| Gene Symbol | FYCO1 |
| Entrez Gene ID | 100219704 |
| Full Name | FYVE and coiled-coil domain containing 1 |
| Gene Type | protein-coding |
| Organism | Taeniopygia guttata(zebra finch) |
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FYCO1 cDNA ORF clone, Taeniopygia guttata(zebra finch)
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Gene
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Clones
gRNAs
The following FYCO1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the FYCO1 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 OTd34962 Clone ID Related Accession (Same CDS sequence) XM_030265117.1 Accession Version XM_030265117.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3153bp)
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 FYVE and coiled-coil domain-containing protein 1 isoform X4 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044213.1) 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
3121ATGGCAGCAA TGAGTGGCGA AAGCCAGCTG CAGCGGATTA TCAGAGACTT GCAAGATGCA
GTGACTGAAT TAAGTAAAGA ATTTAAAGAA GGAGGTGAAC CGATCACAGA TGACAGTGTC
AACTTGCAAA AATTCTCCTA CAAGCTTGAA TACCTCTTAC AGTTTGACCA GAAAGAAAAA
AGCACATTGC TGGGGAACAG AAAAGATTAC TGGGATTATT TCTGTGACTG TCTGGCAAAA
ATCAAAGGAG CTAATGATGG AATCCGCTTT GTCAAGTCTA TTACAGAACT ACGAACCTCT
CTTGGAAAAG GAAGAGCATT TCTTCGTTAC TCCCTGGTTC ACCAAAGGCT AGCAGACACC
TTGCAGCAAT GTTTTATGAA CACTAAAGTG ACCAGTGACT GGTACTATGC AAGAAGTCCA
TTTCTGAATT CCAAAATGAG TTCTGACATT GTGGGTCAAC TCTATGAGCT CACTGATGTT
CAGTTTGACT TAGCATCAAG AGGCTATGAT TTAGATGCTG CTTGGCCAAC ATTTGCCAGG
AGGACACTGT CCTCACTTGG ATCTTCAGCA TATTTATGGA AGCCCCCAAG TCGCAGTTCC
AGCATGAGCA GTTTAGTGAG CAATTATTTG CAGGCACAAG AGTTTCCTTC CAGCCCTGAT
GTAAATAACT CACTAAATGT TGAACACCTT GAGGGCTACG AAGAGATGCG TTTAGAACTT
GACCAGGCTG AGCTGAGGCA GAGGGAACTT CAAGATCGTA TTCACCAGCT AGAAATTGAA
AACCAGGAGC TCCAGGCAGC TGTCAGCCTT CAAAAGGAGC AAGTACAGGT AGAAAAGGAG
AAGAGCAATA ACTACAGTGA GGAGAACTCC CGGCTGACAA AGATGATCGC AGAGTTACAG
AAGCAGTGTG AGGTGTCACA CTCCACTCAG AGCACTGTGC ATGACCTGCA GAAGTGCCTA
CAGTCACTGG AACTGAGTGC AGCAGAGCAG CAGAAGGAAC ACTTAACAAA GGTGGAACAG
CTGTTGACCA GCAAGGAAGA TTGTGCCTCA AAATTGCAGG TTTCGAATCA GGAGCTGGAG
ACCTCTAGGG CTTTGATTGC TGTGAAGGAT CTTTGCATTG ATGAGCTCAA AGCCAAGCTG
AGTTCCACAG AACAGAAGAA CCTCAACCTC CTTGCAAAAG TTGATGCTGC CTTGGACGAA
AAGGGACAGC AAGCCACAGC CCAGTATGAC TCTGCCCTAC AAATACAGGC GCTGTTAGAG
AAGCTTCAGG AGATGGAAAA GGAAAAGGCA GATATGCAAA GACTCAATGC TGAACATGCA
TCTCAGCTGA AAGCAGCAAG GGAGGAGCTG CTGCTGAAAG AACAGGCACA GAAGGAACTG
GAATCCAGAT ACAACAGCCT TACTACTAAC TCTAAAGAAG AGAGTGAAAA GCTGACTGGG
AGCCTGGAGA CAATGGCAAA GGAAAAGGAT GCACTTCAGA AGGCCCTGAC TCTGAAAGGA
AAGGAGATGG CTGAGCTCCA GACCCAGGTA ATGGGGTCGC TGGCTCAGGT GGGTTCACTG
GAAAAAAGTC TTGAGGATAC CAGGAAGGAA AAAGAGAAAC TTGAGGAGGA GTATGCTAGG
AGAGAAGGAG CACTGAAGCA GGAAGCCCAG TCACAAGCAG AGCAACTTGA ACTACAGGAG
GGTCGCTTAA CAAAGGCTGT CAGTGAGGAG TGTGGGAAAG TAAGAGAGCA ACTTGAGGAG
CAGAAGCGAC AACAGCATGC AGCGGAGGAA GAGATTACAG AGTTACAAGC TGCAAACACG
AGTTTGTGCA GAAAGCTGGA TGAAACAAGA GAGCAGCTGT CAGAATCAGA ATCTGCTCGG
CTGCAGAAGG AAGAGGAAGT GACTTCTCTT AGAGAACTCT TGGAAAGGAT CCAAAAAGAA
GCTGATGAAG CAAAAGAGAA GATCCTGGAT TACACTGAGA AGCTCAGCAA GGTGGCAGCA
GACAAAGATA GCAGTGACCA GAAGTTATTT GCTGAGCTGG ATGATCTGAC AAGAACAAAG
CAGTTCCTTG AAGAACGTTT GATAGAACTT ATCAGAGACA AGGATGCTTT GTGGCAAAAG
TCTGATGCTC TGGAGTTCCA GCAGAAGCTT AGTGCAGAGC AGAGGTGGCA GGGGGACACA
GAAGTTAATC ACTGTCTGGA CTGCCAGAGA GAGTTCTCGT GGATGGTGCG CCGACACCAC
TGCAGAATGT GTGGCCGCAT TTTCTGCTAC TACTGCTGCA ATAACTACAT GGTGACAAAG
CTTGGTGGAA AAAAGGAGCG TTGCTGCAGA GCTTGCTTTA ATAAGCCTAG AGTCATTGTG
GACAGTACAG ATGACTCTGG ATCCAGTGCC AACCAGGAAG GATCACCGGC TTCATTGGAA
TCACCTGTCT CACCATCTGA GAGAGCTTTT GTTGCAAGTG AAGCCTCTAA ACCACCAGAT
GATGCAGCTT TTGATATAAT CACTGATGAG GAGCTGTGCC AAGTACAGGA ATCAGATTCT
CTGCACAATG AAAGTCAGAT GGAGAGAGAC TCTCTGGATC AAAGTGTGAC AGATCTATGT
GTTTGCTGGG CTAAGCAGCT GTTAGGGGCT CTGTACAGCC TCCAGTCTCC GTTTCAGGTT
TCTGCCTTTC ACACAATTCG AAACAGCACG TGTAATTCTT CAACTTTCGA TGAATCCGAA
GACTGGCAAG TTGCTCAAGA TGCTGAGATA TGCTTGTTGA AATCAGGAGA AATTATGAAT
AAATTACCCC TTACAGTAGA AGAGATCATG AATTTTGGAG AAAGCAACAG GGAGCTGTTC
ATCAAATCCA GCACCTATAG TATCATTCCC ATCACTGTTA CAGAGATGGG ACTAACAATC
AGCTGGATCT TCTCATCAGA CCCCAAAAGC ATATCCTTCA GTGTTGTTTA CCAAGAGTCT
GAAGACACAC CGCTGGATCA GTGCAAAGTT CTTATCCCTA TGACTCGCTG CAACTCTCAT
AAGGAAACTA TCAGTGGACA GGTGAAAGTC AGAAACGCTG GAATCTATAC GCTGATATTT
GACAACACAT TCTCTAGGTT TATCTCAAAA AGAGTGTTTT ATCACTTGGC TGTTGAGCGA
CCTGTCATCT ATGATGGAAG TGATTTTCCA TAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030120977.1 CDS 212..3364 Translation 
Target ORF information:
RefSeq Version XM_030265117.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata FYVE and coiled-coil domain containing 1 (FYCO1), transcript variant X9, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_030265117.1
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
3121ATGGCAGCAA TGAGTGGCGA AAGCCAGCTG CAGCGGATTA TCAGAGACTT GCAAGATGCA
GTGACTGAAT TAAGTAAAGA ATTTAAAGAA GGAGGTGAAC CGATCACAGA TGACAGTGTC
AACTTGCAAA AATTCTCCTA CAAGCTTGAA TACCTCTTAC AGTTTGACCA GAAAGAAAAA
AGCACATTGC TGGGGAACAG AAAAGATTAC TGGGATTATT TCTGTGACTG TCTGGCAAAA
ATCAAAGGAG CTAATGATGG AATCCGCTTT GTCAAGTCTA TTACAGAACT ACGAACCTCT
CTTGGAAAAG GAAGAGCATT TCTTCGTTAC TCCCTGGTTC ACCAAAGGCT AGCAGACACC
TTGCAGCAAT GTTTTATGAA CACTAAAGTG ACCAGTGACT GGTACTATGC AAGAAGTCCA
TTTCTGAATT CCAAAATGAG TTCTGACATT GTGGGTCAAC TCTATGAGCT CACTGATGTT
CAGTTTGACT TAGCATCAAG AGGCTATGAT TTAGATGCTG CTTGGCCAAC ATTTGCCAGG
AGGACACTGT CCTCACTTGG ATCTTCAGCA TATTTATGGA AGCCCCCAAG TCGCAGTTCC
AGCATGAGCA GTTTAGTGAG CAATTATTTG CAGGCACAAG AGTTTCCTTC CAGCCCTGAT
GTAAATAACT CACTAAATGT TGAACACCTT GAGGGCTACG AAGAGATGCG TTTAGAACTT
GACCAGGCTG AGCTGAGGCA GAGGGAACTT CAAGATCGTA TTCACCAGCT AGAAATTGAA
AACCAGGAGC TCCAGGCAGC TGTCAGCCTT CAAAAGGAGC AAGTACAGGT AGAAAAGGAG
AAGAGCAATA ACTACAGTGA GGAGAACTCC CGGCTGACAA AGATGATCGC AGAGTTACAG
AAGCAGTGTG AGGTGTCACA CTCCACTCAG AGCACTGTGC ATGACCTGCA GAAGTGCCTA
CAGTCACTGG AACTGAGTGC AGCAGAGCAG CAGAAGGAAC ACTTAACAAA GGTGGAACAG
CTGTTGACCA GCAAGGAAGA TTGTGCCTCA AAATTGCAGG TTTCGAATCA GGAGCTGGAG
ACCTCTAGGG CTTTGATTGC TGTGAAGGAT CTTTGCATTG ATGAGCTCAA AGCCAAGCTG
AGTTCCACAG AACAGAAGAA CCTCAACCTC CTTGCAAAAG TTGATGCTGC CTTGGACGAA
AAGGGACAGC AAGCCACAGC CCAGTATGAC TCTGCCCTAC AAATACAGGC GCTGTTAGAG
AAGCTTCAGG AGATGGAAAA GGAAAAGGCA GATATGCAAA GACTCAATGC TGAACATGCA
TCTCAGCTGA AAGCAGCAAG GGAGGAGCTG CTGCTGAAAG AACAGGCACA GAAGGAACTG
GAATCCAGAT ACAACAGCCT TACTACTAAC TCTAAAGAAG AGAGTGAAAA GCTGACTGGG
AGCCTGGAGA CAATGGCAAA GGAAAAGGAT GCACTTCAGA AGGCCCTGAC TCTGAAAGGA
AAGGAGATGG CTGAGCTCCA GACCCAGGTA ATGGGGTCGC TGGCTCAGGT GGGTTCACTG
GAAAAAAGTC TTGAGGATAC CAGGAAGGAA AAAGAGAAAC TTGAGGAGGA GTATGCTAGG
AGAGAAGGAG CACTGAAGCA GGAAGCCCAG TCACAAGCAG AGCAACTTGA ACTACAGGAG
GGTCGCTTAA CAAAGGCTGT CAGTGAGGAG TGTGGGAAAG TAAGAGAGCA ACTTGAGGAG
CAGAAGCGAC AACAGCATGC AGCGGAGGAA GAGATTACAG AGTTACAAGC TGCAAACACG
AGTTTGTGCA GAAAGCTGGA TGAAACAAGA GAGCAGCTGT CAGAATCAGA ATCTGCTCGG
CTGCAGAAGG AAGAGGAAGT GACTTCTCTT AGAGAACTCT TGGAAAGGAT CCAAAAAGAA
GCTGATGAAG CAAAAGAGAA GATCCTGGAT TACACTGAGA AGCTCAGCAA GGTGGCAGCA
GACAAAGATA GCAGTGACCA GAAGTTATTT GCTGAGCTGG ATGATCTGAC AAGAACAAAG
CAGTTCCTTG AAGAACGTTT GATAGAACTT ATCAGAGACA AGGATGCTTT GTGGCAAAAG
TCTGATGCTC TGGAGTTCCA GCAGAAGCTT AGTGCAGAGC AGAGGTGGCA GGGGGACACA
GAAGTTAATC ACTGTCTGGA CTGCCAGAGA GAGTTCTCGT GGATGGTGCG CCGACACCAC
TGCAGAATGT GTGGCCGCAT TTTCTGCTAC TACTGCTGCA ATAACTACAT GGTGACAAAG
CTTGGTGGAA AAAAGGAGCG TTGCTGCAGA GCTTGCTTTA ATAAGCCTAG AGTCATTGTG
GACAGTACAG ATGACTCTGG ATCCAGTGCC AACCAGGAAG GATCACCGGC TTCATTGGAA
TCACCTGTCT CACCATCTGA GAGAGCTTTT GTTGCAAGTG AAGCCTCTAA ACCACCAGAT
GATGCAGCTT TTGATATAAT CACTGATGAG GAGCTGTGCC AAGTACAGGA ATCAGATTCT
CTGCACAATG AAAGTCAGAT GGAGAGAGAC TCTCTGGATC AAAGTGTGAC AGATCTATGT
GTTTGCTGGG CTAAGCAGCT GTTAGGGGCT CTGTACAGCC TCCAGTCTCC GTTTCAGGTT
TCTGCCTTTC ACACAATTCG AAACAGCACG TGTAATTCTT CAACTTTCGA TGAATCCGAA
GACTGGCAAG TTGCTCAAGA TGCTGAGATA TGCTTGTTGA AATCAGGAGA AATTATGAAT
AAATTACCCC TTACAGTAGA AGAGATCATG AATTTTGGAG AAAGCAACAG GGAGCTGTTC
ATCAAATCCA GCACCTATAG TATCATTCCC ATCACTGTTA CAGAGATGGG ACTAACAATC
AGCTGGATCT TCTCATCAGA CCCCAAAAGC ATATCCTTCA GTGTTGTTTA CCAAGAGTCT
GAAGACACAC CGCTGGATCA GTGCAAAGTT CTTATCCCTA TGACTCGCTG CAACTCTCAT
AAGGAAACTA TCAGTGGACA GGTGAAAGTC AGAAACGCTG GAATCTATAC GCTGATATTT
GACAACACAT TCTCTAGGTT TATCTCAAAA AGAGTGTTTT ATCACTTGGC TGTTGAGCGA
CCTGTCATCT ATGATGGAAG TGATTTTCCA TAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd07167 Clone ID Related Accession (Same CDS sequence) XM_004175379.2 Accession Version XM_004175379.2 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 4638bp)
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 FYVE and coiled-coil domain-containing protein 1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002198270.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On May 26, 2015 this sequence version replaced XM_004175379.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Taeniopygia guttata Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621ATGGCAGCAA TGAGTGGCGA AAGCCAGCTG CAGCGGATTA TCAGAGACTT GCAAGATGCA
GTGACTGAAT TAAGTAAAGA ATTTAAAGAA GGAGGTGAAC CGATCACAGA TGACAGTGTC
AACTTGCAAA AATTCTCCTA CAAGCTTGAG TACCTCTTAC AGTTTGACCA GAAAGAAAAA
AGCACATTGC TGGGGAACAG AAAAGATTAC TGGGATTATT TCTGTGACTG TCTGGCAAAA
ATCAAAGGAG CTAATGATGG AATCCGCTTT GTCAAGTCTA TTACAGAACT ACGAACCTCT
CTTGGAAAAG GAAGAGCATT TCTTCGTTAT TCCCTGGTTC ACCAAAGGCT AGCAGACACC
TTGCAGCAAT GTTTTATGAA CACTAAAGTG ACCAGTGACT GGTACTATGC AAGAAGTCCA
TTTCTGAATT CCAAAATGAG TTCTGACATT GTGGGTCAAC TCTATGAGCT CACTGATGTT
CAGTTTGACT TAGCATCAAG AGGCTATGAT TTAGATGCTG CTTGGCCAAC ATTTGCCAGG
AGGACACTGT CCTCACTTGG ATCTTCAGCA TATTTATGGA AGCCCCCAAG TCGCAGTTCC
AGCATGAGCA GTTTAGTGAG CAATTACTTG CAGGCACAAG AGTTTCCTTC CAGCCCTGAT
GTAAATAACT CACTAAATGT TGAACACCTT GAGGGCTACG AAGAGATGCG TTTAGAACTT
GACCAGGCTG AGCTAAGGCA GAGGGAACTT CAAGATCGTA TTCACCAGCT AGAAATTGAA
AACCAGGAGC TCCAGGCAGC TGTCAGCCTT CAAAAGGAGC AAGTACAGGT AGAAAAGGAG
AAGAGCAATA ACTACAGTGA GGAGAACTCC CGGCTGACAA AGATGATCGC AGAGTTACAG
AAGCAGTGTG AGGTGTCACA CTCCACTCAG AGCACTGTGC ATGACCTGCA GAAGTGCCTA
CAGTCACTGG AACTGAGTGC AGCGGAGCAG CAGAAGGAAC ACTTAACAAA GGTGGAGCAG
CTGTTGACCA GCAAGGAAGA TTGTGCCTCA AAATTGCAGG TTTCGAATCA GGAGCTGGAG
ACCTCTAGGG CTTTGATTGC TGTGAAGGAT CTTTGCATTG ATGAGCTCAA AGCCAAGCTG
AGTTCCACAG AACAGAAGAA CCTCAACCTC CTTGCAAAAG TTGATGCTGC CTTGGACGAA
AAGGGACAGC AAGCCACAGC CCAGTATGAC TCTGCCCTAC AAATACAGGC GCTGTTAGAG
AAGCTTCAGG AGATGGAAAA GGAAAAGGCA GATATGCAAA GACTCAATGC TGAACATGCA
TCTCAGCTGA AAGCAGCAAG GGAGGAGCTG CTGCTGAAAG AACAGGCACA GAAGGAACTG
GAATCCAGAT ACAACAGCCT TACTACTAAC TCTAAAGAAG AGAGTGAAAA GCTGACTGGG
AGCCTGGAGA CAATGGCAAA GGAAAAGGAT GCACTTCAGA AGGCCCTGAC TCTGAAAGGA
AAGGAGATGG CTGAGCTCCA GACCCAGGTA ATGGGGTCGC TGGCTCAGGT GGGTTCACTG
GAAAAAAGTC TTGAGGATAC CAGGAAGGAA AAAGAGAAAC TTGAGGAGGA GTATCTTAGG
AGAGAAGGAG CACTGAAGCA GGAAGCCCAG TCACAAGCAG AGCAACTTGA ACTACAGGAG
GGTCGCTTAA CAAAGGTGAG TCAGACTGTG TGTAGCCTTC AGGAGCAAAA CCAGAAACTC
ATGTCTGAGA AGGAGCATCT CAGGCAGAAA GTCAAGGAGC TGGAGGAGAA GATGGAGCAG
CAAAACTCTG CAGTGAGTGA ATTGGATGAG GAGAGCAGGA AACTGAAAGC AGAGAATGAG
AATTTGCAGC AGTCTAAGAA GAAGATGGAA GAGAAGCTGA AAAATCTGGA AGCTTCTAAA
GCTTCCCTAG AAGCTGATAT AGCCAGGTTG AGAGCCTCTG AGAAACAACT TCAGGGTGAG
ATAGATGATG CCCTGGTGTC AGTTGATGAA AAAGAGAAGA AGCTCCGGGG TGAGAACAAA
CAGCTGGATG AAGACTTGCA GAATGCCAGG AGGCAAAGCC AAATTCTAGA GGAGAGGCTG
GAGGCTCTGC ACTCAGAATA TGAAGAACTA AAGCAAAGAG AAGAGACCTC CAAGGAGTCT
TATGCCTCAC TTGAAGCACA GCTGAAGAGT GCCAAACAGT GTAGTTTACA AATGGAAAAA
AGCTTGGACA CCTTGAAGGA AAGCAAAGAG TGTCTCCAGT CACAGCTCAC AGAGAAGGAA
GTAGAACTGC AGGGCATGGA AAGCCAATGT CAGCAGCTAA GAGCAGAAGC TGAAAGACAC
AGGAAGAAAG CAGAGACTCT TGAGATAGAA AAGCTCAGTG TTGAAAAGAC ATGCCTTCAT
CAGACAAAAC TTATAGAATC TCTCACATCA GAAAAGGAAT CAGTGGAAAA ACAGCAACTA
CAGCAGGCAG CGTCCCTGGA GAAGGAGGCA AAAGAGCTGG CCTTCAGACT GACCATGAGT
GAAGAGCAGC TGGAGGTCAA CCGAGGTGAA GTGTCCAGGC TGCAGGCAGA AGTCCTCGAT
CTGCGAGTCA AGCTTCAGCA GGCCACTGAT GAGAGAGAGA GGATGAGAAG TGAGCTGGCA
GTCACTGAGA CTGTCTTGAG TGAGCAGAAG ACACTTGTCC AGCAGCTGAA AGAGCAGTGT
GAGTCTCTCA ACAGAAATCA TGTGCAAGAA CTGGTGCAAT GTAAAGAAAG GGAAGAAAAG
CTCAAAAAAG AGCAGGAGAG AACAGCCCAT CAAAAAGCTG AGCTGGAAAA TAATTTGATG
AACCTAAAGG AAGAGCTGTC TAAGGTTAAG CGGTATTTGG AAAATGCTAG GGTGGAAAAT
GAAGAAAATA AAGATCTTCT CCACAGGACC AACACTGATA TGGCTGAACT TGGTATTCAG
ATTTGTGCCT TAACCTCTGA AAAGGTGGAT ACAGAAGAGC AGTTGGCTCA AGCCACAGAA
AGATTCAAAG AACTGGAAGA ACAGGCAGCA GAGCAACAGG AGAAGCTGAA GCTTGACATC
TCTAATCTCA GAGAGGAGAA CAAGAGCCTG CAAGAGAAAT TAGAGGAGGC TCGAATGTGT
GCCGCAGCTG TCCCAAGTCT GCAACTGCAG CTGGAGACAA TAAAGAAACA GGCACAGAGT
TTCAAAGAGA CCAGCCAAGA AGAGCTGTCT GCAATAAAAT TTCAAATGAG CACAGAGATT
CTAAATTATC AGACAAAATT CAAGGCTGTC AGTGAGGAGT GTGGGAAAGT AAGAGAGCAA
CTTGAGGAGC AGAAGCGACA ACAGCATGCA GTGGAGGAAG AGATTACAGA GTTACAAGCT
GCAAACACGA GTTTGTGCAG AAAGCTGGAT GAAACAAGAG AGCAGCTGTC AGAATCAGAA
TCTGCTCGGC TGCAGAAGGA AGAGGAAGTG ACTTCTCTTA GAGAACTCTT GGAAAGGATC
CAAAAAGAAG CTGATGAAGC AAAAGAGAAG ATCCTGGATT ACACTGAGAA GCTCAGCAAG
GTGGCAGCAG ACAAAGATAG CAGTGACCAG AAGTTATTTG CTGAGCTGGA TGATCTGACA
AGAACAAAGC AGTTCCTTGA AGAACGTTTG ATAGAACTTA TCAGAGACAA GGATGCTTTG
TGGCAAAAGT CTGATGCTCT GGAGTTCCAG CAGAAGCTTA GTGCAGAGCA GAGGTGGCAG
GGGGACACAG AAGTTAATCA CTGTCTGGAC TGCCAGAGAG AGTTCTCGTG GATGGTGCGC
CGACACCACT GCAGAATGTG TGGCCGCATT TTCTGCTACT ACTGCTGCAA TAACTACATG
GTGACAAAGC TTGGTGGAAA AAAGGAGCGT TGCTGCAGAG CTTGCTTTAA TAAGCCTAGA
GTCATTGTGG ACAGTACAGA TGACTCTGGA TCCAGTGCCA ACCAGGAAGG ATCACCGGCT
TCATTGGAAT CACCTGTCTC ACCATCTGAG AGAGCTTTTG TTGCAAGTGA AGCCTCTAAA
CCACCAGATG ATGCAGCTTT TGATATAATC ACTGATGAGG AGCTGTGCCA AGTACAGGAA
TCAGATTCTC TGCACAATGA AAGTCAGATG GAGAGAGACT CTCTGGATCA AAGTGTGACA
GATCTAAACA GCACGTGTAA TTCTTCAACT TTCGATGAAT CCGAAGACTG GCAAGTTGCT
CAAGATGCTG AGATATGCTT GTTGAAGTCA GGAGAAATTA TGAATAAATT ACCCCTTACA
GTAGAAGAGA TCATGAATTT TGGAGAAGGC AACAGAGAGC TATTCATCAA ATCCAGCACC
