGCTGCCCC CCTGCCTGGA ACACATGGCC ATTCCTTTGT TACTCCCATG
TCTGTGGCCG GATTACCACT GCCACCACCT CTGCCTGGCT CAGGACTCTC TGCTTCTGCT
GTCTCAGCAC TGACACACCT GGACCATTCT TTACCAGGTG CCATGATGTC ACCTCTCCCT
CCTCCTCCAC ATTTTCCAAG TGGGGAGATA ACAACTCTGC CTCCAGCTCC TCTCCTTCCA
TGTCCTGGAT TCCCTCCACA ACCTTTGCCT GGAGCAGGAG TACCAGCTGC TCTGCCTGGT
TGGGGTATCC CACCTCCCCC TCCACCACCA CCACCTTTAC CTGGAGCTGC TGTCCCTCCT
CCACCTCCTC CTCTGCCCAG CCTGGGATTT GCACCCCCAC CACCACTGCT TCCTGGAGCA
GGACTGCCAC CACCTCCTCC ACCTCTGCCT GGAGGGGGCA TTCCACCACC TCCTCCTCCA
CCGCCACCTC TGCCTGGTGC TGCTGTGCCC CCTCCACCTC CTCCACCGCC ACCTCTGCCT
GGTGCTGCTG TGCCCCCTCC ACCTCCTCCA CCACCTCTGC CTGGTGTAGC TGTGCCCCCT
CCACCTCCTC CACCACCTCT GCCTGGTGTA GCTGTGCCCC CTCCACCCCC TCCACCACCT
CTGCCTGGTG TAGCTGTGCC CCCTCCACCT CCTCCACCAC CTCTGCCTGG TGTAGCTGTG
CCGCCTCCAC CTCCTCCACC ACCTCTGCCT GGTGTGGCTG TGCCTCCTCC ACCTCCTCCA
CCACCTCTGC CTGGTCTAGC TGTGCCCCCT CCACCACCTC TGCCTGGTGC TGGTGTCCCT
CCACCACCCC CTCCTTTGCC TGGGTTGGGG ATGCCTCCTC CAGCCCCACC ACCCCTTCCA
GCACCAGTCC AGGGCAGCAG CTACCCAGCA GTCCCACAGG GCTGTGGTTT TCTTCCTCCT
CCATTACCAT CTGGTTTATT TGCAATGGGG ATGAATCAGG AAAAAGGGAG CAGGAAACAC
GTAATAGAGC CTACTCGGCC AATGAAGCCT CTTTACTGGA CAAGAATTCA GCTCCACAGT
AAAACAGATT CTAGTGCTTC ACTTGTGTGG GAAAAAATTG AAGAGCCTTC CATAGATTAT
CATGAGTTTG AAGAACTGTT TTCTAAAACA GCTGTTAAAG AGAGGAAGAA ACCCATTTCG
GACACCATTA CAAAAAGAAA GACTAAACAA GTTGTCAAGT TGTTAAGTAA CAAAAGATCT
CAAGCTGTTG GAATATTAAT GTCTAGCCTT CATTTAGACA TGAAAGACAT TCAGCGTGCT
GTTGTGAACT TGGACAACTC TGTGGTTGAC CTAGAGACGC TGCAAGCTCT GTATGAGAAT
AGAGCACAAT CAGATGAACT AGAAAAAATA GAAAAGCATA GCAAGGCATC CAAGGAGAAA
GAAAACGCCA AGTCTTTGGA TAAGCCAGAA CAGTTCCTCT ATGAACTCTC ACTGATTCCA
AACTTTTCAG AACGTGTGTT TTGCATCCTG TTCCAGTCAA CATTTTCAGA AAGCATTGGT
TCAATCCATC GCAAACTTGA ATTGTTACAG AAACTGTGTG AGACATTGAA GAATGAATCA
GGAGTTATGC GGGTTCTGGG TTTGGTTCTT GCCTTTGGAA ATTACATGAA TGGTGGAAAC
AGGACACGAG GACAGGCTGA TGGGTTTGGA TTAGATATCC TGCCAAAACT GAAAGATGTC
AAGAGCAGTG ATAACAGCCG AAGTCTTCTA TCGTACATTG TCTCATATTA TTTGCGTAAT
TTTGATGAGG ATGCTGGAAG AGAACAATGC ATCTTCCCTC TTCCGGATCC ACAGGATCTC
TTCCAGGCTT CACAACTGAA GTTTGATGAT TTTCAAAAAG ATCTCCGCAA AATGAAGAAA
GATTTGCGAG CATGTGAGAC AGAAGCAGCA AAAGTTTATC AGCTATCACT AGAAGAGCAC
CTACAGCCCT TCAAAGACAA CATGGAGCAA TTCATTAGTC AAGCCAAAAT AGACCAAGAA
AATGAAGAGA AATCACTGAC AGAAGCACAT AAAAGCTTTT TGGAAACTAC AGCCTATTTC
TCTATGAAAC CAAAAATGGG TGAGAAGGAG GTGTCCCCAC ATTCTTTCTT CAGTATTTGG
CATGAATTCA GTTCTGACTT CAAAGACTTT TGGAAGAAGG AAAACAAACT TATTCTTCAA
GAAAGAGTCA AAGAAGCAGA GGAAGTCTGC AGACAGAAAA AGGGGAAGTC GCTATACAAT
ATTAGACAAA AACATGACTC TGGAATTCTT TTCCATCTAC TCTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030124079.1 CDS 44..5368 Translation
Target ORF information:
RefSeq Version XM_030268219.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata formin 2 (FMN2), transcript variant X3, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030268219.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921
4981
5041
5101
5161
5221
5281ATGCAGGCAA TAAAAACCGT GGAAAAAGAA GTGATTTTTC TAAAGGAAAC ACTTTTCACA
GAATCCTTCC TAAAGCAACA AAAGTGCAGC AGAAGCCCGG AGAGCAGGCA GCTCCAAGAG
CAGCAGCCAT TGGAAGGAGC TGTCTGCAGC TCTCAGTGCT GTACTGAGCA TGTCCCAGCG
GAGCCCAGTG CAAGCAGCAC ATTATGCAAA AAGGCAGCTC CAGCAGATGG GAGAGAGGCA
CAGCAAGCAT TTGCTTCACT TGCATCCCCG CCGCCTGCAA ACAAGCCTGG ATCGCTAGAG
GGGATCTTGC CAGCAGGCCA AAGGAATGAA ATCCAGGAGG ATGGCTTGAT TGTCAAAGGT
GCTGCACTGC AAAAAATCAT GGGGAATCAA GATGGGAAGC TAAAGAAAAA TACAGGTGAT
GTGCAAGAAG GAGGAGAAGA TGCCTCTGGG CCCAAGGATA CGGACGGCAC AAAGAAGGTA
TCGGGAGGCA GAAGGGGGCT GGGGAAGCAT GCAAAAGGAG GCGAATCAGG TAAGAAGAAG
GGTAAGTCGG ACTCCAGGCC CTCTGTGTTT TCAAATCTGA GGATCAGAAA AAATCTGTCC
AAGGCTAAAG ATGGGAATAG CAGCTCACGG GAGGATGTTT TGGAAAGCCA GGCCTTGCAG
CCTGGGGAGC TGGACAGTAC TCATTCAATT GTAACCAAAA CTCCTGATAT AAGCATCTCT
GCAGATGAAG GGGGTCTCTC AGACACAGAT GTTGAACATT TTGAAATCAG AAATGAAACT
GTTCCAGCTG CTGCAGAGAC ACAGGATGGA CAAAGGACCA GCTCTGGCTC TGATACGGAT
ATATACAGTT TCCATTCAGC TGCAGAACAA GAGGATTTGC TTTCTGATAT CCAGCAAGCT
ATTAGACTGC AGCAGCAGCA GCAGCAGGGG GCAATTAACA TTGGAACTGA GGACCCTGTC
GCCAAAACAA TGGGCCGACA CATGGCTAAT TCTCAAGCAA CCTCCTTAGA TTTTGAACGT
TTTTTTTCTG TAACTACCAC TGACAAAGAG AGGAGCCCAG ACACTGAGGG GGCTTTTCCA
GCGGTATCGG AAATTGTGGA AAACATTCCT GTCTCCTGTG CAACTGAATG GGAACCGAAA
GAAGCGGTAA ACAGCACAGG CTCTCCTGGT AACGGCTTAT TTGAAACACA AGAACGTCAG
