| Gene Symbol | SEC24C |
| Entrez Gene ID | 100224134 |
| Full Name | SEC24 homolog C, COPII coat complex component |
| Gene Type | protein-coding |
| Organism | Taeniopygia guttata(zebra finch) |
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SEC24C cDNA ORF clone, Taeniopygia guttata(zebra finch)
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Gene
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Clones
gRNAs
The following SEC24C gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the SEC24C 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 OTd16868 Clone ID Related Accession (Same CDS sequence) XM_012574502.1 Accession Version XM_012574502.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3522bp)
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 protein transport protein Sec24C isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002198840.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Taeniopygia guttata Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
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
3481ATGAGTGTAA ACCAGCAAGC TCACACGGGG CCTCCTTATG GGCAACCTCA GCCTGGATAT
CAGGGATACC AGCAGCCTGC CTACGGAGGA CAGTCATTGC CAGGGGTTCC TCAGGCGCAG
TATGGAGCTT ATAATGGGCC GGTGCCAGGA TATCAACAGC CAGTCCCTCC ACAAGGTTAC
TTTCCTTCCT TGGGGTTTCC TTCGAAGGGC TCTCCTGTAT CTCTCAACTC TGACACTTCT
TCTCTTGCAC CTAATTTCAT AGGTTCATTA AGAGCCCCGC CAACATCTGG AGCTCCCCCT
CCAGCCTCTG GAGCATCTCA TCCTTCTGGC CACTTGGCAT ACAGTCAGTT TGAACATGGA
GATGTGCAGA ATGGAATTCC AGCCTCAGCA GCTCCAATGC AGAGGCCACC TGCTTCTCAG
CCGTTCCTGC CAGGCTCAGC ACCCACGCCT GTCAGCCAGA TATCTACGTT CCAGCAATAT
GGGGCCCCCC CAGCCAGCGT GCAGCAGCTC AGGAATCACA TGGCAGGGAT GACAATTGGT
GGTACTGCAG CCTCTGCTCC TCCCCCAGCT GGACTGGGCT ATGCATCGGT TCCTCCAGTC
TCAGGAAGCT TTAGTGCAAC AGGATCTGGT CTCTACACAC CTTACAGTGC AAGCCAAGGA
CCCCCTCTTA CCAGTGTGTC TCAGGGTCTT CCTTTGGCAC AGCCTCCGTT TCCTGGTCAG
ACAATATCAA CTCAGCACCT GCCTACTCAA GTTCCTGGTT TTACCCCACC TCCTCCTTCT
ACAGGGGTTG GACCTTCCTC TTACCCTCCT ACCACAGGTG CTCCAAGGCC ACCTGCCATG
CCAGGCCCAC CACTGCCTGG GCAGACAGTT GCTGGACCAC CATCATCCCA GCCTAATCAT
GTATCCTCAC CACCACCTCC ATCAACTATG GCAGGGCTGC ACCCTGGGCC TCCCATGAGT
GGTCTCCATG GACCACCTCC TCCCACTCAT CCTCCTCAGC CAGGATACCA AATGCAGCAG
AATGGTTCCT TTGGACAGAT GAGGGGTCCT CCACCAAACT ATGGAGGAGC CTATCCAGGA
GCACCAAATT ATGGAAGTCC TCCTGGACCA CCACCTCCAC CAAAACGCTT GGATCCAGAT
TCCATTCCTA GCCCTCAACT TAATGAGCTG CCACCCCAGC AGAAACCCAG GCACAGAATA
GACCCAGATG CAATTCCTAG TCCAATTCAA GTGATTGAAG ATGACAGAAA TAACCGTGGG
TCAGAACCAT TTGTCACTGG AGTGAGAGGG CAGGTCCCAC CTCTTGTTAC TACAAATTTC
TTGGTCAAGG ATCAAGGTAA TGCAAGCCCC CGCTACATCA GGTGCACATC TTACAATATT
CCCTGCACGT CTGACATGGC CAAACAATCC CAAGTTCCCC TGGCTGCCGT CATAAAGCCG
CTGGCTGCTC TGCCGCCGGA GGAGACTGTT CCTTATTTGG TAGACCATGG AGAATCCGGT
CCTGTCCGAT GTAATAGGTG CAAAGCTTAC ATGTGCCCTT TTATGCAATT CATTGAAGGT
GGAAGGAGGT TCCAGTGTTG TTTCTGCAGC TGTGTCACTG AGGTTCCACC TCACTACTTC
CAACATTTGG ATCACACTGG AAAGCGAGTA GATTTCTATG ACCGACCAGA GTTATCACTG
GGGTCATACG AGTTTCTAGC AACAGTTGAC TATTGCAAGA ATAACAAGTT TCCTAGTCCA
CCTGCTTTCA TTTTTATGAT TGATGTGTCT TACAATGCTG TGAAGAGTGG CTTAGTGAGG
CTAATATGTG AAGAATTAAA GTCACTCCTA GATTACCTGC CCAGGGAAGG GAACATGGAG
GAATCAGCCA TTCGAGTAGG CTTTGTCACC TACAACAAAG TTCTGCATTT CTATAATGTG
AAGAGCTCAC TGGCACAGCC GCAAATGATG GTGGTCTCAG ATGTGGCAGA TATGTTTGTG
CCACTCCTTG ATGGTTTTCT GGTGAATGTG AATGAGTCCA GGACAGTTAT TGCCAGTTTA
CTGGATCAGA TTCCAGAAAT GTTTGCAGAC ACAAGAGAAA CAGAAACTGT TTTTGCACCT
GTGATTCAAG CAGGGCTGGA GGCACTGAAG GCAGCAGAGT GTGCTGGCAA GCTCTTCATT
TTCCACACCT CTCTGCCCAT TGCAGAGGCT CCAGGAAAGT TAAAGAACAG GGATGATAGG
AAACTGATCA ACACAGATAA GGAGAAGACT TTGTTTCAAC CACAGACGAG CTTTTACAAC
AACTTGGCCA AGGACTGTGT GGCGCAGGGC TGTTGTGTGG ATCTGTTCCT GTTTCCAAAC
CAGTATTTGG ATGTGGCCAC GCTGGGTGTG GTACCTTACC AGACAGGAGG CTCCATTTTT
AAGTATGCGT ATTTCCAGCT GGAGACAGAC CAGTACAGAT TCCTGAATGA CTTGAGGAGG
GATGTCCAGA AAGAAGTGGG ATTTGATGCT GTAATGAGAG TGCGCACAAG CACAGGTATT
AGAGCAACAG ACTTTTTTGG AGCTTTCTAT ATGAGCAACA CAACTGATGT AGAGATGGCA
GGTCTGGACT GTGATAAAAC AATCACAGTG GAATTCAAGC ATGATGATAA ATTGAGTGAA
GATAGTGGTG CACTGCTTCA GTGTGCTCTG CTGTATACAA GTTGTGCAGG ACAGCGACGA
CTCCGCATTC ACAATCTCTC CTTAAACTGC TGCACGCAGC TTGCTGACCT CTATCGGAAC
TGTGAGACTG ACACCCTCAT CAACTACTTG GCTAAGTATG CATATCGTGG AGTCTTGAGT
AGTCCAGTGA AGACTGTACG AGATGCACTC ATCAACCAGT GTGCCCAGAT CCTAGCCTGC
TATCGGAAGA ACTGTGCTAG TCCCTCTTCT GCTGGCCAGC TCATCCTCCC CGAATGCATG
AAGCTGCTTC CTGTGTACTT GAACTGTGTG TTGAAGAGTG ACGTGCTTCA GCCCGGCCCA
GAGGTCACAA CAGACGACCG TGCCTACGTC CGTCAGTTAG TGACGTCCAT GGATGTGGCT
GAAACAAACG TTTTCTTTTA TCCCAGGCTT TTGCCTCTGA CCAAAGCAGA TGTTGACAGT
GATTCCTTGC CAGCAGCCAT TCGGAACTCT GAGGAGCGTC TGTCCAAGGG TGACATCTAC
CTGCTGGAGA ATGGGCTGAA CATCTTTGTG TGGGTGGGAG TCAACGTGCA GCAAGGCCTG
ATCCAGAACC TCTTTGGAGT GTCATCCTTC AGTCAAATTA GCAATGCCTT GAGTACCCTG
CCAGTCTTGG AAAACCCCTT TTCAAAGAAA GTGCGATCTA TTGTTGATAT GCTTCAAGGA
CAGAGATCCC GCTACATGAA GTTGATAATT GTGAAGCAAG AAGATAAGCT GGAAATGCTG
TTCAAACACT TTCTAGTGGA GGACAAGAGC CTGAGTGGGG GGGCTTCCTA TGTGGACTTC
CTGTGTCACA TGCACAAGGA GATTCGGCAG CTACTGAGCT AGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_012429956.1 CDS 85..3606 Translation 
Target ORF information:
RefSeq Version XM_012574502.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata SEC24 family member C (SEC24C), transcript variant X1, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_012574502.1
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
3481ATGAGTGTAA ACCAGCAAGC TCACACGGGG CCTCCTTATG GGCAACCTCA GCCTGGATAT
CAGGGATACC AGCAGCCTGC CTACGGAGGA CAGTCATTGC CAGGGGTTCC TCAGGCGCAG
TATGGAGCTT ATAATGGGCC GGTGCCAGGA TATCAACAGC CAGTCCCTCC ACAAGGTTAC
TTTCCTTCCT TGGGGTTTCC TTCGAAGGGC TCTCCTGTAT CTCTCAACTC TGACACTTCT
TCTCTTGCAC CTAATTTCAT AGGTTCATTA AGAGCCCCGC CAACATCTGG AGCTCCCCCT
CCAGCCTCTG GAGCATCTCA TCCTTCTGGC CACTTGGCAT ACAGTCAGTT TGAACATGGA
GATGTGCAGA ATGGAATTCC AGCCTCAGCA GCTCCAATGC AGAGGCCACC TGCTTCTCAG
CCGTTCCTGC CAGGCTCAGC ACCCACGCCT GTCAGCCAGA TATCTACGTT CCAGCAATAT
GGGGCCCCCC CAGCCAGCGT GCAGCAGCTC AGGAATCACA TGGCAGGGAT GACAATTGGT
GGTACTGCAG CCTCTGCTCC TCCCCCAGCT GGACTGGGCT ATGCATCGGT TCCTCCAGTC
TCAGGAAGCT TTAGTGCAAC AGGATCTGGT CTCTACACAC CTTACAGTGC AAGCCAAGGA
CCCCCTCTTA CCAGTGTGTC TCAGGGTCTT CCTTTGGCAC AGCCTCCGTT TCCTGGTCAG
ACAATATCAA CTCAGCACCT GCCTACTCAA GTTCCTGGTT TTACCCCACC TCCTCCTTCT
ACAGGGGTTG GACCTTCCTC TTACCCTCCT ACCACAGGTG CTCCAAGGCC ACCTGCCATG
CCAGGCCCAC CACTGCCTGG GCAGACAGTT GCTGGACCAC CATCATCCCA GCCTAATCAT
GTATCCTCAC CACCACCTCC ATCAACTATG GCAGGGCTGC ACCCTGGGCC TCCCATGAGT
GGTCTCCATG GACCACCTCC TCCCACTCAT CCTCCTCAGC CAGGATACCA AATGCAGCAG
AATGGTTCCT TTGGACAGAT GAGGGGTCCT CCACCAAACT ATGGAGGAGC CTATCCAGGA
GCACCAAATT ATGGAAGTCC TCCTGGACCA CCACCTCCAC CAAAACGCTT GGATCCAGAT
TCCATTCCTA GCCCTCAACT TAATGAGCTG CCACCCCAGC AGAAACCCAG GCACAGAATA
GACCCAGATG CAATTCCTAG TCCAATTCAA GTGATTGAAG ATGACAGAAA TAACCGTGGG
TCAGAACCAT TTGTCACTGG AGTGAGAGGG CAGGTCCCAC CTCTTGTTAC TACAAATTTC
TTGGTCAAGG ATCAAGGTAA TGCAAGCCCC CGCTACATCA GGTGCACATC TTACAATATT
CCCTGCACGT CTGACATGGC CAAACAATCC CAAGTTCCCC TGGCTGCCGT CATAAAGCCG
CTGGCTGCTC TGCCGCCGGA GGAGACTGTT CCTTATTTGG TAGACCATGG AGAATCCGGT
CCTGTCCGAT GTAATAGGTG CAAAGCTTAC ATGTGCCCTT TTATGCAATT CATTGAAGGT
GGAAGGAGGT TCCAGTGTTG TTTCTGCAGC TGTGTCACTG AGGTTCCACC TCACTACTTC
CAACATTTGG ATCACACTGG AAAGCGAGTA GATTTCTATG ACCGACCAGA GTTATCACTG
GGGTCATACG AGTTTCTAGC AACAGTTGAC TATTGCAAGA ATAACAAGTT TCCTAGTCCA
CCTGCTTTCA TTTTTATGAT TGATGTGTCT TACAATGCTG TGAAGAGTGG CTTAGTGAGG
CTAATATGTG AAGAATTAAA GTCACTCCTA GATTACCTGC CCAGGGAAGG GAACATGGAG
GAATCAGCCA TTCGAGTAGG CTTTGTCACC TACAACAAAG TTCTGCATTT CTATAATGTG
AAGAGCTCAC TGGCACAGCC GCAAATGATG GTGGTCTCAG ATGTGGCAGA TATGTTTGTG
CCACTCCTTG ATGGTTTTCT GGTGAATGTG AATGAGTCCA GGACAGTTAT TGCCAGTTTA
CTGGATCAGA TTCCAGAAAT GTTTGCAGAC ACAAGAGAAA CAGAAACTGT TTTTGCACCT
GTGATTCAAG CAGGGCTGGA GGCACTGAAG GCAGCAGAGT GTGCTGGCAA GCTCTTCATT
TTCCACACCT CTCTGCCCAT TGCAGAGGCT CCAGGAAAGT TAAAGAACAG GGATGATAGG
AAACTGATCA ACACAGATAA GGAGAAGACT TTGTTTCAAC CACAGACGAG CTTTTACAAC
AACTTGGCCA AGGACTGTGT GGCGCAGGGC TGTTGTGTGG ATCTGTTCCT GTTTCCAAAC
CAGTATTTGG ATGTGGCCAC GCTGGGTGTG GTACCTTACC AGACAGGAGG CTCCATTTTT
AAGTATGCGT ATTTCCAGCT GGAGACAGAC CAGTACAGAT TCCTGAATGA CTTGAGGAGG
GATGTCCAGA AAGAAGTGGG ATTTGATGCT GTAATGAGAG TGCGCACAAG CACAGGTATT
AGAGCAACAG ACTTTTTTGG AGCTTTCTAT ATGAGCAACA CAACTGATGT AGAGATGGCA
GGTCTGGACT GTGATAAAAC AATCACAGTG GAATTCAAGC ATGATGATAA ATTGAGTGAA
GATAGTGGTG CACTGCTTCA GTGTGCTCTG CTGTATACAA GTTGTGCAGG ACAGCGACGA
CTCCGCATTC ACAATCTCTC CTTAAACTGC TGCACGCAGC TTGCTGACCT CTATCGGAAC
TGTGAGACTG ACACCCTCAT CAACTACTTG GCTAAGTATG CATATCGTGG AGTCTTGAGT
AGTCCAGTGA AGACTGTACG AGATGCACTC ATCAACCAGT GTGCCCAGAT CCTAGCCTGC
TATCGGAAGA ACTGTGCTAG TCCCTCTTCT GCTGGCCAGC TCATCCTCCC CGAATGCATG
AAGCTGCTTC CTGTGTACTT GAACTGTGTG TTGAAGAGTG ACGTGCTTCA GCCCGGCCCA
GAGGTCACAA CAGACGACCG TGCCTACGTC CGTCAGTTAG TGACGTCCAT GGATGTGGCT
GAAACAAACG TTTTCTTTTA TCCCAGGCTT TTGCCTCTGA CCAAAGCAGA TGTTGACAGT
GATTCCTTGC CAGCAGCCAT TCGGAACTCT GAGGAGCGTC TGTCCAAGGG TGACATCTAC
CTGCTGGAGA ATGGGCTGAA CATCTTTGTG TGGGTGGGAG TCAACGTGCA GCAAGGCCTG
ATCCAGAACC TCTTTGGAGT GTCATCCTTC AGTCAAATTA GCAATGCCTT GAGTACCCTG
CCAGTCTTGG AAAACCCCTT TTCAAAGAAA GTGCGATCTA TTGTTGATAT GCTTCAAGGA
CAGAGATCCC GCTACATGAA GTTGATAATT GTGAAGCAAG AAGATAAGCT GGAAATGCTG
TTCAAACACT TTCTAGTGGA GGACAAGAGC CTGAGTGGGG GGGCTTCCTA TGTGGACTTC
CTGTGTCACA TGCACAAGGA GATTCGGCAG CTACTGAGCT AGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd16869 Clone ID Related Accession (Same CDS sequence) XM_012574503.1 Accession Version XM_012574503.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3435bp)
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 protein transport protein Sec24C isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002198840.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Taeniopygia guttata Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
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
3421ATGAGTGTAA ACCAGCAAGC TCACACGGGG CCTCCTTATG GGCAACCTCA GCCTGGATAT
CAGGGATACC AGCAGCCTGC CTACGGAGGA CAGTCATTGC CAGGGGTTCC TCAGGCGCAG
TATGGAGCTT ATAATGGGCC GGTGCCAGGA TATCAACAGC CAGTCCCTCC ACAAGGTTCA
TTAAGAGCCC CGCCAACATC TGGAGCTCCC CCTCCAGCCT CTGGAGCATC TCATCCTTCT
GGCCACTTGG CATACAGTCA GTTTGAACAT GGAGATGTGC AGAATGGAAT TCCAGCCTCA
GCAGCTCCAA TGCAGAGGCC ACCTGCTTCT CAGCCGTTCC TGCCAGGCTC AGCACCCACG
CCTGTCAGCC AGATATCTAC GTTCCAGCAA TATGGGGCCC CCCCAGCCAG CGTGCAGCAG
CTCAGGAATC ACATGGCAGG GATGACAATT GGTGGTACTG CAGCCTCTGC TCCTCCCCCA
GCTGGACTGG GCTATGCATC GGTTCCTCCA GTCTCAGGAA GCTTTAGTGC AACAGGATCT
GGTCTCTACA CACCTTACAG TGCAAGCCAA GGACCCCCTC TTACCAGTGT GTCTCAGGGT
CTTCCTTTGG CACAGCCTCC GTTTCCTGGT CAGACAATAT CAACTCAGCA CCTGCCTACT
CAAGTTCCTG GTTTTACCCC ACCTCCTCCT TCTACAGGGG TTGGACCTTC CTCTTACCCT
CCTACCACAG GTGCTCCAAG GCCACCTGCC ATGCCAGGCC CACCACTGCC TGGGCAGACA
GTTGCTGGAC CACCATCATC CCAGCCTAAT CATGTATCCT CACCACCACC TCCATCAACT
ATGGCAGGGC TGCACCCTGG GCCTCCCATG AGTGGTCTCC ATGGACCACC TCCTCCCACT
CATCCTCCTC AGCCAGGATA CCAAATGCAG CAGAATGGTT CCTTTGGACA GATGAGGGGT
CCTCCACCAA ACTATGGAGG AGCCTATCCA GGAGCACCAA ATTATGGAAG TCCTCCTGGA
CCACCACCTC CACCAAAACG CTTGGATCCA GATTCCATTC CTAGCCCTCA ACTTAATGAG
CTGCCACCCC AGCAGAAACC CAGGCACAGA ATAGACCCAG ATGCAATTCC TAGTCCAATT
CAAGTGATTG AAGATGACAG AAATAACCGT GGGTCAGAAC CATTTGTCAC TGGAGTGAGA
GGGCAGGTCC CACCTCTTGT TACTACAAAT TTCTTGGTCA AGGATCAAGG TAATGCAAGC
CCCCGCTACA TCAGGTGCAC ATCTTACAAT ATTCCCTGCA CGTCTGACAT GGCCAAACAA
TCCCAAGTTC CCCTGGCTGC CGTCATAAAG CCGCTGGCTG CTCTGCCGCC GGAGGAGACT
GTTCCTTATT TGGTAGACCA TGGAGAATCC GGTCCTGTCC GATGTAATAG GTGCAAAGCT
TACATGTGCC CTTTTATGCA ATTCATTGAA GGTGGAAGGA GGTTCCAGTG TTGTTTCTGC
AGCTGTGTCA CTGAGGTTCC ACCTCACTAC TTCCAACATT TGGATCACAC TGGAAAGCGA
GTAGATTTCT ATGACCGACC AGAGTTATCA CTGGGGTCAT ACGAGTTTCT AGCAACAGTT
GACTATTGCA AGAATAACAA GTTTCCTAGT CCACCTGCTT TCATTTTTAT GATTGATGTG
TCTTACAATG CTGTGAAGAG TGGCTTAGTG AGGCTAATAT GTGAAGAATT AAAGTCACTC
CTAGATTACC TGCCCAGGGA AGGGAACATG GAGGAATCAG CCATTCGAGT AGGCTTTGTC
ACCTACAACA AAGTTCTGCA TTTCTATAAT GTGAAGAGCT CACTGGCACA GCCGCAAATG
ATGGTGGTCT CAGATGTGGC AGATATGTTT GTGCCACTCC TTGATGGTTT TCTGGTGAAT
GTGAATGAGT CCAGGACAGT TATTGCCAGT TTACTGGATC AGATTCCAGA AATGTTTGCA
GACACAAGAG AAACAGAAAC TGTTTTTGCA CCTGTGATTC AAGCAGGGCT GGAGGCACTG
AAGGCAGCAG AGTGTGCTGG CAAGCTCTTC ATTTTCCACA CCTCTCTGCC CATTGCAGAG
GCTCCAGGAA AGTTAAAGAA CAGGGATGAT AGGAAACTGA TCAACACAGA TAAGGAGAAG
ACTTTGTTTC AACCACAGAC GAGCTTTTAC AACAACTTGG CCAAGGACTG TGTGGCGCAG
GGCTGTTGTG TGGATCTGTT CCTGTTTCCA AACCAGTATT TGGATGTGGC CACGCTGGGT
GTGGTACCTT ACCAGACAGG AGGCTCCATT TTTAAGTATG CGTATTTCCA GCTGGAGACA
GACCAGTACA GATTCCTGAA TGACTTGAGG AGGGATGTCC AGAAAGAAGT GGGATTTGAT
GCTGTAATGA GAGTGCGCAC AAGCACAGGT ATTAGAGCAA CAGACTTTTT TGGAGCTTTC
TATATGAGCA ACACAACTGA TGTAGAGATG GCAGGTCTGG ACTGTGATAA AACAATCACA
GTGGAATTCA AGCATGATGA TAAATTGAGT GAAGATAGTG GTGCACTGCT TCAGTGTGCT
CTGCTGTATA CAAGTTGTGC AGGACAGCGA CGACTCCGCA TTCACAATCT CTCCTTAAAC
TGCTGCACGC AGCTTGCTGA CCTCTATCGG AACTGTGAGA CTGACACCCT CATCAACTAC
TTGGCTAAGT ATGCATATCG TGGAGTCTTG AGTAGTCCAG TGAAGACTGT ACGAGATGCA
CTCATCAACC AGTGTGCCCA GATCCTAGCC TGCTATCGGA AGAACTGTGC TAGTCCCTCT
TCTGCTGGCC AGCTCATCCT CCCCGAATGC ATGAAGCTGC TTCCTGTGTA CTTGAACTGT
GTGTTGAAGA GTGACGTGCT TCAGCCCGGC CCAGAGGTCA CAACAGACGA CCGTGCCTAC
GTCCGTCAGT TAGTGACGTC CATGGATGTG GCTGAAACAA ACGTTTTCTT TTATCCCAGG
CTTTTGCCTC TGACCAAAGC AGATGTTGAC AGTGATTCCT TGCCAGCAGC CATTCGGAAC
TCTGAGGAGC GTCTGTCCAA GGGTGACATC TACCTGCTGG AGAATGGGCT GAACATCTTT
GTGTGGGTGG GAGTCAACGT GCAGCAAGGC CTGATCCAGA ACCTCTTTGG AGTGTCATCC
TTCAGTCAAA TTAGCAATGC CTTGAGTACC CTGCCAGTCT TGGAAAACCC CTTTTCAAAG
AAAGTGCGAT CTATTGTTGA TATGCTTCAA GGACAGAGAT CCCGCTACAT GAAGTTGATA
ATTGTGAAGC AAGAAGATAA GCTGGAAATG CTGTTCAAAC ACTTTCTAGT GGAGGACAAG
