| Gene Symbol | FRMD4A |
| Entrez Gene ID | 100231585 |
| Full Name | FERM domain containing 4A |
| Gene Type | protein-coding |
| Organism | Taeniopygia guttata(zebra finch) |
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FRMD4A cDNA ORF clone, Taeniopygia guttata(zebra finch)
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Gene
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Clones
gRNAs
The following FRMD4A gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the FRMD4A 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 OTd20110 Clone ID Related Accession (Same CDS sequence) XM_012568816.1 Accession Version XM_012568816.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3180bp)
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 FERM domain-containing protein 4A Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002197552.1) 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 :: 5% 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
3121ATGGCTGTGC AGCGTGCTCC CGAATCTGCT CTGAGCTTGC TGATGATGAC AGAGGGTCGC
AGATGCCAAG TGCACCTCCT TGATGACAGG AAGCTGGAGC TCCTTGTTCA GCCAAAGCTT
TTGGCCAAGG AGCTGCTTGA CTTGGTGGCA TCTCATTTCA ACCTGAAGGA GAAGGAGTAC
TTTGGAATTG CATTCACAGA TGAAACGGGA CACTTGAACT GGCTTCAGCT GGACCGCCGG
GTGCTGGAAC ATGACTTCCC CAAAAAGTCA GGACCAGTTG TTTTGTACTT TTGTGTCAGG
TTCTACATTG AAAGCATCTC CTATCTGAAG GACAATGCCA CCATCGAGCT GTTTTTCTTG
AACGCCAAGT CCTGCATTTA CAAGGAACTC ATTGAGGTTG ACAGTGAAGT GGTGTTTGAA
CTGGCTGCAT ACATCTTGCA GGAGGCAAAG GGAGATTTTT CAAGCAATGA AGTTGTAAGG
AATGAATTAA AGAAGCTGCC AGCCCTTCCA ACACCAGCGC TGAAGGAGCA TCCTTCCCTC
GCTTACTGTG AGGATCGAGT CATTGAACAC TACAAGAAAC TAAATGGTCA GACAAGAGGT
CAAGCAATTG TGAATTACAT GAGCATTGTA GAATCCCTCC CGACATATGG AGTGCATTAT
TATGCAGTAA AGGACAAGCA GGGAATTCCA TGGTGGTTAG GACTTAGCTA CAAGGGGATT
TTTCAATATG ACTACCATGA CAAAGTGAAA CCAAGAAAGA GTTCTGGCTT TCTTTCTTTC
TTGGCTCTAT CACAACTTTC TTTAACTGTT CACACCTCCA TGCTCACCTC CAACTTTGGA
CAAGGCAGTG GCCCACAAGC ACCAGAAGAG AAGTGGCCAG TGCAGATACA GGTGCAGGAG
GGGAACCTTA GCAGGCTTGA GGACTTGGCA TCTGTGACCA GAAGGACTTT TGGGCATAGT
GGCATTGCTG TGCATACGTG GTACGCCTGT CCAGCATTAA TAAAGTCTAT CTGGGCTATG
GCCATTAGTC AGCATCAGTT CTACCTGGAC AGGAAGCAAA GCAAGTCCAA GATTCATGCT
GCAAGAAGCC TGAGTGAGAT TGCAATTGAC CTGACTGAAA CTGGAACCCT CAAGACCTCA
AAGCTGGCCA ACATGGGGAG TAAAGGCAAA ATTATCAGTG GAAGCAGCGG GAGTCTTCTG
TCATCAGGTT CCCAAGAGTC AGACAGTTCC CAGTCTGCCA AGAAAGACAT GCTGGCTGCG
CTGAAGTCCA GGCAAGAAGC TTTGGAAGAG ACGCTGCGCC AGCGCTTGGA AGAGCTGAAG
AAGCTGTGCC TGCGGGAAGC GGAGCTCACA GGAAAGCTGC CACGAGAATA CCCCCTGGAT
CCTGGGGAGG AGCCGCCTAT TGTAAGGAGA AGAATAGGAA CTGCCTTTAA ACTGGATGAG
CAGAAAATCC TGCCTAAGGG AGAGGAGGCA GAGCTGGAGC GTCTGGAGAG GGAATTTGCC
ATTCAGTCCC AGATCACGGA GGCTGCGCGG CGCCTGGCCA GCGACCCGAA CGTCAGCAAA
AAGCTGAAGA AGCAGAGGAA GACCTCCTAC CTGAATGCCC TGAAGAAACT GCAGGAGATC
GAGAACGCCA TCAACGAGTA TCGCATCAAA TCCGGGAAGA AGCCAACGCA GAGAGCCTCC
CTGATCATAG ATGAAGGAAA CATTGCCAGT GAAGACAGCT CCCTCTCAGA TGCCCTTGTT
CTTGAGGATG AGGACTCTCA GGTCACCAGC ACAATCTCCC CTCTGCAGTC CCCACACAAA
GGCCTCCCGC CGCGGCCGCC GCTGCACAAC CGGCCGCCCC CGCCGCAGTC GCTGGAGGGC
CTCCGCCAGA TGCACTTCCA CCGCAGCGAC TACGACAAGT CCCCCATCAA GCCCAAGATG
TGGAGCGAGT CATCCCTGGA TGAGCCCTAC GAGAAGGTCA AGAAGCGCTC CTCGCACAGC
CATTCCAGCA GTCACAAGCG GTTCCCCAGC ACCGGGAGCT GTGCCGAGGC GGGAGGGAGC
AGCTCGCTGC AGAACAGCCC CATCAGGAGC CTTCCCCACT GGAATTCCCA GTCCAGCATG
CCGTCGACGC CGGATCTACG GGTACGCAGT CCGCACTACG TCCACTCCAC GCGGTCAGTA
GATATCAGTC CAACCAGACT GCACAGCTTA GCTCAGCACT TTAGACACCG GAGCTCCAGT
TTGGAGTCAC AAGGAAAGCT CCTCGGCTCA GAAAATGAGA CAGGGAGCCC TGATTTCTAC
ACCCCAAGGA CTCGTAGCAG TAATGGCTCT GACCCCATGG ACGACTGCTC TTCCTGCACC
AGCCATTCCA GCTCGGAGCA CTACTACCCT GCTCAGATGA ACCCCAACTA CTCCACCCTG
GCAGAGGATT CCCCATCGAA AGCCAGAGAA CGGCAGAGGC AAAGGCACAA ATCAGCAGGC
AACCTGGTCT CTTCCAATTC AGGGAGCATG CCCAACCTGG CTGCGAGGAA CGGGACGGGA
CACCACCGTG TCTACCTGCA CAGCCAGAGC CAGCCCTCCT CCCAGTACAG GATCAAAGAA
TATCCCCTGT ACATCGAGGG CAGCTCCACA CCCGTGGTGG TGCGGAGCCT GGAGAACGAC
CAGGAGGGAC ACTACAGCGT GAAAGCACAA TTCAAAACCT CCAACTCCTA CACAGCGGGG
GGAATGTTTA AGGAGAACTG GCACGGGGAT GAAGTGGACT CGGTCAGGCT CACCCCATCC
CGCTCCCAGA TCATAAGGAC TCCATCTCTG GGCAGGGAGG GCCACGAGAA GGGCTCGGGC
AGGACTGCGG TGTCGGACGA GCTGCGGCTC TGGTACCAGC GGTCCACGGC CTCCCACAAG
GAGCACAGCC GCCTCTCGCA CACGAGCTCC ACCTCCTCGG ACAGCAGCTC CCAGTACAGC
ACATCTTCTC AAAGCACCTT TGTGGCACAC AGCCGGGTCA CGAGAATGCC TCAGATGTGT
AAAGCAACAT CAGCTGCCTT ACCTCACAGC CAGAGGAGCT CCACGCCGTC GAGCGAGCTC
GCAGCCACGC CGCCGGGCAG CCCCCACCAC ATTCTCACGT GGCAGACTGG AGAAGCAACA
GACAACTCAC CCACTATGGA TGAGTCTCAG TCTCCAACCC ACCAAAGTAC TGATGAATAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_012424270.1 CDS 79..3258 Translation 
Target ORF information:
RefSeq Version XM_012568816.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata FERM domain containing 4A (FRMD4A), mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_012568816.1
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
3121ATGGCTGTGC AGCGTGCTCC CGAATCTGCT CTGAGCTTGC TGATGATGAC AGAGGGTCGC
AGATGCCAAG TGCACCTCCT TGATGACAGG AAGCTGGAGC TCCTTGTTCA GCCAAAGCTT
TTGGCCAAGG AGCTGCTTGA CTTGGTGGCA TCTCATTTCA ACCTGAAGGA GAAGGAGTAC
TTTGGAATTG CATTCACAGA TGAAACGGGA CACTTGAACT GGCTTCAGCT GGACCGCCGG
GTGCTGGAAC ATGACTTCCC CAAAAAGTCA GGACCAGTTG TTTTGTACTT TTGTGTCAGG
TTCTACATTG AAAGCATCTC CTATCTGAAG GACAATGCCA CCATCGAGCT GTTTTTCTTG
AACGCCAAGT CCTGCATTTA CAAGGAACTC ATTGAGGTTG ACAGTGAAGT GGTGTTTGAA
CTGGCTGCAT ACATCTTGCA GGAGGCAAAG GGAGATTTTT CAAGCAATGA AGTTGTAAGG
AATGAATTAA AGAAGCTGCC AGCCCTTCCA ACACCAGCGC TGAAGGAGCA TCCTTCCCTC
GCTTACTGTG AGGATCGAGT CATTGAACAC TACAAGAAAC TAAATGGTCA GACAAGAGGT
CAAGCAATTG TGAATTACAT GAGCATTGTA GAATCCCTCC CGACATATGG AGTGCATTAT
TATGCAGTAA AGGACAAGCA GGGAATTCCA TGGTGGTTAG GACTTAGCTA CAAGGGGATT
TTTCAATATG ACTACCATGA CAAAGTGAAA CCAAGAAAGA GTTCTGGCTT TCTTTCTTTC
TTGGCTCTAT CACAACTTTC TTTAACTGTT CACACCTCCA TGCTCACCTC CAACTTTGGA
CAAGGCAGTG GCCCACAAGC ACCAGAAGAG AAGTGGCCAG TGCAGATACA GGTGCAGGAG
GGGAACCTTA GCAGGCTTGA GGACTTGGCA TCTGTGACCA GAAGGACTTT TGGGCATAGT
GGCATTGCTG TGCATACGTG GTACGCCTGT CCAGCATTAA TAAAGTCTAT CTGGGCTATG
GCCATTAGTC AGCATCAGTT CTACCTGGAC AGGAAGCAAA GCAAGTCCAA GATTCATGCT
GCAAGAAGCC TGAGTGAGAT TGCAATTGAC CTGACTGAAA CTGGAACCCT CAAGACCTCA
AAGCTGGCCA ACATGGGGAG TAAAGGCAAA ATTATCAGTG GAAGCAGCGG GAGTCTTCTG
TCATCAGGTT CCCAAGAGTC AGACAGTTCC CAGTCTGCCA AGAAAGACAT GCTGGCTGCG
CTGAAGTCCA GGCAAGAAGC TTTGGAAGAG ACGCTGCGCC AGCGCTTGGA AGAGCTGAAG
AAGCTGTGCC TGCGGGAAGC GGAGCTCACA GGAAAGCTGC CACGAGAATA CCCCCTGGAT
CCTGGGGAGG AGCCGCCTAT TGTAAGGAGA AGAATAGGAA CTGCCTTTAA ACTGGATGAG
CAGAAAATCC TGCCTAAGGG AGAGGAGGCA GAGCTGGAGC GTCTGGAGAG GGAATTTGCC
ATTCAGTCCC AGATCACGGA GGCTGCGCGG CGCCTGGCCA GCGACCCGAA CGTCAGCAAA
AAGCTGAAGA AGCAGAGGAA GACCTCCTAC CTGAATGCCC TGAAGAAACT GCAGGAGATC
GAGAACGCCA TCAACGAGTA TCGCATCAAA TCCGGGAAGA AGCCAACGCA GAGAGCCTCC
CTGATCATAG ATGAAGGAAA CATTGCCAGT GAAGACAGCT CCCTCTCAGA TGCCCTTGTT
CTTGAGGATG AGGACTCTCA GGTCACCAGC ACAATCTCCC CTCTGCAGTC CCCACACAAA
GGCCTCCCGC CGCGGCCGCC GCTGCACAAC CGGCCGCCCC CGCCGCAGTC GCTGGAGGGC
CTCCGCCAGA TGCACTTCCA CCGCAGCGAC TACGACAAGT CCCCCATCAA GCCCAAGATG
TGGAGCGAGT CATCCCTGGA TGAGCCCTAC GAGAAGGTCA AGAAGCGCTC CTCGCACAGC
CATTCCAGCA GTCACAAGCG GTTCCCCAGC ACCGGGAGCT GTGCCGAGGC GGGAGGGAGC
AGCTCGCTGC AGAACAGCCC CATCAGGAGC CTTCCCCACT GGAATTCCCA GTCCAGCATG
CCGTCGACGC CGGATCTACG GGTACGCAGT CCGCACTACG TCCACTCCAC GCGGTCAGTA
GATATCAGTC CAACCAGACT GCACAGCTTA GCTCAGCACT TTAGACACCG GAGCTCCAGT
TTGGAGTCAC AAGGAAAGCT CCTCGGCTCA GAAAATGAGA CAGGGAGCCC TGATTTCTAC
ACCCCAAGGA CTCGTAGCAG TAATGGCTCT GACCCCATGG ACGACTGCTC TTCCTGCACC
AGCCATTCCA GCTCGGAGCA CTACTACCCT GCTCAGATGA ACCCCAACTA CTCCACCCTG
GCAGAGGATT CCCCATCGAA AGCCAGAGAA CGGCAGAGGC AAAGGCACAA ATCAGCAGGC
AACCTGGTCT CTTCCAATTC AGGGAGCATG CCCAACCTGG CTGCGAGGAA CGGGACGGGA
CACCACCGTG TCTACCTGCA CAGCCAGAGC CAGCCCTCCT CCCAGTACAG GATCAAAGAA
TATCCCCTGT ACATCGAGGG CAGCTCCACA CCCGTGGTGG TGCGGAGCCT GGAGAACGAC
CAGGAGGGAC ACTACAGCGT GAAAGCACAA TTCAAAACCT CCAACTCCTA CACAGCGGGG
GGAATGTTTA AGGAGAACTG GCACGGGGAT GAAGTGGACT CGGTCAGGCT CACCCCATCC
CGCTCCCAGA TCATAAGGAC TCCATCTCTG GGCAGGGAGG GCCACGAGAA GGGCTCGGGC
AGGACTGCGG TGTCGGACGA GCTGCGGCTC TGGTACCAGC GGTCCACGGC CTCCCACAAG
GAGCACAGCC GCCTCTCGCA CACGAGCTCC ACCTCCTCGG ACAGCAGCTC CCAGTACAGC
ACATCTTCTC AAAGCACCTT TGTGGCACAC AGCCGGGTCA CGAGAATGCC TCAGATGTGT
AAAGCAACAT CAGCTGCCTT ACCTCACAGC CAGAGGAGCT CCACGCCGTC GAGCGAGCTC
GCAGCCACGC CGCCGGGCAG CCCCCACCAC ATTCTCACGT GGCAGACTGG AGAAGCAACA
GACAACTCAC CCACTATGGA TGAGTCTCAG TCTCCAACCC ACCAAAGTAC TGATGAATAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd32457 Clone ID Related Accession (Same CDS sequence) XM_030290765.1 Accession Version XM_030290765.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3237bp)
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 FERM domain-containing protein 4A isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044212.1) 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
3121
3181ATGGCTGCTG TGCTCTTTGG CTTTGAGGAT CTGCTCTACA GCTGGGACAG CCTGGTGTGG
AGCCTGACGT CCCGGGCTCT GAGGACTTGC CGCTTTGGAA ACCTGAGGCT CCTGCAGCTC
ATGCTGAAGC CATGGTGCAT TTCCAGAGAC GTTTATCAGA TGACAGAGGG TCGCAGATGC
CAAGTGCACC TCCTTGATGA CAGGAAGCTG GAGCTCCTTG TTCAGCCAAA GCTTTTGGCC
AAGGAGCTGC TTGACTTGGT GGCATCTCAT TTCAACCTGA AGGAGAAGGA GTACTTTGGA
ATTGCATTCA CAGATGAAAC GGGACACTTG AACTGGCTTC AGCTGGACCG CCGGGTGCTG
GAACATGACT TCCCCAAAAA GTCAGGACCA GTTGTTTTGT ACTTTTGTGT CAGGTTCTAC
ATTGAAAGCA TCTCCTATCT GAAGGACAAT GCCACCATCG AGCTGTTTTT CTTGAACGCC
AAGTCCTGCA TTTACAAGGA ACTCATTGAG GTTGACAGTG AAGTGGTGTT TGAACTGGCT
GCATACATCT TGCAGGAGGC AAAGGGAGAT TTTTCAAGCA ATGAAGTTGT AAGGAATGAA
TTAAAGAAGC TGCCAGCCCT TCCAACACCA GCGCTGAAGG AGCATCCTTC CCTCGCTTAC
TGTGAGGATC GAGTCATTGA ACACTACAAG AAACTAAATG GTCAGACAAG AGGTCAAGCA
ATTGTGAATT ACATGAGCAT TGTAGAATCC CTCCCGACAT ATGGAGTGCA TTATTATGCA
GTAAAGGACA AGCAGGGAAT TCCATGGTGG TTAGGACTTA GCTACAAGGG GATTTTTCAA
TATGACTACC ATGACAAAGT GAAACCAAGA AAGATCTTTC AATGGAGGCA GCTGGAGAAC
CTCTATTTCC GCGAGAAGAA GTTCTCGGTG GAGGTGCACG ATCCGCGCAG GGCATCTGTG
ACCAGAAGGA CTTTTGGGCA TAGTGGCATT GCTGTGCATA CGTGGTACGC CTGTCCAGCA
TTAATAAAGT CTATCTGGGC TATGGCCATT AGTCAGCATC AGTTCTACCT GGACAGGAAG
CAAAGCAAGT CCAAGATTCA TGCTGCAAGA AGCCTGAGTG AGATTGCAAT TGACCTGACT
GAAACTGGAA CCCTCAAGAC CTCAAAGCTG GCCAACATGG GGAGTAAAGG CAAAATTATC
AGTGGAAGCA GCGGGAGTCT TCTGTCATCA GGTTCCCAAG AGTCAGACAG TTCTCAGTCT
GCCAAGAAAG ACATGCTGGC TGCGCTGAAG TCCAGGCAAG AAGCTTTGGA AGAGACGCTG
CGCCAGCGCT TGGAAGAGCT GAAGAAGCTG TGCCTGCGGG AAGCGGAGCT CACAGGAAAG
CTGCCACGAG AATACCCCCT GGATCCTGGG GAGGAGCCGC CTATTGTAAG GAGAAGAATA
GGAACTGCCT TTAAACTGGA TGAGCAGAAA ATCCTGCCTA AGGGAGAGGA GGCAGAGCTG
GAGCGTCTGG AGAGGGAATT TGCCATTCAG TCCCAGATCA CGGAGGCTGC GCGGCGCCTG
GCCAGCGACC CGAACGTCAG CAAAAAGCTG AAGAAGCAGA GGAAAACCTC CTACCTGAAT
GCCCTGAAGA AACTGCAGGA GATCGAGAAC GCCATCAATG AGTATCGCAT CAAATCCGGG
AAGAAGCCAA CGCAGAGAGC CTCCCTGATC ATAGATGAAG GAAACATTGC CAGTGAAGAC
AGCTCCCTCT CAGATGCCCT TGTTCTTGAG GATGAGGACT CTCAGGTCAC CAGCACAATC
TCCCCTCTGC AGTCCCCACA CAAAGGCCTC CCGCCGCGGC CGCCGCTGCA CAACCGGCCG
CCCCCGCCGC AGTCGCTGGA GGGCCTCCGC CAGATGCACT TCCACCGCAG CGACTACGAC
AAGTCCCCCA TCAAGCCCAA GATGTGGAGC GAGTCATCCC TGGATGAGCC CTACGAGAAG
GTCAAGAAGC GCTCCTCGCA CAGCCATTCC AGCAGTCACA AGCGGTTCCC CAGCACCGGG
AGCTGTGCCG AGGCAGGAGG GAGCAGCTCG CTGCAGAACA GCCCCATCAG GAGCCTTCCC
CACTGGAATT CCCAGTCCAG CATGCCGTCG ACGCCGGATC TACGGGTACG CAGTCCGCAC
TACGTCCACT CCACGCGGTC AGTAGATATC AGTCCAACCA GACTGCACAG CTTAGCTCAG
CACTTTAGAC ACCGGAGCTC CAGTTTGGAG TCACAAGGAA AGCTCCTCGG CTCAGAAAAT
GAGACAGGGA GCCCTGATTT CTACACCCCA AGGACTCGTA GCAGTAATGG CTCTGACCCC
ATGGACGACT GCTCTTCCTG CACCAGCCAT TCCAGCTCGG AGCACTACTA CCCTGCTCAG
ATGAACCCCA ACTACTCCAC CCTGGCAGAG GATTCCCCAT CGAAAGCCAG AGAACGGCAG
AGGCAAAGGC ACAAATCAGC AGGCAACCTG GTCTCTTCCA ATTCAGGGAG CATGCCCAAC
CTGGCTGCGA GGAACGGGAC GGGACACCAC CGTGTCTACC TGCACAGCCA GAGCCAGCCC
TCCTCCCAGT ACAGGATCAA AGAATATCCC CTGTACATCG AGGGCAGCTC CACACCCGTG
GTGGTGCGGA GCCTGGAGAA CGACCAGGAG GGACACTACA GCGTGAAAGC ACAATTCAAA
ACCTCCAACT CCTACACAGC GGGGGGAATG TTTAAGGAGA ACTGGCACGG GGATGAAGTG
GACTCGGTCA GGCTCACCCC ATCCCGCTCC CAGATCATAA GGACTCCATC TCTGGGCAGG
GAGGGCCACG AGAAGGGCTC GGGCAGGACT GCGGTGTCGG ACGAGCTGCG GCTCTGGTAC
CAGCGGTCCA CGGCCTCCCA CAAGGAGCAC AGCCGCCTCT CGCACACGAG CTCCACCTCC
TCGGACAGCA GCTCCCAGTA CAGCACATCT TCTCAAAGCA CCTTTGTGGC ACACAGCCGG
GTCACGAGAA TGCCTCAGAT GTGTAAAGCA ACATCAGCTG CCTTACCTCA CAGCCAGAGG
AGCTCCACGC CGTCCAGCGA GCTCGCAGCC ACGCCGCCGG GCAGCCCCCA CCACATTCTC
ACGTGGCAGA CTGGGAACTA CAATGATAGC TGTTTCCTGG ACTCTCCCCT CTATCCAGAA
TTAGCAGATG TCCAGTGGTA TGGGCAGGAA AAAGCCAAGC CTGGAACTCT AGTGTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030146625.1 CDS 139..3375 Translation
Target ORF information:
RefSeq Version XM_030290765.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata FERM domain containing 4A (FRMD4A), transcript variant X1, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030290765.1
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
3181ATGGCTGCTG TGCTCTTTGG CTTTGAGGAT CTGCTCTACA GCTGGGACAG CCTGGTGTGG
AGCCTGACGT CCCGGGCTCT GAGGACTTGC CGCTTTGGAA ACCTGAGGCT CCTGCAGCTC
ATGCTGAAGC CATGGTGCAT TTCCAGAGAC GTTTATCAGA TGACAGAGGG TCGCAGATGC
CAAGTGCACC TCCTTGATGA CAGGAAGCTG GAGCTCCTTG TTCAGCCAAA GCTTTTGGCC
AAGGAGCTGC TTGACTTGGT GGCATCTCAT TTCAACCTGA AGGAGAAGGA GTACTTTGGA
ATTGCATTCA CAGATGAAAC GGGACACTTG AACTGGCTTC AGCTGGACCG CCGGGTGCTG
GAACATGACT TCCCCAAAAA GTCAGGACCA GTTGTTTTGT ACTTTTGTGT CAGGTTCTAC
ATTGAAAGCA TCTCCTATCT GAAGGACAAT GCCACCATCG AGCTGTTTTT CTTGAACGCC
AAGTCCTGCA TTTACAAGGA ACTCATTGAG GTTGACAGTG AAGTGGTGTT TGAACTGGCT
GCATACATCT TGCAGGAGGC AAAGGGAGAT TTTTCAAGCA ATGAAGTTGT AAGGAATGAA
TTAAAGAAGC TGCCAGCCCT TCCAACACCA GCGCTGAAGG AGCATCCTTC CCTCGCTTAC
TGTGAGGATC GAGTCATTGA ACACTACAAG AAACTAAATG GTCAGACAAG AGGTCAAGCA
ATTGTGAATT ACATGAGCAT TGTAGAATCC CTCCCGACAT ATGGAGTGCA TTATTATGCA
GTAAAGGACA AGCAGGGAAT TCCATGGTGG TTAGGACTTA GCTACAAGGG GATTTTTCAA
TATGACTACC ATGACAAAGT GAAACCAAGA AAGATCTTTC AATGGAGGCA GCTGGAGAAC
CTCTATTTCC GCGAGAAGAA GTTCTCGGTG GAGGTGCACG ATCCGCGCAG GGCATCTGTG
ACCAGAAGGA CTTTTGGGCA TAGTGGCATT GCTGTGCATA CGTGGTACGC CTGTCCAGCA
TTAATAAAGT CTATCTGGGC TATGGCCATT AGTCAGCATC AGTTCTACCT GGACAGGAAG
CAAAGCAAGT CCAAGATTCA TGCTGCAAGA AGCCTGAGTG AGATTGCAAT TGACCTGACT
GAAACTGGAA CCCTCAAGAC CTCAAAGCTG GCCAACATGG GGAGTAAAGG CAAAATTATC
AGTGGAAGCA GCGGGAGTCT TCTGTCATCA GGTTCCCAAG AGTCAGACAG TTCTCAGTCT
GCCAAGAAAG ACATGCTGGC TGCGCTGAAG TCCAGGCAAG AAGCTTTGGA AGAGACGCTG
CGCCAGCGCT TGGAAGAGCT GAAGAAGCTG TGCCTGCGGG AAGCGGAGCT CACAGGAAAG
CTGCCACGAG AATACCCCCT GGATCCTGGG GAGGAGCCGC CTATTGTAAG GAGAAGAATA
GGAACTGCCT TTAAACTGGA TGAGCAGAAA ATCCTGCCTA AGGGAGAGGA GGCAGAGCTG
GAGCGTCTGG AGAGGGAATT TGCCATTCAG TCCCAGATCA CGGAGGCTGC GCGGCGCCTG
GCCAGCGACC CGAACGTCAG CAAAAAGCTG AAGAAGCAGA GGAAAACCTC CTACCTGAAT
GCCCTGAAGA AACTGCAGGA GATCGAGAAC GCCATCAATG AGTATCGCAT CAAATCCGGG
AAGAAGCCAA CGCAGAGAGC CTCCCTGATC ATAGATGAAG GAAACATTGC CAGTGAAGAC
AGCTCCCTCT CAGATGCCCT TGTTCTTGAG GATGAGGACT CTCAGGTCAC CAGCACAATC
TCCCCTCTGC AGTCCCCACA CAAAGGCCTC CCGCCGCGGC CGCCGCTGCA CAACCGGCCG
CCCCCGCCGC AGTCGCTGGA GGGCCTCCGC CAGATGCACT TCCACCGCAG CGACTACGAC
AAGTCCCCCA TCAAGCCCAA GATGTGGAGC GAGTCATCCC TGGATGAGCC CTACGAGAAG
GTCAAGAAGC GCTCCTCGCA CAGCCATTCC AGCAGTCACA AGCGGTTCCC CAGCACCGGG
AGCTGTGCCG AGGCAGGAGG GAGCAGCTCG CTGCAGAACA GCCCCATCAG GAGCCTTCCC
CACTGGAATT CCCAGTCCAG CATGCCGTCG ACGCCGGATC TACGGGTACG CAGTCCGCAC
TACGTCCACT CCACGCGGTC AGTAGATATC AGTCCAACCA GACTGCACAG CTTAGCTCAG
CACTTTAGAC ACCGGAGCTC CAGTTTGGAG TCACAAGGAA AGCTCCTCGG CTCAGAAAAT
GAGACAGGGA GCCCTGATTT CTACACCCCA AGGACTCGTA GCAGTAATGG CTCTGACCCC
ATGGACGACT GCTCTTCCTG CACCAGCCAT TCCAGCTCGG AGCACTACTA CCCTGCTCAG
ATGAACCCCA ACTACTCCAC CCTGGCAGAG GATTCCCCAT CGAAAGCCAG AGAACGGCAG
AGGCAAAGGC ACAAATCAGC AGGCAACCTG GTCTCTTCCA ATTCAGGGAG CATGCCCAAC
CTGGCTGCGA GGAACGGGAC GGGACACCAC CGTGTCTACC TGCACAGCCA GAGCCAGCCC