CTACTGATTG AGGAGCAGCC CGTTGCTGGA GTGGATGCTG TAGCCAGTGA ACTACAAGAT
GGTTTGAATA GAGCTGCAGT AAAAAACGGG TCTCAGGCAC ACAGCTCCAC AGAACCTTTT
CCATCTCCAG TGGCAGATGC TGAGGCTAAA ATTGCTGAAG TGCAGGCTGT TGATTCTCAG
GGCTCAGTAA CAGAGGGTGG TATTCCAGAT GCAGGCCGTG ATCATGCTGC TGAGACTCAG
GAAGGGAAAC ACACTCTGTC AGCCAGTCAA GAGGAGCTGA GTAATGGTTT ATCCACAGAA
ATGAAAAATG GCAGTTTGTC CTCTGAAGGA ACAGCGGACA GTCCGATGCT TGGTTCCCGA
TGCTTTAAGC CCTATCTAAT TAACGCCTGT TACATCAAAA CCACAACTAG GCAACTGAGT
TCTCCCAACC ATTCACCTTC TCCCTCCCCA TCCCAGAGCC CACTTTTCAC AAGGAGGCAG
GAGTCCTTCC ACAAAAAGGA AAAAGTCTCA ATCAGGAAGA AGAGGTCTGC TAGTTTGGCA
GGTTTGTTCA GTCGTTCTGC AGACTGGACA GAAGAGGTGT CTAATCACAA AAGCGAGATA
ACAGAGAAGG TGAGCTCTGC AGACTACTTG GAGCACAAGG GGTTTAGAGA GAAATTTCAA
ACAGAAAGAG TGCCTTTGAA TCATTCAAGA AAGTCCTCAG GGGTCCAGGC TTCTACAGAG
ACATTTCCCA ATGTCTTTTC AGGACGAACT CTGCTGGAAA AGCTCTTCAG CCAGCAGGAA
AATGCACCAC AAGAAGAAGC AGAAAAACTC TGTTCTCGCA TTATTGCAAT GGGTCTTTTA
CTTCCATTCA CTGACTGCTT CAGAGAGCCA TGTAACCAGA GTGCCAAGCA AAGCACACCC
ACATTTGATC AAGACCAGCT TTATACTTGG GCTGCAGTTA GCCAACCCAC ACATTCAAGA
GATTACACTG AAGGAAGTTT TCCAAGGAGA ATTCCATCTG CGTGGCCTCC ACCCAAACCT
CCAGATGAAG AACAAAGGCT GAAAAGTTCA GAAGAAGAAG CTGGAGAGTT GAAATCTACA
GTCCTAGAAA AAGAGAAGCA ATGCACAGAT GGTGTACAGC GGGCACAGAA AGAAGACTGT
TCCACAGTAC CTGGGTCCTG GGATGCTTTT GAGGTGAAAT CTGAGGAGCG TGCCAGTGTC
ATCCAACAAC TTGAGCAAAC TATTGAGGAT CTGAGGACAA AAATTGCAGA ACTAGAGAAA
CAATTTCCTG CCGCAGAGGT ACAGACTGCT GGGAGGGAGC AGGAAAATGA GCATGCACAT
GCAGACTCTG GGGAACTCAG CAGTGTGACT CTTCAAAGGA ATGAAGAGGA GACCACAACC
AGGACTGTGT CACAGGCGAG ATCTGTACAA ACGTCACCAA CAGAGGATTA TTTAACACAT
AAAATGCCTT CAGCCAGTGC ACTGCCACAG CCACCCCCAC CACCACACTT GGAAGGGGGC
AAAAGTGAAG GGCCTACTCA GAATTTGCCA GCTCTAGAAC TACAGCCCAC ATTCTGTTCT
GAAATCTCCT TAATTCTGTC ACCGAAGCTA ATCTCAGTGC CACTGGATGC AAGCCAATCA
GTACAGAGTA TACCACAGTC ACCTCTTCCA GGACCCAAAG TTGATTTGTC CCTTGCATTT
GAAGGAGAGA CTGAAACGAA AGTTTCCCAT CAGCCTCTAA GCACTGTAGA TGTAACTTGT
AGTGAACATC CTCCTTCCTT GCCCCCAGAG CCCACATGTA GCATTCCCCC ATCGCTGCCA
CTGACTGAAC AGGCTGCCCC CCTGCCTGGA ACACATGGCC ATTCCTTTGT TACTCCCATG
TCTGTGGCCG GATTACCACT GCCACCACCT CTGCCTGGCT CAGGACTCTC TGCTTCTGCT
GTCTCAGCAC TGACACACCT GGACCATTCT TTACCAGGTG CCATGATGTC ACCTCTCCCT
CCTCCTCCAC ATTTTCCAAG TGGGGAGATA ACAACTCTGC CTCCAGCTCC TCTCCTTCCA
TGTCCTGGAT TCCCTCCACA ACCTTTGCCT GGAGCAGGAG TACCAGCTGC TCTGCCTGGT
TGGGGTATCC CACCTCCCCC TCCACCACCA CCACCTTTAC CTGGAGCTGC TGTCCCTCCT
CCACCTCCTC CTCTGCCCAG CCTGGGATTT GCACCCCCAC CACCACTGCT TCCTGGAGCA
GGACTGCCAC CACCTCCTCC ACCTCTGCCT GGAGGGGGCA TTCCACCACC TCCTCCTCCA
CCGCCACCTC TGCCTGGTGC TGCTGTGCCC CCTCCACCTC CTCCACCGCC ACCTCTGCCT
GGTGCTGCTG TGCCCCCTCC ACCTCCTCCA CCACCTCTGC CTGGTGTAGC TGTGCCCCCT
CCACCTCCTC CACCACCTCT GCCTGGTGTA GCTGTGCCCC CTCCACCCCC TCCACCACCT
CTGCCTGGTG TAGCTGTGCC CCCTCCACCT CCTCCACCAC CTCTGCCTGG TGTAGCTGTG
CCGCCTCCAC CTCCTCCACC ACCTCTGCCT GGTGTGGCTG TGCCTCCTCC ACCTCCTCCA
CCACCTCTGC CTGGTCTAGC TGTGCCCCCT CCACCACCTC TGCCTGGTGC TGGTGTCCCT
CCACCACCCC CTCCTTTGCC TGGGTTGGGG ATGCCTCCTC CAGCCCCACC ACCCCTTCCA
GCACCAGTCC AGGGCAGCAG CTACCCAGCA GTCCCACAGG GCTGTGGTTT TCTTCCTCCT
CCATTACCAT CTGGTTTATT TGCAATGGGG ATGAATCAGG AAAAAGGGAG CAGGAAACAC
GTAATAGAGC CTACTCGGCC AATGAAGCCT CTTTACTGGA CAAGAATTCA GCTCCACAGT
AAAACAGATT CTAGTGCTTC ACTTGTGTGG GAAAAAATTG AAGAGCCTTC CATAGATTAT
CATGAGTTTG AAGAACTGTT TTCTAAAACA GCTGTTAAAG AGAGGAAGAA ACCCATTTCG
GACACCATTA CAAAAAGAAA GACTAAACAA GTTGTCAAGT TGTTAAGTAA CAAAAGATCT
CAAGCTGTTG GAATATTAAT GTCTAGCCTT CATTTAGACA TGAAAGACAT TCAGCGTGCT
GTTGTGAACT TGGACAACTC TGTGGTTGAC CTAGAGACGC TGCAAGCTCT GTATGAGAAT
AGAGCACAAT CAGATGAACT AGAAAAAATA GAAAAGCATA GCAAGGCATC CAAGGAGAAA
GAAAACGCCA AGTCTTTGGA TAAGCCAGAA CAGTTCCTCT ATGAACTCTC ACTGATTCCA
AACTTTTCAG AACGTGTGTT TTGCATCCTG TTCCAGTCAA CATTTTCAGA AAGCATTGGT
TCAATCCATC GCAAACTTGA ATTGTTACAG AAACTGTGTG AGACATTGAA GAATGAATCA
GGAGTTATGC GGGTTCTGGG TTTGGTTCTT GCCTTTGGAA ATTACATGAA TGGTGGAAAC
AGGACACGAG GACAGGCTGA TGGGTTTGGA TTAGATATCC TGCCAAAACT GAAAGATGTC
AAGAGCAGTG ATAACAGCCG AAGTCTTCTA TCGTACATTG TCTCATATTA TTTGCGTAAT
TTTGATGAGG ATGCTGGAAG AGAACAATGC ATCTTCCCTC TTCCGGATCC ACAGGATCTC
TTCCAGGCTT CACAACTGAA GTTTGATGAT TTTCAAAAAG ATCTCCGCAA AATGAAGAAA
GATTTGCGAG CATGTGAGAC AGAAGCAGCA AAAGTTTATC AGCTATCACT AGAAGAGCAC
CTACAGCCCT TCAAAGACAA CATGGAGCAA TTCATTAGTC AAGCCAAAAT AGACCAAGAA