AGCCTGAGTG GGGGGGCTTC CTATGTGGAC TTCCTGTGTC ACATGCACAA GGAGATTCGG
CAGCTACTGA GCTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_012429957.1 CDS 85..3519 Translation
Target ORF information:
RefSeq Version XM_012574503.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata SEC24 family member C (SEC24C), transcript variant X2, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_012574503.1
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
3421ATGAGTGTAA ACCAGCAAGC TCACACGGGG CCTCCTTATG GGCAACCTCA GCCTGGATAT
CAGGGATACC AGCAGCCTGC CTACGGAGGA CAGTCATTGC CAGGGGTTCC TCAGGCGCAG
TATGGAGCTT ATAATGGGCC GGTGCCAGGA TATCAACAGC CAGTCCCTCC ACAAGGTTCA
TTAAGAGCCC CGCCAACATC TGGAGCTCCC CCTCCAGCCT CTGGAGCATC TCATCCTTCT
GGCCACTTGG CATACAGTCA GTTTGAACAT GGAGATGTGC AGAATGGAAT TCCAGCCTCA
GCAGCTCCAA TGCAGAGGCC ACCTGCTTCT CAGCCGTTCC TGCCAGGCTC AGCACCCACG
CCTGTCAGCC AGATATCTAC GTTCCAGCAA TATGGGGCCC CCCCAGCCAG CGTGCAGCAG
CTCAGGAATC ACATGGCAGG GATGACAATT GGTGGTACTG CAGCCTCTGC TCCTCCCCCA
GCTGGACTGG GCTATGCATC GGTTCCTCCA GTCTCAGGAA GCTTTAGTGC AACAGGATCT
GGTCTCTACA CACCTTACAG TGCAAGCCAA GGACCCCCTC TTACCAGTGT GTCTCAGGGT
CTTCCTTTGG CACAGCCTCC GTTTCCTGGT CAGACAATAT CAACTCAGCA CCTGCCTACT
CAAGTTCCTG GTTTTACCCC ACCTCCTCCT TCTACAGGGG TTGGACCTTC CTCTTACCCT
CCTACCACAG GTGCTCCAAG GCCACCTGCC ATGCCAGGCC CACCACTGCC TGGGCAGACA
GTTGCTGGAC CACCATCATC CCAGCCTAAT CATGTATCCT CACCACCACC TCCATCAACT
ATGGCAGGGC TGCACCCTGG GCCTCCCATG AGTGGTCTCC ATGGACCACC TCCTCCCACT
CATCCTCCTC AGCCAGGATA CCAAATGCAG CAGAATGGTT CCTTTGGACA GATGAGGGGT
CCTCCACCAA ACTATGGAGG AGCCTATCCA GGAGCACCAA ATTATGGAAG TCCTCCTGGA
CCACCACCTC CACCAAAACG CTTGGATCCA GATTCCATTC CTAGCCCTCA ACTTAATGAG
CTGCCACCCC AGCAGAAACC CAGGCACAGA ATAGACCCAG ATGCAATTCC TAGTCCAATT
CAAGTGATTG AAGATGACAG AAATAACCGT GGGTCAGAAC CATTTGTCAC TGGAGTGAGA
GGGCAGGTCC CACCTCTTGT TACTACAAAT TTCTTGGTCA AGGATCAAGG TAATGCAAGC
CCCCGCTACA TCAGGTGCAC ATCTTACAAT ATTCCCTGCA CGTCTGACAT GGCCAAACAA
TCCCAAGTTC CCCTGGCTGC CGTCATAAAG CCGCTGGCTG CTCTGCCGCC GGAGGAGACT
GTTCCTTATT TGGTAGACCA TGGAGAATCC GGTCCTGTCC GATGTAATAG GTGCAAAGCT
TACATGTGCC CTTTTATGCA ATTCATTGAA GGTGGAAGGA GGTTCCAGTG TTGTTTCTGC
AGCTGTGTCA CTGAGGTTCC ACCTCACTAC TTCCAACATT TGGATCACAC TGGAAAGCGA
GTAGATTTCT ATGACCGACC AGAGTTATCA CTGGGGTCAT ACGAGTTTCT AGCAACAGTT
GACTATTGCA AGAATAACAA GTTTCCTAGT CCACCTGCTT TCATTTTTAT GATTGATGTG
TCTTACAATG CTGTGAAGAG TGGCTTAGTG AGGCTAATAT GTGAAGAATT AAAGTCACTC
CTAGATTACC TGCCCAGGGA AGGGAACATG GAGGAATCAG CCATTCGAGT AGGCTTTGTC
ACCTACAACA AAGTTCTGCA TTTCTATAAT GTGAAGAGCT CACTGGCACA GCCGCAAATG
ATGGTGGTCT CAGATGTGGC AGATATGTTT GTGCCACTCC TTGATGGTTT TCTGGTGAAT
GTGAATGAGT CCAGGACAGT TATTGCCAGT TTACTGGATC AGATTCCAGA AATGTTTGCA
GACACAAGAG AAACAGAAAC TGTTTTTGCA CCTGTGATTC AAGCAGGGCT GGAGGCACTG
AAGGCAGCAG AGTGTGCTGG CAAGCTCTTC ATTTTCCACA CCTCTCTGCC CATTGCAGAG
GCTCCAGGAA AGTTAAAGAA CAGGGATGAT AGGAAACTGA TCAACACAGA TAAGGAGAAG
ACTTTGTTTC AACCACAGAC GAGCTTTTAC AACAACTTGG CCAAGGACTG TGTGGCGCAG
GGCTGTTGTG TGGATCTGTT CCTGTTTCCA AACCAGTATT TGGATGTGGC CACGCTGGGT
GTGGTACCTT ACCAGACAGG AGGCTCCATT TTTAAGTATG CGTATTTCCA GCTGGAGACA
GACCAGTACA GATTCCTGAA TGACTTGAGG AGGGATGTCC AGAAAGAAGT GGGATTTGAT
GCTGTAATGA GAGTGCGCAC AAGCACAGGT ATTAGAGCAA CAGACTTTTT TGGAGCTTTC
TATATGAGCA ACACAACTGA TGTAGAGATG GCAGGTCTGG ACTGTGATAA AACAATCACA
GTGGAATTCA AGCATGATGA TAAATTGAGT GAAGATAGTG GTGCACTGCT TCAGTGTGCT
CTGCTGTATA CAAGTTGTGC AGGACAGCGA CGACTCCGCA TTCACAATCT CTCCTTAAAC
TGCTGCACGC AGCTTGCTGA CCTCTATCGG AACTGTGAGA CTGACACCCT CATCAACTAC
TTGGCTAAGT ATGCATATCG TGGAGTCTTG AGTAGTCCAG TGAAGACTGT ACGAGATGCA
CTCATCAACC AGTGTGCCCA GATCCTAGCC TGCTATCGGA AGAACTGTGC TAGTCCCTCT
TCTGCTGGCC AGCTCATCCT CCCCGAATGC ATGAAGCTGC TTCCTGTGTA CTTGAACTGT
GTGTTGAAGA GTGACGTGCT TCAGCCCGGC CCAGAGGTCA CAACAGACGA CCGTGCCTAC
GTCCGTCAGT TAGTGACGTC CATGGATGTG GCTGAAACAA ACGTTTTCTT TTATCCCAGG
CTTTTGCCTC TGACCAAAGC AGATGTTGAC AGTGATTCCT TGCCAGCAGC CATTCGGAAC
TCTGAGGAGC GTCTGTCCAA GGGTGACATC TACCTGCTGG AGAATGGGCT GAACATCTTT
GTGTGGGTGG GAGTCAACGT GCAGCAAGGC CTGATCCAGA ACCTCTTTGG AGTGTCATCC
TTCAGTCAAA TTAGCAATGC CTTGAGTACC CTGCCAGTCT TGGAAAACCC CTTTTCAAAG
AAAGTGCGAT CTATTGTTGA TATGCTTCAA GGACAGAGAT CCCGCTACAT GAAGTTGATA
ATTGTGAAGC AAGAAGATAA GCTGGAAATG CTGTTCAAAC ACTTTCTAGT GGAGGACAAG
AGCCTGAGTG GGGGGGCTTC CTATGTGGAC TTCCTGTGTC ACATGCACAA GGAGATTCGG
CAGCTACTGA GCTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd16870 Clone ID Related Accession (Same CDS sequence) XM_012574504.1 Accession Version XM_012574504.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3321bp)
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 protein transport protein Sec24C isoform X3 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002198840.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Taeniopygia guttata Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
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
3301ATGAGTGTAA ACCAGCAAGC TCACACGGGG CCTCCTTATG GGCAACCTCA GCCTGGATAT
CAGGGATACC AGCAGCCTGC CTACGGAGGA CAGTCATTGC CAGGGGTTCC TCAGGCGCAG
TATGGAGCTT ATAATGGGCC GGTGCCAGGA TATCAACAGC CAGTCCCTCC ACAAGGTTAC
TTTCCTTCCT TGGGGTTTCC TTCGAAGGGC TCTCCTGTAT CTCTCAACTC TGACACTTCT
TCTCTTGCAC CTAATTTCAT AGGTTCATTA AGAGCCCCGC CAACATCTGG AGCTCCCCCT
CCAGCCTCTG GAGCATCTCA TCCTTCTGGC CACTTGGCAT ACAGTCAGTT TGAACATGGA
GATGTGCAGA ATGGAATTCC AGCCTCAGCA GCTCCAATGC AGAGGCCACC TGCTTCTCAG
CCGTTCCTGC CAGGCTCAGC ACCCACGCCT GTCAGCCAGA TATCTACGTT CCAGCAATAT
GGGGCCCCCC CAGCCAGCGT GCAGCAGCTC AGGAATCACA TGGCAGGGAT GACAATTGGT
GGTACTGCAG CCTCTGCTCC TCCCCCAGCT GGACTGGGCT ATGGGGTTGG ACCTTCCTCT
TACCCTCCTA CCACAGGTGC TCCAAGGCCA CCTGCCATGC CAGGCCCACC ACTGCCTGGG
CAGACAGTTG CTGGACCACC ATCATCCCAG CCTAATCATG TATCCTCACC ACCACCTCCA
TCAACTATGG CAGGGCTGCA CCCTGGGCCT CCCATGAGTG GTCTCCATGG ACCACCTCCT
CCCACTCATC CTCCTCAGCC AGGATACCAA ATGCAGCAGA ATGGTTCCTT TGGACAGATG
AGGGGTCCTC CACCAAACTA TGGAGGAGCC TATCCAGGAG CACCAAATTA TGGAAGTCCT
CCTGGACCAC CACCTCCACC AAAACGCTTG GATCCAGATT CCATTCCTAG CCCTCAACTT
AATGAGCTGC CACCCCAGCA GAAACCCAGG CACAGAATAG ACCCAGATGC AATTCCTAGT
CCAATTCAAG TGATTGAAGA TGACAGAAAT AACCGTGGGT CAGAACCATT TGTCACTGGA
GTGAGAGGGC AGGTCCCACC TCTTGTTACT ACAAATTTCT TGGTCAAGGA TCAAGGTAAT
GCAAGCCCCC GCTACATCAG GTGCACATCT TACAATATTC CCTGCACGTC TGACATGGCC
AAACAATCCC AAGTTCCCCT GGCTGCCGTC ATAAAGCCGC TGGCTGCTCT GCCGCCGGAG
GAGACTGTTC CTTATTTGGT AGACCATGGA GAATCCGGTC CTGTCCGATG TAATAGGTGC
AAAGCTTACA TGTGCCCTTT TATGCAATTC ATTGAAGGTG GAAGGAGGTT CCAGTGTTGT
TTCTGCAGCT GTGTCACTGA GGTTCCACCT CACTACTTCC AACATTTGGA TCACACTGGA
AAGCGAGTAG ATTTCTATGA CCGACCAGAG TTATCACTGG GGTCATACGA GTTTCTAGCA
ACAGTTGACT ATTGCAAGAA TAACAAGTTT CCTAGTCCAC CTGCTTTCAT TTTTATGATT
GATGTGTCTT ACAATGCTGT GAAGAGTGGC TTAGTGAGGC TAATATGTGA AGAATTAAAG
TCACTCCTAG ATTACCTGCC CAGGGAAGGG AACATGGAGG AATCAGCCAT TCGAGTAGGC
TTTGTCACCT ACAACAAAGT TCTGCATTTC TATAATGTGA AGAGCTCACT GGCACAGCCG
CAAATGATGG TGGTCTCAGA TGTGGCAGAT ATGTTTGTGC CACTCCTTGA TGGTTTTCTG
GTGAATGTGA ATGAGTCCAG GACAGTTATT GCCAGTTTAC TGGATCAGAT TCCAGAAATG
TTTGCAGACA CAAGAGAAAC AGAAACTGTT TTTGCACCTG TGATTCAAGC AGGGCTGGAG
GCACTGAAGG CAGCAGAGTG TGCTGGCAAG CTCTTCATTT TCCACACCTC TCTGCCCATT
GCAGAGGCTC CAGGAAAGTT AAAGAACAGG GATGATAGGA AACTGATCAA CACAGATAAG
GAGAAGACTT TGTTTCAACC ACAGACGAGC TTTTACAACA ACTTGGCCAA GGACTGTGTG
GCGCAGGGCT GTTGTGTGGA TCTGTTCCTG TTTCCAAACC AGTATTTGGA TGTGGCCACG
CTGGGTGTGG TACCTTACCA GACAGGAGGC TCCATTTTTA AGTATGCGTA TTTCCAGCTG
GAGACAGACC AGTACAGATT CCTGAATGAC TTGAGGAGGG ATGTCCAGAA AGAAGTGGGA
TTTGATGCTG TAATGAGAGT GCGCACAAGC ACAGGTATTA GAGCAACAGA CTTTTTTGGA
GCTTTCTATA TGAGCAACAC AACTGATGTA GAGATGGCAG GTCTGGACTG TGATAAAACA
ATCACAGTGG AATTCAAGCA TGATGATAAA TTGAGTGAAG ATAGTGGTGC ACTGCTTCAG
TGTGCTCTGC TGTATACAAG TTGTGCAGGA CAGCGACGAC TCCGCATTCA CAATCTCTCC
TTAAACTGCT GCACGCAGCT TGCTGACCTC TATCGGAACT GTGAGACTGA CACCCTCATC
AACTACTTGG CTAAGTATGC ATATCGTGGA GTCTTGAGTA GTCCAGTGAA GACTGTACGA
GATGCACTCA TCAACCAGTG TGCCCAGATC CTAGCCTGCT ATCGGAAGAA CTGTGCTAGT
CCCTCTTCTG CTGGCCAGCT CATCCTCCCC GAATGCATGA AGCTGCTTCC TGTGTACTTG
AACTGTGTGT TGAAGAGTGA CGTGCTTCAG CCCGGCCCAG AGGTCACAAC AGACGACCGT
GCCTACGTCC GTCAGTTAGT GACGTCCATG GATGTGGCTG AAACAAACGT TTTCTTTTAT
CCCAGGCTTT TGCCTCTGAC CAAAGCAGAT GTTGACAGTG ATTCCTTGCC AGCAGCCATT
CGGAACTCTG AGGAGCGTCT GTCCAAGGGT GACATCTACC TGCTGGAGAA TGGGCTGAAC
ATCTTTGTGT GGGTGGGAGT CAACGTGCAG CAAGGCCTGA TCCAGAACCT CTTTGGAGTG
TCATCCTTCA GTCAAATTAG CAATGCCTTG AGTACCCTGC CAGTCTTGGA AAACCCCTTT
TCAAAGAAAG TGCGATCTAT TGTTGATATG CTTCAAGGAC AGAGATCCCG CTACATGAAG
TTGATAATTG TGAAGCAAGA AGATAAGCTG GAAATGCTGT TCAAACACTT TCTAGTGGAG
GACAAGAGCC TGAGTGGGGG GGCTTCCTAT GTGGACTTCC TGTGTCACAT GCACAAGGAG
ATTCGGCAGC TACTGAGCTA GThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_012429958.1 CDS 85..3405 Translation
Target ORF information:
RefSeq Version XM_012574504.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata SEC24 family member C (SEC24C), transcript variant X3, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_012574504.1
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
3301ATGAGTGTAA ACCAGCAAGC TCACACGGGG CCTCCTTATG GGCAACCTCA GCCTGGATAT
CAGGGATACC AGCAGCCTGC CTACGGAGGA CAGTCATTGC CAGGGGTTCC TCAGGCGCAG
TATGGAGCTT ATAATGGGCC GGTGCCAGGA TATCAACAGC CAGTCCCTCC ACAAGGTTAC
TTTCCTTCCT TGGGGTTTCC TTCGAAGGGC TCTCCTGTAT CTCTCAACTC TGACACTTCT
TCTCTTGCAC CTAATTTCAT AGGTTCATTA AGAGCCCCGC CAACATCTGG AGCTCCCCCT
CCAGCCTCTG GAGCATCTCA TCCTTCTGGC CACTTGGCAT ACAGTCAGTT TGAACATGGA
GATGTGCAGA ATGGAATTCC AGCCTCAGCA GCTCCAATGC AGAGGCCACC TGCTTCTCAG
CCGTTCCTGC CAGGCTCAGC ACCCACGCCT GTCAGCCAGA TATCTACGTT CCAGCAATAT
GGGGCCCCCC CAGCCAGCGT GCAGCAGCTC AGGAATCACA TGGCAGGGAT GACAATTGGT
GGTACTGCAG CCTCTGCTCC TCCCCCAGCT GGACTGGGCT ATGGGGTTGG ACCTTCCTCT
TACCCTCCTA CCACAGGTGC TCCAAGGCCA CCTGCCATGC CAGGCCCACC ACTGCCTGGG
CAGACAGTTG CTGGACCACC ATCATCCCAG CCTAATCATG TATCCTCACC ACCACCTCCA
TCAACTATGG CAGGGCTGCA CCCTGGGCCT CCCATGAGTG GTCTCCATGG ACCACCTCCT
CCCACTCATC CTCCTCAGCC AGGATACCAA ATGCAGCAGA ATGGTTCCTT TGGACAGATG
AGGGGTCCTC CACCAAACTA TGGAGGAGCC TATCCAGGAG CACCAAATTA TGGAAGTCCT
CCTGGACCAC CACCTCCACC AAAACGCTTG GATCCAGATT CCATTCCTAG CCCTCAACTT
AATGAGCTGC CACCCCAGCA GAAACCCAGG CACAGAATAG ACCCAGATGC AATTCCTAGT
CCAATTCAAG TGATTGAAGA TGACAGAAAT AACCGTGGGT CAGAACCATT TGTCACTGGA
GTGAGAGGGC AGGTCCCACC TCTTGTTACT ACAAATTTCT TGGTCAAGGA TCAAGGTAAT
GCAAGCCCCC GCTACATCAG GTGCACATCT TACAATATTC CCTGCACGTC TGACATGGCC
AAACAATCCC AAGTTCCCCT GGCTGCCGTC ATAAAGCCGC TGGCTGCTCT GCCGCCGGAG
GAGACTGTTC CTTATTTGGT AGACCATGGA GAATCCGGTC CTGTCCGATG TAATAGGTGC
AAAGCTTACA TGTGCCCTTT TATGCAATTC ATTGAAGGTG GAAGGAGGTT CCAGTGTTGT
TTCTGCAGCT GTGTCACTGA GGTTCCACCT CACTACTTCC AACATTTGGA TCACACTGGA
AAGCGAGTAG ATTTCTATGA CCGACCAGAG TTATCACTGG GGTCATACGA GTTTCTAGCA
ACAGTTGACT ATTGCAAGAA TAACAAGTTT CCTAGTCCAC CTGCTTTCAT TTTTATGATT
GATGTGTCTT ACAATGCTGT GAAGAGTGGC TTAGTGAGGC TAATATGTGA AGAATTAAAG
TCACTCCTAG ATTACCTGCC CAGGGAAGGG AACATGGAGG AATCAGCCAT TCGAGTAGGC
TTTGTCACCT ACAACAAAGT TCTGCATTTC TATAATGTGA AGAGCTCACT GGCACAGCCG
CAAATGATGG TGGTCTCAGA TGTGGCAGAT ATGTTTGTGC CACTCCTTGA TGGTTTTCTG
GTGAATGTGA ATGAGTCCAG GACAGTTATT GCCAGTTTAC TGGATCAGAT TCCAGAAATG
TTTGCAGACA CAAGAGAAAC AGAAACTGTT TTTGCACCTG TGATTCAAGC AGGGCTGGAG
GCACTGAAGG CAGCAGAGTG TGCTGGCAAG CTCTTCATTT TCCACACCTC TCTGCCCATT
GCAGAGGCTC CAGGAAAGTT AAAGAACAGG GATGATAGGA AACTGATCAA CACAGATAAG
GAGAAGACTT TGTTTCAACC ACAGACGAGC TTTTACAACA ACTTGGCCAA GGACTGTGTG
GCGCAGGGCT GTTGTGTGGA TCTGTTCCTG TTTCCAAACC AGTATTTGGA TGTGGCCACG
CTGGGTGTGG TACCTTACCA GACAGGAGGC TCCATTTTTA AGTATGCGTA TTTCCAGCTG
GAGACAGACC AGTACAGATT CCTGAATGAC TTGAGGAGGG ATGTCCAGAA AGAAGTGGGA
TTTGATGCTG TAATGAGAGT GCGCACAAGC ACAGGTATTA GAGCAACAGA CTTTTTTGGA
GCTTTCTATA TGAGCAACAC AACTGATGTA GAGATGGCAG GTCTGGACTG TGATAAAACA
ATCACAGTGG AATTCAAGCA TGATGATAAA TTGAGTGAAG ATAGTGGTGC ACTGCTTCAG
TGTGCTCTGC TGTATACAAG TTGTGCAGGA CAGCGACGAC TCCGCATTCA CAATCTCTCC
TTAAACTGCT GCACGCAGCT TGCTGACCTC TATCGGAACT GTGAGACTGA CACCCTCATC
AACTACTTGG CTAAGTATGC ATATCGTGGA GTCTTGAGTA GTCCAGTGAA GACTGTACGA
GATGCACTCA TCAACCAGTG TGCCCAGATC CTAGCCTGCT ATCGGAAGAA CTGTGCTAGT
CCCTCTTCTG CTGGCCAGCT CATCCTCCCC GAATGCATGA AGCTGCTTCC TGTGTACTTG
AACTGTGTGT TGAAGAGTGA CGTGCTTCAG CCCGGCCCAG AGGTCACAAC AGACGACCGT
GCCTACGTCC GTCAGTTAGT GACGTCCATG GATGTGGCTG AAACAAACGT TTTCTTTTAT
CCCAGGCTTT TGCCTCTGAC CAAAGCAGAT GTTGACAGTG ATTCCTTGCC AGCAGCCATT
CGGAACTCTG AGGAGCGTCT GTCCAAGGGT GACATCTACC TGCTGGAGAA TGGGCTGAAC
ATCTTTGTGT GGGTGGGAGT CAACGTGCAG CAAGGCCTGA TCCAGAACCT CTTTGGAGTG
TCATCCTTCA GTCAAATTAG CAATGCCTTG AGTACCCTGC CAGTCTTGGA AAACCCCTTT
TCAAAGAAAG TGCGATCTAT TGTTGATATG CTTCAAGGAC AGAGATCCCG CTACATGAAG
TTGATAATTG TGAAGCAAGA AGATAAGCTG GAAATGCTGT TCAAACACTT TCTAGTGGAG
GACAAGAGCC TGAGTGGGGG GGCTTCCTAT GTGGACTTCC TGTGTCACAT GCACAAGGAG
ATTCGGCAGC TACTGAGCTA GThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd16871 Clone ID Related Accession (Same CDS sequence) XM_012574505.1 Accession Version XM_012574505.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3288bp)
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 protein transport protein Sec24C isoform X4 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002198840.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Taeniopygia guttata Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
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
3241ATGAGTGTAA ACCAGCAAGC TCACACGGGG CCTCCTTATG GGCAACCTCA GCCTGGATAT
CAGGGATACC AGCAGCCTGC CTACGGAGGA CAGTCATTGC CAGGGGTTCC TCAGGCGCAG
TATGGAGCTT ATAATGGGCC GGTGCCAGGA TATCAACAGC CAGTCCCTCC ACAAGGTTAC
TTTCCTTCCT TGGGGTTTCC TTCGAAGGGC TCTCCTGTAT CTCTCAACTC TGACACTTCT
TCTCTTGCAC CTAATTTCAT AGGTTCATTA AGAGCCCCGC CAACATCTGG AGCTCCCCCT
CCAGCCTCTG GAGCATCTCA TCCTTCTGGC CACTTGGCAT ACAGTCAGTT TGAACATGGA