TCCTCCCAGT ACAGGATCAA AGAATATCCC CTGTACATCG AGGGCAGCTC CACACCCGTG
GTGGTGCGGA GCCTGGAGAA CGACCAGGAG GGACACTACA GCGTGAAAGC ACAATTCAAA
ACCTCCAACT CCTACACAGC GGGGGGAATG TTTAAGGAGA ACTGGCACGG GGATGAAGTG
GACTCGGTCA GGCTCACCCC ATCCCGCTCC CAGATCATAA GGACTCCATC TCTGGGCAGG
GAGGGCCACG AGAAGGGCTC GGGCAGGACT GCGGTGTCGG ACGAGCTGCG GCTCTGGTAC
CAGCGGTCCA CGGCCTCCCA CAAGGAGCAC AGCCGCCTCT CGCACACGAG CTCCACCTCC
TCGGACAGCA GCTCCCAGTA CAGCACATCT TCTCAAAGCA CCTTTGTGGC ACACAGCCGG
GTCACGAGAA TGCCTCAGAT GTGTAAAGCA ACATCAGCTG CCTTACCTCA CAGCCAGAGG
AGCTCCACGC CGTCCAGCGA GCTCGCAGCC ACGCCGCCGG GCAGCCCCCA CCACATTCTC
ACGTGGCAGA CTGGGAACTA CAATGATAGC TGTTTCCTGG ACTCTCCCCT CTATCCAGAA
TTAGCAGATG TCCAGTGGTA TGGGCAGGAA AAAGCCAAGC CTGGAACTCT AGTGTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd32458 Clone ID Related Accession (Same CDS sequence) XM_030290774.1 Accession Version XM_030290774.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3204bp)
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 FERM domain-containing protein 4A isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044212.1) 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
3121
3181ATGGCTGCTG TGCTCTTTGG CTTTGAGGAT CTGCTCTACA GCTGGGACAG CCTGGTGTGG
AGCCTGACGT CCCGGGCTCT GAGGACTTGC CGCTTTGGAA ACCTGAGGCT CCTGCAGCTC
ATGCTGAAGC CATGGTGCAT TTCCAGAGAC GTTTATCAGA TGACAGAGGG TCGCAGATGC
CAAGTGCACC TCCTTGATGA CAGGAAGCTG GAGCTCCTTG TTCAGCCAAA GCTTTTGGCC
AAGGAGCTGC TTGACTTGGT GGCATCTCAT TTCAACCTGA AGGAGAAGGA GTACTTTGGA
ATTGCATTCA CAGATGAAAC GGGACACTTG AACTGGCTTC AGCTGGACCG CCGGGTGCTG
GAACATGACT TCCCCAAAAA GTCAGGACCA GTTGTTTTGT ACTTTTGTGT CAGGTTCTAC
ATTGAAAGCA TCTCCTATCT GAAGGACAAT GCCACCATCG AGCTGTTTTT CTTGAACGCC
AAGTCCTGCA TTTACAAGGA ACTCATTGAG GTTGACAGTG AAGTGGTGTT TGAACTGGCT
GCATACATCT TGCAGGAGGC AAAGGGAGAT TTTTCAAGCA ATGAAGTTGT AAGGAATGAA
TTAAAGAAGC TGCCAGCCCT TCCAACACCA GCGCTGAAGG AGCATCCTTC CCTCGCTTAC
TGTGAGGATC GAGTCATTGA ACACTACAAG AAACTAAATG GTCAGACAAG AGGTCAAGCA
ATTGTGAATT ACATGAGCAT TGTAGAATCC CTCCCGACAT ATGGAGTGCA TTATTATGCA
GTAAAGGACA AGCAGGGAAT TCCATGGTGG TTAGGACTTA GCTACAAGGG GATTTTTCAA
TATGACTACC ATGACAAAGT GAAACCAAGA AAGATCTTTC AATGGAGGCA GCTGGAGAAC
CTCTATTTCC GCGAGAAGAA GTTCTCGGTG GAGGTGCACG ATCCGCGCAG GGCATCTGTG
ACCAGAAGGA CTTTTGGGCA TAGTGGCATT GCTGTGCATA CGTGGTACGC CTGTCCAGCA
TTAATAAAGT CTATCTGGGC TATGGCCATT AGTCAGCATC AGTTCTACCT GGACAGGAAG
CAAAGCAAGT CCAAGATTCA TGCTGCAAGA AGCCTGAGTG AGATTGCAAT TGACCTGACT
GAAACTGGAA CCCTCAAGAC CTCAAAGCTG GCCAACATGG GGAGTAAAGG CAAAATTATC
AGTGGAAGCA GCGGGAGTCT TCTGTCATCA GGTTCCCAAG AGTCAGACAG TTCTCAGTCT
GCCAAGAAAG ACATGCTGGC TGCGCTGAAG TCCAGGCAAG AAGCTTTGGA AGAGACGCTG
CGCCAGCGCT TGGAAGAGCT GAAGAAGCTG TGCCTGCGGG AAGCGGAGCT CACAGGAAAG
CTGCCACGAG AATACCCCCT GGATCCTGGG GAGGAGCCGC CTATTGTAAG GAGAAGAATA
GGAACTGCCT TTAAACTGGA TGAGCAGAAA ATCCTGCCTA AGGGAGAGGA GGCAGAGCTG
GAGCGTCTGG AGAGGGAATT TGCCATTCAG TCCCAGATCA CGGAGGCTGC GCGGCGCCTG
GCCAGCGACC CGAACGTCAG CAAAAAGCTG AAGAAGCAGA GGAAAACCTC CTACCTGAAT
GCCCTGAAGA AACTGCAGGA GATCGAGAAC GCCATCAATG AGTATCGCAT CAAATCCGGG
AAGAAGCCAA CGCAGAGAGC CTCCCTGATC ATAGATGAAG GAAACATTGC CAGTGAAGAC
AGCTCCCTCT CAGATGCCCT TGTTCTTGAG GATGAGGACT CTCAGGTCAC CAGCACAATC
TCCCCTCTGC AGTCCCCACA CAAAGGCCTC CCGCCGCGGC CGCCGCTGCA CAACCGGCCG
CCCCCGCCGC AGTCGCTGGA GGGCCTCCGC CAGATGCACT TCCACCGCAG CGACTACGAC
AAGTCCCCCA TCAAGCCCAA GATGTGGAGC GAGTCATCCC TGGATGAGCC CTACGAGAAG
GTCAAGAAGC GCTCCTCGCA CAGCCATTCC AGCAGTCACA AGCGGTTCCC CAGCACCGGG
AGCTGTGCCG AGGCAGGAGG GAGCAGCTCG CTGCAGAACA GCCCCATCAG GAGCCTTCCC
CACTGGAATT CCCAGTCCAG CATGCCGTCG ACGCCGGATC TACGGGTACG CAGTCCGCAC
TACGTCCACT CCACGCGGTC AGTAGATATC AGTCCAACCA GACTGCACAG CTTAGCTCAG
CACTTTAGAC ACCGGAGCTC CAGTTTGGAG TCACAAGGAA AGCTCCTCGG CTCAGAAAAT
GAGACAGGGA GCCCTGATTT CTACACCCCA AGGACTCGTA GCAGTAATGG CTCTGACCCC
ATGGACGACT GCTCTTCCTG CACCAGCCAT TCCAGCTCGG AGCACTACTA CCCTGCTCAG
ATGAACCCCA ACTACTCCAC CCTGGCAGAG GATTCCCCAT CGAAAGCCAG AGAACGGCAG
AGGCAAAGGC ACAAATCAGC AGGCAACCTG GTCTCTTCCA ATTCAGGGAG CATGCCCAAC
CTGGCTGCGA GGAACGGGAC GGGACACCAC CGTGTCTACC TGCACAGCCA GAGCCAGCCC
TCCTCCCAGT ACAGGATCAA AGAATATCCC CTGTACATCG AGGGCAGCTC CACACCCGTG
GTGGTGCGGA GCCTGGAGAA CGACCAGGAG GGACACTACA GCGTGAAAGC ACAATTCAAA
ACCTCCAACT CCTACACAGC GGGGGGAATG TTTAAGGAGA ACTGGCACGG GGATGAAGTG
GACTCGGTCA GGCTCACCCC ATCCCGCTCC CAGATCATAA GGACTCCATC TCTGGGCAGG
GAGGGCCACG AGAAGGGCTC GGGCAGGACT GCGGTGTCGG ACGAGCTGCG GCTCTGGTAC
CAGCGGTCCA CGGCCTCCCA CAAGGAGCAC AGCCGCCTCT CGCACACGAG CTCCACCTCC
TCGGACAGCA GCTCCCAGTA CAGCACATCT TCTCAAAGCA CCTTTGTGGC ACACAGCCGG
GTCACGAGAA TGCCTCAGAT GTGTAAAGCA ACATCAGCTG CCTTACCTCA CAGCCAGAGG
AGCTCCACGC CGTCCAGCGA GCTCGCAGCC ACGCCGCCGG GCAGCCCCCA CCACATTCTC
ACGTGGCAGA CTGGAGAAGC AACAGACAAC TCACCCACTA TGGATGAGTC TCAGTCTCCA
ACCCACCAAA GTACTGATGA ATAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030146634.1 CDS 139..3342 Translation
Target ORF information:
RefSeq Version XM_030290774.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata FERM domain containing 4A (FRMD4A), transcript variant X2, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030290774.1
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
3181ATGGCTGCTG TGCTCTTTGG CTTTGAGGAT CTGCTCTACA GCTGGGACAG CCTGGTGTGG
AGCCTGACGT CCCGGGCTCT GAGGACTTGC CGCTTTGGAA ACCTGAGGCT CCTGCAGCTC
ATGCTGAAGC CATGGTGCAT TTCCAGAGAC GTTTATCAGA TGACAGAGGG TCGCAGATGC
CAAGTGCACC TCCTTGATGA CAGGAAGCTG GAGCTCCTTG TTCAGCCAAA GCTTTTGGCC
AAGGAGCTGC TTGACTTGGT GGCATCTCAT TTCAACCTGA AGGAGAAGGA GTACTTTGGA
ATTGCATTCA CAGATGAAAC GGGACACTTG AACTGGCTTC AGCTGGACCG CCGGGTGCTG
GAACATGACT TCCCCAAAAA GTCAGGACCA GTTGTTTTGT ACTTTTGTGT CAGGTTCTAC
ATTGAAAGCA TCTCCTATCT GAAGGACAAT GCCACCATCG AGCTGTTTTT CTTGAACGCC
AAGTCCTGCA TTTACAAGGA ACTCATTGAG GTTGACAGTG AAGTGGTGTT TGAACTGGCT
GCATACATCT TGCAGGAGGC AAAGGGAGAT TTTTCAAGCA ATGAAGTTGT AAGGAATGAA
TTAAAGAAGC TGCCAGCCCT TCCAACACCA GCGCTGAAGG AGCATCCTTC CCTCGCTTAC
TGTGAGGATC GAGTCATTGA ACACTACAAG AAACTAAATG GTCAGACAAG AGGTCAAGCA
ATTGTGAATT ACATGAGCAT TGTAGAATCC CTCCCGACAT ATGGAGTGCA TTATTATGCA
GTAAAGGACA AGCAGGGAAT TCCATGGTGG TTAGGACTTA GCTACAAGGG GATTTTTCAA
TATGACTACC ATGACAAAGT GAAACCAAGA AAGATCTTTC AATGGAGGCA GCTGGAGAAC
CTCTATTTCC GCGAGAAGAA GTTCTCGGTG GAGGTGCACG ATCCGCGCAG GGCATCTGTG
ACCAGAAGGA CTTTTGGGCA TAGTGGCATT GCTGTGCATA CGTGGTACGC CTGTCCAGCA
TTAATAAAGT CTATCTGGGC TATGGCCATT AGTCAGCATC AGTTCTACCT GGACAGGAAG
CAAAGCAAGT CCAAGATTCA TGCTGCAAGA AGCCTGAGTG AGATTGCAAT TGACCTGACT
GAAACTGGAA CCCTCAAGAC CTCAAAGCTG GCCAACATGG GGAGTAAAGG CAAAATTATC
AGTGGAAGCA GCGGGAGTCT TCTGTCATCA GGTTCCCAAG AGTCAGACAG TTCTCAGTCT
GCCAAGAAAG ACATGCTGGC TGCGCTGAAG TCCAGGCAAG AAGCTTTGGA AGAGACGCTG
CGCCAGCGCT TGGAAGAGCT GAAGAAGCTG TGCCTGCGGG AAGCGGAGCT CACAGGAAAG
CTGCCACGAG AATACCCCCT GGATCCTGGG GAGGAGCCGC CTATTGTAAG GAGAAGAATA
GGAACTGCCT TTAAACTGGA TGAGCAGAAA ATCCTGCCTA AGGGAGAGGA GGCAGAGCTG
GAGCGTCTGG AGAGGGAATT TGCCATTCAG TCCCAGATCA CGGAGGCTGC GCGGCGCCTG
GCCAGCGACC CGAACGTCAG CAAAAAGCTG AAGAAGCAGA GGAAAACCTC CTACCTGAAT
GCCCTGAAGA AACTGCAGGA GATCGAGAAC GCCATCAATG AGTATCGCAT CAAATCCGGG
AAGAAGCCAA CGCAGAGAGC CTCCCTGATC ATAGATGAAG GAAACATTGC CAGTGAAGAC
AGCTCCCTCT CAGATGCCCT TGTTCTTGAG GATGAGGACT CTCAGGTCAC CAGCACAATC
TCCCCTCTGC AGTCCCCACA CAAAGGCCTC CCGCCGCGGC CGCCGCTGCA CAACCGGCCG
CCCCCGCCGC AGTCGCTGGA GGGCCTCCGC CAGATGCACT TCCACCGCAG CGACTACGAC
AAGTCCCCCA TCAAGCCCAA GATGTGGAGC GAGTCATCCC TGGATGAGCC CTACGAGAAG
GTCAAGAAGC GCTCCTCGCA CAGCCATTCC AGCAGTCACA AGCGGTTCCC CAGCACCGGG
AGCTGTGCCG AGGCAGGAGG GAGCAGCTCG CTGCAGAACA GCCCCATCAG GAGCCTTCCC
CACTGGAATT CCCAGTCCAG CATGCCGTCG ACGCCGGATC TACGGGTACG CAGTCCGCAC
TACGTCCACT CCACGCGGTC AGTAGATATC AGTCCAACCA GACTGCACAG CTTAGCTCAG
CACTTTAGAC ACCGGAGCTC CAGTTTGGAG TCACAAGGAA AGCTCCTCGG CTCAGAAAAT
GAGACAGGGA GCCCTGATTT CTACACCCCA AGGACTCGTA GCAGTAATGG CTCTGACCCC
ATGGACGACT GCTCTTCCTG CACCAGCCAT TCCAGCTCGG AGCACTACTA CCCTGCTCAG
ATGAACCCCA ACTACTCCAC CCTGGCAGAG GATTCCCCAT CGAAAGCCAG AGAACGGCAG
AGGCAAAGGC ACAAATCAGC AGGCAACCTG GTCTCTTCCA ATTCAGGGAG CATGCCCAAC
CTGGCTGCGA GGAACGGGAC GGGACACCAC CGTGTCTACC TGCACAGCCA GAGCCAGCCC
TCCTCCCAGT ACAGGATCAA AGAATATCCC CTGTACATCG AGGGCAGCTC CACACCCGTG
GTGGTGCGGA GCCTGGAGAA CGACCAGGAG GGACACTACA GCGTGAAAGC ACAATTCAAA
ACCTCCAACT CCTACACAGC GGGGGGAATG TTTAAGGAGA ACTGGCACGG GGATGAAGTG
GACTCGGTCA GGCTCACCCC ATCCCGCTCC CAGATCATAA GGACTCCATC TCTGGGCAGG
GAGGGCCACG AGAAGGGCTC GGGCAGGACT GCGGTGTCGG ACGAGCTGCG GCTCTGGTAC
CAGCGGTCCA CGGCCTCCCA CAAGGAGCAC AGCCGCCTCT CGCACACGAG CTCCACCTCC
TCGGACAGCA GCTCCCAGTA CAGCACATCT TCTCAAAGCA CCTTTGTGGC ACACAGCCGG
GTCACGAGAA TGCCTCAGAT GTGTAAAGCA ACATCAGCTG CCTTACCTCA CAGCCAGAGG
AGCTCCACGC CGTCCAGCGA GCTCGCAGCC ACGCCGCCGG GCAGCCCCCA CCACATTCTC
ACGTGGCAGA CTGGAGAAGC AACAGACAAC TCACCCACTA TGGATGAGTC TCAGTCTCCA
ACCCACCAAA GTACTGATGA ATAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd32459 Clone ID Related Accession (Same CDS sequence) XM_030290781.1 Accession Version XM_030290781.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3171bp)
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 FERM domain-containing protein 4A isoform X3 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044212.1) 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
3121ATGGTAGTAC AGACAGCTGT GACTCCGGGT AGGACCCGAA GACTTTTATT CAAAATACCA
TATGGATCAC TGAGGAGACG CAGTGTGGAA AGGATGACAG AGGGTCGCAG ATGCCAAGTG
CACCTCCTTG ATGACAGGAA GCTGGAGCTC CTTGTTCAGC CAAAGCTTTT GGCCAAGGAG
CTGCTTGACT TGGTGGCATC TCATTTCAAC CTGAAGGAGA AGGAGTACTT TGGAATTGCA
TTCACAGATG AAACGGGACA CTTGAACTGG CTTCAGCTGG ACCGCCGGGT GCTGGAACAT
GACTTCCCCA AAAAGTCAGG ACCAGTTGTT TTGTACTTTT GTGTCAGGTT CTACATTGAA
AGCATCTCCT ATCTGAAGGA CAATGCCACC ATCGAGCTGT TTTTCTTGAA CGCCAAGTCC
TGCATTTACA AGGAACTCAT TGAGGTTGAC AGTGAAGTGG TGTTTGAACT GGCTGCATAC
ATCTTGCAGG AGGCAAAGGG AGATTTTTCA AGCAATGAAG TTGTAAGGAA TGAATTAAAG
AAGCTGCCAG CCCTTCCAAC ACCAGCGCTG AAGGAGCATC CTTCCCTCGC TTACTGTGAG
GATCGAGTCA TTGAACACTA CAAGAAACTA AATGGTCAGA CAAGAGGTCA AGCAATTGTG
AATTACATGA GCATTGTAGA ATCCCTCCCG ACATATGGAG TGCATTATTA TGCAGTAAAG
GACAAGCAGG GAATTCCATG GTGGTTAGGA CTTAGCTACA AGGGGATTTT TCAATATGAC
TACCATGACA AAGTGAAACC AAGAAAGATC TTTCAATGGA GGCAGCTGGA GAACCTCTAT
TTCCGCGAGA AGAAGTTCTC GGTGGAGGTG CACGATCCGC GCAGGGCATC TGTGACCAGA
AGGACTTTTG GGCATAGTGG CATTGCTGTG CATACGTGGT ACGCCTGTCC AGCATTAATA
AAGTCTATCT GGGCTATGGC CATTAGTCAG CATCAGTTCT ACCTGGACAG GAAGCAAAGC
AAGTCCAAGA TTCATGCTGC AAGAAGCCTG AGTGAGATTG CAATTGACCT GACTGAAACT
GGAACCCTCA AGACCTCAAA GCTGGCCAAC ATGGGGAGTA AAGGCAAAAT TATCAGTGGA
AGCAGCGGGA GTCTTCTGTC ATCAGGTTCC CAAGAGTCAG ACAGTTCTCA GTCTGCCAAG
AAAGACATGC TGGCTGCGCT GAAGTCCAGG CAAGAAGCTT TGGAAGAGAC GCTGCGCCAG
CGCTTGGAAG AGCTGAAGAA GCTGTGCCTG CGGGAAGCGG AGCTCACAGG AAAGCTGCCA
CGAGAATACC CCCTGGATCC TGGGGAGGAG CCGCCTATTG TAAGGAGAAG AATAGGAACT
GCCTTTAAAC TGGATGAGCA GAAAATCCTG CCTAAGGGAG AGGAGGCAGA GCTGGAGCGT
CTGGAGAGGG AATTTGCCAT TCAGTCCCAG ATCACGGAGG CTGCGCGGCG CCTGGCCAGC
GACCCGAACG TCAGCAAAAA GCTGAAGAAG CAGAGGAAAA CCTCCTACCT GAATGCCCTG
AAGAAACTGC AGGAGATCGA GAACGCCATC AATGAGTATC GCATCAAATC CGGGAAGAAG
CCAACGCAGA GAGCCTCCCT GATCATAGAT GAAGGAAACA TTGCCAGTGA AGACAGCTCC
CTCTCAGATG CCCTTGTTCT TGAGGATGAG GACTCTCAGG TCACCAGCAC AATCTCCCCT
CTGCAGTCCC CACACAAAGG CCTCCCGCCG CGGCCGCCGC TGCACAACCG GCCGCCCCCG
CCGCAGTCGC TGGAGGGCCT CCGCCAGATG CACTTCCACC GCAGCGACTA CGACAAGTCC
CCCATCAAGC CCAAGATGTG GAGCGAGTCA TCCCTGGATG AGCCCTACGA GAAGGTCAAG
AAGCGCTCCT CGCACAGCCA TTCCAGCAGT CACAAGCGGT TCCCCAGCAC CGGGAGCTGT
GCCGAGGCAG GAGGGAGCAG CTCGCTGCAG AACAGCCCCA TCAGGAGCCT TCCCCACTGG
AATTCCCAGT CCAGCATGCC GTCGACGCCG GATCTACGGG TACGCAGTCC GCACTACGTC
CACTCCACGC GGTCAGTAGA TATCAGTCCA ACCAGACTGC ACAGCTTAGC TCAGCACTTT
AGACACCGGA GCTCCAGTTT GGAGTCACAA GGAAAGCTCC TCGGCTCAGA AAATGAGACA
GGGAGCCCTG ATTTCTACAC CCCAAGGACT CGTAGCAGTA ATGGCTCTGA CCCCATGGAC
GACTGCTCTT CCTGCACCAG CCATTCCAGC TCGGAGCACT ACTACCCTGC TCAGATGAAC
CCCAACTACT CCACCCTGGC AGAGGATTCC CCATCGAAAG CCAGAGAACG GCAGAGGCAA
AGGCACAAAT CAGCAGGCAA CCTGGTCTCT TCCAATTCAG GGAGCATGCC CAACCTGGCT
GCGAGGAACG GGACGGGACA CCACCGTGTC TACCTGCACA GCCAGAGCCA GCCCTCCTCC
CAGTACAGGA TCAAAGAATA TCCCCTGTAC ATCGAGGGCA GCTCCACACC CGTGGTGGTG
CGGAGCCTGG AGAACGACCA GGAGGGACAC TACAGCGTGA AAGCACAATT CAAAACCTCC
AACTCCTACA CAGCGGGGGG AATGTTTAAG GAGAACTGGC ACGGGGATGA AGTGGACTCG
GTCAGGCTCA CCCCATCCCG CTCCCAGATC ATAAGGACTC CATCTCTGGG CAGGGAGGGC
CACGAGAAGG GCTCGGGCAG GACTGCGGTG TCGGACGAGC TGCGGCTCTG GTACCAGCGG
TCCACGGCCT CCCACAAGGA GCACAGCCGC CTCTCGCACA CGAGCTCCAC CTCCTCGGAC
AGCAGCTCCC AGTACAGCAC ATCTTCTCAA AGCACCTTTG TGGCACACAG CCGGGTCACG
AGAATGCCTC AGATGTGTAA AGCAACATCA GCTGCCTTAC CTCACAGCCA GAGGAGCTCC
ACGCCGTCCA GCGAGCTCGC AGCCACGCCG CCGGGCAGCC CCCACCACAT TCTCACGTGG
CAGACTGGGA ACTACAATGA TAGCTGTTTC CTGGACTCTC CCCTCTATCC AGAATTAGCA
GATGTCCAGT GGTATGGGCA GGAAAAAGCC AAGCCTGGAA CTCTAGTGTG AThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030146641.1 CDS 599..3769 Translation
Target ORF information:
RefSeq Version XM_030290781.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata FERM domain containing 4A (FRMD4A), transcript variant X3, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030290781.1
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
3121ATGGTAGTAC AGACAGCTGT GACTCCGGGT AGGACCCGAA GACTTTTATT CAAAATACCA
TATGGATCAC TGAGGAGACG CAGTGTGGAA AGGATGACAG AGGGTCGCAG ATGCCAAGTG
CACCTCCTTG ATGACAGGAA GCTGGAGCTC CTTGTTCAGC CAAAGCTTTT GGCCAAGGAG
CTGCTTGACT TGGTGGCATC TCATTTCAAC CTGAAGGAGA AGGAGTACTT TGGAATTGCA
TTCACAGATG AAACGGGACA CTTGAACTGG CTTCAGCTGG ACCGCCGGGT GCTGGAACAT
GACTTCCCCA AAAAGTCAGG ACCAGTTGTT TTGTACTTTT GTGTCAGGTT CTACATTGAA
AGCATCTCCT ATCTGAAGGA CAATGCCACC ATCGAGCTGT TTTTCTTGAA CGCCAAGTCC
TGCATTTACA AGGAACTCAT TGAGGTTGAC AGTGAAGTGG TGTTTGAACT GGCTGCATAC
ATCTTGCAGG AGGCAAAGGG AGATTTTTCA AGCAATGAAG TTGTAAGGAA TGAATTAAAG
AAGCTGCCAG CCCTTCCAAC ACCAGCGCTG AAGGAGCATC CTTCCCTCGC TTACTGTGAG
GATCGAGTCA TTGAACACTA CAAGAAACTA AATGGTCAGA CAAGAGGTCA AGCAATTGTG
AATTACATGA GCATTGTAGA ATCCCTCCCG ACATATGGAG TGCATTATTA TGCAGTAAAG
GACAAGCAGG GAATTCCATG GTGGTTAGGA CTTAGCTACA AGGGGATTTT TCAATATGAC
TACCATGACA AAGTGAAACC AAGAAAGATC TTTCAATGGA GGCAGCTGGA GAACCTCTAT
TTCCGCGAGA AGAAGTTCTC GGTGGAGGTG CACGATCCGC GCAGGGCATC TGTGACCAGA
AGGACTTTTG GGCATAGTGG CATTGCTGTG CATACGTGGT ACGCCTGTCC AGCATTAATA
AAGTCTATCT GGGCTATGGC CATTAGTCAG CATCAGTTCT ACCTGGACAG GAAGCAAAGC
AAGTCCAAGA TTCATGCTGC AAGAAGCCTG AGTGAGATTG CAATTGACCT GACTGAAACT
GGAACCCTCA AGACCTCAAA GCTGGCCAAC ATGGGGAGTA AAGGCAAAAT TATCAGTGGA
AGCAGCGGGA GTCTTCTGTC ATCAGGTTCC CAAGAGTCAG ACAGTTCTCA GTCTGCCAAG
AAAGACATGC TGGCTGCGCT GAAGTCCAGG CAAGAAGCTT TGGAAGAGAC GCTGCGCCAG
CGCTTGGAAG AGCTGAAGAA GCTGTGCCTG CGGGAAGCGG AGCTCACAGG AAAGCTGCCA
CGAGAATACC CCCTGGATCC TGGGGAGGAG CCGCCTATTG TAAGGAGAAG AATAGGAACT
GCCTTTAAAC TGGATGAGCA GAAAATCCTG CCTAAGGGAG AGGAGGCAGA GCTGGAGCGT
CTGGAGAGGG AATTTGCCAT TCAGTCCCAG ATCACGGAGG CTGCGCGGCG CCTGGCCAGC
GACCCGAACG TCAGCAAAAA GCTGAAGAAG CAGAGGAAAA CCTCCTACCT GAATGCCCTG
AAGAAACTGC AGGAGATCGA GAACGCCATC AATGAGTATC GCATCAAATC CGGGAAGAAG
CCAACGCAGA GAGCCTCCCT GATCATAGAT GAAGGAAACA TTGCCAGTGA AGACAGCTCC
CTCTCAGATG CCCTTGTTCT TGAGGATGAG GACTCTCAGG TCACCAGCAC AATCTCCCCT
CTGCAGTCCC CACACAAAGG CCTCCCGCCG CGGCCGCCGC TGCACAACCG GCCGCCCCCG
CCGCAGTCGC TGGAGGGCCT CCGCCAGATG CACTTCCACC GCAGCGACTA CGACAAGTCC
CCCATCAAGC CCAAGATGTG GAGCGAGTCA TCCCTGGATG AGCCCTACGA GAAGGTCAAG
AAGCGCTCCT CGCACAGCCA TTCCAGCAGT CACAAGCGGT TCCCCAGCAC CGGGAGCTGT
GCCGAGGCAG GAGGGAGCAG CTCGCTGCAG AACAGCCCCA TCAGGAGCCT TCCCCACTGG
AATTCCCAGT CCAGCATGCC GTCGACGCCG GATCTACGGG TACGCAGTCC GCACTACGTC
CACTCCACGC GGTCAGTAGA TATCAGTCCA ACCAGACTGC ACAGCTTAGC TCAGCACTTT
AGACACCGGA GCTCCAGTTT GGAGTCACAA GGAAAGCTCC TCGGCTCAGA AAATGAGACA
GGGAGCCCTG ATTTCTACAC CCCAAGGACT CGTAGCAGTA ATGGCTCTGA CCCCATGGAC
GACTGCTCTT CCTGCACCAG CCATTCCAGC TCGGAGCACT ACTACCCTGC TCAGATGAAC
CCCAACTACT CCACCCTGGC AGAGGATTCC CCATCGAAAG CCAGAGAACG GCAGAGGCAA