AATGAAGAGA AATCACTGAC AGAAGCACAT AAAAGCTTTT TGGAAACTAC AGCCTATTTC
TCTATGAAAC CAAAAATGGG TGAGAAGGAG GTGTCCCCAC ATTCTTTCTT CAGTATTTGG
CATGAATTCA GTTCTGACTT CAAAGACTTT TGGAAGAAGG AAAACAAACT TATTCTTCAA
GAAAGAGTCA AAGAAGCAGA GGAAGTCTGC AGACAGAAAA AGGGGAAGTC GCTATACAAT
ATTAGACAAA AACATGACTC TGGAATTCTT TTCCATCTAC TCTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd42230 Clone ID Related Accession (Same CDS sequence) XM_030268220.1 Accession Version XM_030268220.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 5301bp)
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 formin-2 isoform X4 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044214.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921
4981
5041
5101
5161
5221
5281ATGCAGGCAA TAAAAACCGT GGAAAAAGAA GTGATTTTTC TAAAGGAAAC ACTTTTCACA
GAATCCTTCC TAAAGCAACA AAAGTGCAGC AGAAGCCCGG AGAGCAGGCA GCTCCAAGAG
CAGCAGCCAT TGGAAGGAGC TGTCTGCAGC TCTCAGTGCT GTACTGAGCA TGTCCCAGCG
GAGCCCAGTG CAAGCAGCAC ATTATGCAAA AAGGCAGCTC CAGCAGATGG GAGAGAGGCA
CAGCAAGCAT TTGCTTCACT TGCATCCCCG CCGCCTGCAA ACAAGCCTGG ATCGCTAGAG
GGGATCTTGC CAGCAGGCCA AAGGAATGAA ATCCAGGAGG ATGGCTTGAT TGTCAAAGGT
GCTGCACTGC AAAAAATCAT GGGGAATCAA GATGGGAAGC TAAAGAAAAA TACAGGTGAT
GTGCAAGAAG GAGGAGAAGA TGCCTCTGGG CCCAAGGATA CGGACGGCAC AAAGAAGGTA
TCGGGAGGCA GAAGGGGGCT GGGGAAGCAT GCAAAAGGAG GCGAATCAGG TAAGAAGAAG
GGTAAGTCGG ACTCCAGGCC CTCTGTGTTT TCAAATCTGA GGATCAGAAA AAATCTGTCC
AAGGCTAAAG ATGGGAATAG CAGCTCACGG GAGGATGTTT TGGAAAGCCA GGCCTTGCAG
CCTGGGGAGC TGGACAGTAC TCATTCAATT GTAACCAAAA CTCCTGATAT AAGCATCTCT
GCAGATGAAG GGGGTCTCTC AGACACAGAT GTTGAACATT TTGAAATCAG AAATGAAACT
GTTCCAGCTG CTGCAGAGAC ACAGGATGGA CAAAGGACCA GCTCTGGCTC TGATACGGAT
ATATACAGTT TCCATTCAGC TGCAGAACAA GAGGATTTGC TTTCTGATAT CCAGCAAGCT
ATTAGACTGC AGCAGCAGCA GCAGCAGGGG GCAATTAACA TTGGAACTGA GGACCCTGTC
GCCAAAACAA TGGGCCGACA CATGGCTAAT TCTCAAGCAA CCTCCTTAGA TTTTGAACGT
TTTTTTTCTG TAACTACCAC TGACAAAGAG AGGAGCCCAG ACACTGAGGG GGCTTTTCCA
GCGGTATCGG AAATTGTGGA AAACATTCCT GTCTCCTGTG CAACTGAATG GGAACCGAAA
GAAGCGGTAA ACAGCACAGG CTCTCCTGGT AACGGCTTAT TTGAAACACA AGAACGTCAG
CTACTGATTG AGGAGCAGCC CGTTGCTGGA GTGGATGCTG TAGCCAGTGA ACTACAAGAT
GGTTTGAATA GAGCTGCAGT AAAAAACGGG TCTCAGGCAC ACAGCTCCAC AGAACCTTTT
CCATCTCCAG TGGCAGATGC TGAGGCTAAA ATTGCTGAAG TGCAGGCTGT TGATTCTCAG
GGCTCAGTAA CAGAGGGTGG TATTCCAGAT GCAGGCCGTG ATCATGCTGC TGAGACTCAG
GAAGGGAAAC ACACTCTGTC AGCCAGTCAA GAGGAGCTGA GTAATGGTTT ATCCACAGAA
ATGAAAAATG GCAGTTTGTC CTCTGAAGGA ACAGCGGACA GTCCGATGCT TGGTTCCCGA
TGCTTTAAGC CCTATCTAAT TAACGCCTGT TACATCAAAA CCACAACTAG GCAACTGAGT
TCTCCCAACC ATTCACCTTC TCCCTCCCCA TCCCAGAGCC CACTTTTCAC AAGGAGGCAG
GAGTCCTTCC ACAAAAAGGA AAAAGTCTCA ATCAGGAAGA AGAGGTCTGC TAGTTTGGCA
GGTTTGTTCA GTCGTTCTGC AGACTGGACA GAAGAGGTGT CTAATCACAA AAGCGAGATA
ACAGAGAAGG TGAGCTCTGC AGACTACTTG GAGCACAAGG GGTTTAGAGA GAAATTTCAA
ACAGAAAGAG TGCCTTTGAA TCATTCAAGA AAGTCCTCAG GGGTCCAGGC TTCTACAGAG
ACATTTCCCA ATGTCTTTTC AGGACGAACT CTGCTGGAAA AGCTCTTCAG CCAGCAGGAA
AATGCACCAC AAGAAGAAGC AGAAAAACTC TGTTCTCGCA TTATTGCAAT GGGTCTTTTA
CTTCCATTCA CTGACTGCTT CAGAGAGCCA TGTAACCAGA GTGCCAAGCA AAGCACACCC
ACATTTGATC AAGACCAGCT TTATACTTGG GCTGCAGTTA GCCAACCCAC ACATTCAAGA
GATTACACTG AAGGAAGTTT TCCAAGGAGA ATTCCATCTG CGTGGCCTCC ACCCAAACCT
CCAGATGAAG AACAAAGGCT GAAAAGTTCA GAAGAAGAAG CTGGAGAGTT GAAATCTACA
GTCCTAGAAA AAGAGAAGCA ATGCACAGAT GGTGTACAGC GGGCACAGGA TGCTTTTGAG
GTGAAATCTG AGGAGCGTGC CAGTGTCATC CAACAACTTG AGCAAACTAT TGAGGATCTG
AGGACAAAAA TTGCAGAACT AGAGAAACAA TTTCCTGCCG CAGAGGTACA GACTGCTGGG
AGGGAGCAGG AAAATGAGCA TGCACATGCA GACTCTGGGG AACTCAGCAG TGTGACTCTT
CAAAGGAATG AAGAGGAGAC CACAACCAGG ACTGTGTCAC AGGCGAGATC TGTACAAACG
TCACCAACAG AGGATTATTT AACACATAAA ATGCCTTCAG CCAGTGCACT GCCACAGCCA
CCCCCACCAC CACACTTGGA AGGGGGCAAA AGTGAAGGGC CTACTCAGAA TTTGCCAGCT
CTAGAACTAC AGCCCACATT CTGTTCTGAA ATCTCCTTAA TTCTGTCACC GAAGCTAATC
TCAGTGCCAC TGGATGCAAG CCAATCAGTA CAGAGTATAC CACAGTCACC TCTTCCAGGA
CCCAAAGTTG ATTTGTCCCT TGCATTTGAA GGAGAGACTG AAACGAAAGT TTCCCATCAG
CCTCTAAGCA CTGTAGATGT AACTTGTAGT GAACATCCTC CTTCCTTGCC CCCAGAGCCC
ACATGTAGCA TTCCCCCATC GCTGCCACTG ACTGAACAGG CTGCCCCCCT GCCTGGAACA
CATGGCCATT CCTTTGTTAC TCCCATGTCT GTGGCCGGAT TACCACTGCC ACCACCTCTG
CCTGGCTCAG GACTCTCTGC TTCTGCTGTC TCAGCACTGA CACACCTGGA CCATTCTTTA
CCAGGTGCCA TGATGTCACC TCTCCCTCCT CCTCCACATT TTCCAAGTGG GGAGATAACA