TATAGTATCA TTCCCATCAC TGTTACAGAG ATGGGACTAA CAATCAGCTG GATCTTCTCA
TCAGACCCCA AAAGCATATC CTTCAGTGTT GTCTACCAAG AGTCTGAAGA CACACCGCTG
GATCAGTGCA AAGTTCTTAT CCCTATGACT CGCTGCAACT CTCATAAGGA AACTATCAGT
GGACAGGTGA AAGTCAGAAA CGCTGGAATC TATACGCTGA TATTTGACAA CACATTCTCT
AGGTTTATCT CAAAAAGAGT GTTTTATCAC TTGGCTGTTG AGCGACCTGT CATCTATGAT
GGAAGTGATT TTCCATAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_004175427.1 CDS 263..4900 Translation
Target ORF information:
RefSeq Version XM_004175379.2 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata FYVE and coiled-coil domain containing 1 (FYCO1), mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_004175379.2
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621ATGGCAGCAA TGAGTGGCGA AAGCCAGCTG CAGCGGATTA TCAGAGACTT GCAAGATGCA
GTGACTGAAT TAAGTAAAGA ATTTAAAGAA GGAGGTGAAC CGATCACAGA TGACAGTGTC
AACTTGCAAA AATTCTCCTA CAAGCTTGAG TACCTCTTAC AGTTTGACCA GAAAGAAAAA
AGCACATTGC TGGGGAACAG AAAAGATTAC TGGGATTATT TCTGTGACTG TCTGGCAAAA
ATCAAAGGAG CTAATGATGG AATCCGCTTT GTCAAGTCTA TTACAGAACT ACGAACCTCT
CTTGGAAAAG GAAGAGCATT TCTTCGTTAT TCCCTGGTTC ACCAAAGGCT AGCAGACACC
TTGCAGCAAT GTTTTATGAA CACTAAAGTG ACCAGTGACT GGTACTATGC AAGAAGTCCA
TTTCTGAATT CCAAAATGAG TTCTGACATT GTGGGTCAAC TCTATGAGCT CACTGATGTT
CAGTTTGACT TAGCATCAAG AGGCTATGAT TTAGATGCTG CTTGGCCAAC ATTTGCCAGG
AGGACACTGT CCTCACTTGG ATCTTCAGCA TATTTATGGA AGCCCCCAAG TCGCAGTTCC
AGCATGAGCA GTTTAGTGAG CAATTACTTG CAGGCACAAG AGTTTCCTTC CAGCCCTGAT
GTAAATAACT CACTAAATGT TGAACACCTT GAGGGCTACG AAGAGATGCG TTTAGAACTT
GACCAGGCTG AGCTAAGGCA GAGGGAACTT CAAGATCGTA TTCACCAGCT AGAAATTGAA
AACCAGGAGC TCCAGGCAGC TGTCAGCCTT CAAAAGGAGC AAGTACAGGT AGAAAAGGAG
AAGAGCAATA ACTACAGTGA GGAGAACTCC CGGCTGACAA AGATGATCGC AGAGTTACAG
AAGCAGTGTG AGGTGTCACA CTCCACTCAG AGCACTGTGC ATGACCTGCA GAAGTGCCTA
CAGTCACTGG AACTGAGTGC AGCGGAGCAG CAGAAGGAAC ACTTAACAAA GGTGGAGCAG
CTGTTGACCA GCAAGGAAGA TTGTGCCTCA AAATTGCAGG TTTCGAATCA GGAGCTGGAG
ACCTCTAGGG CTTTGATTGC TGTGAAGGAT CTTTGCATTG ATGAGCTCAA AGCCAAGCTG
AGTTCCACAG AACAGAAGAA CCTCAACCTC CTTGCAAAAG TTGATGCTGC CTTGGACGAA
AAGGGACAGC AAGCCACAGC CCAGTATGAC TCTGCCCTAC AAATACAGGC GCTGTTAGAG
AAGCTTCAGG AGATGGAAAA GGAAAAGGCA GATATGCAAA GACTCAATGC TGAACATGCA
TCTCAGCTGA AAGCAGCAAG GGAGGAGCTG CTGCTGAAAG AACAGGCACA GAAGGAACTG
GAATCCAGAT ACAACAGCCT TACTACTAAC TCTAAAGAAG AGAGTGAAAA GCTGACTGGG
AGCCTGGAGA CAATGGCAAA GGAAAAGGAT GCACTTCAGA AGGCCCTGAC TCTGAAAGGA
AAGGAGATGG CTGAGCTCCA GACCCAGGTA ATGGGGTCGC TGGCTCAGGT GGGTTCACTG
GAAAAAAGTC TTGAGGATAC CAGGAAGGAA AAAGAGAAAC TTGAGGAGGA GTATCTTAGG
AGAGAAGGAG CACTGAAGCA GGAAGCCCAG TCACAAGCAG AGCAACTTGA ACTACAGGAG
GGTCGCTTAA CAAAGGTGAG TCAGACTGTG TGTAGCCTTC AGGAGCAAAA CCAGAAACTC
ATGTCTGAGA AGGAGCATCT CAGGCAGAAA GTCAAGGAGC TGGAGGAGAA GATGGAGCAG
CAAAACTCTG CAGTGAGTGA ATTGGATGAG GAGAGCAGGA AACTGAAAGC AGAGAATGAG
AATTTGCAGC AGTCTAAGAA GAAGATGGAA GAGAAGCTGA AAAATCTGGA AGCTTCTAAA
GCTTCCCTAG AAGCTGATAT AGCCAGGTTG AGAGCCTCTG AGAAACAACT TCAGGGTGAG
ATAGATGATG CCCTGGTGTC AGTTGATGAA AAAGAGAAGA AGCTCCGGGG TGAGAACAAA
CAGCTGGATG AAGACTTGCA GAATGCCAGG AGGCAAAGCC AAATTCTAGA GGAGAGGCTG
GAGGCTCTGC ACTCAGAATA TGAAGAACTA AAGCAAAGAG AAGAGACCTC CAAGGAGTCT
TATGCCTCAC TTGAAGCACA GCTGAAGAGT GCCAAACAGT GTAGTTTACA AATGGAAAAA
AGCTTGGACA CCTTGAAGGA AAGCAAAGAG TGTCTCCAGT CACAGCTCAC AGAGAAGGAA
GTAGAACTGC AGGGCATGGA AAGCCAATGT CAGCAGCTAA GAGCAGAAGC TGAAAGACAC
AGGAAGAAAG CAGAGACTCT TGAGATAGAA AAGCTCAGTG TTGAAAAGAC ATGCCTTCAT
CAGACAAAAC TTATAGAATC TCTCACATCA GAAAAGGAAT CAGTGGAAAA ACAGCAACTA
CAGCAGGCAG CGTCCCTGGA GAAGGAGGCA AAAGAGCTGG CCTTCAGACT GACCATGAGT
GAAGAGCAGC TGGAGGTCAA CCGAGGTGAA GTGTCCAGGC TGCAGGCAGA AGTCCTCGAT
CTGCGAGTCA AGCTTCAGCA GGCCACTGAT GAGAGAGAGA GGATGAGAAG TGAGCTGGCA
GTCACTGAGA CTGTCTTGAG TGAGCAGAAG ACACTTGTCC AGCAGCTGAA AGAGCAGTGT
GAGTCTCTCA ACAGAAATCA TGTGCAAGAA CTGGTGCAAT GTAAAGAAAG GGAAGAAAAG
CTCAAAAAAG AGCAGGAGAG AACAGCCCAT CAAAAAGCTG AGCTGGAAAA TAATTTGATG
AACCTAAAGG AAGAGCTGTC TAAGGTTAAG CGGTATTTGG AAAATGCTAG GGTGGAAAAT
GAAGAAAATA AAGATCTTCT CCACAGGACC AACACTGATA TGGCTGAACT TGGTATTCAG
ATTTGTGCCT TAACCTCTGA AAAGGTGGAT ACAGAAGAGC AGTTGGCTCA AGCCACAGAA
AGATTCAAAG AACTGGAAGA ACAGGCAGCA GAGCAACAGG AGAAGCTGAA GCTTGACATC
TCTAATCTCA GAGAGGAGAA CAAGAGCCTG CAAGAGAAAT TAGAGGAGGC TCGAATGTGT
GCCGCAGCTG TCCCAAGTCT GCAACTGCAG CTGGAGACAA TAAAGAAACA GGCACAGAGT
TTCAAAGAGA CCAGCCAAGA AGAGCTGTCT GCAATAAAAT TTCAAATGAG CACAGAGATT
CTAAATTATC AGACAAAATT CAAGGCTGTC AGTGAGGAGT GTGGGAAAGT AAGAGAGCAA
CTTGAGGAGC AGAAGCGACA ACAGCATGCA GTGGAGGAAG AGATTACAGA GTTACAAGCT
GCAAACACGA GTTTGTGCAG AAAGCTGGAT GAAACAAGAG AGCAGCTGTC AGAATCAGAA
TCTGCTCGGC TGCAGAAGGA AGAGGAAGTG ACTTCTCTTA GAGAACTCTT GGAAAGGATC
CAAAAAGAAG CTGATGAAGC AAAAGAGAAG ATCCTGGATT ACACTGAGAA GCTCAGCAAG
GTGGCAGCAG ACAAAGATAG CAGTGACCAG AAGTTATTTG CTGAGCTGGA TGATCTGACA
AGAACAAAGC AGTTCCTTGA AGAACGTTTG ATAGAACTTA TCAGAGACAA GGATGCTTTG
TGGCAAAAGT CTGATGCTCT GGAGTTCCAG CAGAAGCTTA GTGCAGAGCA GAGGTGGCAG
GGGGACACAG AAGTTAATCA CTGTCTGGAC TGCCAGAGAG AGTTCTCGTG GATGGTGCGC
CGACACCACT GCAGAATGTG TGGCCGCATT TTCTGCTACT ACTGCTGCAA TAACTACATG
GTGACAAAGC TTGGTGGAAA AAAGGAGCGT TGCTGCAGAG CTTGCTTTAA TAAGCCTAGA
GTCATTGTGG ACAGTACAGA TGACTCTGGA TCCAGTGCCA ACCAGGAAGG ATCACCGGCT
TCATTGGAAT CACCTGTCTC ACCATCTGAG AGAGCTTTTG TTGCAAGTGA AGCCTCTAAA
CCACCAGATG ATGCAGCTTT TGATATAATC ACTGATGAGG AGCTGTGCCA AGTACAGGAA
TCAGATTCTC TGCACAATGA AAGTCAGATG GAGAGAGACT CTCTGGATCA AAGTGTGACA
GATCTAAACA GCACGTGTAA TTCTTCAACT TTCGATGAAT CCGAAGACTG GCAAGTTGCT
CAAGATGCTG AGATATGCTT GTTGAAGTCA GGAGAAATTA TGAATAAATT ACCCCTTACA
GTAGAAGAGA TCATGAATTT TGGAGAAGGC AACAGAGAGC TATTCATCAA ATCCAGCACC
TATAGTATCA TTCCCATCAC TGTTACAGAG ATGGGACTAA CAATCAGCTG GATCTTCTCA
TCAGACCCCA AAAGCATATC CTTCAGTGTT GTCTACCAAG AGTCTGAAGA CACACCGCTG
GATCAGTGCA AAGTTCTTAT CCCTATGACT CGCTGCAACT CTCATAAGGA AACTATCAGT
GGACAGGTGA AAGTCAGAAA CGCTGGAATC TATACGCTGA TATTTGACAA CACATTCTCT
AGGTTTATCT CAAAAAGAGT GTTTTATCAC TTGGCTGTTG AGCGACCTGT CATCTATGAT
GGAAGTGATT TTCCATAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd34959 Clone ID Related Accession (Same CDS sequence) XM_030265109.1 , XM_030265112.1 , XM_030265108.1 , XM_030265113.1 , XM_030265111.1 Accession Version XM_030265109.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 4722bp)
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 FYVE and coiled-coil domain-containing protein 1 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044213.1) 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
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681ATGGCAGCAA TGAGTGGCGA AAGCCAGCTG CAGCGGATTA TCAGAGACTT GCAAGATGCA
GTGACTGAAT TAAGTAAAGA ATTTAAAGAA GGAGGTGAAC CGATCACAGA TGACAGTGTC
AACTTGCAAA AATTCTCCTA CAAGCTTGAA TACCTCTTAC AGTTTGACCA GAAAGAAAAA
AGCACATTGC TGGGGAACAG AAAAGATTAC TGGGATTATT TCTGTGACTG TCTGGCAAAA
ATCAAAGGAG CTAATGATGG AATCCGCTTT GTCAAGTCTA TTACAGAACT ACGAACCTCT
CTTGGAAAAG GAAGAGCATT TCTTCGTTAC TCCCTGGTTC ACCAAAGGCT AGCAGACACC
TTGCAGCAAT GTTTTATGAA CACTAAAGTG ACCAGTGACT GGTACTATGC AAGAAGTCCA
TTTCTGAATT CCAAAATGAG TTCTGACATT GTGGGTCAAC TCTATGAGCT CACTGATGTT
CAGTTTGACT TAGCATCAAG AGGCTATGAT TTAGATGCTG CTTGGCCAAC ATTTGCCAGG
AGGACACTGT CCTCACTTGG ATCTTCAGCA TATTTATGGA AGCCCCCAAG TCGCAGTTCC
AGCATGAGCA GTTTAGTGAG CAATTATTTG CAGGCACAAG AGTTTCCTTC CAGCCCTGAT
GTAAATAACT CACTAAATGT TGAACACCTT GAGGGCTACG AAGAGATGCG TTTAGAACTT
GACCAGGCTG AGCTGAGGCA GAGGGAACTT CAAGATCGTA TTCACCAGCT AGAAATTGAA
AACCAGGAGC TCCAGGCAGC TGTCAGCCTT CAAAAGGAGC AAGTACAGGT AGAAAAGGAG
AAGAGCAATA ACTACAGTGA GGAGAACTCC CGGCTGACAA AGATGATCGC AGAGTTACAG
AAGCAGTGTG AGGTGTCACA CTCCACTCAG AGCACTGTGC ATGACCTGCA GAAGTGCCTA
CAGTCACTGG AACTGAGTGC AGCAGAGCAG CAGAAGGAAC ACTTAACAAA GGTGGAACAG
CTGTTGACCA GCAAGGAAGA TTGTGCCTCA AAATTGCAGG TTTCGAATCA GGAGCTGGAG
ACCTCTAGGG CTTTGATTGC TGTGAAGGAT CTTTGCATTG ATGAGCTCAA AGCCAAGCTG
AGTTCCACAG AACAGAAGAA CCTCAACCTC CTTGCAAAAG TTGATGCTGC CTTGGACGAA
AAGGGACAGC AAGCCACAGC CCAGTATGAC TCTGCCCTAC AAATACAGGC GCTGTTAGAG
AAGCTTCAGG AGATGGAAAA GGAAAAGGCA GATATGCAAA GACTCAATGC TGAACATGCA
TCTCAGCTGA AAGCAGCAAG GGAGGAGCTG CTGCTGAAAG AACAGGCACA GAAGGAACTG
GAATCCAGAT ACAACAGCCT TACTACTAAC TCTAAAGAAG AGAGTGAAAA GCTGACTGGG
AGCCTGGAGA CAATGGCAAA GGAAAAGGAT GCACTTCAGA AGGCCCTGAC TCTGAAAGGA
AAGGAGATGG CTGAGCTCCA GACCCAGGTA ATGGGGTCGC TGGCTCAGGT GGGTTCACTG
GAAAAAAGTC TTGAGGATAC CAGGAAGGAA AAAGAGAAAC TTGAGGAGGA GTATGCTAGG
AGAGAAGGAG CACTGAAGCA GGAAGCCCAG TCACAAGCAG AGCAACTTGA ACTACAGGAG
GGTCGCTTAA CAAAGGTGAG TCAGACTGTG TGTAGCCTTC AGGAGCAAAA CCAGAAACTC
ATGTCTGAGA AGGAGCATCT CAGGCAGAAA GTCAAGGAGC TGGAGGAGAA GATGGAGCAG
CAAAACTCTG CAGTGAGTGA ATTGGATGAG GAGAGCAGGA AACTGAAAGC AGAGAATGAG
AATTTGCAGC AGTCTAAGAA GAAGATGGAA GAGAAGCTGA AAAATCTGGA AGCTTCTAAA
GCTTCCCTAG AAGCTGATAT AGCCAGGTTG AGAGCCTCTG AGAAACAACT TCAGGGTGAG
ATAGATGATG CCCTGGTGTC AGTTGATGAA AAAGAGAAGA AGCTCCGGGG TGAGAACAAA
CAGCTGGATG AAGACTTGCA GAATGCCAGG AGGCAAAGCC AAATTCTAGA GGAGAGGCTG
GAGGCTCTGC ACTCAGAATA TGAAGAACTA AAGCAAAGAG AAGAGACCTC CAAGGAGTCT
TATGCCTCAC TTGAAGCACA GCTGAAGAGT GCCAAACAGT GTAGTTTACA AATGGAAAAA
AGCTTGGACA CCTTGAAGGA AAGCAAAGAG TGTCTCCAGT CACAGCTCAC AGAGAAGGAA
GTAGAACTGC AGGGCATGGA AAGCCAATGT CAGCAGCTAA GAGCAGAAGC TGAAAGACAC
AGGAAGAAAG CAGAGACTCT TGAGATAGAA AAGCTCAGTG TTGAAAAGAC ATGCCTTCAT
CAGACAAAAC TTATAGAATC TCTCACATCA GAAAAGGAAT CAGTGGAAAA ACAGCAACTA
CAGCAGGCAG CGTCCCTGGA GAAGGAGGCA AAAGAGCTGG CCTTCAGACT GACCATGAGT
GAAGAGCAGC TGGAGGTCAA CCGAGGTGAA GTGTCCAGGC TGCAGGCAGA AGTCCTCGAT
CTGCGAGTCA AGCTTCAGCA GGCCACTGAT GAGAGAGAGA GGATGAGAAG TGAGCTGGCA
GTCACTGAGA CTGTCTTGAG TGAGCAGAAG ACACTTGTCC AGCAGCTGAA AGAGCAGTGT
GAGTCTCTCA ACAGAAATCA TGTGCAAGAA CTGGTGCAAT GTAAAGAAAG GGAAGAAAAG
CTCAAAAAAG AGCAGGAGAG AACAGCCCAT CAAAAAGCTG AGCTGGAAAA TAATTTGATG
AACCTAAAGG AAGAGCTGTC TAAGGTTAAG CGGTATTTGG AAAATGCTAG GGTGGAAAAT
GAAGAAAATA AAGATCTTCT CCACAGGACC AACACTGATA TGGCTGAACT TGGTATTCAG
ATTTGTGCCT TAACCTCTGA AAAGGTGGAT ACAGAAGAGC AGTTGGCTCA AGCCACAGAA
AGATTCAAAG AACTGGAAGA ACAGGCAGCA GAGCAACAGG AGAAGCTGAA GCTTGACATC
TCTAATCTCA GAGAGGAGAA CAAGAGCCTG CAAGAGAAAT TAGAGGAGGC TCGAATGTGT
GCCGCAGCTG TCCCAAGTCT GCAACTGCAG CTGGAGACAA TAAAGAAACA GGCACAGAGT
TTCAAAGAGA CCAGCCAAGA AGAGCTGTCT GCAATAAAAT TTCAAATGAG CACAGAGATT
CTAAATTATC AGACAAAATT CAAGGCTGTC AGTGAGGAGT GTGGGAAAGT AAGAGAGCAA
CTTGAGGAGC AGAAGCGACA ACAGCATGCA GCGGAGGAAG AGATTACAGA GTTACAAGCT
GCAAACACGA GTTTGTGCAG AAAGCTGGAT GAAACAAGAG AGCAGCTGTC AGAATCAGAA
TCTGCTCGGC TGCAGAAGGA AGAGGAAGTG ACTTCTCTTA GAGAACTCTT GGAAAGGATC
CAAAAAGAAG CTGATGAAGC AAAAGAGAAG ATCCTGGATT ACACTGAGAA GCTCAGCAAG
GTGGCAGCAG ACAAAGATAG CAGTGACCAG AAGTTATTTG CTGAGCTGGA TGATCTGACA
AGAACAAAGC AGTTCCTTGA AGAACGTTTG ATAGAACTTA TCAGAGACAA GGATGCTTTG
TGGCAAAAGT CTGATGCTCT GGAGTTCCAG CAGAAGCTTA GTGCAGAGCA GAGGTGGCAG
GGGGACACAG AAGTTAATCA CTGTCTGGAC TGCCAGAGAG AGTTCTCGTG GATGGTGCGC
CGACACCACT GCAGAATGTG TGGCCGCATT TTCTGCTACT ACTGCTGCAA TAACTACATG
GTGACAAAGC TTGGTGGAAA AAAGGAGCGT TGCTGCAGAG CTTGCTTTAA TAAGCCTAGA
GTCATTGTGG ACAGTACAGA TGACTCTGGA TCCAGTGCCA ACCAGGAAGG ATCACCGGCT
TCATTGGAAT CACCTGTCTC ACCATCTGAG AGAGCTTTTG TTGCAAGTGA AGCCTCTAAA
CCACCAGATG ATGCAGCTTT TGATATAATC ACTGATGAGG AGCTGTGCCA AGTACAGGAA
TCAGATTCTC TGCACAATGA AAGTCAGATG GAGAGAGACT CTCTGGATCA AAGTGTGACA
GATCTATGTG TTTGCTGGGC TAAGCAGCTG TTAGGGGCTC TGTACAGCCT CCAGTCTCCG
TTTCAGGTTT CTGCCTTTCA CACAATTCGA AACAGCACGT GTAATTCTTC AACTTTCGAT
GAATCCGAAG ACTGGCAAGT TGCTCAAGAT GCTGAGATAT GCTTGTTGAA ATCAGGAGAA
ATTATGAATA AATTACCCCT TACAGTAGAA GAGATCATGA ATTTTGGAGA AAGCAACAGG
GAGCTGTTCA TCAAATCCAG CACCTATAGT ATCATTCCCA TCACTGTTAC AGAGATGGGA
CTAACAATCA GCTGGATCTT CTCATCAGAC CCCAAAAGCA TATCCTTCAG TGTTGTTTAC
CAAGAGTCTG AAGACACACC GCTGGATCAG TGCAAAGTTC TTATCCCTAT GACTCGCTGC
AACTCTCATA AGGAAACTAT CAGTGGACAG GTGAAAGTCA GAAACGCTGG AATCTATACG
CTGATATTTG ACAACACATT CTCTAGGTTT ATCTCAAAAA GAGTGTTTTA TCACTTGGCT
GTTGAGCGAC CTGTCATCTA TGATGGAAGT GATTTTCCAT AGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030120969.1 CDS 209..4930 Translation
Target ORF information:
RefSeq Version XM_030265109.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata FYVE and coiled-coil domain containing 1 (FYCO1), transcript variant X2, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030265109.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681ATGGCAGCAA TGAGTGGCGA AAGCCAGCTG CAGCGGATTA TCAGAGACTT GCAAGATGCA
GTGACTGAAT TAAGTAAAGA ATTTAAAGAA GGAGGTGAAC CGATCACAGA TGACAGTGTC
AACTTGCAAA AATTCTCCTA CAAGCTTGAA TACCTCTTAC AGTTTGACCA GAAAGAAAAA
AGCACATTGC TGGGGAACAG AAAAGATTAC TGGGATTATT TCTGTGACTG TCTGGCAAAA
ATCAAAGGAG CTAATGATGG AATCCGCTTT GTCAAGTCTA TTACAGAACT ACGAACCTCT
CTTGGAAAAG GAAGAGCATT TCTTCGTTAC TCCCTGGTTC ACCAAAGGCT AGCAGACACC
TTGCAGCAAT GTTTTATGAA CACTAAAGTG ACCAGTGACT GGTACTATGC AAGAAGTCCA
TTTCTGAATT CCAAAATGAG TTCTGACATT GTGGGTCAAC TCTATGAGCT CACTGATGTT
CAGTTTGACT TAGCATCAAG AGGCTATGAT TTAGATGCTG CTTGGCCAAC ATTTGCCAGG
AGGACACTGT CCTCACTTGG ATCTTCAGCA TATTTATGGA AGCCCCCAAG TCGCAGTTCC
AGCATGAGCA GTTTAGTGAG CAATTATTTG CAGGCACAAG AGTTTCCTTC CAGCCCTGAT
GTAAATAACT CACTAAATGT TGAACACCTT GAGGGCTACG AAGAGATGCG TTTAGAACTT
GACCAGGCTG AGCTGAGGCA GAGGGAACTT CAAGATCGTA TTCACCAGCT AGAAATTGAA
AACCAGGAGC TCCAGGCAGC TGTCAGCCTT CAAAAGGAGC AAGTACAGGT AGAAAAGGAG
AAGAGCAATA ACTACAGTGA GGAGAACTCC CGGCTGACAA AGATGATCGC AGAGTTACAG
AAGCAGTGTG AGGTGTCACA CTCCACTCAG AGCACTGTGC ATGACCTGCA GAAGTGCCTA
CAGTCACTGG AACTGAGTGC AGCAGAGCAG CAGAAGGAAC ACTTAACAAA GGTGGAACAG
CTGTTGACCA GCAAGGAAGA TTGTGCCTCA AAATTGCAGG TTTCGAATCA GGAGCTGGAG
ACCTCTAGGG CTTTGATTGC TGTGAAGGAT CTTTGCATTG ATGAGCTCAA AGCCAAGCTG
AGTTCCACAG AACAGAAGAA CCTCAACCTC CTTGCAAAAG TTGATGCTGC CTTGGACGAA
AAGGGACAGC AAGCCACAGC CCAGTATGAC TCTGCCCTAC AAATACAGGC GCTGTTAGAG
AAGCTTCAGG AGATGGAAAA GGAAAAGGCA GATATGCAAA GACTCAATGC TGAACATGCA
TCTCAGCTGA AAGCAGCAAG GGAGGAGCTG CTGCTGAAAG AACAGGCACA GAAGGAACTG
GAATCCAGAT ACAACAGCCT TACTACTAAC TCTAAAGAAG AGAGTGAAAA GCTGACTGGG
AGCCTGGAGA CAATGGCAAA GGAAAAGGAT GCACTTCAGA AGGCCCTGAC TCTGAAAGGA
AAGGAGATGG CTGAGCTCCA GACCCAGGTA ATGGGGTCGC TGGCTCAGGT GGGTTCACTG
GAAAAAAGTC TTGAGGATAC CAGGAAGGAA AAAGAGAAAC TTGAGGAGGA GTATGCTAGG