AGGCACAAAT CAGCAGGCAA CCTGGTCTCT TCCAATTCAG GGAGCATGCC CAACCTGGCT
GCGAGGAACG GGACGGGACA CCACCGTGTC TACCTGCACA GCCAGAGCCA GCCCTCCTCC
CAGTACAGGA TCAAAGAATA TCCCCTGTAC ATCGAGGGCA GCTCCACACC CGTGGTGGTG
CGGAGCCTGG AGAACGACCA GGAGGGACAC TACAGCGTGA AAGCACAATT CAAAACCTCC
AACTCCTACA CAGCGGGGGG AATGTTTAAG GAGAACTGGC ACGGGGATGA AGTGGACTCG
GTCAGGCTCA CCCCATCCCG CTCCCAGATC ATAAGGACTC CATCTCTGGG CAGGGAGGGC
CACGAGAAGG GCTCGGGCAG GACTGCGGTG TCGGACGAGC TGCGGCTCTG GTACCAGCGG
TCCACGGCCT CCCACAAGGA GCACAGCCGC CTCTCGCACA CGAGCTCCAC CTCCTCGGAC
AGCAGCTCCC AGTACAGCAC ATCTTCTCAA AGCACCTTTG TGGCACACAG CCGGGTCACG
AGAATGCCTC AGATGTGTAA AGCAACATCA GCTGCCTTAC CTCACAGCCA GAGGAGCTCC
ACGCCGTCCA GCGAGCTCGC AGCCACGCCG CCGGGCAGCC CCCACCACAT TCTCACGTGG
CAGACTGGGA ACTACAATGA TAGCTGTTTC CTGGACTCTC CCCTCTATCC AGAATTAGCA
GATGTCCAGT GGTATGGGCA GGAAAAAGCC AAGCCTGGAA CTCTAGTGTG AThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd32460 Clone ID Related Accession (Same CDS sequence) XM_030290791.1 Accession Version XM_030290791.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3144bp)
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 FERM domain-containing protein 4A isoform X4 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044212.1) 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
3121ATGACTTTAG CAGCTAAATT AGAGGATATT GAAGTGACGC TGGAGCACCT ACTAATGGAT
GTGTTTATGA CAGAGGGTCG CAGATGCCAA GTGCACCTCC TTGATGACAG GAAGCTGGAG
CTCCTTGTTC AGCCAAAGCT TTTGGCCAAG GAGCTGCTTG ACTTGGTGGC ATCTCATTTC
AACCTGAAGG AGAAGGAGTA CTTTGGAATT GCATTCACAG ATGAAACGGG ACACTTGAAC
TGGCTTCAGC TGGACCGCCG GGTGCTGGAA CATGACTTCC CCAAAAAGTC AGGACCAGTT
GTTTTGTACT TTTGTGTCAG GTTCTACATT GAAAGCATCT CCTATCTGAA GGACAATGCC
ACCATCGAGC TGTTTTTCTT GAACGCCAAG TCCTGCATTT ACAAGGAACT CATTGAGGTT
GACAGTGAAG TGGTGTTTGA ACTGGCTGCA TACATCTTGC AGGAGGCAAA GGGAGATTTT
TCAAGCAATG AAGTTGTAAG GAATGAATTA AAGAAGCTGC CAGCCCTTCC AACACCAGCG
CTGAAGGAGC ATCCTTCCCT CGCTTACTGT GAGGATCGAG TCATTGAACA CTACAAGAAA
CTAAATGGTC AGACAAGAGG TCAAGCAATT GTGAATTACA TGAGCATTGT AGAATCCCTC
CCGACATATG GAGTGCATTA TTATGCAGTA AAGGACAAGC AGGGAATTCC ATGGTGGTTA
GGACTTAGCT ACAAGGGGAT TTTTCAATAT GACTACCATG ACAAAGTGAA ACCAAGAAAG
ATCTTTCAAT GGAGGCAGCT GGAGAACCTC TATTTCCGCG AGAAGAAGTT CTCGGTGGAG
GTGCACGATC CGCGCAGGGC ATCTGTGACC AGAAGGACTT TTGGGCATAG TGGCATTGCT
GTGCATACGT GGTACGCCTG TCCAGCATTA ATAAAGTCTA TCTGGGCTAT GGCCATTAGT
CAGCATCAGT TCTACCTGGA CAGGAAGCAA AGCAAGTCCA AGATTCATGC TGCAAGAAGC
CTGAGTGAGA TTGCAATTGA CCTGACTGAA ACTGGAACCC TCAAGACCTC AAAGCTGGCC
AACATGGGGA GTAAAGGCAA AATTATCAGT GGAAGCAGCG GGAGTCTTCT GTCATCAGGT
TCCCAAGAGT CAGACAGTTC TCAGTCTGCC AAGAAAGACA TGCTGGCTGC GCTGAAGTCC
AGGCAAGAAG CTTTGGAAGA GACGCTGCGC CAGCGCTTGG AAGAGCTGAA GAAGCTGTGC
CTGCGGGAAG CGGAGCTCAC AGGAAAGCTG CCACGAGAAT ACCCCCTGGA TCCTGGGGAG
GAGCCGCCTA TTGTAAGGAG AAGAATAGGA ACTGCCTTTA AACTGGATGA GCAGAAAATC
CTGCCTAAGG GAGAGGAGGC AGAGCTGGAG CGTCTGGAGA GGGAATTTGC CATTCAGTCC
CAGATCACGG AGGCTGCGCG GCGCCTGGCC AGCGACCCGA ACGTCAGCAA AAAGCTGAAG
AAGCAGAGGA AAACCTCCTA CCTGAATGCC CTGAAGAAAC TGCAGGAGAT CGAGAACGCC
ATCAATGAGT ATCGCATCAA ATCCGGGAAG AAGCCAACGC AGAGAGCCTC CCTGATCATA
GATGAAGGAA ACATTGCCAG TGAAGACAGC TCCCTCTCAG ATGCCCTTGT TCTTGAGGAT
GAGGACTCTC AGGTCACCAG CACAATCTCC CCTCTGCAGT CCCCACACAA AGGCCTCCCG
CCGCGGCCGC CGCTGCACAA CCGGCCGCCC CCGCCGCAGT CGCTGGAGGG CCTCCGCCAG
ATGCACTTCC ACCGCAGCGA CTACGACAAG TCCCCCATCA AGCCCAAGAT GTGGAGCGAG
TCATCCCTGG ATGAGCCCTA CGAGAAGGTC AAGAAGCGCT CCTCGCACAG CCATTCCAGC
AGTCACAAGC GGTTCCCCAG CACCGGGAGC TGTGCCGAGG CAGGAGGGAG CAGCTCGCTG
CAGAACAGCC CCATCAGGAG CCTTCCCCAC TGGAATTCCC AGTCCAGCAT GCCGTCGACG
CCGGATCTAC GGGTACGCAG TCCGCACTAC GTCCACTCCA CGCGGTCAGT AGATATCAGT
CCAACCAGAC TGCACAGCTT AGCTCAGCAC TTTAGACACC GGAGCTCCAG TTTGGAGTCA
CAAGGAAAGC TCCTCGGCTC AGAAAATGAG ACAGGGAGCC CTGATTTCTA CACCCCAAGG
ACTCGTAGCA GTAATGGCTC TGACCCCATG GACGACTGCT CTTCCTGCAC CAGCCATTCC
AGCTCGGAGC ACTACTACCC TGCTCAGATG AACCCCAACT ACTCCACCCT GGCAGAGGAT
TCCCCATCGA AAGCCAGAGA ACGGCAGAGG CAAAGGCACA AATCAGCAGG CAACCTGGTC
TCTTCCAATT CAGGGAGCAT GCCCAACCTG GCTGCGAGGA ACGGGACGGG ACACCACCGT
GTCTACCTGC ACAGCCAGAG CCAGCCCTCC TCCCAGTACA GGATCAAAGA ATATCCCCTG
TACATCGAGG GCAGCTCCAC ACCCGTGGTG GTGCGGAGCC TGGAGAACGA CCAGGAGGGA
CACTACAGCG TGAAAGCACA ATTCAAAACC TCCAACTCCT ACACAGCGGG GGGAATGTTT
AAGGAGAACT GGCACGGGGA TGAAGTGGAC TCGGTCAGGC TCACCCCATC CCGCTCCCAG
ATCATAAGGA CTCCATCTCT GGGCAGGGAG GGCCACGAGA AGGGCTCGGG CAGGACTGCG
GTGTCGGACG AGCTGCGGCT CTGGTACCAG CGGTCCACGG CCTCCCACAA GGAGCACAGC
CGCCTCTCGC ACACGAGCTC CACCTCCTCG GACAGCAGCT CCCAGTACAG CACATCTTCT
CAAAGCACCT TTGTGGCACA CAGCCGGGTC ACGAGAATGC CTCAGATGTG TAAAGCAACA
TCAGCTGCCT TACCTCACAG CCAGAGGAGC TCCACGCCGT CCAGCGAGCT CGCAGCCACG
CCGCCGGGCA GCCCCCACCA CATTCTCACG TGGCAGACTG GGAACTACAA TGATAGCTGT
TTCCTGGACT CTCCCCTCTA TCCAGAATTA GCAGATGTCC AGTGGTATGG GCAGGAAAAA
GCCAAGCCTG GAACTCTAGT GTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030146651.1 CDS 241..3384 Translation
Target ORF information:
RefSeq Version XM_030290791.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata FERM domain containing 4A (FRMD4A), transcript variant X4, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030290791.1
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
3121ATGACTTTAG CAGCTAAATT AGAGGATATT GAAGTGACGC TGGAGCACCT ACTAATGGAT
GTGTTTATGA CAGAGGGTCG CAGATGCCAA GTGCACCTCC TTGATGACAG GAAGCTGGAG
CTCCTTGTTC AGCCAAAGCT TTTGGCCAAG GAGCTGCTTG ACTTGGTGGC ATCTCATTTC
AACCTGAAGG AGAAGGAGTA CTTTGGAATT GCATTCACAG ATGAAACGGG ACACTTGAAC
TGGCTTCAGC TGGACCGCCG GGTGCTGGAA CATGACTTCC CCAAAAAGTC AGGACCAGTT
GTTTTGTACT TTTGTGTCAG GTTCTACATT GAAAGCATCT CCTATCTGAA GGACAATGCC
ACCATCGAGC TGTTTTTCTT GAACGCCAAG TCCTGCATTT ACAAGGAACT CATTGAGGTT
GACAGTGAAG TGGTGTTTGA ACTGGCTGCA TACATCTTGC AGGAGGCAAA GGGAGATTTT
TCAAGCAATG AAGTTGTAAG GAATGAATTA AAGAAGCTGC CAGCCCTTCC AACACCAGCG
CTGAAGGAGC ATCCTTCCCT CGCTTACTGT GAGGATCGAG TCATTGAACA CTACAAGAAA
CTAAATGGTC AGACAAGAGG TCAAGCAATT GTGAATTACA TGAGCATTGT AGAATCCCTC
CCGACATATG GAGTGCATTA TTATGCAGTA AAGGACAAGC AGGGAATTCC ATGGTGGTTA
GGACTTAGCT ACAAGGGGAT TTTTCAATAT GACTACCATG ACAAAGTGAA ACCAAGAAAG
ATCTTTCAAT GGAGGCAGCT GGAGAACCTC TATTTCCGCG AGAAGAAGTT CTCGGTGGAG
GTGCACGATC CGCGCAGGGC ATCTGTGACC AGAAGGACTT TTGGGCATAG TGGCATTGCT
GTGCATACGT GGTACGCCTG TCCAGCATTA ATAAAGTCTA TCTGGGCTAT GGCCATTAGT
CAGCATCAGT TCTACCTGGA CAGGAAGCAA AGCAAGTCCA AGATTCATGC TGCAAGAAGC
CTGAGTGAGA TTGCAATTGA CCTGACTGAA ACTGGAACCC TCAAGACCTC AAAGCTGGCC
AACATGGGGA GTAAAGGCAA AATTATCAGT GGAAGCAGCG GGAGTCTTCT GTCATCAGGT
TCCCAAGAGT CAGACAGTTC TCAGTCTGCC AAGAAAGACA TGCTGGCTGC GCTGAAGTCC
AGGCAAGAAG CTTTGGAAGA GACGCTGCGC CAGCGCTTGG AAGAGCTGAA GAAGCTGTGC
CTGCGGGAAG CGGAGCTCAC AGGAAAGCTG CCACGAGAAT ACCCCCTGGA TCCTGGGGAG
GAGCCGCCTA TTGTAAGGAG AAGAATAGGA ACTGCCTTTA AACTGGATGA GCAGAAAATC
CTGCCTAAGG GAGAGGAGGC AGAGCTGGAG CGTCTGGAGA GGGAATTTGC CATTCAGTCC
CAGATCACGG AGGCTGCGCG GCGCCTGGCC AGCGACCCGA ACGTCAGCAA AAAGCTGAAG
AAGCAGAGGA AAACCTCCTA CCTGAATGCC CTGAAGAAAC TGCAGGAGAT CGAGAACGCC
ATCAATGAGT ATCGCATCAA ATCCGGGAAG AAGCCAACGC AGAGAGCCTC CCTGATCATA
GATGAAGGAA ACATTGCCAG TGAAGACAGC TCCCTCTCAG ATGCCCTTGT TCTTGAGGAT
GAGGACTCTC AGGTCACCAG CACAATCTCC CCTCTGCAGT CCCCACACAA AGGCCTCCCG
CCGCGGCCGC CGCTGCACAA CCGGCCGCCC CCGCCGCAGT CGCTGGAGGG CCTCCGCCAG
ATGCACTTCC ACCGCAGCGA CTACGACAAG TCCCCCATCA AGCCCAAGAT GTGGAGCGAG
TCATCCCTGG ATGAGCCCTA CGAGAAGGTC AAGAAGCGCT CCTCGCACAG CCATTCCAGC
AGTCACAAGC GGTTCCCCAG CACCGGGAGC TGTGCCGAGG CAGGAGGGAG CAGCTCGCTG
CAGAACAGCC CCATCAGGAG CCTTCCCCAC TGGAATTCCC AGTCCAGCAT GCCGTCGACG
CCGGATCTAC GGGTACGCAG TCCGCACTAC GTCCACTCCA CGCGGTCAGT AGATATCAGT
CCAACCAGAC TGCACAGCTT AGCTCAGCAC TTTAGACACC GGAGCTCCAG TTTGGAGTCA
CAAGGAAAGC TCCTCGGCTC AGAAAATGAG ACAGGGAGCC CTGATTTCTA CACCCCAAGG
ACTCGTAGCA GTAATGGCTC TGACCCCATG GACGACTGCT CTTCCTGCAC CAGCCATTCC
AGCTCGGAGC ACTACTACCC TGCTCAGATG AACCCCAACT ACTCCACCCT GGCAGAGGAT
TCCCCATCGA AAGCCAGAGA ACGGCAGAGG CAAAGGCACA AATCAGCAGG CAACCTGGTC
TCTTCCAATT CAGGGAGCAT GCCCAACCTG GCTGCGAGGA ACGGGACGGG ACACCACCGT
GTCTACCTGC ACAGCCAGAG CCAGCCCTCC TCCCAGTACA GGATCAAAGA ATATCCCCTG
TACATCGAGG GCAGCTCCAC ACCCGTGGTG GTGCGGAGCC TGGAGAACGA CCAGGAGGGA
CACTACAGCG TGAAAGCACA ATTCAAAACC TCCAACTCCT ACACAGCGGG GGGAATGTTT
AAGGAGAACT GGCACGGGGA TGAAGTGGAC TCGGTCAGGC TCACCCCATC CCGCTCCCAG
ATCATAAGGA CTCCATCTCT GGGCAGGGAG GGCCACGAGA AGGGCTCGGG CAGGACTGCG
GTGTCGGACG AGCTGCGGCT CTGGTACCAG CGGTCCACGG CCTCCCACAA GGAGCACAGC
CGCCTCTCGC ACACGAGCTC CACCTCCTCG GACAGCAGCT CCCAGTACAG CACATCTTCT
CAAAGCACCT TTGTGGCACA CAGCCGGGTC ACGAGAATGC CTCAGATGTG TAAAGCAACA
TCAGCTGCCT TACCTCACAG CCAGAGGAGC TCCACGCCGT CCAGCGAGCT CGCAGCCACG
CCGCCGGGCA GCCCCCACCA CATTCTCACG TGGCAGACTG GGAACTACAA TGATAGCTGT
TTCCTGGACT CTCCCCTCTA TCCAGAATTA GCAGATGTCC AGTGGTATGG GCAGGAAAAA
GCCAAGCCTG GAACTCTAGT GTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd32461 Clone ID Related Accession (Same CDS sequence) XM_030290798.1 Accession Version XM_030290798.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3138bp)
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 FERM domain-containing protein 4A isoform X5 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044212.1) 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
3121ATGGTAGTAC AGACAGCTGT GACTCCGGGT AGGACCCGAA GACTTTTATT CAAAATACCA
TATGGATCAC TGAGGAGACG CAGTGTGGAA AGGATGACAG AGGGTCGCAG ATGCCAAGTG
CACCTCCTTG ATGACAGGAA GCTGGAGCTC CTTGTTCAGC CAAAGCTTTT GGCCAAGGAG
CTGCTTGACT TGGTGGCATC TCATTTCAAC CTGAAGGAGA AGGAGTACTT TGGAATTGCA
TTCACAGATG AAACGGGACA CTTGAACTGG CTTCAGCTGG ACCGCCGGGT GCTGGAACAT
GACTTCCCCA AAAAGTCAGG ACCAGTTGTT TTGTACTTTT GTGTCAGGTT CTACATTGAA
AGCATCTCCT ATCTGAAGGA CAATGCCACC ATCGAGCTGT TTTTCTTGAA CGCCAAGTCC
TGCATTTACA AGGAACTCAT TGAGGTTGAC AGTGAAGTGG TGTTTGAACT GGCTGCATAC
ATCTTGCAGG AGGCAAAGGG AGATTTTTCA AGCAATGAAG TTGTAAGGAA TGAATTAAAG
AAGCTGCCAG CCCTTCCAAC ACCAGCGCTG AAGGAGCATC CTTCCCTCGC TTACTGTGAG
GATCGAGTCA TTGAACACTA CAAGAAACTA AATGGTCAGA CAAGAGGTCA AGCAATTGTG
AATTACATGA GCATTGTAGA ATCCCTCCCG ACATATGGAG TGCATTATTA TGCAGTAAAG
GACAAGCAGG GAATTCCATG GTGGTTAGGA CTTAGCTACA AGGGGATTTT TCAATATGAC
TACCATGACA AAGTGAAACC AAGAAAGATC TTTCAATGGA GGCAGCTGGA GAACCTCTAT
TTCCGCGAGA AGAAGTTCTC GGTGGAGGTG CACGATCCGC GCAGGGCATC TGTGACCAGA
AGGACTTTTG GGCATAGTGG CATTGCTGTG CATACGTGGT ACGCCTGTCC AGCATTAATA
AAGTCTATCT GGGCTATGGC CATTAGTCAG CATCAGTTCT ACCTGGACAG GAAGCAAAGC
AAGTCCAAGA TTCATGCTGC AAGAAGCCTG AGTGAGATTG CAATTGACCT GACTGAAACT
GGAACCCTCA AGACCTCAAA GCTGGCCAAC ATGGGGAGTA AAGGCAAAAT TATCAGTGGA
AGCAGCGGGA GTCTTCTGTC ATCAGGTTCC CAAGAGTCAG ACAGTTCTCA GTCTGCCAAG
AAAGACATGC TGGCTGCGCT GAAGTCCAGG CAAGAAGCTT TGGAAGAGAC GCTGCGCCAG
CGCTTGGAAG AGCTGAAGAA GCTGTGCCTG CGGGAAGCGG AGCTCACAGG AAAGCTGCCA
CGAGAATACC CCCTGGATCC TGGGGAGGAG CCGCCTATTG TAAGGAGAAG AATAGGAACT
GCCTTTAAAC TGGATGAGCA GAAAATCCTG CCTAAGGGAG AGGAGGCAGA GCTGGAGCGT
CTGGAGAGGG AATTTGCCAT TCAGTCCCAG ATCACGGAGG CTGCGCGGCG CCTGGCCAGC
GACCCGAACG TCAGCAAAAA GCTGAAGAAG CAGAGGAAAA CCTCCTACCT GAATGCCCTG
AAGAAACTGC AGGAGATCGA GAACGCCATC AATGAGTATC GCATCAAATC CGGGAAGAAG
CCAACGCAGA GAGCCTCCCT GATCATAGAT GAAGGAAACA TTGCCAGTGA AGACAGCTCC
CTCTCAGATG CCCTTGTTCT TGAGGATGAG GACTCTCAGG TCACCAGCAC AATCTCCCCT
CTGCAGTCCC CACACAAAGG CCTCCCGCCG CGGCCGCCGC TGCACAACCG GCCGCCCCCG
CCGCAGTCGC TGGAGGGCCT CCGCCAGATG CACTTCCACC GCAGCGACTA CGACAAGTCC
CCCATCAAGC CCAAGATGTG GAGCGAGTCA TCCCTGGATG AGCCCTACGA GAAGGTCAAG
AAGCGCTCCT CGCACAGCCA TTCCAGCAGT CACAAGCGGT TCCCCAGCAC CGGGAGCTGT
GCCGAGGCAG GAGGGAGCAG CTCGCTGCAG AACAGCCCCA TCAGGAGCCT TCCCCACTGG
AATTCCCAGT CCAGCATGCC GTCGACGCCG GATCTACGGG TACGCAGTCC GCACTACGTC
CACTCCACGC GGTCAGTAGA TATCAGTCCA ACCAGACTGC ACAGCTTAGC TCAGCACTTT
AGACACCGGA GCTCCAGTTT GGAGTCACAA GGAAAGCTCC TCGGCTCAGA AAATGAGACA
GGGAGCCCTG ATTTCTACAC CCCAAGGACT CGTAGCAGTA ATGGCTCTGA CCCCATGGAC
GACTGCTCTT CCTGCACCAG CCATTCCAGC TCGGAGCACT ACTACCCTGC TCAGATGAAC
CCCAACTACT CCACCCTGGC AGAGGATTCC CCATCGAAAG CCAGAGAACG GCAGAGGCAA
AGGCACAAAT CAGCAGGCAA CCTGGTCTCT TCCAATTCAG GGAGCATGCC CAACCTGGCT
GCGAGGAACG GGACGGGACA CCACCGTGTC TACCTGCACA GCCAGAGCCA GCCCTCCTCC
CAGTACAGGA TCAAAGAATA TCCCCTGTAC ATCGAGGGCA GCTCCACACC CGTGGTGGTG
CGGAGCCTGG AGAACGACCA GGAGGGACAC TACAGCGTGA AAGCACAATT CAAAACCTCC
AACTCCTACA CAGCGGGGGG AATGTTTAAG GAGAACTGGC ACGGGGATGA AGTGGACTCG
GTCAGGCTCA CCCCATCCCG CTCCCAGATC ATAAGGACTC CATCTCTGGG CAGGGAGGGC
CACGAGAAGG GCTCGGGCAG GACTGCGGTG TCGGACGAGC TGCGGCTCTG GTACCAGCGG
TCCACGGCCT CCCACAAGGA GCACAGCCGC CTCTCGCACA CGAGCTCCAC CTCCTCGGAC
AGCAGCTCCC AGTACAGCAC ATCTTCTCAA AGCACCTTTG TGGCACACAG CCGGGTCACG
AGAATGCCTC AGATGTGTAA AGCAACATCA GCTGCCTTAC CTCACAGCCA GAGGAGCTCC
ACGCCGTCCA GCGAGCTCGC AGCCACGCCG CCGGGCAGCC CCCACCACAT TCTCACGTGG
CAGACTGGAG AAGCAACAGA CAACTCACCC ACTATGGATG AGTCTCAGTC TCCAACCCAC
CAAAGTACTG ATGAATAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030146658.1 CDS 599..3736 Translation
Target ORF information:
RefSeq Version XM_030290798.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata FERM domain containing 4A (FRMD4A), transcript variant X5, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030290798.1
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
3121ATGGTAGTAC AGACAGCTGT GACTCCGGGT AGGACCCGAA GACTTTTATT CAAAATACCA
TATGGATCAC TGAGGAGACG CAGTGTGGAA AGGATGACAG AGGGTCGCAG ATGCCAAGTG
CACCTCCTTG ATGACAGGAA GCTGGAGCTC CTTGTTCAGC CAAAGCTTTT GGCCAAGGAG
CTGCTTGACT TGGTGGCATC TCATTTCAAC CTGAAGGAGA AGGAGTACTT TGGAATTGCA
TTCACAGATG AAACGGGACA CTTGAACTGG CTTCAGCTGG ACCGCCGGGT GCTGGAACAT
GACTTCCCCA AAAAGTCAGG ACCAGTTGTT TTGTACTTTT GTGTCAGGTT CTACATTGAA
AGCATCTCCT ATCTGAAGGA CAATGCCACC ATCGAGCTGT TTTTCTTGAA CGCCAAGTCC
TGCATTTACA AGGAACTCAT TGAGGTTGAC AGTGAAGTGG TGTTTGAACT GGCTGCATAC
ATCTTGCAGG AGGCAAAGGG AGATTTTTCA AGCAATGAAG TTGTAAGGAA TGAATTAAAG
AAGCTGCCAG CCCTTCCAAC ACCAGCGCTG AAGGAGCATC CTTCCCTCGC TTACTGTGAG
GATCGAGTCA TTGAACACTA CAAGAAACTA AATGGTCAGA CAAGAGGTCA AGCAATTGTG
AATTACATGA GCATTGTAGA ATCCCTCCCG ACATATGGAG TGCATTATTA TGCAGTAAAG
GACAAGCAGG GAATTCCATG GTGGTTAGGA CTTAGCTACA AGGGGATTTT TCAATATGAC
TACCATGACA AAGTGAAACC AAGAAAGATC TTTCAATGGA GGCAGCTGGA GAACCTCTAT
TTCCGCGAGA AGAAGTTCTC GGTGGAGGTG CACGATCCGC GCAGGGCATC TGTGACCAGA
AGGACTTTTG GGCATAGTGG CATTGCTGTG CATACGTGGT ACGCCTGTCC AGCATTAATA
AAGTCTATCT GGGCTATGGC CATTAGTCAG CATCAGTTCT ACCTGGACAG GAAGCAAAGC
AAGTCCAAGA TTCATGCTGC AAGAAGCCTG AGTGAGATTG CAATTGACCT GACTGAAACT
GGAACCCTCA AGACCTCAAA GCTGGCCAAC ATGGGGAGTA AAGGCAAAAT TATCAGTGGA
AGCAGCGGGA GTCTTCTGTC ATCAGGTTCC CAAGAGTCAG ACAGTTCTCA GTCTGCCAAG
AAAGACATGC TGGCTGCGCT GAAGTCCAGG CAAGAAGCTT TGGAAGAGAC GCTGCGCCAG
CGCTTGGAAG AGCTGAAGAA GCTGTGCCTG CGGGAAGCGG AGCTCACAGG AAAGCTGCCA
CGAGAATACC CCCTGGATCC TGGGGAGGAG CCGCCTATTG TAAGGAGAAG AATAGGAACT
GCCTTTAAAC TGGATGAGCA GAAAATCCTG CCTAAGGGAG AGGAGGCAGA GCTGGAGCGT
CTGGAGAGGG AATTTGCCAT TCAGTCCCAG ATCACGGAGG CTGCGCGGCG CCTGGCCAGC
GACCCGAACG TCAGCAAAAA GCTGAAGAAG CAGAGGAAAA CCTCCTACCT GAATGCCCTG
AAGAAACTGC AGGAGATCGA GAACGCCATC AATGAGTATC GCATCAAATC CGGGAAGAAG
CCAACGCAGA GAGCCTCCCT GATCATAGAT GAAGGAAACA TTGCCAGTGA AGACAGCTCC
CTCTCAGATG CCCTTGTTCT TGAGGATGAG GACTCTCAGG TCACCAGCAC AATCTCCCCT
CTGCAGTCCC CACACAAAGG CCTCCCGCCG CGGCCGCCGC TGCACAACCG GCCGCCCCCG
CCGCAGTCGC TGGAGGGCCT CCGCCAGATG CACTTCCACC GCAGCGACTA CGACAAGTCC
CCCATCAAGC CCAAGATGTG GAGCGAGTCA TCCCTGGATG AGCCCTACGA GAAGGTCAAG
AAGCGCTCCT CGCACAGCCA TTCCAGCAGT CACAAGCGGT TCCCCAGCAC CGGGAGCTGT
GCCGAGGCAG GAGGGAGCAG CTCGCTGCAG AACAGCCCCA TCAGGAGCCT TCCCCACTGG
AATTCCCAGT CCAGCATGCC GTCGACGCCG GATCTACGGG TACGCAGTCC GCACTACGTC
CACTCCACGC GGTCAGTAGA TATCAGTCCA ACCAGACTGC ACAGCTTAGC TCAGCACTTT
AGACACCGGA GCTCCAGTTT GGAGTCACAA GGAAAGCTCC TCGGCTCAGA AAATGAGACA
GGGAGCCCTG ATTTCTACAC CCCAAGGACT CGTAGCAGTA ATGGCTCTGA CCCCATGGAC
GACTGCTCTT CCTGCACCAG CCATTCCAGC TCGGAGCACT ACTACCCTGC TCAGATGAAC
CCCAACTACT CCACCCTGGC AGAGGATTCC CCATCGAAAG CCAGAGAACG GCAGAGGCAA