GATGTGCAGA ATGGAATTCC AGCCTCAGCA GCTCCAATGC AGAGGCCACC TGCTTCTCAG
CCGTTCCTGC CAGGCTCAGC ACCCACGCCT GTCAGCCAGA TATCTACGTT CCAGCAATAT
GGGGCCCCCC CAGCCAGCGT GCAGCAGCTC AGGAATCACA TGGCAGGGAT GACAATTGGT
GGTACTGCAG CCTCTGCTCC TCCCCCAGCT GGACTGGGCT ATGGTGCTCC AAGGCCACCT
GCCATGCCAG GCCCACCACT GCCTGGGCAG ACAGTTGCTG GACCACCATC ATCCCAGCCT
AATCATGTAT CCTCACCACC ACCTCCATCA ACTATGGCAG GGCTGCACCC TGGGCCTCCC
ATGAGTGGTC TCCATGGACC ACCTCCTCCC ACTCATCCTC CTCAGCCAGG ATACCAAATG
CAGCAGAATG GTTCCTTTGG ACAGATGAGG GGTCCTCCAC CAAACTATGG AGGAGCCTAT
CCAGGAGCAC CAAATTATGG AAGTCCTCCT GGACCACCAC CTCCACCAAA ACGCTTGGAT
CCAGATTCCA TTCCTAGCCC TCAACTTAAT GAGCTGCCAC CCCAGCAGAA ACCCAGGCAC
AGAATAGACC CAGATGCAAT TCCTAGTCCA ATTCAAGTGA TTGAAGATGA CAGAAATAAC
CGTGGGTCAG AACCATTTGT CACTGGAGTG AGAGGGCAGG TCCCACCTCT TGTTACTACA
AATTTCTTGG TCAAGGATCA AGGTAATGCA AGCCCCCGCT ACATCAGGTG CACATCTTAC
AATATTCCCT GCACGTCTGA CATGGCCAAA CAATCCCAAG TTCCCCTGGC TGCCGTCATA
AAGCCGCTGG CTGCTCTGCC GCCGGAGGAG ACTGTTCCTT ATTTGGTAGA CCATGGAGAA
TCCGGTCCTG TCCGATGTAA TAGGTGCAAA GCTTACATGT GCCCTTTTAT GCAATTCATT
GAAGGTGGAA GGAGGTTCCA GTGTTGTTTC TGCAGCTGTG TCACTGAGGT TCCACCTCAC
TACTTCCAAC ATTTGGATCA CACTGGAAAG CGAGTAGATT TCTATGACCG ACCAGAGTTA
TCACTGGGGT CATACGAGTT TCTAGCAACA GTTGACTATT GCAAGAATAA CAAGTTTCCT
AGTCCACCTG CTTTCATTTT TATGATTGAT GTGTCTTACA ATGCTGTGAA GAGTGGCTTA
GTGAGGCTAA TATGTGAAGA ATTAAAGTCA CTCCTAGATT ACCTGCCCAG GGAAGGGAAC
ATGGAGGAAT CAGCCATTCG AGTAGGCTTT GTCACCTACA ACAAAGTTCT GCATTTCTAT
AATGTGAAGA GCTCACTGGC ACAGCCGCAA ATGATGGTGG TCTCAGATGT GGCAGATATG
TTTGTGCCAC TCCTTGATGG TTTTCTGGTG AATGTGAATG AGTCCAGGAC AGTTATTGCC
AGTTTACTGG ATCAGATTCC AGAAATGTTT GCAGACACAA GAGAAACAGA AACTGTTTTT
GCACCTGTGA TTCAAGCAGG GCTGGAGGCA CTGAAGGCAG CAGAGTGTGC TGGCAAGCTC
TTCATTTTCC ACACCTCTCT GCCCATTGCA GAGGCTCCAG GAAAGTTAAA GAACAGGGAT
GATAGGAAAC TGATCAACAC AGATAAGGAG AAGACTTTGT TTCAACCACA GACGAGCTTT
TACAACAACT TGGCCAAGGA CTGTGTGGCG CAGGGCTGTT GTGTGGATCT GTTCCTGTTT
CCAAACCAGT ATTTGGATGT GGCCACGCTG GGTGTGGTAC CTTACCAGAC AGGAGGCTCC
ATTTTTAAGT ATGCGTATTT CCAGCTGGAG ACAGACCAGT ACAGATTCCT GAATGACTTG
AGGAGGGATG TCCAGAAAGA AGTGGGATTT GATGCTGTAA TGAGAGTGCG CACAAGCACA
GGTATTAGAG CAACAGACTT TTTTGGAGCT TTCTATATGA GCAACACAAC TGATGTAGAG
ATGGCAGGTC TGGACTGTGA TAAAACAATC ACAGTGGAAT TCAAGCATGA TGATAAATTG
AGTGAAGATA GTGGTGCACT GCTTCAGTGT GCTCTGCTGT ATACAAGTTG TGCAGGACAG
CGACGACTCC GCATTCACAA TCTCTCCTTA AACTGCTGCA CGCAGCTTGC TGACCTCTAT
CGGAACTGTG AGACTGACAC CCTCATCAAC TACTTGGCTA AGTATGCATA TCGTGGAGTC
TTGAGTAGTC CAGTGAAGAC TGTACGAGAT GCACTCATCA ACCAGTGTGC CCAGATCCTA
GCCTGCTATC GGAAGAACTG TGCTAGTCCC TCTTCTGCTG GCCAGCTCAT CCTCCCCGAA
TGCATGAAGC TGCTTCCTGT GTACTTGAAC TGTGTGTTGA AGAGTGACGT GCTTCAGCCC
GGCCCAGAGG TCACAACAGA CGACCGTGCC TACGTCCGTC AGTTAGTGAC GTCCATGGAT
GTGGCTGAAA CAAACGTTTT CTTTTATCCC AGGCTTTTGC CTCTGACCAA AGCAGATGTT
GACAGTGATT CCTTGCCAGC AGCCATTCGG AACTCTGAGG AGCGTCTGTC CAAGGGTGAC
ATCTACCTGC TGGAGAATGG GCTGAACATC TTTGTGTGGG TGGGAGTCAA CGTGCAGCAA
GGCCTGATCC AGAACCTCTT TGGAGTGTCA TCCTTCAGTC AAATTAGCAA TGCCTTGAGT
ACCCTGCCAG TCTTGGAAAA CCCCTTTTCA AAGAAAGTGC GATCTATTGT TGATATGCTT
CAAGGACAGA GATCCCGCTA CATGAAGTTG ATAATTGTGA AGCAAGAAGA TAAGCTGGAA
ATGCTGTTCA AACACTTTCT AGTGGAGGAC AAGAGCCTGA GTGGGGGGGC TTCCTATGTG
GACTTCCTGT GTCACATGCA CAAGGAGATT CGGCAGCTAC TGAGCTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_012429959.1 CDS 85..3372 Translation
Target ORF information:
RefSeq Version XM_012574505.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata SEC24 family member C (SEC24C), transcript variant X4, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_012574505.1
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
3241ATGAGTGTAA ACCAGCAAGC TCACACGGGG CCTCCTTATG GGCAACCTCA GCCTGGATAT
CAGGGATACC AGCAGCCTGC CTACGGAGGA CAGTCATTGC CAGGGGTTCC TCAGGCGCAG
TATGGAGCTT ATAATGGGCC GGTGCCAGGA TATCAACAGC CAGTCCCTCC ACAAGGTTAC
TTTCCTTCCT TGGGGTTTCC TTCGAAGGGC TCTCCTGTAT CTCTCAACTC TGACACTTCT
TCTCTTGCAC CTAATTTCAT AGGTTCATTA AGAGCCCCGC CAACATCTGG AGCTCCCCCT
CCAGCCTCTG GAGCATCTCA TCCTTCTGGC CACTTGGCAT ACAGTCAGTT TGAACATGGA
GATGTGCAGA ATGGAATTCC AGCCTCAGCA GCTCCAATGC AGAGGCCACC TGCTTCTCAG
CCGTTCCTGC CAGGCTCAGC ACCCACGCCT GTCAGCCAGA TATCTACGTT CCAGCAATAT
GGGGCCCCCC CAGCCAGCGT GCAGCAGCTC AGGAATCACA TGGCAGGGAT GACAATTGGT
GGTACTGCAG CCTCTGCTCC TCCCCCAGCT GGACTGGGCT ATGGTGCTCC AAGGCCACCT
GCCATGCCAG GCCCACCACT GCCTGGGCAG ACAGTTGCTG GACCACCATC ATCCCAGCCT
AATCATGTAT CCTCACCACC ACCTCCATCA ACTATGGCAG GGCTGCACCC TGGGCCTCCC
ATGAGTGGTC TCCATGGACC ACCTCCTCCC ACTCATCCTC CTCAGCCAGG ATACCAAATG
CAGCAGAATG GTTCCTTTGG ACAGATGAGG GGTCCTCCAC CAAACTATGG AGGAGCCTAT
CCAGGAGCAC CAAATTATGG AAGTCCTCCT GGACCACCAC CTCCACCAAA ACGCTTGGAT
CCAGATTCCA TTCCTAGCCC TCAACTTAAT GAGCTGCCAC CCCAGCAGAA ACCCAGGCAC
AGAATAGACC CAGATGCAAT TCCTAGTCCA ATTCAAGTGA TTGAAGATGA CAGAAATAAC
CGTGGGTCAG AACCATTTGT CACTGGAGTG AGAGGGCAGG TCCCACCTCT TGTTACTACA
AATTTCTTGG TCAAGGATCA AGGTAATGCA AGCCCCCGCT ACATCAGGTG CACATCTTAC
AATATTCCCT GCACGTCTGA CATGGCCAAA CAATCCCAAG TTCCCCTGGC TGCCGTCATA
AAGCCGCTGG CTGCTCTGCC GCCGGAGGAG ACTGTTCCTT ATTTGGTAGA CCATGGAGAA
TCCGGTCCTG TCCGATGTAA TAGGTGCAAA GCTTACATGT GCCCTTTTAT GCAATTCATT
GAAGGTGGAA GGAGGTTCCA GTGTTGTTTC TGCAGCTGTG TCACTGAGGT TCCACCTCAC
TACTTCCAAC ATTTGGATCA CACTGGAAAG CGAGTAGATT TCTATGACCG ACCAGAGTTA
TCACTGGGGT CATACGAGTT TCTAGCAACA GTTGACTATT GCAAGAATAA CAAGTTTCCT
AGTCCACCTG CTTTCATTTT TATGATTGAT GTGTCTTACA ATGCTGTGAA GAGTGGCTTA
GTGAGGCTAA TATGTGAAGA ATTAAAGTCA CTCCTAGATT ACCTGCCCAG GGAAGGGAAC
ATGGAGGAAT CAGCCATTCG AGTAGGCTTT GTCACCTACA ACAAAGTTCT GCATTTCTAT
AATGTGAAGA GCTCACTGGC ACAGCCGCAA ATGATGGTGG TCTCAGATGT GGCAGATATG
TTTGTGCCAC TCCTTGATGG TTTTCTGGTG AATGTGAATG AGTCCAGGAC AGTTATTGCC
AGTTTACTGG ATCAGATTCC AGAAATGTTT GCAGACACAA GAGAAACAGA AACTGTTTTT
GCACCTGTGA TTCAAGCAGG GCTGGAGGCA CTGAAGGCAG CAGAGTGTGC TGGCAAGCTC
TTCATTTTCC ACACCTCTCT GCCCATTGCA GAGGCTCCAG GAAAGTTAAA GAACAGGGAT
GATAGGAAAC TGATCAACAC AGATAAGGAG AAGACTTTGT TTCAACCACA GACGAGCTTT
TACAACAACT TGGCCAAGGA CTGTGTGGCG CAGGGCTGTT GTGTGGATCT GTTCCTGTTT
CCAAACCAGT ATTTGGATGT GGCCACGCTG GGTGTGGTAC CTTACCAGAC AGGAGGCTCC
ATTTTTAAGT ATGCGTATTT CCAGCTGGAG ACAGACCAGT ACAGATTCCT GAATGACTTG
AGGAGGGATG TCCAGAAAGA AGTGGGATTT GATGCTGTAA TGAGAGTGCG CACAAGCACA
GGTATTAGAG CAACAGACTT TTTTGGAGCT TTCTATATGA GCAACACAAC TGATGTAGAG
ATGGCAGGTC TGGACTGTGA TAAAACAATC ACAGTGGAAT TCAAGCATGA TGATAAATTG
AGTGAAGATA GTGGTGCACT GCTTCAGTGT GCTCTGCTGT ATACAAGTTG TGCAGGACAG
CGACGACTCC GCATTCACAA TCTCTCCTTA AACTGCTGCA CGCAGCTTGC TGACCTCTAT
CGGAACTGTG AGACTGACAC CCTCATCAAC TACTTGGCTA AGTATGCATA TCGTGGAGTC
TTGAGTAGTC CAGTGAAGAC TGTACGAGAT GCACTCATCA ACCAGTGTGC CCAGATCCTA
GCCTGCTATC GGAAGAACTG TGCTAGTCCC TCTTCTGCTG GCCAGCTCAT CCTCCCCGAA
TGCATGAAGC TGCTTCCTGT GTACTTGAAC TGTGTGTTGA AGAGTGACGT GCTTCAGCCC
GGCCCAGAGG TCACAACAGA CGACCGTGCC TACGTCCGTC AGTTAGTGAC GTCCATGGAT
GTGGCTGAAA CAAACGTTTT CTTTTATCCC AGGCTTTTGC CTCTGACCAA AGCAGATGTT
GACAGTGATT CCTTGCCAGC AGCCATTCGG AACTCTGAGG AGCGTCTGTC CAAGGGTGAC
ATCTACCTGC TGGAGAATGG GCTGAACATC TTTGTGTGGG TGGGAGTCAA CGTGCAGCAA
GGCCTGATCC AGAACCTCTT TGGAGTGTCA TCCTTCAGTC AAATTAGCAA TGCCTTGAGT
ACCCTGCCAG TCTTGGAAAA CCCCTTTTCA AAGAAAGTGC GATCTATTGT TGATATGCTT
CAAGGACAGA GATCCCGCTA CATGAAGTTG ATAATTGTGA AGCAAGAAGA TAAGCTGGAA
ATGCTGTTCA AACACTTTCT AGTGGAGGAC AAGAGCCTGA GTGGGGGGGC TTCCTATGTG
GACTTCCTGT GTCACATGCA CAAGGAGATT CGGCAGCTAC TGAGCTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd49163 Clone ID Related Accession (Same CDS sequence) XM_030276863.1 , XM_030276864.1 Accession Version XM_030276863.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3522bp)
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 protein transport protein Sec24C isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044218.1) 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
3481ATGAGTGTAA ACCAGCAAGC TCACACGGGG CCTCCTTATG GGCAACCTCA GCCTGGATAT
CAGGGATACC AGCAGCCTGC CTACGGAGGA CAGTCATTGC CAGGGGTTCC TCAGGCGCAG
TATGGAGCTT ATAATGGGCC GGTGCCAGGA TATCAACAGC CAGTCCCTCC ACAAGGTTAC
TTTCCTTCCT TGGGGTTTCC TTCGAAGGGC TCTCCTGTAT CTCTCAACTC TGACACTTCT
TCTCTTGCAC CTAATTTCAT AGGTTCATTA AGAGCCCCGC CAACATCTGG AGCTCCCCCT
CCAGCCTCTG GAGCATCTCA TCCTTCTGGC CACTTGGCAT ACAGTCAGTT TGAACATGGA
GATGTGCAGA ATGGAATTCC AGCCTCAACA GCTCCAATGC AGAGGCCACC TGCTTCTCAG
CCGTTCCTGC CAGGCTCAGC ACCCACGCCT GTCAGCCAGA TACCTACGTT CCAGCAATAT
GGGGCCCCCC CAGCCAGCGT GCAGCAGCTC AGGAATCACA TGGCAGGGAT GACAATTGGT
GGTACTGCAG CCTCTGCTCC TCCCCCAGCT GGACTGGGCT ATGCATCGGT TCCTCCAGTC
TCAGGAAGCT TTAGTGCAAC AGGATCTGGT CTCTACACAC CTTACAGTGC AAGCCAAGGA
CCCCCTCTTA CCAGTGTGTC TCAGGGTCTT CCTTTGGCAC AGCCTCCGTT TCCTGGTCAG
ACAATATCAA CTCAGCACCT GCCTACTCAA GTTCCTGGTT TTACCCCACC TCCTCCTTCT
ACAGGGGTTG GACCTTCCTC TTACCCTCCT ACCACAGGTG CTCCAAGGCC ACCTGCCATG
CCAGGCCCAC CACTGCCTGG GCAGACAGTT GCTGGACCAC CATCATCCCA GCCTAATCAT
GTATCCTCAC CACCACCTCC ATCAACTATG GCAGGGCTGC ACCCTGGGCC TCCCATGAGT
GGTCTCCATG GACCACCTCC TCCCACTCAT CCTCCTCAGC CAGGATACCA AATGCAGCAG
AATGGTTCCT TTGGACAGAT GAGGGGTCCT CCACCAAACT ATGGAGGAGC CTATCCAGGA
GCACCAAATT ATGGAAGTCC TCCTGGACCA CCACCTCCAC CAAAACGCTT GGATCCAGAT
TCCATTCCTA GCCCTCAACT TAATGAGCTG CCACCCCAGC AGAAACCCAG GCACAGAATA
GACCCAGATG CAATTCCTAG TCCAATTCAA GTGATTGAAG ATGACAGAAA TAACCGTGGG
TCAGAACCAT TTGTCACTGG AGTGAGAGGG CAGGTCCCAC CTCTTGTTAC TACAAATTTC
TTGGTCAAGG ATCAAGGTAA TGCAAGCCCC CGCTACATCA GGTGCACATC TTACAATATT
CCCTGCACGT CTGACATGGC CAAACAATCC CAAGTTCCCC TGGCTGCCGT CATAAAGCCG
CTGGCTGCTC TGCCGCCGGA GGAGACTGTT CCTTATTTGG TAGACCATGG AGAATCCGGT
CCTGTCCGAT GTAATAGGTG CAAAGCTTAC ATGTGCCCTT TTATGCAATT CATTGAAGGT
GGAAGGAGGT TCCAGTGTTG TTTCTGCAGC TGTGTCACTG AGGTTCCACC TCACTACTTC
CAACATTTGG ATCACACTGG AAAGCGAGTA GATTTCTATG ACCGACCAGA GTTATCACTG
GGGTCATACG AGTTTCTAGC AACAGTTGAC TATTGCAAGA ATAACAAGTT TCCTAGTCCA
CCTGCTTTCA TTTTTATGAT TGATGTGTCT TACAATGCTG TGAAGAGTGG CTTAGTGAGG
CTAATATGTG AAGAATTAAA GTCACTCCTA GATTACCTGC CCAGGGAAGG GAACATGGAG
GAATCAGCCA TTCGAGTAGG CTTTGTCACC TACAACAAAG TTCTGCATTT CTATAATGTG
AAGAGCTCAC TGGCACAGCC GCAAATGATG GTGGTCTCAG ATGTGGCAGA TATGTTTGTG
CCACTCCTTG ATGGTTTTCT GGTGAATGTG AATGAGTCCA GGACAGTTAT TGCCAGTTTA
CTGGATCAGA TTCCAGAAAT GTTTGCAGAC ACAAGAGAAA CAGAAACTGT TTTTGCACCT
GTGATTCAAG CAGGGCTGGA GGCACTGAAG GCAGCAGAGT GTGCTGGCAA GCTCTTCATT
TTCCACACCT CTCTGCCCAT TGCAGAGGCT CCAGGAAAGT TAAAGAACAG GGATGATAGG
AAACTGATCA ACACAGATAA GGAGAAGACT TTGTTTCAAC CACAGACGAG CTTTTACAAC
AACTTGGCCA AGGACTGTGT GGCGCAGGGC TGTTGTGTGG ATCTGTTCCT GTTTCCAAAC
CAGTATTTGG ATGTGGCCAC GCTGGGTGTG GTACCTTACC AGACAGGAGG CTCCATTTTT
AAGTATGCGT ATTTCCAGCT GGAGACAGAC CAGTACAGAT TCCTGAATGA CTTGAGGAGG
GATGTCCAGA AAGAAGTGGG ATTTGATGCT GTAATGAGAG TGCGCACAAG CACAGGTATT
AGAGCAACAG ACTTTTTTGG AGCTTTCTAT ATGAGCAACA CAACTGATGT AGAGATGGCA
GGTCTGGACT GTGATAAAAC AATCACAGTG GAATTCAAGC ATGATGATAA ATTGAGTGAA
GATAGTGGTG CACTGCTTCA GTGTGCTCTG CTGTATACAA GTTGTGCAGG ACAGCGACGA
CTCCGCATTC ACAATCTCTC CTTAAACTGC TGCACGCAGC TTGCTGACCT CTATCGGAAC
TGTGAGACTG ACACCCTCAT CAACTACTTG GCTAAGTATG CATATCGTGG AGTCTTGAGT
AGTCCAGTGA AGACTGTACG AGATGCACTC ATCAACCAGT GTGCCCAGAT CCTAGCCTGC
TATCGGAAGA ACTGTGCTAG TCCCTCTTCT GCTGGCCAGC TCATCCTCCC CGAATGCATG
AAGCTGCTTC CTGTGTACTT GAACTGTGTG TTGAAGAGTG ACGTGCTTCA GCCCGGCCCA
GAGGTCACAA CAGACGACCG TGCCTACGTC CGTCAGTTAG TGACGTCCAT GGATGTGGCT
GAAACAAACG TTTTCTTTTA TCCCAGGCTT TTGCCTCTGA CCAAAGCAGA TGTTGACAGT
GATTCCTTGC CAGCAGCCAT TCGGAACTCT GAGGAGCGTC TCTCCAAGGG TGACATCTAC
CTGCTGGAGA ATGGGCTGAA CATCTTTGTG TGGGTGGGAA TCAACGTGCA GCAAGGCCTG
ATCCAGAACC TCTTTGGAGT GTCATCCTTC AATCAAATTA GCAATGCCTT GAGTACCCTG
CCAGTCTTGG AAAACCCCTT TTCAAAGAAA GTGCGATCTA TTGTTGATAT GCTTCAAGGA
CAGAGATCCC GCTACATGAA GTTGATAATT GTGAAGCAAG AAGATAAGCT GGAAATGCTG
TTCAAACACT TTCTAGTGGA GGACAAGAGC CTGAGTGGGG GGGCTTCCTA TGTGGACTTC
CTGTGTCACA TGCACAAGGA GATTCGGCAG CTACTGAGCT AGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030132723.1 CDS 86..3607 Translation
Target ORF information:
RefSeq Version XM_030276863.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata SEC24 homolog C, COPII coat complex component (SEC24C), transcript variant X1, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030276863.1
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
3481ATGAGTGTAA ACCAGCAAGC TCACACGGGG CCTCCTTATG GGCAACCTCA GCCTGGATAT
CAGGGATACC AGCAGCCTGC CTACGGAGGA CAGTCATTGC CAGGGGTTCC TCAGGCGCAG
TATGGAGCTT ATAATGGGCC GGTGCCAGGA TATCAACAGC CAGTCCCTCC ACAAGGTTAC
TTTCCTTCCT TGGGGTTTCC TTCGAAGGGC TCTCCTGTAT CTCTCAACTC TGACACTTCT
TCTCTTGCAC CTAATTTCAT AGGTTCATTA AGAGCCCCGC CAACATCTGG AGCTCCCCCT
CCAGCCTCTG GAGCATCTCA TCCTTCTGGC CACTTGGCAT ACAGTCAGTT TGAACATGGA
GATGTGCAGA ATGGAATTCC AGCCTCAACA GCTCCAATGC AGAGGCCACC TGCTTCTCAG
CCGTTCCTGC CAGGCTCAGC ACCCACGCCT GTCAGCCAGA TACCTACGTT CCAGCAATAT
GGGGCCCCCC CAGCCAGCGT GCAGCAGCTC AGGAATCACA TGGCAGGGAT GACAATTGGT
GGTACTGCAG CCTCTGCTCC TCCCCCAGCT GGACTGGGCT ATGCATCGGT TCCTCCAGTC
TCAGGAAGCT TTAGTGCAAC AGGATCTGGT CTCTACACAC CTTACAGTGC AAGCCAAGGA
CCCCCTCTTA CCAGTGTGTC TCAGGGTCTT CCTTTGGCAC AGCCTCCGTT TCCTGGTCAG
ACAATATCAA CTCAGCACCT GCCTACTCAA GTTCCTGGTT TTACCCCACC TCCTCCTTCT
ACAGGGGTTG GACCTTCCTC TTACCCTCCT ACCACAGGTG CTCCAAGGCC ACCTGCCATG
CCAGGCCCAC CACTGCCTGG GCAGACAGTT GCTGGACCAC CATCATCCCA GCCTAATCAT
GTATCCTCAC CACCACCTCC ATCAACTATG GCAGGGCTGC ACCCTGGGCC TCCCATGAGT
GGTCTCCATG GACCACCTCC TCCCACTCAT CCTCCTCAGC CAGGATACCA AATGCAGCAG
AATGGTTCCT TTGGACAGAT GAGGGGTCCT CCACCAAACT ATGGAGGAGC CTATCCAGGA
GCACCAAATT ATGGAAGTCC TCCTGGACCA CCACCTCCAC CAAAACGCTT GGATCCAGAT
TCCATTCCTA GCCCTCAACT TAATGAGCTG CCACCCCAGC AGAAACCCAG GCACAGAATA
GACCCAGATG CAATTCCTAG TCCAATTCAA GTGATTGAAG ATGACAGAAA TAACCGTGGG
TCAGAACCAT TTGTCACTGG AGTGAGAGGG CAGGTCCCAC CTCTTGTTAC TACAAATTTC
TTGGTCAAGG ATCAAGGTAA TGCAAGCCCC CGCTACATCA GGTGCACATC TTACAATATT