ACTCTGCCTC CAGCTCCTCT CCTTCCATGT CCTGGATTCC CTCCACAACC TTTGCCTGGA
GCAGGAGTAC CAGCTGCTCT GCCTGGTTGG GGTATCCCAC CTCCCCCTCC ACCACCACCA
CCTTTACCTG GAGCTGCTGT CCCTCCTCCA CCTCCTCCTC TGCCCAGCCT GGGATTTGCA
CCCCCACCAC CACTGCTTCC TGGAGCAGGA CTGCCACCAC CTCCTCCACC TCTGCCTGGA
GGGGGCATTC CACCACCTCC TCCTCCACCG CCACCTCTGC CTGGTGCTGC TGTGCCCCCT
CCACCTCCTC CACCGCCACC TCTGCCTGGT GCTGCTGTGC CCCCTCCACC TCCTCCACCA
CCTCTGCCTG GTGTAGCTGT GCCCCCTCCA CCTCCTCCAC CACCTCTGCC TGGTGTAGCT
GTGCCCCCTC CACCCCCTCC ACCACCTCTG CCTGGTGTAG CTGTGCCCCC TCCACCTCCT
CCACCACCTC TGCCTGGTGT AGCTGTGCCG CCTCCACCTC CTCCACCACC TCTGCCTGGT
GTGGCTGTGC CTCCTCCACC TCCTCCACCA CCTCTGCCTG GTCTAGCTGT GCCCCCTCCA
CCACCTCTGC CTGGTGCTGG TGTCCCTCCA CCACCCCCTC CTTTGCCTGG GTTGGGGATG
CCTCCTCCAG CCCCACCACC CCTTCCAGCA CCAGTCCAGG GCAGCAGCTA CCCAGCAGTC
CCACAGGGCT GTGGTTTTCT TCCTCCTCCA TTACCATCTG GTTTATTTGC AATGGGGATG
AATCAGGAAA AAGGGAGCAG GAAACACGTA ATAGAGCCTA CTCGGCCAAT GAAGCCTCTT
TACTGGACAA GAATTCAGCT CCACAGTAAA ACAGATTCTA GTGCTTCACT TGTGTGGGAA
AAAATTGAAG AGCCTTCCAT AGATTATCAT GAGTTTGAAG AACTGTTTTC TAAAACAGCT
GTTAAAGAGA GGAAGAAACC CATTTCGGAC ACCATTACAA AAAGAAAGAC TAAACAAGTT
GTCAAGTTGT TAAGTAACAA AAGATCTCAA GCTGTTGGAA TATTAATGTC TAGCCTTCAT
TTAGACATGA AAGACATTCA GCGTGCTGTT GTGAACTTGG ACAACTCTGT GGTTGACCTA
GAGACGCTGC AAGCTCTGTA TGAGAATAGA GCACAATCAG ATGAACTAGA AAAAATAGAA
AAGCATAGCA AGGCATCCAA GGAGAAAGAA AACGCCAAGT CTTTGGATAA GCCAGAACAG
TTCCTCTATG AACTCTCACT GATTCCAAAC TTTTCAGAAC GTGTGTTTTG CATCCTGTTC
CAGTCAACAT TTTCAGAAAG CATTGGTTCA ATCCATCGCA AACTTGAATT GTTACAGAAA
CTGTGTGAGA CATTGAAGAA TGAATCAGGA GTTATGCGGG TTCTGGGTTT GGTTCTTGCC
TTTGGAAATT ACATGAATGG TGGAAACAGG ACACGAGGAC AGGCTGATGG GTTTGGATTA
GATATCCTGC CAAAACTGAA AGATGTCAAG AGCAGTGATA ACAGCCGAAG TCTTCTATCG
TACATTGTCT CATATTATTT GCGTAATTTT GATGAGGATG CTGGAAGAGA ACAATGCATC
TTCCCTCTTC CGGATCCACA GGATCTCTTC CAGGCTTCAC AACTGAAGTT TGATGATTTT
CAAAAAGATC TCCGCAAAAT GAAGAAAGAT TTGCGAGCAT GTGAGACAGA AGCAGCAAAA
GTTTATCAGC TATCACTAGA AGAGCACCTA CAGCCCTTCA AAGACAACAT GGAGCAATTC
ATTAGTCAAG CCAAAATAGA CCAAGAAAAT GAAGAGAAAT CACTGACAGA AGCACATAAA
AGCTTTTTGG AAACTACAGC CTATTTCTCT ATGAAACCAA AAATGGGTGA GAAGGAGGTG
TCCCCACATT CTTTCTTCAG TATTTGGCAT GAATTCAGTT CTGACTTCAA AGACTTTTGG
AAGAAGGAAA ACAAACTTAT TCTTCAAGAA AGAGTCAAAG AAGCAGAGGA AGTCTGCAGA
CAGAAAAAGG GGAAGTCGCT ATACAATATT AGACAAAAAC ATGACTCTGG AATTAAAGCA
AAGATAAGTA TGAAAATCTG AThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030124080.1 CDS 44..5344 Translation
Target ORF information:
RefSeq Version XM_030268220.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata formin 2 (FMN2), transcript variant X5, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030268220.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921
4981
5041
5101
5161
5221
5281ATGCAGGCAA TAAAAACCGT GGAAAAAGAA GTGATTTTTC TAAAGGAAAC ACTTTTCACA
GAATCCTTCC TAAAGCAACA AAAGTGCAGC AGAAGCCCGG AGAGCAGGCA GCTCCAAGAG
CAGCAGCCAT TGGAAGGAGC TGTCTGCAGC TCTCAGTGCT GTACTGAGCA TGTCCCAGCG
GAGCCCAGTG CAAGCAGCAC ATTATGCAAA AAGGCAGCTC CAGCAGATGG GAGAGAGGCA
CAGCAAGCAT TTGCTTCACT TGCATCCCCG CCGCCTGCAA ACAAGCCTGG ATCGCTAGAG
GGGATCTTGC CAGCAGGCCA AAGGAATGAA ATCCAGGAGG ATGGCTTGAT TGTCAAAGGT
GCTGCACTGC AAAAAATCAT GGGGAATCAA GATGGGAAGC TAAAGAAAAA TACAGGTGAT
GTGCAAGAAG GAGGAGAAGA TGCCTCTGGG CCCAAGGATA CGGACGGCAC AAAGAAGGTA
TCGGGAGGCA GAAGGGGGCT GGGGAAGCAT GCAAAAGGAG GCGAATCAGG TAAGAAGAAG
GGTAAGTCGG ACTCCAGGCC CTCTGTGTTT TCAAATCTGA GGATCAGAAA AAATCTGTCC
AAGGCTAAAG ATGGGAATAG CAGCTCACGG GAGGATGTTT TGGAAAGCCA GGCCTTGCAG
CCTGGGGAGC TGGACAGTAC TCATTCAATT GTAACCAAAA CTCCTGATAT AAGCATCTCT
GCAGATGAAG GGGGTCTCTC AGACACAGAT GTTGAACATT TTGAAATCAG AAATGAAACT
GTTCCAGCTG CTGCAGAGAC ACAGGATGGA CAAAGGACCA GCTCTGGCTC TGATACGGAT
ATATACAGTT TCCATTCAGC TGCAGAACAA GAGGATTTGC TTTCTGATAT CCAGCAAGCT
ATTAGACTGC AGCAGCAGCA GCAGCAGGGG GCAATTAACA TTGGAACTGA GGACCCTGTC
GCCAAAACAA TGGGCCGACA CATGGCTAAT TCTCAAGCAA CCTCCTTAGA TTTTGAACGT
TTTTTTTCTG TAACTACCAC TGACAAAGAG AGGAGCCCAG ACACTGAGGG GGCTTTTCCA
GCGGTATCGG AAATTGTGGA AAACATTCCT GTCTCCTGTG CAACTGAATG GGAACCGAAA
GAAGCGGTAA ACAGCACAGG CTCTCCTGGT AACGGCTTAT TTGAAACACA AGAACGTCAG
CTACTGATTG AGGAGCAGCC CGTTGCTGGA GTGGATGCTG TAGCCAGTGA ACTACAAGAT
GGTTTGAATA GAGCTGCAGT AAAAAACGGG TCTCAGGCAC ACAGCTCCAC AGAACCTTTT