AGGCACAAAT CAGCAGGCAA CCTGGTCTCT TCCAATTCAG GGAGCATGCC CAACCTGGCT
GCGAGGAACG GGACGGGACA CCACCGTGTC TACCTGCACA GCCAGAGCCA GCCCTCCTCC
CAGTACAGGA TCAAAGAATA TCCCCTGTAC ATCGAGGGCA GCTCCACACC CGTGGTGGTG
CGGAGCCTGG AGAACGACCA GGAGGGACAC TACAGCGTGA AAGCACAATT CAAAACCTCC
AACTCCTACA CAGCGGGGGG AATGTTTAAG GAGAACTGGC ACGGGGATGA AGTGGACTCG
GTCAGGCTCA CCCCATCCCG CTCCCAGATC ATAAGGACTC CATCTCTGGG CAGGGAGGGC
CACGAGAAGG GCTCGGGCAG GACTGCGGTG TCGGACGAGC TGCGGCTCTG GTACCAGCGG
TCCACGGCCT CCCACAAGGA GCACAGCCGC CTCTCGCACA CGAGCTCCAC CTCCTCGGAC
AGCAGCTCCC AGTACAGCAC ATCTTCTCAA AGCACCTTTG TGGCACACAG CCGGGTCACG
AGAATGCCTC AGATGTGTAA AGCAACATCA GCTGCCTTAC CTCACAGCCA GAGGAGCTCC
ACGCCGTCCA GCGAGCTCGC AGCCACGCCG CCGGGCAGCC CCCACCACAT TCTCACGTGG
CAGACTGGAG AAGCAACAGA CAACTCACCC ACTATGGATG AGTCTCAGTC TCCAACCCAC
CAAAGTACTG ATGAATAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd32462 Clone ID Related Accession (Same CDS sequence) XM_030290830.1 , XM_030290814.1 , XM_030290804.1 , XM_030290823.1 Accession Version XM_030290830.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3123bp)
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 FERM domain-containing protein 4A isoform X6 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044212.1) 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
3121ATGGCTGTGC AGCGTGCTCC CGAATCTGCT CTGAGCTTGC TGATGATGAC AGAGGGTCGC
AGATGCCAAG TGCACCTCCT TGATGACAGG AAGCTGGAGC TCCTTGTTCA GCCAAAGCTT
TTGGCCAAGG AGCTGCTTGA CTTGGTGGCA TCTCATTTCA ACCTGAAGGA GAAGGAGTAC
TTTGGAATTG CATTCACAGA TGAAACGGGA CACTTGAACT GGCTTCAGCT GGACCGCCGG
GTGCTGGAAC ATGACTTCCC CAAAAAGTCA GGACCAGTTG TTTTGTACTT TTGTGTCAGG
TTCTACATTG AAAGCATCTC CTATCTGAAG GACAATGCCA CCATCGAGCT GTTTTTCTTG
AACGCCAAGT CCTGCATTTA CAAGGAACTC ATTGAGGTTG ACAGTGAAGT GGTGTTTGAA
CTGGCTGCAT ACATCTTGCA GGAGGCAAAG GGAGATTTTT CAAGCAATGA AGTTGTAAGG
AATGAATTAA AGAAGCTGCC AGCCCTTCCA ACACCAGCGC TGAAGGAGCA TCCTTCCCTC
GCTTACTGTG AGGATCGAGT CATTGAACAC TACAAGAAAC TAAATGGTCA GACAAGAGGT
CAAGCAATTG TGAATTACAT GAGCATTGTA GAATCCCTCC CGACATATGG AGTGCATTAT
TATGCAGTAA AGGACAAGCA GGGAATTCCA TGGTGGTTAG GACTTAGCTA CAAGGGGATT
TTTCAATATG ACTACCATGA CAAAGTGAAA CCAAGAAAGA TCTTTCAATG GAGGCAGCTG
GAGAACCTCT ATTTCCGCGA GAAGAAGTTC TCGGTGGAGG TGCACGATCC GCGCAGGGCA
TCTGTGACCA GAAGGACTTT TGGGCATAGT GGCATTGCTG TGCATACGTG GTACGCCTGT
CCAGCATTAA TAAAGTCTAT CTGGGCTATG GCCATTAGTC AGCATCAGTT CTACCTGGAC
AGGAAGCAAA GCAAGTCCAA GATTCATGCT GCAAGAAGCC TGAGTGAGAT TGCAATTGAC
CTGACTGAAA CTGGAACCCT CAAGACCTCA AAGCTGGCCA ACATGGGGAG TAAAGGCAAA
ATTATCAGTG GAAGCAGCGG GAGTCTTCTG TCATCAGGTT CCCAAGAGTC AGACAGTTCT
CAGTCTGCCA AGAAAGACAT GCTGGCTGCG CTGAAGTCCA GGCAAGAAGC TTTGGAAGAG
ACGCTGCGCC AGCGCTTGGA AGAGCTGAAG AAGCTGTGCC TGCGGGAAGC GGAGCTCACA
GGAAAGCTGC CACGAGAATA CCCCCTGGAT CCTGGGGAGG AGCCGCCTAT TGTAAGGAGA
AGAATAGGAA CTGCCTTTAA ACTGGATGAG CAGAAAATCC TGCCTAAGGG AGAGGAGGCA
GAGCTGGAGC GTCTGGAGAG GGAATTTGCC ATTCAGTCCC AGATCACGGA GGCTGCGCGG
CGCCTGGCCA GCGACCCGAA CGTCAGCAAA AAGCTGAAGA AGCAGAGGAA AACCTCCTAC
CTGAATGCCC TGAAGAAACT GCAGGAGATC GAGAACGCCA TCAATGAGTA TCGCATCAAA
TCCGGGAAGA AGCCAACGCA GAGAGCCTCC CTGATCATAG ATGAAGGAAA CATTGCCAGT
GAAGACAGCT CCCTCTCAGA TGCCCTTGTT CTTGAGGATG AGGACTCTCA GGTCACCAGC
ACAATCTCCC CTCTGCAGTC CCCACACAAA GGCCTCCCGC CGCGGCCGCC GCTGCACAAC
CGGCCGCCCC CGCCGCAGTC GCTGGAGGGC CTCCGCCAGA TGCACTTCCA CCGCAGCGAC
TACGACAAGT CCCCCATCAA GCCCAAGATG TGGAGCGAGT CATCCCTGGA TGAGCCCTAC
GAGAAGGTCA AGAAGCGCTC CTCGCACAGC CATTCCAGCA GTCACAAGCG GTTCCCCAGC
ACCGGGAGCT GTGCCGAGGC AGGAGGGAGC AGCTCGCTGC AGAACAGCCC CATCAGGAGC
CTTCCCCACT GGAATTCCCA GTCCAGCATG CCGTCGACGC CGGATCTACG GGTACGCAGT
CCGCACTACG TCCACTCCAC GCGGTCAGTA GATATCAGTC CAACCAGACT GCACAGCTTA
GCTCAGCACT TTAGACACCG GAGCTCCAGT TTGGAGTCAC AAGGAAAGCT CCTCGGCTCA
GAAAATGAGA CAGGGAGCCC TGATTTCTAC ACCCCAAGGA CTCGTAGCAG TAATGGCTCT
GACCCCATGG ACGACTGCTC TTCCTGCACC AGCCATTCCA GCTCGGAGCA CTACTACCCT
GCTCAGATGA ACCCCAACTA CTCCACCCTG GCAGAGGATT CCCCATCGAA AGCCAGAGAA
CGGCAGAGGC AAAGGCACAA ATCAGCAGGC AACCTGGTCT CTTCCAATTC AGGGAGCATG
CCCAACCTGG CTGCGAGGAA CGGGACGGGA CACCACCGTG TCTACCTGCA CAGCCAGAGC
CAGCCCTCCT CCCAGTACAG GATCAAAGAA TATCCCCTGT ACATCGAGGG CAGCTCCACA
CCCGTGGTGG TGCGGAGCCT GGAGAACGAC CAGGAGGGAC ACTACAGCGT GAAAGCACAA
TTCAAAACCT CCAACTCCTA CACAGCGGGG GGAATGTTTA AGGAGAACTG GCACGGGGAT
GAAGTGGACT CGGTCAGGCT CACCCCATCC CGCTCCCAGA TCATAAGGAC TCCATCTCTG
GGCAGGGAGG GCCACGAGAA GGGCTCGGGC AGGACTGCGG TGTCGGACGA GCTGCGGCTC
TGGTACCAGC GGTCCACGGC CTCCCACAAG GAGCACAGCC GCCTCTCGCA CACGAGCTCC
ACCTCCTCGG ACAGCAGCTC CCAGTACAGC ACATCTTCTC AAAGCACCTT TGTGGCACAC
AGCCGGGTCA CGAGAATGCC TCAGATGTGT AAAGCAACAT CAGCTGCCTT ACCTCACAGC
CAGAGGAGCT CCACGCCGTC CAGCGAGCTC GCAGCCACGC CGCCGGGCAG CCCCCACCAC
ATTCTCACGT GGCAGACTGG GAACTACAAT GATAGCTGTT TCCTGGACTC TCCCCTCTAT
CCAGAATTAG CAGATGTCCA GTGGTATGGG CAGGAAAAAG CCAAGCCTGG AACTCTAGTG
TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030146690.1 CDS 142..3264 Translation
Target ORF information:
RefSeq Version XM_030290830.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata FERM domain containing 4A (FRMD4A), transcript variant X9, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030290830.1
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
3121ATGGCTGTGC AGCGTGCTCC CGAATCTGCT CTGAGCTTGC TGATGATGAC AGAGGGTCGC
AGATGCCAAG TGCACCTCCT TGATGACAGG AAGCTGGAGC TCCTTGTTCA GCCAAAGCTT
TTGGCCAAGG AGCTGCTTGA CTTGGTGGCA TCTCATTTCA ACCTGAAGGA GAAGGAGTAC
TTTGGAATTG CATTCACAGA TGAAACGGGA CACTTGAACT GGCTTCAGCT GGACCGCCGG
GTGCTGGAAC ATGACTTCCC CAAAAAGTCA GGACCAGTTG TTTTGTACTT TTGTGTCAGG
TTCTACATTG AAAGCATCTC CTATCTGAAG GACAATGCCA CCATCGAGCT GTTTTTCTTG
AACGCCAAGT CCTGCATTTA CAAGGAACTC ATTGAGGTTG ACAGTGAAGT GGTGTTTGAA
CTGGCTGCAT ACATCTTGCA GGAGGCAAAG GGAGATTTTT CAAGCAATGA AGTTGTAAGG
AATGAATTAA AGAAGCTGCC AGCCCTTCCA ACACCAGCGC TGAAGGAGCA TCCTTCCCTC
GCTTACTGTG AGGATCGAGT CATTGAACAC TACAAGAAAC TAAATGGTCA GACAAGAGGT
CAAGCAATTG TGAATTACAT GAGCATTGTA GAATCCCTCC CGACATATGG AGTGCATTAT
TATGCAGTAA AGGACAAGCA GGGAATTCCA TGGTGGTTAG GACTTAGCTA CAAGGGGATT
TTTCAATATG ACTACCATGA CAAAGTGAAA CCAAGAAAGA TCTTTCAATG GAGGCAGCTG
GAGAACCTCT ATTTCCGCGA GAAGAAGTTC TCGGTGGAGG TGCACGATCC GCGCAGGGCA
TCTGTGACCA GAAGGACTTT TGGGCATAGT GGCATTGCTG TGCATACGTG GTACGCCTGT
CCAGCATTAA TAAAGTCTAT CTGGGCTATG GCCATTAGTC AGCATCAGTT CTACCTGGAC
AGGAAGCAAA GCAAGTCCAA GATTCATGCT GCAAGAAGCC TGAGTGAGAT TGCAATTGAC
CTGACTGAAA CTGGAACCCT CAAGACCTCA AAGCTGGCCA ACATGGGGAG TAAAGGCAAA
ATTATCAGTG GAAGCAGCGG GAGTCTTCTG TCATCAGGTT CCCAAGAGTC AGACAGTTCT
CAGTCTGCCA AGAAAGACAT GCTGGCTGCG CTGAAGTCCA GGCAAGAAGC TTTGGAAGAG
ACGCTGCGCC AGCGCTTGGA AGAGCTGAAG AAGCTGTGCC TGCGGGAAGC GGAGCTCACA
GGAAAGCTGC CACGAGAATA CCCCCTGGAT CCTGGGGAGG AGCCGCCTAT TGTAAGGAGA
AGAATAGGAA CTGCCTTTAA ACTGGATGAG CAGAAAATCC TGCCTAAGGG AGAGGAGGCA
GAGCTGGAGC GTCTGGAGAG GGAATTTGCC ATTCAGTCCC AGATCACGGA GGCTGCGCGG
CGCCTGGCCA GCGACCCGAA CGTCAGCAAA AAGCTGAAGA AGCAGAGGAA AACCTCCTAC
CTGAATGCCC TGAAGAAACT GCAGGAGATC GAGAACGCCA TCAATGAGTA TCGCATCAAA
TCCGGGAAGA AGCCAACGCA GAGAGCCTCC CTGATCATAG ATGAAGGAAA CATTGCCAGT
GAAGACAGCT CCCTCTCAGA TGCCCTTGTT CTTGAGGATG AGGACTCTCA GGTCACCAGC
ACAATCTCCC CTCTGCAGTC CCCACACAAA GGCCTCCCGC CGCGGCCGCC GCTGCACAAC
CGGCCGCCCC CGCCGCAGTC GCTGGAGGGC CTCCGCCAGA TGCACTTCCA CCGCAGCGAC
TACGACAAGT CCCCCATCAA GCCCAAGATG TGGAGCGAGT CATCCCTGGA TGAGCCCTAC
GAGAAGGTCA AGAAGCGCTC CTCGCACAGC CATTCCAGCA GTCACAAGCG GTTCCCCAGC
ACCGGGAGCT GTGCCGAGGC AGGAGGGAGC AGCTCGCTGC AGAACAGCCC CATCAGGAGC
CTTCCCCACT GGAATTCCCA GTCCAGCATG CCGTCGACGC CGGATCTACG GGTACGCAGT
CCGCACTACG TCCACTCCAC GCGGTCAGTA GATATCAGTC CAACCAGACT GCACAGCTTA
GCTCAGCACT TTAGACACCG GAGCTCCAGT TTGGAGTCAC AAGGAAAGCT CCTCGGCTCA
GAAAATGAGA CAGGGAGCCC TGATTTCTAC ACCCCAAGGA CTCGTAGCAG TAATGGCTCT
GACCCCATGG ACGACTGCTC TTCCTGCACC AGCCATTCCA GCTCGGAGCA CTACTACCCT
GCTCAGATGA ACCCCAACTA CTCCACCCTG GCAGAGGATT CCCCATCGAA AGCCAGAGAA
CGGCAGAGGC AAAGGCACAA ATCAGCAGGC AACCTGGTCT CTTCCAATTC AGGGAGCATG
CCCAACCTGG CTGCGAGGAA CGGGACGGGA CACCACCGTG TCTACCTGCA CAGCCAGAGC
CAGCCCTCCT CCCAGTACAG GATCAAAGAA TATCCCCTGT ACATCGAGGG CAGCTCCACA
CCCGTGGTGG TGCGGAGCCT GGAGAACGAC CAGGAGGGAC ACTACAGCGT GAAAGCACAA
TTCAAAACCT CCAACTCCTA CACAGCGGGG GGAATGTTTA AGGAGAACTG GCACGGGGAT
GAAGTGGACT CGGTCAGGCT CACCCCATCC CGCTCCCAGA TCATAAGGAC TCCATCTCTG
GGCAGGGAGG GCCACGAGAA GGGCTCGGGC AGGACTGCGG TGTCGGACGA GCTGCGGCTC
TGGTACCAGC GGTCCACGGC CTCCCACAAG GAGCACAGCC GCCTCTCGCA CACGAGCTCC
ACCTCCTCGG ACAGCAGCTC CCAGTACAGC ACATCTTCTC AAAGCACCTT TGTGGCACAC
AGCCGGGTCA CGAGAATGCC TCAGATGTGT AAAGCAACAT CAGCTGCCTT ACCTCACAGC
CAGAGGAGCT CCACGCCGTC CAGCGAGCTC GCAGCCACGC CGCCGGGCAG CCCCCACCAC
ATTCTCACGT GGCAGACTGG GAACTACAAT GATAGCTGTT TCCTGGACTC TCCCCTCTAT
CCAGAATTAG CAGATGTCCA GTGGTATGGG CAGGAAAAAG CCAAGCCTGG AACTCTAGTG
TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd32462 Clone ID Related Accession (Same CDS sequence) XM_030290830.1 , XM_030290814.1 , XM_030290804.1 , XM_030290823.1 Accession Version XM_030290814.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3123bp)
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 FERM domain-containing protein 4A isoform X6 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044212.1) 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
3121ATGGCTGTGC AGCGTGCTCC CGAATCTGCT CTGAGCTTGC TGATGATGAC AGAGGGTCGC
AGATGCCAAG TGCACCTCCT TGATGACAGG AAGCTGGAGC TCCTTGTTCA GCCAAAGCTT
TTGGCCAAGG AGCTGCTTGA CTTGGTGGCA TCTCATTTCA ACCTGAAGGA GAAGGAGTAC
TTTGGAATTG CATTCACAGA TGAAACGGGA CACTTGAACT GGCTTCAGCT GGACCGCCGG
GTGCTGGAAC ATGACTTCCC CAAAAAGTCA GGACCAGTTG TTTTGTACTT TTGTGTCAGG
TTCTACATTG AAAGCATCTC CTATCTGAAG GACAATGCCA CCATCGAGCT GTTTTTCTTG
AACGCCAAGT CCTGCATTTA CAAGGAACTC ATTGAGGTTG ACAGTGAAGT GGTGTTTGAA
CTGGCTGCAT ACATCTTGCA GGAGGCAAAG GGAGATTTTT CAAGCAATGA AGTTGTAAGG
AATGAATTAA AGAAGCTGCC AGCCCTTCCA ACACCAGCGC TGAAGGAGCA TCCTTCCCTC
GCTTACTGTG AGGATCGAGT CATTGAACAC TACAAGAAAC TAAATGGTCA GACAAGAGGT
CAAGCAATTG TGAATTACAT GAGCATTGTA GAATCCCTCC CGACATATGG AGTGCATTAT
TATGCAGTAA AGGACAAGCA GGGAATTCCA TGGTGGTTAG GACTTAGCTA CAAGGGGATT
TTTCAATATG ACTACCATGA CAAAGTGAAA CCAAGAAAGA TCTTTCAATG GAGGCAGCTG
GAGAACCTCT ATTTCCGCGA GAAGAAGTTC TCGGTGGAGG TGCACGATCC GCGCAGGGCA
TCTGTGACCA GAAGGACTTT TGGGCATAGT GGCATTGCTG TGCATACGTG GTACGCCTGT
CCAGCATTAA TAAAGTCTAT CTGGGCTATG GCCATTAGTC AGCATCAGTT CTACCTGGAC
AGGAAGCAAA GCAAGTCCAA GATTCATGCT GCAAGAAGCC TGAGTGAGAT TGCAATTGAC
CTGACTGAAA CTGGAACCCT CAAGACCTCA AAGCTGGCCA ACATGGGGAG TAAAGGCAAA
ATTATCAGTG GAAGCAGCGG GAGTCTTCTG TCATCAGGTT CCCAAGAGTC AGACAGTTCT
CAGTCTGCCA AGAAAGACAT GCTGGCTGCG CTGAAGTCCA GGCAAGAAGC TTTGGAAGAG
ACGCTGCGCC AGCGCTTGGA AGAGCTGAAG AAGCTGTGCC TGCGGGAAGC GGAGCTCACA
GGAAAGCTGC CACGAGAATA CCCCCTGGAT CCTGGGGAGG AGCCGCCTAT TGTAAGGAGA
AGAATAGGAA CTGCCTTTAA ACTGGATGAG CAGAAAATCC TGCCTAAGGG AGAGGAGGCA
GAGCTGGAGC GTCTGGAGAG GGAATTTGCC ATTCAGTCCC AGATCACGGA GGCTGCGCGG
CGCCTGGCCA GCGACCCGAA CGTCAGCAAA AAGCTGAAGA AGCAGAGGAA AACCTCCTAC
CTGAATGCCC TGAAGAAACT GCAGGAGATC GAGAACGCCA TCAATGAGTA TCGCATCAAA
TCCGGGAAGA AGCCAACGCA GAGAGCCTCC CTGATCATAG ATGAAGGAAA CATTGCCAGT
GAAGACAGCT CCCTCTCAGA TGCCCTTGTT CTTGAGGATG AGGACTCTCA GGTCACCAGC
ACAATCTCCC CTCTGCAGTC CCCACACAAA GGCCTCCCGC CGCGGCCGCC GCTGCACAAC
CGGCCGCCCC CGCCGCAGTC GCTGGAGGGC CTCCGCCAGA TGCACTTCCA CCGCAGCGAC
TACGACAAGT CCCCCATCAA GCCCAAGATG TGGAGCGAGT CATCCCTGGA TGAGCCCTAC
GAGAAGGTCA AGAAGCGCTC CTCGCACAGC CATTCCAGCA GTCACAAGCG GTTCCCCAGC
ACCGGGAGCT GTGCCGAGGC AGGAGGGAGC AGCTCGCTGC AGAACAGCCC CATCAGGAGC
CTTCCCCACT GGAATTCCCA GTCCAGCATG CCGTCGACGC CGGATCTACG GGTACGCAGT
CCGCACTACG TCCACTCCAC GCGGTCAGTA GATATCAGTC CAACCAGACT GCACAGCTTA
GCTCAGCACT TTAGACACCG GAGCTCCAGT TTGGAGTCAC AAGGAAAGCT CCTCGGCTCA
GAAAATGAGA CAGGGAGCCC TGATTTCTAC ACCCCAAGGA CTCGTAGCAG TAATGGCTCT
GACCCCATGG ACGACTGCTC TTCCTGCACC AGCCATTCCA GCTCGGAGCA CTACTACCCT
GCTCAGATGA ACCCCAACTA CTCCACCCTG GCAGAGGATT CCCCATCGAA AGCCAGAGAA
CGGCAGAGGC AAAGGCACAA ATCAGCAGGC AACCTGGTCT CTTCCAATTC AGGGAGCATG
CCCAACCTGG CTGCGAGGAA CGGGACGGGA CACCACCGTG TCTACCTGCA CAGCCAGAGC
CAGCCCTCCT CCCAGTACAG GATCAAAGAA TATCCCCTGT ACATCGAGGG CAGCTCCACA
CCCGTGGTGG TGCGGAGCCT GGAGAACGAC CAGGAGGGAC ACTACAGCGT GAAAGCACAA
TTCAAAACCT CCAACTCCTA CACAGCGGGG GGAATGTTTA AGGAGAACTG GCACGGGGAT
GAAGTGGACT CGGTCAGGCT CACCCCATCC CGCTCCCAGA TCATAAGGAC TCCATCTCTG
GGCAGGGAGG GCCACGAGAA GGGCTCGGGC AGGACTGCGG TGTCGGACGA GCTGCGGCTC
TGGTACCAGC GGTCCACGGC CTCCCACAAG GAGCACAGCC GCCTCTCGCA CACGAGCTCC
ACCTCCTCGG ACAGCAGCTC CCAGTACAGC ACATCTTCTC AAAGCACCTT TGTGGCACAC
AGCCGGGTCA CGAGAATGCC TCAGATGTGT AAAGCAACAT CAGCTGCCTT ACCTCACAGC
CAGAGGAGCT CCACGCCGTC CAGCGAGCTC GCAGCCACGC CGCCGGGCAG CCCCCACCAC
ATTCTCACGT GGCAGACTGG GAACTACAAT GATAGCTGTT TCCTGGACTC TCCCCTCTAT
CCAGAATTAG CAGATGTCCA GTGGTATGGG CAGGAAAAAG CCAAGCCTGG AACTCTAGTG
TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030146674.1 CDS 240..3362 Translation
Target ORF information:
RefSeq Version XM_030290814.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata FERM domain containing 4A (FRMD4A), transcript variant X7, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030290814.1
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
3121ATGGCTGTGC AGCGTGCTCC CGAATCTGCT CTGAGCTTGC TGATGATGAC AGAGGGTCGC
AGATGCCAAG TGCACCTCCT TGATGACAGG AAGCTGGAGC TCCTTGTTCA GCCAAAGCTT
TTGGCCAAGG AGCTGCTTGA CTTGGTGGCA TCTCATTTCA ACCTGAAGGA GAAGGAGTAC
TTTGGAATTG CATTCACAGA TGAAACGGGA CACTTGAACT GGCTTCAGCT GGACCGCCGG
GTGCTGGAAC ATGACTTCCC CAAAAAGTCA GGACCAGTTG TTTTGTACTT TTGTGTCAGG
TTCTACATTG AAAGCATCTC CTATCTGAAG GACAATGCCA CCATCGAGCT GTTTTTCTTG
AACGCCAAGT CCTGCATTTA CAAGGAACTC ATTGAGGTTG ACAGTGAAGT GGTGTTTGAA
CTGGCTGCAT ACATCTTGCA GGAGGCAAAG GGAGATTTTT CAAGCAATGA AGTTGTAAGG
AATGAATTAA AGAAGCTGCC AGCCCTTCCA ACACCAGCGC TGAAGGAGCA TCCTTCCCTC
GCTTACTGTG AGGATCGAGT CATTGAACAC TACAAGAAAC TAAATGGTCA GACAAGAGGT
CAAGCAATTG TGAATTACAT GAGCATTGTA GAATCCCTCC CGACATATGG AGTGCATTAT
TATGCAGTAA AGGACAAGCA GGGAATTCCA TGGTGGTTAG GACTTAGCTA CAAGGGGATT
TTTCAATATG ACTACCATGA CAAAGTGAAA CCAAGAAAGA TCTTTCAATG GAGGCAGCTG
GAGAACCTCT ATTTCCGCGA GAAGAAGTTC TCGGTGGAGG TGCACGATCC GCGCAGGGCA
TCTGTGACCA GAAGGACTTT TGGGCATAGT GGCATTGCTG TGCATACGTG GTACGCCTGT
CCAGCATTAA TAAAGTCTAT CTGGGCTATG GCCATTAGTC AGCATCAGTT CTACCTGGAC
AGGAAGCAAA GCAAGTCCAA GATTCATGCT GCAAGAAGCC TGAGTGAGAT TGCAATTGAC
CTGACTGAAA CTGGAACCCT CAAGACCTCA AAGCTGGCCA ACATGGGGAG TAAAGGCAAA
ATTATCAGTG GAAGCAGCGG GAGTCTTCTG TCATCAGGTT CCCAAGAGTC AGACAGTTCT
CAGTCTGCCA AGAAAGACAT GCTGGCTGCG CTGAAGTCCA GGCAAGAAGC TTTGGAAGAG
ACGCTGCGCC AGCGCTTGGA AGAGCTGAAG AAGCTGTGCC TGCGGGAAGC GGAGCTCACA
GGAAAGCTGC CACGAGAATA CCCCCTGGAT CCTGGGGAGG AGCCGCCTAT TGTAAGGAGA
AGAATAGGAA CTGCCTTTAA ACTGGATGAG CAGAAAATCC TGCCTAAGGG AGAGGAGGCA
GAGCTGGAGC GTCTGGAGAG GGAATTTGCC ATTCAGTCCC AGATCACGGA GGCTGCGCGG
CGCCTGGCCA GCGACCCGAA CGTCAGCAAA AAGCTGAAGA AGCAGAGGAA AACCTCCTAC
CTGAATGCCC TGAAGAAACT GCAGGAGATC GAGAACGCCA TCAATGAGTA TCGCATCAAA
TCCGGGAAGA AGCCAACGCA GAGAGCCTCC CTGATCATAG ATGAAGGAAA CATTGCCAGT
GAAGACAGCT CCCTCTCAGA TGCCCTTGTT CTTGAGGATG AGGACTCTCA GGTCACCAGC
ACAATCTCCC CTCTGCAGTC CCCACACAAA GGCCTCCCGC CGCGGCCGCC GCTGCACAAC
CGGCCGCCCC CGCCGCAGTC GCTGGAGGGC CTCCGCCAGA TGCACTTCCA CCGCAGCGAC
TACGACAAGT CCCCCATCAA GCCCAAGATG TGGAGCGAGT CATCCCTGGA TGAGCCCTAC
GAGAAGGTCA AGAAGCGCTC CTCGCACAGC CATTCCAGCA GTCACAAGCG GTTCCCCAGC
ACCGGGAGCT GTGCCGAGGC AGGAGGGAGC AGCTCGCTGC AGAACAGCCC CATCAGGAGC
CTTCCCCACT GGAATTCCCA GTCCAGCATG CCGTCGACGC CGGATCTACG GGTACGCAGT
CCGCACTACG TCCACTCCAC GCGGTCAGTA GATATCAGTC CAACCAGACT GCACAGCTTA
GCTCAGCACT TTAGACACCG GAGCTCCAGT TTGGAGTCAC AAGGAAAGCT CCTCGGCTCA
GAAAATGAGA CAGGGAGCCC TGATTTCTAC ACCCCAAGGA CTCGTAGCAG TAATGGCTCT
GACCCCATGG ACGACTGCTC TTCCTGCACC AGCCATTCCA GCTCGGAGCA CTACTACCCT
GCTCAGATGA ACCCCAACTA CTCCACCCTG GCAGAGGATT CCCCATCGAA AGCCAGAGAA
CGGCAGAGGC AAAGGCACAA ATCAGCAGGC AACCTGGTCT CTTCCAATTC AGGGAGCATG
CCCAACCTGG CTGCGAGGAA CGGGACGGGA CACCACCGTG TCTACCTGCA CAGCCAGAGC