AGAGAAGGAG CACTGAAGCA GGAAGCCCAG TCACAAGCAG AGCAACTTGA ACTACAGGAG
GGTCGCTTAA CAAAGGTGAG TCAGACTGTG TGTAGCCTTC AGGAGCAAAA CCAGAAACTC
ATGTCTGAGA AGGAGCATCT CAGGCAGAAA GTCAAGGAGC TGGAGGAGAA GATGGAGCAG
CAAAACTCTG CAGTGAGTGA ATTGGATGAG GAGAGCAGGA AACTGAAAGC AGAGAATGAG
AATTTGCAGC AGTCTAAGAA GAAGATGGAA GAGAAGCTGA AAAATCTGGA AGCTTCTAAA
GCTTCCCTAG AAGCTGATAT AGCCAGGTTG AGAGCCTCTG AGAAACAACT TCAGGGTGAG
ATAGATGATG CCCTGGTGTC AGTTGATGAA AAAGAGAAGA AGCTCCGGGG TGAGAACAAA
CAGCTGGATG AAGACTTGCA GAATGCCAGG AGGCAAAGCC AAATTCTAGA GGAGAGGCTG
GAGGCTCTGC ACTCAGAATA TGAAGAACTA AAGCAAAGAG AAGAGACCTC CAAGGAGTCT
TATGCCTCAC TTGAAGCACA GCTGAAGAGT GCCAAACAGT GTAGTTTACA AATGGAAAAA
AGCTTGGACA CCTTGAAGGA AAGCAAAGAG TGTCTCCAGT CACAGCTCAC AGAGAAGGAA
GTAGAACTGC AGGGCATGGA AAGCCAATGT CAGCAGCTAA GAGCAGAAGC TGAAAGACAC
AGGAAGAAAG CAGAGACTCT TGAGATAGAA AAGCTCAGTG TTGAAAAGAC ATGCCTTCAT
CAGACAAAAC TTATAGAATC TCTCACATCA GAAAAGGAAT CAGTGGAAAA ACAGCAACTA
CAGCAGGCAG CGTCCCTGGA GAAGGAGGCA AAAGAGCTGG CCTTCAGACT GACCATGAGT
GAAGAGCAGC TGGAGGTCAA CCGAGGTGAA GTGTCCAGGC TGCAGGCAGA AGTCCTCGAT
CTGCGAGTCA AGCTTCAGCA GGCCACTGAT GAGAGAGAGA GGATGAGAAG TGAGCTGGCA
GTCACTGAGA CTGTCTTGAG TGAGCAGAAG ACACTTGTCC AGCAGCTGAA AGAGCAGTGT
GAGTCTCTCA ACAGAAATCA TGTGCAAGAA CTGGTGCAAT GTAAAGAAAG GGAAGAAAAG
CTCAAAAAAG AGCAGGAGAG AACAGCCCAT CAAAAAGCTG AGCTGGAAAA TAATTTGATG
AACCTAAAGG AAGAGCTGTC TAAGGTTAAG CGGTATTTGG AAAATGCTAG GGTGGAAAAT
GAAGAAAATA AAGATCTTCT CCACAGGACC AACACTGATA TGGCTGAACT TGGTATTCAG
ATTTGTGCCT TAACCTCTGA AAAGGTGGAT ACAGAAGAGC AGTTGGCTCA AGCCACAGAA
AGATTCAAAG AACTGGAAGA ACAGGCAGCA GAGCAACAGG AGAAGCTGAA GCTTGACATC
TCTAATCTCA GAGAGGAGAA CAAGAGCCTG CAAGAGAAAT TAGAGGAGGC TCGAATGTGT
GCCGCAGCTG TCCCAAGTCT GCAACTGCAG CTGGAGACAA TAAAGAAACA GGCACAGAGT
TTCAAAGAGA CCAGCCAAGA AGAGCTGTCT GCAATAAAAT TTCAAATGAG CACAGAGATT
CTAAATTATC AGACAAAATT CAAGGCTGTC AGTGAGGAGT GTGGGAAAGT AAGAGAGCAA
CTTGAGGAGC AGAAGCGACA ACAGCATGCA GCGGAGGAAG AGATTACAGA GTTACAAGCT
GCAAACACGA GTTTGTGCAG AAAGCTGGAT GAAACAAGAG AGCAGCTGTC AGAATCAGAA
TCTGCTCGGC TGCAGAAGGA AGAGGAAGTG ACTTCTCTTA GAGAACTCTT GGAAAGGATC
CAAAAAGAAG CTGATGAAGC AAAAGAGAAG ATCCTGGATT ACACTGAGAA GCTCAGCAAG
GTGGCAGCAG ACAAAGATAG CAGTGACCAG AAGTTATTTG CTGAGCTGGA TGATCTGACA
AGAACAAAGC AGTTCCTTGA AGAACGTTTG ATAGAACTTA TCAGAGACAA GGATGCTTTG
TGGCAAAAGT CTGATGCTCT GGAGTTCCAG CAGAAGCTTA GTGCAGAGCA GAGGTGGCAG
GGGGACACAG AAGTTAATCA CTGTCTGGAC TGCCAGAGAG AGTTCTCGTG GATGGTGCGC
CGACACCACT GCAGAATGTG TGGCCGCATT TTCTGCTACT ACTGCTGCAA TAACTACATG
GTGACAAAGC TTGGTGGAAA AAAGGAGCGT TGCTGCAGAG CTTGCTTTAA TAAGCCTAGA
GTCATTGTGG ACAGTACAGA TGACTCTGGA TCCAGTGCCA ACCAGGAAGG ATCACCGGCT
TCATTGGAAT CACCTGTCTC ACCATCTGAG AGAGCTTTTG TTGCAAGTGA AGCCTCTAAA
CCACCAGATG ATGCAGCTTT TGATATAATC ACTGATGAGG AGCTGTGCCA AGTACAGGAA
TCAGATTCTC TGCACAATGA AAGTCAGATG GAGAGAGACT CTCTGGATCA AAGTGTGACA
GATCTATGTG TTTGCTGGGC TAAGCAGCTG TTAGGGGCTC TGTACAGCCT CCAGTCTCCG
TTTCAGGTTT CTGCCTTTCA CACAATTCGA AACAGCACGT GTAATTCTTC AACTTTCGAT
GAATCCGAAG ACTGGCAAGT TGCTCAAGAT GCTGAGATAT GCTTGTTGAA ATCAGGAGAA
ATTATGAATA AATTACCCCT TACAGTAGAA GAGATCATGA ATTTTGGAGA AAGCAACAGG
GAGCTGTTCA TCAAATCCAG CACCTATAGT ATCATTCCCA TCACTGTTAC AGAGATGGGA
CTAACAATCA GCTGGATCTT CTCATCAGAC CCCAAAAGCA TATCCTTCAG TGTTGTTTAC
CAAGAGTCTG AAGACACACC GCTGGATCAG TGCAAAGTTC TTATCCCTAT GACTCGCTGC
AACTCTCATA AGGAAACTAT CAGTGGACAG GTGAAAGTCA GAAACGCTGG AATCTATACG
CTGATATTTG ACAACACATT CTCTAGGTTT ATCTCAAAAA GAGTGTTTTA TCACTTGGCT
GTTGAGCGAC CTGTCATCTA TGATGGAAGT GATTTTCCAT AGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd34959 Clone ID Related Accession (Same CDS sequence) XM_030265109.1 , XM_030265112.1 , XM_030265108.1 , XM_030265113.1 , XM_030265111.1 Accession Version XM_030265112.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 4722bp)
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 FYVE and coiled-coil domain-containing protein 1 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044213.1) 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
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681ATGGCAGCAA TGAGTGGCGA AAGCCAGCTG CAGCGGATTA TCAGAGACTT GCAAGATGCA
GTGACTGAAT TAAGTAAAGA ATTTAAAGAA GGAGGTGAAC CGATCACAGA TGACAGTGTC
AACTTGCAAA AATTCTCCTA CAAGCTTGAA TACCTCTTAC AGTTTGACCA GAAAGAAAAA
AGCACATTGC TGGGGAACAG AAAAGATTAC TGGGATTATT TCTGTGACTG TCTGGCAAAA
ATCAAAGGAG CTAATGATGG AATCCGCTTT GTCAAGTCTA TTACAGAACT ACGAACCTCT
CTTGGAAAAG GAAGAGCATT TCTTCGTTAC TCCCTGGTTC ACCAAAGGCT AGCAGACACC
TTGCAGCAAT GTTTTATGAA CACTAAAGTG ACCAGTGACT GGTACTATGC AAGAAGTCCA
TTTCTGAATT CCAAAATGAG TTCTGACATT GTGGGTCAAC TCTATGAGCT CACTGATGTT
CAGTTTGACT TAGCATCAAG AGGCTATGAT TTAGATGCTG CTTGGCCAAC ATTTGCCAGG
AGGACACTGT CCTCACTTGG ATCTTCAGCA TATTTATGGA AGCCCCCAAG TCGCAGTTCC
AGCATGAGCA GTTTAGTGAG CAATTATTTG CAGGCACAAG AGTTTCCTTC CAGCCCTGAT
GTAAATAACT CACTAAATGT TGAACACCTT GAGGGCTACG AAGAGATGCG TTTAGAACTT
GACCAGGCTG AGCTGAGGCA GAGGGAACTT CAAGATCGTA TTCACCAGCT AGAAATTGAA
AACCAGGAGC TCCAGGCAGC TGTCAGCCTT CAAAAGGAGC AAGTACAGGT AGAAAAGGAG
AAGAGCAATA ACTACAGTGA GGAGAACTCC CGGCTGACAA AGATGATCGC AGAGTTACAG
AAGCAGTGTG AGGTGTCACA CTCCACTCAG AGCACTGTGC ATGACCTGCA GAAGTGCCTA
CAGTCACTGG AACTGAGTGC AGCAGAGCAG CAGAAGGAAC ACTTAACAAA GGTGGAACAG
CTGTTGACCA GCAAGGAAGA TTGTGCCTCA AAATTGCAGG TTTCGAATCA GGAGCTGGAG
ACCTCTAGGG CTTTGATTGC TGTGAAGGAT CTTTGCATTG ATGAGCTCAA AGCCAAGCTG
AGTTCCACAG AACAGAAGAA CCTCAACCTC CTTGCAAAAG TTGATGCTGC CTTGGACGAA
AAGGGACAGC AAGCCACAGC CCAGTATGAC TCTGCCCTAC AAATACAGGC GCTGTTAGAG
AAGCTTCAGG AGATGGAAAA GGAAAAGGCA GATATGCAAA GACTCAATGC TGAACATGCA
TCTCAGCTGA AAGCAGCAAG GGAGGAGCTG CTGCTGAAAG AACAGGCACA GAAGGAACTG
GAATCCAGAT ACAACAGCCT TACTACTAAC TCTAAAGAAG AGAGTGAAAA GCTGACTGGG
AGCCTGGAGA CAATGGCAAA GGAAAAGGAT GCACTTCAGA AGGCCCTGAC TCTGAAAGGA
AAGGAGATGG CTGAGCTCCA GACCCAGGTA ATGGGGTCGC TGGCTCAGGT GGGTTCACTG
GAAAAAAGTC TTGAGGATAC CAGGAAGGAA AAAGAGAAAC TTGAGGAGGA GTATGCTAGG
AGAGAAGGAG CACTGAAGCA GGAAGCCCAG TCACAAGCAG AGCAACTTGA ACTACAGGAG
GGTCGCTTAA CAAAGGTGAG TCAGACTGTG TGTAGCCTTC AGGAGCAAAA CCAGAAACTC
ATGTCTGAGA AGGAGCATCT CAGGCAGAAA GTCAAGGAGC TGGAGGAGAA GATGGAGCAG
CAAAACTCTG CAGTGAGTGA ATTGGATGAG GAGAGCAGGA AACTGAAAGC AGAGAATGAG
AATTTGCAGC AGTCTAAGAA GAAGATGGAA GAGAAGCTGA AAAATCTGGA AGCTTCTAAA
GCTTCCCTAG AAGCTGATAT AGCCAGGTTG AGAGCCTCTG AGAAACAACT TCAGGGTGAG
ATAGATGATG CCCTGGTGTC AGTTGATGAA AAAGAGAAGA AGCTCCGGGG TGAGAACAAA
CAGCTGGATG AAGACTTGCA GAATGCCAGG AGGCAAAGCC AAATTCTAGA GGAGAGGCTG
GAGGCTCTGC ACTCAGAATA TGAAGAACTA AAGCAAAGAG AAGAGACCTC CAAGGAGTCT
TATGCCTCAC TTGAAGCACA GCTGAAGAGT GCCAAACAGT GTAGTTTACA AATGGAAAAA
AGCTTGGACA CCTTGAAGGA AAGCAAAGAG TGTCTCCAGT CACAGCTCAC AGAGAAGGAA
GTAGAACTGC AGGGCATGGA AAGCCAATGT CAGCAGCTAA GAGCAGAAGC TGAAAGACAC
AGGAAGAAAG CAGAGACTCT TGAGATAGAA AAGCTCAGTG TTGAAAAGAC ATGCCTTCAT
CAGACAAAAC TTATAGAATC TCTCACATCA GAAAAGGAAT CAGTGGAAAA ACAGCAACTA
CAGCAGGCAG CGTCCCTGGA GAAGGAGGCA AAAGAGCTGG CCTTCAGACT GACCATGAGT
GAAGAGCAGC TGGAGGTCAA CCGAGGTGAA GTGTCCAGGC TGCAGGCAGA AGTCCTCGAT
CTGCGAGTCA AGCTTCAGCA GGCCACTGAT GAGAGAGAGA GGATGAGAAG TGAGCTGGCA
GTCACTGAGA CTGTCTTGAG TGAGCAGAAG ACACTTGTCC AGCAGCTGAA AGAGCAGTGT
GAGTCTCTCA ACAGAAATCA TGTGCAAGAA CTGGTGCAAT GTAAAGAAAG GGAAGAAAAG
CTCAAAAAAG AGCAGGAGAG AACAGCCCAT CAAAAAGCTG AGCTGGAAAA TAATTTGATG
AACCTAAAGG AAGAGCTGTC TAAGGTTAAG CGGTATTTGG AAAATGCTAG GGTGGAAAAT
GAAGAAAATA AAGATCTTCT CCACAGGACC AACACTGATA TGGCTGAACT TGGTATTCAG
ATTTGTGCCT TAACCTCTGA AAAGGTGGAT ACAGAAGAGC AGTTGGCTCA AGCCACAGAA
AGATTCAAAG AACTGGAAGA ACAGGCAGCA GAGCAACAGG AGAAGCTGAA GCTTGACATC
TCTAATCTCA GAGAGGAGAA CAAGAGCCTG CAAGAGAAAT TAGAGGAGGC TCGAATGTGT
GCCGCAGCTG TCCCAAGTCT GCAACTGCAG CTGGAGACAA TAAAGAAACA GGCACAGAGT
TTCAAAGAGA CCAGCCAAGA AGAGCTGTCT GCAATAAAAT TTCAAATGAG CACAGAGATT
CTAAATTATC AGACAAAATT CAAGGCTGTC AGTGAGGAGT GTGGGAAAGT AAGAGAGCAA
CTTGAGGAGC AGAAGCGACA ACAGCATGCA GCGGAGGAAG AGATTACAGA GTTACAAGCT
GCAAACACGA GTTTGTGCAG AAAGCTGGAT GAAACAAGAG AGCAGCTGTC AGAATCAGAA
TCTGCTCGGC TGCAGAAGGA AGAGGAAGTG ACTTCTCTTA GAGAACTCTT GGAAAGGATC
CAAAAAGAAG CTGATGAAGC AAAAGAGAAG ATCCTGGATT ACACTGAGAA GCTCAGCAAG
GTGGCAGCAG ACAAAGATAG CAGTGACCAG AAGTTATTTG CTGAGCTGGA TGATCTGACA
AGAACAAAGC AGTTCCTTGA AGAACGTTTG ATAGAACTTA TCAGAGACAA GGATGCTTTG
TGGCAAAAGT CTGATGCTCT GGAGTTCCAG CAGAAGCTTA GTGCAGAGCA GAGGTGGCAG
GGGGACACAG AAGTTAATCA CTGTCTGGAC TGCCAGAGAG AGTTCTCGTG GATGGTGCGC
CGACACCACT GCAGAATGTG TGGCCGCATT TTCTGCTACT ACTGCTGCAA TAACTACATG
GTGACAAAGC TTGGTGGAAA AAAGGAGCGT TGCTGCAGAG CTTGCTTTAA TAAGCCTAGA
GTCATTGTGG ACAGTACAGA TGACTCTGGA TCCAGTGCCA ACCAGGAAGG ATCACCGGCT
TCATTGGAAT CACCTGTCTC ACCATCTGAG AGAGCTTTTG TTGCAAGTGA AGCCTCTAAA
CCACCAGATG ATGCAGCTTT TGATATAATC ACTGATGAGG AGCTGTGCCA AGTACAGGAA
TCAGATTCTC TGCACAATGA AAGTCAGATG GAGAGAGACT CTCTGGATCA AAGTGTGACA
GATCTATGTG TTTGCTGGGC TAAGCAGCTG TTAGGGGCTC TGTACAGCCT CCAGTCTCCG
TTTCAGGTTT CTGCCTTTCA CACAATTCGA AACAGCACGT GTAATTCTTC AACTTTCGAT
GAATCCGAAG ACTGGCAAGT TGCTCAAGAT GCTGAGATAT GCTTGTTGAA ATCAGGAGAA
ATTATGAATA AATTACCCCT TACAGTAGAA GAGATCATGA ATTTTGGAGA AAGCAACAGG
GAGCTGTTCA TCAAATCCAG CACCTATAGT ATCATTCCCA TCACTGTTAC AGAGATGGGA
CTAACAATCA GCTGGATCTT CTCATCAGAC CCCAAAAGCA TATCCTTCAG TGTTGTTTAC
CAAGAGTCTG AAGACACACC GCTGGATCAG TGCAAAGTTC TTATCCCTAT GACTCGCTGC
AACTCTCATA AGGAAACTAT CAGTGGACAG GTGAAAGTCA GAAACGCTGG AATCTATACG
CTGATATTTG ACAACACATT CTCTAGGTTT ATCTCAAAAA GAGTGTTTTA TCACTTGGCT
GTTGAGCGAC CTGTCATCTA TGATGGAAGT GATTTTCCAT AGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030120972.1 CDS 166..4887 Translation
Target ORF information:
RefSeq Version XM_030265112.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata FYVE and coiled-coil domain containing 1 (FYCO1), transcript variant X4, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030265112.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681ATGGCAGCAA TGAGTGGCGA AAGCCAGCTG CAGCGGATTA TCAGAGACTT GCAAGATGCA
GTGACTGAAT TAAGTAAAGA ATTTAAAGAA GGAGGTGAAC CGATCACAGA TGACAGTGTC
AACTTGCAAA AATTCTCCTA CAAGCTTGAA TACCTCTTAC AGTTTGACCA GAAAGAAAAA
AGCACATTGC TGGGGAACAG AAAAGATTAC TGGGATTATT TCTGTGACTG TCTGGCAAAA
ATCAAAGGAG CTAATGATGG AATCCGCTTT GTCAAGTCTA TTACAGAACT ACGAACCTCT
CTTGGAAAAG GAAGAGCATT TCTTCGTTAC TCCCTGGTTC ACCAAAGGCT AGCAGACACC
TTGCAGCAAT GTTTTATGAA CACTAAAGTG ACCAGTGACT GGTACTATGC AAGAAGTCCA
TTTCTGAATT CCAAAATGAG TTCTGACATT GTGGGTCAAC TCTATGAGCT CACTGATGTT
CAGTTTGACT TAGCATCAAG AGGCTATGAT TTAGATGCTG CTTGGCCAAC ATTTGCCAGG
AGGACACTGT CCTCACTTGG ATCTTCAGCA TATTTATGGA AGCCCCCAAG TCGCAGTTCC
AGCATGAGCA GTTTAGTGAG CAATTATTTG CAGGCACAAG AGTTTCCTTC CAGCCCTGAT
GTAAATAACT CACTAAATGT TGAACACCTT GAGGGCTACG AAGAGATGCG TTTAGAACTT
GACCAGGCTG AGCTGAGGCA GAGGGAACTT CAAGATCGTA TTCACCAGCT AGAAATTGAA
AACCAGGAGC TCCAGGCAGC TGTCAGCCTT CAAAAGGAGC AAGTACAGGT AGAAAAGGAG
AAGAGCAATA ACTACAGTGA GGAGAACTCC CGGCTGACAA AGATGATCGC AGAGTTACAG
AAGCAGTGTG AGGTGTCACA CTCCACTCAG AGCACTGTGC ATGACCTGCA GAAGTGCCTA
CAGTCACTGG AACTGAGTGC AGCAGAGCAG CAGAAGGAAC ACTTAACAAA GGTGGAACAG
CTGTTGACCA GCAAGGAAGA TTGTGCCTCA AAATTGCAGG TTTCGAATCA GGAGCTGGAG
ACCTCTAGGG CTTTGATTGC TGTGAAGGAT CTTTGCATTG ATGAGCTCAA AGCCAAGCTG
AGTTCCACAG AACAGAAGAA CCTCAACCTC CTTGCAAAAG TTGATGCTGC CTTGGACGAA
AAGGGACAGC AAGCCACAGC CCAGTATGAC TCTGCCCTAC AAATACAGGC GCTGTTAGAG
AAGCTTCAGG AGATGGAAAA GGAAAAGGCA GATATGCAAA GACTCAATGC TGAACATGCA
TCTCAGCTGA AAGCAGCAAG GGAGGAGCTG CTGCTGAAAG AACAGGCACA GAAGGAACTG
GAATCCAGAT ACAACAGCCT TACTACTAAC TCTAAAGAAG AGAGTGAAAA GCTGACTGGG
AGCCTGGAGA CAATGGCAAA GGAAAAGGAT GCACTTCAGA AGGCCCTGAC TCTGAAAGGA
AAGGAGATGG CTGAGCTCCA GACCCAGGTA ATGGGGTCGC TGGCTCAGGT GGGTTCACTG
GAAAAAAGTC TTGAGGATAC CAGGAAGGAA AAAGAGAAAC TTGAGGAGGA GTATGCTAGG
AGAGAAGGAG CACTGAAGCA GGAAGCCCAG TCACAAGCAG AGCAACTTGA ACTACAGGAG
GGTCGCTTAA CAAAGGTGAG TCAGACTGTG TGTAGCCTTC AGGAGCAAAA CCAGAAACTC
ATGTCTGAGA AGGAGCATCT CAGGCAGAAA GTCAAGGAGC TGGAGGAGAA GATGGAGCAG
CAAAACTCTG CAGTGAGTGA ATTGGATGAG GAGAGCAGGA AACTGAAAGC AGAGAATGAG
AATTTGCAGC AGTCTAAGAA GAAGATGGAA GAGAAGCTGA AAAATCTGGA AGCTTCTAAA
GCTTCCCTAG AAGCTGATAT AGCCAGGTTG AGAGCCTCTG AGAAACAACT TCAGGGTGAG
ATAGATGATG CCCTGGTGTC AGTTGATGAA AAAGAGAAGA AGCTCCGGGG TGAGAACAAA
CAGCTGGATG AAGACTTGCA GAATGCCAGG AGGCAAAGCC AAATTCTAGA GGAGAGGCTG
GAGGCTCTGC ACTCAGAATA TGAAGAACTA AAGCAAAGAG AAGAGACCTC CAAGGAGTCT
TATGCCTCAC TTGAAGCACA GCTGAAGAGT GCCAAACAGT GTAGTTTACA AATGGAAAAA
AGCTTGGACA CCTTGAAGGA AAGCAAAGAG TGTCTCCAGT CACAGCTCAC AGAGAAGGAA
GTAGAACTGC AGGGCATGGA AAGCCAATGT CAGCAGCTAA GAGCAGAAGC TGAAAGACAC
AGGAAGAAAG CAGAGACTCT TGAGATAGAA AAGCTCAGTG TTGAAAAGAC ATGCCTTCAT
CAGACAAAAC TTATAGAATC TCTCACATCA GAAAAGGAAT CAGTGGAAAA ACAGCAACTA
CAGCAGGCAG CGTCCCTGGA GAAGGAGGCA AAAGAGCTGG CCTTCAGACT GACCATGAGT
GAAGAGCAGC TGGAGGTCAA CCGAGGTGAA GTGTCCAGGC TGCAGGCAGA AGTCCTCGAT
CTGCGAGTCA AGCTTCAGCA GGCCACTGAT GAGAGAGAGA GGATGAGAAG TGAGCTGGCA
GTCACTGAGA CTGTCTTGAG TGAGCAGAAG ACACTTGTCC AGCAGCTGAA AGAGCAGTGT
GAGTCTCTCA ACAGAAATCA TGTGCAAGAA CTGGTGCAAT GTAAAGAAAG GGAAGAAAAG
CTCAAAAAAG AGCAGGAGAG AACAGCCCAT CAAAAAGCTG AGCTGGAAAA TAATTTGATG
AACCTAAAGG AAGAGCTGTC TAAGGTTAAG CGGTATTTGG AAAATGCTAG GGTGGAAAAT
GAAGAAAATA AAGATCTTCT CCACAGGACC AACACTGATA TGGCTGAACT TGGTATTCAG
ATTTGTGCCT TAACCTCTGA AAAGGTGGAT ACAGAAGAGC AGTTGGCTCA AGCCACAGAA
AGATTCAAAG AACTGGAAGA ACAGGCAGCA GAGCAACAGG AGAAGCTGAA GCTTGACATC
TCTAATCTCA GAGAGGAGAA CAAGAGCCTG CAAGAGAAAT TAGAGGAGGC TCGAATGTGT
GCCGCAGCTG TCCCAAGTCT GCAACTGCAG CTGGAGACAA TAAAGAAACA GGCACAGAGT
TTCAAAGAGA CCAGCCAAGA AGAGCTGTCT GCAATAAAAT TTCAAATGAG CACAGAGATT
CTAAATTATC AGACAAAATT CAAGGCTGTC AGTGAGGAGT GTGGGAAAGT AAGAGAGCAA
CTTGAGGAGC AGAAGCGACA ACAGCATGCA GCGGAGGAAG AGATTACAGA GTTACAAGCT
GCAAACACGA GTTTGTGCAG AAAGCTGGAT GAAACAAGAG AGCAGCTGTC AGAATCAGAA
TCTGCTCGGC TGCAGAAGGA AGAGGAAGTG ACTTCTCTTA GAGAACTCTT GGAAAGGATC
CAAAAAGAAG CTGATGAAGC AAAAGAGAAG ATCCTGGATT ACACTGAGAA GCTCAGCAAG
GTGGCAGCAG ACAAAGATAG CAGTGACCAG AAGTTATTTG CTGAGCTGGA TGATCTGACA
AGAACAAAGC AGTTCCTTGA AGAACGTTTG ATAGAACTTA TCAGAGACAA GGATGCTTTG
TGGCAAAAGT CTGATGCTCT GGAGTTCCAG CAGAAGCTTA GTGCAGAGCA GAGGTGGCAG