CCATCTCCAG TGGCAGATGC TGAGGCTAAA ATTGCTGAAG TGCAGGCTGT TGATTCTCAG
GGCTCAGTAA CAGAGGGTGG TATTCCAGAT GCAGGCCGTG ATCATGCTGC TGAGACTCAG
GAAGGGAAAC ACACTCTGTC AGCCAGTCAA GAGGAGCTGA GTAATGGTTT ATCCACAGAA
ATGAAAAATG GCAGTTTGTC CTCTGAAGGA ACAGCGGACA GTCCGATGCT TGGTTCCCGA
TGCTTTAAGC CCTATCTAAT TAACGCCTGT TACATCAAAA CCACAACTAG GCAACTGAGT
TCTCCCAACC ATTCACCTTC TCCCTCCCCA TCCCAGAGCC CACTTTTCAC AAGGAGGCAG
GAGTCCTTCC ACAAAAAGGA AAAAGTCTCA ATCAGGAAGA AGAGGTCTGC TAGTTTGGCA
GGTTTGTTCA GTCGTTCTGC AGACTGGACA GAAGAGGTGT CTAATCACAA AAGCGAGATA
ACAGAGAAGG TGAGCTCTGC AGACTACTTG GAGCACAAGG GGTTTAGAGA GAAATTTCAA
ACAGAAAGAG TGCCTTTGAA TCATTCAAGA AAGTCCTCAG GGGTCCAGGC TTCTACAGAG
ACATTTCCCA ATGTCTTTTC AGGACGAACT CTGCTGGAAA AGCTCTTCAG CCAGCAGGAA
AATGCACCAC AAGAAGAAGC AGAAAAACTC TGTTCTCGCA TTATTGCAAT GGGTCTTTTA
CTTCCATTCA CTGACTGCTT CAGAGAGCCA TGTAACCAGA GTGCCAAGCA AAGCACACCC
ACATTTGATC AAGACCAGCT TTATACTTGG GCTGCAGTTA GCCAACCCAC ACATTCAAGA
GATTACACTG AAGGAAGTTT TCCAAGGAGA ATTCCATCTG CGTGGCCTCC ACCCAAACCT
CCAGATGAAG AACAAAGGCT GAAAAGTTCA GAAGAAGAAG CTGGAGAGTT GAAATCTACA
GTCCTAGAAA AAGAGAAGCA ATGCACAGAT GGTGTACAGC GGGCACAGGA TGCTTTTGAG
GTGAAATCTG AGGAGCGTGC CAGTGTCATC CAACAACTTG AGCAAACTAT TGAGGATCTG
AGGACAAAAA TTGCAGAACT AGAGAAACAA TTTCCTGCCG CAGAGGTACA GACTGCTGGG
AGGGAGCAGG AAAATGAGCA TGCACATGCA GACTCTGGGG AACTCAGCAG TGTGACTCTT
CAAAGGAATG AAGAGGAGAC CACAACCAGG ACTGTGTCAC AGGCGAGATC TGTACAAACG
TCACCAACAG AGGATTATTT AACACATAAA ATGCCTTCAG CCAGTGCACT GCCACAGCCA
CCCCCACCAC CACACTTGGA AGGGGGCAAA AGTGAAGGGC CTACTCAGAA TTTGCCAGCT
CTAGAACTAC AGCCCACATT CTGTTCTGAA ATCTCCTTAA TTCTGTCACC GAAGCTAATC
TCAGTGCCAC TGGATGCAAG CCAATCAGTA CAGAGTATAC CACAGTCACC TCTTCCAGGA
CCCAAAGTTG ATTTGTCCCT TGCATTTGAA GGAGAGACTG AAACGAAAGT TTCCCATCAG
CCTCTAAGCA CTGTAGATGT AACTTGTAGT GAACATCCTC CTTCCTTGCC CCCAGAGCCC
ACATGTAGCA TTCCCCCATC GCTGCCACTG ACTGAACAGG CTGCCCCCCT GCCTGGAACA
CATGGCCATT CCTTTGTTAC TCCCATGTCT GTGGCCGGAT TACCACTGCC ACCACCTCTG
CCTGGCTCAG GACTCTCTGC TTCTGCTGTC TCAGCACTGA CACACCTGGA CCATTCTTTA
CCAGGTGCCA TGATGTCACC TCTCCCTCCT CCTCCACATT TTCCAAGTGG GGAGATAACA
ACTCTGCCTC CAGCTCCTCT CCTTCCATGT CCTGGATTCC CTCCACAACC TTTGCCTGGA
GCAGGAGTAC CAGCTGCTCT GCCTGGTTGG GGTATCCCAC CTCCCCCTCC ACCACCACCA
CCTTTACCTG GAGCTGCTGT CCCTCCTCCA CCTCCTCCTC TGCCCAGCCT GGGATTTGCA
CCCCCACCAC CACTGCTTCC TGGAGCAGGA CTGCCACCAC CTCCTCCACC TCTGCCTGGA
GGGGGCATTC CACCACCTCC TCCTCCACCG CCACCTCTGC CTGGTGCTGC TGTGCCCCCT
CCACCTCCTC CACCGCCACC TCTGCCTGGT GCTGCTGTGC CCCCTCCACC TCCTCCACCA
CCTCTGCCTG GTGTAGCTGT GCCCCCTCCA CCTCCTCCAC CACCTCTGCC TGGTGTAGCT
GTGCCCCCTC CACCCCCTCC ACCACCTCTG CCTGGTGTAG CTGTGCCCCC TCCACCTCCT
CCACCACCTC TGCCTGGTGT AGCTGTGCCG CCTCCACCTC CTCCACCACC TCTGCCTGGT
GTGGCTGTGC CTCCTCCACC TCCTCCACCA CCTCTGCCTG GTCTAGCTGT GCCCCCTCCA
CCACCTCTGC CTGGTGCTGG TGTCCCTCCA CCACCCCCTC CTTTGCCTGG GTTGGGGATG
CCTCCTCCAG CCCCACCACC CCTTCCAGCA CCAGTCCAGG GCAGCAGCTA CCCAGCAGTC
CCACAGGGCT GTGGTTTTCT TCCTCCTCCA TTACCATCTG GTTTATTTGC AATGGGGATG
AATCAGGAAA AAGGGAGCAG GAAACACGTA ATAGAGCCTA CTCGGCCAAT GAAGCCTCTT
TACTGGACAA GAATTCAGCT CCACAGTAAA ACAGATTCTA GTGCTTCACT TGTGTGGGAA
AAAATTGAAG AGCCTTCCAT AGATTATCAT GAGTTTGAAG AACTGTTTTC TAAAACAGCT
GTTAAAGAGA GGAAGAAACC CATTTCGGAC ACCATTACAA AAAGAAAGAC TAAACAAGTT
GTCAAGTTGT TAAGTAACAA AAGATCTCAA GCTGTTGGAA TATTAATGTC TAGCCTTCAT
TTAGACATGA AAGACATTCA GCGTGCTGTT GTGAACTTGG ACAACTCTGT GGTTGACCTA
GAGACGCTGC AAGCTCTGTA TGAGAATAGA GCACAATCAG ATGAACTAGA AAAAATAGAA
AAGCATAGCA AGGCATCCAA GGAGAAAGAA AACGCCAAGT CTTTGGATAA GCCAGAACAG
TTCCTCTATG AACTCTCACT GATTCCAAAC TTTTCAGAAC GTGTGTTTTG CATCCTGTTC
CAGTCAACAT TTTCAGAAAG CATTGGTTCA ATCCATCGCA AACTTGAATT GTTACAGAAA
CTGTGTGAGA CATTGAAGAA TGAATCAGGA GTTATGCGGG TTCTGGGTTT GGTTCTTGCC
TTTGGAAATT ACATGAATGG TGGAAACAGG ACACGAGGAC AGGCTGATGG GTTTGGATTA
GATATCCTGC CAAAACTGAA AGATGTCAAG AGCAGTGATA ACAGCCGAAG TCTTCTATCG
TACATTGTCT CATATTATTT GCGTAATTTT GATGAGGATG CTGGAAGAGA ACAATGCATC
TTCCCTCTTC CGGATCCACA GGATCTCTTC CAGGCTTCAC AACTGAAGTT TGATGATTTT
CAAAAAGATC TCCGCAAAAT GAAGAAAGAT TTGCGAGCAT GTGAGACAGA AGCAGCAAAA
GTTTATCAGC TATCACTAGA AGAGCACCTA CAGCCCTTCA AAGACAACAT GGAGCAATTC
ATTAGTCAAG CCAAAATAGA CCAAGAAAAT GAAGAGAAAT CACTGACAGA AGCACATAAA
AGCTTTTTGG AAACTACAGC CTATTTCTCT ATGAAACCAA AAATGGGTGA GAAGGAGGTG
TCCCCACATT CTTTCTTCAG TATTTGGCAT GAATTCAGTT CTGACTTCAA AGACTTTTGG
AAGAAGGAAA ACAAACTTAT TCTTCAAGAA AGAGTCAAAG AAGCAGAGGA AGTCTGCAGA