CAGCCCTCCT CCCAGTACAG GATCAAAGAA TATCCCCTGT ACATCGAGGG CAGCTCCACA
CCCGTGGTGG TGCGGAGCCT GGAGAACGAC CAGGAGGGAC ACTACAGCGT GAAAGCACAA
TTCAAAACCT CCAACTCCTA CACAGCGGGG GGAATGTTTA AGGAGAACTG GCACGGGGAT
GAAGTGGACT CGGTCAGGCT CACCCCATCC CGCTCCCAGA TCATAAGGAC TCCATCTCTG
GGCAGGGAGG GCCACGAGAA GGGCTCGGGC AGGACTGCGG TGTCGGACGA GCTGCGGCTC
TGGTACCAGC GGTCCACGGC CTCCCACAAG GAGCACAGCC GCCTCTCGCA CACGAGCTCC
ACCTCCTCGG ACAGCAGCTC CCAGTACAGC ACATCTTCTC AAAGCACCTT TGTGGCACAC
AGCCGGGTCA CGAGAATGCC TCAGATGTGT AAAGCAACAT CAGCTGCCTT ACCTCACAGC
CAGAGGAGCT CCACGCCGTC CAGCGAGCTC GCAGCCACGC CGCCGGGCAG CCCCCACCAC
ATTCTCACGT GGCAGACTGG GAACTACAAT GATAGCTGTT TCCTGGACTC TCCCCTCTAT
CCAGAATTAG CAGATGTCCA GTGGTATGGG CAGGAAAAAG CCAAGCCTGG AACTCTAGTG
TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd32462 Clone ID Related Accession (Same CDS sequence) XM_030290830.1 , XM_030290814.1 , XM_030290804.1 , XM_030290823.1 Accession Version XM_030290804.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3123bp)
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 FERM domain-containing protein 4A isoform X6 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044212.1) 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
3121ATGGCTGTGC AGCGTGCTCC CGAATCTGCT CTGAGCTTGC TGATGATGAC AGAGGGTCGC
AGATGCCAAG TGCACCTCCT TGATGACAGG AAGCTGGAGC TCCTTGTTCA GCCAAAGCTT
TTGGCCAAGG AGCTGCTTGA CTTGGTGGCA TCTCATTTCA ACCTGAAGGA GAAGGAGTAC
TTTGGAATTG CATTCACAGA TGAAACGGGA CACTTGAACT GGCTTCAGCT GGACCGCCGG
GTGCTGGAAC ATGACTTCCC CAAAAAGTCA GGACCAGTTG TTTTGTACTT TTGTGTCAGG
TTCTACATTG AAAGCATCTC CTATCTGAAG GACAATGCCA CCATCGAGCT GTTTTTCTTG
AACGCCAAGT CCTGCATTTA CAAGGAACTC ATTGAGGTTG ACAGTGAAGT GGTGTTTGAA
CTGGCTGCAT ACATCTTGCA GGAGGCAAAG GGAGATTTTT CAAGCAATGA AGTTGTAAGG
AATGAATTAA AGAAGCTGCC AGCCCTTCCA ACACCAGCGC TGAAGGAGCA TCCTTCCCTC
GCTTACTGTG AGGATCGAGT CATTGAACAC TACAAGAAAC TAAATGGTCA GACAAGAGGT
CAAGCAATTG TGAATTACAT GAGCATTGTA GAATCCCTCC CGACATATGG AGTGCATTAT
TATGCAGTAA AGGACAAGCA GGGAATTCCA TGGTGGTTAG GACTTAGCTA CAAGGGGATT
TTTCAATATG ACTACCATGA CAAAGTGAAA CCAAGAAAGA TCTTTCAATG GAGGCAGCTG
GAGAACCTCT ATTTCCGCGA GAAGAAGTTC TCGGTGGAGG TGCACGATCC GCGCAGGGCA
TCTGTGACCA GAAGGACTTT TGGGCATAGT GGCATTGCTG TGCATACGTG GTACGCCTGT
CCAGCATTAA TAAAGTCTAT CTGGGCTATG GCCATTAGTC AGCATCAGTT CTACCTGGAC
AGGAAGCAAA GCAAGTCCAA GATTCATGCT GCAAGAAGCC TGAGTGAGAT TGCAATTGAC
CTGACTGAAA CTGGAACCCT CAAGACCTCA AAGCTGGCCA ACATGGGGAG TAAAGGCAAA
ATTATCAGTG GAAGCAGCGG GAGTCTTCTG TCATCAGGTT CCCAAGAGTC AGACAGTTCT
CAGTCTGCCA AGAAAGACAT GCTGGCTGCG CTGAAGTCCA GGCAAGAAGC TTTGGAAGAG
ACGCTGCGCC AGCGCTTGGA AGAGCTGAAG AAGCTGTGCC TGCGGGAAGC GGAGCTCACA
GGAAAGCTGC CACGAGAATA CCCCCTGGAT CCTGGGGAGG AGCCGCCTAT TGTAAGGAGA
AGAATAGGAA CTGCCTTTAA ACTGGATGAG CAGAAAATCC TGCCTAAGGG AGAGGAGGCA
GAGCTGGAGC GTCTGGAGAG GGAATTTGCC ATTCAGTCCC AGATCACGGA GGCTGCGCGG
CGCCTGGCCA GCGACCCGAA CGTCAGCAAA AAGCTGAAGA AGCAGAGGAA AACCTCCTAC
CTGAATGCCC TGAAGAAACT GCAGGAGATC GAGAACGCCA TCAATGAGTA TCGCATCAAA
TCCGGGAAGA AGCCAACGCA GAGAGCCTCC CTGATCATAG ATGAAGGAAA CATTGCCAGT
GAAGACAGCT CCCTCTCAGA TGCCCTTGTT CTTGAGGATG AGGACTCTCA GGTCACCAGC
ACAATCTCCC CTCTGCAGTC CCCACACAAA GGCCTCCCGC CGCGGCCGCC GCTGCACAAC
CGGCCGCCCC CGCCGCAGTC GCTGGAGGGC CTCCGCCAGA TGCACTTCCA CCGCAGCGAC
TACGACAAGT CCCCCATCAA GCCCAAGATG TGGAGCGAGT CATCCCTGGA TGAGCCCTAC
GAGAAGGTCA AGAAGCGCTC CTCGCACAGC CATTCCAGCA GTCACAAGCG GTTCCCCAGC
ACCGGGAGCT GTGCCGAGGC AGGAGGGAGC AGCTCGCTGC AGAACAGCCC CATCAGGAGC
CTTCCCCACT GGAATTCCCA GTCCAGCATG CCGTCGACGC CGGATCTACG GGTACGCAGT
CCGCACTACG TCCACTCCAC GCGGTCAGTA GATATCAGTC CAACCAGACT GCACAGCTTA
GCTCAGCACT TTAGACACCG GAGCTCCAGT TTGGAGTCAC AAGGAAAGCT CCTCGGCTCA
GAAAATGAGA CAGGGAGCCC TGATTTCTAC ACCCCAAGGA CTCGTAGCAG TAATGGCTCT
GACCCCATGG ACGACTGCTC TTCCTGCACC AGCCATTCCA GCTCGGAGCA CTACTACCCT
GCTCAGATGA ACCCCAACTA CTCCACCCTG GCAGAGGATT CCCCATCGAA AGCCAGAGAA
CGGCAGAGGC AAAGGCACAA ATCAGCAGGC AACCTGGTCT CTTCCAATTC AGGGAGCATG
CCCAACCTGG CTGCGAGGAA CGGGACGGGA CACCACCGTG TCTACCTGCA CAGCCAGAGC
CAGCCCTCCT CCCAGTACAG GATCAAAGAA TATCCCCTGT ACATCGAGGG CAGCTCCACA
CCCGTGGTGG TGCGGAGCCT GGAGAACGAC CAGGAGGGAC ACTACAGCGT GAAAGCACAA
TTCAAAACCT CCAACTCCTA CACAGCGGGG GGAATGTTTA AGGAGAACTG GCACGGGGAT
GAAGTGGACT CGGTCAGGCT CACCCCATCC CGCTCCCAGA TCATAAGGAC TCCATCTCTG
GGCAGGGAGG GCCACGAGAA GGGCTCGGGC AGGACTGCGG TGTCGGACGA GCTGCGGCTC
TGGTACCAGC GGTCCACGGC CTCCCACAAG GAGCACAGCC GCCTCTCGCA CACGAGCTCC
ACCTCCTCGG ACAGCAGCTC CCAGTACAGC ACATCTTCTC AAAGCACCTT TGTGGCACAC
AGCCGGGTCA CGAGAATGCC TCAGATGTGT AAAGCAACAT CAGCTGCCTT ACCTCACAGC
CAGAGGAGCT CCACGCCGTC CAGCGAGCTC GCAGCCACGC CGCCGGGCAG CCCCCACCAC
ATTCTCACGT GGCAGACTGG GAACTACAAT GATAGCTGTT TCCTGGACTC TCCCCTCTAT
CCAGAATTAG CAGATGTCCA GTGGTATGGG CAGGAAAAAG CCAAGCCTGG AACTCTAGTG
TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030146664.1 CDS 324..3446 Translation
Target ORF information:
RefSeq Version XM_030290804.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata FERM domain containing 4A (FRMD4A), transcript variant X6, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030290804.1
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
3121ATGGCTGTGC AGCGTGCTCC CGAATCTGCT CTGAGCTTGC TGATGATGAC AGAGGGTCGC
AGATGCCAAG TGCACCTCCT TGATGACAGG AAGCTGGAGC TCCTTGTTCA GCCAAAGCTT
TTGGCCAAGG AGCTGCTTGA CTTGGTGGCA TCTCATTTCA ACCTGAAGGA GAAGGAGTAC
TTTGGAATTG CATTCACAGA TGAAACGGGA CACTTGAACT GGCTTCAGCT GGACCGCCGG
GTGCTGGAAC ATGACTTCCC CAAAAAGTCA GGACCAGTTG TTTTGTACTT TTGTGTCAGG
TTCTACATTG AAAGCATCTC CTATCTGAAG GACAATGCCA CCATCGAGCT GTTTTTCTTG
AACGCCAAGT CCTGCATTTA CAAGGAACTC ATTGAGGTTG ACAGTGAAGT GGTGTTTGAA
CTGGCTGCAT ACATCTTGCA GGAGGCAAAG GGAGATTTTT CAAGCAATGA AGTTGTAAGG
AATGAATTAA AGAAGCTGCC AGCCCTTCCA ACACCAGCGC TGAAGGAGCA TCCTTCCCTC
GCTTACTGTG AGGATCGAGT CATTGAACAC TACAAGAAAC TAAATGGTCA GACAAGAGGT
CAAGCAATTG TGAATTACAT GAGCATTGTA GAATCCCTCC CGACATATGG AGTGCATTAT
TATGCAGTAA AGGACAAGCA GGGAATTCCA TGGTGGTTAG GACTTAGCTA CAAGGGGATT
TTTCAATATG ACTACCATGA CAAAGTGAAA CCAAGAAAGA TCTTTCAATG GAGGCAGCTG
GAGAACCTCT ATTTCCGCGA GAAGAAGTTC TCGGTGGAGG TGCACGATCC GCGCAGGGCA
TCTGTGACCA GAAGGACTTT TGGGCATAGT GGCATTGCTG TGCATACGTG GTACGCCTGT
CCAGCATTAA TAAAGTCTAT CTGGGCTATG GCCATTAGTC AGCATCAGTT CTACCTGGAC
AGGAAGCAAA GCAAGTCCAA GATTCATGCT GCAAGAAGCC TGAGTGAGAT TGCAATTGAC
CTGACTGAAA CTGGAACCCT CAAGACCTCA AAGCTGGCCA ACATGGGGAG TAAAGGCAAA
ATTATCAGTG GAAGCAGCGG GAGTCTTCTG TCATCAGGTT CCCAAGAGTC AGACAGTTCT
CAGTCTGCCA AGAAAGACAT GCTGGCTGCG CTGAAGTCCA GGCAAGAAGC TTTGGAAGAG
ACGCTGCGCC AGCGCTTGGA AGAGCTGAAG AAGCTGTGCC TGCGGGAAGC GGAGCTCACA
GGAAAGCTGC CACGAGAATA CCCCCTGGAT CCTGGGGAGG AGCCGCCTAT TGTAAGGAGA
AGAATAGGAA CTGCCTTTAA ACTGGATGAG CAGAAAATCC TGCCTAAGGG AGAGGAGGCA
GAGCTGGAGC GTCTGGAGAG GGAATTTGCC ATTCAGTCCC AGATCACGGA GGCTGCGCGG
CGCCTGGCCA GCGACCCGAA CGTCAGCAAA AAGCTGAAGA AGCAGAGGAA AACCTCCTAC
CTGAATGCCC TGAAGAAACT GCAGGAGATC GAGAACGCCA TCAATGAGTA TCGCATCAAA
TCCGGGAAGA AGCCAACGCA GAGAGCCTCC CTGATCATAG ATGAAGGAAA CATTGCCAGT
GAAGACAGCT CCCTCTCAGA TGCCCTTGTT CTTGAGGATG AGGACTCTCA GGTCACCAGC
ACAATCTCCC CTCTGCAGTC CCCACACAAA GGCCTCCCGC CGCGGCCGCC GCTGCACAAC
CGGCCGCCCC CGCCGCAGTC GCTGGAGGGC CTCCGCCAGA TGCACTTCCA CCGCAGCGAC
TACGACAAGT CCCCCATCAA GCCCAAGATG TGGAGCGAGT CATCCCTGGA TGAGCCCTAC
GAGAAGGTCA AGAAGCGCTC CTCGCACAGC CATTCCAGCA GTCACAAGCG GTTCCCCAGC
ACCGGGAGCT GTGCCGAGGC AGGAGGGAGC AGCTCGCTGC AGAACAGCCC CATCAGGAGC
CTTCCCCACT GGAATTCCCA GTCCAGCATG CCGTCGACGC CGGATCTACG GGTACGCAGT
CCGCACTACG TCCACTCCAC GCGGTCAGTA GATATCAGTC CAACCAGACT GCACAGCTTA
GCTCAGCACT TTAGACACCG GAGCTCCAGT TTGGAGTCAC AAGGAAAGCT CCTCGGCTCA
GAAAATGAGA CAGGGAGCCC TGATTTCTAC ACCCCAAGGA CTCGTAGCAG TAATGGCTCT
GACCCCATGG ACGACTGCTC TTCCTGCACC AGCCATTCCA GCTCGGAGCA CTACTACCCT
GCTCAGATGA ACCCCAACTA CTCCACCCTG GCAGAGGATT CCCCATCGAA AGCCAGAGAA
CGGCAGAGGC AAAGGCACAA ATCAGCAGGC AACCTGGTCT CTTCCAATTC AGGGAGCATG
CCCAACCTGG CTGCGAGGAA CGGGACGGGA CACCACCGTG TCTACCTGCA CAGCCAGAGC
CAGCCCTCCT CCCAGTACAG GATCAAAGAA TATCCCCTGT ACATCGAGGG CAGCTCCACA
CCCGTGGTGG TGCGGAGCCT GGAGAACGAC CAGGAGGGAC ACTACAGCGT GAAAGCACAA
TTCAAAACCT CCAACTCCTA CACAGCGGGG GGAATGTTTA AGGAGAACTG GCACGGGGAT
GAAGTGGACT CGGTCAGGCT CACCCCATCC CGCTCCCAGA TCATAAGGAC TCCATCTCTG
GGCAGGGAGG GCCACGAGAA GGGCTCGGGC AGGACTGCGG TGTCGGACGA GCTGCGGCTC
TGGTACCAGC GGTCCACGGC CTCCCACAAG GAGCACAGCC GCCTCTCGCA CACGAGCTCC
ACCTCCTCGG ACAGCAGCTC CCAGTACAGC ACATCTTCTC AAAGCACCTT TGTGGCACAC
AGCCGGGTCA CGAGAATGCC TCAGATGTGT AAAGCAACAT CAGCTGCCTT ACCTCACAGC
CAGAGGAGCT CCACGCCGTC CAGCGAGCTC GCAGCCACGC CGCCGGGCAG CCCCCACCAC
ATTCTCACGT GGCAGACTGG GAACTACAAT GATAGCTGTT TCCTGGACTC TCCCCTCTAT
CCAGAATTAG CAGATGTCCA GTGGTATGGG CAGGAAAAAG CCAAGCCTGG AACTCTAGTG
TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd32462 Clone ID Related Accession (Same CDS sequence) XM_030290830.1 , XM_030290814.1 , XM_030290804.1 , XM_030290823.1 Accession Version XM_030290823.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3123bp)
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 FERM domain-containing protein 4A isoform X6 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044212.1) 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
3121ATGGCTGTGC AGCGTGCTCC CGAATCTGCT CTGAGCTTGC TGATGATGAC AGAGGGTCGC
AGATGCCAAG TGCACCTCCT TGATGACAGG AAGCTGGAGC TCCTTGTTCA GCCAAAGCTT
TTGGCCAAGG AGCTGCTTGA CTTGGTGGCA TCTCATTTCA ACCTGAAGGA GAAGGAGTAC
TTTGGAATTG CATTCACAGA TGAAACGGGA CACTTGAACT GGCTTCAGCT GGACCGCCGG
GTGCTGGAAC ATGACTTCCC CAAAAAGTCA GGACCAGTTG TTTTGTACTT TTGTGTCAGG
TTCTACATTG AAAGCATCTC CTATCTGAAG GACAATGCCA CCATCGAGCT GTTTTTCTTG
AACGCCAAGT CCTGCATTTA CAAGGAACTC ATTGAGGTTG ACAGTGAAGT GGTGTTTGAA
CTGGCTGCAT ACATCTTGCA GGAGGCAAAG GGAGATTTTT CAAGCAATGA AGTTGTAAGG
AATGAATTAA AGAAGCTGCC AGCCCTTCCA ACACCAGCGC TGAAGGAGCA TCCTTCCCTC
GCTTACTGTG AGGATCGAGT CATTGAACAC TACAAGAAAC TAAATGGTCA GACAAGAGGT
CAAGCAATTG TGAATTACAT GAGCATTGTA GAATCCCTCC CGACATATGG AGTGCATTAT
TATGCAGTAA AGGACAAGCA GGGAATTCCA TGGTGGTTAG GACTTAGCTA CAAGGGGATT
TTTCAATATG ACTACCATGA CAAAGTGAAA CCAAGAAAGA TCTTTCAATG GAGGCAGCTG
GAGAACCTCT ATTTCCGCGA GAAGAAGTTC TCGGTGGAGG TGCACGATCC GCGCAGGGCA
TCTGTGACCA GAAGGACTTT TGGGCATAGT GGCATTGCTG TGCATACGTG GTACGCCTGT
CCAGCATTAA TAAAGTCTAT CTGGGCTATG GCCATTAGTC AGCATCAGTT CTACCTGGAC
AGGAAGCAAA GCAAGTCCAA GATTCATGCT GCAAGAAGCC TGAGTGAGAT TGCAATTGAC
CTGACTGAAA CTGGAACCCT CAAGACCTCA AAGCTGGCCA ACATGGGGAG TAAAGGCAAA
ATTATCAGTG GAAGCAGCGG GAGTCTTCTG TCATCAGGTT CCCAAGAGTC AGACAGTTCT
CAGTCTGCCA AGAAAGACAT GCTGGCTGCG CTGAAGTCCA GGCAAGAAGC TTTGGAAGAG
ACGCTGCGCC AGCGCTTGGA AGAGCTGAAG AAGCTGTGCC TGCGGGAAGC GGAGCTCACA
GGAAAGCTGC CACGAGAATA CCCCCTGGAT CCTGGGGAGG AGCCGCCTAT TGTAAGGAGA
AGAATAGGAA CTGCCTTTAA ACTGGATGAG CAGAAAATCC TGCCTAAGGG AGAGGAGGCA
GAGCTGGAGC GTCTGGAGAG GGAATTTGCC ATTCAGTCCC AGATCACGGA GGCTGCGCGG
CGCCTGGCCA GCGACCCGAA CGTCAGCAAA AAGCTGAAGA AGCAGAGGAA AACCTCCTAC
CTGAATGCCC TGAAGAAACT GCAGGAGATC GAGAACGCCA TCAATGAGTA TCGCATCAAA
TCCGGGAAGA AGCCAACGCA GAGAGCCTCC CTGATCATAG ATGAAGGAAA CATTGCCAGT
GAAGACAGCT CCCTCTCAGA TGCCCTTGTT CTTGAGGATG AGGACTCTCA GGTCACCAGC
ACAATCTCCC CTCTGCAGTC CCCACACAAA GGCCTCCCGC CGCGGCCGCC GCTGCACAAC
CGGCCGCCCC CGCCGCAGTC GCTGGAGGGC CTCCGCCAGA TGCACTTCCA CCGCAGCGAC
TACGACAAGT CCCCCATCAA GCCCAAGATG TGGAGCGAGT CATCCCTGGA TGAGCCCTAC
GAGAAGGTCA AGAAGCGCTC CTCGCACAGC CATTCCAGCA GTCACAAGCG GTTCCCCAGC
ACCGGGAGCT GTGCCGAGGC AGGAGGGAGC AGCTCGCTGC AGAACAGCCC CATCAGGAGC
CTTCCCCACT GGAATTCCCA GTCCAGCATG CCGTCGACGC CGGATCTACG GGTACGCAGT
CCGCACTACG TCCACTCCAC GCGGTCAGTA GATATCAGTC CAACCAGACT GCACAGCTTA
GCTCAGCACT TTAGACACCG GAGCTCCAGT TTGGAGTCAC AAGGAAAGCT CCTCGGCTCA
GAAAATGAGA CAGGGAGCCC TGATTTCTAC ACCCCAAGGA CTCGTAGCAG TAATGGCTCT
GACCCCATGG ACGACTGCTC TTCCTGCACC AGCCATTCCA GCTCGGAGCA CTACTACCCT
GCTCAGATGA ACCCCAACTA CTCCACCCTG GCAGAGGATT CCCCATCGAA AGCCAGAGAA
CGGCAGAGGC AAAGGCACAA ATCAGCAGGC AACCTGGTCT CTTCCAATTC AGGGAGCATG
CCCAACCTGG CTGCGAGGAA CGGGACGGGA CACCACCGTG TCTACCTGCA CAGCCAGAGC
CAGCCCTCCT CCCAGTACAG GATCAAAGAA TATCCCCTGT ACATCGAGGG CAGCTCCACA
CCCGTGGTGG TGCGGAGCCT GGAGAACGAC CAGGAGGGAC ACTACAGCGT GAAAGCACAA
TTCAAAACCT CCAACTCCTA CACAGCGGGG GGAATGTTTA AGGAGAACTG GCACGGGGAT
GAAGTGGACT CGGTCAGGCT CACCCCATCC CGCTCCCAGA TCATAAGGAC TCCATCTCTG
GGCAGGGAGG GCCACGAGAA GGGCTCGGGC AGGACTGCGG TGTCGGACGA GCTGCGGCTC
TGGTACCAGC GGTCCACGGC CTCCCACAAG GAGCACAGCC GCCTCTCGCA CACGAGCTCC
ACCTCCTCGG ACAGCAGCTC CCAGTACAGC ACATCTTCTC AAAGCACCTT TGTGGCACAC
AGCCGGGTCA CGAGAATGCC TCAGATGTGT AAAGCAACAT CAGCTGCCTT ACCTCACAGC
CAGAGGAGCT CCACGCCGTC CAGCGAGCTC GCAGCCACGC CGCCGGGCAG CCCCCACCAC
ATTCTCACGT GGCAGACTGG GAACTACAAT GATAGCTGTT TCCTGGACTC TCCCCTCTAT
CCAGAATTAG CAGATGTCCA GTGGTATGGG CAGGAAAAAG CCAAGCCTGG AACTCTAGTG
TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030146683.1 CDS 195..3317 Translation
Target ORF information:
RefSeq Version XM_030290823.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata FERM domain containing 4A (FRMD4A), transcript variant X8, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030290823.1
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
3121ATGGCTGTGC AGCGTGCTCC CGAATCTGCT CTGAGCTTGC TGATGATGAC AGAGGGTCGC
AGATGCCAAG TGCACCTCCT TGATGACAGG AAGCTGGAGC TCCTTGTTCA GCCAAAGCTT
TTGGCCAAGG AGCTGCTTGA CTTGGTGGCA TCTCATTTCA ACCTGAAGGA GAAGGAGTAC
TTTGGAATTG CATTCACAGA TGAAACGGGA CACTTGAACT GGCTTCAGCT GGACCGCCGG
GTGCTGGAAC ATGACTTCCC CAAAAAGTCA GGACCAGTTG TTTTGTACTT TTGTGTCAGG
TTCTACATTG AAAGCATCTC CTATCTGAAG GACAATGCCA CCATCGAGCT GTTTTTCTTG
AACGCCAAGT CCTGCATTTA CAAGGAACTC ATTGAGGTTG ACAGTGAAGT GGTGTTTGAA
CTGGCTGCAT ACATCTTGCA GGAGGCAAAG GGAGATTTTT CAAGCAATGA AGTTGTAAGG
AATGAATTAA AGAAGCTGCC AGCCCTTCCA ACACCAGCGC TGAAGGAGCA TCCTTCCCTC
GCTTACTGTG AGGATCGAGT CATTGAACAC TACAAGAAAC TAAATGGTCA GACAAGAGGT
CAAGCAATTG TGAATTACAT GAGCATTGTA GAATCCCTCC CGACATATGG AGTGCATTAT
TATGCAGTAA AGGACAAGCA GGGAATTCCA TGGTGGTTAG GACTTAGCTA CAAGGGGATT
TTTCAATATG ACTACCATGA CAAAGTGAAA CCAAGAAAGA TCTTTCAATG GAGGCAGCTG
GAGAACCTCT ATTTCCGCGA GAAGAAGTTC TCGGTGGAGG TGCACGATCC GCGCAGGGCA
TCTGTGACCA GAAGGACTTT TGGGCATAGT GGCATTGCTG TGCATACGTG GTACGCCTGT
CCAGCATTAA TAAAGTCTAT CTGGGCTATG GCCATTAGTC AGCATCAGTT CTACCTGGAC
AGGAAGCAAA GCAAGTCCAA GATTCATGCT GCAAGAAGCC TGAGTGAGAT TGCAATTGAC
CTGACTGAAA CTGGAACCCT CAAGACCTCA AAGCTGGCCA ACATGGGGAG TAAAGGCAAA
ATTATCAGTG GAAGCAGCGG GAGTCTTCTG TCATCAGGTT CCCAAGAGTC AGACAGTTCT
CAGTCTGCCA AGAAAGACAT GCTGGCTGCG CTGAAGTCCA GGCAAGAAGC TTTGGAAGAG
ACGCTGCGCC AGCGCTTGGA AGAGCTGAAG AAGCTGTGCC TGCGGGAAGC GGAGCTCACA
GGAAAGCTGC CACGAGAATA CCCCCTGGAT CCTGGGGAGG AGCCGCCTAT TGTAAGGAGA
AGAATAGGAA CTGCCTTTAA ACTGGATGAG CAGAAAATCC TGCCTAAGGG AGAGGAGGCA
GAGCTGGAGC GTCTGGAGAG GGAATTTGCC ATTCAGTCCC AGATCACGGA GGCTGCGCGG
CGCCTGGCCA GCGACCCGAA CGTCAGCAAA AAGCTGAAGA AGCAGAGGAA AACCTCCTAC
CTGAATGCCC TGAAGAAACT GCAGGAGATC GAGAACGCCA TCAATGAGTA TCGCATCAAA
TCCGGGAAGA AGCCAACGCA GAGAGCCTCC CTGATCATAG ATGAAGGAAA CATTGCCAGT
GAAGACAGCT CCCTCTCAGA TGCCCTTGTT CTTGAGGATG AGGACTCTCA GGTCACCAGC
ACAATCTCCC CTCTGCAGTC CCCACACAAA GGCCTCCCGC CGCGGCCGCC GCTGCACAAC
CGGCCGCCCC CGCCGCAGTC GCTGGAGGGC CTCCGCCAGA TGCACTTCCA CCGCAGCGAC
TACGACAAGT CCCCCATCAA GCCCAAGATG TGGAGCGAGT CATCCCTGGA TGAGCCCTAC
GAGAAGGTCA AGAAGCGCTC CTCGCACAGC CATTCCAGCA GTCACAAGCG GTTCCCCAGC
ACCGGGAGCT GTGCCGAGGC AGGAGGGAGC AGCTCGCTGC AGAACAGCCC CATCAGGAGC
CTTCCCCACT GGAATTCCCA GTCCAGCATG CCGTCGACGC CGGATCTACG GGTACGCAGT
CCGCACTACG TCCACTCCAC GCGGTCAGTA GATATCAGTC CAACCAGACT GCACAGCTTA
GCTCAGCACT TTAGACACCG GAGCTCCAGT TTGGAGTCAC AAGGAAAGCT CCTCGGCTCA
GAAAATGAGA CAGGGAGCCC TGATTTCTAC ACCCCAAGGA CTCGTAGCAG TAATGGCTCT
GACCCCATGG ACGACTGCTC TTCCTGCACC AGCCATTCCA GCTCGGAGCA CTACTACCCT
GCTCAGATGA ACCCCAACTA CTCCACCCTG GCAGAGGATT CCCCATCGAA AGCCAGAGAA
CGGCAGAGGC AAAGGCACAA ATCAGCAGGC AACCTGGTCT CTTCCAATTC AGGGAGCATG
CCCAACCTGG CTGCGAGGAA CGGGACGGGA CACCACCGTG TCTACCTGCA CAGCCAGAGC
CAGCCCTCCT CCCAGTACAG GATCAAAGAA TATCCCCTGT ACATCGAGGG CAGCTCCACA