CCCTGCACGT CTGACATGGC CAAACAATCC CAAGTTCCCC TGGCTGCCGT CATAAAGCCG
CTGGCTGCTC TGCCGCCGGA GGAGACTGTT CCTTATTTGG TAGACCATGG AGAATCCGGT
CCTGTCCGAT GTAATAGGTG CAAAGCTTAC ATGTGCCCTT TTATGCAATT CATTGAAGGT
GGAAGGAGGT TCCAGTGTTG TTTCTGCAGC TGTGTCACTG AGGTTCCACC TCACTACTTC
CAACATTTGG ATCACACTGG AAAGCGAGTA GATTTCTATG ACCGACCAGA GTTATCACTG
GGGTCATACG AGTTTCTAGC AACAGTTGAC TATTGCAAGA ATAACAAGTT TCCTAGTCCA
CCTGCTTTCA TTTTTATGAT TGATGTGTCT TACAATGCTG TGAAGAGTGG CTTAGTGAGG
CTAATATGTG AAGAATTAAA GTCACTCCTA GATTACCTGC CCAGGGAAGG GAACATGGAG
GAATCAGCCA TTCGAGTAGG CTTTGTCACC TACAACAAAG TTCTGCATTT CTATAATGTG
AAGAGCTCAC TGGCACAGCC GCAAATGATG GTGGTCTCAG ATGTGGCAGA TATGTTTGTG
CCACTCCTTG ATGGTTTTCT GGTGAATGTG AATGAGTCCA GGACAGTTAT TGCCAGTTTA
CTGGATCAGA TTCCAGAAAT GTTTGCAGAC ACAAGAGAAA CAGAAACTGT TTTTGCACCT
GTGATTCAAG CAGGGCTGGA GGCACTGAAG GCAGCAGAGT GTGCTGGCAA GCTCTTCATT
TTCCACACCT CTCTGCCCAT TGCAGAGGCT CCAGGAAAGT TAAAGAACAG GGATGATAGG
AAACTGATCA ACACAGATAA GGAGAAGACT TTGTTTCAAC CACAGACGAG CTTTTACAAC
AACTTGGCCA AGGACTGTGT GGCGCAGGGC TGTTGTGTGG ATCTGTTCCT GTTTCCAAAC
CAGTATTTGG ATGTGGCCAC GCTGGGTGTG GTACCTTACC AGACAGGAGG CTCCATTTTT
AAGTATGCGT ATTTCCAGCT GGAGACAGAC CAGTACAGAT TCCTGAATGA CTTGAGGAGG
GATGTCCAGA AAGAAGTGGG ATTTGATGCT GTAATGAGAG TGCGCACAAG CACAGGTATT
AGAGCAACAG ACTTTTTTGG AGCTTTCTAT ATGAGCAACA CAACTGATGT AGAGATGGCA
GGTCTGGACT GTGATAAAAC AATCACAGTG GAATTCAAGC ATGATGATAA ATTGAGTGAA
GATAGTGGTG CACTGCTTCA GTGTGCTCTG CTGTATACAA GTTGTGCAGG ACAGCGACGA
CTCCGCATTC ACAATCTCTC CTTAAACTGC TGCACGCAGC TTGCTGACCT CTATCGGAAC
TGTGAGACTG ACACCCTCAT CAACTACTTG GCTAAGTATG CATATCGTGG AGTCTTGAGT
AGTCCAGTGA AGACTGTACG AGATGCACTC ATCAACCAGT GTGCCCAGAT CCTAGCCTGC
TATCGGAAGA ACTGTGCTAG TCCCTCTTCT GCTGGCCAGC TCATCCTCCC CGAATGCATG
AAGCTGCTTC CTGTGTACTT GAACTGTGTG TTGAAGAGTG ACGTGCTTCA GCCCGGCCCA
GAGGTCACAA CAGACGACCG TGCCTACGTC CGTCAGTTAG TGACGTCCAT GGATGTGGCT
GAAACAAACG TTTTCTTTTA TCCCAGGCTT TTGCCTCTGA CCAAAGCAGA TGTTGACAGT
GATTCCTTGC CAGCAGCCAT TCGGAACTCT GAGGAGCGTC TCTCCAAGGG TGACATCTAC
CTGCTGGAGA ATGGGCTGAA CATCTTTGTG TGGGTGGGAA TCAACGTGCA GCAAGGCCTG
ATCCAGAACC TCTTTGGAGT GTCATCCTTC AATCAAATTA GCAATGCCTT GAGTACCCTG
CCAGTCTTGG AAAACCCCTT TTCAAAGAAA GTGCGATCTA TTGTTGATAT GCTTCAAGGA
CAGAGATCCC GCTACATGAA GTTGATAATT GTGAAGCAAG AAGATAAGCT GGAAATGCTG
TTCAAACACT TTCTAGTGGA GGACAAGAGC CTGAGTGGGG GGGCTTCCTA TGTGGACTTC
CTGTGTCACA TGCACAAGGA GATTCGGCAG CTACTGAGCT AGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd49163 Clone ID Related Accession (Same CDS sequence) XM_030276863.1 , XM_030276864.1 Accession Version XM_030276864.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3522bp)
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 protein transport protein Sec24C isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044218.1) 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
3481ATGAGTGTAA ACCAGCAAGC TCACACGGGG CCTCCTTATG GGCAACCTCA GCCTGGATAT
CAGGGATACC AGCAGCCTGC CTACGGAGGA CAGTCATTGC CAGGGGTTCC TCAGGCGCAG
TATGGAGCTT ATAATGGGCC GGTGCCAGGA TATCAACAGC CAGTCCCTCC ACAAGGTTAC
TTTCCTTCCT TGGGGTTTCC TTCGAAGGGC TCTCCTGTAT CTCTCAACTC TGACACTTCT
TCTCTTGCAC CTAATTTCAT AGGTTCATTA AGAGCCCCGC CAACATCTGG AGCTCCCCCT
CCAGCCTCTG GAGCATCTCA TCCTTCTGGC CACTTGGCAT ACAGTCAGTT TGAACATGGA
GATGTGCAGA ATGGAATTCC AGCCTCAACA GCTCCAATGC AGAGGCCACC TGCTTCTCAG
CCGTTCCTGC CAGGCTCAGC ACCCACGCCT GTCAGCCAGA TACCTACGTT CCAGCAATAT
GGGGCCCCCC CAGCCAGCGT GCAGCAGCTC AGGAATCACA TGGCAGGGAT GACAATTGGT
GGTACTGCAG CCTCTGCTCC TCCCCCAGCT GGACTGGGCT ATGCATCGGT TCCTCCAGTC
TCAGGAAGCT TTAGTGCAAC AGGATCTGGT CTCTACACAC CTTACAGTGC AAGCCAAGGA
CCCCCTCTTA CCAGTGTGTC TCAGGGTCTT CCTTTGGCAC AGCCTCCGTT TCCTGGTCAG
ACAATATCAA CTCAGCACCT GCCTACTCAA GTTCCTGGTT TTACCCCACC TCCTCCTTCT
ACAGGGGTTG GACCTTCCTC TTACCCTCCT ACCACAGGTG CTCCAAGGCC ACCTGCCATG
CCAGGCCCAC CACTGCCTGG GCAGACAGTT GCTGGACCAC CATCATCCCA GCCTAATCAT
GTATCCTCAC CACCACCTCC ATCAACTATG GCAGGGCTGC ACCCTGGGCC TCCCATGAGT
GGTCTCCATG GACCACCTCC TCCCACTCAT CCTCCTCAGC CAGGATACCA AATGCAGCAG
AATGGTTCCT TTGGACAGAT GAGGGGTCCT CCACCAAACT ATGGAGGAGC CTATCCAGGA
GCACCAAATT ATGGAAGTCC TCCTGGACCA CCACCTCCAC CAAAACGCTT GGATCCAGAT
TCCATTCCTA GCCCTCAACT TAATGAGCTG CCACCCCAGC AGAAACCCAG GCACAGAATA
GACCCAGATG CAATTCCTAG TCCAATTCAA GTGATTGAAG ATGACAGAAA TAACCGTGGG
TCAGAACCAT TTGTCACTGG AGTGAGAGGG CAGGTCCCAC CTCTTGTTAC TACAAATTTC
TTGGTCAAGG ATCAAGGTAA TGCAAGCCCC CGCTACATCA GGTGCACATC TTACAATATT
CCCTGCACGT CTGACATGGC CAAACAATCC CAAGTTCCCC TGGCTGCCGT CATAAAGCCG
CTGGCTGCTC TGCCGCCGGA GGAGACTGTT CCTTATTTGG TAGACCATGG AGAATCCGGT
CCTGTCCGAT GTAATAGGTG CAAAGCTTAC ATGTGCCCTT TTATGCAATT CATTGAAGGT
GGAAGGAGGT TCCAGTGTTG TTTCTGCAGC TGTGTCACTG AGGTTCCACC TCACTACTTC
CAACATTTGG ATCACACTGG AAAGCGAGTA GATTTCTATG ACCGACCAGA GTTATCACTG
GGGTCATACG AGTTTCTAGC AACAGTTGAC TATTGCAAGA ATAACAAGTT TCCTAGTCCA
CCTGCTTTCA TTTTTATGAT TGATGTGTCT TACAATGCTG TGAAGAGTGG CTTAGTGAGG
CTAATATGTG AAGAATTAAA GTCACTCCTA GATTACCTGC CCAGGGAAGG GAACATGGAG
GAATCAGCCA TTCGAGTAGG CTTTGTCACC TACAACAAAG TTCTGCATTT CTATAATGTG
AAGAGCTCAC TGGCACAGCC GCAAATGATG GTGGTCTCAG ATGTGGCAGA TATGTTTGTG
CCACTCCTTG ATGGTTTTCT GGTGAATGTG AATGAGTCCA GGACAGTTAT TGCCAGTTTA
CTGGATCAGA TTCCAGAAAT GTTTGCAGAC ACAAGAGAAA CAGAAACTGT TTTTGCACCT
GTGATTCAAG CAGGGCTGGA GGCACTGAAG GCAGCAGAGT GTGCTGGCAA GCTCTTCATT
TTCCACACCT CTCTGCCCAT TGCAGAGGCT CCAGGAAAGT TAAAGAACAG GGATGATAGG
AAACTGATCA ACACAGATAA GGAGAAGACT TTGTTTCAAC CACAGACGAG CTTTTACAAC
AACTTGGCCA AGGACTGTGT GGCGCAGGGC TGTTGTGTGG ATCTGTTCCT GTTTCCAAAC
CAGTATTTGG ATGTGGCCAC GCTGGGTGTG GTACCTTACC AGACAGGAGG CTCCATTTTT
AAGTATGCGT ATTTCCAGCT GGAGACAGAC CAGTACAGAT TCCTGAATGA CTTGAGGAGG
GATGTCCAGA AAGAAGTGGG ATTTGATGCT GTAATGAGAG TGCGCACAAG CACAGGTATT
AGAGCAACAG ACTTTTTTGG AGCTTTCTAT ATGAGCAACA CAACTGATGT AGAGATGGCA
GGTCTGGACT GTGATAAAAC AATCACAGTG GAATTCAAGC ATGATGATAA ATTGAGTGAA
GATAGTGGTG CACTGCTTCA GTGTGCTCTG CTGTATACAA GTTGTGCAGG ACAGCGACGA
CTCCGCATTC ACAATCTCTC CTTAAACTGC TGCACGCAGC TTGCTGACCT CTATCGGAAC
TGTGAGACTG ACACCCTCAT CAACTACTTG GCTAAGTATG CATATCGTGG AGTCTTGAGT
AGTCCAGTGA AGACTGTACG AGATGCACTC ATCAACCAGT GTGCCCAGAT CCTAGCCTGC
TATCGGAAGA ACTGTGCTAG TCCCTCTTCT GCTGGCCAGC TCATCCTCCC CGAATGCATG
AAGCTGCTTC CTGTGTACTT GAACTGTGTG TTGAAGAGTG ACGTGCTTCA GCCCGGCCCA
GAGGTCACAA CAGACGACCG TGCCTACGTC CGTCAGTTAG TGACGTCCAT GGATGTGGCT
GAAACAAACG TTTTCTTTTA TCCCAGGCTT TTGCCTCTGA CCAAAGCAGA TGTTGACAGT
GATTCCTTGC CAGCAGCCAT TCGGAACTCT GAGGAGCGTC TCTCCAAGGG TGACATCTAC
CTGCTGGAGA ATGGGCTGAA CATCTTTGTG TGGGTGGGAA TCAACGTGCA GCAAGGCCTG
ATCCAGAACC TCTTTGGAGT GTCATCCTTC AATCAAATTA GCAATGCCTT GAGTACCCTG
CCAGTCTTGG AAAACCCCTT TTCAAAGAAA GTGCGATCTA TTGTTGATAT GCTTCAAGGA
CAGAGATCCC GCTACATGAA GTTGATAATT GTGAAGCAAG AAGATAAGCT GGAAATGCTG
TTCAAACACT TTCTAGTGGA GGACAAGAGC CTGAGTGGGG GGGCTTCCTA TGTGGACTTC
CTGTGTCACA TGCACAAGGA GATTCGGCAG CTACTGAGCT AGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030132724.1 CDS 50..3571 Translation
Target ORF information:
RefSeq Version XM_030276864.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata SEC24 homolog C, COPII coat complex component (SEC24C), transcript variant X2, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030276864.1
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
3481ATGAGTGTAA ACCAGCAAGC TCACACGGGG CCTCCTTATG GGCAACCTCA GCCTGGATAT
CAGGGATACC AGCAGCCTGC CTACGGAGGA CAGTCATTGC CAGGGGTTCC TCAGGCGCAG
TATGGAGCTT ATAATGGGCC GGTGCCAGGA TATCAACAGC CAGTCCCTCC ACAAGGTTAC
TTTCCTTCCT TGGGGTTTCC TTCGAAGGGC TCTCCTGTAT CTCTCAACTC TGACACTTCT
TCTCTTGCAC CTAATTTCAT AGGTTCATTA AGAGCCCCGC CAACATCTGG AGCTCCCCCT
CCAGCCTCTG GAGCATCTCA TCCTTCTGGC CACTTGGCAT ACAGTCAGTT TGAACATGGA
GATGTGCAGA ATGGAATTCC AGCCTCAACA GCTCCAATGC AGAGGCCACC TGCTTCTCAG
CCGTTCCTGC CAGGCTCAGC ACCCACGCCT GTCAGCCAGA TACCTACGTT CCAGCAATAT
GGGGCCCCCC CAGCCAGCGT GCAGCAGCTC AGGAATCACA TGGCAGGGAT GACAATTGGT
GGTACTGCAG CCTCTGCTCC TCCCCCAGCT GGACTGGGCT ATGCATCGGT TCCTCCAGTC
TCAGGAAGCT TTAGTGCAAC AGGATCTGGT CTCTACACAC CTTACAGTGC AAGCCAAGGA
CCCCCTCTTA CCAGTGTGTC TCAGGGTCTT CCTTTGGCAC AGCCTCCGTT TCCTGGTCAG
ACAATATCAA CTCAGCACCT GCCTACTCAA GTTCCTGGTT TTACCCCACC TCCTCCTTCT
ACAGGGGTTG GACCTTCCTC TTACCCTCCT ACCACAGGTG CTCCAAGGCC ACCTGCCATG
CCAGGCCCAC CACTGCCTGG GCAGACAGTT GCTGGACCAC CATCATCCCA GCCTAATCAT
GTATCCTCAC CACCACCTCC ATCAACTATG GCAGGGCTGC ACCCTGGGCC TCCCATGAGT
GGTCTCCATG GACCACCTCC TCCCACTCAT CCTCCTCAGC CAGGATACCA AATGCAGCAG
AATGGTTCCT TTGGACAGAT GAGGGGTCCT CCACCAAACT ATGGAGGAGC CTATCCAGGA
GCACCAAATT ATGGAAGTCC TCCTGGACCA CCACCTCCAC CAAAACGCTT GGATCCAGAT
TCCATTCCTA GCCCTCAACT TAATGAGCTG CCACCCCAGC AGAAACCCAG GCACAGAATA
GACCCAGATG CAATTCCTAG TCCAATTCAA GTGATTGAAG ATGACAGAAA TAACCGTGGG
TCAGAACCAT TTGTCACTGG AGTGAGAGGG CAGGTCCCAC CTCTTGTTAC TACAAATTTC
TTGGTCAAGG ATCAAGGTAA TGCAAGCCCC CGCTACATCA GGTGCACATC TTACAATATT
CCCTGCACGT CTGACATGGC CAAACAATCC CAAGTTCCCC TGGCTGCCGT CATAAAGCCG
CTGGCTGCTC TGCCGCCGGA GGAGACTGTT CCTTATTTGG TAGACCATGG AGAATCCGGT
CCTGTCCGAT GTAATAGGTG CAAAGCTTAC ATGTGCCCTT TTATGCAATT CATTGAAGGT
GGAAGGAGGT TCCAGTGTTG TTTCTGCAGC TGTGTCACTG AGGTTCCACC TCACTACTTC
CAACATTTGG ATCACACTGG AAAGCGAGTA GATTTCTATG ACCGACCAGA GTTATCACTG
GGGTCATACG AGTTTCTAGC AACAGTTGAC TATTGCAAGA ATAACAAGTT TCCTAGTCCA
CCTGCTTTCA TTTTTATGAT TGATGTGTCT TACAATGCTG TGAAGAGTGG CTTAGTGAGG
CTAATATGTG AAGAATTAAA GTCACTCCTA GATTACCTGC CCAGGGAAGG GAACATGGAG
GAATCAGCCA TTCGAGTAGG CTTTGTCACC TACAACAAAG TTCTGCATTT CTATAATGTG
AAGAGCTCAC TGGCACAGCC GCAAATGATG GTGGTCTCAG ATGTGGCAGA TATGTTTGTG
CCACTCCTTG ATGGTTTTCT GGTGAATGTG AATGAGTCCA GGACAGTTAT TGCCAGTTTA
CTGGATCAGA TTCCAGAAAT GTTTGCAGAC ACAAGAGAAA CAGAAACTGT TTTTGCACCT
GTGATTCAAG CAGGGCTGGA GGCACTGAAG GCAGCAGAGT GTGCTGGCAA GCTCTTCATT
TTCCACACCT CTCTGCCCAT TGCAGAGGCT CCAGGAAAGT TAAAGAACAG GGATGATAGG
AAACTGATCA ACACAGATAA GGAGAAGACT TTGTTTCAAC CACAGACGAG CTTTTACAAC
AACTTGGCCA AGGACTGTGT GGCGCAGGGC TGTTGTGTGG ATCTGTTCCT GTTTCCAAAC
CAGTATTTGG ATGTGGCCAC GCTGGGTGTG GTACCTTACC AGACAGGAGG CTCCATTTTT
AAGTATGCGT ATTTCCAGCT GGAGACAGAC CAGTACAGAT TCCTGAATGA CTTGAGGAGG
GATGTCCAGA AAGAAGTGGG ATTTGATGCT GTAATGAGAG TGCGCACAAG CACAGGTATT
AGAGCAACAG ACTTTTTTGG AGCTTTCTAT ATGAGCAACA CAACTGATGT AGAGATGGCA
GGTCTGGACT GTGATAAAAC AATCACAGTG GAATTCAAGC ATGATGATAA ATTGAGTGAA
GATAGTGGTG CACTGCTTCA GTGTGCTCTG CTGTATACAA GTTGTGCAGG ACAGCGACGA
CTCCGCATTC ACAATCTCTC CTTAAACTGC TGCACGCAGC TTGCTGACCT CTATCGGAAC
TGTGAGACTG ACACCCTCAT CAACTACTTG GCTAAGTATG CATATCGTGG AGTCTTGAGT
AGTCCAGTGA AGACTGTACG AGATGCACTC ATCAACCAGT GTGCCCAGAT CCTAGCCTGC
TATCGGAAGA ACTGTGCTAG TCCCTCTTCT GCTGGCCAGC TCATCCTCCC CGAATGCATG
AAGCTGCTTC CTGTGTACTT GAACTGTGTG TTGAAGAGTG ACGTGCTTCA GCCCGGCCCA
GAGGTCACAA CAGACGACCG TGCCTACGTC CGTCAGTTAG TGACGTCCAT GGATGTGGCT
GAAACAAACG TTTTCTTTTA TCCCAGGCTT TTGCCTCTGA CCAAAGCAGA TGTTGACAGT
GATTCCTTGC CAGCAGCCAT TCGGAACTCT GAGGAGCGTC TCTCCAAGGG TGACATCTAC
CTGCTGGAGA ATGGGCTGAA CATCTTTGTG TGGGTGGGAA TCAACGTGCA GCAAGGCCTG
ATCCAGAACC TCTTTGGAGT GTCATCCTTC AATCAAATTA GCAATGCCTT GAGTACCCTG
CCAGTCTTGG AAAACCCCTT TTCAAAGAAA GTGCGATCTA TTGTTGATAT GCTTCAAGGA
CAGAGATCCC GCTACATGAA GTTGATAATT GTGAAGCAAG AAGATAAGCT GGAAATGCTG
TTCAAACACT TTCTAGTGGA GGACAAGAGC CTGAGTGGGG GGGCTTCCTA TGTGGACTTC
CTGTGTCACA TGCACAAGGA GATTCGGCAG CTACTGAGCT AGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd49164 Clone ID Related Accession (Same CDS sequence) XM_030276865.1 Accession Version XM_030276865.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3453bp)
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 protein transport protein Sec24C isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044218.1) 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
3421ATGAGTGTAA ACCAGCAAGC TCACACGGGG CCTCCTTATG GGCAACCTCA GCCTGGATAT
CAGGGATACC AGCAGCCTGC CTACGGAGGA CAGTCATTGC CAGGGGTTCC TCAGGCGCAG
TATGGAGCTT ATAATGGGCC GGTGCCAGGA TATCAACAGC CAGTCCCTCC ACAAGGTTAC
TTTCCTTCCT TGGGGTTTCC TTCGAAGGGC TCTCCTGTAT CTCTCAACTC TGACACTTCT
TCTCTTGCAC CTAATTTCAT AGGTTCATTA AGAGCCCCGC CAACATCTGG AGCTCCCCCT
CCAGCCTCTG GAGCATCTCA TCCTTCTGGC CACTTGGCAT ACAGTCAGTT TGAACATGGA
GATGTGCAGA ATGGAATTCC AGCCTCAACA GCTCCAATGC AGAGGCCACC TGCTTCTCAG
CCGTTCCTGC CAGGCTCAGC ACCCACGCCT GTCAGCCAGA TACCTACGTT CCAGCAATAT
GGGGCCCCCC CAGCCAGCGT GCAGCAGCTC AGGAATCACA TGGCAGGGAT GACAATTGGT
GGTACTGCAG CCTCTGCTCC TCCCCCAGCT GGACTGGGCT ATGCATCGGT TCCTCCAGTC
TCAGGAAGCT TTAGTGCAAC AGGATCTGGT CTCTACACAC CTTACAGTGC AAGCCAAGGA
CCCCCTCTTA CCAGTGTGTC TCAGGGTCTT CCTTTGGCAC AGCCTCCGTT TCCTGGTCAG
ACAATATCAA CTCAGCACCT GCCTACTCAA GTTCCTGGTT TTACCCCACC TCCTCCTTCT
ACAGGGGTTG GACCTTCCTC TTACCCTCCT ACCACAGGTG CTCCAAGGCC ACCTGCCATG
CCAGGCCCAC CACTGCCTGG GCAGACAGTT GCTGGACCAC CATCATCCCA GCCTAATCAT
GTATCCTCAC CACCACCTCC ATCAACTATG GCAGGGCTGC ACCCTGGGCC TCCCATGAGT
GGTCTCCATG GACCACCTCC TCCCACTCAT CCTCCTCAGC CAGGATACCA AATGCAGCAG
AATGGTTCCT TTGGACAGAT GAGGGGTCCT CCACCAAACT ATGGAGGAGC CTATCCAGGA
GCACCAAATT ATGGAAGTCC TCCTGGACCA CCACCTCCAC CAAAACGCTT GGATCCAGAT
TCCATTCCTA GCCCTATTCA AGTGATTGAA GATGACAGAA ATAACCGTGG GTCAGAACCA
TTTGTCACTG GAGTGAGAGG GCAGGTCCCA CCTCTTGTTA CTACAAATTT CTTGGTCAAG
GATCAAGGTA ATGCAAGCCC CCGCTACATC AGGTGCACAT CTTACAATAT TCCCTGCACG
TCTGACATGG CCAAACAATC CCAAGTTCCC CTGGCTGCCG TCATAAAGCC GCTGGCTGCT
CTGCCGCCGG AGGAGACTGT TCCTTATTTG GTAGACCATG GAGAATCCGG TCCTGTCCGA
TGTAATAGGT GCAAAGCTTA CATGTGCCCT TTTATGCAAT TCATTGAAGG TGGAAGGAGG
TTCCAGTGTT GTTTCTGCAG CTGTGTCACT GAGGTTCCAC CTCACTACTT CCAACATTTG
GATCACACTG GAAAGCGAGT AGATTTCTAT GACCGACCAG AGTTATCACT GGGGTCATAC
GAGTTTCTAG CAACAGTTGA CTATTGCAAG AATAACAAGT TTCCTAGTCC ACCTGCTTTC
ATTTTTATGA TTGATGTGTC TTACAATGCT GTGAAGAGTG GCTTAGTGAG GCTAATATGT
GAAGAATTAA AGTCACTCCT AGATTACCTG CCCAGGGAAG GGAACATGGA GGAATCAGCC
ATTCGAGTAG GCTTTGTCAC CTACAACAAA GTTCTGCATT TCTATAATGT GAAGAGCTCA
CTGGCACAGC CGCAAATGAT GGTGGTCTCA GATGTGGCAG ATATGTTTGT GCCACTCCTT