CAGAAAAAGG GGAAGTCGCT ATACAATATT AGACAAAAAC ATGACTCTGG AATTAAAGCA
AAGATAAGTA TGAAAATCTG AThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd42231 Clone ID Related Accession (Same CDS sequence) XM_030268221.1 Accession Version XM_030268221.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 5292bp)
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 formin-2 isoform X5 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044214.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921
4981
5041
5101
5161
5221
5281ATGCAGGCAA TAAAAACCGT GGAAAAAGAA GTGATTTTTC TAAAGGAAAC ACTTTTCACA
GAATCCTTCC TAAAGCAACA AAAGTGCAGC AGAAGCCCGG AGAGCAGGCA GCTCCAAGAG
CAGCAGCCAT TGGAAGGAGC TGTCTGCAGC TCTCAGTGCT GTACTGAGCA TGTCCCAGCG
GAGCCCAGTG CAAGCAGCAC ATTATGCAAA AAGGCAGCTC CAGCAGATGG GAGAGAGGCA
CAGCAAGCAT TTGCTTCACT TGCATCCCCG CCGCCTGCAA ACAAGCCTGG ATCGCTAGAG
GGGATCTTGC CAGCAGGCCA AAGGAATGAA ATCCAGGAGG ATGGCTTGAT TGTCAAAGGT
GCTGCACTGC AAAAAATCAT GGGGAATCAA GATGGGAAGC TAAAGAAAAA TACAGGTGAT
GTGCAAGAAG GAGGAGAAGA TGCCTCTGGG CCCAAGGATA CGGACGGCAC AAAGAAGGTA
TCGGGAGGCA GAAGGGGGCT GGGGAAGCAT GCAAAAGGAG GCGAATCAGG TAAGAAGAAG
GGTAAGTCGG ACTCCAGGCC CTCTGTGTTT TCAAATCTGA GGATCAGAAA AAATCTGTCC
AAGGCTAAAG ATGGGAATAG CAGCTCACGG GAGGATGTTT TGGAAAGCCA GGCCTTGCAG
CCTGGGGAGC TGGACAGTAC TCATTCAATT GTAACCAAAA CTCCTGATAT AAGCATCTCT
GCAGATGAAG GGGGTCTCTC AGACACAGAT GTTGAACATT TTGAAATCAG AAATGAAACT
GTTCCAGCTG CTGCAGAGAC ACAGGATGGA CAAAGGACCA GCTCTGGCTC TGATACGGAT
ATATACAGTT TCCATTCAGC TGCAGAACAA GAGGATTTGC TTTCTGATAT CCAGCAAGCT
ATTAGACTGC AGCAGCAGCA GCAGCAGGGG GCAATTAACA TTGGAACTGA GGACCCTGTC
GCCAAAACAA TGGGCCGACA CATGGCTAAT TCTCAAGCAA CCTCCTTAGA TTTTGAACGT
TTTTTTTCTG TAACTACCAC TGACAAAGAG AGGAGCCCAG ACACTGAGGG GGCTTTTCCA
GCGGTATCGG AAATTGTGGA AAACATTCCT GTCTCCTGTG CAACTGAATG GGAACCGAAA
GAAGCGGTAA ACAGCACAGG CTCTCCTGGT AACGGCTTAT TTGAAACACA AGAACGTCAG
CTACTGATTG AGGAGCAGCC CGTTGCTGGA GTGGATGCTG TAGCCAGTGA ACTACAAGAT
GGTTTGAATA GAGCTGCAGT AAAAAACGGG TCTCAGGCAC ACAGCTCCAC AGAACCTTTT
CCATCTCCAG TGGCAGATGC TGAGGCTAAA ATTGCTGAAG TGCAGGCTGT TGATTCTCAG
GGCTCAGTAA CAGAGGGTGG TATTCCAGAT GCAGGCCGTG ATCATGCTGC TGAGACTCAG
GAAGGGAAAC ACACTCTGTC AGCCAGTCAA GAGGAGCTGA GTAATGGTTT ATCCACAGAA
ATGAAAAATG GCAGTTTGTC CTCTGAAGGA ACAGCGGACA GTCCGATGCT TGGTTCCCGA
TGCTTTAAGC CCTATCTAAT TAACGCCTGT TACATCAAAA CCACAACTAG GCAACTGAGT
TCTCCCAACC ATTCACCTTC TCCCTCCCCA TCCCAGAGCC CACTTTTCAC AAGGAGGCAG
GAGTCCTTCC ACAAAAAGGA AAAAGTCTCA ATCAGGAAGA AGAGGTCTGC TAGTTTGGCA
GGTTTGTTCA GTCGTTCTGC AGACTGGACA GAAGAGGTGT CTAATCACAA AAGCGAGATA
ACAGAGAAGG TGAGCTCTGC AGACTACTTG GAGCACAAGG GGTTTAGAGA GAAATTTCAA
ACAGAAAGAG TGCCTTTGAA TCATTCAAGA AAGTCCTCAG GGGTCCAGGC TTCTACAGAG
ACATTTCCCA ATGTCTTTTC AGGACGAACT CTGCTGGAAA AGCTCTTCAG CCAGCAGGAA
AATGCACCAC AAGAAGAAGC AGAAAAACTC TGTTCTCGCA TTATTGCAAT GGGTCTTTTA
CTTCCATTCA CTGACTGCTT CAGAGAGCCA TGTAACCAGA GTGCCAAGCA AAGCACACCC
ACATTTGATC AAGACCAGCT TTATACTTGG GCTGCAGTTA GCCAACCCAC ACATTCAAGA
GATTACACTG AAGGAAGTTT TCCAAGGAGA ATTCCATCTG CGTGGCCTCC ACCCAAACCT
CCAGATGAAG AACAAAGGCT GAAAAGTTCA GAAGAAGAGT TGAAATCTAC AGTCCTAGAA
AAAGAGAAGC AATGCACAGA TGGTGTACAG CGGGCACAGG ATGCTTTTGA GGTGAAATCT
GAGGAGCGTG CCAGTGTCAT CCAACAACTT GAGCAAACTA TTGAGGATCT GAGGACAAAA
ATTGCAGAAC TAGAGAAACA ATTTCCTGCC GCAGAGGTAC AGACTGCTGG GAGGGAGCAG
GAAAATGAGC ATGCACATGC AGACTCTGGG GAACTCAGCA GTGTGACTCT TCAAAGGAAT
GAAGAGGAGA CCACAACCAG GACTGTGTCA CAGGCGAGAT CTGTACAAAC GTCACCAACA
GAGGATTATT TAACACATAA AATGCCTTCA GCCAGTGCAC TGCCACAGCC ACCCCCACCA
CCACACTTGG AAGGGGGCAA AAGTGAAGGG CCTACTCAGA ATTTGCCAGC TCTAGAACTA
CAGCCCACAT TCTGTTCTGA AATCTCCTTA ATTCTGTCAC CGAAGCTAAT CTCAGTGCCA
CTGGATGCAA GCCAATCAGT ACAGAGTATA CCACAGTCAC CTCTTCCAGG ACCCAAAGTT
GATTTGTCCC TTGCATTTGA AGGAGAGACT GAAACGAAAG TTTCCCATCA GCCTCTAAGC
ACTGTAGATG TAACTTGTAG TGAACATCCT CCTTCCTTGC CCCCAGAGCC CACATGTAGC
ATTCCCCCAT CGCTGCCACT GACTGAACAG GCTGCCCCCC TGCCTGGAAC ACATGGCCAT
TCCTTTGTTA CTCCCATGTC TGTGGCCGGA TTACCACTGC CACCACCTCT GCCTGGCTCA
GGACTCTCTG CTTCTGCTGT CTCAGCACTG ACACACCTGG ACCATTCTTT ACCAGGTGCC
ATGATGTCAC CTCTCCCTCC TCCTCCACAT TTTCCAAGTG GGGAGATAAC AACTCTGCCT
CCAGCTCCTC TCCTTCCATG TCCTGGATTC CCTCCACAAC CTTTGCCTGG AGCAGGAGTA
CCAGCTGCTC TGCCTGGTTG GGGTATCCCA CCTCCCCCTC CACCACCACC ACCTTTACCT
GGAGCTGCTG TCCCTCCTCC ACCTCCTCCT CTGCCCAGCC TGGGATTTGC ACCCCCACCA