CCCGTGGTGG TGCGGAGCCT GGAGAACGAC CAGGAGGGAC ACTACAGCGT GAAAGCACAA
TTCAAAACCT CCAACTCCTA CACAGCGGGG GGAATGTTTA AGGAGAACTG GCACGGGGAT
GAAGTGGACT CGGTCAGGCT CACCCCATCC CGCTCCCAGA TCATAAGGAC TCCATCTCTG
GGCAGGGAGG GCCACGAGAA GGGCTCGGGC AGGACTGCGG TGTCGGACGA GCTGCGGCTC
TGGTACCAGC GGTCCACGGC CTCCCACAAG GAGCACAGCC GCCTCTCGCA CACGAGCTCC
ACCTCCTCGG ACAGCAGCTC CCAGTACAGC ACATCTTCTC AAAGCACCTT TGTGGCACAC
AGCCGGGTCA CGAGAATGCC TCAGATGTGT AAAGCAACAT CAGCTGCCTT ACCTCACAGC
CAGAGGAGCT CCACGCCGTC CAGCGAGCTC GCAGCCACGC CGCCGGGCAG CCCCCACCAC
ATTCTCACGT GGCAGACTGG GAACTACAAT GATAGCTGTT TCCTGGACTC TCCCCTCTAT
CCAGAATTAG CAGATGTCCA GTGGTATGGG CAGGAAAAAG CCAAGCCTGG AACTCTAGTG
TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd32463 Clone ID Related Accession (Same CDS sequence) XM_030290837.1 Accession Version XM_030290837.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3111bp)
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 FERM domain-containing protein 4A isoform X7 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044212.1) 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
3061ATGGAAGGGC TTCTGTCTCC GATGAGAACG AAGATGACAG AGGGTCGCAG ATGCCAAGTG
CACCTCCTTG ATGACAGGAA GCTGGAGCTC CTTGTTCAGC CAAAGCTTTT GGCCAAGGAG
CTGCTTGACT TGGTGGCATC TCATTTCAAC CTGAAGGAGA AGGAGTACTT TGGAATTGCA
TTCACAGATG AAACGGGACA CTTGAACTGG CTTCAGCTGG ACCGCCGGGT GCTGGAACAT
GACTTCCCCA AAAAGTCAGG ACCAGTTGTT TTGTACTTTT GTGTCAGGTT CTACATTGAA
AGCATCTCCT ATCTGAAGGA CAATGCCACC ATCGAGCTGT TTTTCTTGAA CGCCAAGTCC
TGCATTTACA AGGAACTCAT TGAGGTTGAC AGTGAAGTGG TGTTTGAACT GGCTGCATAC
ATCTTGCAGG AGGCAAAGGG AGATTTTTCA AGCAATGAAG TTGTAAGGAA TGAATTAAAG
AAGCTGCCAG CCCTTCCAAC ACCAGCGCTG AAGGAGCATC CTTCCCTCGC TTACTGTGAG
GATCGAGTCA TTGAACACTA CAAGAAACTA AATGGTCAGA CAAGAGGTCA AGCAATTGTG
AATTACATGA GCATTGTAGA ATCCCTCCCG ACATATGGAG TGCATTATTA TGCAGTAAAG
GACAAGCAGG GAATTCCATG GTGGTTAGGA CTTAGCTACA AGGGGATTTT TCAATATGAC
TACCATGACA AAGTGAAACC AAGAAAGATC TTTCAATGGA GGCAGCTGGA GAACCTCTAT
TTCCGCGAGA AGAAGTTCTC GGTGGAGGTG CACGATCCGC GCAGGGCATC TGTGACCAGA
AGGACTTTTG GGCATAGTGG CATTGCTGTG CATACGTGGT ACGCCTGTCC AGCATTAATA
AAGTCTATCT GGGCTATGGC CATTAGTCAG CATCAGTTCT ACCTGGACAG GAAGCAAAGC
AAGTCCAAGA TTCATGCTGC AAGAAGCCTG AGTGAGATTG CAATTGACCT GACTGAAACT
GGAACCCTCA AGACCTCAAA GCTGGCCAAC ATGGGGAGTA AAGGCAAAAT TATCAGTGGA
AGCAGCGGGA GTCTTCTGTC ATCAGGTTCC CAAGAGTCAG ACAGTTCTCA GTCTGCCAAG
AAAGACATGC TGGCTGCGCT GAAGTCCAGG CAAGAAGCTT TGGAAGAGAC GCTGCGCCAG
CGCTTGGAAG AGCTGAAGAA GCTGTGCCTG CGGGAAGCGG AGCTCACAGG AAAGCTGCCA
CGAGAATACC CCCTGGATCC TGGGGAGGAG CCGCCTATTG TAAGGAGAAG AATAGGAACT
GCCTTTAAAC TGGATGAGCA GAAAATCCTG CCTAAGGGAG AGGAGGCAGA GCTGGAGCGT
CTGGAGAGGG AATTTGCCAT TCAGTCCCAG ATCACGGAGG CTGCGCGGCG CCTGGCCAGC
GACCCGAACG TCAGCAAAAA GCTGAAGAAG CAGAGGAAAA CCTCCTACCT GAATGCCCTG
AAGAAACTGC AGGAGATCGA GAACGCCATC AATGAGTATC GCATCAAATC CGGGAAGAAG
CCAACGCAGA GAGCCTCCCT GATCATAGAT GAAGGAAACA TTGCCAGTGA AGACAGCTCC
CTCTCAGATG CCCTTGTTCT TGAGGATGAG GACTCTCAGG TCACCAGCAC AATCTCCCCT
CTGCAGTCCC CACACAAAGG CCTCCCGCCG CGGCCGCCGC TGCACAACCG GCCGCCCCCG
CCGCAGTCGC TGGAGGGCCT CCGCCAGATG CACTTCCACC GCAGCGACTA CGACAAGTCC
CCCATCAAGC CCAAGATGTG GAGCGAGTCA TCCCTGGATG AGCCCTACGA GAAGGTCAAG
AAGCGCTCCT CGCACAGCCA TTCCAGCAGT CACAAGCGGT TCCCCAGCAC CGGGAGCTGT
GCCGAGGCAG GAGGGAGCAG CTCGCTGCAG AACAGCCCCA TCAGGAGCCT TCCCCACTGG
AATTCCCAGT CCAGCATGCC GTCGACGCCG GATCTACGGG TACGCAGTCC GCACTACGTC
CACTCCACGC GGTCAGTAGA TATCAGTCCA ACCAGACTGC ACAGCTTAGC TCAGCACTTT
AGACACCGGA GCTCCAGTTT GGAGTCACAA GGAAAGCTCC TCGGCTCAGA AAATGAGACA
GGGAGCCCTG ATTTCTACAC CCCAAGGACT CGTAGCAGTA ATGGCTCTGA CCCCATGGAC
GACTGCTCTT CCTGCACCAG CCATTCCAGC TCGGAGCACT ACTACCCTGC TCAGATGAAC
CCCAACTACT CCACCCTGGC AGAGGATTCC CCATCGAAAG CCAGAGAACG GCAGAGGCAA
AGGCACAAAT CAGCAGGCAA CCTGGTCTCT TCCAATTCAG GGAGCATGCC CAACCTGGCT
GCGAGGAACG GGACGGGACA CCACCGTGTC TACCTGCACA GCCAGAGCCA GCCCTCCTCC
CAGTACAGGA TCAAAGAATA TCCCCTGTAC ATCGAGGGCA GCTCCACACC CGTGGTGGTG
CGGAGCCTGG AGAACGACCA GGAGGGACAC TACAGCGTGA AAGCACAATT CAAAACCTCC
AACTCCTACA CAGCGGGGGG AATGTTTAAG GAGAACTGGC ACGGGGATGA AGTGGACTCG
GTCAGGCTCA CCCCATCCCG CTCCCAGATC ATAAGGACTC CATCTCTGGG CAGGGAGGGC
CACGAGAAGG GCTCGGGCAG GACTGCGGTG TCGGACGAGC TGCGGCTCTG GTACCAGCGG
TCCACGGCCT CCCACAAGGA GCACAGCCGC CTCTCGCACA CGAGCTCCAC CTCCTCGGAC
AGCAGCTCCC AGTACAGCAC ATCTTCTCAA AGCACCTTTG TGGCACACAG CCGGGTCACG
AGAATGCCTC AGATGTGTAA AGCAACATCA GCTGCCTTAC CTCACAGCCA GAGGAGCTCC
ACGCCGTCCA GCGAGCTCGC AGCCACGCCG CCGGGCAGCC CCCACCACAT TCTCACGTGG
CAGACTGGGA ACTACAATGA TAGCTGTTTC CTGGACTCTC CCCTCTATCC AGAATTAGCA
GATGTCCAGT GGTATGGGCA GGAAAAAGCC AAGCCTGGAA CTCTAGTGTG AThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030146697.1 CDS 428..3538 Translation
Target ORF information:
RefSeq Version XM_030290837.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata FERM domain containing 4A (FRMD4A), transcript variant X10, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030290837.1
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
3061ATGGAAGGGC TTCTGTCTCC GATGAGAACG AAGATGACAG AGGGTCGCAG ATGCCAAGTG
CACCTCCTTG ATGACAGGAA GCTGGAGCTC CTTGTTCAGC CAAAGCTTTT GGCCAAGGAG
CTGCTTGACT TGGTGGCATC TCATTTCAAC CTGAAGGAGA AGGAGTACTT TGGAATTGCA
TTCACAGATG AAACGGGACA CTTGAACTGG CTTCAGCTGG ACCGCCGGGT GCTGGAACAT
GACTTCCCCA AAAAGTCAGG ACCAGTTGTT TTGTACTTTT GTGTCAGGTT CTACATTGAA
AGCATCTCCT ATCTGAAGGA CAATGCCACC ATCGAGCTGT TTTTCTTGAA CGCCAAGTCC
TGCATTTACA AGGAACTCAT TGAGGTTGAC AGTGAAGTGG TGTTTGAACT GGCTGCATAC
ATCTTGCAGG AGGCAAAGGG AGATTTTTCA AGCAATGAAG TTGTAAGGAA TGAATTAAAG
AAGCTGCCAG CCCTTCCAAC ACCAGCGCTG AAGGAGCATC CTTCCCTCGC TTACTGTGAG
GATCGAGTCA TTGAACACTA CAAGAAACTA AATGGTCAGA CAAGAGGTCA AGCAATTGTG
AATTACATGA GCATTGTAGA ATCCCTCCCG ACATATGGAG TGCATTATTA TGCAGTAAAG
GACAAGCAGG GAATTCCATG GTGGTTAGGA CTTAGCTACA AGGGGATTTT TCAATATGAC
TACCATGACA AAGTGAAACC AAGAAAGATC TTTCAATGGA GGCAGCTGGA GAACCTCTAT
TTCCGCGAGA AGAAGTTCTC GGTGGAGGTG CACGATCCGC GCAGGGCATC TGTGACCAGA
AGGACTTTTG GGCATAGTGG CATTGCTGTG CATACGTGGT ACGCCTGTCC AGCATTAATA
AAGTCTATCT GGGCTATGGC CATTAGTCAG CATCAGTTCT ACCTGGACAG GAAGCAAAGC
AAGTCCAAGA TTCATGCTGC AAGAAGCCTG AGTGAGATTG CAATTGACCT GACTGAAACT
GGAACCCTCA AGACCTCAAA GCTGGCCAAC ATGGGGAGTA AAGGCAAAAT TATCAGTGGA
AGCAGCGGGA GTCTTCTGTC ATCAGGTTCC CAAGAGTCAG ACAGTTCTCA GTCTGCCAAG
AAAGACATGC TGGCTGCGCT GAAGTCCAGG CAAGAAGCTT TGGAAGAGAC GCTGCGCCAG
CGCTTGGAAG AGCTGAAGAA GCTGTGCCTG CGGGAAGCGG AGCTCACAGG AAAGCTGCCA
CGAGAATACC CCCTGGATCC TGGGGAGGAG CCGCCTATTG TAAGGAGAAG AATAGGAACT
GCCTTTAAAC TGGATGAGCA GAAAATCCTG CCTAAGGGAG AGGAGGCAGA GCTGGAGCGT
CTGGAGAGGG AATTTGCCAT TCAGTCCCAG ATCACGGAGG CTGCGCGGCG CCTGGCCAGC
GACCCGAACG TCAGCAAAAA GCTGAAGAAG CAGAGGAAAA CCTCCTACCT GAATGCCCTG
AAGAAACTGC AGGAGATCGA GAACGCCATC AATGAGTATC GCATCAAATC CGGGAAGAAG
CCAACGCAGA GAGCCTCCCT GATCATAGAT GAAGGAAACA TTGCCAGTGA AGACAGCTCC
CTCTCAGATG CCCTTGTTCT TGAGGATGAG GACTCTCAGG TCACCAGCAC AATCTCCCCT
CTGCAGTCCC CACACAAAGG CCTCCCGCCG CGGCCGCCGC TGCACAACCG GCCGCCCCCG
CCGCAGTCGC TGGAGGGCCT CCGCCAGATG CACTTCCACC GCAGCGACTA CGACAAGTCC
CCCATCAAGC CCAAGATGTG GAGCGAGTCA TCCCTGGATG AGCCCTACGA GAAGGTCAAG
AAGCGCTCCT CGCACAGCCA TTCCAGCAGT CACAAGCGGT TCCCCAGCAC CGGGAGCTGT
GCCGAGGCAG GAGGGAGCAG CTCGCTGCAG AACAGCCCCA TCAGGAGCCT TCCCCACTGG
AATTCCCAGT CCAGCATGCC GTCGACGCCG GATCTACGGG TACGCAGTCC GCACTACGTC
CACTCCACGC GGTCAGTAGA TATCAGTCCA ACCAGACTGC ACAGCTTAGC TCAGCACTTT
AGACACCGGA GCTCCAGTTT GGAGTCACAA GGAAAGCTCC TCGGCTCAGA AAATGAGACA
GGGAGCCCTG ATTTCTACAC CCCAAGGACT CGTAGCAGTA ATGGCTCTGA CCCCATGGAC
GACTGCTCTT CCTGCACCAG CCATTCCAGC TCGGAGCACT ACTACCCTGC TCAGATGAAC
CCCAACTACT CCACCCTGGC AGAGGATTCC CCATCGAAAG CCAGAGAACG GCAGAGGCAA
AGGCACAAAT CAGCAGGCAA CCTGGTCTCT TCCAATTCAG GGAGCATGCC CAACCTGGCT
GCGAGGAACG GGACGGGACA CCACCGTGTC TACCTGCACA GCCAGAGCCA GCCCTCCTCC
CAGTACAGGA TCAAAGAATA TCCCCTGTAC ATCGAGGGCA GCTCCACACC CGTGGTGGTG
CGGAGCCTGG AGAACGACCA GGAGGGACAC TACAGCGTGA AAGCACAATT CAAAACCTCC
AACTCCTACA CAGCGGGGGG AATGTTTAAG GAGAACTGGC ACGGGGATGA AGTGGACTCG
GTCAGGCTCA CCCCATCCCG CTCCCAGATC ATAAGGACTC CATCTCTGGG CAGGGAGGGC
CACGAGAAGG GCTCGGGCAG GACTGCGGTG TCGGACGAGC TGCGGCTCTG GTACCAGCGG
TCCACGGCCT CCCACAAGGA GCACAGCCGC CTCTCGCACA CGAGCTCCAC CTCCTCGGAC
AGCAGCTCCC AGTACAGCAC ATCTTCTCAA AGCACCTTTG TGGCACACAG CCGGGTCACG
AGAATGCCTC AGATGTGTAA AGCAACATCA GCTGCCTTAC CTCACAGCCA GAGGAGCTCC
ACGCCGTCCA GCGAGCTCGC AGCCACGCCG CCGGGCAGCC CCCACCACAT TCTCACGTGG
CAGACTGGGA ACTACAATGA TAGCTGTTTC CTGGACTCTC CCCTCTATCC AGAATTAGCA
GATGTCCAGT GGTATGGGCA GGAAAAAGCC AAGCCTGGAA CTCTAGTGTG AThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd32464 Clone ID Related Accession (Same CDS sequence) XM_030290862.1 , XM_030290844.1 , XM_030290852.1 Accession Version XM_030290862.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3090bp)
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 FERM domain-containing protein 4A isoform X8 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044212.1) 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
3061ATGGCTGTGC AGCGTGCTCC CGAATCTGCT CTGAGCTTGC TGATGATGAC AGAGGGTCGC
AGATGCCAAG TGCACCTCCT TGATGACAGG AAGCTGGAGC TCCTTGTTCA GCCAAAGCTT
TTGGCCAAGG AGCTGCTTGA CTTGGTGGCA TCTCATTTCA ACCTGAAGGA GAAGGAGTAC
TTTGGAATTG CATTCACAGA TGAAACGGGA CACTTGAACT GGCTTCAGCT GGACCGCCGG
GTGCTGGAAC ATGACTTCCC CAAAAAGTCA GGACCAGTTG TTTTGTACTT TTGTGTCAGG
TTCTACATTG AAAGCATCTC CTATCTGAAG GACAATGCCA CCATCGAGCT GTTTTTCTTG
AACGCCAAGT CCTGCATTTA CAAGGAACTC ATTGAGGTTG ACAGTGAAGT GGTGTTTGAA
CTGGCTGCAT ACATCTTGCA GGAGGCAAAG GGAGATTTTT CAAGCAATGA AGTTGTAAGG
AATGAATTAA AGAAGCTGCC AGCCCTTCCA ACACCAGCGC TGAAGGAGCA TCCTTCCCTC
GCTTACTGTG AGGATCGAGT CATTGAACAC TACAAGAAAC TAAATGGTCA GACAAGAGGT
CAAGCAATTG TGAATTACAT GAGCATTGTA GAATCCCTCC CGACATATGG AGTGCATTAT
TATGCAGTAA AGGACAAGCA GGGAATTCCA TGGTGGTTAG GACTTAGCTA CAAGGGGATT
TTTCAATATG ACTACCATGA CAAAGTGAAA CCAAGAAAGA TCTTTCAATG GAGGCAGCTG
GAGAACCTCT ATTTCCGCGA GAAGAAGTTC TCGGTGGAGG TGCACGATCC GCGCAGGGCA
TCTGTGACCA GAAGGACTTT TGGGCATAGT GGCATTGCTG TGCATACGTG GTACGCCTGT
CCAGCATTAA TAAAGTCTAT CTGGGCTATG GCCATTAGTC AGCATCAGTT CTACCTGGAC
AGGAAGCAAA GCAAGTCCAA GATTCATGCT GCAAGAAGCC TGAGTGAGAT TGCAATTGAC
CTGACTGAAA CTGGAACCCT CAAGACCTCA AAGCTGGCCA ACATGGGGAG TAAAGGCAAA
ATTATCAGTG GAAGCAGCGG GAGTCTTCTG TCATCAGGTT CCCAAGAGTC AGACAGTTCT
CAGTCTGCCA AGAAAGACAT GCTGGCTGCG CTGAAGTCCA GGCAAGAAGC TTTGGAAGAG
ACGCTGCGCC AGCGCTTGGA AGAGCTGAAG AAGCTGTGCC TGCGGGAAGC GGAGCTCACA
GGAAAGCTGC CACGAGAATA CCCCCTGGAT CCTGGGGAGG AGCCGCCTAT TGTAAGGAGA
AGAATAGGAA CTGCCTTTAA ACTGGATGAG CAGAAAATCC TGCCTAAGGG AGAGGAGGCA
GAGCTGGAGC GTCTGGAGAG GGAATTTGCC ATTCAGTCCC AGATCACGGA GGCTGCGCGG
CGCCTGGCCA GCGACCCGAA CGTCAGCAAA AAGCTGAAGA AGCAGAGGAA AACCTCCTAC
CTGAATGCCC TGAAGAAACT GCAGGAGATC GAGAACGCCA TCAATGAGTA TCGCATCAAA
TCCGGGAAGA AGCCAACGCA GAGAGCCTCC CTGATCATAG ATGAAGGAAA CATTGCCAGT
GAAGACAGCT CCCTCTCAGA TGCCCTTGTT CTTGAGGATG AGGACTCTCA GGTCACCAGC
ACAATCTCCC CTCTGCAGTC CCCACACAAA GGCCTCCCGC CGCGGCCGCC GCTGCACAAC
CGGCCGCCCC CGCCGCAGTC GCTGGAGGGC CTCCGCCAGA TGCACTTCCA CCGCAGCGAC
TACGACAAGT CCCCCATCAA GCCCAAGATG TGGAGCGAGT CATCCCTGGA TGAGCCCTAC
GAGAAGGTCA AGAAGCGCTC CTCGCACAGC CATTCCAGCA GTCACAAGCG GTTCCCCAGC
ACCGGGAGCT GTGCCGAGGC AGGAGGGAGC AGCTCGCTGC AGAACAGCCC CATCAGGAGC
CTTCCCCACT GGAATTCCCA GTCCAGCATG CCGTCGACGC CGGATCTACG GGTACGCAGT
CCGCACTACG TCCACTCCAC GCGGTCAGTA GATATCAGTC CAACCAGACT GCACAGCTTA
GCTCAGCACT TTAGACACCG GAGCTCCAGT TTGGAGTCAC AAGGAAAGCT CCTCGGCTCA
GAAAATGAGA CAGGGAGCCC TGATTTCTAC ACCCCAAGGA CTCGTAGCAG TAATGGCTCT
GACCCCATGG ACGACTGCTC TTCCTGCACC AGCCATTCCA GCTCGGAGCA CTACTACCCT
GCTCAGATGA ACCCCAACTA CTCCACCCTG GCAGAGGATT CCCCATCGAA AGCCAGAGAA
CGGCAGAGGC AAAGGCACAA ATCAGCAGGC AACCTGGTCT CTTCCAATTC AGGGAGCATG
CCCAACCTGG CTGCGAGGAA CGGGACGGGA CACCACCGTG TCTACCTGCA CAGCCAGAGC
CAGCCCTCCT CCCAGTACAG GATCAAAGAA TATCCCCTGT ACATCGAGGG CAGCTCCACA
CCCGTGGTGG TGCGGAGCCT GGAGAACGAC CAGGAGGGAC ACTACAGCGT GAAAGCACAA
TTCAAAACCT CCAACTCCTA CACAGCGGGG GGAATGTTTA AGGAGAACTG GCACGGGGAT
GAAGTGGACT CGGTCAGGCT CACCCCATCC CGCTCCCAGA TCATAAGGAC TCCATCTCTG
GGCAGGGAGG GCCACGAGAA GGGCTCGGGC AGGACTGCGG TGTCGGACGA GCTGCGGCTC
TGGTACCAGC GGTCCACGGC CTCCCACAAG GAGCACAGCC GCCTCTCGCA CACGAGCTCC
ACCTCCTCGG ACAGCAGCTC CCAGTACAGC ACATCTTCTC AAAGCACCTT TGTGGCACAC
AGCCGGGTCA CGAGAATGCC TCAGATGTGT AAAGCAACAT CAGCTGCCTT ACCTCACAGC
CAGAGGAGCT CCACGCCGTC CAGCGAGCTC GCAGCCACGC CGCCGGGCAG CCCCCACCAC
ATTCTCACGT GGCAGACTGG AGAAGCAACA GACAACTCAC CCACTATGGA TGAGTCTCAG
TCTCCAACCC ACCAAAGTAC TGATGAATAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030146722.1 CDS 168..3257 Translation
Target ORF information:
RefSeq Version XM_030290862.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata FERM domain containing 4A (FRMD4A), transcript variant X13, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030290862.1
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
3061ATGGCTGTGC AGCGTGCTCC CGAATCTGCT CTGAGCTTGC TGATGATGAC AGAGGGTCGC
AGATGCCAAG TGCACCTCCT TGATGACAGG AAGCTGGAGC TCCTTGTTCA GCCAAAGCTT
TTGGCCAAGG AGCTGCTTGA CTTGGTGGCA TCTCATTTCA ACCTGAAGGA GAAGGAGTAC
TTTGGAATTG CATTCACAGA TGAAACGGGA CACTTGAACT GGCTTCAGCT GGACCGCCGG
GTGCTGGAAC ATGACTTCCC CAAAAAGTCA GGACCAGTTG TTTTGTACTT TTGTGTCAGG
TTCTACATTG AAAGCATCTC CTATCTGAAG GACAATGCCA CCATCGAGCT GTTTTTCTTG
AACGCCAAGT CCTGCATTTA CAAGGAACTC ATTGAGGTTG ACAGTGAAGT GGTGTTTGAA
CTGGCTGCAT ACATCTTGCA GGAGGCAAAG GGAGATTTTT CAAGCAATGA AGTTGTAAGG
AATGAATTAA AGAAGCTGCC AGCCCTTCCA ACACCAGCGC TGAAGGAGCA TCCTTCCCTC
GCTTACTGTG AGGATCGAGT CATTGAACAC TACAAGAAAC TAAATGGTCA GACAAGAGGT
CAAGCAATTG TGAATTACAT GAGCATTGTA GAATCCCTCC CGACATATGG AGTGCATTAT
TATGCAGTAA AGGACAAGCA GGGAATTCCA TGGTGGTTAG GACTTAGCTA CAAGGGGATT
TTTCAATATG ACTACCATGA CAAAGTGAAA CCAAGAAAGA TCTTTCAATG GAGGCAGCTG
GAGAACCTCT ATTTCCGCGA GAAGAAGTTC TCGGTGGAGG TGCACGATCC GCGCAGGGCA
TCTGTGACCA GAAGGACTTT TGGGCATAGT GGCATTGCTG TGCATACGTG GTACGCCTGT
CCAGCATTAA TAAAGTCTAT CTGGGCTATG GCCATTAGTC AGCATCAGTT CTACCTGGAC
AGGAAGCAAA GCAAGTCCAA GATTCATGCT GCAAGAAGCC TGAGTGAGAT TGCAATTGAC
CTGACTGAAA CTGGAACCCT CAAGACCTCA AAGCTGGCCA ACATGGGGAG TAAAGGCAAA
ATTATCAGTG GAAGCAGCGG GAGTCTTCTG TCATCAGGTT CCCAAGAGTC AGACAGTTCT
CAGTCTGCCA AGAAAGACAT GCTGGCTGCG CTGAAGTCCA GGCAAGAAGC TTTGGAAGAG
ACGCTGCGCC AGCGCTTGGA AGAGCTGAAG AAGCTGTGCC TGCGGGAAGC GGAGCTCACA
GGAAAGCTGC CACGAGAATA CCCCCTGGAT CCTGGGGAGG AGCCGCCTAT TGTAAGGAGA
AGAATAGGAA CTGCCTTTAA ACTGGATGAG CAGAAAATCC TGCCTAAGGG AGAGGAGGCA
GAGCTGGAGC GTCTGGAGAG GGAATTTGCC ATTCAGTCCC AGATCACGGA GGCTGCGCGG
CGCCTGGCCA GCGACCCGAA CGTCAGCAAA AAGCTGAAGA AGCAGAGGAA AACCTCCTAC
CTGAATGCCC TGAAGAAACT GCAGGAGATC GAGAACGCCA TCAATGAGTA TCGCATCAAA
TCCGGGAAGA AGCCAACGCA GAGAGCCTCC CTGATCATAG ATGAAGGAAA CATTGCCAGT
GAAGACAGCT CCCTCTCAGA TGCCCTTGTT CTTGAGGATG AGGACTCTCA GGTCACCAGC
ACAATCTCCC CTCTGCAGTC CCCACACAAA GGCCTCCCGC CGCGGCCGCC GCTGCACAAC
CGGCCGCCCC CGCCGCAGTC GCTGGAGGGC CTCCGCCAGA TGCACTTCCA CCGCAGCGAC
TACGACAAGT CCCCCATCAA GCCCAAGATG TGGAGCGAGT CATCCCTGGA TGAGCCCTAC
GAGAAGGTCA AGAAGCGCTC CTCGCACAGC CATTCCAGCA GTCACAAGCG GTTCCCCAGC
ACCGGGAGCT GTGCCGAGGC AGGAGGGAGC AGCTCGCTGC AGAACAGCCC CATCAGGAGC
CTTCCCCACT GGAATTCCCA GTCCAGCATG CCGTCGACGC CGGATCTACG GGTACGCAGT
CCGCACTACG TCCACTCCAC GCGGTCAGTA GATATCAGTC CAACCAGACT GCACAGCTTA
GCTCAGCACT TTAGACACCG GAGCTCCAGT TTGGAGTCAC AAGGAAAGCT CCTCGGCTCA
GAAAATGAGA CAGGGAGCCC TGATTTCTAC ACCCCAAGGA CTCGTAGCAG TAATGGCTCT
GACCCCATGG ACGACTGCTC TTCCTGCACC AGCCATTCCA GCTCGGAGCA CTACTACCCT
GCTCAGATGA ACCCCAACTA CTCCACCCTG GCAGAGGATT CCCCATCGAA AGCCAGAGAA
CGGCAGAGGC AAAGGCACAA ATCAGCAGGC AACCTGGTCT CTTCCAATTC AGGGAGCATG
CCCAACCTGG CTGCGAGGAA CGGGACGGGA CACCACCGTG TCTACCTGCA CAGCCAGAGC
CAGCCCTCCT CCCAGTACAG GATCAAAGAA TATCCCCTGT ACATCGAGGG CAGCTCCACA
CCCGTGGTGG TGCGGAGCCT GGAGAACGAC CAGGAGGGAC ACTACAGCGT GAAAGCACAA
TTCAAAACCT CCAACTCCTA CACAGCGGGG GGAATGTTTA AGGAGAACTG GCACGGGGAT