GATGGTTTTC TGGTGAATGT GAATGAGTCC AGGACAGTTA TTGCCAGTTT ACTGGATCAG
ATTCCAGAAA TGTTTGCAGA CACAAGAGAA ACAGAAACTG TTTTTGCACC TGTGATTCAA
GCAGGGCTGG AGGCACTGAA GGCAGCAGAG TGTGCTGGCA AGCTCTTCAT TTTCCACACC
TCTCTGCCCA TTGCAGAGGC TCCAGGAAAG TTAAAGAACA GGGATGATAG GAAACTGATC
AACACAGATA AGGAGAAGAC TTTGTTTCAA CCACAGACGA GCTTTTACAA CAACTTGGCC
AAGGACTGTG TGGCGCAGGG CTGTTGTGTG GATCTGTTCC TGTTTCCAAA CCAGTATTTG
GATGTGGCCA CGCTGGGTGT GGTACCTTAC CAGACAGGAG GCTCCATTTT TAAGTATGCG
TATTTCCAGC TGGAGACAGA CCAGTACAGA TTCCTGAATG ACTTGAGGAG GGATGTCCAG
AAAGAAGTGG GATTTGATGC TGTAATGAGA GTGCGCACAA GCACAGGTAT TAGAGCAACA
GACTTTTTTG GAGCTTTCTA TATGAGCAAC ACAACTGATG TAGAGATGGC AGGTCTGGAC
TGTGATAAAA CAATCACAGT GGAATTCAAG CATGATGATA AATTGAGTGA AGATAGTGGT
GCACTGCTTC AGTGTGCTCT GCTGTATACA AGTTGTGCAG GACAGCGACG ACTCCGCATT
CACAATCTCT CCTTAAACTG CTGCACGCAG CTTGCTGACC TCTATCGGAA CTGTGAGACT
GACACCCTCA TCAACTACTT GGCTAAGTAT GCATATCGTG GAGTCTTGAG TAGTCCAGTG
AAGACTGTAC GAGATGCACT CATCAACCAG TGTGCCCAGA TCCTAGCCTG CTATCGGAAG
AACTGTGCTA GTCCCTCTTC TGCTGGCCAG CTCATCCTCC CCGAATGCAT GAAGCTGCTT
CCTGTGTACT TGAACTGTGT GTTGAAGAGT GACGTGCTTC AGCCCGGCCC AGAGGTCACA
ACAGACGACC GTGCCTACGT CCGTCAGTTA GTGACGTCCA TGGATGTGGC TGAAACAAAC
GTTTTCTTTT ATCCCAGGCT TTTGCCTCTG ACCAAAGCAG ATGTTGACAG TGATTCCTTG
CCAGCAGCCA TTCGGAACTC TGAGGAGCGT CTCTCCAAGG GTGACATCTA CCTGCTGGAG
AATGGGCTGA ACATCTTTGT GTGGGTGGGA ATCAACGTGC AGCAAGGCCT GATCCAGAAC
CTCTTTGGAG TGTCATCCTT CAATCAAATT AGCAATGCCT TGAGTACCCT GCCAGTCTTG
GAAAACCCCT TTTCAAAGAA AGTGCGATCT ATTGTTGATA TGCTTCAAGG ACAGAGATCC
CGCTACATGA AGTTGATAAT TGTGAAGCAA GAAGATAAGC TGGAAATGCT GTTCAAACAC
TTTCTAGTGG AGGACAAGAG CCTGAGTGGG GGGGCTTCCT ATGTGGACTT CCTGTGTCAC
ATGCACAAGG AGATTCGGCA GCTACTGAGC TAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030132725.1 CDS 85..3537 Translation
Target ORF information:
RefSeq Version XM_030276865.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata SEC24 homolog C, COPII coat complex component (SEC24C), transcript variant X3, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030276865.1
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
3421ATGAGTGTAA ACCAGCAAGC TCACACGGGG CCTCCTTATG GGCAACCTCA GCCTGGATAT
CAGGGATACC AGCAGCCTGC CTACGGAGGA CAGTCATTGC CAGGGGTTCC TCAGGCGCAG
TATGGAGCTT ATAATGGGCC GGTGCCAGGA TATCAACAGC CAGTCCCTCC ACAAGGTTAC
TTTCCTTCCT TGGGGTTTCC TTCGAAGGGC TCTCCTGTAT CTCTCAACTC TGACACTTCT
TCTCTTGCAC CTAATTTCAT AGGTTCATTA AGAGCCCCGC CAACATCTGG AGCTCCCCCT
CCAGCCTCTG GAGCATCTCA TCCTTCTGGC CACTTGGCAT ACAGTCAGTT TGAACATGGA
GATGTGCAGA ATGGAATTCC AGCCTCAACA GCTCCAATGC AGAGGCCACC TGCTTCTCAG
CCGTTCCTGC CAGGCTCAGC ACCCACGCCT GTCAGCCAGA TACCTACGTT CCAGCAATAT
GGGGCCCCCC CAGCCAGCGT GCAGCAGCTC AGGAATCACA TGGCAGGGAT GACAATTGGT
GGTACTGCAG CCTCTGCTCC TCCCCCAGCT GGACTGGGCT ATGCATCGGT TCCTCCAGTC
TCAGGAAGCT TTAGTGCAAC AGGATCTGGT CTCTACACAC CTTACAGTGC AAGCCAAGGA
CCCCCTCTTA CCAGTGTGTC TCAGGGTCTT CCTTTGGCAC AGCCTCCGTT TCCTGGTCAG
ACAATATCAA CTCAGCACCT GCCTACTCAA GTTCCTGGTT TTACCCCACC TCCTCCTTCT
ACAGGGGTTG GACCTTCCTC TTACCCTCCT ACCACAGGTG CTCCAAGGCC ACCTGCCATG
CCAGGCCCAC CACTGCCTGG GCAGACAGTT GCTGGACCAC CATCATCCCA GCCTAATCAT
GTATCCTCAC CACCACCTCC ATCAACTATG GCAGGGCTGC ACCCTGGGCC TCCCATGAGT
GGTCTCCATG GACCACCTCC TCCCACTCAT CCTCCTCAGC CAGGATACCA AATGCAGCAG
AATGGTTCCT TTGGACAGAT GAGGGGTCCT CCACCAAACT ATGGAGGAGC CTATCCAGGA
GCACCAAATT ATGGAAGTCC TCCTGGACCA CCACCTCCAC CAAAACGCTT GGATCCAGAT
TCCATTCCTA GCCCTATTCA AGTGATTGAA GATGACAGAA ATAACCGTGG GTCAGAACCA
TTTGTCACTG GAGTGAGAGG GCAGGTCCCA CCTCTTGTTA CTACAAATTT CTTGGTCAAG
GATCAAGGTA ATGCAAGCCC CCGCTACATC AGGTGCACAT CTTACAATAT TCCCTGCACG
TCTGACATGG CCAAACAATC CCAAGTTCCC CTGGCTGCCG TCATAAAGCC GCTGGCTGCT
CTGCCGCCGG AGGAGACTGT TCCTTATTTG GTAGACCATG GAGAATCCGG TCCTGTCCGA
TGTAATAGGT GCAAAGCTTA CATGTGCCCT TTTATGCAAT TCATTGAAGG TGGAAGGAGG
TTCCAGTGTT GTTTCTGCAG CTGTGTCACT GAGGTTCCAC CTCACTACTT CCAACATTTG
GATCACACTG GAAAGCGAGT AGATTTCTAT GACCGACCAG AGTTATCACT GGGGTCATAC
GAGTTTCTAG CAACAGTTGA CTATTGCAAG AATAACAAGT TTCCTAGTCC ACCTGCTTTC
ATTTTTATGA TTGATGTGTC TTACAATGCT GTGAAGAGTG GCTTAGTGAG GCTAATATGT
GAAGAATTAA AGTCACTCCT AGATTACCTG CCCAGGGAAG GGAACATGGA GGAATCAGCC
ATTCGAGTAG GCTTTGTCAC CTACAACAAA GTTCTGCATT TCTATAATGT GAAGAGCTCA
CTGGCACAGC CGCAAATGAT GGTGGTCTCA GATGTGGCAG ATATGTTTGT GCCACTCCTT
GATGGTTTTC TGGTGAATGT GAATGAGTCC AGGACAGTTA TTGCCAGTTT ACTGGATCAG
ATTCCAGAAA TGTTTGCAGA CACAAGAGAA ACAGAAACTG TTTTTGCACC TGTGATTCAA
GCAGGGCTGG AGGCACTGAA GGCAGCAGAG TGTGCTGGCA AGCTCTTCAT TTTCCACACC
TCTCTGCCCA TTGCAGAGGC TCCAGGAAAG TTAAAGAACA GGGATGATAG GAAACTGATC
AACACAGATA AGGAGAAGAC TTTGTTTCAA CCACAGACGA GCTTTTACAA CAACTTGGCC
AAGGACTGTG TGGCGCAGGG CTGTTGTGTG GATCTGTTCC TGTTTCCAAA CCAGTATTTG
GATGTGGCCA CGCTGGGTGT GGTACCTTAC CAGACAGGAG GCTCCATTTT TAAGTATGCG
TATTTCCAGC TGGAGACAGA CCAGTACAGA TTCCTGAATG ACTTGAGGAG GGATGTCCAG
AAAGAAGTGG GATTTGATGC TGTAATGAGA GTGCGCACAA GCACAGGTAT TAGAGCAACA
GACTTTTTTG GAGCTTTCTA TATGAGCAAC ACAACTGATG TAGAGATGGC AGGTCTGGAC
TGTGATAAAA CAATCACAGT GGAATTCAAG CATGATGATA AATTGAGTGA AGATAGTGGT
GCACTGCTTC AGTGTGCTCT GCTGTATACA AGTTGTGCAG GACAGCGACG ACTCCGCATT
CACAATCTCT CCTTAAACTG CTGCACGCAG CTTGCTGACC TCTATCGGAA CTGTGAGACT
GACACCCTCA TCAACTACTT GGCTAAGTAT GCATATCGTG GAGTCTTGAG TAGTCCAGTG
AAGACTGTAC GAGATGCACT CATCAACCAG TGTGCCCAGA TCCTAGCCTG CTATCGGAAG
AACTGTGCTA GTCCCTCTTC TGCTGGCCAG CTCATCCTCC CCGAATGCAT GAAGCTGCTT
CCTGTGTACT TGAACTGTGT GTTGAAGAGT GACGTGCTTC AGCCCGGCCC AGAGGTCACA
ACAGACGACC GTGCCTACGT CCGTCAGTTA GTGACGTCCA TGGATGTGGC TGAAACAAAC
GTTTTCTTTT ATCCCAGGCT TTTGCCTCTG ACCAAAGCAG ATGTTGACAG TGATTCCTTG
CCAGCAGCCA TTCGGAACTC TGAGGAGCGT CTCTCCAAGG GTGACATCTA CCTGCTGGAG
AATGGGCTGA ACATCTTTGT GTGGGTGGGA ATCAACGTGC AGCAAGGCCT GATCCAGAAC
CTCTTTGGAG TGTCATCCTT CAATCAAATT AGCAATGCCT TGAGTACCCT GCCAGTCTTG
GAAAACCCCT TTTCAAAGAA AGTGCGATCT ATTGTTGATA TGCTTCAAGG ACAGAGATCC
CGCTACATGA AGTTGATAAT TGTGAAGCAA GAAGATAAGC TGGAAATGCT GTTCAAACAC
TTTCTAGTGG AGGACAAGAG CCTGAGTGGG GGGGCTTCCT ATGTGGACTT CCTGTGTCAC
ATGCACAAGG AGATTCGGCA GCTACTGAGC TAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd49165 Clone ID Related Accession (Same CDS sequence) XM_030276866.1 Accession Version XM_030276866.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3435bp)
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 protein transport protein Sec24C isoform X3 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044218.1) 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
3421ATGAGTGTAA ACCAGCAAGC TCACACGGGG CCTCCTTATG GGCAACCTCA GCCTGGATAT
CAGGGATACC AGCAGCCTGC CTACGGAGGA CAGTCATTGC CAGGGGTTCC TCAGGCGCAG
TATGGAGCTT ATAATGGGCC GGTGCCAGGA TATCAACAGC CAGTCCCTCC ACAAGGTTCA
TTAAGAGCCC CGCCAACATC TGGAGCTCCC CCTCCAGCCT CTGGAGCATC TCATCCTTCT
GGCCACTTGG CATACAGTCA GTTTGAACAT GGAGATGTGC AGAATGGAAT TCCAGCCTCA
ACAGCTCCAA TGCAGAGGCC ACCTGCTTCT CAGCCGTTCC TGCCAGGCTC AGCACCCACG
CCTGTCAGCC AGATACCTAC GTTCCAGCAA TATGGGGCCC CCCCAGCCAG CGTGCAGCAG
CTCAGGAATC ACATGGCAGG GATGACAATT GGTGGTACTG CAGCCTCTGC TCCTCCCCCA
GCTGGACTGG GCTATGCATC GGTTCCTCCA GTCTCAGGAA GCTTTAGTGC AACAGGATCT
GGTCTCTACA CACCTTACAG TGCAAGCCAA GGACCCCCTC TTACCAGTGT GTCTCAGGGT
CTTCCTTTGG CACAGCCTCC GTTTCCTGGT CAGACAATAT CAACTCAGCA CCTGCCTACT
CAAGTTCCTG GTTTTACCCC ACCTCCTCCT TCTACAGGGG TTGGACCTTC CTCTTACCCT
CCTACCACAG GTGCTCCAAG GCCACCTGCC ATGCCAGGCC CACCACTGCC TGGGCAGACA
GTTGCTGGAC CACCATCATC CCAGCCTAAT CATGTATCCT CACCACCACC TCCATCAACT
ATGGCAGGGC TGCACCCTGG GCCTCCCATG AGTGGTCTCC ATGGACCACC TCCTCCCACT
CATCCTCCTC AGCCAGGATA CCAAATGCAG CAGAATGGTT CCTTTGGACA GATGAGGGGT
CCTCCACCAA ACTATGGAGG AGCCTATCCA GGAGCACCAA ATTATGGAAG TCCTCCTGGA
CCACCACCTC CACCAAAACG CTTGGATCCA GATTCCATTC CTAGCCCTCA ACTTAATGAG
CTGCCACCCC AGCAGAAACC CAGGCACAGA ATAGACCCAG ATGCAATTCC TAGTCCAATT
CAAGTGATTG AAGATGACAG AAATAACCGT GGGTCAGAAC CATTTGTCAC TGGAGTGAGA
GGGCAGGTCC CACCTCTTGT TACTACAAAT TTCTTGGTCA AGGATCAAGG TAATGCAAGC
CCCCGCTACA TCAGGTGCAC ATCTTACAAT ATTCCCTGCA CGTCTGACAT GGCCAAACAA
TCCCAAGTTC CCCTGGCTGC CGTCATAAAG CCGCTGGCTG CTCTGCCGCC GGAGGAGACT
GTTCCTTATT TGGTAGACCA TGGAGAATCC GGTCCTGTCC GATGTAATAG GTGCAAAGCT
TACATGTGCC CTTTTATGCA ATTCATTGAA GGTGGAAGGA GGTTCCAGTG TTGTTTCTGC
AGCTGTGTCA CTGAGGTTCC ACCTCACTAC TTCCAACATT TGGATCACAC TGGAAAGCGA
GTAGATTTCT ATGACCGACC AGAGTTATCA CTGGGGTCAT ACGAGTTTCT AGCAACAGTT
GACTATTGCA AGAATAACAA GTTTCCTAGT CCACCTGCTT TCATTTTTAT GATTGATGTG
TCTTACAATG CTGTGAAGAG TGGCTTAGTG AGGCTAATAT GTGAAGAATT AAAGTCACTC
CTAGATTACC TGCCCAGGGA AGGGAACATG GAGGAATCAG CCATTCGAGT AGGCTTTGTC
ACCTACAACA AAGTTCTGCA TTTCTATAAT GTGAAGAGCT CACTGGCACA GCCGCAAATG
ATGGTGGTCT CAGATGTGGC AGATATGTTT GTGCCACTCC TTGATGGTTT TCTGGTGAAT
GTGAATGAGT CCAGGACAGT TATTGCCAGT TTACTGGATC AGATTCCAGA AATGTTTGCA
GACACAAGAG AAACAGAAAC TGTTTTTGCA CCTGTGATTC AAGCAGGGCT GGAGGCACTG
AAGGCAGCAG AGTGTGCTGG CAAGCTCTTC ATTTTCCACA CCTCTCTGCC CATTGCAGAG
GCTCCAGGAA AGTTAAAGAA CAGGGATGAT AGGAAACTGA TCAACACAGA TAAGGAGAAG
ACTTTGTTTC AACCACAGAC GAGCTTTTAC AACAACTTGG CCAAGGACTG TGTGGCGCAG
GGCTGTTGTG TGGATCTGTT CCTGTTTCCA AACCAGTATT TGGATGTGGC CACGCTGGGT
GTGGTACCTT ACCAGACAGG AGGCTCCATT TTTAAGTATG CGTATTTCCA GCTGGAGACA
GACCAGTACA GATTCCTGAA TGACTTGAGG AGGGATGTCC AGAAAGAAGT GGGATTTGAT
GCTGTAATGA GAGTGCGCAC AAGCACAGGT ATTAGAGCAA CAGACTTTTT TGGAGCTTTC
TATATGAGCA ACACAACTGA TGTAGAGATG GCAGGTCTGG ACTGTGATAA AACAATCACA
GTGGAATTCA AGCATGATGA TAAATTGAGT GAAGATAGTG GTGCACTGCT TCAGTGTGCT
CTGCTGTATA CAAGTTGTGC AGGACAGCGA CGACTCCGCA TTCACAATCT CTCCTTAAAC
TGCTGCACGC AGCTTGCTGA CCTCTATCGG AACTGTGAGA CTGACACCCT CATCAACTAC
TTGGCTAAGT ATGCATATCG TGGAGTCTTG AGTAGTCCAG TGAAGACTGT ACGAGATGCA
CTCATCAACC AGTGTGCCCA GATCCTAGCC TGCTATCGGA AGAACTGTGC TAGTCCCTCT
TCTGCTGGCC AGCTCATCCT CCCCGAATGC ATGAAGCTGC TTCCTGTGTA CTTGAACTGT
GTGTTGAAGA GTGACGTGCT TCAGCCCGGC CCAGAGGTCA CAACAGACGA CCGTGCCTAC
GTCCGTCAGT TAGTGACGTC CATGGATGTG GCTGAAACAA ACGTTTTCTT TTATCCCAGG
CTTTTGCCTC TGACCAAAGC AGATGTTGAC AGTGATTCCT TGCCAGCAGC CATTCGGAAC
TCTGAGGAGC GTCTCTCCAA GGGTGACATC TACCTGCTGG AGAATGGGCT GAACATCTTT
GTGTGGGTGG GAATCAACGT GCAGCAAGGC CTGATCCAGA ACCTCTTTGG AGTGTCATCC
TTCAATCAAA TTAGCAATGC CTTGAGTACC CTGCCAGTCT TGGAAAACCC CTTTTCAAAG
AAAGTGCGAT CTATTGTTGA TATGCTTCAA GGACAGAGAT CCCGCTACAT GAAGTTGATA
ATTGTGAAGC AAGAAGATAA GCTGGAAATG CTGTTCAAAC ACTTTCTAGT GGAGGACAAG
AGCCTGAGTG GGGGGGCTTC CTATGTGGAC TTCCTGTGTC ACATGCACAA GGAGATTCGG
CAGCTACTGA GCTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030132726.1 CDS 85..3519 Translation
Target ORF information:
RefSeq Version XM_030276866.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata SEC24 homolog C, COPII coat complex component (SEC24C), transcript variant X4, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030276866.1
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
3421ATGAGTGTAA ACCAGCAAGC TCACACGGGG CCTCCTTATG GGCAACCTCA GCCTGGATAT
CAGGGATACC AGCAGCCTGC CTACGGAGGA CAGTCATTGC CAGGGGTTCC TCAGGCGCAG
TATGGAGCTT ATAATGGGCC GGTGCCAGGA TATCAACAGC CAGTCCCTCC ACAAGGTTCA
TTAAGAGCCC CGCCAACATC TGGAGCTCCC CCTCCAGCCT CTGGAGCATC TCATCCTTCT
GGCCACTTGG CATACAGTCA GTTTGAACAT GGAGATGTGC AGAATGGAAT TCCAGCCTCA
ACAGCTCCAA TGCAGAGGCC ACCTGCTTCT CAGCCGTTCC TGCCAGGCTC AGCACCCACG
CCTGTCAGCC AGATACCTAC GTTCCAGCAA TATGGGGCCC CCCCAGCCAG CGTGCAGCAG
CTCAGGAATC ACATGGCAGG GATGACAATT GGTGGTACTG CAGCCTCTGC TCCTCCCCCA
GCTGGACTGG GCTATGCATC GGTTCCTCCA GTCTCAGGAA GCTTTAGTGC AACAGGATCT
GGTCTCTACA CACCTTACAG TGCAAGCCAA GGACCCCCTC TTACCAGTGT GTCTCAGGGT
CTTCCTTTGG CACAGCCTCC GTTTCCTGGT CAGACAATAT CAACTCAGCA CCTGCCTACT
CAAGTTCCTG GTTTTACCCC ACCTCCTCCT TCTACAGGGG TTGGACCTTC CTCTTACCCT
CCTACCACAG GTGCTCCAAG GCCACCTGCC ATGCCAGGCC CACCACTGCC TGGGCAGACA
GTTGCTGGAC CACCATCATC CCAGCCTAAT CATGTATCCT CACCACCACC TCCATCAACT
ATGGCAGGGC TGCACCCTGG GCCTCCCATG AGTGGTCTCC ATGGACCACC TCCTCCCACT
CATCCTCCTC AGCCAGGATA CCAAATGCAG CAGAATGGTT CCTTTGGACA GATGAGGGGT
CCTCCACCAA ACTATGGAGG AGCCTATCCA GGAGCACCAA ATTATGGAAG TCCTCCTGGA
CCACCACCTC CACCAAAACG CTTGGATCCA GATTCCATTC CTAGCCCTCA ACTTAATGAG
CTGCCACCCC AGCAGAAACC CAGGCACAGA ATAGACCCAG ATGCAATTCC TAGTCCAATT
CAAGTGATTG AAGATGACAG AAATAACCGT GGGTCAGAAC CATTTGTCAC TGGAGTGAGA
GGGCAGGTCC CACCTCTTGT TACTACAAAT TTCTTGGTCA AGGATCAAGG TAATGCAAGC
CCCCGCTACA TCAGGTGCAC ATCTTACAAT ATTCCCTGCA CGTCTGACAT GGCCAAACAA
TCCCAAGTTC CCCTGGCTGC CGTCATAAAG CCGCTGGCTG CTCTGCCGCC GGAGGAGACT
GTTCCTTATT TGGTAGACCA TGGAGAATCC GGTCCTGTCC GATGTAATAG GTGCAAAGCT
TACATGTGCC CTTTTATGCA ATTCATTGAA GGTGGAAGGA GGTTCCAGTG TTGTTTCTGC
AGCTGTGTCA CTGAGGTTCC ACCTCACTAC TTCCAACATT TGGATCACAC TGGAAAGCGA
GTAGATTTCT ATGACCGACC AGAGTTATCA CTGGGGTCAT ACGAGTTTCT AGCAACAGTT
GACTATTGCA AGAATAACAA GTTTCCTAGT CCACCTGCTT TCATTTTTAT GATTGATGTG
TCTTACAATG CTGTGAAGAG TGGCTTAGTG AGGCTAATAT GTGAAGAATT AAAGTCACTC
CTAGATTACC TGCCCAGGGA AGGGAACATG GAGGAATCAG CCATTCGAGT AGGCTTTGTC
ACCTACAACA AAGTTCTGCA TTTCTATAAT GTGAAGAGCT CACTGGCACA GCCGCAAATG
ATGGTGGTCT CAGATGTGGC AGATATGTTT GTGCCACTCC TTGATGGTTT TCTGGTGAAT
GTGAATGAGT CCAGGACAGT TATTGCCAGT TTACTGGATC AGATTCCAGA AATGTTTGCA
GACACAAGAG AAACAGAAAC TGTTTTTGCA CCTGTGATTC AAGCAGGGCT GGAGGCACTG
AAGGCAGCAG AGTGTGCTGG CAAGCTCTTC ATTTTCCACA CCTCTCTGCC CATTGCAGAG
GCTCCAGGAA AGTTAAAGAA CAGGGATGAT AGGAAACTGA TCAACACAGA TAAGGAGAAG
ACTTTGTTTC AACCACAGAC GAGCTTTTAC AACAACTTGG CCAAGGACTG TGTGGCGCAG
GGCTGTTGTG TGGATCTGTT CCTGTTTCCA AACCAGTATT TGGATGTGGC CACGCTGGGT
GTGGTACCTT ACCAGACAGG AGGCTCCATT TTTAAGTATG CGTATTTCCA GCTGGAGACA
GACCAGTACA GATTCCTGAA TGACTTGAGG AGGGATGTCC AGAAAGAAGT GGGATTTGAT
GCTGTAATGA GAGTGCGCAC AAGCACAGGT ATTAGAGCAA CAGACTTTTT TGGAGCTTTC
TATATGAGCA ACACAACTGA TGTAGAGATG GCAGGTCTGG ACTGTGATAA AACAATCACA
GTGGAATTCA AGCATGATGA TAAATTGAGT GAAGATAGTG GTGCACTGCT TCAGTGTGCT
CTGCTGTATA CAAGTTGTGC AGGACAGCGA CGACTCCGCA TTCACAATCT CTCCTTAAAC
TGCTGCACGC AGCTTGCTGA CCTCTATCGG AACTGTGAGA CTGACACCCT CATCAACTAC