GGGGACACAG AAGTTAATCA CTGTCTGGAC TGCCAGAGAG AGTTCTCGTG GATGGTGCGC
CGACACCACT GCAGAATGTG TGGCCGCATT TTCTGCTACT ACTGCTGCAA TAACTACATG
GTGACAAAGC TTGGTGGAAA AAAGGAGCGT TGCTGCAGAG CTTGCTTTAA TAAGCCTAGA
GTCATTGTGG ACAGTACAGA TGACTCTGGA TCCAGTGCCA ACCAGGAAGG ATCACCGGCT
TCATTGGAAT CACCTGTCTC ACCATCTGAG AGAGCTTTTG TTGCAAGTGA AGCCTCTAAA
CCACCAGATG ATGCAGCTTT TGATATAATC ACTGATGAGG AGCTGTGCCA AGTACAGGAA
TCAGATTCTC TGCACAATGA AAGTCAGATG GAGAGAGACT CTCTGGATCA AAGTGTGACA
GATCTATGTG TTTGCTGGGC TAAGCAGCTG TTAGGGGCTC TGTACAGCCT CCAGTCTCCG
TTTCAGGTTT CTGCCTTTCA CACAATTCGA AACAGCACGT GTAATTCTTC AACTTTCGAT
GAATCCGAAG ACTGGCAAGT TGCTCAAGAT GCTGAGATAT GCTTGTTGAA ATCAGGAGAA
ATTATGAATA AATTACCCCT TACAGTAGAA GAGATCATGA ATTTTGGAGA AAGCAACAGG
GAGCTGTTCA TCAAATCCAG CACCTATAGT ATCATTCCCA TCACTGTTAC AGAGATGGGA
CTAACAATCA GCTGGATCTT CTCATCAGAC CCCAAAAGCA TATCCTTCAG TGTTGTTTAC
CAAGAGTCTG AAGACACACC GCTGGATCAG TGCAAAGTTC TTATCCCTAT GACTCGCTGC
AACTCTCATA AGGAAACTAT CAGTGGACAG GTGAAAGTCA GAAACGCTGG AATCTATACG
CTGATATTTG ACAACACATT CTCTAGGTTT ATCTCAAAAA GAGTGTTTTA TCACTTGGCT
GTTGAGCGAC CTGTCATCTA TGATGGAAGT GATTTTCCAT AGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd34959 Clone ID Related Accession (Same CDS sequence) XM_030265109.1 , XM_030265112.1 , XM_030265108.1 , XM_030265113.1 , XM_030265111.1 Accession Version XM_030265108.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 4722bp)
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 FYVE and coiled-coil domain-containing protein 1 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044213.1) 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
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681ATGGCAGCAA TGAGTGGCGA AAGCCAGCTG CAGCGGATTA TCAGAGACTT GCAAGATGCA
GTGACTGAAT TAAGTAAAGA ATTTAAAGAA GGAGGTGAAC CGATCACAGA TGACAGTGTC
AACTTGCAAA AATTCTCCTA CAAGCTTGAA TACCTCTTAC AGTTTGACCA GAAAGAAAAA
AGCACATTGC TGGGGAACAG AAAAGATTAC TGGGATTATT TCTGTGACTG TCTGGCAAAA
ATCAAAGGAG CTAATGATGG AATCCGCTTT GTCAAGTCTA TTACAGAACT ACGAACCTCT
CTTGGAAAAG GAAGAGCATT TCTTCGTTAC TCCCTGGTTC ACCAAAGGCT AGCAGACACC
TTGCAGCAAT GTTTTATGAA CACTAAAGTG ACCAGTGACT GGTACTATGC AAGAAGTCCA
TTTCTGAATT CCAAAATGAG TTCTGACATT GTGGGTCAAC TCTATGAGCT CACTGATGTT
CAGTTTGACT TAGCATCAAG AGGCTATGAT TTAGATGCTG CTTGGCCAAC ATTTGCCAGG
AGGACACTGT CCTCACTTGG ATCTTCAGCA TATTTATGGA AGCCCCCAAG TCGCAGTTCC
AGCATGAGCA GTTTAGTGAG CAATTATTTG CAGGCACAAG AGTTTCCTTC CAGCCCTGAT
GTAAATAACT CACTAAATGT TGAACACCTT GAGGGCTACG AAGAGATGCG TTTAGAACTT
GACCAGGCTG AGCTGAGGCA GAGGGAACTT CAAGATCGTA TTCACCAGCT AGAAATTGAA
AACCAGGAGC TCCAGGCAGC TGTCAGCCTT CAAAAGGAGC AAGTACAGGT AGAAAAGGAG
AAGAGCAATA ACTACAGTGA GGAGAACTCC CGGCTGACAA AGATGATCGC AGAGTTACAG
AAGCAGTGTG AGGTGTCACA CTCCACTCAG AGCACTGTGC ATGACCTGCA GAAGTGCCTA
CAGTCACTGG AACTGAGTGC AGCAGAGCAG CAGAAGGAAC ACTTAACAAA GGTGGAACAG
CTGTTGACCA GCAAGGAAGA TTGTGCCTCA AAATTGCAGG TTTCGAATCA GGAGCTGGAG
ACCTCTAGGG CTTTGATTGC TGTGAAGGAT CTTTGCATTG ATGAGCTCAA AGCCAAGCTG
AGTTCCACAG AACAGAAGAA CCTCAACCTC CTTGCAAAAG TTGATGCTGC CTTGGACGAA
AAGGGACAGC AAGCCACAGC CCAGTATGAC TCTGCCCTAC AAATACAGGC GCTGTTAGAG
AAGCTTCAGG AGATGGAAAA GGAAAAGGCA GATATGCAAA GACTCAATGC TGAACATGCA
TCTCAGCTGA AAGCAGCAAG GGAGGAGCTG CTGCTGAAAG AACAGGCACA GAAGGAACTG
GAATCCAGAT ACAACAGCCT TACTACTAAC TCTAAAGAAG AGAGTGAAAA GCTGACTGGG
AGCCTGGAGA CAATGGCAAA GGAAAAGGAT GCACTTCAGA AGGCCCTGAC TCTGAAAGGA
AAGGAGATGG CTGAGCTCCA GACCCAGGTA ATGGGGTCGC TGGCTCAGGT GGGTTCACTG
GAAAAAAGTC TTGAGGATAC CAGGAAGGAA AAAGAGAAAC TTGAGGAGGA GTATGCTAGG
AGAGAAGGAG CACTGAAGCA GGAAGCCCAG TCACAAGCAG AGCAACTTGA ACTACAGGAG
GGTCGCTTAA CAAAGGTGAG TCAGACTGTG TGTAGCCTTC AGGAGCAAAA CCAGAAACTC
ATGTCTGAGA AGGAGCATCT CAGGCAGAAA GTCAAGGAGC TGGAGGAGAA GATGGAGCAG
CAAAACTCTG CAGTGAGTGA ATTGGATGAG GAGAGCAGGA AACTGAAAGC AGAGAATGAG
AATTTGCAGC AGTCTAAGAA GAAGATGGAA GAGAAGCTGA AAAATCTGGA AGCTTCTAAA
GCTTCCCTAG AAGCTGATAT AGCCAGGTTG AGAGCCTCTG AGAAACAACT TCAGGGTGAG
ATAGATGATG CCCTGGTGTC AGTTGATGAA AAAGAGAAGA AGCTCCGGGG TGAGAACAAA
CAGCTGGATG AAGACTTGCA GAATGCCAGG AGGCAAAGCC AAATTCTAGA GGAGAGGCTG
GAGGCTCTGC ACTCAGAATA TGAAGAACTA AAGCAAAGAG AAGAGACCTC CAAGGAGTCT
TATGCCTCAC TTGAAGCACA GCTGAAGAGT GCCAAACAGT GTAGTTTACA AATGGAAAAA
AGCTTGGACA CCTTGAAGGA AAGCAAAGAG TGTCTCCAGT CACAGCTCAC AGAGAAGGAA
GTAGAACTGC AGGGCATGGA AAGCCAATGT CAGCAGCTAA GAGCAGAAGC TGAAAGACAC
AGGAAGAAAG CAGAGACTCT TGAGATAGAA AAGCTCAGTG TTGAAAAGAC ATGCCTTCAT
CAGACAAAAC TTATAGAATC TCTCACATCA GAAAAGGAAT CAGTGGAAAA ACAGCAACTA
CAGCAGGCAG CGTCCCTGGA GAAGGAGGCA AAAGAGCTGG CCTTCAGACT GACCATGAGT
GAAGAGCAGC TGGAGGTCAA CCGAGGTGAA GTGTCCAGGC TGCAGGCAGA AGTCCTCGAT
CTGCGAGTCA AGCTTCAGCA GGCCACTGAT GAGAGAGAGA GGATGAGAAG TGAGCTGGCA
GTCACTGAGA CTGTCTTGAG TGAGCAGAAG ACACTTGTCC AGCAGCTGAA AGAGCAGTGT
GAGTCTCTCA ACAGAAATCA TGTGCAAGAA CTGGTGCAAT GTAAAGAAAG GGAAGAAAAG
CTCAAAAAAG AGCAGGAGAG AACAGCCCAT CAAAAAGCTG AGCTGGAAAA TAATTTGATG
AACCTAAAGG AAGAGCTGTC TAAGGTTAAG CGGTATTTGG AAAATGCTAG GGTGGAAAAT
GAAGAAAATA AAGATCTTCT CCACAGGACC AACACTGATA TGGCTGAACT TGGTATTCAG
ATTTGTGCCT TAACCTCTGA AAAGGTGGAT ACAGAAGAGC AGTTGGCTCA AGCCACAGAA
AGATTCAAAG AACTGGAAGA ACAGGCAGCA GAGCAACAGG AGAAGCTGAA GCTTGACATC
TCTAATCTCA GAGAGGAGAA CAAGAGCCTG CAAGAGAAAT TAGAGGAGGC TCGAATGTGT
GCCGCAGCTG TCCCAAGTCT GCAACTGCAG CTGGAGACAA TAAAGAAACA GGCACAGAGT
TTCAAAGAGA CCAGCCAAGA AGAGCTGTCT GCAATAAAAT TTCAAATGAG CACAGAGATT
CTAAATTATC AGACAAAATT CAAGGCTGTC AGTGAGGAGT GTGGGAAAGT AAGAGAGCAA
CTTGAGGAGC AGAAGCGACA ACAGCATGCA GCGGAGGAAG AGATTACAGA GTTACAAGCT
GCAAACACGA GTTTGTGCAG AAAGCTGGAT GAAACAAGAG AGCAGCTGTC AGAATCAGAA
TCTGCTCGGC TGCAGAAGGA AGAGGAAGTG ACTTCTCTTA GAGAACTCTT GGAAAGGATC
CAAAAAGAAG CTGATGAAGC AAAAGAGAAG ATCCTGGATT ACACTGAGAA GCTCAGCAAG
GTGGCAGCAG ACAAAGATAG CAGTGACCAG AAGTTATTTG CTGAGCTGGA TGATCTGACA
AGAACAAAGC AGTTCCTTGA AGAACGTTTG ATAGAACTTA TCAGAGACAA GGATGCTTTG
TGGCAAAAGT CTGATGCTCT GGAGTTCCAG CAGAAGCTTA GTGCAGAGCA GAGGTGGCAG
GGGGACACAG AAGTTAATCA CTGTCTGGAC TGCCAGAGAG AGTTCTCGTG GATGGTGCGC
CGACACCACT GCAGAATGTG TGGCCGCATT TTCTGCTACT ACTGCTGCAA TAACTACATG
GTGACAAAGC TTGGTGGAAA AAAGGAGCGT TGCTGCAGAG CTTGCTTTAA TAAGCCTAGA
GTCATTGTGG ACAGTACAGA TGACTCTGGA TCCAGTGCCA ACCAGGAAGG ATCACCGGCT
TCATTGGAAT CACCTGTCTC ACCATCTGAG AGAGCTTTTG TTGCAAGTGA AGCCTCTAAA
CCACCAGATG ATGCAGCTTT TGATATAATC ACTGATGAGG AGCTGTGCCA AGTACAGGAA
TCAGATTCTC TGCACAATGA AAGTCAGATG GAGAGAGACT CTCTGGATCA AAGTGTGACA
GATCTATGTG TTTGCTGGGC TAAGCAGCTG TTAGGGGCTC TGTACAGCCT CCAGTCTCCG
TTTCAGGTTT CTGCCTTTCA CACAATTCGA AACAGCACGT GTAATTCTTC AACTTTCGAT
GAATCCGAAG ACTGGCAAGT TGCTCAAGAT GCTGAGATAT GCTTGTTGAA ATCAGGAGAA
ATTATGAATA AATTACCCCT TACAGTAGAA GAGATCATGA ATTTTGGAGA AAGCAACAGG
GAGCTGTTCA TCAAATCCAG CACCTATAGT ATCATTCCCA TCACTGTTAC AGAGATGGGA
CTAACAATCA GCTGGATCTT CTCATCAGAC CCCAAAAGCA TATCCTTCAG TGTTGTTTAC
CAAGAGTCTG AAGACACACC GCTGGATCAG TGCAAAGTTC TTATCCCTAT GACTCGCTGC
AACTCTCATA AGGAAACTAT CAGTGGACAG GTGAAAGTCA GAAACGCTGG AATCTATACG
CTGATATTTG ACAACACATT CTCTAGGTTT ATCTCAAAAA GAGTGTTTTA TCACTTGGCT
GTTGAGCGAC CTGTCATCTA TGATGGAAGT GATTTTCCAT AGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030120968.1 CDS 213..4934 Translation
Target ORF information:
RefSeq Version XM_030265108.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata FYVE and coiled-coil domain containing 1 (FYCO1), transcript variant X1, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030265108.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681ATGGCAGCAA TGAGTGGCGA AAGCCAGCTG CAGCGGATTA TCAGAGACTT GCAAGATGCA
GTGACTGAAT TAAGTAAAGA ATTTAAAGAA GGAGGTGAAC CGATCACAGA TGACAGTGTC
AACTTGCAAA AATTCTCCTA CAAGCTTGAA TACCTCTTAC AGTTTGACCA GAAAGAAAAA
AGCACATTGC TGGGGAACAG AAAAGATTAC TGGGATTATT TCTGTGACTG TCTGGCAAAA
ATCAAAGGAG CTAATGATGG AATCCGCTTT GTCAAGTCTA TTACAGAACT ACGAACCTCT
CTTGGAAAAG GAAGAGCATT TCTTCGTTAC TCCCTGGTTC ACCAAAGGCT AGCAGACACC
TTGCAGCAAT GTTTTATGAA CACTAAAGTG ACCAGTGACT GGTACTATGC AAGAAGTCCA
TTTCTGAATT CCAAAATGAG TTCTGACATT GTGGGTCAAC TCTATGAGCT CACTGATGTT
CAGTTTGACT TAGCATCAAG AGGCTATGAT TTAGATGCTG CTTGGCCAAC ATTTGCCAGG
AGGACACTGT CCTCACTTGG ATCTTCAGCA TATTTATGGA AGCCCCCAAG TCGCAGTTCC
AGCATGAGCA GTTTAGTGAG CAATTATTTG CAGGCACAAG AGTTTCCTTC CAGCCCTGAT
GTAAATAACT CACTAAATGT TGAACACCTT GAGGGCTACG AAGAGATGCG TTTAGAACTT
GACCAGGCTG AGCTGAGGCA GAGGGAACTT CAAGATCGTA TTCACCAGCT AGAAATTGAA
AACCAGGAGC TCCAGGCAGC TGTCAGCCTT CAAAAGGAGC AAGTACAGGT AGAAAAGGAG
AAGAGCAATA ACTACAGTGA GGAGAACTCC CGGCTGACAA AGATGATCGC AGAGTTACAG
AAGCAGTGTG AGGTGTCACA CTCCACTCAG AGCACTGTGC ATGACCTGCA GAAGTGCCTA
CAGTCACTGG AACTGAGTGC AGCAGAGCAG CAGAAGGAAC ACTTAACAAA GGTGGAACAG
CTGTTGACCA GCAAGGAAGA TTGTGCCTCA AAATTGCAGG TTTCGAATCA GGAGCTGGAG
ACCTCTAGGG CTTTGATTGC TGTGAAGGAT CTTTGCATTG ATGAGCTCAA AGCCAAGCTG
AGTTCCACAG AACAGAAGAA CCTCAACCTC CTTGCAAAAG TTGATGCTGC CTTGGACGAA
AAGGGACAGC AAGCCACAGC CCAGTATGAC TCTGCCCTAC AAATACAGGC GCTGTTAGAG
AAGCTTCAGG AGATGGAAAA GGAAAAGGCA GATATGCAAA GACTCAATGC TGAACATGCA
TCTCAGCTGA AAGCAGCAAG GGAGGAGCTG CTGCTGAAAG AACAGGCACA GAAGGAACTG
GAATCCAGAT ACAACAGCCT TACTACTAAC TCTAAAGAAG AGAGTGAAAA GCTGACTGGG
AGCCTGGAGA CAATGGCAAA GGAAAAGGAT GCACTTCAGA AGGCCCTGAC TCTGAAAGGA
AAGGAGATGG CTGAGCTCCA GACCCAGGTA ATGGGGTCGC TGGCTCAGGT GGGTTCACTG
GAAAAAAGTC TTGAGGATAC CAGGAAGGAA AAAGAGAAAC TTGAGGAGGA GTATGCTAGG
AGAGAAGGAG CACTGAAGCA GGAAGCCCAG TCACAAGCAG AGCAACTTGA ACTACAGGAG
GGTCGCTTAA CAAAGGTGAG TCAGACTGTG TGTAGCCTTC AGGAGCAAAA CCAGAAACTC
ATGTCTGAGA AGGAGCATCT CAGGCAGAAA GTCAAGGAGC TGGAGGAGAA GATGGAGCAG
CAAAACTCTG CAGTGAGTGA ATTGGATGAG GAGAGCAGGA AACTGAAAGC AGAGAATGAG
AATTTGCAGC AGTCTAAGAA GAAGATGGAA GAGAAGCTGA AAAATCTGGA AGCTTCTAAA
GCTTCCCTAG AAGCTGATAT AGCCAGGTTG AGAGCCTCTG AGAAACAACT TCAGGGTGAG
ATAGATGATG CCCTGGTGTC AGTTGATGAA AAAGAGAAGA AGCTCCGGGG TGAGAACAAA
CAGCTGGATG AAGACTTGCA GAATGCCAGG AGGCAAAGCC AAATTCTAGA GGAGAGGCTG
GAGGCTCTGC ACTCAGAATA TGAAGAACTA AAGCAAAGAG AAGAGACCTC CAAGGAGTCT
TATGCCTCAC TTGAAGCACA GCTGAAGAGT GCCAAACAGT GTAGTTTACA AATGGAAAAA
AGCTTGGACA CCTTGAAGGA AAGCAAAGAG TGTCTCCAGT CACAGCTCAC AGAGAAGGAA
GTAGAACTGC AGGGCATGGA AAGCCAATGT CAGCAGCTAA GAGCAGAAGC TGAAAGACAC
AGGAAGAAAG CAGAGACTCT TGAGATAGAA AAGCTCAGTG TTGAAAAGAC ATGCCTTCAT
CAGACAAAAC TTATAGAATC TCTCACATCA GAAAAGGAAT CAGTGGAAAA ACAGCAACTA
CAGCAGGCAG CGTCCCTGGA GAAGGAGGCA AAAGAGCTGG CCTTCAGACT GACCATGAGT
GAAGAGCAGC TGGAGGTCAA CCGAGGTGAA GTGTCCAGGC TGCAGGCAGA AGTCCTCGAT
CTGCGAGTCA AGCTTCAGCA GGCCACTGAT GAGAGAGAGA GGATGAGAAG TGAGCTGGCA
GTCACTGAGA CTGTCTTGAG TGAGCAGAAG ACACTTGTCC AGCAGCTGAA AGAGCAGTGT
GAGTCTCTCA ACAGAAATCA TGTGCAAGAA CTGGTGCAAT GTAAAGAAAG GGAAGAAAAG
CTCAAAAAAG AGCAGGAGAG AACAGCCCAT CAAAAAGCTG AGCTGGAAAA TAATTTGATG
AACCTAAAGG AAGAGCTGTC TAAGGTTAAG CGGTATTTGG AAAATGCTAG GGTGGAAAAT
GAAGAAAATA AAGATCTTCT CCACAGGACC AACACTGATA TGGCTGAACT TGGTATTCAG
ATTTGTGCCT TAACCTCTGA AAAGGTGGAT ACAGAAGAGC AGTTGGCTCA AGCCACAGAA
AGATTCAAAG AACTGGAAGA ACAGGCAGCA GAGCAACAGG AGAAGCTGAA GCTTGACATC
TCTAATCTCA GAGAGGAGAA CAAGAGCCTG CAAGAGAAAT TAGAGGAGGC TCGAATGTGT
GCCGCAGCTG TCCCAAGTCT GCAACTGCAG CTGGAGACAA TAAAGAAACA GGCACAGAGT
TTCAAAGAGA CCAGCCAAGA AGAGCTGTCT GCAATAAAAT TTCAAATGAG CACAGAGATT
CTAAATTATC AGACAAAATT CAAGGCTGTC AGTGAGGAGT GTGGGAAAGT AAGAGAGCAA
CTTGAGGAGC AGAAGCGACA ACAGCATGCA GCGGAGGAAG AGATTACAGA GTTACAAGCT
GCAAACACGA GTTTGTGCAG AAAGCTGGAT GAAACAAGAG AGCAGCTGTC AGAATCAGAA
TCTGCTCGGC TGCAGAAGGA AGAGGAAGTG ACTTCTCTTA GAGAACTCTT GGAAAGGATC
CAAAAAGAAG CTGATGAAGC AAAAGAGAAG ATCCTGGATT ACACTGAGAA GCTCAGCAAG
GTGGCAGCAG ACAAAGATAG CAGTGACCAG AAGTTATTTG CTGAGCTGGA TGATCTGACA
AGAACAAAGC AGTTCCTTGA AGAACGTTTG ATAGAACTTA TCAGAGACAA GGATGCTTTG
TGGCAAAAGT CTGATGCTCT GGAGTTCCAG CAGAAGCTTA GTGCAGAGCA GAGGTGGCAG
GGGGACACAG AAGTTAATCA CTGTCTGGAC TGCCAGAGAG AGTTCTCGTG GATGGTGCGC
CGACACCACT GCAGAATGTG TGGCCGCATT TTCTGCTACT ACTGCTGCAA TAACTACATG
GTGACAAAGC TTGGTGGAAA AAAGGAGCGT TGCTGCAGAG CTTGCTTTAA TAAGCCTAGA
GTCATTGTGG ACAGTACAGA TGACTCTGGA TCCAGTGCCA ACCAGGAAGG ATCACCGGCT
TCATTGGAAT CACCTGTCTC ACCATCTGAG AGAGCTTTTG TTGCAAGTGA AGCCTCTAAA
CCACCAGATG ATGCAGCTTT TGATATAATC ACTGATGAGG AGCTGTGCCA AGTACAGGAA
TCAGATTCTC TGCACAATGA AAGTCAGATG GAGAGAGACT CTCTGGATCA AAGTGTGACA
GATCTATGTG TTTGCTGGGC TAAGCAGCTG TTAGGGGCTC TGTACAGCCT CCAGTCTCCG
TTTCAGGTTT CTGCCTTTCA CACAATTCGA AACAGCACGT GTAATTCTTC AACTTTCGAT
GAATCCGAAG ACTGGCAAGT TGCTCAAGAT GCTGAGATAT GCTTGTTGAA ATCAGGAGAA
ATTATGAATA AATTACCCCT TACAGTAGAA GAGATCATGA ATTTTGGAGA AAGCAACAGG
GAGCTGTTCA TCAAATCCAG CACCTATAGT ATCATTCCCA TCACTGTTAC AGAGATGGGA
CTAACAATCA GCTGGATCTT CTCATCAGAC CCCAAAAGCA TATCCTTCAG TGTTGTTTAC
CAAGAGTCTG AAGACACACC GCTGGATCAG TGCAAAGTTC TTATCCCTAT GACTCGCTGC
AACTCTCATA AGGAAACTAT CAGTGGACAG GTGAAAGTCA GAAACGCTGG AATCTATACG
CTGATATTTG ACAACACATT CTCTAGGTTT ATCTCAAAAA GAGTGTTTTA TCACTTGGCT
GTTGAGCGAC CTGTCATCTA TGATGGAAGT GATTTTCCAT AGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd34959 Clone ID Related Accession (Same CDS sequence) XM_030265109.1 , XM_030265112.1 , XM_030265108.1 , XM_030265113.1 , XM_030265111.1 Accession Version XM_030265113.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 4722bp)
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 FYVE and coiled-coil domain-containing protein 1 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044213.1) 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
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681ATGGCAGCAA TGAGTGGCGA AAGCCAGCTG CAGCGGATTA TCAGAGACTT GCAAGATGCA
GTGACTGAAT TAAGTAAAGA ATTTAAAGAA GGAGGTGAAC CGATCACAGA TGACAGTGTC
AACTTGCAAA AATTCTCCTA CAAGCTTGAA TACCTCTTAC AGTTTGACCA GAAAGAAAAA
AGCACATTGC TGGGGAACAG AAAAGATTAC TGGGATTATT TCTGTGACTG TCTGGCAAAA
ATCAAAGGAG CTAATGATGG AATCCGCTTT GTCAAGTCTA TTACAGAACT ACGAACCTCT
CTTGGAAAAG GAAGAGCATT TCTTCGTTAC TCCCTGGTTC ACCAAAGGCT AGCAGACACC
TTGCAGCAAT GTTTTATGAA CACTAAAGTG ACCAGTGACT GGTACTATGC AAGAAGTCCA
TTTCTGAATT CCAAAATGAG TTCTGACATT GTGGGTCAAC TCTATGAGCT CACTGATGTT
CAGTTTGACT TAGCATCAAG AGGCTATGAT TTAGATGCTG CTTGGCCAAC ATTTGCCAGG
AGGACACTGT CCTCACTTGG ATCTTCAGCA TATTTATGGA AGCCCCCAAG TCGCAGTTCC
AGCATGAGCA GTTTAGTGAG CAATTATTTG CAGGCACAAG AGTTTCCTTC CAGCCCTGAT