GAAGTGGACT CGGTCAGGCT CACCCCATCC CGCTCCCAGA TCATAAGGAC TCCATCTCTG
GGCAGGGAGG GCCACGAGAA GGGCTCGGGC AGGACTGCGG TGTCGGACGA GCTGCGGCTC
TGGTACCAGC GGTCCACGGC CTCCCACAAG GAGCACAGCC GCCTCTCGCA CACGAGCTCC
ACCTCCTCGG ACAGCAGCTC CCAGTACAGC ACATCTTCTC AAAGCACCTT TGTGGCACAC
AGCCGGGTCA CGAGAATGCC TCAGATGTGT AAAGCAACAT CAGCTGCCTT ACCTCACAGC
CAGAGGAGCT CCACGCCGTC CAGCGAGCTC GCAGCCACGC CGCCGGGCAG CCCCCACCAC
ATTCTCACGT GGCAGACTGG AGAAGCAACA GACAACTCAC CCACTATGGA TGAGTCTCAG
TCTCCAACCC ACCAAAGTAC TGATGAATAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd32464 Clone ID Related Accession (Same CDS sequence) XM_030290862.1 , XM_030290844.1 , XM_030290852.1 Accession Version XM_030290844.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3090bp)
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 FERM domain-containing protein 4A isoform X8 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044212.1) 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
3061ATGGCTGTGC AGCGTGCTCC CGAATCTGCT CTGAGCTTGC TGATGATGAC AGAGGGTCGC
AGATGCCAAG TGCACCTCCT TGATGACAGG AAGCTGGAGC TCCTTGTTCA GCCAAAGCTT
TTGGCCAAGG AGCTGCTTGA CTTGGTGGCA TCTCATTTCA ACCTGAAGGA GAAGGAGTAC
TTTGGAATTG CATTCACAGA TGAAACGGGA CACTTGAACT GGCTTCAGCT GGACCGCCGG
GTGCTGGAAC ATGACTTCCC CAAAAAGTCA GGACCAGTTG TTTTGTACTT TTGTGTCAGG
TTCTACATTG AAAGCATCTC CTATCTGAAG GACAATGCCA CCATCGAGCT GTTTTTCTTG
AACGCCAAGT CCTGCATTTA CAAGGAACTC ATTGAGGTTG ACAGTGAAGT GGTGTTTGAA
CTGGCTGCAT ACATCTTGCA GGAGGCAAAG GGAGATTTTT CAAGCAATGA AGTTGTAAGG
AATGAATTAA AGAAGCTGCC AGCCCTTCCA ACACCAGCGC TGAAGGAGCA TCCTTCCCTC
GCTTACTGTG AGGATCGAGT CATTGAACAC TACAAGAAAC TAAATGGTCA GACAAGAGGT
CAAGCAATTG TGAATTACAT GAGCATTGTA GAATCCCTCC CGACATATGG AGTGCATTAT
TATGCAGTAA AGGACAAGCA GGGAATTCCA TGGTGGTTAG GACTTAGCTA CAAGGGGATT
TTTCAATATG ACTACCATGA CAAAGTGAAA CCAAGAAAGA TCTTTCAATG GAGGCAGCTG
GAGAACCTCT ATTTCCGCGA GAAGAAGTTC TCGGTGGAGG TGCACGATCC GCGCAGGGCA
TCTGTGACCA GAAGGACTTT TGGGCATAGT GGCATTGCTG TGCATACGTG GTACGCCTGT
CCAGCATTAA TAAAGTCTAT CTGGGCTATG GCCATTAGTC AGCATCAGTT CTACCTGGAC
AGGAAGCAAA GCAAGTCCAA GATTCATGCT GCAAGAAGCC TGAGTGAGAT TGCAATTGAC
CTGACTGAAA CTGGAACCCT CAAGACCTCA AAGCTGGCCA ACATGGGGAG TAAAGGCAAA
ATTATCAGTG GAAGCAGCGG GAGTCTTCTG TCATCAGGTT CCCAAGAGTC AGACAGTTCT
CAGTCTGCCA AGAAAGACAT GCTGGCTGCG CTGAAGTCCA GGCAAGAAGC TTTGGAAGAG
ACGCTGCGCC AGCGCTTGGA AGAGCTGAAG AAGCTGTGCC TGCGGGAAGC GGAGCTCACA
GGAAAGCTGC CACGAGAATA CCCCCTGGAT CCTGGGGAGG AGCCGCCTAT TGTAAGGAGA
AGAATAGGAA CTGCCTTTAA ACTGGATGAG CAGAAAATCC TGCCTAAGGG AGAGGAGGCA
GAGCTGGAGC GTCTGGAGAG GGAATTTGCC ATTCAGTCCC AGATCACGGA GGCTGCGCGG
CGCCTGGCCA GCGACCCGAA CGTCAGCAAA AAGCTGAAGA AGCAGAGGAA AACCTCCTAC
CTGAATGCCC TGAAGAAACT GCAGGAGATC GAGAACGCCA TCAATGAGTA TCGCATCAAA
TCCGGGAAGA AGCCAACGCA GAGAGCCTCC CTGATCATAG ATGAAGGAAA CATTGCCAGT
GAAGACAGCT CCCTCTCAGA TGCCCTTGTT CTTGAGGATG AGGACTCTCA GGTCACCAGC
ACAATCTCCC CTCTGCAGTC CCCACACAAA GGCCTCCCGC CGCGGCCGCC GCTGCACAAC
CGGCCGCCCC CGCCGCAGTC GCTGGAGGGC CTCCGCCAGA TGCACTTCCA CCGCAGCGAC
TACGACAAGT CCCCCATCAA GCCCAAGATG TGGAGCGAGT CATCCCTGGA TGAGCCCTAC
GAGAAGGTCA AGAAGCGCTC CTCGCACAGC CATTCCAGCA GTCACAAGCG GTTCCCCAGC
ACCGGGAGCT GTGCCGAGGC AGGAGGGAGC AGCTCGCTGC AGAACAGCCC CATCAGGAGC
CTTCCCCACT GGAATTCCCA GTCCAGCATG CCGTCGACGC CGGATCTACG GGTACGCAGT
CCGCACTACG TCCACTCCAC GCGGTCAGTA GATATCAGTC CAACCAGACT GCACAGCTTA
GCTCAGCACT TTAGACACCG GAGCTCCAGT TTGGAGTCAC AAGGAAAGCT CCTCGGCTCA
GAAAATGAGA CAGGGAGCCC TGATTTCTAC ACCCCAAGGA CTCGTAGCAG TAATGGCTCT
GACCCCATGG ACGACTGCTC TTCCTGCACC AGCCATTCCA GCTCGGAGCA CTACTACCCT
GCTCAGATGA ACCCCAACTA CTCCACCCTG GCAGAGGATT CCCCATCGAA AGCCAGAGAA
CGGCAGAGGC AAAGGCACAA ATCAGCAGGC AACCTGGTCT CTTCCAATTC AGGGAGCATG
CCCAACCTGG CTGCGAGGAA CGGGACGGGA CACCACCGTG TCTACCTGCA CAGCCAGAGC
CAGCCCTCCT CCCAGTACAG GATCAAAGAA TATCCCCTGT ACATCGAGGG CAGCTCCACA
CCCGTGGTGG TGCGGAGCCT GGAGAACGAC CAGGAGGGAC ACTACAGCGT GAAAGCACAA
TTCAAAACCT CCAACTCCTA CACAGCGGGG GGAATGTTTA AGGAGAACTG GCACGGGGAT
GAAGTGGACT CGGTCAGGCT CACCCCATCC CGCTCCCAGA TCATAAGGAC TCCATCTCTG
GGCAGGGAGG GCCACGAGAA GGGCTCGGGC AGGACTGCGG TGTCGGACGA GCTGCGGCTC
TGGTACCAGC GGTCCACGGC CTCCCACAAG GAGCACAGCC GCCTCTCGCA CACGAGCTCC
ACCTCCTCGG ACAGCAGCTC CCAGTACAGC ACATCTTCTC AAAGCACCTT TGTGGCACAC
AGCCGGGTCA CGAGAATGCC TCAGATGTGT AAAGCAACAT CAGCTGCCTT ACCTCACAGC
CAGAGGAGCT CCACGCCGTC CAGCGAGCTC GCAGCCACGC CGCCGGGCAG CCCCCACCAC
ATTCTCACGT GGCAGACTGG AGAAGCAACA GACAACTCAC CCACTATGGA TGAGTCTCAG
TCTCCAACCC ACCAAAGTAC TGATGAATAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030146704.1 CDS 401..3490 Translation
Target ORF information:
RefSeq Version XM_030290844.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata FERM domain containing 4A (FRMD4A), transcript variant X11, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030290844.1
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
3061ATGGCTGTGC AGCGTGCTCC CGAATCTGCT CTGAGCTTGC TGATGATGAC AGAGGGTCGC
AGATGCCAAG TGCACCTCCT TGATGACAGG AAGCTGGAGC TCCTTGTTCA GCCAAAGCTT
TTGGCCAAGG AGCTGCTTGA CTTGGTGGCA TCTCATTTCA ACCTGAAGGA GAAGGAGTAC
TTTGGAATTG CATTCACAGA TGAAACGGGA CACTTGAACT GGCTTCAGCT GGACCGCCGG
GTGCTGGAAC ATGACTTCCC CAAAAAGTCA GGACCAGTTG TTTTGTACTT TTGTGTCAGG
TTCTACATTG AAAGCATCTC CTATCTGAAG GACAATGCCA CCATCGAGCT GTTTTTCTTG
AACGCCAAGT CCTGCATTTA CAAGGAACTC ATTGAGGTTG ACAGTGAAGT GGTGTTTGAA
CTGGCTGCAT ACATCTTGCA GGAGGCAAAG GGAGATTTTT CAAGCAATGA AGTTGTAAGG
AATGAATTAA AGAAGCTGCC AGCCCTTCCA ACACCAGCGC TGAAGGAGCA TCCTTCCCTC
GCTTACTGTG AGGATCGAGT CATTGAACAC TACAAGAAAC TAAATGGTCA GACAAGAGGT
CAAGCAATTG TGAATTACAT GAGCATTGTA GAATCCCTCC CGACATATGG AGTGCATTAT
TATGCAGTAA AGGACAAGCA GGGAATTCCA TGGTGGTTAG GACTTAGCTA CAAGGGGATT
TTTCAATATG ACTACCATGA CAAAGTGAAA CCAAGAAAGA TCTTTCAATG GAGGCAGCTG
GAGAACCTCT ATTTCCGCGA GAAGAAGTTC TCGGTGGAGG TGCACGATCC GCGCAGGGCA
TCTGTGACCA GAAGGACTTT TGGGCATAGT GGCATTGCTG TGCATACGTG GTACGCCTGT
CCAGCATTAA TAAAGTCTAT CTGGGCTATG GCCATTAGTC AGCATCAGTT CTACCTGGAC
AGGAAGCAAA GCAAGTCCAA GATTCATGCT GCAAGAAGCC TGAGTGAGAT TGCAATTGAC
CTGACTGAAA CTGGAACCCT CAAGACCTCA AAGCTGGCCA ACATGGGGAG TAAAGGCAAA
ATTATCAGTG GAAGCAGCGG GAGTCTTCTG TCATCAGGTT CCCAAGAGTC AGACAGTTCT
CAGTCTGCCA AGAAAGACAT GCTGGCTGCG CTGAAGTCCA GGCAAGAAGC TTTGGAAGAG
ACGCTGCGCC AGCGCTTGGA AGAGCTGAAG AAGCTGTGCC TGCGGGAAGC GGAGCTCACA
GGAAAGCTGC CACGAGAATA CCCCCTGGAT CCTGGGGAGG AGCCGCCTAT TGTAAGGAGA
AGAATAGGAA CTGCCTTTAA ACTGGATGAG CAGAAAATCC TGCCTAAGGG AGAGGAGGCA
GAGCTGGAGC GTCTGGAGAG GGAATTTGCC ATTCAGTCCC AGATCACGGA GGCTGCGCGG
CGCCTGGCCA GCGACCCGAA CGTCAGCAAA AAGCTGAAGA AGCAGAGGAA AACCTCCTAC
CTGAATGCCC TGAAGAAACT GCAGGAGATC GAGAACGCCA TCAATGAGTA TCGCATCAAA
TCCGGGAAGA AGCCAACGCA GAGAGCCTCC CTGATCATAG ATGAAGGAAA CATTGCCAGT
GAAGACAGCT CCCTCTCAGA TGCCCTTGTT CTTGAGGATG AGGACTCTCA GGTCACCAGC
ACAATCTCCC CTCTGCAGTC CCCACACAAA GGCCTCCCGC CGCGGCCGCC GCTGCACAAC
CGGCCGCCCC CGCCGCAGTC GCTGGAGGGC CTCCGCCAGA TGCACTTCCA CCGCAGCGAC
TACGACAAGT CCCCCATCAA GCCCAAGATG TGGAGCGAGT CATCCCTGGA TGAGCCCTAC
GAGAAGGTCA AGAAGCGCTC CTCGCACAGC CATTCCAGCA GTCACAAGCG GTTCCCCAGC
ACCGGGAGCT GTGCCGAGGC AGGAGGGAGC AGCTCGCTGC AGAACAGCCC CATCAGGAGC
CTTCCCCACT GGAATTCCCA GTCCAGCATG CCGTCGACGC CGGATCTACG GGTACGCAGT
CCGCACTACG TCCACTCCAC GCGGTCAGTA GATATCAGTC CAACCAGACT GCACAGCTTA
GCTCAGCACT TTAGACACCG GAGCTCCAGT TTGGAGTCAC AAGGAAAGCT CCTCGGCTCA
GAAAATGAGA CAGGGAGCCC TGATTTCTAC ACCCCAAGGA CTCGTAGCAG TAATGGCTCT
GACCCCATGG ACGACTGCTC TTCCTGCACC AGCCATTCCA GCTCGGAGCA CTACTACCCT
GCTCAGATGA ACCCCAACTA CTCCACCCTG GCAGAGGATT CCCCATCGAA AGCCAGAGAA
CGGCAGAGGC AAAGGCACAA ATCAGCAGGC AACCTGGTCT CTTCCAATTC AGGGAGCATG
CCCAACCTGG CTGCGAGGAA CGGGACGGGA CACCACCGTG TCTACCTGCA CAGCCAGAGC
CAGCCCTCCT CCCAGTACAG GATCAAAGAA TATCCCCTGT ACATCGAGGG CAGCTCCACA
CCCGTGGTGG TGCGGAGCCT GGAGAACGAC CAGGAGGGAC ACTACAGCGT GAAAGCACAA
TTCAAAACCT CCAACTCCTA CACAGCGGGG GGAATGTTTA AGGAGAACTG GCACGGGGAT
GAAGTGGACT CGGTCAGGCT CACCCCATCC CGCTCCCAGA TCATAAGGAC TCCATCTCTG
GGCAGGGAGG GCCACGAGAA GGGCTCGGGC AGGACTGCGG TGTCGGACGA GCTGCGGCTC
TGGTACCAGC GGTCCACGGC CTCCCACAAG GAGCACAGCC GCCTCTCGCA CACGAGCTCC
ACCTCCTCGG ACAGCAGCTC CCAGTACAGC ACATCTTCTC AAAGCACCTT TGTGGCACAC
AGCCGGGTCA CGAGAATGCC TCAGATGTGT AAAGCAACAT CAGCTGCCTT ACCTCACAGC
CAGAGGAGCT CCACGCCGTC CAGCGAGCTC GCAGCCACGC CGCCGGGCAG CCCCCACCAC
ATTCTCACGT GGCAGACTGG AGAAGCAACA GACAACTCAC CCACTATGGA TGAGTCTCAG
TCTCCAACCC ACCAAAGTAC TGATGAATAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd32464 Clone ID Related Accession (Same CDS sequence) XM_030290862.1 , XM_030290844.1 , XM_030290852.1 Accession Version XM_030290852.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3090bp)
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 FERM domain-containing protein 4A isoform X8 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044212.1) 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
3061ATGGCTGTGC AGCGTGCTCC CGAATCTGCT CTGAGCTTGC TGATGATGAC AGAGGGTCGC
AGATGCCAAG TGCACCTCCT TGATGACAGG AAGCTGGAGC TCCTTGTTCA GCCAAAGCTT
TTGGCCAAGG AGCTGCTTGA CTTGGTGGCA TCTCATTTCA ACCTGAAGGA GAAGGAGTAC
TTTGGAATTG CATTCACAGA TGAAACGGGA CACTTGAACT GGCTTCAGCT GGACCGCCGG
GTGCTGGAAC ATGACTTCCC CAAAAAGTCA GGACCAGTTG TTTTGTACTT TTGTGTCAGG
TTCTACATTG AAAGCATCTC CTATCTGAAG GACAATGCCA CCATCGAGCT GTTTTTCTTG
AACGCCAAGT CCTGCATTTA CAAGGAACTC ATTGAGGTTG ACAGTGAAGT GGTGTTTGAA
CTGGCTGCAT ACATCTTGCA GGAGGCAAAG GGAGATTTTT CAAGCAATGA AGTTGTAAGG
AATGAATTAA AGAAGCTGCC AGCCCTTCCA ACACCAGCGC TGAAGGAGCA TCCTTCCCTC
GCTTACTGTG AGGATCGAGT CATTGAACAC TACAAGAAAC TAAATGGTCA GACAAGAGGT
CAAGCAATTG TGAATTACAT GAGCATTGTA GAATCCCTCC CGACATATGG AGTGCATTAT
TATGCAGTAA AGGACAAGCA GGGAATTCCA TGGTGGTTAG GACTTAGCTA CAAGGGGATT
TTTCAATATG ACTACCATGA CAAAGTGAAA CCAAGAAAGA TCTTTCAATG GAGGCAGCTG
GAGAACCTCT ATTTCCGCGA GAAGAAGTTC TCGGTGGAGG TGCACGATCC GCGCAGGGCA
TCTGTGACCA GAAGGACTTT TGGGCATAGT GGCATTGCTG TGCATACGTG GTACGCCTGT
CCAGCATTAA TAAAGTCTAT CTGGGCTATG GCCATTAGTC AGCATCAGTT CTACCTGGAC
AGGAAGCAAA GCAAGTCCAA GATTCATGCT GCAAGAAGCC TGAGTGAGAT TGCAATTGAC
CTGACTGAAA CTGGAACCCT CAAGACCTCA AAGCTGGCCA ACATGGGGAG TAAAGGCAAA
ATTATCAGTG GAAGCAGCGG GAGTCTTCTG TCATCAGGTT CCCAAGAGTC AGACAGTTCT
CAGTCTGCCA AGAAAGACAT GCTGGCTGCG CTGAAGTCCA GGCAAGAAGC TTTGGAAGAG
ACGCTGCGCC AGCGCTTGGA AGAGCTGAAG AAGCTGTGCC TGCGGGAAGC GGAGCTCACA
GGAAAGCTGC CACGAGAATA CCCCCTGGAT CCTGGGGAGG AGCCGCCTAT TGTAAGGAGA
AGAATAGGAA CTGCCTTTAA ACTGGATGAG CAGAAAATCC TGCCTAAGGG AGAGGAGGCA
GAGCTGGAGC GTCTGGAGAG GGAATTTGCC ATTCAGTCCC AGATCACGGA GGCTGCGCGG
CGCCTGGCCA GCGACCCGAA CGTCAGCAAA AAGCTGAAGA AGCAGAGGAA AACCTCCTAC
CTGAATGCCC TGAAGAAACT GCAGGAGATC GAGAACGCCA TCAATGAGTA TCGCATCAAA
TCCGGGAAGA AGCCAACGCA GAGAGCCTCC CTGATCATAG ATGAAGGAAA CATTGCCAGT
GAAGACAGCT CCCTCTCAGA TGCCCTTGTT CTTGAGGATG AGGACTCTCA GGTCACCAGC
ACAATCTCCC CTCTGCAGTC CCCACACAAA GGCCTCCCGC CGCGGCCGCC GCTGCACAAC
CGGCCGCCCC CGCCGCAGTC GCTGGAGGGC CTCCGCCAGA TGCACTTCCA CCGCAGCGAC
TACGACAAGT CCCCCATCAA GCCCAAGATG TGGAGCGAGT CATCCCTGGA TGAGCCCTAC
GAGAAGGTCA AGAAGCGCTC CTCGCACAGC CATTCCAGCA GTCACAAGCG GTTCCCCAGC
ACCGGGAGCT GTGCCGAGGC AGGAGGGAGC AGCTCGCTGC AGAACAGCCC CATCAGGAGC
CTTCCCCACT GGAATTCCCA GTCCAGCATG CCGTCGACGC CGGATCTACG GGTACGCAGT
CCGCACTACG TCCACTCCAC GCGGTCAGTA GATATCAGTC CAACCAGACT GCACAGCTTA
GCTCAGCACT TTAGACACCG GAGCTCCAGT TTGGAGTCAC AAGGAAAGCT CCTCGGCTCA
GAAAATGAGA CAGGGAGCCC TGATTTCTAC ACCCCAAGGA CTCGTAGCAG TAATGGCTCT
GACCCCATGG ACGACTGCTC TTCCTGCACC AGCCATTCCA GCTCGGAGCA CTACTACCCT
GCTCAGATGA ACCCCAACTA CTCCACCCTG GCAGAGGATT CCCCATCGAA AGCCAGAGAA
CGGCAGAGGC AAAGGCACAA ATCAGCAGGC AACCTGGTCT CTTCCAATTC AGGGAGCATG
CCCAACCTGG CTGCGAGGAA CGGGACGGGA CACCACCGTG TCTACCTGCA CAGCCAGAGC
CAGCCCTCCT CCCAGTACAG GATCAAAGAA TATCCCCTGT ACATCGAGGG CAGCTCCACA
CCCGTGGTGG TGCGGAGCCT GGAGAACGAC CAGGAGGGAC ACTACAGCGT GAAAGCACAA
TTCAAAACCT CCAACTCCTA CACAGCGGGG GGAATGTTTA AGGAGAACTG GCACGGGGAT
GAAGTGGACT CGGTCAGGCT CACCCCATCC CGCTCCCAGA TCATAAGGAC TCCATCTCTG
GGCAGGGAGG GCCACGAGAA GGGCTCGGGC AGGACTGCGG TGTCGGACGA GCTGCGGCTC
TGGTACCAGC GGTCCACGGC CTCCCACAAG GAGCACAGCC GCCTCTCGCA CACGAGCTCC
ACCTCCTCGG ACAGCAGCTC CCAGTACAGC ACATCTTCTC AAAGCACCTT TGTGGCACAC
AGCCGGGTCA CGAGAATGCC TCAGATGTGT AAAGCAACAT CAGCTGCCTT ACCTCACAGC
CAGAGGAGCT CCACGCCGTC CAGCGAGCTC GCAGCCACGC CGCCGGGCAG CCCCCACCAC
ATTCTCACGT GGCAGACTGG AGAAGCAACA GACAACTCAC CCACTATGGA TGAGTCTCAG
TCTCCAACCC ACCAAAGTAC TGATGAATAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030146712.1 CDS 240..3329 Translation
Target ORF information:
RefSeq Version XM_030290852.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata FERM domain containing 4A (FRMD4A), transcript variant X12, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030290852.1
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
3061ATGGCTGTGC AGCGTGCTCC CGAATCTGCT CTGAGCTTGC TGATGATGAC AGAGGGTCGC
AGATGCCAAG TGCACCTCCT TGATGACAGG AAGCTGGAGC TCCTTGTTCA GCCAAAGCTT
TTGGCCAAGG AGCTGCTTGA CTTGGTGGCA TCTCATTTCA ACCTGAAGGA GAAGGAGTAC
TTTGGAATTG CATTCACAGA TGAAACGGGA CACTTGAACT GGCTTCAGCT GGACCGCCGG
GTGCTGGAAC ATGACTTCCC CAAAAAGTCA GGACCAGTTG TTTTGTACTT TTGTGTCAGG
TTCTACATTG AAAGCATCTC CTATCTGAAG GACAATGCCA CCATCGAGCT GTTTTTCTTG
AACGCCAAGT CCTGCATTTA CAAGGAACTC ATTGAGGTTG ACAGTGAAGT GGTGTTTGAA
CTGGCTGCAT ACATCTTGCA GGAGGCAAAG GGAGATTTTT CAAGCAATGA AGTTGTAAGG
AATGAATTAA AGAAGCTGCC AGCCCTTCCA ACACCAGCGC TGAAGGAGCA TCCTTCCCTC
GCTTACTGTG AGGATCGAGT CATTGAACAC TACAAGAAAC TAAATGGTCA GACAAGAGGT
CAAGCAATTG TGAATTACAT GAGCATTGTA GAATCCCTCC CGACATATGG AGTGCATTAT
TATGCAGTAA AGGACAAGCA GGGAATTCCA TGGTGGTTAG GACTTAGCTA CAAGGGGATT
TTTCAATATG ACTACCATGA CAAAGTGAAA CCAAGAAAGA TCTTTCAATG GAGGCAGCTG
GAGAACCTCT ATTTCCGCGA GAAGAAGTTC TCGGTGGAGG TGCACGATCC GCGCAGGGCA
TCTGTGACCA GAAGGACTTT TGGGCATAGT GGCATTGCTG TGCATACGTG GTACGCCTGT
CCAGCATTAA TAAAGTCTAT CTGGGCTATG GCCATTAGTC AGCATCAGTT CTACCTGGAC
AGGAAGCAAA GCAAGTCCAA GATTCATGCT GCAAGAAGCC TGAGTGAGAT TGCAATTGAC
CTGACTGAAA CTGGAACCCT CAAGACCTCA AAGCTGGCCA ACATGGGGAG TAAAGGCAAA
ATTATCAGTG GAAGCAGCGG GAGTCTTCTG TCATCAGGTT CCCAAGAGTC AGACAGTTCT
CAGTCTGCCA AGAAAGACAT GCTGGCTGCG CTGAAGTCCA GGCAAGAAGC TTTGGAAGAG
ACGCTGCGCC AGCGCTTGGA AGAGCTGAAG AAGCTGTGCC TGCGGGAAGC GGAGCTCACA
GGAAAGCTGC CACGAGAATA CCCCCTGGAT CCTGGGGAGG AGCCGCCTAT TGTAAGGAGA
AGAATAGGAA CTGCCTTTAA ACTGGATGAG CAGAAAATCC TGCCTAAGGG AGAGGAGGCA
GAGCTGGAGC GTCTGGAGAG GGAATTTGCC ATTCAGTCCC AGATCACGGA GGCTGCGCGG
CGCCTGGCCA GCGACCCGAA CGTCAGCAAA AAGCTGAAGA AGCAGAGGAA AACCTCCTAC
CTGAATGCCC TGAAGAAACT GCAGGAGATC GAGAACGCCA TCAATGAGTA TCGCATCAAA
TCCGGGAAGA AGCCAACGCA GAGAGCCTCC CTGATCATAG ATGAAGGAAA CATTGCCAGT
GAAGACAGCT CCCTCTCAGA TGCCCTTGTT CTTGAGGATG AGGACTCTCA GGTCACCAGC
ACAATCTCCC CTCTGCAGTC CCCACACAAA GGCCTCCCGC CGCGGCCGCC GCTGCACAAC
CGGCCGCCCC CGCCGCAGTC GCTGGAGGGC CTCCGCCAGA TGCACTTCCA CCGCAGCGAC
TACGACAAGT CCCCCATCAA GCCCAAGATG TGGAGCGAGT CATCCCTGGA TGAGCCCTAC
GAGAAGGTCA AGAAGCGCTC CTCGCACAGC CATTCCAGCA GTCACAAGCG GTTCCCCAGC
ACCGGGAGCT GTGCCGAGGC AGGAGGGAGC AGCTCGCTGC AGAACAGCCC CATCAGGAGC
CTTCCCCACT GGAATTCCCA GTCCAGCATG CCGTCGACGC CGGATCTACG GGTACGCAGT
CCGCACTACG TCCACTCCAC GCGGTCAGTA GATATCAGTC CAACCAGACT GCACAGCTTA
GCTCAGCACT TTAGACACCG GAGCTCCAGT TTGGAGTCAC AAGGAAAGCT CCTCGGCTCA
GAAAATGAGA CAGGGAGCCC TGATTTCTAC ACCCCAAGGA CTCGTAGCAG TAATGGCTCT
GACCCCATGG ACGACTGCTC TTCCTGCACC AGCCATTCCA GCTCGGAGCA CTACTACCCT
GCTCAGATGA ACCCCAACTA CTCCACCCTG GCAGAGGATT CCCCATCGAA AGCCAGAGAA
CGGCAGAGGC AAAGGCACAA ATCAGCAGGC AACCTGGTCT CTTCCAATTC AGGGAGCATG
CCCAACCTGG CTGCGAGGAA CGGGACGGGA CACCACCGTG TCTACCTGCA CAGCCAGAGC
CAGCCCTCCT CCCAGTACAG GATCAAAGAA TATCCCCTGT ACATCGAGGG CAGCTCCACA
CCCGTGGTGG TGCGGAGCCT GGAGAACGAC CAGGAGGGAC ACTACAGCGT GAAAGCACAA
TTCAAAACCT CCAACTCCTA CACAGCGGGG GGAATGTTTA AGGAGAACTG GCACGGGGAT
GAAGTGGACT CGGTCAGGCT CACCCCATCC CGCTCCCAGA TCATAAGGAC TCCATCTCTG
GGCAGGGAGG GCCACGAGAA GGGCTCGGGC AGGACTGCGG TGTCGGACGA GCTGCGGCTC
TGGTACCAGC GGTCCACGGC CTCCCACAAG GAGCACAGCC GCCTCTCGCA CACGAGCTCC
ACCTCCTCGG ACAGCAGCTC CCAGTACAGC ACATCTTCTC AAAGCACCTT TGTGGCACAC