TTGGCTAAGT ATGCATATCG TGGAGTCTTG AGTAGTCCAG TGAAGACTGT ACGAGATGCA
CTCATCAACC AGTGTGCCCA GATCCTAGCC TGCTATCGGA AGAACTGTGC TAGTCCCTCT
TCTGCTGGCC AGCTCATCCT CCCCGAATGC ATGAAGCTGC TTCCTGTGTA CTTGAACTGT
GTGTTGAAGA GTGACGTGCT TCAGCCCGGC CCAGAGGTCA CAACAGACGA CCGTGCCTAC
GTCCGTCAGT TAGTGACGTC CATGGATGTG GCTGAAACAA ACGTTTTCTT TTATCCCAGG
CTTTTGCCTC TGACCAAAGC AGATGTTGAC AGTGATTCCT TGCCAGCAGC CATTCGGAAC
TCTGAGGAGC GTCTCTCCAA GGGTGACATC TACCTGCTGG AGAATGGGCT GAACATCTTT
GTGTGGGTGG GAATCAACGT GCAGCAAGGC CTGATCCAGA ACCTCTTTGG AGTGTCATCC
TTCAATCAAA TTAGCAATGC CTTGAGTACC CTGCCAGTCT TGGAAAACCC CTTTTCAAAG
AAAGTGCGAT CTATTGTTGA TATGCTTCAA GGACAGAGAT CCCGCTACAT GAAGTTGATA
ATTGTGAAGC AAGAAGATAA GCTGGAAATG CTGTTCAAAC ACTTTCTAGT GGAGGACAAG
AGCCTGAGTG GGGGGGCTTC CTATGTGGAC TTCCTGTGTC ACATGCACAA GGAGATTCGG
CAGCTACTGA GCTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd49166 Clone ID Related Accession (Same CDS sequence) XM_030276867.1 Accession Version XM_030276867.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3366bp)
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 protein transport protein Sec24C isoform X4 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044218.1) 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
3361ATGAGTGTAA ACCAGCAAGC TCACACGGGG CCTCCTTATG GGCAACCTCA GCCTGGATAT
CAGGGATACC AGCAGCCTGC CTACGGAGGA CAGTCATTGC CAGGGGTTCC TCAGGCGCAG
TATGGAGCTT ATAATGGGCC GGTGCCAGGA TATCAACAGC CAGTCCCTCC ACAAGGTTCA
TTAAGAGCCC CGCCAACATC TGGAGCTCCC CCTCCAGCCT CTGGAGCATC TCATCCTTCT
GGCCACTTGG CATACAGTCA GTTTGAACAT GGAGATGTGC AGAATGGAAT TCCAGCCTCA
ACAGCTCCAA TGCAGAGGCC ACCTGCTTCT CAGCCGTTCC TGCCAGGCTC AGCACCCACG
CCTGTCAGCC AGATACCTAC GTTCCAGCAA TATGGGGCCC CCCCAGCCAG CGTGCAGCAG
CTCAGGAATC ACATGGCAGG GATGACAATT GGTGGTACTG CAGCCTCTGC TCCTCCCCCA
GCTGGACTGG GCTATGCATC GGTTCCTCCA GTCTCAGGAA GCTTTAGTGC AACAGGATCT
GGTCTCTACA CACCTTACAG TGCAAGCCAA GGACCCCCTC TTACCAGTGT GTCTCAGGGT
CTTCCTTTGG CACAGCCTCC GTTTCCTGGT CAGACAATAT CAACTCAGCA CCTGCCTACT
CAAGTTCCTG GTTTTACCCC ACCTCCTCCT TCTACAGGGG TTGGACCTTC CTCTTACCCT
CCTACCACAG GTGCTCCAAG GCCACCTGCC ATGCCAGGCC CACCACTGCC TGGGCAGACA
GTTGCTGGAC CACCATCATC CCAGCCTAAT CATGTATCCT CACCACCACC TCCATCAACT
ATGGCAGGGC TGCACCCTGG GCCTCCCATG AGTGGTCTCC ATGGACCACC TCCTCCCACT
CATCCTCCTC AGCCAGGATA CCAAATGCAG CAGAATGGTT CCTTTGGACA GATGAGGGGT
CCTCCACCAA ACTATGGAGG AGCCTATCCA GGAGCACCAA ATTATGGAAG TCCTCCTGGA
CCACCACCTC CACCAAAACG CTTGGATCCA GATTCCATTC CTAGCCCTAT TCAAGTGATT
GAAGATGACA GAAATAACCG TGGGTCAGAA CCATTTGTCA CTGGAGTGAG AGGGCAGGTC
CCACCTCTTG TTACTACAAA TTTCTTGGTC AAGGATCAAG GTAATGCAAG CCCCCGCTAC
ATCAGGTGCA CATCTTACAA TATTCCCTGC ACGTCTGACA TGGCCAAACA ATCCCAAGTT
CCCCTGGCTG CCGTCATAAA GCCGCTGGCT GCTCTGCCGC CGGAGGAGAC TGTTCCTTAT
TTGGTAGACC ATGGAGAATC CGGTCCTGTC CGATGTAATA GGTGCAAAGC TTACATGTGC
CCTTTTATGC AATTCATTGA AGGTGGAAGG AGGTTCCAGT GTTGTTTCTG CAGCTGTGTC
ACTGAGGTTC CACCTCACTA CTTCCAACAT TTGGATCACA CTGGAAAGCG AGTAGATTTC
TATGACCGAC CAGAGTTATC ACTGGGGTCA TACGAGTTTC TAGCAACAGT TGACTATTGC
AAGAATAACA AGTTTCCTAG TCCACCTGCT TTCATTTTTA TGATTGATGT GTCTTACAAT
GCTGTGAAGA GTGGCTTAGT GAGGCTAATA TGTGAAGAAT TAAAGTCACT CCTAGATTAC
CTGCCCAGGG AAGGGAACAT GGAGGAATCA GCCATTCGAG TAGGCTTTGT CACCTACAAC
AAAGTTCTGC ATTTCTATAA TGTGAAGAGC TCACTGGCAC AGCCGCAAAT GATGGTGGTC
TCAGATGTGG CAGATATGTT TGTGCCACTC CTTGATGGTT TTCTGGTGAA TGTGAATGAG
TCCAGGACAG TTATTGCCAG TTTACTGGAT CAGATTCCAG AAATGTTTGC AGACACAAGA
GAAACAGAAA CTGTTTTTGC ACCTGTGATT CAAGCAGGGC TGGAGGCACT GAAGGCAGCA
GAGTGTGCTG GCAAGCTCTT CATTTTCCAC ACCTCTCTGC CCATTGCAGA GGCTCCAGGA
AAGTTAAAGA ACAGGGATGA TAGGAAACTG ATCAACACAG ATAAGGAGAA GACTTTGTTT
CAACCACAGA CGAGCTTTTA CAACAACTTG GCCAAGGACT GTGTGGCGCA GGGCTGTTGT
GTGGATCTGT TCCTGTTTCC AAACCAGTAT TTGGATGTGG CCACGCTGGG TGTGGTACCT
TACCAGACAG GAGGCTCCAT TTTTAAGTAT GCGTATTTCC AGCTGGAGAC AGACCAGTAC
AGATTCCTGA ATGACTTGAG GAGGGATGTC CAGAAAGAAG TGGGATTTGA TGCTGTAATG
AGAGTGCGCA CAAGCACAGG TATTAGAGCA ACAGACTTTT TTGGAGCTTT CTATATGAGC
AACACAACTG ATGTAGAGAT GGCAGGTCTG GACTGTGATA AAACAATCAC AGTGGAATTC
AAGCATGATG ATAAATTGAG TGAAGATAGT GGTGCACTGC TTCAGTGTGC TCTGCTGTAT
ACAAGTTGTG CAGGACAGCG ACGACTCCGC ATTCACAATC TCTCCTTAAA CTGCTGCACG
CAGCTTGCTG ACCTCTATCG GAACTGTGAG ACTGACACCC TCATCAACTA CTTGGCTAAG
TATGCATATC GTGGAGTCTT GAGTAGTCCA GTGAAGACTG TACGAGATGC ACTCATCAAC
CAGTGTGCCC AGATCCTAGC CTGCTATCGG AAGAACTGTG CTAGTCCCTC TTCTGCTGGC
CAGCTCATCC TCCCCGAATG CATGAAGCTG CTTCCTGTGT ACTTGAACTG TGTGTTGAAG
AGTGACGTGC TTCAGCCCGG CCCAGAGGTC ACAACAGACG ACCGTGCCTA CGTCCGTCAG
TTAGTGACGT CCATGGATGT GGCTGAAACA AACGTTTTCT TTTATCCCAG GCTTTTGCCT
CTGACCAAAG CAGATGTTGA CAGTGATTCC TTGCCAGCAG CCATTCGGAA CTCTGAGGAG
CGTCTCTCCA AGGGTGACAT CTACCTGCTG GAGAATGGGC TGAACATCTT TGTGTGGGTG
GGAATCAACG TGCAGCAAGG CCTGATCCAG AACCTCTTTG GAGTGTCATC CTTCAATCAA
ATTAGCAATG CCTTGAGTAC CCTGCCAGTC TTGGAAAACC CCTTTTCAAA GAAAGTGCGA
TCTATTGTTG ATATGCTTCA AGGACAGAGA TCCCGCTACA TGAAGTTGAT AATTGTGAAG
CAAGAAGATA AGCTGGAAAT GCTGTTCAAA CACTTTCTAG TGGAGGACAA GAGCCTGAGT
GGGGGGGCTT CCTATGTGGA CTTCCTGTGT CACATGCACA AGGAGATTCG GCAGCTACTG
AGCTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030132727.1 CDS 113..3478 Translation
Target ORF information:
RefSeq Version XM_030276867.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata SEC24 homolog C, COPII coat complex component (SEC24C), transcript variant X5, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030276867.1
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
3361ATGAGTGTAA ACCAGCAAGC TCACACGGGG CCTCCTTATG GGCAACCTCA GCCTGGATAT
CAGGGATACC AGCAGCCTGC CTACGGAGGA CAGTCATTGC CAGGGGTTCC TCAGGCGCAG
TATGGAGCTT ATAATGGGCC GGTGCCAGGA TATCAACAGC CAGTCCCTCC ACAAGGTTCA
TTAAGAGCCC CGCCAACATC TGGAGCTCCC CCTCCAGCCT CTGGAGCATC TCATCCTTCT
GGCCACTTGG CATACAGTCA GTTTGAACAT GGAGATGTGC AGAATGGAAT TCCAGCCTCA
ACAGCTCCAA TGCAGAGGCC ACCTGCTTCT CAGCCGTTCC TGCCAGGCTC AGCACCCACG
CCTGTCAGCC AGATACCTAC GTTCCAGCAA TATGGGGCCC CCCCAGCCAG CGTGCAGCAG
CTCAGGAATC ACATGGCAGG GATGACAATT GGTGGTACTG CAGCCTCTGC TCCTCCCCCA
GCTGGACTGG GCTATGCATC GGTTCCTCCA GTCTCAGGAA GCTTTAGTGC AACAGGATCT
GGTCTCTACA CACCTTACAG TGCAAGCCAA GGACCCCCTC TTACCAGTGT GTCTCAGGGT
CTTCCTTTGG CACAGCCTCC GTTTCCTGGT CAGACAATAT CAACTCAGCA CCTGCCTACT
CAAGTTCCTG GTTTTACCCC ACCTCCTCCT TCTACAGGGG TTGGACCTTC CTCTTACCCT
CCTACCACAG GTGCTCCAAG GCCACCTGCC ATGCCAGGCC CACCACTGCC TGGGCAGACA
GTTGCTGGAC CACCATCATC CCAGCCTAAT CATGTATCCT CACCACCACC TCCATCAACT
ATGGCAGGGC TGCACCCTGG GCCTCCCATG AGTGGTCTCC ATGGACCACC TCCTCCCACT
CATCCTCCTC AGCCAGGATA CCAAATGCAG CAGAATGGTT CCTTTGGACA GATGAGGGGT
CCTCCACCAA ACTATGGAGG AGCCTATCCA GGAGCACCAA ATTATGGAAG TCCTCCTGGA
CCACCACCTC CACCAAAACG CTTGGATCCA GATTCCATTC CTAGCCCTAT TCAAGTGATT
GAAGATGACA GAAATAACCG TGGGTCAGAA CCATTTGTCA CTGGAGTGAG AGGGCAGGTC
CCACCTCTTG TTACTACAAA TTTCTTGGTC AAGGATCAAG GTAATGCAAG CCCCCGCTAC
ATCAGGTGCA CATCTTACAA TATTCCCTGC ACGTCTGACA TGGCCAAACA ATCCCAAGTT
CCCCTGGCTG CCGTCATAAA GCCGCTGGCT GCTCTGCCGC CGGAGGAGAC TGTTCCTTAT
TTGGTAGACC ATGGAGAATC CGGTCCTGTC CGATGTAATA GGTGCAAAGC TTACATGTGC
CCTTTTATGC AATTCATTGA AGGTGGAAGG AGGTTCCAGT GTTGTTTCTG CAGCTGTGTC
ACTGAGGTTC CACCTCACTA CTTCCAACAT TTGGATCACA CTGGAAAGCG AGTAGATTTC
TATGACCGAC CAGAGTTATC ACTGGGGTCA TACGAGTTTC TAGCAACAGT TGACTATTGC
AAGAATAACA AGTTTCCTAG TCCACCTGCT TTCATTTTTA TGATTGATGT GTCTTACAAT
GCTGTGAAGA GTGGCTTAGT GAGGCTAATA TGTGAAGAAT TAAAGTCACT CCTAGATTAC
CTGCCCAGGG AAGGGAACAT GGAGGAATCA GCCATTCGAG TAGGCTTTGT CACCTACAAC
AAAGTTCTGC ATTTCTATAA TGTGAAGAGC TCACTGGCAC AGCCGCAAAT GATGGTGGTC
TCAGATGTGG CAGATATGTT TGTGCCACTC CTTGATGGTT TTCTGGTGAA TGTGAATGAG
TCCAGGACAG TTATTGCCAG TTTACTGGAT CAGATTCCAG AAATGTTTGC AGACACAAGA
GAAACAGAAA CTGTTTTTGC ACCTGTGATT CAAGCAGGGC TGGAGGCACT GAAGGCAGCA
GAGTGTGCTG GCAAGCTCTT CATTTTCCAC ACCTCTCTGC CCATTGCAGA GGCTCCAGGA
AAGTTAAAGA ACAGGGATGA TAGGAAACTG ATCAACACAG ATAAGGAGAA GACTTTGTTT
CAACCACAGA CGAGCTTTTA CAACAACTTG GCCAAGGACT GTGTGGCGCA GGGCTGTTGT
GTGGATCTGT TCCTGTTTCC AAACCAGTAT TTGGATGTGG CCACGCTGGG TGTGGTACCT
TACCAGACAG GAGGCTCCAT TTTTAAGTAT GCGTATTTCC AGCTGGAGAC AGACCAGTAC
AGATTCCTGA ATGACTTGAG GAGGGATGTC CAGAAAGAAG TGGGATTTGA TGCTGTAATG
AGAGTGCGCA CAAGCACAGG TATTAGAGCA ACAGACTTTT TTGGAGCTTT CTATATGAGC
AACACAACTG ATGTAGAGAT GGCAGGTCTG GACTGTGATA AAACAATCAC AGTGGAATTC
AAGCATGATG ATAAATTGAG TGAAGATAGT GGTGCACTGC TTCAGTGTGC TCTGCTGTAT
ACAAGTTGTG CAGGACAGCG ACGACTCCGC ATTCACAATC TCTCCTTAAA CTGCTGCACG
CAGCTTGCTG ACCTCTATCG GAACTGTGAG ACTGACACCC TCATCAACTA CTTGGCTAAG
TATGCATATC GTGGAGTCTT GAGTAGTCCA GTGAAGACTG TACGAGATGC ACTCATCAAC
CAGTGTGCCC AGATCCTAGC CTGCTATCGG AAGAACTGTG CTAGTCCCTC TTCTGCTGGC
CAGCTCATCC TCCCCGAATG CATGAAGCTG CTTCCTGTGT ACTTGAACTG TGTGTTGAAG
AGTGACGTGC TTCAGCCCGG CCCAGAGGTC ACAACAGACG ACCGTGCCTA CGTCCGTCAG
TTAGTGACGT CCATGGATGT GGCTGAAACA AACGTTTTCT TTTATCCCAG GCTTTTGCCT
CTGACCAAAG CAGATGTTGA CAGTGATTCC TTGCCAGCAG CCATTCGGAA CTCTGAGGAG
CGTCTCTCCA AGGGTGACAT CTACCTGCTG GAGAATGGGC TGAACATCTT TGTGTGGGTG
GGAATCAACG TGCAGCAAGG CCTGATCCAG AACCTCTTTG GAGTGTCATC CTTCAATCAA
ATTAGCAATG CCTTGAGTAC CCTGCCAGTC TTGGAAAACC CCTTTTCAAA GAAAGTGCGA
TCTATTGTTG ATATGCTTCA AGGACAGAGA TCCCGCTACA TGAAGTTGAT AATTGTGAAG
CAAGAAGATA AGCTGGAAAT GCTGTTCAAA CACTTTCTAG TGGAGGACAA GAGCCTGAGT
GGGGGGGCTT CCTATGTGGA CTTCCTGTGT CACATGCACA AGGAGATTCG GCAGCTACTG
AGCTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd49167 Clone ID Related Accession (Same CDS sequence) XM_030276868.1 Accession Version XM_030276868.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3321bp)
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 protein transport protein Sec24C isoform X5 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044218.1) 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
3301ATGAGTGTAA ACCAGCAAGC TCACACGGGG CCTCCTTATG GGCAACCTCA GCCTGGATAT
CAGGGATACC AGCAGCCTGC CTACGGAGGA CAGTCATTGC CAGGGGTTCC TCAGGCGCAG
TATGGAGCTT ATAATGGGCC GGTGCCAGGA TATCAACAGC CAGTCCCTCC ACAAGGTTAC
TTTCCTTCCT TGGGGTTTCC TTCGAAGGGC TCTCCTGTAT CTCTCAACTC TGACACTTCT
TCTCTTGCAC CTAATTTCAT AGGTTCATTA AGAGCCCCGC CAACATCTGG AGCTCCCCCT
CCAGCCTCTG GAGCATCTCA TCCTTCTGGC CACTTGGCAT ACAGTCAGTT TGAACATGGA
GATGTGCAGA ATGGAATTCC AGCCTCAACA GCTCCAATGC AGAGGCCACC TGCTTCTCAG
CCGTTCCTGC CAGGCTCAGC ACCCACGCCT GTCAGCCAGA TACCTACGTT CCAGCAATAT
GGGGCCCCCC CAGCCAGCGT GCAGCAGCTC AGGAATCACA TGGCAGGGAT GACAATTGGT
GGTACTGCAG CCTCTGCTCC TCCCCCAGCT GGACTGGGCT ATGGGGTTGG ACCTTCCTCT
TACCCTCCTA CCACAGGTGC TCCAAGGCCA CCTGCCATGC CAGGCCCACC ACTGCCTGGG
CAGACAGTTG CTGGACCACC ATCATCCCAG CCTAATCATG TATCCTCACC ACCACCTCCA
TCAACTATGG CAGGGCTGCA CCCTGGGCCT CCCATGAGTG GTCTCCATGG ACCACCTCCT
CCCACTCATC CTCCTCAGCC AGGATACCAA ATGCAGCAGA ATGGTTCCTT TGGACAGATG
AGGGGTCCTC CACCAAACTA TGGAGGAGCC TATCCAGGAG CACCAAATTA TGGAAGTCCT
CCTGGACCAC CACCTCCACC AAAACGCTTG GATCCAGATT CCATTCCTAG CCCTCAACTT
AATGAGCTGC CACCCCAGCA GAAACCCAGG CACAGAATAG ACCCAGATGC AATTCCTAGT
CCAATTCAAG TGATTGAAGA TGACAGAAAT AACCGTGGGT CAGAACCATT TGTCACTGGA
GTGAGAGGGC AGGTCCCACC TCTTGTTACT ACAAATTTCT TGGTCAAGGA TCAAGGTAAT
GCAAGCCCCC GCTACATCAG GTGCACATCT TACAATATTC CCTGCACGTC TGACATGGCC
AAACAATCCC AAGTTCCCCT GGCTGCCGTC ATAAAGCCGC TGGCTGCTCT GCCGCCGGAG
GAGACTGTTC CTTATTTGGT AGACCATGGA GAATCCGGTC CTGTCCGATG TAATAGGTGC
AAAGCTTACA TGTGCCCTTT TATGCAATTC ATTGAAGGTG GAAGGAGGTT CCAGTGTTGT
TTCTGCAGCT GTGTCACTGA GGTTCCACCT CACTACTTCC AACATTTGGA TCACACTGGA
AAGCGAGTAG ATTTCTATGA CCGACCAGAG TTATCACTGG GGTCATACGA GTTTCTAGCA
ACAGTTGACT ATTGCAAGAA TAACAAGTTT CCTAGTCCAC CTGCTTTCAT TTTTATGATT
GATGTGTCTT ACAATGCTGT GAAGAGTGGC TTAGTGAGGC TAATATGTGA AGAATTAAAG
TCACTCCTAG ATTACCTGCC CAGGGAAGGG AACATGGAGG AATCAGCCAT TCGAGTAGGC
TTTGTCACCT ACAACAAAGT TCTGCATTTC TATAATGTGA AGAGCTCACT GGCACAGCCG
CAAATGATGG TGGTCTCAGA TGTGGCAGAT ATGTTTGTGC CACTCCTTGA TGGTTTTCTG
GTGAATGTGA ATGAGTCCAG GACAGTTATT GCCAGTTTAC TGGATCAGAT TCCAGAAATG
TTTGCAGACA CAAGAGAAAC AGAAACTGTT TTTGCACCTG TGATTCAAGC AGGGCTGGAG
GCACTGAAGG CAGCAGAGTG TGCTGGCAAG CTCTTCATTT TCCACACCTC TCTGCCCATT
GCAGAGGCTC CAGGAAAGTT AAAGAACAGG GATGATAGGA AACTGATCAA CACAGATAAG
GAGAAGACTT TGTTTCAACC ACAGACGAGC TTTTACAACA ACTTGGCCAA GGACTGTGTG
GCGCAGGGCT GTTGTGTGGA TCTGTTCCTG TTTCCAAACC AGTATTTGGA TGTGGCCACG
CTGGGTGTGG TACCTTACCA GACAGGAGGC TCCATTTTTA AGTATGCGTA TTTCCAGCTG
GAGACAGACC AGTACAGATT CCTGAATGAC TTGAGGAGGG ATGTCCAGAA AGAAGTGGGA
TTTGATGCTG TAATGAGAGT GCGCACAAGC ACAGGTATTA GAGCAACAGA CTTTTTTGGA
GCTTTCTATA TGAGCAACAC AACTGATGTA GAGATGGCAG GTCTGGACTG TGATAAAACA
ATCACAGTGG AATTCAAGCA TGATGATAAA TTGAGTGAAG ATAGTGGTGC ACTGCTTCAG
TGTGCTCTGC TGTATACAAG TTGTGCAGGA CAGCGACGAC TCCGCATTCA CAATCTCTCC
TTAAACTGCT GCACGCAGCT TGCTGACCTC TATCGGAACT GTGAGACTGA CACCCTCATC
AACTACTTGG CTAAGTATGC ATATCGTGGA GTCTTGAGTA GTCCAGTGAA GACTGTACGA
GATGCACTCA TCAACCAGTG TGCCCAGATC CTAGCCTGCT ATCGGAAGAA CTGTGCTAGT
CCCTCTTCTG CTGGCCAGCT CATCCTCCCC GAATGCATGA AGCTGCTTCC TGTGTACTTG
AACTGTGTGT TGAAGAGTGA CGTGCTTCAG CCCGGCCCAG AGGTCACAAC AGACGACCGT
GCCTACGTCC GTCAGTTAGT GACGTCCATG GATGTGGCTG AAACAAACGT TTTCTTTTAT
CCCAGGCTTT TGCCTCTGAC CAAAGCAGAT GTTGACAGTG ATTCCTTGCC AGCAGCCATT
CGGAACTCTG AGGAGCGTCT CTCCAAGGGT GACATCTACC TGCTGGAGAA TGGGCTGAAC
ATCTTTGTGT GGGTGGGAAT CAACGTGCAG CAAGGCCTGA TCCAGAACCT CTTTGGAGTG
TCATCCTTCA ATCAAATTAG CAATGCCTTG AGTACCCTGC CAGTCTTGGA AAACCCCTTT
TCAAAGAAAG TGCGATCTAT TGTTGATATG CTTCAAGGAC AGAGATCCCG CTACATGAAG
TTGATAATTG TGAAGCAAGA AGATAAGCTG GAAATGCTGT TCAAACACTT TCTAGTGGAG
GACAAGAGCC TGAGTGGGGG GGCTTCCTAT GTGGACTTCC TGTGTCACAT GCACAAGGAG
ATTCGGCAGC TACTGAGCTA GThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030132728.1 CDS 114..3434 Translation
Target ORF information:
RefSeq Version XM_030276868.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata SEC24 homolog C, COPII coat complex component (SEC24C), transcript variant X6, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030276868.1