GTAAATAACT CACTAAATGT TGAACACCTT GAGGGCTACG AAGAGATGCG TTTAGAACTT
GACCAGGCTG AGCTGAGGCA GAGGGAACTT CAAGATCGTA TTCACCAGCT AGAAATTGAA
AACCAGGAGC TCCAGGCAGC TGTCAGCCTT CAAAAGGAGC AAGTACAGGT AGAAAAGGAG
AAGAGCAATA ACTACAGTGA GGAGAACTCC CGGCTGACAA AGATGATCGC AGAGTTACAG
AAGCAGTGTG AGGTGTCACA CTCCACTCAG AGCACTGTGC ATGACCTGCA GAAGTGCCTA
CAGTCACTGG AACTGAGTGC AGCAGAGCAG CAGAAGGAAC ACTTAACAAA GGTGGAACAG
CTGTTGACCA GCAAGGAAGA TTGTGCCTCA AAATTGCAGG TTTCGAATCA GGAGCTGGAG
ACCTCTAGGG CTTTGATTGC TGTGAAGGAT CTTTGCATTG ATGAGCTCAA AGCCAAGCTG
AGTTCCACAG AACAGAAGAA CCTCAACCTC CTTGCAAAAG TTGATGCTGC CTTGGACGAA
AAGGGACAGC AAGCCACAGC CCAGTATGAC TCTGCCCTAC AAATACAGGC GCTGTTAGAG
AAGCTTCAGG AGATGGAAAA GGAAAAGGCA GATATGCAAA GACTCAATGC TGAACATGCA
TCTCAGCTGA AAGCAGCAAG GGAGGAGCTG CTGCTGAAAG AACAGGCACA GAAGGAACTG
GAATCCAGAT ACAACAGCCT TACTACTAAC TCTAAAGAAG AGAGTGAAAA GCTGACTGGG
AGCCTGGAGA CAATGGCAAA GGAAAAGGAT GCACTTCAGA AGGCCCTGAC TCTGAAAGGA
AAGGAGATGG CTGAGCTCCA GACCCAGGTA ATGGGGTCGC TGGCTCAGGT GGGTTCACTG
GAAAAAAGTC TTGAGGATAC CAGGAAGGAA AAAGAGAAAC TTGAGGAGGA GTATGCTAGG
AGAGAAGGAG CACTGAAGCA GGAAGCCCAG TCACAAGCAG AGCAACTTGA ACTACAGGAG
GGTCGCTTAA CAAAGGTGAG TCAGACTGTG TGTAGCCTTC AGGAGCAAAA CCAGAAACTC
ATGTCTGAGA AGGAGCATCT CAGGCAGAAA GTCAAGGAGC TGGAGGAGAA GATGGAGCAG
CAAAACTCTG CAGTGAGTGA ATTGGATGAG GAGAGCAGGA AACTGAAAGC AGAGAATGAG
AATTTGCAGC AGTCTAAGAA GAAGATGGAA GAGAAGCTGA AAAATCTGGA AGCTTCTAAA
GCTTCCCTAG AAGCTGATAT AGCCAGGTTG AGAGCCTCTG AGAAACAACT TCAGGGTGAG
ATAGATGATG CCCTGGTGTC AGTTGATGAA AAAGAGAAGA AGCTCCGGGG TGAGAACAAA
CAGCTGGATG AAGACTTGCA GAATGCCAGG AGGCAAAGCC AAATTCTAGA GGAGAGGCTG
GAGGCTCTGC ACTCAGAATA TGAAGAACTA AAGCAAAGAG AAGAGACCTC CAAGGAGTCT
TATGCCTCAC TTGAAGCACA GCTGAAGAGT GCCAAACAGT GTAGTTTACA AATGGAAAAA
AGCTTGGACA CCTTGAAGGA AAGCAAAGAG TGTCTCCAGT CACAGCTCAC AGAGAAGGAA
GTAGAACTGC AGGGCATGGA AAGCCAATGT CAGCAGCTAA GAGCAGAAGC TGAAAGACAC
AGGAAGAAAG CAGAGACTCT TGAGATAGAA AAGCTCAGTG TTGAAAAGAC ATGCCTTCAT
CAGACAAAAC TTATAGAATC TCTCACATCA GAAAAGGAAT CAGTGGAAAA ACAGCAACTA
CAGCAGGCAG CGTCCCTGGA GAAGGAGGCA AAAGAGCTGG CCTTCAGACT GACCATGAGT
GAAGAGCAGC TGGAGGTCAA CCGAGGTGAA GTGTCCAGGC TGCAGGCAGA AGTCCTCGAT
CTGCGAGTCA AGCTTCAGCA GGCCACTGAT GAGAGAGAGA GGATGAGAAG TGAGCTGGCA
GTCACTGAGA CTGTCTTGAG TGAGCAGAAG ACACTTGTCC AGCAGCTGAA AGAGCAGTGT
GAGTCTCTCA ACAGAAATCA TGTGCAAGAA CTGGTGCAAT GTAAAGAAAG GGAAGAAAAG
CTCAAAAAAG AGCAGGAGAG AACAGCCCAT CAAAAAGCTG AGCTGGAAAA TAATTTGATG
AACCTAAAGG AAGAGCTGTC TAAGGTTAAG CGGTATTTGG AAAATGCTAG GGTGGAAAAT
GAAGAAAATA AAGATCTTCT CCACAGGACC AACACTGATA TGGCTGAACT TGGTATTCAG
ATTTGTGCCT TAACCTCTGA AAAGGTGGAT ACAGAAGAGC AGTTGGCTCA AGCCACAGAA
AGATTCAAAG AACTGGAAGA ACAGGCAGCA GAGCAACAGG AGAAGCTGAA GCTTGACATC
TCTAATCTCA GAGAGGAGAA CAAGAGCCTG CAAGAGAAAT TAGAGGAGGC TCGAATGTGT
GCCGCAGCTG TCCCAAGTCT GCAACTGCAG CTGGAGACAA TAAAGAAACA GGCACAGAGT
TTCAAAGAGA CCAGCCAAGA AGAGCTGTCT GCAATAAAAT TTCAAATGAG CACAGAGATT
CTAAATTATC AGACAAAATT CAAGGCTGTC AGTGAGGAGT GTGGGAAAGT AAGAGAGCAA
CTTGAGGAGC AGAAGCGACA ACAGCATGCA GCGGAGGAAG AGATTACAGA GTTACAAGCT
GCAAACACGA GTTTGTGCAG AAAGCTGGAT GAAACAAGAG AGCAGCTGTC AGAATCAGAA
TCTGCTCGGC TGCAGAAGGA AGAGGAAGTG ACTTCTCTTA GAGAACTCTT GGAAAGGATC
CAAAAAGAAG CTGATGAAGC AAAAGAGAAG ATCCTGGATT ACACTGAGAA GCTCAGCAAG
GTGGCAGCAG ACAAAGATAG CAGTGACCAG AAGTTATTTG CTGAGCTGGA TGATCTGACA
AGAACAAAGC AGTTCCTTGA AGAACGTTTG ATAGAACTTA TCAGAGACAA GGATGCTTTG
TGGCAAAAGT CTGATGCTCT GGAGTTCCAG CAGAAGCTTA GTGCAGAGCA GAGGTGGCAG
GGGGACACAG AAGTTAATCA CTGTCTGGAC TGCCAGAGAG AGTTCTCGTG GATGGTGCGC
CGACACCACT GCAGAATGTG TGGCCGCATT TTCTGCTACT ACTGCTGCAA TAACTACATG
GTGACAAAGC TTGGTGGAAA AAAGGAGCGT TGCTGCAGAG CTTGCTTTAA TAAGCCTAGA
GTCATTGTGG ACAGTACAGA TGACTCTGGA TCCAGTGCCA ACCAGGAAGG ATCACCGGCT
TCATTGGAAT CACCTGTCTC ACCATCTGAG AGAGCTTTTG TTGCAAGTGA AGCCTCTAAA
CCACCAGATG ATGCAGCTTT TGATATAATC ACTGATGAGG AGCTGTGCCA AGTACAGGAA
TCAGATTCTC TGCACAATGA AAGTCAGATG GAGAGAGACT CTCTGGATCA AAGTGTGACA
GATCTATGTG TTTGCTGGGC TAAGCAGCTG TTAGGGGCTC TGTACAGCCT CCAGTCTCCG
TTTCAGGTTT CTGCCTTTCA CACAATTCGA AACAGCACGT GTAATTCTTC AACTTTCGAT
GAATCCGAAG ACTGGCAAGT TGCTCAAGAT GCTGAGATAT GCTTGTTGAA ATCAGGAGAA
ATTATGAATA AATTACCCCT TACAGTAGAA GAGATCATGA ATTTTGGAGA AAGCAACAGG
GAGCTGTTCA TCAAATCCAG CACCTATAGT ATCATTCCCA TCACTGTTAC AGAGATGGGA
CTAACAATCA GCTGGATCTT CTCATCAGAC CCCAAAAGCA TATCCTTCAG TGTTGTTTAC
CAAGAGTCTG AAGACACACC GCTGGATCAG TGCAAAGTTC TTATCCCTAT GACTCGCTGC
AACTCTCATA AGGAAACTAT CAGTGGACAG GTGAAAGTCA GAAACGCTGG AATCTATACG
CTGATATTTG ACAACACATT CTCTAGGTTT ATCTCAAAAA GAGTGTTTTA TCACTTGGCT
GTTGAGCGAC CTGTCATCTA TGATGGAAGT GATTTTCCAT AGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030120973.1 CDS 144..4865 Translation
Target ORF information:
RefSeq Version XM_030265113.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata FYVE and coiled-coil domain containing 1 (FYCO1), transcript variant X5, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030265113.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681ATGGCAGCAA TGAGTGGCGA AAGCCAGCTG CAGCGGATTA TCAGAGACTT GCAAGATGCA
GTGACTGAAT TAAGTAAAGA ATTTAAAGAA GGAGGTGAAC CGATCACAGA TGACAGTGTC
AACTTGCAAA AATTCTCCTA CAAGCTTGAA TACCTCTTAC AGTTTGACCA GAAAGAAAAA
AGCACATTGC TGGGGAACAG AAAAGATTAC TGGGATTATT TCTGTGACTG TCTGGCAAAA
ATCAAAGGAG CTAATGATGG AATCCGCTTT GTCAAGTCTA TTACAGAACT ACGAACCTCT
CTTGGAAAAG GAAGAGCATT TCTTCGTTAC TCCCTGGTTC ACCAAAGGCT AGCAGACACC
TTGCAGCAAT GTTTTATGAA CACTAAAGTG ACCAGTGACT GGTACTATGC AAGAAGTCCA
TTTCTGAATT CCAAAATGAG TTCTGACATT GTGGGTCAAC TCTATGAGCT CACTGATGTT
CAGTTTGACT TAGCATCAAG AGGCTATGAT TTAGATGCTG CTTGGCCAAC ATTTGCCAGG
AGGACACTGT CCTCACTTGG ATCTTCAGCA TATTTATGGA AGCCCCCAAG TCGCAGTTCC
AGCATGAGCA GTTTAGTGAG CAATTATTTG CAGGCACAAG AGTTTCCTTC CAGCCCTGAT
GTAAATAACT CACTAAATGT TGAACACCTT GAGGGCTACG AAGAGATGCG TTTAGAACTT
GACCAGGCTG AGCTGAGGCA GAGGGAACTT CAAGATCGTA TTCACCAGCT AGAAATTGAA
AACCAGGAGC TCCAGGCAGC TGTCAGCCTT CAAAAGGAGC AAGTACAGGT AGAAAAGGAG
AAGAGCAATA ACTACAGTGA GGAGAACTCC CGGCTGACAA AGATGATCGC AGAGTTACAG
AAGCAGTGTG AGGTGTCACA CTCCACTCAG AGCACTGTGC ATGACCTGCA GAAGTGCCTA
CAGTCACTGG AACTGAGTGC AGCAGAGCAG CAGAAGGAAC ACTTAACAAA GGTGGAACAG
CTGTTGACCA GCAAGGAAGA TTGTGCCTCA AAATTGCAGG TTTCGAATCA GGAGCTGGAG
ACCTCTAGGG CTTTGATTGC TGTGAAGGAT CTTTGCATTG ATGAGCTCAA AGCCAAGCTG
AGTTCCACAG AACAGAAGAA CCTCAACCTC CTTGCAAAAG TTGATGCTGC CTTGGACGAA
AAGGGACAGC AAGCCACAGC CCAGTATGAC TCTGCCCTAC AAATACAGGC GCTGTTAGAG
AAGCTTCAGG AGATGGAAAA GGAAAAGGCA GATATGCAAA GACTCAATGC TGAACATGCA
TCTCAGCTGA AAGCAGCAAG GGAGGAGCTG CTGCTGAAAG AACAGGCACA GAAGGAACTG
GAATCCAGAT ACAACAGCCT TACTACTAAC TCTAAAGAAG AGAGTGAAAA GCTGACTGGG
AGCCTGGAGA CAATGGCAAA GGAAAAGGAT GCACTTCAGA AGGCCCTGAC TCTGAAAGGA
AAGGAGATGG CTGAGCTCCA GACCCAGGTA ATGGGGTCGC TGGCTCAGGT GGGTTCACTG
GAAAAAAGTC TTGAGGATAC CAGGAAGGAA AAAGAGAAAC TTGAGGAGGA GTATGCTAGG
AGAGAAGGAG CACTGAAGCA GGAAGCCCAG TCACAAGCAG AGCAACTTGA ACTACAGGAG
GGTCGCTTAA CAAAGGTGAG TCAGACTGTG TGTAGCCTTC AGGAGCAAAA CCAGAAACTC
ATGTCTGAGA AGGAGCATCT CAGGCAGAAA GTCAAGGAGC TGGAGGAGAA GATGGAGCAG
CAAAACTCTG CAGTGAGTGA ATTGGATGAG GAGAGCAGGA AACTGAAAGC AGAGAATGAG
AATTTGCAGC AGTCTAAGAA GAAGATGGAA GAGAAGCTGA AAAATCTGGA AGCTTCTAAA
GCTTCCCTAG AAGCTGATAT AGCCAGGTTG AGAGCCTCTG AGAAACAACT TCAGGGTGAG
ATAGATGATG CCCTGGTGTC AGTTGATGAA AAAGAGAAGA AGCTCCGGGG TGAGAACAAA
CAGCTGGATG AAGACTTGCA GAATGCCAGG AGGCAAAGCC AAATTCTAGA GGAGAGGCTG
GAGGCTCTGC ACTCAGAATA TGAAGAACTA AAGCAAAGAG AAGAGACCTC CAAGGAGTCT
TATGCCTCAC TTGAAGCACA GCTGAAGAGT GCCAAACAGT GTAGTTTACA AATGGAAAAA
AGCTTGGACA CCTTGAAGGA AAGCAAAGAG TGTCTCCAGT CACAGCTCAC AGAGAAGGAA
GTAGAACTGC AGGGCATGGA AAGCCAATGT CAGCAGCTAA GAGCAGAAGC TGAAAGACAC
AGGAAGAAAG CAGAGACTCT TGAGATAGAA AAGCTCAGTG TTGAAAAGAC ATGCCTTCAT
CAGACAAAAC TTATAGAATC TCTCACATCA GAAAAGGAAT CAGTGGAAAA ACAGCAACTA
CAGCAGGCAG CGTCCCTGGA GAAGGAGGCA AAAGAGCTGG CCTTCAGACT GACCATGAGT
GAAGAGCAGC TGGAGGTCAA CCGAGGTGAA GTGTCCAGGC TGCAGGCAGA AGTCCTCGAT
CTGCGAGTCA AGCTTCAGCA GGCCACTGAT GAGAGAGAGA GGATGAGAAG TGAGCTGGCA
GTCACTGAGA CTGTCTTGAG TGAGCAGAAG ACACTTGTCC AGCAGCTGAA AGAGCAGTGT
GAGTCTCTCA ACAGAAATCA TGTGCAAGAA CTGGTGCAAT GTAAAGAAAG GGAAGAAAAG
CTCAAAAAAG AGCAGGAGAG AACAGCCCAT CAAAAAGCTG AGCTGGAAAA TAATTTGATG
AACCTAAAGG AAGAGCTGTC TAAGGTTAAG CGGTATTTGG AAAATGCTAG GGTGGAAAAT
GAAGAAAATA AAGATCTTCT CCACAGGACC AACACTGATA TGGCTGAACT TGGTATTCAG
ATTTGTGCCT TAACCTCTGA AAAGGTGGAT ACAGAAGAGC AGTTGGCTCA AGCCACAGAA
AGATTCAAAG AACTGGAAGA ACAGGCAGCA GAGCAACAGG AGAAGCTGAA GCTTGACATC
TCTAATCTCA GAGAGGAGAA CAAGAGCCTG CAAGAGAAAT TAGAGGAGGC TCGAATGTGT
GCCGCAGCTG TCCCAAGTCT GCAACTGCAG CTGGAGACAA TAAAGAAACA GGCACAGAGT
TTCAAAGAGA CCAGCCAAGA AGAGCTGTCT GCAATAAAAT TTCAAATGAG CACAGAGATT
CTAAATTATC AGACAAAATT CAAGGCTGTC AGTGAGGAGT GTGGGAAAGT AAGAGAGCAA
CTTGAGGAGC AGAAGCGACA ACAGCATGCA GCGGAGGAAG AGATTACAGA GTTACAAGCT
GCAAACACGA GTTTGTGCAG AAAGCTGGAT GAAACAAGAG AGCAGCTGTC AGAATCAGAA
TCTGCTCGGC TGCAGAAGGA AGAGGAAGTG ACTTCTCTTA GAGAACTCTT GGAAAGGATC
CAAAAAGAAG CTGATGAAGC AAAAGAGAAG ATCCTGGATT ACACTGAGAA GCTCAGCAAG
GTGGCAGCAG ACAAAGATAG CAGTGACCAG AAGTTATTTG CTGAGCTGGA TGATCTGACA
AGAACAAAGC AGTTCCTTGA AGAACGTTTG ATAGAACTTA TCAGAGACAA GGATGCTTTG
TGGCAAAAGT CTGATGCTCT GGAGTTCCAG CAGAAGCTTA GTGCAGAGCA GAGGTGGCAG
GGGGACACAG AAGTTAATCA CTGTCTGGAC TGCCAGAGAG AGTTCTCGTG GATGGTGCGC
CGACACCACT GCAGAATGTG TGGCCGCATT TTCTGCTACT ACTGCTGCAA TAACTACATG
GTGACAAAGC TTGGTGGAAA AAAGGAGCGT TGCTGCAGAG CTTGCTTTAA TAAGCCTAGA
GTCATTGTGG ACAGTACAGA TGACTCTGGA TCCAGTGCCA ACCAGGAAGG ATCACCGGCT
TCATTGGAAT CACCTGTCTC ACCATCTGAG AGAGCTTTTG TTGCAAGTGA AGCCTCTAAA
CCACCAGATG ATGCAGCTTT TGATATAATC ACTGATGAGG AGCTGTGCCA AGTACAGGAA
TCAGATTCTC TGCACAATGA AAGTCAGATG GAGAGAGACT CTCTGGATCA AAGTGTGACA
GATCTATGTG TTTGCTGGGC TAAGCAGCTG TTAGGGGCTC TGTACAGCCT CCAGTCTCCG
TTTCAGGTTT CTGCCTTTCA CACAATTCGA AACAGCACGT GTAATTCTTC AACTTTCGAT
GAATCCGAAG ACTGGCAAGT TGCTCAAGAT GCTGAGATAT GCTTGTTGAA ATCAGGAGAA
ATTATGAATA AATTACCCCT TACAGTAGAA GAGATCATGA ATTTTGGAGA AAGCAACAGG
GAGCTGTTCA TCAAATCCAG CACCTATAGT ATCATTCCCA TCACTGTTAC AGAGATGGGA
CTAACAATCA GCTGGATCTT CTCATCAGAC CCCAAAAGCA TATCCTTCAG TGTTGTTTAC
CAAGAGTCTG AAGACACACC GCTGGATCAG TGCAAAGTTC TTATCCCTAT GACTCGCTGC
AACTCTCATA AGGAAACTAT CAGTGGACAG GTGAAAGTCA GAAACGCTGG AATCTATACG
CTGATATTTG ACAACACATT CTCTAGGTTT ATCTCAAAAA GAGTGTTTTA TCACTTGGCT
GTTGAGCGAC CTGTCATCTA TGATGGAAGT GATTTTCCAT AGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd34959 Clone ID Related Accession (Same CDS sequence) XM_030265109.1 , XM_030265112.1 , XM_030265108.1 , XM_030265113.1 , XM_030265111.1 Accession Version XM_030265111.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 4722bp)
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 FYVE and coiled-coil domain-containing protein 1 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044213.1) 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
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681ATGGCAGCAA TGAGTGGCGA AAGCCAGCTG CAGCGGATTA TCAGAGACTT GCAAGATGCA
GTGACTGAAT TAAGTAAAGA ATTTAAAGAA GGAGGTGAAC CGATCACAGA TGACAGTGTC
AACTTGCAAA AATTCTCCTA CAAGCTTGAA TACCTCTTAC AGTTTGACCA GAAAGAAAAA
AGCACATTGC TGGGGAACAG AAAAGATTAC TGGGATTATT TCTGTGACTG TCTGGCAAAA
ATCAAAGGAG CTAATGATGG AATCCGCTTT GTCAAGTCTA TTACAGAACT ACGAACCTCT
CTTGGAAAAG GAAGAGCATT TCTTCGTTAC TCCCTGGTTC ACCAAAGGCT AGCAGACACC
TTGCAGCAAT GTTTTATGAA CACTAAAGTG ACCAGTGACT GGTACTATGC AAGAAGTCCA
TTTCTGAATT CCAAAATGAG TTCTGACATT GTGGGTCAAC TCTATGAGCT CACTGATGTT
CAGTTTGACT TAGCATCAAG AGGCTATGAT TTAGATGCTG CTTGGCCAAC ATTTGCCAGG
AGGACACTGT CCTCACTTGG ATCTTCAGCA TATTTATGGA AGCCCCCAAG TCGCAGTTCC
AGCATGAGCA GTTTAGTGAG CAATTATTTG CAGGCACAAG AGTTTCCTTC CAGCCCTGAT
GTAAATAACT CACTAAATGT TGAACACCTT GAGGGCTACG AAGAGATGCG TTTAGAACTT
GACCAGGCTG AGCTGAGGCA GAGGGAACTT CAAGATCGTA TTCACCAGCT AGAAATTGAA
AACCAGGAGC TCCAGGCAGC TGTCAGCCTT CAAAAGGAGC AAGTACAGGT AGAAAAGGAG
AAGAGCAATA ACTACAGTGA GGAGAACTCC CGGCTGACAA AGATGATCGC AGAGTTACAG
AAGCAGTGTG AGGTGTCACA CTCCACTCAG AGCACTGTGC ATGACCTGCA GAAGTGCCTA
CAGTCACTGG AACTGAGTGC AGCAGAGCAG CAGAAGGAAC ACTTAACAAA GGTGGAACAG
CTGTTGACCA GCAAGGAAGA TTGTGCCTCA AAATTGCAGG TTTCGAATCA GGAGCTGGAG
ACCTCTAGGG CTTTGATTGC TGTGAAGGAT CTTTGCATTG ATGAGCTCAA AGCCAAGCTG
AGTTCCACAG AACAGAAGAA CCTCAACCTC CTTGCAAAAG TTGATGCTGC CTTGGACGAA
AAGGGACAGC AAGCCACAGC CCAGTATGAC TCTGCCCTAC AAATACAGGC GCTGTTAGAG
AAGCTTCAGG AGATGGAAAA GGAAAAGGCA GATATGCAAA GACTCAATGC TGAACATGCA
TCTCAGCTGA AAGCAGCAAG GGAGGAGCTG CTGCTGAAAG AACAGGCACA GAAGGAACTG
GAATCCAGAT ACAACAGCCT TACTACTAAC TCTAAAGAAG AGAGTGAAAA GCTGACTGGG
AGCCTGGAGA CAATGGCAAA GGAAAAGGAT GCACTTCAGA AGGCCCTGAC TCTGAAAGGA
AAGGAGATGG CTGAGCTCCA GACCCAGGTA ATGGGGTCGC TGGCTCAGGT GGGTTCACTG
GAAAAAAGTC TTGAGGATAC CAGGAAGGAA AAAGAGAAAC TTGAGGAGGA GTATGCTAGG
AGAGAAGGAG CACTGAAGCA GGAAGCCCAG TCACAAGCAG AGCAACTTGA ACTACAGGAG
GGTCGCTTAA CAAAGGTGAG TCAGACTGTG TGTAGCCTTC AGGAGCAAAA CCAGAAACTC
ATGTCTGAGA AGGAGCATCT CAGGCAGAAA GTCAAGGAGC TGGAGGAGAA GATGGAGCAG
CAAAACTCTG CAGTGAGTGA ATTGGATGAG GAGAGCAGGA AACTGAAAGC AGAGAATGAG
AATTTGCAGC AGTCTAAGAA GAAGATGGAA GAGAAGCTGA AAAATCTGGA AGCTTCTAAA
GCTTCCCTAG AAGCTGATAT AGCCAGGTTG AGAGCCTCTG AGAAACAACT TCAGGGTGAG
ATAGATGATG CCCTGGTGTC AGTTGATGAA AAAGAGAAGA AGCTCCGGGG TGAGAACAAA
CAGCTGGATG AAGACTTGCA GAATGCCAGG AGGCAAAGCC AAATTCTAGA GGAGAGGCTG
GAGGCTCTGC ACTCAGAATA TGAAGAACTA AAGCAAAGAG AAGAGACCTC CAAGGAGTCT
TATGCCTCAC TTGAAGCACA GCTGAAGAGT GCCAAACAGT GTAGTTTACA AATGGAAAAA
AGCTTGGACA CCTTGAAGGA AAGCAAAGAG TGTCTCCAGT CACAGCTCAC AGAGAAGGAA
GTAGAACTGC AGGGCATGGA AAGCCAATGT CAGCAGCTAA GAGCAGAAGC TGAAAGACAC
AGGAAGAAAG CAGAGACTCT TGAGATAGAA AAGCTCAGTG TTGAAAAGAC ATGCCTTCAT
CAGACAAAAC TTATAGAATC TCTCACATCA GAAAAGGAAT CAGTGGAAAA ACAGCAACTA
CAGCAGGCAG CGTCCCTGGA GAAGGAGGCA AAAGAGCTGG CCTTCAGACT GACCATGAGT
GAAGAGCAGC TGGAGGTCAA CCGAGGTGAA GTGTCCAGGC TGCAGGCAGA AGTCCTCGAT
CTGCGAGTCA AGCTTCAGCA GGCCACTGAT GAGAGAGAGA GGATGAGAAG TGAGCTGGCA
GTCACTGAGA CTGTCTTGAG TGAGCAGAAG ACACTTGTCC AGCAGCTGAA AGAGCAGTGT
GAGTCTCTCA ACAGAAATCA TGTGCAAGAA CTGGTGCAAT GTAAAGAAAG GGAAGAAAAG
CTCAAAAAAG AGCAGGAGAG AACAGCCCAT CAAAAAGCTG AGCTGGAAAA TAATTTGATG