CCACTGCTTC CTGGAGCAGG ACTGCCACCA CCTCCTCCAC CTCTGCCTGG AGGGGGCATT
CCACCACCTC CTCCTCCACC GCCACCTCTG CCTGGTGCTG CTGTGCCCCC TCCACCTCCT
CCACCGCCAC CTCTGCCTGG TGCTGCTGTG CCCCCTCCAC CTCCTCCACC ACCTCTGCCT
GGTGTAGCTG TGCCCCCTCC ACCTCCTCCA CCACCTCTGC CTGGTGTAGC TGTGCCCCCT
CCACCCCCTC CACCACCTCT GCCTGGTGTA GCTGTGCCCC CTCCACCTCC TCCACCACCT
CTGCCTGGTG TAGCTGTGCC GCCTCCACCT CCTCCACCAC CTCTGCCTGG TGTGGCTGTG
CCTCCTCCAC CTCCTCCACC ACCTCTGCCT GGTCTAGCTG TGCCCCCTCC ACCACCTCTG
CCTGGTGCTG GTGTCCCTCC ACCACCCCCT CCTTTGCCTG GGTTGGGGAT GCCTCCTCCA
GCCCCACCAC CCCTTCCAGC ACCAGTCCAG GGCAGCAGCT ACCCAGCAGT CCCACAGGGC
TGTGGTTTTC TTCCTCCTCC ATTACCATCT GGTTTATTTG CAATGGGGAT GAATCAGGAA
AAAGGGAGCA GGAAACACGT AATAGAGCCT ACTCGGCCAA TGAAGCCTCT TTACTGGACA
AGAATTCAGC TCCACAGTAA AACAGATTCT AGTGCTTCAC TTGTGTGGGA AAAAATTGAA
GAGCCTTCCA TAGATTATCA TGAGTTTGAA GAACTGTTTT CTAAAACAGC TGTTAAAGAG
AGGAAGAAAC CCATTTCGGA CACCATTACA AAAAGAAAGA CTAAACAAGT TGTCAAGTTG
TTAAGTAACA AAAGATCTCA AGCTGTTGGA ATATTAATGT CTAGCCTTCA TTTAGACATG
AAAGACATTC AGCGTGCTGT TGTGAACTTG GACAACTCTG TGGTTGACCT AGAGACGCTG
CAAGCTCTGT ATGAGAATAG AGCACAATCA GATGAACTAG AAAAAATAGA AAAGCATAGC
AAGGCATCCA AGGAGAAAGA AAACGCCAAG TCTTTGGATA AGCCAGAACA GTTCCTCTAT
GAACTCTCAC TGATTCCAAA CTTTTCAGAA CGTGTGTTTT GCATCCTGTT CCAGTCAACA
TTTTCAGAAA GCATTGGTTC AATCCATCGC AAACTTGAAT TGTTACAGAA ACTGTGTGAG
ACATTGAAGA ATGAATCAGG AGTTATGCGG GTTCTGGGTT TGGTTCTTGC CTTTGGAAAT
TACATGAATG GTGGAAACAG GACACGAGGA CAGGCTGATG GGTTTGGATT AGATATCCTG
CCAAAACTGA AAGATGTCAA GAGCAGTGAT AACAGCCGAA GTCTTCTATC GTACATTGTC
TCATATTATT TGCGTAATTT TGATGAGGAT GCTGGAAGAG AACAATGCAT CTTCCCTCTT
CCGGATCCAC AGGATCTCTT CCAGGCTTCA CAACTGAAGT TTGATGATTT TCAAAAAGAT
CTCCGCAAAA TGAAGAAAGA TTTGCGAGCA TGTGAGACAG AAGCAGCAAA AGTTTATCAG
CTATCACTAG AAGAGCACCT ACAGCCCTTC AAAGACAACA TGGAGCAATT CATTAGTCAA
GCCAAAATAG ACCAAGAAAA TGAAGAGAAA TCACTGACAG AAGCACATAA AAGCTTTTTG
GAAACTACAG CCTATTTCTC TATGAAACCA AAAATGGGTG AGAAGGAGGT GTCCCCACAT
TCTTTCTTCA GTATTTGGCA TGAATTCAGT TCTGACTTCA AAGACTTTTG GAAGAAGGAA
AACAAACTTA TTCTTCAAGA AAGAGTCAAA GAAGCAGAGG AAGTCTGCAG ACAGAAAAAG
GGGAAGTCGC TATACAATAT TAGACAAAAA CATGACTCTG GAATTAAAGC AAAGATAAGT
ATGAAAATCT GAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030124081.1 CDS 44..5335 Translation
Target ORF information:
RefSeq Version XM_030268221.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata formin 2 (FMN2), transcript variant X6, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030268221.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921
4981
5041
5101
5161
5221
5281ATGCAGGCAA TAAAAACCGT GGAAAAAGAA GTGATTTTTC TAAAGGAAAC ACTTTTCACA
GAATCCTTCC TAAAGCAACA AAAGTGCAGC AGAAGCCCGG AGAGCAGGCA GCTCCAAGAG
CAGCAGCCAT TGGAAGGAGC TGTCTGCAGC TCTCAGTGCT GTACTGAGCA TGTCCCAGCG
GAGCCCAGTG CAAGCAGCAC ATTATGCAAA AAGGCAGCTC CAGCAGATGG GAGAGAGGCA
CAGCAAGCAT TTGCTTCACT TGCATCCCCG CCGCCTGCAA ACAAGCCTGG ATCGCTAGAG
GGGATCTTGC CAGCAGGCCA AAGGAATGAA ATCCAGGAGG ATGGCTTGAT TGTCAAAGGT
GCTGCACTGC AAAAAATCAT GGGGAATCAA GATGGGAAGC TAAAGAAAAA TACAGGTGAT
GTGCAAGAAG GAGGAGAAGA TGCCTCTGGG CCCAAGGATA CGGACGGCAC AAAGAAGGTA
TCGGGAGGCA GAAGGGGGCT GGGGAAGCAT GCAAAAGGAG GCGAATCAGG TAAGAAGAAG
GGTAAGTCGG ACTCCAGGCC CTCTGTGTTT TCAAATCTGA GGATCAGAAA AAATCTGTCC
AAGGCTAAAG ATGGGAATAG CAGCTCACGG GAGGATGTTT TGGAAAGCCA GGCCTTGCAG
CCTGGGGAGC TGGACAGTAC TCATTCAATT GTAACCAAAA CTCCTGATAT AAGCATCTCT
GCAGATGAAG GGGGTCTCTC AGACACAGAT GTTGAACATT TTGAAATCAG AAATGAAACT
GTTCCAGCTG CTGCAGAGAC ACAGGATGGA CAAAGGACCA GCTCTGGCTC TGATACGGAT
ATATACAGTT TCCATTCAGC TGCAGAACAA GAGGATTTGC TTTCTGATAT CCAGCAAGCT
ATTAGACTGC AGCAGCAGCA GCAGCAGGGG GCAATTAACA TTGGAACTGA GGACCCTGTC
GCCAAAACAA TGGGCCGACA CATGGCTAAT TCTCAAGCAA CCTCCTTAGA TTTTGAACGT
TTTTTTTCTG TAACTACCAC TGACAAAGAG AGGAGCCCAG ACACTGAGGG GGCTTTTCCA
GCGGTATCGG AAATTGTGGA AAACATTCCT GTCTCCTGTG CAACTGAATG GGAACCGAAA
GAAGCGGTAA ACAGCACAGG CTCTCCTGGT AACGGCTTAT TTGAAACACA AGAACGTCAG
CTACTGATTG AGGAGCAGCC CGTTGCTGGA GTGGATGCTG TAGCCAGTGA ACTACAAGAT
GGTTTGAATA GAGCTGCAGT AAAAAACGGG TCTCAGGCAC ACAGCTCCAC AGAACCTTTT
CCATCTCCAG TGGCAGATGC TGAGGCTAAA ATTGCTGAAG TGCAGGCTGT TGATTCTCAG
GGCTCAGTAA CAGAGGGTGG TATTCCAGAT GCAGGCCGTG ATCATGCTGC TGAGACTCAG
GAAGGGAAAC ACACTCTGTC AGCCAGTCAA GAGGAGCTGA GTAATGGTTT ATCCACAGAA
ATGAAAAATG GCAGTTTGTC CTCTGAAGGA ACAGCGGACA GTCCGATGCT TGGTTCCCGA