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
3301ATGAGTGTAA ACCAGCAAGC TCACACGGGG CCTCCTTATG GGCAACCTCA GCCTGGATAT
CAGGGATACC AGCAGCCTGC CTACGGAGGA CAGTCATTGC CAGGGGTTCC TCAGGCGCAG
TATGGAGCTT ATAATGGGCC GGTGCCAGGA TATCAACAGC CAGTCCCTCC ACAAGGTTAC
TTTCCTTCCT TGGGGTTTCC TTCGAAGGGC TCTCCTGTAT CTCTCAACTC TGACACTTCT
TCTCTTGCAC CTAATTTCAT AGGTTCATTA AGAGCCCCGC CAACATCTGG AGCTCCCCCT
CCAGCCTCTG GAGCATCTCA TCCTTCTGGC CACTTGGCAT ACAGTCAGTT TGAACATGGA
GATGTGCAGA ATGGAATTCC AGCCTCAACA GCTCCAATGC AGAGGCCACC TGCTTCTCAG
CCGTTCCTGC CAGGCTCAGC ACCCACGCCT GTCAGCCAGA TACCTACGTT CCAGCAATAT
GGGGCCCCCC CAGCCAGCGT GCAGCAGCTC AGGAATCACA TGGCAGGGAT GACAATTGGT
GGTACTGCAG CCTCTGCTCC TCCCCCAGCT GGACTGGGCT ATGGGGTTGG ACCTTCCTCT
TACCCTCCTA CCACAGGTGC TCCAAGGCCA CCTGCCATGC CAGGCCCACC ACTGCCTGGG
CAGACAGTTG CTGGACCACC ATCATCCCAG CCTAATCATG TATCCTCACC ACCACCTCCA
TCAACTATGG CAGGGCTGCA CCCTGGGCCT CCCATGAGTG GTCTCCATGG ACCACCTCCT
CCCACTCATC CTCCTCAGCC AGGATACCAA ATGCAGCAGA ATGGTTCCTT TGGACAGATG
AGGGGTCCTC CACCAAACTA TGGAGGAGCC TATCCAGGAG CACCAAATTA TGGAAGTCCT
CCTGGACCAC CACCTCCACC AAAACGCTTG GATCCAGATT CCATTCCTAG CCCTCAACTT
AATGAGCTGC CACCCCAGCA GAAACCCAGG CACAGAATAG ACCCAGATGC AATTCCTAGT
CCAATTCAAG TGATTGAAGA TGACAGAAAT AACCGTGGGT CAGAACCATT TGTCACTGGA
GTGAGAGGGC AGGTCCCACC TCTTGTTACT ACAAATTTCT TGGTCAAGGA TCAAGGTAAT
GCAAGCCCCC GCTACATCAG GTGCACATCT TACAATATTC CCTGCACGTC TGACATGGCC
AAACAATCCC AAGTTCCCCT GGCTGCCGTC ATAAAGCCGC TGGCTGCTCT GCCGCCGGAG
GAGACTGTTC CTTATTTGGT AGACCATGGA GAATCCGGTC CTGTCCGATG TAATAGGTGC
AAAGCTTACA TGTGCCCTTT TATGCAATTC ATTGAAGGTG GAAGGAGGTT CCAGTGTTGT
TTCTGCAGCT GTGTCACTGA GGTTCCACCT CACTACTTCC AACATTTGGA TCACACTGGA
AAGCGAGTAG ATTTCTATGA CCGACCAGAG TTATCACTGG GGTCATACGA GTTTCTAGCA
ACAGTTGACT ATTGCAAGAA TAACAAGTTT CCTAGTCCAC CTGCTTTCAT TTTTATGATT
GATGTGTCTT ACAATGCTGT GAAGAGTGGC TTAGTGAGGC TAATATGTGA AGAATTAAAG
TCACTCCTAG ATTACCTGCC CAGGGAAGGG AACATGGAGG AATCAGCCAT TCGAGTAGGC
TTTGTCACCT ACAACAAAGT TCTGCATTTC TATAATGTGA AGAGCTCACT GGCACAGCCG
CAAATGATGG TGGTCTCAGA TGTGGCAGAT ATGTTTGTGC CACTCCTTGA TGGTTTTCTG
GTGAATGTGA ATGAGTCCAG GACAGTTATT GCCAGTTTAC TGGATCAGAT TCCAGAAATG
TTTGCAGACA CAAGAGAAAC AGAAACTGTT TTTGCACCTG TGATTCAAGC AGGGCTGGAG
GCACTGAAGG CAGCAGAGTG TGCTGGCAAG CTCTTCATTT TCCACACCTC TCTGCCCATT
GCAGAGGCTC CAGGAAAGTT AAAGAACAGG GATGATAGGA AACTGATCAA CACAGATAAG
GAGAAGACTT TGTTTCAACC ACAGACGAGC TTTTACAACA ACTTGGCCAA GGACTGTGTG
GCGCAGGGCT GTTGTGTGGA TCTGTTCCTG TTTCCAAACC AGTATTTGGA TGTGGCCACG
CTGGGTGTGG TACCTTACCA GACAGGAGGC TCCATTTTTA AGTATGCGTA TTTCCAGCTG
GAGACAGACC AGTACAGATT CCTGAATGAC TTGAGGAGGG ATGTCCAGAA AGAAGTGGGA
TTTGATGCTG TAATGAGAGT GCGCACAAGC ACAGGTATTA GAGCAACAGA CTTTTTTGGA
GCTTTCTATA TGAGCAACAC AACTGATGTA GAGATGGCAG GTCTGGACTG TGATAAAACA
ATCACAGTGG AATTCAAGCA TGATGATAAA TTGAGTGAAG ATAGTGGTGC ACTGCTTCAG
TGTGCTCTGC TGTATACAAG TTGTGCAGGA CAGCGACGAC TCCGCATTCA CAATCTCTCC
TTAAACTGCT GCACGCAGCT TGCTGACCTC TATCGGAACT GTGAGACTGA CACCCTCATC
AACTACTTGG CTAAGTATGC ATATCGTGGA GTCTTGAGTA GTCCAGTGAA GACTGTACGA
GATGCACTCA TCAACCAGTG TGCCCAGATC CTAGCCTGCT ATCGGAAGAA CTGTGCTAGT
CCCTCTTCTG CTGGCCAGCT CATCCTCCCC GAATGCATGA AGCTGCTTCC TGTGTACTTG
AACTGTGTGT TGAAGAGTGA CGTGCTTCAG CCCGGCCCAG AGGTCACAAC AGACGACCGT
GCCTACGTCC GTCAGTTAGT GACGTCCATG GATGTGGCTG AAACAAACGT TTTCTTTTAT
CCCAGGCTTT TGCCTCTGAC CAAAGCAGAT GTTGACAGTG ATTCCTTGCC AGCAGCCATT
CGGAACTCTG AGGAGCGTCT CTCCAAGGGT GACATCTACC TGCTGGAGAA TGGGCTGAAC
ATCTTTGTGT GGGTGGGAAT CAACGTGCAG CAAGGCCTGA TCCAGAACCT CTTTGGAGTG
TCATCCTTCA ATCAAATTAG CAATGCCTTG AGTACCCTGC CAGTCTTGGA AAACCCCTTT
TCAAAGAAAG TGCGATCTAT TGTTGATATG CTTCAAGGAC AGAGATCCCG CTACATGAAG
TTGATAATTG TGAAGCAAGA AGATAAGCTG GAAATGCTGT TCAAACACTT TCTAGTGGAG
GACAAGAGCC TGAGTGGGGG GGCTTCCTAT GTGGACTTCC TGTGTCACAT GCACAAGGAG
ATTCGGCAGC TACTGAGCTA GThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd49168 Clone ID Related Accession (Same CDS sequence) XM_030276869.1 Accession Version XM_030276869.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3288bp)
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 protein transport protein Sec24C isoform X6 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044218.1) 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
3241ATGAGTGTAA ACCAGCAAGC TCACACGGGG CCTCCTTATG GGCAACCTCA GCCTGGATAT
CAGGGATACC AGCAGCCTGC CTACGGAGGA CAGTCATTGC CAGGGGTTCC TCAGGCGCAG
TATGGAGCTT ATAATGGGCC GGTGCCAGGA TATCAACAGC CAGTCCCTCC ACAAGGTTAC
TTTCCTTCCT TGGGGTTTCC TTCGAAGGGC TCTCCTGTAT CTCTCAACTC TGACACTTCT
TCTCTTGCAC CTAATTTCAT AGGTTCATTA AGAGCCCCGC CAACATCTGG AGCTCCCCCT
CCAGCCTCTG GAGCATCTCA TCCTTCTGGC CACTTGGCAT ACAGTCAGTT TGAACATGGA
GATGTGCAGA ATGGAATTCC AGCCTCAACA GCTCCAATGC AGAGGCCACC TGCTTCTCAG
CCGTTCCTGC CAGGCTCAGC ACCCACGCCT GTCAGCCAGA TACCTACGTT CCAGCAATAT
GGGGCCCCCC CAGCCAGCGT GCAGCAGCTC AGGAATCACA TGGCAGGGAT GACAATTGGT
GGTACTGCAG CCTCTGCTCC TCCCCCAGCT GGACTGGGCT ATGGTGCTCC AAGGCCACCT
GCCATGCCAG GCCCACCACT GCCTGGGCAG ACAGTTGCTG GACCACCATC ATCCCAGCCT
AATCATGTAT CCTCACCACC ACCTCCATCA ACTATGGCAG GGCTGCACCC TGGGCCTCCC
ATGAGTGGTC TCCATGGACC ACCTCCTCCC ACTCATCCTC CTCAGCCAGG ATACCAAATG
CAGCAGAATG GTTCCTTTGG ACAGATGAGG GGTCCTCCAC CAAACTATGG AGGAGCCTAT
CCAGGAGCAC CAAATTATGG AAGTCCTCCT GGACCACCAC CTCCACCAAA ACGCTTGGAT
CCAGATTCCA TTCCTAGCCC TCAACTTAAT GAGCTGCCAC CCCAGCAGAA ACCCAGGCAC
AGAATAGACC CAGATGCAAT TCCTAGTCCA ATTCAAGTGA TTGAAGATGA CAGAAATAAC
CGTGGGTCAG AACCATTTGT CACTGGAGTG AGAGGGCAGG TCCCACCTCT TGTTACTACA
AATTTCTTGG TCAAGGATCA AGGTAATGCA AGCCCCCGCT ACATCAGGTG CACATCTTAC
AATATTCCCT GCACGTCTGA CATGGCCAAA CAATCCCAAG TTCCCCTGGC TGCCGTCATA
AAGCCGCTGG CTGCTCTGCC GCCGGAGGAG ACTGTTCCTT ATTTGGTAGA CCATGGAGAA
TCCGGTCCTG TCCGATGTAA TAGGTGCAAA GCTTACATGT GCCCTTTTAT GCAATTCATT
GAAGGTGGAA GGAGGTTCCA GTGTTGTTTC TGCAGCTGTG TCACTGAGGT TCCACCTCAC
TACTTCCAAC ATTTGGATCA CACTGGAAAG CGAGTAGATT TCTATGACCG ACCAGAGTTA
TCACTGGGGT CATACGAGTT TCTAGCAACA GTTGACTATT GCAAGAATAA CAAGTTTCCT
AGTCCACCTG CTTTCATTTT TATGATTGAT GTGTCTTACA ATGCTGTGAA GAGTGGCTTA
GTGAGGCTAA TATGTGAAGA ATTAAAGTCA CTCCTAGATT ACCTGCCCAG GGAAGGGAAC
ATGGAGGAAT CAGCCATTCG AGTAGGCTTT GTCACCTACA ACAAAGTTCT GCATTTCTAT
AATGTGAAGA GCTCACTGGC ACAGCCGCAA ATGATGGTGG TCTCAGATGT GGCAGATATG
TTTGTGCCAC TCCTTGATGG TTTTCTGGTG AATGTGAATG AGTCCAGGAC AGTTATTGCC
AGTTTACTGG ATCAGATTCC AGAAATGTTT GCAGACACAA GAGAAACAGA AACTGTTTTT
GCACCTGTGA TTCAAGCAGG GCTGGAGGCA CTGAAGGCAG CAGAGTGTGC TGGCAAGCTC
TTCATTTTCC ACACCTCTCT GCCCATTGCA GAGGCTCCAG GAAAGTTAAA GAACAGGGAT
GATAGGAAAC TGATCAACAC AGATAAGGAG AAGACTTTGT TTCAACCACA GACGAGCTTT
TACAACAACT TGGCCAAGGA CTGTGTGGCG CAGGGCTGTT GTGTGGATCT GTTCCTGTTT
CCAAACCAGT ATTTGGATGT GGCCACGCTG GGTGTGGTAC CTTACCAGAC AGGAGGCTCC
ATTTTTAAGT ATGCGTATTT CCAGCTGGAG ACAGACCAGT ACAGATTCCT GAATGACTTG
AGGAGGGATG TCCAGAAAGA AGTGGGATTT GATGCTGTAA TGAGAGTGCG CACAAGCACA
GGTATTAGAG CAACAGACTT TTTTGGAGCT TTCTATATGA GCAACACAAC TGATGTAGAG
ATGGCAGGTC TGGACTGTGA TAAAACAATC ACAGTGGAAT TCAAGCATGA TGATAAATTG
AGTGAAGATA GTGGTGCACT GCTTCAGTGT GCTCTGCTGT ATACAAGTTG TGCAGGACAG
CGACGACTCC GCATTCACAA TCTCTCCTTA AACTGCTGCA CGCAGCTTGC TGACCTCTAT
CGGAACTGTG AGACTGACAC CCTCATCAAC TACTTGGCTA AGTATGCATA TCGTGGAGTC
TTGAGTAGTC CAGTGAAGAC TGTACGAGAT GCACTCATCA ACCAGTGTGC CCAGATCCTA
GCCTGCTATC GGAAGAACTG TGCTAGTCCC TCTTCTGCTG GCCAGCTCAT CCTCCCCGAA
TGCATGAAGC TGCTTCCTGT GTACTTGAAC TGTGTGTTGA AGAGTGACGT GCTTCAGCCC
GGCCCAGAGG TCACAACAGA CGACCGTGCC TACGTCCGTC AGTTAGTGAC GTCCATGGAT
GTGGCTGAAA CAAACGTTTT CTTTTATCCC AGGCTTTTGC CTCTGACCAA AGCAGATGTT
GACAGTGATT CCTTGCCAGC AGCCATTCGG AACTCTGAGG AGCGTCTCTC CAAGGGTGAC
ATCTACCTGC TGGAGAATGG GCTGAACATC TTTGTGTGGG TGGGAATCAA CGTGCAGCAA
GGCCTGATCC AGAACCTCTT TGGAGTGTCA TCCTTCAATC AAATTAGCAA TGCCTTGAGT
ACCCTGCCAG TCTTGGAAAA CCCCTTTTCA AAGAAAGTGC GATCTATTGT TGATATGCTT
CAAGGACAGA GATCCCGCTA CATGAAGTTG ATAATTGTGA AGCAAGAAGA TAAGCTGGAA
ATGCTGTTCA AACACTTTCT AGTGGAGGAC AAGAGCCTGA GTGGGGGGGC TTCCTATGTG
GACTTCCTGT GTCACATGCA CAAGGAGATT CGGCAGCTAC TGAGCTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030132729.1 CDS 121..3408 Translation
Target ORF information:
RefSeq Version XM_030276869.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata SEC24 homolog C, COPII coat complex component (SEC24C), transcript variant X7, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030276869.1
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
3241ATGAGTGTAA ACCAGCAAGC TCACACGGGG CCTCCTTATG GGCAACCTCA GCCTGGATAT
CAGGGATACC AGCAGCCTGC CTACGGAGGA CAGTCATTGC CAGGGGTTCC TCAGGCGCAG
TATGGAGCTT ATAATGGGCC GGTGCCAGGA TATCAACAGC CAGTCCCTCC ACAAGGTTAC
TTTCCTTCCT TGGGGTTTCC TTCGAAGGGC TCTCCTGTAT CTCTCAACTC TGACACTTCT
TCTCTTGCAC CTAATTTCAT AGGTTCATTA AGAGCCCCGC CAACATCTGG AGCTCCCCCT
CCAGCCTCTG GAGCATCTCA TCCTTCTGGC CACTTGGCAT ACAGTCAGTT TGAACATGGA
GATGTGCAGA ATGGAATTCC AGCCTCAACA GCTCCAATGC AGAGGCCACC TGCTTCTCAG
CCGTTCCTGC CAGGCTCAGC ACCCACGCCT GTCAGCCAGA TACCTACGTT CCAGCAATAT
GGGGCCCCCC CAGCCAGCGT GCAGCAGCTC AGGAATCACA TGGCAGGGAT GACAATTGGT
GGTACTGCAG CCTCTGCTCC TCCCCCAGCT GGACTGGGCT ATGGTGCTCC AAGGCCACCT
GCCATGCCAG GCCCACCACT GCCTGGGCAG ACAGTTGCTG GACCACCATC ATCCCAGCCT
AATCATGTAT CCTCACCACC ACCTCCATCA ACTATGGCAG GGCTGCACCC TGGGCCTCCC
ATGAGTGGTC TCCATGGACC ACCTCCTCCC ACTCATCCTC CTCAGCCAGG ATACCAAATG
CAGCAGAATG GTTCCTTTGG ACAGATGAGG GGTCCTCCAC CAAACTATGG AGGAGCCTAT
CCAGGAGCAC CAAATTATGG AAGTCCTCCT GGACCACCAC CTCCACCAAA ACGCTTGGAT
CCAGATTCCA TTCCTAGCCC TCAACTTAAT GAGCTGCCAC CCCAGCAGAA ACCCAGGCAC
AGAATAGACC CAGATGCAAT TCCTAGTCCA ATTCAAGTGA TTGAAGATGA CAGAAATAAC
CGTGGGTCAG AACCATTTGT CACTGGAGTG AGAGGGCAGG TCCCACCTCT TGTTACTACA
AATTTCTTGG TCAAGGATCA AGGTAATGCA AGCCCCCGCT ACATCAGGTG CACATCTTAC
AATATTCCCT GCACGTCTGA CATGGCCAAA CAATCCCAAG TTCCCCTGGC TGCCGTCATA
AAGCCGCTGG CTGCTCTGCC GCCGGAGGAG ACTGTTCCTT ATTTGGTAGA CCATGGAGAA
TCCGGTCCTG TCCGATGTAA TAGGTGCAAA GCTTACATGT GCCCTTTTAT GCAATTCATT
GAAGGTGGAA GGAGGTTCCA GTGTTGTTTC TGCAGCTGTG TCACTGAGGT TCCACCTCAC
TACTTCCAAC ATTTGGATCA CACTGGAAAG CGAGTAGATT TCTATGACCG ACCAGAGTTA
TCACTGGGGT CATACGAGTT TCTAGCAACA GTTGACTATT GCAAGAATAA CAAGTTTCCT
AGTCCACCTG CTTTCATTTT TATGATTGAT GTGTCTTACA ATGCTGTGAA GAGTGGCTTA
GTGAGGCTAA TATGTGAAGA ATTAAAGTCA CTCCTAGATT ACCTGCCCAG GGAAGGGAAC
ATGGAGGAAT CAGCCATTCG AGTAGGCTTT GTCACCTACA ACAAAGTTCT GCATTTCTAT
AATGTGAAGA GCTCACTGGC ACAGCCGCAA ATGATGGTGG TCTCAGATGT GGCAGATATG
TTTGTGCCAC TCCTTGATGG TTTTCTGGTG AATGTGAATG AGTCCAGGAC AGTTATTGCC
AGTTTACTGG ATCAGATTCC AGAAATGTTT GCAGACACAA GAGAAACAGA AACTGTTTTT
GCACCTGTGA TTCAAGCAGG GCTGGAGGCA CTGAAGGCAG CAGAGTGTGC TGGCAAGCTC
TTCATTTTCC ACACCTCTCT GCCCATTGCA GAGGCTCCAG GAAAGTTAAA GAACAGGGAT
GATAGGAAAC TGATCAACAC AGATAAGGAG AAGACTTTGT TTCAACCACA GACGAGCTTT
TACAACAACT TGGCCAAGGA CTGTGTGGCG CAGGGCTGTT GTGTGGATCT GTTCCTGTTT
CCAAACCAGT ATTTGGATGT GGCCACGCTG GGTGTGGTAC CTTACCAGAC AGGAGGCTCC
ATTTTTAAGT ATGCGTATTT CCAGCTGGAG ACAGACCAGT ACAGATTCCT GAATGACTTG
AGGAGGGATG TCCAGAAAGA AGTGGGATTT GATGCTGTAA TGAGAGTGCG CACAAGCACA
GGTATTAGAG CAACAGACTT TTTTGGAGCT TTCTATATGA GCAACACAAC TGATGTAGAG
ATGGCAGGTC TGGACTGTGA TAAAACAATC ACAGTGGAAT TCAAGCATGA TGATAAATTG
AGTGAAGATA GTGGTGCACT GCTTCAGTGT GCTCTGCTGT ATACAAGTTG TGCAGGACAG
CGACGACTCC GCATTCACAA TCTCTCCTTA AACTGCTGCA CGCAGCTTGC TGACCTCTAT
CGGAACTGTG AGACTGACAC CCTCATCAAC TACTTGGCTA AGTATGCATA TCGTGGAGTC
TTGAGTAGTC CAGTGAAGAC TGTACGAGAT GCACTCATCA ACCAGTGTGC CCAGATCCTA
GCCTGCTATC GGAAGAACTG TGCTAGTCCC TCTTCTGCTG GCCAGCTCAT CCTCCCCGAA
TGCATGAAGC TGCTTCCTGT GTACTTGAAC TGTGTGTTGA AGAGTGACGT GCTTCAGCCC
GGCCCAGAGG TCACAACAGA CGACCGTGCC TACGTCCGTC AGTTAGTGAC GTCCATGGAT
GTGGCTGAAA CAAACGTTTT CTTTTATCCC AGGCTTTTGC CTCTGACCAA AGCAGATGTT
GACAGTGATT CCTTGCCAGC AGCCATTCGG AACTCTGAGG AGCGTCTCTC CAAGGGTGAC
ATCTACCTGC TGGAGAATGG GCTGAACATC TTTGTGTGGG TGGGAATCAA CGTGCAGCAA
GGCCTGATCC AGAACCTCTT TGGAGTGTCA TCCTTCAATC AAATTAGCAA TGCCTTGAGT
ACCCTGCCAG TCTTGGAAAA CCCCTTTTCA AAGAAAGTGC GATCTATTGT TGATATGCTT
CAAGGACAGA GATCCCGCTA CATGAAGTTG ATAATTGTGA AGCAAGAAGA TAAGCTGGAA
ATGCTGTTCA AACACTTTCT AGTGGAGGAC AAGAGCCTGA GTGGGGGGGC TTCCTATGTG
GACTTCCTGT GTCACATGCA CAAGGAGATT CGGCAGCTAC TGAGCTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd49169 Clone ID Related Accession (Same CDS sequence) XM_030276870.1 Accession Version XM_030276870.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3234bp)
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 protein transport protein Sec24C isoform X7 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044218.1) 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
3181ATGAGTGTAA ACCAGCAAGC TCACACGGGG CCTCCTTATG GGCAACCTCA GCCTGGATAT
CAGGGATACC AGCAGCCTGC CTACGGAGGA CAGTCATTGC CAGGGGTTCC TCAGGCGCAG
TATGGAGCTT ATAATGGGCC GGTGCCAGGA TATCAACAGC CAGTCCCTCC ACAAGGTTCA
TTAAGAGCCC CGCCAACATC TGGAGCTCCC CCTCCAGCCT CTGGAGCATC TCATCCTTCT
GGCCACTTGG CATACAGTCA GTTTGAACAT GGAGATGTGC AGAATGGAAT TCCAGCCTCA
ACAGCTCCAA TGCAGAGGCC ACCTGCTTCT CAGCCGTTCC TGCCAGGCTC AGCACCCACG
CCTGTCAGCC AGATACCTAC GTTCCAGCAA TATGGGGCCC CCCCAGCCAG CGTGCAGCAG
CTCAGGAATC ACATGGCAGG GATGACAATT GGTGGTACTG CAGCCTCTGC TCCTCCCCCA
GCTGGACTGG GCTATGGGGT TGGACCTTCC TCTTACCCTC CTACCACAGG TGCTCCAAGG
CCACCTGCCA TGCCAGGCCC ACCACTGCCT GGGCAGACAG TTGCTGGACC ACCATCATCC
CAGCCTAATC ATGTATCCTC ACCACCACCT CCATCAACTA TGGCAGGGCT GCACCCTGGG
CCTCCCATGA GTGGTCTCCA TGGACCACCT CCTCCCACTC ATCCTCCTCA GCCAGGATAC
CAAATGCAGC AGAATGGTTC CTTTGGACAG ATGAGGGGTC CTCCACCAAA CTATGGAGGA
GCCTATCCAG GAGCACCAAA TTATGGAAGT CCTCCTGGAC CACCACCTCC ACCAAAACGC
TTGGATCCAG ATTCCATTCC TAGCCCTCAA CTTAATGAGC TGCCACCCCA GCAGAAACCC
AGGCACAGAA TAGACCCAGA TGCAATTCCT AGTCCAATTC AAGTGATTGA AGATGACAGA
AATAACCGTG GGTCAGAACC ATTTGTCACT GGAGTGAGAG GGCAGGTCCC ACCTCTTGTT
ACTACAAATT TCTTGGTCAA GGATCAAGGT AATGCAAGCC CCCGCTACAT CAGGTGCACA