AACCTAAAGG AAGAGCTGTC TAAGGTTAAG CGGTATTTGG AAAATGCTAG GGTGGAAAAT
GAAGAAAATA AAGATCTTCT CCACAGGACC AACACTGATA TGGCTGAACT TGGTATTCAG
ATTTGTGCCT TAACCTCTGA AAAGGTGGAT ACAGAAGAGC AGTTGGCTCA AGCCACAGAA
AGATTCAAAG AACTGGAAGA ACAGGCAGCA GAGCAACAGG AGAAGCTGAA GCTTGACATC
TCTAATCTCA GAGAGGAGAA CAAGAGCCTG CAAGAGAAAT TAGAGGAGGC TCGAATGTGT
GCCGCAGCTG TCCCAAGTCT GCAACTGCAG CTGGAGACAA TAAAGAAACA GGCACAGAGT
TTCAAAGAGA CCAGCCAAGA AGAGCTGTCT GCAATAAAAT TTCAAATGAG CACAGAGATT
CTAAATTATC AGACAAAATT CAAGGCTGTC AGTGAGGAGT GTGGGAAAGT AAGAGAGCAA
CTTGAGGAGC AGAAGCGACA ACAGCATGCA GCGGAGGAAG AGATTACAGA GTTACAAGCT
GCAAACACGA GTTTGTGCAG AAAGCTGGAT GAAACAAGAG AGCAGCTGTC AGAATCAGAA
TCTGCTCGGC TGCAGAAGGA AGAGGAAGTG ACTTCTCTTA GAGAACTCTT GGAAAGGATC
CAAAAAGAAG CTGATGAAGC AAAAGAGAAG ATCCTGGATT ACACTGAGAA GCTCAGCAAG
GTGGCAGCAG ACAAAGATAG CAGTGACCAG AAGTTATTTG CTGAGCTGGA TGATCTGACA
AGAACAAAGC AGTTCCTTGA AGAACGTTTG ATAGAACTTA TCAGAGACAA GGATGCTTTG
TGGCAAAAGT CTGATGCTCT GGAGTTCCAG CAGAAGCTTA GTGCAGAGCA GAGGTGGCAG
GGGGACACAG AAGTTAATCA CTGTCTGGAC TGCCAGAGAG AGTTCTCGTG GATGGTGCGC
CGACACCACT GCAGAATGTG TGGCCGCATT TTCTGCTACT ACTGCTGCAA TAACTACATG
GTGACAAAGC TTGGTGGAAA AAAGGAGCGT TGCTGCAGAG CTTGCTTTAA TAAGCCTAGA
GTCATTGTGG ACAGTACAGA TGACTCTGGA TCCAGTGCCA ACCAGGAAGG ATCACCGGCT
TCATTGGAAT CACCTGTCTC ACCATCTGAG AGAGCTTTTG TTGCAAGTGA AGCCTCTAAA
CCACCAGATG ATGCAGCTTT TGATATAATC ACTGATGAGG AGCTGTGCCA AGTACAGGAA
TCAGATTCTC TGCACAATGA AAGTCAGATG GAGAGAGACT CTCTGGATCA AAGTGTGACA
GATCTATGTG TTTGCTGGGC TAAGCAGCTG TTAGGGGCTC TGTACAGCCT CCAGTCTCCG
TTTCAGGTTT CTGCCTTTCA CACAATTCGA AACAGCACGT GTAATTCTTC AACTTTCGAT
GAATCCGAAG ACTGGCAAGT TGCTCAAGAT GCTGAGATAT GCTTGTTGAA ATCAGGAGAA
ATTATGAATA AATTACCCCT TACAGTAGAA GAGATCATGA ATTTTGGAGA AAGCAACAGG
GAGCTGTTCA TCAAATCCAG CACCTATAGT ATCATTCCCA TCACTGTTAC AGAGATGGGA
CTAACAATCA GCTGGATCTT CTCATCAGAC CCCAAAAGCA TATCCTTCAG TGTTGTTTAC
CAAGAGTCTG AAGACACACC GCTGGATCAG TGCAAAGTTC TTATCCCTAT GACTCGCTGC
AACTCTCATA AGGAAACTAT CAGTGGACAG GTGAAAGTCA GAAACGCTGG AATCTATACG
CTGATATTTG ACAACACATT CTCTAGGTTT ATCTCAAAAA GAGTGTTTTA TCACTTGGCT
GTTGAGCGAC CTGTCATCTA TGATGGAAGT GATTTTCCAT AGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030120971.1 CDS 286..5007 Translation
Target ORF information:
RefSeq Version XM_030265111.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata FYVE and coiled-coil domain containing 1 (FYCO1), transcript variant X3, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030265111.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681ATGGCAGCAA TGAGTGGCGA AAGCCAGCTG CAGCGGATTA TCAGAGACTT GCAAGATGCA
GTGACTGAAT TAAGTAAAGA ATTTAAAGAA GGAGGTGAAC CGATCACAGA TGACAGTGTC
AACTTGCAAA AATTCTCCTA CAAGCTTGAA TACCTCTTAC AGTTTGACCA GAAAGAAAAA
AGCACATTGC TGGGGAACAG AAAAGATTAC TGGGATTATT TCTGTGACTG TCTGGCAAAA
ATCAAAGGAG CTAATGATGG AATCCGCTTT GTCAAGTCTA TTACAGAACT ACGAACCTCT
CTTGGAAAAG GAAGAGCATT TCTTCGTTAC TCCCTGGTTC ACCAAAGGCT AGCAGACACC
TTGCAGCAAT GTTTTATGAA CACTAAAGTG ACCAGTGACT GGTACTATGC AAGAAGTCCA
TTTCTGAATT CCAAAATGAG TTCTGACATT GTGGGTCAAC TCTATGAGCT CACTGATGTT
CAGTTTGACT TAGCATCAAG AGGCTATGAT TTAGATGCTG CTTGGCCAAC ATTTGCCAGG
AGGACACTGT CCTCACTTGG ATCTTCAGCA TATTTATGGA AGCCCCCAAG TCGCAGTTCC
AGCATGAGCA GTTTAGTGAG CAATTATTTG CAGGCACAAG AGTTTCCTTC CAGCCCTGAT
GTAAATAACT CACTAAATGT TGAACACCTT GAGGGCTACG AAGAGATGCG TTTAGAACTT
GACCAGGCTG AGCTGAGGCA GAGGGAACTT CAAGATCGTA TTCACCAGCT AGAAATTGAA
AACCAGGAGC TCCAGGCAGC TGTCAGCCTT CAAAAGGAGC AAGTACAGGT AGAAAAGGAG
AAGAGCAATA ACTACAGTGA GGAGAACTCC CGGCTGACAA AGATGATCGC AGAGTTACAG
AAGCAGTGTG AGGTGTCACA CTCCACTCAG AGCACTGTGC ATGACCTGCA GAAGTGCCTA
CAGTCACTGG AACTGAGTGC AGCAGAGCAG CAGAAGGAAC ACTTAACAAA GGTGGAACAG
CTGTTGACCA GCAAGGAAGA TTGTGCCTCA AAATTGCAGG TTTCGAATCA GGAGCTGGAG
ACCTCTAGGG CTTTGATTGC TGTGAAGGAT CTTTGCATTG ATGAGCTCAA AGCCAAGCTG
AGTTCCACAG AACAGAAGAA CCTCAACCTC CTTGCAAAAG TTGATGCTGC CTTGGACGAA
AAGGGACAGC AAGCCACAGC CCAGTATGAC TCTGCCCTAC AAATACAGGC GCTGTTAGAG
AAGCTTCAGG AGATGGAAAA GGAAAAGGCA GATATGCAAA GACTCAATGC TGAACATGCA
TCTCAGCTGA AAGCAGCAAG GGAGGAGCTG CTGCTGAAAG AACAGGCACA GAAGGAACTG
GAATCCAGAT ACAACAGCCT TACTACTAAC TCTAAAGAAG AGAGTGAAAA GCTGACTGGG
AGCCTGGAGA CAATGGCAAA GGAAAAGGAT GCACTTCAGA AGGCCCTGAC TCTGAAAGGA
AAGGAGATGG CTGAGCTCCA GACCCAGGTA ATGGGGTCGC TGGCTCAGGT GGGTTCACTG
GAAAAAAGTC TTGAGGATAC CAGGAAGGAA AAAGAGAAAC TTGAGGAGGA GTATGCTAGG
AGAGAAGGAG CACTGAAGCA GGAAGCCCAG TCACAAGCAG AGCAACTTGA ACTACAGGAG
GGTCGCTTAA CAAAGGTGAG TCAGACTGTG TGTAGCCTTC AGGAGCAAAA CCAGAAACTC
ATGTCTGAGA AGGAGCATCT CAGGCAGAAA GTCAAGGAGC TGGAGGAGAA GATGGAGCAG
CAAAACTCTG CAGTGAGTGA ATTGGATGAG GAGAGCAGGA AACTGAAAGC AGAGAATGAG
AATTTGCAGC AGTCTAAGAA GAAGATGGAA GAGAAGCTGA AAAATCTGGA AGCTTCTAAA
GCTTCCCTAG AAGCTGATAT AGCCAGGTTG AGAGCCTCTG AGAAACAACT TCAGGGTGAG
ATAGATGATG CCCTGGTGTC AGTTGATGAA AAAGAGAAGA AGCTCCGGGG TGAGAACAAA
CAGCTGGATG AAGACTTGCA GAATGCCAGG AGGCAAAGCC AAATTCTAGA GGAGAGGCTG
GAGGCTCTGC ACTCAGAATA TGAAGAACTA AAGCAAAGAG AAGAGACCTC CAAGGAGTCT
TATGCCTCAC TTGAAGCACA GCTGAAGAGT GCCAAACAGT GTAGTTTACA AATGGAAAAA
AGCTTGGACA CCTTGAAGGA AAGCAAAGAG TGTCTCCAGT CACAGCTCAC AGAGAAGGAA
GTAGAACTGC AGGGCATGGA AAGCCAATGT CAGCAGCTAA GAGCAGAAGC TGAAAGACAC
AGGAAGAAAG CAGAGACTCT TGAGATAGAA AAGCTCAGTG TTGAAAAGAC ATGCCTTCAT
CAGACAAAAC TTATAGAATC TCTCACATCA GAAAAGGAAT CAGTGGAAAA ACAGCAACTA
CAGCAGGCAG CGTCCCTGGA GAAGGAGGCA AAAGAGCTGG CCTTCAGACT GACCATGAGT
GAAGAGCAGC TGGAGGTCAA CCGAGGTGAA GTGTCCAGGC TGCAGGCAGA AGTCCTCGAT
CTGCGAGTCA AGCTTCAGCA GGCCACTGAT GAGAGAGAGA GGATGAGAAG TGAGCTGGCA
GTCACTGAGA CTGTCTTGAG TGAGCAGAAG ACACTTGTCC AGCAGCTGAA AGAGCAGTGT
GAGTCTCTCA ACAGAAATCA TGTGCAAGAA CTGGTGCAAT GTAAAGAAAG GGAAGAAAAG
CTCAAAAAAG AGCAGGAGAG AACAGCCCAT CAAAAAGCTG AGCTGGAAAA TAATTTGATG
AACCTAAAGG AAGAGCTGTC TAAGGTTAAG CGGTATTTGG AAAATGCTAG GGTGGAAAAT
GAAGAAAATA AAGATCTTCT CCACAGGACC AACACTGATA TGGCTGAACT TGGTATTCAG
ATTTGTGCCT TAACCTCTGA AAAGGTGGAT ACAGAAGAGC AGTTGGCTCA AGCCACAGAA
AGATTCAAAG AACTGGAAGA ACAGGCAGCA GAGCAACAGG AGAAGCTGAA GCTTGACATC
TCTAATCTCA GAGAGGAGAA CAAGAGCCTG CAAGAGAAAT TAGAGGAGGC TCGAATGTGT
GCCGCAGCTG TCCCAAGTCT GCAACTGCAG CTGGAGACAA TAAAGAAACA GGCACAGAGT
TTCAAAGAGA CCAGCCAAGA AGAGCTGTCT GCAATAAAAT TTCAAATGAG CACAGAGATT
CTAAATTATC AGACAAAATT CAAGGCTGTC AGTGAGGAGT GTGGGAAAGT AAGAGAGCAA
CTTGAGGAGC AGAAGCGACA ACAGCATGCA GCGGAGGAAG AGATTACAGA GTTACAAGCT
GCAAACACGA GTTTGTGCAG AAAGCTGGAT GAAACAAGAG AGCAGCTGTC AGAATCAGAA
TCTGCTCGGC TGCAGAAGGA AGAGGAAGTG ACTTCTCTTA GAGAACTCTT GGAAAGGATC
CAAAAAGAAG CTGATGAAGC AAAAGAGAAG ATCCTGGATT ACACTGAGAA GCTCAGCAAG
GTGGCAGCAG ACAAAGATAG CAGTGACCAG AAGTTATTTG CTGAGCTGGA TGATCTGACA
AGAACAAAGC AGTTCCTTGA AGAACGTTTG ATAGAACTTA TCAGAGACAA GGATGCTTTG
TGGCAAAAGT CTGATGCTCT GGAGTTCCAG CAGAAGCTTA GTGCAGAGCA GAGGTGGCAG
GGGGACACAG AAGTTAATCA CTGTCTGGAC TGCCAGAGAG AGTTCTCGTG GATGGTGCGC
CGACACCACT GCAGAATGTG TGGCCGCATT TTCTGCTACT ACTGCTGCAA TAACTACATG
GTGACAAAGC TTGGTGGAAA AAAGGAGCGT TGCTGCAGAG CTTGCTTTAA TAAGCCTAGA
GTCATTGTGG ACAGTACAGA TGACTCTGGA TCCAGTGCCA ACCAGGAAGG ATCACCGGCT
TCATTGGAAT CACCTGTCTC ACCATCTGAG AGAGCTTTTG TTGCAAGTGA AGCCTCTAAA
CCACCAGATG ATGCAGCTTT TGATATAATC ACTGATGAGG AGCTGTGCCA AGTACAGGAA
TCAGATTCTC TGCACAATGA AAGTCAGATG GAGAGAGACT CTCTGGATCA AAGTGTGACA
GATCTATGTG TTTGCTGGGC TAAGCAGCTG TTAGGGGCTC TGTACAGCCT CCAGTCTCCG
TTTCAGGTTT CTGCCTTTCA CACAATTCGA AACAGCACGT GTAATTCTTC AACTTTCGAT
GAATCCGAAG ACTGGCAAGT TGCTCAAGAT GCTGAGATAT GCTTGTTGAA ATCAGGAGAA
ATTATGAATA AATTACCCCT TACAGTAGAA GAGATCATGA ATTTTGGAGA AAGCAACAGG
GAGCTGTTCA TCAAATCCAG CACCTATAGT ATCATTCCCA TCACTGTTAC AGAGATGGGA
CTAACAATCA GCTGGATCTT CTCATCAGAC CCCAAAAGCA TATCCTTCAG TGTTGTTTAC
CAAGAGTCTG AAGACACACC GCTGGATCAG TGCAAAGTTC TTATCCCTAT GACTCGCTGC
AACTCTCATA AGGAAACTAT CAGTGGACAG GTGAAAGTCA GAAACGCTGG AATCTATACG
CTGATATTTG ACAACACATT CTCTAGGTTT ATCTCAAAAA GAGTGTTTTA TCACTTGGCT
GTTGAGCGAC CTGTCATCTA TGATGGAAGT GATTTTCCAT AGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd34960 Clone ID Related Accession (Same CDS sequence) XM_030265114.1 , XM_030265115.1 Accession Version XM_030265114.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 4638bp)
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 FYVE and coiled-coil domain-containing protein 1 isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044213.1) 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
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621ATGGCAGCAA TGAGTGGCGA AAGCCAGCTG CAGCGGATTA TCAGAGACTT GCAAGATGCA
GTGACTGAAT TAAGTAAAGA ATTTAAAGAA GGAGGTGAAC CGATCACAGA TGACAGTGTC
AACTTGCAAA AATTCTCCTA CAAGCTTGAA TACCTCTTAC AGTTTGACCA GAAAGAAAAA
AGCACATTGC TGGGGAACAG AAAAGATTAC TGGGATTATT TCTGTGACTG TCTGGCAAAA
ATCAAAGGAG CTAATGATGG AATCCGCTTT GTCAAGTCTA TTACAGAACT ACGAACCTCT
CTTGGAAAAG GAAGAGCATT TCTTCGTTAC TCCCTGGTTC ACCAAAGGCT AGCAGACACC
TTGCAGCAAT GTTTTATGAA CACTAAAGTG ACCAGTGACT GGTACTATGC AAGAAGTCCA
TTTCTGAATT CCAAAATGAG TTCTGACATT GTGGGTCAAC TCTATGAGCT CACTGATGTT
CAGTTTGACT TAGCATCAAG AGGCTATGAT TTAGATGCTG CTTGGCCAAC ATTTGCCAGG
AGGACACTGT CCTCACTTGG ATCTTCAGCA TATTTATGGA AGCCCCCAAG TCGCAGTTCC
AGCATGAGCA GTTTAGTGAG CAATTATTTG CAGGCACAAG AGTTTCCTTC CAGCCCTGAT
GTAAATAACT CACTAAATGT TGAACACCTT GAGGGCTACG AAGAGATGCG TTTAGAACTT
GACCAGGCTG AGCTGAGGCA GAGGGAACTT CAAGATCGTA TTCACCAGCT AGAAATTGAA
AACCAGGAGC TCCAGGCAGC TGTCAGCCTT CAAAAGGAGC AAGTACAGGT AGAAAAGGAG
AAGAGCAATA ACTACAGTGA GGAGAACTCC CGGCTGACAA AGATGATCGC AGAGTTACAG
AAGCAGTGTG AGGTGTCACA CTCCACTCAG AGCACTGTGC ATGACCTGCA GAAGTGCCTA
CAGTCACTGG AACTGAGTGC AGCAGAGCAG CAGAAGGAAC ACTTAACAAA GGTGGAACAG
CTGTTGACCA GCAAGGAAGA TTGTGCCTCA AAATTGCAGG TTTCGAATCA GGAGCTGGAG
ACCTCTAGGG CTTTGATTGC TGTGAAGGAT CTTTGCATTG ATGAGCTCAA AGCCAAGCTG
AGTTCCACAG AACAGAAGAA CCTCAACCTC CTTGCAAAAG TTGATGCTGC CTTGGACGAA
AAGGGACAGC AAGCCACAGC CCAGTATGAC TCTGCCCTAC AAATACAGGC GCTGTTAGAG
AAGCTTCAGG AGATGGAAAA GGAAAAGGCA GATATGCAAA GACTCAATGC TGAACATGCA
TCTCAGCTGA AAGCAGCAAG GGAGGAGCTG CTGCTGAAAG AACAGGCACA GAAGGAACTG
GAATCCAGAT ACAACAGCCT TACTACTAAC TCTAAAGAAG AGAGTGAAAA GCTGACTGGG
AGCCTGGAGA CAATGGCAAA GGAAAAGGAT GCACTTCAGA AGGCCCTGAC TCTGAAAGGA
AAGGAGATGG CTGAGCTCCA GACCCAGGTA ATGGGGTCGC TGGCTCAGGT GGGTTCACTG
GAAAAAAGTC TTGAGGATAC CAGGAAGGAA AAAGAGAAAC TTGAGGAGGA GTATGCTAGG
AGAGAAGGAG CACTGAAGCA GGAAGCCCAG TCACAAGCAG AGCAACTTGA ACTACAGGAG
GGTCGCTTAA CAAAGGTGAG TCAGACTGTG TGTAGCCTTC AGGAGCAAAA CCAGAAACTC
ATGTCTGAGA AGGAGCATCT CAGGCAGAAA GTCAAGGAGC TGGAGGAGAA GATGGAGCAG
CAAAACTCTG CAGTGAGTGA ATTGGATGAG GAGAGCAGGA AACTGAAAGC AGAGAATGAG
AATTTGCAGC AGTCTAAGAA GAAGATGGAA GAGAAGCTGA AAAATCTGGA AGCTTCTAAA
GCTTCCCTAG AAGCTGATAT AGCCAGGTTG AGAGCCTCTG AGAAACAACT TCAGGGTGAG
ATAGATGATG CCCTGGTGTC AGTTGATGAA AAAGAGAAGA AGCTCCGGGG TGAGAACAAA
CAGCTGGATG AAGACTTGCA GAATGCCAGG AGGCAAAGCC AAATTCTAGA GGAGAGGCTG
GAGGCTCTGC ACTCAGAATA TGAAGAACTA AAGCAAAGAG AAGAGACCTC CAAGGAGTCT
TATGCCTCAC TTGAAGCACA GCTGAAGAGT GCCAAACAGT GTAGTTTACA AATGGAAAAA
AGCTTGGACA CCTTGAAGGA AAGCAAAGAG TGTCTCCAGT CACAGCTCAC AGAGAAGGAA
GTAGAACTGC AGGGCATGGA AAGCCAATGT CAGCAGCTAA GAGCAGAAGC TGAAAGACAC
AGGAAGAAAG CAGAGACTCT TGAGATAGAA AAGCTCAGTG TTGAAAAGAC ATGCCTTCAT
CAGACAAAAC TTATAGAATC TCTCACATCA GAAAAGGAAT CAGTGGAAAA ACAGCAACTA
CAGCAGGCAG CGTCCCTGGA GAAGGAGGCA AAAGAGCTGG CCTTCAGACT GACCATGAGT
GAAGAGCAGC TGGAGGTCAA CCGAGGTGAA GTGTCCAGGC TGCAGGCAGA AGTCCTCGAT
CTGCGAGTCA AGCTTCAGCA GGCCACTGAT GAGAGAGAGA GGATGAGAAG TGAGCTGGCA
GTCACTGAGA CTGTCTTGAG TGAGCAGAAG ACACTTGTCC AGCAGCTGAA AGAGCAGTGT
GAGTCTCTCA ACAGAAATCA TGTGCAAGAA CTGGTGCAAT GTAAAGAAAG GGAAGAAAAG
CTCAAAAAAG AGCAGGAGAG AACAGCCCAT CAAAAAGCTG AGCTGGAAAA TAATTTGATG
AACCTAAAGG AAGAGCTGTC TAAGGTTAAG CGGTATTTGG AAAATGCTAG GGTGGAAAAT
GAAGAAAATA AAGATCTTCT CCACAGGACC AACACTGATA TGGCTGAACT TGGTATTCAG
ATTTGTGCCT TAACCTCTGA AAAGGTGGAT ACAGAAGAGC AGTTGGCTCA AGCCACAGAA
AGATTCAAAG AACTGGAAGA ACAGGCAGCA GAGCAACAGG AGAAGCTGAA GCTTGACATC
TCTAATCTCA GAGAGGAGAA CAAGAGCCTG CAAGAGAAAT TAGAGGAGGC TCGAATGTGT
GCCGCAGCTG TCCCAAGTCT GCAACTGCAG CTGGAGACAA TAAAGAAACA GGCACAGAGT
TTCAAAGAGA CCAGCCAAGA AGAGCTGTCT GCAATAAAAT TTCAAATGAG CACAGAGATT
CTAAATTATC AGACAAAATT CAAGGCTGTC AGTGAGGAGT GTGGGAAAGT AAGAGAGCAA
CTTGAGGAGC AGAAGCGACA ACAGCATGCA GCGGAGGAAG AGATTACAGA GTTACAAGCT
GCAAACACGA GTTTGTGCAG AAAGCTGGAT GAAACAAGAG AGCAGCTGTC AGAATCAGAA
TCTGCTCGGC TGCAGAAGGA AGAGGAAGTG ACTTCTCTTA GAGAACTCTT GGAAAGGATC
CAAAAAGAAG CTGATGAAGC AAAAGAGAAG ATCCTGGATT ACACTGAGAA GCTCAGCAAG
GTGGCAGCAG ACAAAGATAG CAGTGACCAG AAGTTATTTG CTGAGCTGGA TGATCTGACA
AGAACAAAGC AGTTCCTTGA AGAACGTTTG ATAGAACTTA TCAGAGACAA GGATGCTTTG
TGGCAAAAGT CTGATGCTCT GGAGTTCCAG CAGAAGCTTA GTGCAGAGCA GAGGTGGCAG
GGGGACACAG AAGTTAATCA CTGTCTGGAC TGCCAGAGAG AGTTCTCGTG GATGGTGCGC
CGACACCACT GCAGAATGTG TGGCCGCATT TTCTGCTACT ACTGCTGCAA TAACTACATG
GTGACAAAGC TTGGTGGAAA AAAGGAGCGT TGCTGCAGAG CTTGCTTTAA TAAGCCTAGA
GTCATTGTGG ACAGTACAGA TGACTCTGGA TCCAGTGCCA ACCAGGAAGG ATCACCGGCT
TCATTGGAAT CACCTGTCTC ACCATCTGAG AGAGCTTTTG TTGCAAGTGA AGCCTCTAAA
CCACCAGATG ATGCAGCTTT TGATATAATC ACTGATGAGG AGCTGTGCCA AGTACAGGAA
TCAGATTCTC TGCACAATGA AAGTCAGATG GAGAGAGACT CTCTGGATCA AAGTGTGACA
GATCTAAACA GCACGTGTAA TTCTTCAACT TTCGATGAAT CCGAAGACTG GCAAGTTGCT
CAAGATGCTG AGATATGCTT GTTGAAATCA GGAGAAATTA TGAATAAATT ACCCCTTACA
GTAGAAGAGA TCATGAATTT TGGAGAAAGC AACAGGGAGC TGTTCATCAA ATCCAGCACC
TATAGTATCA TTCCCATCAC TGTTACAGAG ATGGGACTAA CAATCAGCTG GATCTTCTCA
TCAGACCCCA AAAGCATATC CTTCAGTGTT GTTTACCAAG AGTCTGAAGA CACACCGCTG
GATCAGTGCA AAGTTCTTAT CCCTATGACT CGCTGCAACT CTCATAAGGA AACTATCAGT
GGACAGGTGA AAGTCAGAAA CGCTGGAATC TATACGCTGA TATTTGACAA CACATTCTCT
AGGTTTATCT CAAAAAGAGT GTTTTATCAC TTGGCTGTTG AGCGACCTGT CATCTATGAT
GGAAGTGATT TTCCATAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030120974.1 CDS 303..4940 Translation
Target ORF information:
RefSeq Version XM_030265114.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata FYVE and coiled-coil domain containing 1 (FYCO1), transcript variant X6, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030265114.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621ATGGCAGCAA TGAGTGGCGA AAGCCAGCTG CAGCGGATTA TCAGAGACTT GCAAGATGCA