AGCCGGGTCA CGAGAATGCC TCAGATGTGT AAAGCAACAT CAGCTGCCTT ACCTCACAGC
CAGAGGAGCT CCACGCCGTC CAGCGAGCTC GCAGCCACGC CGCCGGGCAG CCCCCACCAC
ATTCTCACGT GGCAGACTGG AGAAGCAACA GACAACTCAC CCACTATGGA TGAGTCTCAG
TCTCCAACCC ACCAAAGTAC TGATGAATAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd32465 Clone ID Related Accession (Same CDS sequence) XM_030290868.1 Accession Version XM_030290868.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3078bp)
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 FERM domain-containing protein 4A isoform X9 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044212.1) 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
3061ATGACAGAGG GTCGCAGATG CCAAGTGCAC CTCCTTGATG ACAGGAAGCT GGAGCTCCTT
GTTCAGCCAA AGCTTTTGGC CAAGGAGCTG CTTGACTTGG TGGCATCTCA TTTCAACCTG
AAGGAGAAGG AGTACTTTGG AATTGCATTC ACAGATGAAA CGGGACACTT GAACTGGCTT
CAGCTGGACC GCCGGGTGCT GGAACATGAC TTCCCCAAAA AGTCAGGACC AGTTGTTTTG
TACTTTTGTG TCAGGTTCTA CATTGAAAGC ATCTCCTATC TGAAGGACAA TGCCACCATC
GAGCTGTTTT TCTTGAACGC CAAGTCCTGC ATTTACAAGG AACTCATTGA GGTTGACAGT
GAAGTGGTGT TTGAACTGGC TGCATACATC TTGCAGGAGG CAAAGGGAGA TTTTTCAAGC
AATGAAGTTG TAAGGAATGA ATTAAAGAAG CTGCCAGCCC TTCCAACACC AGCGCTGAAG
GAGCATCCTT CCCTCGCTTA CTGTGAGGAT CGAGTCATTG AACACTACAA GAAACTAAAT
GGTCAGACAA GAGGTCAAGC AATTGTGAAT TACATGAGCA TTGTAGAATC CCTCCCGACA
TATGGAGTGC ATTATTATGC AGTAAAGGAC AAGCAGGGAA TTCCATGGTG GTTAGGACTT
AGCTACAAGG GGATTTTTCA ATATGACTAC CATGACAAAG TGAAACCAAG AAAGATCTTT
CAATGGAGGC AGCTGGAGAA CCTCTATTTC CGCGAGAAGA AGTTCTCGGT GGAGGTGCAC
GATCCGCGCA GGGCATCTGT GACCAGAAGG ACTTTTGGGC ATAGTGGCAT TGCTGTGCAT
ACGTGGTACG CCTGTCCAGC ATTAATAAAG TCTATCTGGG CTATGGCCAT TAGTCAGCAT
CAGTTCTACC TGGACAGGAA GCAAAGCAAG TCCAAGATTC ATGCTGCAAG AAGCCTGAGT
GAGATTGCAA TTGACCTGAC TGAAACTGGA ACCCTCAAGA CCTCAAAGCT GGCCAACATG
GGGAGTAAAG GCAAAATTAT CAGTGGAAGC AGCGGGAGTC TTCTGTCATC AGGTTCCCAA
GAGTCAGACA GTTCTCAGTC TGCCAAGAAA GACATGCTGG CTGCGCTGAA GTCCAGGCAA
GAAGCTTTGG AAGAGACGCT GCGCCAGCGC TTGGAAGAGC TGAAGAAGCT GTGCCTGCGG
GAAGCGGAGC TCACAGGAAA GCTGCCACGA GAATACCCCC TGGATCCTGG GGAGGAGCCG
CCTATTGTAA GGAGAAGAAT AGGAACTGCC TTTAAACTGG ATGAGCAGAA AATCCTGCCT
AAGGGAGAGG AGGCAGAGCT GGAGCGTCTG GAGAGGGAAT TTGCCATTCA GTCCCAGATC
ACGGAGGCTG CGCGGCGCCT GGCCAGCGAC CCGAACGTCA GCAAAAAGCT GAAGAAGCAG
AGGAAAACCT CCTACCTGAA TGCCCTGAAG AAACTGCAGG AGATCGAGAA CGCCATCAAT
GAGTATCGCA TCAAATCCGG GAAGAAGCCA ACGCAGAGAG CCTCCCTGAT CATAGATGAA
GGAAACATTG CCAGTGAAGA CAGCTCCCTC TCAGATGCCC TTGTTCTTGA GGATGAGGAC
TCTCAGGTCA CCAGCACAAT CTCCCCTCTG CAGTCCCCAC ACAAAGGCCT CCCGCCGCGG
CCGCCGCTGC ACAACCGGCC GCCCCCGCCG CAGTCGCTGG AGGGCCTCCG CCAGATGCAC
TTCCACCGCA GCGACTACGA CAAGTCCCCC ATCAAGCCCA AGATGTGGAG CGAGTCATCC
CTGGATGAGC CCTACGAGAA GGTCAAGAAG CGCTCCTCGC ACAGCCATTC CAGCAGTCAC
AAGCGGTTCC CCAGCACCGG GAGCTGTGCC GAGGCAGGAG GGAGCAGCTC GCTGCAGAAC
AGCCCCATCA GGAGCCTTCC CCACTGGAAT TCCCAGTCCA GCATGCCGTC GACGCCGGAT
CTACGGGTAC GCAGTCCGCA CTACGTCCAC TCCACGCGGT CAGTAGATAT CAGTCCAACC
AGACTGCACA GCTTAGCTCA GCACTTTAGA CACCGGAGCT CCAGTTTGGA GTCACAAGGA
AAGCTCCTCG GCTCAGAAAA TGAGACAGGG AGCCCTGATT TCTACACCCC AAGGACTCGT
AGCAGTAATG GCTCTGACCC CATGGACGAC TGCTCTTCCT GCACCAGCCA TTCCAGCTCG
GAGCACTACT ACCCTGCTCA GATGAACCCC AACTACTCCA CCCTGGCAGA GGATTCCCCA
TCGAAAGCCA GAGAACGGCA GAGGCAAAGG CACAAATCAG CAGGCAACCT GGTCTCTTCC
AATTCAGGGA GCATGCCCAA CCTGGCTGCG AGGAACGGGA CGGGACACCA CCGTGTCTAC
CTGCACAGCC AGAGCCAGCC CTCCTCCCAG TACAGGATCA AAGAATATCC CCTGTACATC
GAGGGCAGCT CCACACCCGT GGTGGTGCGG AGCCTGGAGA ACGACCAGGA GGGACACTAC
AGCGTGAAAG CACAATTCAA AACCTCCAAC TCCTACACAG CGGGGGGAAT GTTTAAGGAG
AACTGGCACG GGGATGAAGT GGACTCGGTC AGGCTCACCC CATCCCGCTC CCAGATCATA
AGGACTCCAT CTCTGGGCAG GGAGGGCCAC GAGAAGGGCT CGGGCAGGAC TGCGGTGTCG
GACGAGCTGC GGCTCTGGTA CCAGCGGTCC ACGGCCTCCC ACAAGGAGCA CAGCCGCCTC
TCGCACACGA GCTCCACCTC CTCGGACAGC AGCTCCCAGT ACAGCACATC TTCTCAAAGC
ACCTTTGTGG CACACAGCCG GGTCACGAGA ATGCCTCAGA TGTGTAAAGC AACATCAGCT
GCCTTACCTC ACAGCCAGAG GAGCTCCACG CCGTCCAGCG AGCTCGCAGC CACGCCGCCG
GGCAGCCCCC ACCACATTCT CACGTGGCAG ACTGGGAACT ACAATGATAG CTGTTTCCTG
GACTCTCCCC TCTATCCAGA ATTAGCAGAT GTCCAGTGGT ATGGGCAGGA AAAAGCCAAG
CCTGGAACTC TAGTGTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030146728.1 CDS 287..3364 Translation
Target ORF information:
RefSeq Version XM_030290868.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata FERM domain containing 4A (FRMD4A), transcript variant X14, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030290868.1
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
3061ATGACAGAGG GTCGCAGATG CCAAGTGCAC CTCCTTGATG ACAGGAAGCT GGAGCTCCTT
GTTCAGCCAA AGCTTTTGGC CAAGGAGCTG CTTGACTTGG TGGCATCTCA TTTCAACCTG
AAGGAGAAGG AGTACTTTGG AATTGCATTC ACAGATGAAA CGGGACACTT GAACTGGCTT
CAGCTGGACC GCCGGGTGCT GGAACATGAC TTCCCCAAAA AGTCAGGACC AGTTGTTTTG
TACTTTTGTG TCAGGTTCTA CATTGAAAGC ATCTCCTATC TGAAGGACAA TGCCACCATC
GAGCTGTTTT TCTTGAACGC CAAGTCCTGC ATTTACAAGG AACTCATTGA GGTTGACAGT
GAAGTGGTGT TTGAACTGGC TGCATACATC TTGCAGGAGG CAAAGGGAGA TTTTTCAAGC
AATGAAGTTG TAAGGAATGA ATTAAAGAAG CTGCCAGCCC TTCCAACACC AGCGCTGAAG
GAGCATCCTT CCCTCGCTTA CTGTGAGGAT CGAGTCATTG AACACTACAA GAAACTAAAT
GGTCAGACAA GAGGTCAAGC AATTGTGAAT TACATGAGCA TTGTAGAATC CCTCCCGACA
TATGGAGTGC ATTATTATGC AGTAAAGGAC AAGCAGGGAA TTCCATGGTG GTTAGGACTT
AGCTACAAGG GGATTTTTCA ATATGACTAC CATGACAAAG TGAAACCAAG AAAGATCTTT
CAATGGAGGC AGCTGGAGAA CCTCTATTTC CGCGAGAAGA AGTTCTCGGT GGAGGTGCAC
GATCCGCGCA GGGCATCTGT GACCAGAAGG ACTTTTGGGC ATAGTGGCAT TGCTGTGCAT
ACGTGGTACG CCTGTCCAGC ATTAATAAAG TCTATCTGGG CTATGGCCAT TAGTCAGCAT
CAGTTCTACC TGGACAGGAA GCAAAGCAAG TCCAAGATTC ATGCTGCAAG AAGCCTGAGT
GAGATTGCAA TTGACCTGAC TGAAACTGGA ACCCTCAAGA CCTCAAAGCT GGCCAACATG
GGGAGTAAAG GCAAAATTAT CAGTGGAAGC AGCGGGAGTC TTCTGTCATC AGGTTCCCAA
GAGTCAGACA GTTCTCAGTC TGCCAAGAAA GACATGCTGG CTGCGCTGAA GTCCAGGCAA
GAAGCTTTGG AAGAGACGCT GCGCCAGCGC TTGGAAGAGC TGAAGAAGCT GTGCCTGCGG
GAAGCGGAGC TCACAGGAAA GCTGCCACGA GAATACCCCC TGGATCCTGG GGAGGAGCCG
CCTATTGTAA GGAGAAGAAT AGGAACTGCC TTTAAACTGG ATGAGCAGAA AATCCTGCCT
AAGGGAGAGG AGGCAGAGCT GGAGCGTCTG GAGAGGGAAT TTGCCATTCA GTCCCAGATC
ACGGAGGCTG CGCGGCGCCT GGCCAGCGAC CCGAACGTCA GCAAAAAGCT GAAGAAGCAG
AGGAAAACCT CCTACCTGAA TGCCCTGAAG AAACTGCAGG AGATCGAGAA CGCCATCAAT
GAGTATCGCA TCAAATCCGG GAAGAAGCCA ACGCAGAGAG CCTCCCTGAT CATAGATGAA
GGAAACATTG CCAGTGAAGA CAGCTCCCTC TCAGATGCCC TTGTTCTTGA GGATGAGGAC
TCTCAGGTCA CCAGCACAAT CTCCCCTCTG CAGTCCCCAC ACAAAGGCCT CCCGCCGCGG
CCGCCGCTGC ACAACCGGCC GCCCCCGCCG CAGTCGCTGG AGGGCCTCCG CCAGATGCAC
TTCCACCGCA GCGACTACGA CAAGTCCCCC ATCAAGCCCA AGATGTGGAG CGAGTCATCC
CTGGATGAGC CCTACGAGAA GGTCAAGAAG CGCTCCTCGC ACAGCCATTC CAGCAGTCAC
AAGCGGTTCC CCAGCACCGG GAGCTGTGCC GAGGCAGGAG GGAGCAGCTC GCTGCAGAAC
AGCCCCATCA GGAGCCTTCC CCACTGGAAT TCCCAGTCCA GCATGCCGTC GACGCCGGAT
CTACGGGTAC GCAGTCCGCA CTACGTCCAC TCCACGCGGT CAGTAGATAT CAGTCCAACC
AGACTGCACA GCTTAGCTCA GCACTTTAGA CACCGGAGCT CCAGTTTGGA GTCACAAGGA
AAGCTCCTCG GCTCAGAAAA TGAGACAGGG AGCCCTGATT TCTACACCCC AAGGACTCGT
AGCAGTAATG GCTCTGACCC CATGGACGAC TGCTCTTCCT GCACCAGCCA TTCCAGCTCG
GAGCACTACT ACCCTGCTCA GATGAACCCC AACTACTCCA CCCTGGCAGA GGATTCCCCA
TCGAAAGCCA GAGAACGGCA GAGGCAAAGG CACAAATCAG CAGGCAACCT GGTCTCTTCC
AATTCAGGGA GCATGCCCAA CCTGGCTGCG AGGAACGGGA CGGGACACCA CCGTGTCTAC
CTGCACAGCC AGAGCCAGCC CTCCTCCCAG TACAGGATCA AAGAATATCC CCTGTACATC
GAGGGCAGCT CCACACCCGT GGTGGTGCGG AGCCTGGAGA ACGACCAGGA GGGACACTAC
AGCGTGAAAG CACAATTCAA AACCTCCAAC TCCTACACAG CGGGGGGAAT GTTTAAGGAG
AACTGGCACG GGGATGAAGT GGACTCGGTC AGGCTCACCC CATCCCGCTC CCAGATCATA
AGGACTCCAT CTCTGGGCAG GGAGGGCCAC GAGAAGGGCT CGGGCAGGAC TGCGGTGTCG
GACGAGCTGC GGCTCTGGTA CCAGCGGTCC ACGGCCTCCC ACAAGGAGCA CAGCCGCCTC
TCGCACACGA GCTCCACCTC CTCGGACAGC AGCTCCCAGT ACAGCACATC TTCTCAAAGC
ACCTTTGTGG CACACAGCCG GGTCACGAGA ATGCCTCAGA TGTGTAAAGC AACATCAGCT
GCCTTACCTC ACAGCCAGAG GAGCTCCACG CCGTCCAGCG AGCTCGCAGC CACGCCGCCG
GGCAGCCCCC ACCACATTCT CACGTGGCAG ACTGGGAACT ACAATGATAG CTGTTTCCTG
GACTCTCCCC TCTATCCAGA ATTAGCAGAT GTCCAGTGGT ATGGGCAGGA AAAAGCCAAG
CCTGGAACTC TAGTGTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd32466 Clone ID Related Accession (Same CDS sequence) XM_030290879.1 Accession Version XM_030290879.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3078bp)
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 FERM domain-containing protein 4A isoform X10 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044212.1) 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
3061ATGGAAGGGC TTCTGTCTCC GATGAGAACG AAGATGACAG AGGGTCGCAG ATGCCAAGTG
CACCTCCTTG ATGACAGGAA GCTGGAGCTC CTTGTTCAGC CAAAGCTTTT GGCCAAGGAG
CTGCTTGACT TGGTGGCATC TCATTTCAAC CTGAAGGAGA AGGAGTACTT TGGAATTGCA
TTCACAGATG AAACGGGACA CTTGAACTGG CTTCAGCTGG ACCGCCGGGT GCTGGAACAT
GACTTCCCCA AAAAGTCAGG ACCAGTTGTT TTGTACTTTT GTGTCAGGTT CTACATTGAA
AGCATCTCCT ATCTGAAGGA CAATGCCACC ATCGAGCTGT TTTTCTTGAA CGCCAAGTCC
TGCATTTACA AGGAACTCAT TGAGGTTGAC AGTGAAGTGG TGTTTGAACT GGCTGCATAC
ATCTTGCAGG AGGCAAAGGG AGATTTTTCA AGCAATGAAG TTGTAAGGAA TGAATTAAAG
AAGCTGCCAG CCCTTCCAAC ACCAGCGCTG AAGGAGCATC CTTCCCTCGC TTACTGTGAG
GATCGAGTCA TTGAACACTA CAAGAAACTA AATGGTCAGA CAAGAGGTCA AGCAATTGTG
AATTACATGA GCATTGTAGA ATCCCTCCCG ACATATGGAG TGCATTATTA TGCAGTAAAG
GACAAGCAGG GAATTCCATG GTGGTTAGGA CTTAGCTACA AGGGGATTTT TCAATATGAC
TACCATGACA AAGTGAAACC AAGAAAGATC TTTCAATGGA GGCAGCTGGA GAACCTCTAT
TTCCGCGAGA AGAAGTTCTC GGTGGAGGTG CACGATCCGC GCAGGGCATC TGTGACCAGA
AGGACTTTTG GGCATAGTGG CATTGCTGTG CATACGTGGT ACGCCTGTCC AGCATTAATA
AAGTCTATCT GGGCTATGGC CATTAGTCAG CATCAGTTCT ACCTGGACAG GAAGCAAAGC
AAGTCCAAGA TTCATGCTGC AAGAAGCCTG AGTGAGATTG CAATTGACCT GACTGAAACT
GGAACCCTCA AGACCTCAAA GCTGGCCAAC ATGGGGAGTA AAGGCAAAAT TATCAGTGGA
AGCAGCGGGA GTCTTCTGTC ATCAGGTTCC CAAGAGTCAG ACAGTTCTCA GTCTGCCAAG
AAAGACATGC TGGCTGCGCT GAAGTCCAGG CAAGAAGCTT TGGAAGAGAC GCTGCGCCAG
CGCTTGGAAG AGCTGAAGAA GCTGTGCCTG CGGGAAGCGG AGCTCACAGG AAAGCTGCCA
CGAGAATACC CCCTGGATCC TGGGGAGGAG CCGCCTATTG TAAGGAGAAG AATAGGAACT
GCCTTTAAAC TGGATGAGCA GAAAATCCTG CCTAAGGGAG AGGAGGCAGA GCTGGAGCGT
CTGGAGAGGG AATTTGCCAT TCAGTCCCAG ATCACGGAGG CTGCGCGGCG CCTGGCCAGC
GACCCGAACG TCAGCAAAAA GCTGAAGAAG CAGAGGAAAA CCTCCTACCT GAATGCCCTG
AAGAAACTGC AGGAGATCGA GAACGCCATC AATGAGTATC GCATCAAATC CGGGAAGAAG
CCAACGCAGA GAGCCTCCCT GATCATAGAT GAAGGAAACA TTGCCAGTGA AGACAGCTCC
CTCTCAGATG CCCTTGTTCT TGAGGATGAG GACTCTCAGG TCACCAGCAC AATCTCCCCT
CTGCAGTCCC CACACAAAGG CCTCCCGCCG CGGCCGCCGC TGCACAACCG GCCGCCCCCG
CCGCAGTCGC TGGAGGGCCT CCGCCAGATG CACTTCCACC GCAGCGACTA CGACAAGTCC
CCCATCAAGC CCAAGATGTG GAGCGAGTCA TCCCTGGATG AGCCCTACGA GAAGGTCAAG
AAGCGCTCCT CGCACAGCCA TTCCAGCAGT CACAAGCGGT TCCCCAGCAC CGGGAGCTGT
GCCGAGGCAG GAGGGAGCAG CTCGCTGCAG AACAGCCCCA TCAGGAGCCT TCCCCACTGG
AATTCCCAGT CCAGCATGCC GTCGACGCCG GATCTACGGG TACGCAGTCC GCACTACGTC
CACTCCACGC GGTCAGTAGA TATCAGTCCA ACCAGACTGC ACAGCTTAGC TCAGCACTTT
AGACACCGGA GCTCCAGTTT GGAGTCACAA GGAAAGCTCC TCGGCTCAGA AAATGAGACA
GGGAGCCCTG ATTTCTACAC CCCAAGGACT CGTAGCAGTA ATGGCTCTGA CCCCATGGAC
GACTGCTCTT CCTGCACCAG CCATTCCAGC TCGGAGCACT ACTACCCTGC TCAGATGAAC
CCCAACTACT CCACCCTGGC AGAGGATTCC CCATCGAAAG CCAGAGAACG GCAGAGGCAA
AGGCACAAAT CAGCAGGCAA CCTGGTCTCT TCCAATTCAG GGAGCATGCC CAACCTGGCT
GCGAGGAACG GGACGGGACA CCACCGTGTC TACCTGCACA GCCAGAGCCA GCCCTCCTCC
CAGTACAGGA TCAAAGAATA TCCCCTGTAC ATCGAGGGCA GCTCCACACC CGTGGTGGTG
CGGAGCCTGG AGAACGACCA GGAGGGACAC TACAGCGTGA AAGCACAATT CAAAACCTCC
AACTCCTACA CAGCGGGGGG AATGTTTAAG GAGAACTGGC ACGGGGATGA AGTGGACTCG
GTCAGGCTCA CCCCATCCCG CTCCCAGATC ATAAGGACTC CATCTCTGGG CAGGGAGGGC
CACGAGAAGG GCTCGGGCAG GACTGCGGTG TCGGACGAGC TGCGGCTCTG GTACCAGCGG
TCCACGGCCT CCCACAAGGA GCACAGCCGC CTCTCGCACA CGAGCTCCAC CTCCTCGGAC
AGCAGCTCCC AGTACAGCAC ATCTTCTCAA AGCACCTTTG TGGCACACAG CCGGGTCACG
AGAATGCCTC AGATGTGTAA AGCAACATCA GCTGCCTTAC CTCACAGCCA GAGGAGCTCC
ACGCCGTCCA GCGAGCTCGC AGCCACGCCG CCGGGCAGCC CCCACCACAT TCTCACGTGG
CAGACTGGAG AAGCAACAGA CAACTCACCC ACTATGGATG AGTCTCAGTC TCCAACCCAC
CAAAGTACTG ATGAATAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030146739.1 CDS 470..3547 Translation
Target ORF information:
RefSeq Version XM_030290879.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata FERM domain containing 4A (FRMD4A), transcript variant X15, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030290879.1
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
3061ATGGAAGGGC TTCTGTCTCC GATGAGAACG AAGATGACAG AGGGTCGCAG ATGCCAAGTG
CACCTCCTTG ATGACAGGAA GCTGGAGCTC CTTGTTCAGC CAAAGCTTTT GGCCAAGGAG
CTGCTTGACT TGGTGGCATC TCATTTCAAC CTGAAGGAGA AGGAGTACTT TGGAATTGCA
TTCACAGATG AAACGGGACA CTTGAACTGG CTTCAGCTGG ACCGCCGGGT GCTGGAACAT
GACTTCCCCA AAAAGTCAGG ACCAGTTGTT TTGTACTTTT GTGTCAGGTT CTACATTGAA
AGCATCTCCT ATCTGAAGGA CAATGCCACC ATCGAGCTGT TTTTCTTGAA CGCCAAGTCC
TGCATTTACA AGGAACTCAT TGAGGTTGAC AGTGAAGTGG TGTTTGAACT GGCTGCATAC
ATCTTGCAGG AGGCAAAGGG AGATTTTTCA AGCAATGAAG TTGTAAGGAA TGAATTAAAG
AAGCTGCCAG CCCTTCCAAC ACCAGCGCTG AAGGAGCATC CTTCCCTCGC TTACTGTGAG
GATCGAGTCA TTGAACACTA CAAGAAACTA AATGGTCAGA CAAGAGGTCA AGCAATTGTG
AATTACATGA GCATTGTAGA ATCCCTCCCG ACATATGGAG TGCATTATTA TGCAGTAAAG
GACAAGCAGG GAATTCCATG GTGGTTAGGA CTTAGCTACA AGGGGATTTT TCAATATGAC
TACCATGACA AAGTGAAACC AAGAAAGATC TTTCAATGGA GGCAGCTGGA GAACCTCTAT
TTCCGCGAGA AGAAGTTCTC GGTGGAGGTG CACGATCCGC GCAGGGCATC TGTGACCAGA
AGGACTTTTG GGCATAGTGG CATTGCTGTG CATACGTGGT ACGCCTGTCC AGCATTAATA
AAGTCTATCT GGGCTATGGC CATTAGTCAG CATCAGTTCT ACCTGGACAG GAAGCAAAGC
AAGTCCAAGA TTCATGCTGC AAGAAGCCTG AGTGAGATTG CAATTGACCT GACTGAAACT
GGAACCCTCA AGACCTCAAA GCTGGCCAAC ATGGGGAGTA AAGGCAAAAT TATCAGTGGA
AGCAGCGGGA GTCTTCTGTC ATCAGGTTCC CAAGAGTCAG ACAGTTCTCA GTCTGCCAAG
AAAGACATGC TGGCTGCGCT GAAGTCCAGG CAAGAAGCTT TGGAAGAGAC GCTGCGCCAG
CGCTTGGAAG AGCTGAAGAA GCTGTGCCTG CGGGAAGCGG AGCTCACAGG AAAGCTGCCA
CGAGAATACC CCCTGGATCC TGGGGAGGAG CCGCCTATTG TAAGGAGAAG AATAGGAACT
GCCTTTAAAC TGGATGAGCA GAAAATCCTG CCTAAGGGAG AGGAGGCAGA GCTGGAGCGT
CTGGAGAGGG AATTTGCCAT TCAGTCCCAG ATCACGGAGG CTGCGCGGCG CCTGGCCAGC
GACCCGAACG TCAGCAAAAA GCTGAAGAAG CAGAGGAAAA CCTCCTACCT GAATGCCCTG
AAGAAACTGC AGGAGATCGA GAACGCCATC AATGAGTATC GCATCAAATC CGGGAAGAAG
CCAACGCAGA GAGCCTCCCT GATCATAGAT GAAGGAAACA TTGCCAGTGA AGACAGCTCC
CTCTCAGATG CCCTTGTTCT TGAGGATGAG GACTCTCAGG TCACCAGCAC AATCTCCCCT
CTGCAGTCCC CACACAAAGG CCTCCCGCCG CGGCCGCCGC TGCACAACCG GCCGCCCCCG
CCGCAGTCGC TGGAGGGCCT CCGCCAGATG CACTTCCACC GCAGCGACTA CGACAAGTCC
CCCATCAAGC CCAAGATGTG GAGCGAGTCA TCCCTGGATG AGCCCTACGA GAAGGTCAAG
AAGCGCTCCT CGCACAGCCA TTCCAGCAGT CACAAGCGGT TCCCCAGCAC CGGGAGCTGT
GCCGAGGCAG GAGGGAGCAG CTCGCTGCAG AACAGCCCCA TCAGGAGCCT TCCCCACTGG
AATTCCCAGT CCAGCATGCC GTCGACGCCG GATCTACGGG TACGCAGTCC GCACTACGTC
CACTCCACGC GGTCAGTAGA TATCAGTCCA ACCAGACTGC ACAGCTTAGC TCAGCACTTT
AGACACCGGA GCTCCAGTTT GGAGTCACAA GGAAAGCTCC TCGGCTCAGA AAATGAGACA
GGGAGCCCTG ATTTCTACAC CCCAAGGACT CGTAGCAGTA ATGGCTCTGA CCCCATGGAC
GACTGCTCTT CCTGCACCAG CCATTCCAGC TCGGAGCACT ACTACCCTGC TCAGATGAAC
CCCAACTACT CCACCCTGGC AGAGGATTCC CCATCGAAAG CCAGAGAACG GCAGAGGCAA
AGGCACAAAT CAGCAGGCAA CCTGGTCTCT TCCAATTCAG GGAGCATGCC CAACCTGGCT
GCGAGGAACG GGACGGGACA CCACCGTGTC TACCTGCACA GCCAGAGCCA GCCCTCCTCC
CAGTACAGGA TCAAAGAATA TCCCCTGTAC ATCGAGGGCA GCTCCACACC CGTGGTGGTG
CGGAGCCTGG AGAACGACCA GGAGGGACAC TACAGCGTGA AAGCACAATT CAAAACCTCC
AACTCCTACA CAGCGGGGGG AATGTTTAAG GAGAACTGGC ACGGGGATGA AGTGGACTCG
GTCAGGCTCA CCCCATCCCG CTCCCAGATC ATAAGGACTC CATCTCTGGG CAGGGAGGGC
CACGAGAAGG GCTCGGGCAG GACTGCGGTG TCGGACGAGC TGCGGCTCTG GTACCAGCGG
TCCACGGCCT CCCACAAGGA GCACAGCCGC CTCTCGCACA CGAGCTCCAC CTCCTCGGAC
AGCAGCTCCC AGTACAGCAC ATCTTCTCAA AGCACCTTTG TGGCACACAG CCGGGTCACG
AGAATGCCTC AGATGTGTAA AGCAACATCA GCTGCCTTAC CTCACAGCCA GAGGAGCTCC
ACGCCGTCCA GCGAGCTCGC AGCCACGCCG CCGGGCAGCC CCCACCACAT TCTCACGTGG
CAGACTGGAG AAGCAACAGA CAACTCACCC ACTATGGATG AGTCTCAGTC TCCAACCCAC
CAAAGTACTG ATGAATAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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