TGCTTTAAGC CCTATCTAAT TAACGCCTGT TACATCAAAA CCACAACTAG GCAACTGAGT
TCTCCCAACC ATTCACCTTC TCCCTCCCCA TCCCAGAGCC CACTTTTCAC AAGGAGGCAG
GAGTCCTTCC ACAAAAAGGA AAAAGTCTCA ATCAGGAAGA AGAGGTCTGC TAGTTTGGCA
GGTTTGTTCA GTCGTTCTGC AGACTGGACA GAAGAGGTGT CTAATCACAA AAGCGAGATA
ACAGAGAAGG TGAGCTCTGC AGACTACTTG GAGCACAAGG GGTTTAGAGA GAAATTTCAA
ACAGAAAGAG TGCCTTTGAA TCATTCAAGA AAGTCCTCAG GGGTCCAGGC TTCTACAGAG
ACATTTCCCA ATGTCTTTTC AGGACGAACT CTGCTGGAAA AGCTCTTCAG CCAGCAGGAA
AATGCACCAC AAGAAGAAGC AGAAAAACTC TGTTCTCGCA TTATTGCAAT GGGTCTTTTA
CTTCCATTCA CTGACTGCTT CAGAGAGCCA TGTAACCAGA GTGCCAAGCA AAGCACACCC
ACATTTGATC AAGACCAGCT TTATACTTGG GCTGCAGTTA GCCAACCCAC ACATTCAAGA
GATTACACTG AAGGAAGTTT TCCAAGGAGA ATTCCATCTG CGTGGCCTCC ACCCAAACCT
CCAGATGAAG AACAAAGGCT GAAAAGTTCA GAAGAAGAGT TGAAATCTAC AGTCCTAGAA
AAAGAGAAGC AATGCACAGA TGGTGTACAG CGGGCACAGG ATGCTTTTGA GGTGAAATCT
GAGGAGCGTG CCAGTGTCAT CCAACAACTT GAGCAAACTA TTGAGGATCT GAGGACAAAA
ATTGCAGAAC TAGAGAAACA ATTTCCTGCC GCAGAGGTAC AGACTGCTGG GAGGGAGCAG
GAAAATGAGC ATGCACATGC AGACTCTGGG GAACTCAGCA GTGTGACTCT TCAAAGGAAT
GAAGAGGAGA CCACAACCAG GACTGTGTCA CAGGCGAGAT CTGTACAAAC GTCACCAACA
GAGGATTATT TAACACATAA AATGCCTTCA GCCAGTGCAC TGCCACAGCC ACCCCCACCA
CCACACTTGG AAGGGGGCAA AAGTGAAGGG CCTACTCAGA ATTTGCCAGC TCTAGAACTA
CAGCCCACAT TCTGTTCTGA AATCTCCTTA ATTCTGTCAC CGAAGCTAAT CTCAGTGCCA
CTGGATGCAA GCCAATCAGT ACAGAGTATA CCACAGTCAC CTCTTCCAGG ACCCAAAGTT
GATTTGTCCC TTGCATTTGA AGGAGAGACT GAAACGAAAG TTTCCCATCA GCCTCTAAGC
ACTGTAGATG TAACTTGTAG TGAACATCCT CCTTCCTTGC CCCCAGAGCC CACATGTAGC
ATTCCCCCAT CGCTGCCACT GACTGAACAG GCTGCCCCCC TGCCTGGAAC ACATGGCCAT
TCCTTTGTTA CTCCCATGTC TGTGGCCGGA TTACCACTGC CACCACCTCT GCCTGGCTCA
GGACTCTCTG CTTCTGCTGT CTCAGCACTG ACACACCTGG ACCATTCTTT ACCAGGTGCC
ATGATGTCAC CTCTCCCTCC TCCTCCACAT TTTCCAAGTG GGGAGATAAC AACTCTGCCT
CCAGCTCCTC TCCTTCCATG TCCTGGATTC CCTCCACAAC CTTTGCCTGG AGCAGGAGTA
CCAGCTGCTC TGCCTGGTTG GGGTATCCCA CCTCCCCCTC CACCACCACC ACCTTTACCT
GGAGCTGCTG TCCCTCCTCC ACCTCCTCCT CTGCCCAGCC TGGGATTTGC ACCCCCACCA
CCACTGCTTC CTGGAGCAGG ACTGCCACCA CCTCCTCCAC CTCTGCCTGG AGGGGGCATT
CCACCACCTC CTCCTCCACC GCCACCTCTG CCTGGTGCTG CTGTGCCCCC TCCACCTCCT
CCACCGCCAC CTCTGCCTGG TGCTGCTGTG CCCCCTCCAC CTCCTCCACC ACCTCTGCCT
GGTGTAGCTG TGCCCCCTCC ACCTCCTCCA CCACCTCTGC CTGGTGTAGC TGTGCCCCCT
CCACCCCCTC CACCACCTCT GCCTGGTGTA GCTGTGCCCC CTCCACCTCC TCCACCACCT
CTGCCTGGTG TAGCTGTGCC GCCTCCACCT CCTCCACCAC CTCTGCCTGG TGTGGCTGTG
CCTCCTCCAC CTCCTCCACC ACCTCTGCCT GGTCTAGCTG TGCCCCCTCC ACCACCTCTG
CCTGGTGCTG GTGTCCCTCC ACCACCCCCT CCTTTGCCTG GGTTGGGGAT GCCTCCTCCA
GCCCCACCAC CCCTTCCAGC ACCAGTCCAG GGCAGCAGCT ACCCAGCAGT CCCACAGGGC
TGTGGTTTTC TTCCTCCTCC ATTACCATCT GGTTTATTTG CAATGGGGAT GAATCAGGAA
AAAGGGAGCA GGAAACACGT AATAGAGCCT ACTCGGCCAA TGAAGCCTCT TTACTGGACA
AGAATTCAGC TCCACAGTAA AACAGATTCT AGTGCTTCAC TTGTGTGGGA AAAAATTGAA
GAGCCTTCCA TAGATTATCA TGAGTTTGAA GAACTGTTTT CTAAAACAGC TGTTAAAGAG
AGGAAGAAAC CCATTTCGGA CACCATTACA AAAAGAAAGA CTAAACAAGT TGTCAAGTTG
TTAAGTAACA AAAGATCTCA AGCTGTTGGA ATATTAATGT CTAGCCTTCA TTTAGACATG
AAAGACATTC AGCGTGCTGT TGTGAACTTG GACAACTCTG TGGTTGACCT AGAGACGCTG
CAAGCTCTGT ATGAGAATAG AGCACAATCA GATGAACTAG AAAAAATAGA AAAGCATAGC
AAGGCATCCA AGGAGAAAGA AAACGCCAAG TCTTTGGATA AGCCAGAACA GTTCCTCTAT
GAACTCTCAC TGATTCCAAA CTTTTCAGAA CGTGTGTTTT GCATCCTGTT CCAGTCAACA
TTTTCAGAAA GCATTGGTTC AATCCATCGC AAACTTGAAT TGTTACAGAA ACTGTGTGAG
ACATTGAAGA ATGAATCAGG AGTTATGCGG GTTCTGGGTT TGGTTCTTGC CTTTGGAAAT
TACATGAATG GTGGAAACAG GACACGAGGA CAGGCTGATG GGTTTGGATT AGATATCCTG
CCAAAACTGA AAGATGTCAA GAGCAGTGAT AACAGCCGAA GTCTTCTATC GTACATTGTC
TCATATTATT TGCGTAATTT TGATGAGGAT GCTGGAAGAG AACAATGCAT CTTCCCTCTT
CCGGATCCAC AGGATCTCTT CCAGGCTTCA CAACTGAAGT TTGATGATTT TCAAAAAGAT
CTCCGCAAAA TGAAGAAAGA TTTGCGAGCA TGTGAGACAG AAGCAGCAAA AGTTTATCAG
CTATCACTAG AAGAGCACCT ACAGCCCTTC AAAGACAACA TGGAGCAATT CATTAGTCAA
GCCAAAATAG ACCAAGAAAA TGAAGAGAAA TCACTGACAG AAGCACATAA AAGCTTTTTG
GAAACTACAG CCTATTTCTC TATGAAACCA AAAATGGGTG AGAAGGAGGT GTCCCCACAT
TCTTTCTTCA GTATTTGGCA TGAATTCAGT TCTGACTTCA AAGACTTTTG GAAGAAGGAA
AACAAACTTA TTCTTCAAGA AAGAGTCAAA GAAGCAGAGG AAGTCTGCAG ACAGAAAAAG
GGGAAGTCGC TATACAATAT TAGACAAAAA CATGACTCTG GAATTAAAGC AAAGATAAGT
ATGAAAATCT GAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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