GTGACTGAAT TAAGTAAAGA ATTTAAAGAA GGAGGTGAAC CGATCACAGA TGACAGTGTC
AACTTGCAAA AATTCTCCTA CAAGCTTGAA TACCTCTTAC AGTTTGACCA GAAAGAAAAA
AGCACATTGC TGGGGAACAG AAAAGATTAC TGGGATTATT TCTGTGACTG TCTGGCAAAA
ATCAAAGGAG CTAATGATGG AATCCGCTTT GTCAAGTCTA TTACAGAACT ACGAACCTCT
CTTGGAAAAG GAAGAGCATT TCTTCGTTAC TCCCTGGTTC ACCAAAGGCT AGCAGACACC
TTGCAGCAAT GTTTTATGAA CACTAAAGTG ACCAGTGACT GGTACTATGC AAGAAGTCCA
TTTCTGAATT CCAAAATGAG TTCTGACATT GTGGGTCAAC TCTATGAGCT CACTGATGTT
CAGTTTGACT TAGCATCAAG AGGCTATGAT TTAGATGCTG CTTGGCCAAC ATTTGCCAGG
AGGACACTGT CCTCACTTGG ATCTTCAGCA TATTTATGGA AGCCCCCAAG TCGCAGTTCC
AGCATGAGCA GTTTAGTGAG CAATTATTTG CAGGCACAAG AGTTTCCTTC CAGCCCTGAT
GTAAATAACT CACTAAATGT TGAACACCTT GAGGGCTACG AAGAGATGCG TTTAGAACTT
GACCAGGCTG AGCTGAGGCA GAGGGAACTT CAAGATCGTA TTCACCAGCT AGAAATTGAA
AACCAGGAGC TCCAGGCAGC TGTCAGCCTT CAAAAGGAGC AAGTACAGGT AGAAAAGGAG
AAGAGCAATA ACTACAGTGA GGAGAACTCC CGGCTGACAA AGATGATCGC AGAGTTACAG
AAGCAGTGTG AGGTGTCACA CTCCACTCAG AGCACTGTGC ATGACCTGCA GAAGTGCCTA
CAGTCACTGG AACTGAGTGC AGCAGAGCAG CAGAAGGAAC ACTTAACAAA GGTGGAACAG
CTGTTGACCA GCAAGGAAGA TTGTGCCTCA AAATTGCAGG TTTCGAATCA GGAGCTGGAG
ACCTCTAGGG CTTTGATTGC TGTGAAGGAT CTTTGCATTG ATGAGCTCAA AGCCAAGCTG
AGTTCCACAG AACAGAAGAA CCTCAACCTC CTTGCAAAAG TTGATGCTGC CTTGGACGAA
AAGGGACAGC AAGCCACAGC CCAGTATGAC TCTGCCCTAC AAATACAGGC GCTGTTAGAG
AAGCTTCAGG AGATGGAAAA GGAAAAGGCA GATATGCAAA GACTCAATGC TGAACATGCA
TCTCAGCTGA AAGCAGCAAG GGAGGAGCTG CTGCTGAAAG AACAGGCACA GAAGGAACTG
GAATCCAGAT ACAACAGCCT TACTACTAAC TCTAAAGAAG AGAGTGAAAA GCTGACTGGG
AGCCTGGAGA CAATGGCAAA GGAAAAGGAT GCACTTCAGA AGGCCCTGAC TCTGAAAGGA
AAGGAGATGG CTGAGCTCCA GACCCAGGTA ATGGGGTCGC TGGCTCAGGT GGGTTCACTG
GAAAAAAGTC TTGAGGATAC CAGGAAGGAA AAAGAGAAAC TTGAGGAGGA GTATGCTAGG
AGAGAAGGAG CACTGAAGCA GGAAGCCCAG TCACAAGCAG AGCAACTTGA ACTACAGGAG
GGTCGCTTAA CAAAGGTGAG TCAGACTGTG TGTAGCCTTC AGGAGCAAAA CCAGAAACTC
ATGTCTGAGA AGGAGCATCT CAGGCAGAAA GTCAAGGAGC TGGAGGAGAA GATGGAGCAG
CAAAACTCTG CAGTGAGTGA ATTGGATGAG GAGAGCAGGA AACTGAAAGC AGAGAATGAG
AATTTGCAGC AGTCTAAGAA GAAGATGGAA GAGAAGCTGA AAAATCTGGA AGCTTCTAAA
GCTTCCCTAG AAGCTGATAT AGCCAGGTTG AGAGCCTCTG AGAAACAACT TCAGGGTGAG
ATAGATGATG CCCTGGTGTC AGTTGATGAA AAAGAGAAGA AGCTCCGGGG TGAGAACAAA
CAGCTGGATG AAGACTTGCA GAATGCCAGG AGGCAAAGCC AAATTCTAGA GGAGAGGCTG
GAGGCTCTGC ACTCAGAATA TGAAGAACTA AAGCAAAGAG AAGAGACCTC CAAGGAGTCT
TATGCCTCAC TTGAAGCACA GCTGAAGAGT GCCAAACAGT GTAGTTTACA AATGGAAAAA
AGCTTGGACA CCTTGAAGGA AAGCAAAGAG TGTCTCCAGT CACAGCTCAC AGAGAAGGAA
GTAGAACTGC AGGGCATGGA AAGCCAATGT CAGCAGCTAA GAGCAGAAGC TGAAAGACAC
AGGAAGAAAG CAGAGACTCT TGAGATAGAA AAGCTCAGTG TTGAAAAGAC ATGCCTTCAT
CAGACAAAAC TTATAGAATC TCTCACATCA GAAAAGGAAT CAGTGGAAAA ACAGCAACTA
CAGCAGGCAG CGTCCCTGGA GAAGGAGGCA AAAGAGCTGG CCTTCAGACT GACCATGAGT
GAAGAGCAGC TGGAGGTCAA CCGAGGTGAA GTGTCCAGGC TGCAGGCAGA AGTCCTCGAT
CTGCGAGTCA AGCTTCAGCA GGCCACTGAT GAGAGAGAGA GGATGAGAAG TGAGCTGGCA
GTCACTGAGA CTGTCTTGAG TGAGCAGAAG ACACTTGTCC AGCAGCTGAA AGAGCAGTGT
GAGTCTCTCA ACAGAAATCA TGTGCAAGAA CTGGTGCAAT GTAAAGAAAG GGAAGAAAAG
CTCAAAAAAG AGCAGGAGAG AACAGCCCAT CAAAAAGCTG AGCTGGAAAA TAATTTGATG
AACCTAAAGG AAGAGCTGTC TAAGGTTAAG CGGTATTTGG AAAATGCTAG GGTGGAAAAT
GAAGAAAATA AAGATCTTCT CCACAGGACC AACACTGATA TGGCTGAACT TGGTATTCAG
ATTTGTGCCT TAACCTCTGA AAAGGTGGAT ACAGAAGAGC AGTTGGCTCA AGCCACAGAA
AGATTCAAAG AACTGGAAGA ACAGGCAGCA GAGCAACAGG AGAAGCTGAA GCTTGACATC
TCTAATCTCA GAGAGGAGAA CAAGAGCCTG CAAGAGAAAT TAGAGGAGGC TCGAATGTGT
GCCGCAGCTG TCCCAAGTCT GCAACTGCAG CTGGAGACAA TAAAGAAACA GGCACAGAGT
TTCAAAGAGA CCAGCCAAGA AGAGCTGTCT GCAATAAAAT TTCAAATGAG CACAGAGATT
CTAAATTATC AGACAAAATT CAAGGCTGTC AGTGAGGAGT GTGGGAAAGT AAGAGAGCAA
CTTGAGGAGC AGAAGCGACA ACAGCATGCA GCGGAGGAAG AGATTACAGA GTTACAAGCT
GCAAACACGA GTTTGTGCAG AAAGCTGGAT GAAACAAGAG AGCAGCTGTC AGAATCAGAA
TCTGCTCGGC TGCAGAAGGA AGAGGAAGTG ACTTCTCTTA GAGAACTCTT GGAAAGGATC
CAAAAAGAAG CTGATGAAGC AAAAGAGAAG ATCCTGGATT ACACTGAGAA GCTCAGCAAG
GTGGCAGCAG ACAAAGATAG CAGTGACCAG AAGTTATTTG CTGAGCTGGA TGATCTGACA
AGAACAAAGC AGTTCCTTGA AGAACGTTTG ATAGAACTTA TCAGAGACAA GGATGCTTTG
TGGCAAAAGT CTGATGCTCT GGAGTTCCAG CAGAAGCTTA GTGCAGAGCA GAGGTGGCAG
GGGGACACAG AAGTTAATCA CTGTCTGGAC TGCCAGAGAG AGTTCTCGTG GATGGTGCGC
CGACACCACT GCAGAATGTG TGGCCGCATT TTCTGCTACT ACTGCTGCAA TAACTACATG
GTGACAAAGC TTGGTGGAAA AAAGGAGCGT TGCTGCAGAG CTTGCTTTAA TAAGCCTAGA
GTCATTGTGG ACAGTACAGA TGACTCTGGA TCCAGTGCCA ACCAGGAAGG ATCACCGGCT
TCATTGGAAT CACCTGTCTC ACCATCTGAG AGAGCTTTTG TTGCAAGTGA AGCCTCTAAA
CCACCAGATG ATGCAGCTTT TGATATAATC ACTGATGAGG AGCTGTGCCA AGTACAGGAA
TCAGATTCTC TGCACAATGA AAGTCAGATG GAGAGAGACT CTCTGGATCA AAGTGTGACA
GATCTAAACA GCACGTGTAA TTCTTCAACT TTCGATGAAT CCGAAGACTG GCAAGTTGCT
CAAGATGCTG AGATATGCTT GTTGAAATCA GGAGAAATTA TGAATAAATT ACCCCTTACA
GTAGAAGAGA TCATGAATTT TGGAGAAAGC AACAGGGAGC TGTTCATCAA ATCCAGCACC
TATAGTATCA TTCCCATCAC TGTTACAGAG ATGGGACTAA CAATCAGCTG GATCTTCTCA
TCAGACCCCA AAAGCATATC CTTCAGTGTT GTTTACCAAG AGTCTGAAGA CACACCGCTG
GATCAGTGCA AAGTTCTTAT CCCTATGACT CGCTGCAACT CTCATAAGGA AACTATCAGT
GGACAGGTGA AAGTCAGAAA CGCTGGAATC TATACGCTGA TATTTGACAA CACATTCTCT
AGGTTTATCT CAAAAAGAGT GTTTTATCAC TTGGCTGTTG AGCGACCTGT CATCTATGAT
GGAAGTGATT TTCCATAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd34960 Clone ID Related Accession (Same CDS sequence) XM_030265114.1 , XM_030265115.1 Accession Version XM_030265115.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 4638bp)
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 FYVE and coiled-coil domain-containing protein 1 isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044213.1) 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
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621ATGGCAGCAA TGAGTGGCGA AAGCCAGCTG CAGCGGATTA TCAGAGACTT GCAAGATGCA
GTGACTGAAT TAAGTAAAGA ATTTAAAGAA GGAGGTGAAC CGATCACAGA TGACAGTGTC
AACTTGCAAA AATTCTCCTA CAAGCTTGAA TACCTCTTAC AGTTTGACCA GAAAGAAAAA
AGCACATTGC TGGGGAACAG AAAAGATTAC TGGGATTATT TCTGTGACTG TCTGGCAAAA
ATCAAAGGAG CTAATGATGG AATCCGCTTT GTCAAGTCTA TTACAGAACT ACGAACCTCT
CTTGGAAAAG GAAGAGCATT TCTTCGTTAC TCCCTGGTTC ACCAAAGGCT AGCAGACACC
TTGCAGCAAT GTTTTATGAA CACTAAAGTG ACCAGTGACT GGTACTATGC AAGAAGTCCA
TTTCTGAATT CCAAAATGAG TTCTGACATT GTGGGTCAAC TCTATGAGCT CACTGATGTT
CAGTTTGACT TAGCATCAAG AGGCTATGAT TTAGATGCTG CTTGGCCAAC ATTTGCCAGG
AGGACACTGT CCTCACTTGG ATCTTCAGCA TATTTATGGA AGCCCCCAAG TCGCAGTTCC
AGCATGAGCA GTTTAGTGAG CAATTATTTG CAGGCACAAG AGTTTCCTTC CAGCCCTGAT
GTAAATAACT CACTAAATGT TGAACACCTT GAGGGCTACG AAGAGATGCG TTTAGAACTT
GACCAGGCTG AGCTGAGGCA GAGGGAACTT CAAGATCGTA TTCACCAGCT AGAAATTGAA
AACCAGGAGC TCCAGGCAGC TGTCAGCCTT CAAAAGGAGC AAGTACAGGT AGAAAAGGAG
AAGAGCAATA ACTACAGTGA GGAGAACTCC CGGCTGACAA AGATGATCGC AGAGTTACAG
AAGCAGTGTG AGGTGTCACA CTCCACTCAG AGCACTGTGC ATGACCTGCA GAAGTGCCTA
CAGTCACTGG AACTGAGTGC AGCAGAGCAG CAGAAGGAAC ACTTAACAAA GGTGGAACAG
CTGTTGACCA GCAAGGAAGA TTGTGCCTCA AAATTGCAGG TTTCGAATCA GGAGCTGGAG
ACCTCTAGGG CTTTGATTGC TGTGAAGGAT CTTTGCATTG ATGAGCTCAA AGCCAAGCTG
AGTTCCACAG AACAGAAGAA CCTCAACCTC CTTGCAAAAG TTGATGCTGC CTTGGACGAA
AAGGGACAGC AAGCCACAGC CCAGTATGAC TCTGCCCTAC AAATACAGGC GCTGTTAGAG
AAGCTTCAGG AGATGGAAAA GGAAAAGGCA GATATGCAAA GACTCAATGC TGAACATGCA
TCTCAGCTGA AAGCAGCAAG GGAGGAGCTG CTGCTGAAAG AACAGGCACA GAAGGAACTG
GAATCCAGAT ACAACAGCCT TACTACTAAC TCTAAAGAAG AGAGTGAAAA GCTGACTGGG
AGCCTGGAGA CAATGGCAAA GGAAAAGGAT GCACTTCAGA AGGCCCTGAC TCTGAAAGGA
AAGGAGATGG CTGAGCTCCA GACCCAGGTA ATGGGGTCGC TGGCTCAGGT GGGTTCACTG
GAAAAAAGTC TTGAGGATAC CAGGAAGGAA AAAGAGAAAC TTGAGGAGGA GTATGCTAGG
AGAGAAGGAG CACTGAAGCA GGAAGCCCAG TCACAAGCAG AGCAACTTGA ACTACAGGAG
GGTCGCTTAA CAAAGGTGAG TCAGACTGTG TGTAGCCTTC AGGAGCAAAA CCAGAAACTC
ATGTCTGAGA AGGAGCATCT CAGGCAGAAA GTCAAGGAGC TGGAGGAGAA GATGGAGCAG
CAAAACTCTG CAGTGAGTGA ATTGGATGAG GAGAGCAGGA AACTGAAAGC AGAGAATGAG
AATTTGCAGC AGTCTAAGAA GAAGATGGAA GAGAAGCTGA AAAATCTGGA AGCTTCTAAA
GCTTCCCTAG AAGCTGATAT AGCCAGGTTG AGAGCCTCTG AGAAACAACT TCAGGGTGAG
ATAGATGATG CCCTGGTGTC AGTTGATGAA AAAGAGAAGA AGCTCCGGGG TGAGAACAAA
CAGCTGGATG AAGACTTGCA GAATGCCAGG AGGCAAAGCC AAATTCTAGA GGAGAGGCTG
GAGGCTCTGC ACTCAGAATA TGAAGAACTA AAGCAAAGAG AAGAGACCTC CAAGGAGTCT
TATGCCTCAC TTGAAGCACA GCTGAAGAGT GCCAAACAGT GTAGTTTACA AATGGAAAAA
AGCTTGGACA CCTTGAAGGA AAGCAAAGAG TGTCTCCAGT CACAGCTCAC AGAGAAGGAA
GTAGAACTGC AGGGCATGGA AAGCCAATGT CAGCAGCTAA GAGCAGAAGC TGAAAGACAC
AGGAAGAAAG CAGAGACTCT TGAGATAGAA AAGCTCAGTG TTGAAAAGAC ATGCCTTCAT
CAGACAAAAC TTATAGAATC TCTCACATCA GAAAAGGAAT CAGTGGAAAA ACAGCAACTA
CAGCAGGCAG CGTCCCTGGA GAAGGAGGCA AAAGAGCTGG CCTTCAGACT GACCATGAGT
GAAGAGCAGC TGGAGGTCAA CCGAGGTGAA GTGTCCAGGC TGCAGGCAGA AGTCCTCGAT
CTGCGAGTCA AGCTTCAGCA GGCCACTGAT GAGAGAGAGA GGATGAGAAG TGAGCTGGCA
GTCACTGAGA CTGTCTTGAG TGAGCAGAAG ACACTTGTCC AGCAGCTGAA AGAGCAGTGT
GAGTCTCTCA ACAGAAATCA TGTGCAAGAA CTGGTGCAAT GTAAAGAAAG GGAAGAAAAG
CTCAAAAAAG AGCAGGAGAG AACAGCCCAT CAAAAAGCTG AGCTGGAAAA TAATTTGATG
AACCTAAAGG AAGAGCTGTC TAAGGTTAAG CGGTATTTGG AAAATGCTAG GGTGGAAAAT
GAAGAAAATA AAGATCTTCT CCACAGGACC AACACTGATA TGGCTGAACT TGGTATTCAG
ATTTGTGCCT TAACCTCTGA AAAGGTGGAT ACAGAAGAGC AGTTGGCTCA AGCCACAGAA
AGATTCAAAG AACTGGAAGA ACAGGCAGCA GAGCAACAGG AGAAGCTGAA GCTTGACATC
TCTAATCTCA GAGAGGAGAA CAAGAGCCTG CAAGAGAAAT TAGAGGAGGC TCGAATGTGT
GCCGCAGCTG TCCCAAGTCT GCAACTGCAG CTGGAGACAA TAAAGAAACA GGCACAGAGT
TTCAAAGAGA CCAGCCAAGA AGAGCTGTCT GCAATAAAAT TTCAAATGAG CACAGAGATT
CTAAATTATC AGACAAAATT CAAGGCTGTC AGTGAGGAGT GTGGGAAAGT AAGAGAGCAA
CTTGAGGAGC AGAAGCGACA ACAGCATGCA GCGGAGGAAG AGATTACAGA GTTACAAGCT
GCAAACACGA GTTTGTGCAG AAAGCTGGAT GAAACAAGAG AGCAGCTGTC AGAATCAGAA
TCTGCTCGGC TGCAGAAGGA AGAGGAAGTG ACTTCTCTTA GAGAACTCTT GGAAAGGATC
CAAAAAGAAG CTGATGAAGC AAAAGAGAAG ATCCTGGATT ACACTGAGAA GCTCAGCAAG
GTGGCAGCAG ACAAAGATAG CAGTGACCAG AAGTTATTTG CTGAGCTGGA TGATCTGACA
AGAACAAAGC AGTTCCTTGA AGAACGTTTG ATAGAACTTA TCAGAGACAA GGATGCTTTG
TGGCAAAAGT CTGATGCTCT GGAGTTCCAG CAGAAGCTTA GTGCAGAGCA GAGGTGGCAG
GGGGACACAG AAGTTAATCA CTGTCTGGAC TGCCAGAGAG AGTTCTCGTG GATGGTGCGC
CGACACCACT GCAGAATGTG TGGCCGCATT TTCTGCTACT ACTGCTGCAA TAACTACATG
GTGACAAAGC TTGGTGGAAA AAAGGAGCGT TGCTGCAGAG CTTGCTTTAA TAAGCCTAGA
GTCATTGTGG ACAGTACAGA TGACTCTGGA TCCAGTGCCA ACCAGGAAGG ATCACCGGCT
TCATTGGAAT CACCTGTCTC ACCATCTGAG AGAGCTTTTG TTGCAAGTGA AGCCTCTAAA
CCACCAGATG ATGCAGCTTT TGATATAATC ACTGATGAGG AGCTGTGCCA AGTACAGGAA
TCAGATTCTC TGCACAATGA AAGTCAGATG GAGAGAGACT CTCTGGATCA AAGTGTGACA
GATCTAAACA GCACGTGTAA TTCTTCAACT TTCGATGAAT CCGAAGACTG GCAAGTTGCT
CAAGATGCTG AGATATGCTT GTTGAAATCA GGAGAAATTA TGAATAAATT ACCCCTTACA
GTAGAAGAGA TCATGAATTT TGGAGAAAGC AACAGGGAGC TGTTCATCAA ATCCAGCACC
TATAGTATCA TTCCCATCAC TGTTACAGAG ATGGGACTAA CAATCAGCTG GATCTTCTCA
TCAGACCCCA AAAGCATATC CTTCAGTGTT GTTTACCAAG AGTCTGAAGA CACACCGCTG
GATCAGTGCA AAGTTCTTAT CCCTATGACT CGCTGCAACT CTCATAAGGA AACTATCAGT
GGACAGGTGA AAGTCAGAAA CGCTGGAATC TATACGCTGA TATTTGACAA CACATTCTCT
AGGTTTATCT CAAAAAGAGT GTTTTATCAC TTGGCTGTTG AGCGACCTGT CATCTATGAT
GGAAGTGATT TTCCATAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030120975.1 CDS 209..4846 Translation
Target ORF information:
RefSeq Version XM_030265115.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata FYVE and coiled-coil domain containing 1 (FYCO1), transcript variant X7, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030265115.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621ATGGCAGCAA TGAGTGGCGA AAGCCAGCTG CAGCGGATTA TCAGAGACTT GCAAGATGCA
GTGACTGAAT TAAGTAAAGA ATTTAAAGAA GGAGGTGAAC CGATCACAGA TGACAGTGTC
AACTTGCAAA AATTCTCCTA CAAGCTTGAA TACCTCTTAC AGTTTGACCA GAAAGAAAAA
AGCACATTGC TGGGGAACAG AAAAGATTAC TGGGATTATT TCTGTGACTG TCTGGCAAAA
ATCAAAGGAG CTAATGATGG AATCCGCTTT GTCAAGTCTA TTACAGAACT ACGAACCTCT
CTTGGAAAAG GAAGAGCATT TCTTCGTTAC TCCCTGGTTC ACCAAAGGCT AGCAGACACC
TTGCAGCAAT GTTTTATGAA CACTAAAGTG ACCAGTGACT GGTACTATGC AAGAAGTCCA
TTTCTGAATT CCAAAATGAG TTCTGACATT GTGGGTCAAC TCTATGAGCT CACTGATGTT
CAGTTTGACT TAGCATCAAG AGGCTATGAT TTAGATGCTG CTTGGCCAAC ATTTGCCAGG
AGGACACTGT CCTCACTTGG ATCTTCAGCA TATTTATGGA AGCCCCCAAG TCGCAGTTCC
AGCATGAGCA GTTTAGTGAG CAATTATTTG CAGGCACAAG AGTTTCCTTC CAGCCCTGAT
GTAAATAACT CACTAAATGT TGAACACCTT GAGGGCTACG AAGAGATGCG TTTAGAACTT
GACCAGGCTG AGCTGAGGCA GAGGGAACTT CAAGATCGTA TTCACCAGCT AGAAATTGAA
AACCAGGAGC TCCAGGCAGC TGTCAGCCTT CAAAAGGAGC AAGTACAGGT AGAAAAGGAG
AAGAGCAATA ACTACAGTGA GGAGAACTCC CGGCTGACAA AGATGATCGC AGAGTTACAG
AAGCAGTGTG AGGTGTCACA CTCCACTCAG AGCACTGTGC ATGACCTGCA GAAGTGCCTA
CAGTCACTGG AACTGAGTGC AGCAGAGCAG CAGAAGGAAC ACTTAACAAA GGTGGAACAG
CTGTTGACCA GCAAGGAAGA TTGTGCCTCA AAATTGCAGG TTTCGAATCA GGAGCTGGAG
ACCTCTAGGG CTTTGATTGC TGTGAAGGAT CTTTGCATTG ATGAGCTCAA AGCCAAGCTG
AGTTCCACAG AACAGAAGAA CCTCAACCTC CTTGCAAAAG TTGATGCTGC CTTGGACGAA
AAGGGACAGC AAGCCACAGC CCAGTATGAC TCTGCCCTAC AAATACAGGC GCTGTTAGAG
AAGCTTCAGG AGATGGAAAA GGAAAAGGCA GATATGCAAA GACTCAATGC TGAACATGCA
TCTCAGCTGA AAGCAGCAAG GGAGGAGCTG CTGCTGAAAG AACAGGCACA GAAGGAACTG
GAATCCAGAT ACAACAGCCT TACTACTAAC TCTAAAGAAG AGAGTGAAAA GCTGACTGGG
AGCCTGGAGA CAATGGCAAA GGAAAAGGAT GCACTTCAGA AGGCCCTGAC TCTGAAAGGA
AAGGAGATGG CTGAGCTCCA GACCCAGGTA ATGGGGTCGC TGGCTCAGGT GGGTTCACTG
GAAAAAAGTC TTGAGGATAC CAGGAAGGAA AAAGAGAAAC TTGAGGAGGA GTATGCTAGG
AGAGAAGGAG CACTGAAGCA GGAAGCCCAG TCACAAGCAG AGCAACTTGA ACTACAGGAG
GGTCGCTTAA CAAAGGTGAG TCAGACTGTG TGTAGCCTTC AGGAGCAAAA CCAGAAACTC
ATGTCTGAGA AGGAGCATCT CAGGCAGAAA GTCAAGGAGC TGGAGGAGAA GATGGAGCAG
CAAAACTCTG CAGTGAGTGA ATTGGATGAG GAGAGCAGGA AACTGAAAGC AGAGAATGAG
AATTTGCAGC AGTCTAAGAA GAAGATGGAA GAGAAGCTGA AAAATCTGGA AGCTTCTAAA
GCTTCCCTAG AAGCTGATAT AGCCAGGTTG AGAGCCTCTG AGAAACAACT TCAGGGTGAG
ATAGATGATG CCCTGGTGTC AGTTGATGAA AAAGAGAAGA AGCTCCGGGG TGAGAACAAA
CAGCTGGATG AAGACTTGCA GAATGCCAGG AGGCAAAGCC AAATTCTAGA GGAGAGGCTG
GAGGCTCTGC ACTCAGAATA TGAAGAACTA AAGCAAAGAG AAGAGACCTC CAAGGAGTCT
TATGCCTCAC TTGAAGCACA GCTGAAGAGT GCCAAACAGT GTAGTTTACA AATGGAAAAA
AGCTTGGACA CCTTGAAGGA AAGCAAAGAG TGTCTCCAGT CACAGCTCAC AGAGAAGGAA
GTAGAACTGC AGGGCATGGA AAGCCAATGT CAGCAGCTAA GAGCAGAAGC TGAAAGACAC
AGGAAGAAAG CAGAGACTCT TGAGATAGAA AAGCTCAGTG TTGAAAAGAC ATGCCTTCAT
CAGACAAAAC TTATAGAATC TCTCACATCA GAAAAGGAAT CAGTGGAAAA ACAGCAACTA
CAGCAGGCAG CGTCCCTGGA GAAGGAGGCA AAAGAGCTGG CCTTCAGACT GACCATGAGT
GAAGAGCAGC TGGAGGTCAA CCGAGGTGAA GTGTCCAGGC TGCAGGCAGA AGTCCTCGAT
CTGCGAGTCA AGCTTCAGCA GGCCACTGAT GAGAGAGAGA GGATGAGAAG TGAGCTGGCA
GTCACTGAGA CTGTCTTGAG TGAGCAGAAG ACACTTGTCC AGCAGCTGAA AGAGCAGTGT
GAGTCTCTCA ACAGAAATCA TGTGCAAGAA CTGGTGCAAT GTAAAGAAAG GGAAGAAAAG
CTCAAAAAAG AGCAGGAGAG AACAGCCCAT CAAAAAGCTG AGCTGGAAAA TAATTTGATG
AACCTAAAGG AAGAGCTGTC TAAGGTTAAG CGGTATTTGG AAAATGCTAG GGTGGAAAAT
GAAGAAAATA AAGATCTTCT CCACAGGACC AACACTGATA TGGCTGAACT TGGTATTCAG
ATTTGTGCCT TAACCTCTGA AAAGGTGGAT ACAGAAGAGC AGTTGGCTCA AGCCACAGAA
AGATTCAAAG AACTGGAAGA ACAGGCAGCA GAGCAACAGG AGAAGCTGAA GCTTGACATC
TCTAATCTCA GAGAGGAGAA CAAGAGCCTG CAAGAGAAAT TAGAGGAGGC TCGAATGTGT
GCCGCAGCTG TCCCAAGTCT GCAACTGCAG CTGGAGACAA TAAAGAAACA GGCACAGAGT
TTCAAAGAGA CCAGCCAAGA AGAGCTGTCT GCAATAAAAT TTCAAATGAG CACAGAGATT
CTAAATTATC AGACAAAATT CAAGGCTGTC AGTGAGGAGT GTGGGAAAGT AAGAGAGCAA
CTTGAGGAGC AGAAGCGACA ACAGCATGCA GCGGAGGAAG AGATTACAGA GTTACAAGCT
GCAAACACGA GTTTGTGCAG AAAGCTGGAT GAAACAAGAG AGCAGCTGTC AGAATCAGAA
TCTGCTCGGC TGCAGAAGGA AGAGGAAGTG ACTTCTCTTA GAGAACTCTT GGAAAGGATC
CAAAAAGAAG CTGATGAAGC AAAAGAGAAG ATCCTGGATT ACACTGAGAA GCTCAGCAAG
GTGGCAGCAG ACAAAGATAG CAGTGACCAG AAGTTATTTG CTGAGCTGGA TGATCTGACA
AGAACAAAGC AGTTCCTTGA AGAACGTTTG ATAGAACTTA TCAGAGACAA GGATGCTTTG
TGGCAAAAGT CTGATGCTCT GGAGTTCCAG CAGAAGCTTA GTGCAGAGCA GAGGTGGCAG
GGGGACACAG AAGTTAATCA CTGTCTGGAC TGCCAGAGAG AGTTCTCGTG GATGGTGCGC
CGACACCACT GCAGAATGTG TGGCCGCATT TTCTGCTACT ACTGCTGCAA TAACTACATG
GTGACAAAGC TTGGTGGAAA AAAGGAGCGT TGCTGCAGAG CTTGCTTTAA TAAGCCTAGA
GTCATTGTGG ACAGTACAGA TGACTCTGGA TCCAGTGCCA ACCAGGAAGG ATCACCGGCT
TCATTGGAAT CACCTGTCTC ACCATCTGAG AGAGCTTTTG TTGCAAGTGA AGCCTCTAAA
CCACCAGATG ATGCAGCTTT TGATATAATC ACTGATGAGG AGCTGTGCCA AGTACAGGAA
TCAGATTCTC TGCACAATGA AAGTCAGATG GAGAGAGACT CTCTGGATCA AAGTGTGACA
GATCTAAACA GCACGTGTAA TTCTTCAACT TTCGATGAAT CCGAAGACTG GCAAGTTGCT
CAAGATGCTG AGATATGCTT GTTGAAATCA GGAGAAATTA TGAATAAATT ACCCCTTACA
GTAGAAGAGA TCATGAATTT TGGAGAAAGC AACAGGGAGC TGTTCATCAA ATCCAGCACC
TATAGTATCA TTCCCATCAC TGTTACAGAG ATGGGACTAA CAATCAGCTG GATCTTCTCA
TCAGACCCCA AAAGCATATC CTTCAGTGTT GTTTACCAAG AGTCTGAAGA CACACCGCTG
GATCAGTGCA AAGTTCTTAT CCCTATGACT CGCTGCAACT CTCATAAGGA AACTATCAGT
GGACAGGTGA AAGTCAGAAA CGCTGGAATC TATACGCTGA TATTTGACAA CACATTCTCT
AGGTTTATCT CAAAAAGAGT GTTTTATCAC TTGGCTGTTG AGCGACCTGT CATCTATGAT
GGAAGTGATT TTCCATAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd34961 Clone ID Related Accession (Same CDS sequence) XM_030265116.1 Accession Version XM_030265116.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 4629bp)
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 FYVE and coiled-coil domain-containing protein 1 isoform X3 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044213.1) 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
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621ATGGCAGCAA TGAGTGGCGA AAGCCAGCTG CAGCGGATTA TCAGAGACTT GCAAGATGCA
GTGACTGAAT TAAGTAAAGA ATTTAAAGAA GGAGGTGAAC CGATCACAGA TGACAGTGTC
AACTTGCAAA AATTCTCCTA CAAGCTTGAA TACCTCTTAC AGTTTGACCA GAAAGAAAAA
AGCACATTGC TGGGGAACAG AAAAGATTAC TGGGATTATT TCTGTGACTG TCTGGCAAAA
ATCAAAGGAG CTAATGATGG AATCCGCTTT GTCAAGTCTA TTACAGAACT ACGAACCTCT
CTTGGAAAAG GAAGAGCATT TCTTCGTTAC TCCCTGGTTC ACCAAAGGCT AGCAGACACC
TTGCAGCAAT GTTTTATGAA CACTAAAGTG ACCAGTGACT GGTACTATGC AAGAAGTCCA
TTTCTGAATT CCAAAATGAG TTCTGACATT GTGGGTCAAC TCTATGAGCT CACTGATGTT
CAGTTTGACT TAGCATCAAG AGGCTATGAT TTAGATGCTG CTTGGCCAAC ATTTGCCAGG
AGGACACTGT CCTCACTTGG ATCTTCAGCA TATTTATGGA AGCCCCCAAG TCGCAGTTCC
AGCATGAGCA GTTTAGTGAG CAATTATTTG CAGGCACAAG AGTTTCCTTC CAGCCCTGAT
GTAAATAACT CACTAAATGT TGAACACCTT GAGGGCTACG AAGAGATGCG TTTAGAACTT
GACCAGGCTG AGCTGAGGCA GAGGGAACTT CAAGATCGTA TTCACCAGCT AGAAATTGAA
AACCAGGAGC TCCAGGCAGC TGTCAGCCTT CAAAAGGAGC AAGTACAGGT AGAAAAGGAG
AAGAGCAATA ACTACAGTGA GGAGAACTCC CGGCTGACAA AGATGATCGC AGAGTTACAG
AAGCAGTGTG AGGTGTCACA CTCCACTCAG AGCACTGTGC ATGACCTGCA GAAGTGCCTA
CAGTCACTGG AACTGAGTGC AGCAGAGCAG CAGAAGGAAC ACTTAACAAA GGTGGAACAG
CTGTTGACCA GCAAGGAAGA TTGTGCCTCA AAATTGCAGG TTTCGAATCA GGAGCTGGAG
ACCTCTAGGG CTTTGATTGC TGTGAAGGAT CTTTGCATTG ATGAGCTCAA AGCCAAGCTG
AGTTCCACAG AACAGAAGAA CCTCAACCTC CTTGCAAAAG TTGATGCTGC CTTGGACGAA
AAGGGACAGC AAGCCACAGC CCAGTATGAC TCTGCCCTAC AAATACAGGC GCTGTTAGAG
AAGCTTCAGG AGATGGAAAA GGAAAAGGCA GATATGCAAA GACTCAATGC TGAACATGCA
TCTCAGCTGA AAGCAGCAAG GGAGGAGCTG CTGCTGAAAG AACAGGCACA GAAGGAACTG
GAATCCAGAT ACAACAGCCT TACTACTAAC TCTAAAGAAG AGAGTGAAAA GCTGACTGGG
AGCCTGGAGA CAATGGCAAA GGAAAAGGAT GCACTTCAGA AGGCCCTGAC TCTGAAAGGA
AAGGAGATGG CTGAGCTCCA GACCCAGGTA ATGGGGTCGC TGGCTCAGGT GGGTTCACTG
GAAAAAAGTC TTGAGGATAC CAGGAAGGAA AAAGAGAAAC TTGAGGAGGA GTATGCTAGG
AGAGAAGGAG CACTGAAGCA GGAAGCCCAG TCACAAGCAG AGCAACTTGA ACTACAGGAG
GGTCGCTTAA CAAAGGTGAG TCAGACTGTG TGTAGCCTTC AGGAGCAAAA CCAGAAACTC
ATGTCTGAGA AGGAGCATCT CAGGCAGAAA GTCAAGGAGC TGGAGGAGAA GATGGAGCAG
CAAAACTCTG CAGTGAGTGA ATTGGATGAG GAGAGCAGGA AACTGAAAGC AGAGAATGAG
AATTTGCAGC AGTCTAAGAA GAAGATGGAA GAGAAGCTGA AAAATCTGGA AGCTTCTAAA
GCTTCCCTAG AAGCTGATAT AGCCAGGTTG AGAGCCTCTG AGAAACAACT TCAGGGTGAG
ATAGATGATG CCCTGGTGTC AGTTGATGAA AAAGAGAAGA AGCTCCGGGG TGAGAACAAA
CAGCTGGATG AAGACTTGCA GAATGCCAGG AGGCAAAGCC AAATTCTAGA GGAGAGGCTG
GAGGCTCTGC ACTCAGAATA TGAAGAACTA AAGCAAAGAG AAGAGACCTC CAAGGAGTCT
TATGCCTCAC TTGAAGCACA GCTGAAGAGT GCCAAACAGT GTAGTTTACA AATGGAAAAA
AGCTTGGACA CCTTGAAGGA AAGCAAAGAG TGTCTCCAGT CACAGCTCAC AGAGAAGGAA
GTAGAACTGC AGGGCATGGA AAGCCAATGT CAGCAGCTAA GAGCAGAAGC TGAAAGACAC
AGGAAGAAAG CAGAGACTCT TGAGATAGAA AAGCTCAGTG TTGAAAAGAC ATGCCTTCAT
CAGACAAAAC TTATAGAATC TCTCACATCA GAAAAGGAAT CAGTGGAAAA ACAGCAACTA
CAGCAGGCAG CGTCCCTGGA GAAGGAGGCA AAAGAGCTGG CCTTCAGACT GACCATGAGT
GAAGAGCAGC TGGAGGTCAA CCGAGGTGAA GTGTCCAGGC TGCAGGCAGA AGTCCTCGAT
CTGCGAGTCA AGCTTCAGCA GGCCACTGAT GAGAGAGAGA GGATGAGAAG TGAGCTGGCA
GTCACTGAGA CTGTCTTGAG TGAGCAGAAG ACACTTGTCC AGCAGCTGAA AGAGCAGTGT
GAGTCTCTCA ACAGAAATCA TGTGCAAGAA CTGGTGCAAT GTAAAGAAAG GGAAGAAAAG
CTCAAAAAAG AGCAGGAGAG AACAGCCCAT CAAAAAGCTG AGCTGGAAAA TAATTTGATG
AACCTAAAGG AAGAGCTGTC TAAGGTTAAG CGGTATTTGG AAAATGCTAG GGTGGAAAAT
GAAGAAAATA AAGATCTTCT CCACAGGACC AACACTGATA TGGCTGAACT TGGTATTCAG
ATTTGTGCCT TAACCTCTGA AAAGGTGGAT ACAGAAGAGC AGTTGGCTCA AGCCACAGAA
AGATTCAAAG AACTGGAAGA ACAGGCAGCA GAGCAACAGG AGAAGCTGAA GCTTGACATC
TCTAATCTCA GAGAGGAGAA CAAGAGCCTG CAAGAGAAAT TAGAGGAGGC TCGAATGTGT
GCCGCAGCTG TCCCAAGTCT GCAACTGCAG CTGGAGACAA TAAAGAAACA GGCACAGAGT
TTCAAAGAGA CCAGCCAAGA AGAGCTGTCT GCAATAAAAT TTCAAATGAG CACAGAGATT
CTAAATTATC AGACAAAATT CAAGGCTGCA AACACGAGTT TGTGCAGAAA GCTGGATGAA
ACAAGAGAGC AGCTGTCAGA ATCAGAATCT GCTCGGCTGC AGAAGGAAGA GGAAGTGACT
TCTCTTAGAG AACTCTTGGA AAGGATCCAA AAAGAAGCTG ATGAAGCAAA AGAGAAGATC
CTGGATTACA CTGAGAAGCT CAGCAAGGTG GCAGCAGACA AAGATAGCAG TGACCAGAAG
TTATTTGCTG AGCTGGATGA TCTGACAAGA ACAAAGCAGT TCCTTGAAGA ACGTTTGATA
GAACTTATCA GAGACAAGGA TGCTTTGTGG CAAAAGTCTG ATGCTCTGGA GTTCCAGCAG
AAGCTTAGTG CAGAGCAGAG GTGGCAGGGG GACACAGAAG TTAATCACTG TCTGGACTGC
CAGAGAGAGT TCTCGTGGAT GGTGCGCCGA CACCACTGCA GAATGTGTGG CCGCATTTTC
TGCTACTACT GCTGCAATAA CTACATGGTG ACAAAGCTTG GTGGAAAAAA GGAGCGTTGC
TGCAGAGCTT GCTTTAATAA GCCTAGAGTC ATTGTGGACA GTACAGATGA CTCTGGATCC
AGTGCCAACC AGGAAGGATC ACCGGCTTCA TTGGAATCAC CTGTCTCACC ATCTGAGAGA
GCTTTTGTTG CAAGTGAAGC CTCTAAACCA CCAGATGATG CAGCTTTTGA TATAATCACT
GATGAGGAGC TGTGCCAAGT ACAGGAATCA GATTCTCTGC ACAATGAAAG TCAGATGGAG
AGAGACTCTC TGGATCAAAG TGTGACAGAT CTATGTGTTT GCTGGGCTAA GCAGCTGTTA
GGGGCTCTGT ACAGCCTCCA GTCTCCGTTT CAGGTTTCTG CCTTTCACAC AATTCGAAAC
AGCACGTGTA ATTCTTCAAC TTTCGATGAA TCCGAAGACT GGCAAGTTGC TCAAGATGCT
GAGATATGCT TGTTGAAATC AGGAGAAATT ATGAATAAAT TACCCCTTAC AGTAGAAGAG
ATCATGAATT TTGGAGAAAG CAACAGGGAG CTGTTCATCA AATCCAGCAC CTATAGTATC
ATTCCCATCA CTGTTACAGA GATGGGACTA ACAATCAGCT GGATCTTCTC ATCAGACCCC
AAAAGCATAT CCTTCAGTGT TGTTTACCAA GAGTCTGAAG ACACACCGCT GGATCAGTGC
AAAGTTCTTA TCCCTATGAC TCGCTGCAAC TCTCATAAGG AAACTATCAG TGGACAGGTG
AAAGTCAGAA ACGCTGGAAT CTATACGCTG ATATTTGACA ACACATTCTC TAGGTTTATC
TCAAAAAGAG TGTTTTATCA CTTGGCTGTT GAGCGACCTG TCATCTATGA TGGAAGTGAT
TTTCCATAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030120976.1 CDS 214..4842 Translation
Target ORF information:
RefSeq Version XM_030265116.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata FYVE and coiled-coil domain containing 1 (FYCO1), transcript variant X8, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030265116.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621ATGGCAGCAA TGAGTGGCGA AAGCCAGCTG CAGCGGATTA TCAGAGACTT GCAAGATGCA
GTGACTGAAT TAAGTAAAGA ATTTAAAGAA GGAGGTGAAC CGATCACAGA TGACAGTGTC
AACTTGCAAA AATTCTCCTA CAAGCTTGAA TACCTCTTAC AGTTTGACCA GAAAGAAAAA
AGCACATTGC TGGGGAACAG AAAAGATTAC TGGGATTATT TCTGTGACTG TCTGGCAAAA
ATCAAAGGAG CTAATGATGG AATCCGCTTT GTCAAGTCTA TTACAGAACT ACGAACCTCT
CTTGGAAAAG GAAGAGCATT TCTTCGTTAC TCCCTGGTTC ACCAAAGGCT AGCAGACACC
TTGCAGCAAT GTTTTATGAA CACTAAAGTG ACCAGTGACT GGTACTATGC AAGAAGTCCA
TTTCTGAATT CCAAAATGAG TTCTGACATT GTGGGTCAAC TCTATGAGCT CACTGATGTT
CAGTTTGACT TAGCATCAAG AGGCTATGAT TTAGATGCTG CTTGGCCAAC ATTTGCCAGG
AGGACACTGT CCTCACTTGG ATCTTCAGCA TATTTATGGA AGCCCCCAAG TCGCAGTTCC
AGCATGAGCA GTTTAGTGAG CAATTATTTG CAGGCACAAG AGTTTCCTTC CAGCCCTGAT
GTAAATAACT CACTAAATGT TGAACACCTT GAGGGCTACG AAGAGATGCG TTTAGAACTT
GACCAGGCTG AGCTGAGGCA GAGGGAACTT CAAGATCGTA TTCACCAGCT AGAAATTGAA
AACCAGGAGC TCCAGGCAGC TGTCAGCCTT CAAAAGGAGC AAGTACAGGT AGAAAAGGAG
AAGAGCAATA ACTACAGTGA GGAGAACTCC CGGCTGACAA AGATGATCGC AGAGTTACAG
AAGCAGTGTG AGGTGTCACA CTCCACTCAG AGCACTGTGC ATGACCTGCA GAAGTGCCTA
CAGTCACTGG AACTGAGTGC AGCAGAGCAG CAGAAGGAAC ACTTAACAAA GGTGGAACAG
CTGTTGACCA GCAAGGAAGA TTGTGCCTCA AAATTGCAGG TTTCGAATCA GGAGCTGGAG
ACCTCTAGGG CTTTGATTGC TGTGAAGGAT CTTTGCATTG ATGAGCTCAA AGCCAAGCTG
AGTTCCACAG AACAGAAGAA CCTCAACCTC CTTGCAAAAG TTGATGCTGC CTTGGACGAA
AAGGGACAGC AAGCCACAGC CCAGTATGAC TCTGCCCTAC AAATACAGGC GCTGTTAGAG
AAGCTTCAGG AGATGGAAAA GGAAAAGGCA GATATGCAAA GACTCAATGC TGAACATGCA
TCTCAGCTGA AAGCAGCAAG GGAGGAGCTG CTGCTGAAAG AACAGGCACA GAAGGAACTG
GAATCCAGAT ACAACAGCCT TACTACTAAC TCTAAAGAAG AGAGTGAAAA GCTGACTGGG
AGCCTGGAGA CAATGGCAAA GGAAAAGGAT GCACTTCAGA AGGCCCTGAC TCTGAAAGGA
AAGGAGATGG CTGAGCTCCA GACCCAGGTA ATGGGGTCGC TGGCTCAGGT GGGTTCACTG
GAAAAAAGTC TTGAGGATAC CAGGAAGGAA AAAGAGAAAC TTGAGGAGGA GTATGCTAGG
AGAGAAGGAG CACTGAAGCA GGAAGCCCAG TCACAAGCAG AGCAACTTGA ACTACAGGAG
GGTCGCTTAA CAAAGGTGAG TCAGACTGTG TGTAGCCTTC AGGAGCAAAA CCAGAAACTC
ATGTCTGAGA AGGAGCATCT CAGGCAGAAA GTCAAGGAGC TGGAGGAGAA GATGGAGCAG
CAAAACTCTG CAGTGAGTGA ATTGGATGAG GAGAGCAGGA AACTGAAAGC AGAGAATGAG
AATTTGCAGC AGTCTAAGAA GAAGATGGAA GAGAAGCTGA AAAATCTGGA AGCTTCTAAA
GCTTCCCTAG AAGCTGATAT AGCCAGGTTG AGAGCCTCTG AGAAACAACT TCAGGGTGAG
ATAGATGATG CCCTGGTGTC AGTTGATGAA AAAGAGAAGA AGCTCCGGGG TGAGAACAAA
CAGCTGGATG AAGACTTGCA GAATGCCAGG AGGCAAAGCC AAATTCTAGA GGAGAGGCTG
GAGGCTCTGC ACTCAGAATA TGAAGAACTA AAGCAAAGAG AAGAGACCTC CAAGGAGTCT
TATGCCTCAC TTGAAGCACA GCTGAAGAGT GCCAAACAGT GTAGTTTACA AATGGAAAAA
AGCTTGGACA CCTTGAAGGA AAGCAAAGAG TGTCTCCAGT CACAGCTCAC AGAGAAGGAA
GTAGAACTGC AGGGCATGGA AAGCCAATGT CAGCAGCTAA GAGCAGAAGC TGAAAGACAC
AGGAAGAAAG CAGAGACTCT TGAGATAGAA AAGCTCAGTG TTGAAAAGAC ATGCCTTCAT
CAGACAAAAC TTATAGAATC TCTCACATCA GAAAAGGAAT CAGTGGAAAA ACAGCAACTA
CAGCAGGCAG CGTCCCTGGA GAAGGAGGCA AAAGAGCTGG CCTTCAGACT GACCATGAGT
GAAGAGCAGC TGGAGGTCAA CCGAGGTGAA GTGTCCAGGC TGCAGGCAGA AGTCCTCGAT
CTGCGAGTCA AGCTTCAGCA GGCCACTGAT GAGAGAGAGA GGATGAGAAG TGAGCTGGCA
GTCACTGAGA CTGTCTTGAG TGAGCAGAAG ACACTTGTCC AGCAGCTGAA AGAGCAGTGT
GAGTCTCTCA ACAGAAATCA TGTGCAAGAA CTGGTGCAAT GTAAAGAAAG GGAAGAAAAG
CTCAAAAAAG AGCAGGAGAG AACAGCCCAT CAAAAAGCTG AGCTGGAAAA TAATTTGATG
AACCTAAAGG AAGAGCTGTC TAAGGTTAAG CGGTATTTGG AAAATGCTAG GGTGGAAAAT
GAAGAAAATA AAGATCTTCT CCACAGGACC AACACTGATA TGGCTGAACT TGGTATTCAG
ATTTGTGCCT TAACCTCTGA AAAGGTGGAT ACAGAAGAGC AGTTGGCTCA AGCCACAGAA
AGATTCAAAG AACTGGAAGA ACAGGCAGCA GAGCAACAGG AGAAGCTGAA GCTTGACATC
TCTAATCTCA GAGAGGAGAA CAAGAGCCTG CAAGAGAAAT TAGAGGAGGC TCGAATGTGT
GCCGCAGCTG TCCCAAGTCT GCAACTGCAG CTGGAGACAA TAAAGAAACA GGCACAGAGT
TTCAAAGAGA CCAGCCAAGA AGAGCTGTCT GCAATAAAAT TTCAAATGAG CACAGAGATT
CTAAATTATC AGACAAAATT CAAGGCTGCA AACACGAGTT TGTGCAGAAA GCTGGATGAA
ACAAGAGAGC AGCTGTCAGA ATCAGAATCT GCTCGGCTGC AGAAGGAAGA GGAAGTGACT
TCTCTTAGAG AACTCTTGGA AAGGATCCAA AAAGAAGCTG ATGAAGCAAA AGAGAAGATC
CTGGATTACA CTGAGAAGCT CAGCAAGGTG GCAGCAGACA AAGATAGCAG TGACCAGAAG
TTATTTGCTG AGCTGGATGA TCTGACAAGA ACAAAGCAGT TCCTTGAAGA ACGTTTGATA
GAACTTATCA GAGACAAGGA TGCTTTGTGG CAAAAGTCTG ATGCTCTGGA GTTCCAGCAG
AAGCTTAGTG CAGAGCAGAG GTGGCAGGGG GACACAGAAG TTAATCACTG TCTGGACTGC
CAGAGAGAGT TCTCGTGGAT GGTGCGCCGA CACCACTGCA GAATGTGTGG CCGCATTTTC
TGCTACTACT GCTGCAATAA CTACATGGTG ACAAAGCTTG GTGGAAAAAA GGAGCGTTGC
TGCAGAGCTT GCTTTAATAA GCCTAGAGTC ATTGTGGACA GTACAGATGA CTCTGGATCC
AGTGCCAACC AGGAAGGATC ACCGGCTTCA TTGGAATCAC CTGTCTCACC ATCTGAGAGA
GCTTTTGTTG CAAGTGAAGC CTCTAAACCA CCAGATGATG CAGCTTTTGA TATAATCACT
GATGAGGAGC TGTGCCAAGT ACAGGAATCA GATTCTCTGC ACAATGAAAG TCAGATGGAG
AGAGACTCTC TGGATCAAAG TGTGACAGAT CTATGTGTTT GCTGGGCTAA GCAGCTGTTA
GGGGCTCTGT ACAGCCTCCA GTCTCCGTTT CAGGTTTCTG CCTTTCACAC AATTCGAAAC
AGCACGTGTA ATTCTTCAAC TTTCGATGAA TCCGAAGACT GGCAAGTTGC TCAAGATGCT
GAGATATGCT TGTTGAAATC AGGAGAAATT ATGAATAAAT TACCCCTTAC AGTAGAAGAG
ATCATGAATT TTGGAGAAAG CAACAGGGAG CTGTTCATCA AATCCAGCAC CTATAGTATC
ATTCCCATCA CTGTTACAGA GATGGGACTA ACAATCAGCT GGATCTTCTC ATCAGACCCC
AAAAGCATAT CCTTCAGTGT TGTTTACCAA GAGTCTGAAG ACACACCGCT GGATCAGTGC
AAAGTTCTTA TCCCTATGAC TCGCTGCAAC TCTCATAAGG AAACTATCAG TGGACAGGTG
AAAGTCAGAA ACGCTGGAAT CTATACGCTG ATATTTGACA ACACATTCTC TAGGTTTATC
TCAAAAAGAG TGTTTTATCA CTTGGCTGTT GAGCGACCTG TCATCTATGA TGGAAGTGAT
TTTCCATAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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