TCTTACAATA TTCCCTGCAC GTCTGACATG GCCAAACAAT CCCAAGTTCC CCTGGCTGCC
GTCATAAAGC CGCTGGCTGC TCTGCCGCCG GAGGAGACTG TTCCTTATTT GGTAGACCAT
GGAGAATCCG GTCCTGTCCG ATGTAATAGG TGCAAAGCTT ACATGTGCCC TTTTATGCAA
TTCATTGAAG GTGGAAGGAG GTTCCAGTGT TGTTTCTGCA GCTGTGTCAC TGAGGTTCCA
CCTCACTACT TCCAACATTT GGATCACACT GGAAAGCGAG TAGATTTCTA TGACCGACCA
GAGTTATCAC TGGGGTCATA CGAGTTTCTA GCAACAGTTG ACTATTGCAA GAATAACAAG
TTTCCTAGTC CACCTGCTTT CATTTTTATG ATTGATGTGT CTTACAATGC TGTGAAGAGT
GGCTTAGTGA GGCTAATATG TGAAGAATTA AAGTCACTCC TAGATTACCT GCCCAGGGAA
GGGAACATGG AGGAATCAGC CATTCGAGTA GGCTTTGTCA CCTACAACAA AGTTCTGCAT
TTCTATAATG TGAAGAGCTC ACTGGCACAG CCGCAAATGA TGGTGGTCTC AGATGTGGCA
GATATGTTTG TGCCACTCCT TGATGGTTTT CTGGTGAATG TGAATGAGTC CAGGACAGTT
ATTGCCAGTT TACTGGATCA GATTCCAGAA ATGTTTGCAG ACACAAGAGA AACAGAAACT
GTTTTTGCAC CTGTGATTCA AGCAGGGCTG GAGGCACTGA AGGCAGCAGA GTGTGCTGGC
AAGCTCTTCA TTTTCCACAC CTCTCTGCCC ATTGCAGAGG CTCCAGGAAA GTTAAAGAAC
AGGGATGATA GGAAACTGAT CAACACAGAT AAGGAGAAGA CTTTGTTTCA ACCACAGACG
AGCTTTTACA ACAACTTGGC CAAGGACTGT GTGGCGCAGG GCTGTTGTGT GGATCTGTTC
CTGTTTCCAA ACCAGTATTT GGATGTGGCC ACGCTGGGTG TGGTACCTTA CCAGACAGGA
GGCTCCATTT TTAAGTATGC GTATTTCCAG CTGGAGACAG ACCAGTACAG ATTCCTGAAT
GACTTGAGGA GGGATGTCCA GAAAGAAGTG GGATTTGATG CTGTAATGAG AGTGCGCACA
AGCACAGGTA TTAGAGCAAC AGACTTTTTT GGAGCTTTCT ATATGAGCAA CACAACTGAT
GTAGAGATGG CAGGTCTGGA CTGTGATAAA ACAATCACAG TGGAATTCAA GCATGATGAT
AAATTGAGTG AAGATAGTGG TGCACTGCTT CAGTGTGCTC TGCTGTATAC AAGTTGTGCA
GGACAGCGAC GACTCCGCAT TCACAATCTC TCCTTAAACT GCTGCACGCA GCTTGCTGAC
CTCTATCGGA ACTGTGAGAC TGACACCCTC ATCAACTACT TGGCTAAGTA TGCATATCGT
GGAGTCTTGA GTAGTCCAGT GAAGACTGTA CGAGATGCAC TCATCAACCA GTGTGCCCAG
ATCCTAGCCT GCTATCGGAA GAACTGTGCT AGTCCCTCTT CTGCTGGCCA GCTCATCCTC
CCCGAATGCA TGAAGCTGCT TCCTGTGTAC TTGAACTGTG TGTTGAAGAG TGACGTGCTT
CAGCCCGGCC CAGAGGTCAC AACAGACGAC CGTGCCTACG TCCGTCAGTT AGTGACGTCC
ATGGATGTGG CTGAAACAAA CGTTTTCTTT TATCCCAGGC TTTTGCCTCT GACCAAAGCA
GATGTTGACA GTGATTCCTT GCCAGCAGCC ATTCGGAACT CTGAGGAGCG TCTCTCCAAG
GGTGACATCT ACCTGCTGGA GAATGGGCTG AACATCTTTG TGTGGGTGGG AATCAACGTG
CAGCAAGGCC TGATCCAGAA CCTCTTTGGA GTGTCATCCT TCAATCAAAT TAGCAATGCC
TTGAGTACCC TGCCAGTCTT GGAAAACCCC TTTTCAAAGA AAGTGCGATC TATTGTTGAT
ATGCTTCAAG GACAGAGATC CCGCTACATG AAGTTGATAA TTGTGAAGCA AGAAGATAAG
CTGGAAATGC TGTTCAAACA CTTTCTAGTG GAGGACAAGA GCCTGAGTGG GGGGGCTTCC
TATGTGGACT TCCTGTGTCA CATGCACAAG GAGATTCGGC AGCTACTGAG CTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030132730.1 CDS 85..3318 Translation
Target ORF information:
RefSeq Version XM_030276870.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata SEC24 homolog C, COPII coat complex component (SEC24C), transcript variant X8, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030276870.1
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
3181ATGAGTGTAA ACCAGCAAGC TCACACGGGG CCTCCTTATG GGCAACCTCA GCCTGGATAT
CAGGGATACC AGCAGCCTGC CTACGGAGGA CAGTCATTGC CAGGGGTTCC TCAGGCGCAG
TATGGAGCTT ATAATGGGCC GGTGCCAGGA TATCAACAGC CAGTCCCTCC ACAAGGTTCA
TTAAGAGCCC CGCCAACATC TGGAGCTCCC CCTCCAGCCT CTGGAGCATC TCATCCTTCT
GGCCACTTGG CATACAGTCA GTTTGAACAT GGAGATGTGC AGAATGGAAT TCCAGCCTCA
ACAGCTCCAA TGCAGAGGCC ACCTGCTTCT CAGCCGTTCC TGCCAGGCTC AGCACCCACG
CCTGTCAGCC AGATACCTAC GTTCCAGCAA TATGGGGCCC CCCCAGCCAG CGTGCAGCAG
CTCAGGAATC ACATGGCAGG GATGACAATT GGTGGTACTG CAGCCTCTGC TCCTCCCCCA
GCTGGACTGG GCTATGGGGT TGGACCTTCC TCTTACCCTC CTACCACAGG TGCTCCAAGG
CCACCTGCCA TGCCAGGCCC ACCACTGCCT GGGCAGACAG TTGCTGGACC ACCATCATCC
CAGCCTAATC ATGTATCCTC ACCACCACCT CCATCAACTA TGGCAGGGCT GCACCCTGGG
CCTCCCATGA GTGGTCTCCA TGGACCACCT CCTCCCACTC ATCCTCCTCA GCCAGGATAC
CAAATGCAGC AGAATGGTTC CTTTGGACAG ATGAGGGGTC CTCCACCAAA CTATGGAGGA
GCCTATCCAG GAGCACCAAA TTATGGAAGT CCTCCTGGAC CACCACCTCC ACCAAAACGC
TTGGATCCAG ATTCCATTCC TAGCCCTCAA CTTAATGAGC TGCCACCCCA GCAGAAACCC
AGGCACAGAA TAGACCCAGA TGCAATTCCT AGTCCAATTC AAGTGATTGA AGATGACAGA
AATAACCGTG GGTCAGAACC ATTTGTCACT GGAGTGAGAG GGCAGGTCCC ACCTCTTGTT
ACTACAAATT TCTTGGTCAA GGATCAAGGT AATGCAAGCC CCCGCTACAT CAGGTGCACA
TCTTACAATA TTCCCTGCAC GTCTGACATG GCCAAACAAT CCCAAGTTCC CCTGGCTGCC
GTCATAAAGC CGCTGGCTGC TCTGCCGCCG GAGGAGACTG TTCCTTATTT GGTAGACCAT
GGAGAATCCG GTCCTGTCCG ATGTAATAGG TGCAAAGCTT ACATGTGCCC TTTTATGCAA
TTCATTGAAG GTGGAAGGAG GTTCCAGTGT TGTTTCTGCA GCTGTGTCAC TGAGGTTCCA
CCTCACTACT TCCAACATTT GGATCACACT GGAAAGCGAG TAGATTTCTA TGACCGACCA
GAGTTATCAC TGGGGTCATA CGAGTTTCTA GCAACAGTTG ACTATTGCAA GAATAACAAG
TTTCCTAGTC CACCTGCTTT CATTTTTATG ATTGATGTGT CTTACAATGC TGTGAAGAGT
GGCTTAGTGA GGCTAATATG TGAAGAATTA AAGTCACTCC TAGATTACCT GCCCAGGGAA
GGGAACATGG AGGAATCAGC CATTCGAGTA GGCTTTGTCA CCTACAACAA AGTTCTGCAT
TTCTATAATG TGAAGAGCTC ACTGGCACAG CCGCAAATGA TGGTGGTCTC AGATGTGGCA
GATATGTTTG TGCCACTCCT TGATGGTTTT CTGGTGAATG TGAATGAGTC CAGGACAGTT
ATTGCCAGTT TACTGGATCA GATTCCAGAA ATGTTTGCAG ACACAAGAGA AACAGAAACT
GTTTTTGCAC CTGTGATTCA AGCAGGGCTG GAGGCACTGA AGGCAGCAGA GTGTGCTGGC
AAGCTCTTCA TTTTCCACAC CTCTCTGCCC ATTGCAGAGG CTCCAGGAAA GTTAAAGAAC
AGGGATGATA GGAAACTGAT CAACACAGAT AAGGAGAAGA CTTTGTTTCA ACCACAGACG
AGCTTTTACA ACAACTTGGC CAAGGACTGT GTGGCGCAGG GCTGTTGTGT GGATCTGTTC
CTGTTTCCAA ACCAGTATTT GGATGTGGCC ACGCTGGGTG TGGTACCTTA CCAGACAGGA
GGCTCCATTT TTAAGTATGC GTATTTCCAG CTGGAGACAG ACCAGTACAG ATTCCTGAAT
GACTTGAGGA GGGATGTCCA GAAAGAAGTG GGATTTGATG CTGTAATGAG AGTGCGCACA
AGCACAGGTA TTAGAGCAAC AGACTTTTTT GGAGCTTTCT ATATGAGCAA CACAACTGAT
GTAGAGATGG CAGGTCTGGA CTGTGATAAA ACAATCACAG TGGAATTCAA GCATGATGAT
AAATTGAGTG AAGATAGTGG TGCACTGCTT CAGTGTGCTC TGCTGTATAC AAGTTGTGCA
GGACAGCGAC GACTCCGCAT TCACAATCTC TCCTTAAACT GCTGCACGCA GCTTGCTGAC
CTCTATCGGA ACTGTGAGAC TGACACCCTC ATCAACTACT TGGCTAAGTA TGCATATCGT
GGAGTCTTGA GTAGTCCAGT GAAGACTGTA CGAGATGCAC TCATCAACCA GTGTGCCCAG
ATCCTAGCCT GCTATCGGAA GAACTGTGCT AGTCCCTCTT CTGCTGGCCA GCTCATCCTC
CCCGAATGCA TGAAGCTGCT TCCTGTGTAC TTGAACTGTG TGTTGAAGAG TGACGTGCTT
CAGCCCGGCC CAGAGGTCAC AACAGACGAC CGTGCCTACG TCCGTCAGTT AGTGACGTCC
ATGGATGTGG CTGAAACAAA CGTTTTCTTT TATCCCAGGC TTTTGCCTCT GACCAAAGCA
GATGTTGACA GTGATTCCTT GCCAGCAGCC ATTCGGAACT CTGAGGAGCG TCTCTCCAAG
GGTGACATCT ACCTGCTGGA GAATGGGCTG AACATCTTTG TGTGGGTGGG AATCAACGTG
CAGCAAGGCC TGATCCAGAA CCTCTTTGGA GTGTCATCCT TCAATCAAAT TAGCAATGCC
TTGAGTACCC TGCCAGTCTT GGAAAACCCC TTTTCAAAGA AAGTGCGATC TATTGTTGAT
ATGCTTCAAG GACAGAGATC CCGCTACATG AAGTTGATAA TTGTGAAGCA AGAAGATAAG
CTGGAAATGC TGTTCAAACA CTTTCTAGTG GAGGACAAGA GCCTGAGTGG GGGGGCTTCC
TATGTGGACT TCCTGTGTCA CATGCACAAG GAGATTCGGC AGCTACTGAG CTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd49170 Clone ID Related Accession (Same CDS sequence) XM_030276871.1 Accession Version XM_030276871.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3201bp)
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 protein transport protein Sec24C isoform X8 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044218.1) 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
3181ATGAGTGTAA ACCAGCAAGC TCACACGGGG CCTCCTTATG GGCAACCTCA GCCTGGATAT
CAGGGATACC AGCAGCCTGC CTACGGAGGA CAGTCATTGC CAGGGGTTCC TCAGGCGCAG
TATGGAGCTT ATAATGGGCC GGTGCCAGGA TATCAACAGC CAGTCCCTCC ACAAGGTTCA
TTAAGAGCCC CGCCAACATC TGGAGCTCCC CCTCCAGCCT CTGGAGCATC TCATCCTTCT
GGCCACTTGG CATACAGTCA GTTTGAACAT GGAGATGTGC AGAATGGAAT TCCAGCCTCA
ACAGCTCCAA TGCAGAGGCC ACCTGCTTCT CAGCCGTTCC TGCCAGGCTC AGCACCCACG
CCTGTCAGCC AGATACCTAC GTTCCAGCAA TATGGGGCCC CCCCAGCCAG CGTGCAGCAG
CTCAGGAATC ACATGGCAGG GATGACAATT GGTGGTACTG CAGCCTCTGC TCCTCCCCCA
GCTGGACTGG GCTATGGTGC TCCAAGGCCA CCTGCCATGC CAGGCCCACC ACTGCCTGGG
CAGACAGTTG CTGGACCACC ATCATCCCAG CCTAATCATG TATCCTCACC ACCACCTCCA
TCAACTATGG CAGGGCTGCA CCCTGGGCCT CCCATGAGTG GTCTCCATGG ACCACCTCCT
CCCACTCATC CTCCTCAGCC AGGATACCAA ATGCAGCAGA ATGGTTCCTT TGGACAGATG
AGGGGTCCTC CACCAAACTA TGGAGGAGCC TATCCAGGAG CACCAAATTA TGGAAGTCCT
CCTGGACCAC CACCTCCACC AAAACGCTTG GATCCAGATT CCATTCCTAG CCCTCAACTT
AATGAGCTGC CACCCCAGCA GAAACCCAGG CACAGAATAG ACCCAGATGC AATTCCTAGT
CCAATTCAAG TGATTGAAGA TGACAGAAAT AACCGTGGGT CAGAACCATT TGTCACTGGA
GTGAGAGGGC AGGTCCCACC TCTTGTTACT ACAAATTTCT TGGTCAAGGA TCAAGGTAAT
GCAAGCCCCC GCTACATCAG GTGCACATCT TACAATATTC CCTGCACGTC TGACATGGCC
AAACAATCCC AAGTTCCCCT GGCTGCCGTC ATAAAGCCGC TGGCTGCTCT GCCGCCGGAG
GAGACTGTTC CTTATTTGGT AGACCATGGA GAATCCGGTC CTGTCCGATG TAATAGGTGC
AAAGCTTACA TGTGCCCTTT TATGCAATTC ATTGAAGGTG GAAGGAGGTT CCAGTGTTGT
TTCTGCAGCT GTGTCACTGA GGTTCCACCT CACTACTTCC AACATTTGGA TCACACTGGA
AAGCGAGTAG ATTTCTATGA CCGACCAGAG TTATCACTGG GGTCATACGA GTTTCTAGCA
ACAGTTGACT ATTGCAAGAA TAACAAGTTT CCTAGTCCAC CTGCTTTCAT TTTTATGATT
GATGTGTCTT ACAATGCTGT GAAGAGTGGC TTAGTGAGGC TAATATGTGA AGAATTAAAG
TCACTCCTAG ATTACCTGCC CAGGGAAGGG AACATGGAGG AATCAGCCAT TCGAGTAGGC
TTTGTCACCT ACAACAAAGT TCTGCATTTC TATAATGTGA AGAGCTCACT GGCACAGCCG
CAAATGATGG TGGTCTCAGA TGTGGCAGAT ATGTTTGTGC CACTCCTTGA TGGTTTTCTG
GTGAATGTGA ATGAGTCCAG GACAGTTATT GCCAGTTTAC TGGATCAGAT TCCAGAAATG
TTTGCAGACA CAAGAGAAAC AGAAACTGTT TTTGCACCTG TGATTCAAGC AGGGCTGGAG
GCACTGAAGG CAGCAGAGTG TGCTGGCAAG CTCTTCATTT TCCACACCTC TCTGCCCATT
GCAGAGGCTC CAGGAAAGTT AAAGAACAGG GATGATAGGA AACTGATCAA CACAGATAAG
GAGAAGACTT TGTTTCAACC ACAGACGAGC TTTTACAACA ACTTGGCCAA GGACTGTGTG
GCGCAGGGCT GTTGTGTGGA TCTGTTCCTG TTTCCAAACC AGTATTTGGA TGTGGCCACG
CTGGGTGTGG TACCTTACCA GACAGGAGGC TCCATTTTTA AGTATGCGTA TTTCCAGCTG
GAGACAGACC AGTACAGATT CCTGAATGAC TTGAGGAGGG ATGTCCAGAA AGAAGTGGGA
TTTGATGCTG TAATGAGAGT GCGCACAAGC ACAGGTATTA GAGCAACAGA CTTTTTTGGA
GCTTTCTATA TGAGCAACAC AACTGATGTA GAGATGGCAG GTCTGGACTG TGATAAAACA
ATCACAGTGG AATTCAAGCA TGATGATAAA TTGAGTGAAG ATAGTGGTGC ACTGCTTCAG
TGTGCTCTGC TGTATACAAG TTGTGCAGGA CAGCGACGAC TCCGCATTCA CAATCTCTCC
TTAAACTGCT GCACGCAGCT TGCTGACCTC TATCGGAACT GTGAGACTGA CACCCTCATC
AACTACTTGG CTAAGTATGC ATATCGTGGA GTCTTGAGTA GTCCAGTGAA GACTGTACGA
GATGCACTCA TCAACCAGTG TGCCCAGATC CTAGCCTGCT ATCGGAAGAA CTGTGCTAGT
CCCTCTTCTG CTGGCCAGCT CATCCTCCCC GAATGCATGA AGCTGCTTCC TGTGTACTTG
AACTGTGTGT TGAAGAGTGA CGTGCTTCAG CCCGGCCCAG AGGTCACAAC AGACGACCGT
GCCTACGTCC GTCAGTTAGT GACGTCCATG GATGTGGCTG AAACAAACGT TTTCTTTTAT
CCCAGGCTTT TGCCTCTGAC CAAAGCAGAT GTTGACAGTG ATTCCTTGCC AGCAGCCATT
CGGAACTCTG AGGAGCGTCT CTCCAAGGGT GACATCTACC TGCTGGAGAA TGGGCTGAAC
ATCTTTGTGT GGGTGGGAAT CAACGTGCAG CAAGGCCTGA TCCAGAACCT CTTTGGAGTG
TCATCCTTCA ATCAAATTAG CAATGCCTTG AGTACCCTGC CAGTCTTGGA AAACCCCTTT
TCAAAGAAAG TGCGATCTAT TGTTGATATG CTTCAAGGAC AGAGATCCCG CTACATGAAG
TTGATAATTG TGAAGCAAGA AGATAAGCTG GAAATGCTGT TCAAACACTT TCTAGTGGAG
GACAAGAGCC TGAGTGGGGG GGCTTCCTAT GTGGACTTCC TGTGTCACAT GCACAAGGAG
ATTCGGCAGC TACTGAGCTA GThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030132731.1 CDS 86..3286 Translation
Target ORF information:
RefSeq Version XM_030276871.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata SEC24 homolog C, COPII coat complex component (SEC24C), transcript variant X9, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030276871.1
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
3181ATGAGTGTAA ACCAGCAAGC TCACACGGGG CCTCCTTATG GGCAACCTCA GCCTGGATAT
CAGGGATACC AGCAGCCTGC CTACGGAGGA CAGTCATTGC CAGGGGTTCC TCAGGCGCAG
TATGGAGCTT ATAATGGGCC GGTGCCAGGA TATCAACAGC CAGTCCCTCC ACAAGGTTCA
TTAAGAGCCC CGCCAACATC TGGAGCTCCC CCTCCAGCCT CTGGAGCATC TCATCCTTCT
GGCCACTTGG CATACAGTCA GTTTGAACAT GGAGATGTGC AGAATGGAAT TCCAGCCTCA
ACAGCTCCAA TGCAGAGGCC ACCTGCTTCT CAGCCGTTCC TGCCAGGCTC AGCACCCACG
CCTGTCAGCC AGATACCTAC GTTCCAGCAA TATGGGGCCC CCCCAGCCAG CGTGCAGCAG
CTCAGGAATC ACATGGCAGG GATGACAATT GGTGGTACTG CAGCCTCTGC TCCTCCCCCA
GCTGGACTGG GCTATGGTGC TCCAAGGCCA CCTGCCATGC CAGGCCCACC ACTGCCTGGG
CAGACAGTTG CTGGACCACC ATCATCCCAG CCTAATCATG TATCCTCACC ACCACCTCCA
TCAACTATGG CAGGGCTGCA CCCTGGGCCT CCCATGAGTG GTCTCCATGG ACCACCTCCT
CCCACTCATC CTCCTCAGCC AGGATACCAA ATGCAGCAGA ATGGTTCCTT TGGACAGATG
AGGGGTCCTC CACCAAACTA TGGAGGAGCC TATCCAGGAG CACCAAATTA TGGAAGTCCT
CCTGGACCAC CACCTCCACC AAAACGCTTG GATCCAGATT CCATTCCTAG CCCTCAACTT
AATGAGCTGC CACCCCAGCA GAAACCCAGG CACAGAATAG ACCCAGATGC AATTCCTAGT
CCAATTCAAG TGATTGAAGA TGACAGAAAT AACCGTGGGT CAGAACCATT TGTCACTGGA
GTGAGAGGGC AGGTCCCACC TCTTGTTACT ACAAATTTCT TGGTCAAGGA TCAAGGTAAT
GCAAGCCCCC GCTACATCAG GTGCACATCT TACAATATTC CCTGCACGTC TGACATGGCC
AAACAATCCC AAGTTCCCCT GGCTGCCGTC ATAAAGCCGC TGGCTGCTCT GCCGCCGGAG
GAGACTGTTC CTTATTTGGT AGACCATGGA GAATCCGGTC CTGTCCGATG TAATAGGTGC
AAAGCTTACA TGTGCCCTTT TATGCAATTC ATTGAAGGTG GAAGGAGGTT CCAGTGTTGT
TTCTGCAGCT GTGTCACTGA GGTTCCACCT CACTACTTCC AACATTTGGA TCACACTGGA
AAGCGAGTAG ATTTCTATGA CCGACCAGAG TTATCACTGG GGTCATACGA GTTTCTAGCA
ACAGTTGACT ATTGCAAGAA TAACAAGTTT CCTAGTCCAC CTGCTTTCAT TTTTATGATT
GATGTGTCTT ACAATGCTGT GAAGAGTGGC TTAGTGAGGC TAATATGTGA AGAATTAAAG
TCACTCCTAG ATTACCTGCC CAGGGAAGGG AACATGGAGG AATCAGCCAT TCGAGTAGGC
TTTGTCACCT ACAACAAAGT TCTGCATTTC TATAATGTGA AGAGCTCACT GGCACAGCCG
CAAATGATGG TGGTCTCAGA TGTGGCAGAT ATGTTTGTGC CACTCCTTGA TGGTTTTCTG
GTGAATGTGA ATGAGTCCAG GACAGTTATT GCCAGTTTAC TGGATCAGAT TCCAGAAATG
TTTGCAGACA CAAGAGAAAC AGAAACTGTT TTTGCACCTG TGATTCAAGC AGGGCTGGAG
GCACTGAAGG CAGCAGAGTG TGCTGGCAAG CTCTTCATTT TCCACACCTC TCTGCCCATT
GCAGAGGCTC CAGGAAAGTT AAAGAACAGG GATGATAGGA AACTGATCAA CACAGATAAG
GAGAAGACTT TGTTTCAACC ACAGACGAGC TTTTACAACA ACTTGGCCAA GGACTGTGTG
GCGCAGGGCT GTTGTGTGGA TCTGTTCCTG TTTCCAAACC AGTATTTGGA TGTGGCCACG
CTGGGTGTGG TACCTTACCA GACAGGAGGC TCCATTTTTA AGTATGCGTA TTTCCAGCTG
GAGACAGACC AGTACAGATT CCTGAATGAC TTGAGGAGGG ATGTCCAGAA AGAAGTGGGA
TTTGATGCTG TAATGAGAGT GCGCACAAGC ACAGGTATTA GAGCAACAGA CTTTTTTGGA
GCTTTCTATA TGAGCAACAC AACTGATGTA GAGATGGCAG GTCTGGACTG TGATAAAACA
ATCACAGTGG AATTCAAGCA TGATGATAAA TTGAGTGAAG ATAGTGGTGC ACTGCTTCAG
TGTGCTCTGC TGTATACAAG TTGTGCAGGA CAGCGACGAC TCCGCATTCA CAATCTCTCC
TTAAACTGCT GCACGCAGCT TGCTGACCTC TATCGGAACT GTGAGACTGA CACCCTCATC
AACTACTTGG CTAAGTATGC ATATCGTGGA GTCTTGAGTA GTCCAGTGAA GACTGTACGA
GATGCACTCA TCAACCAGTG TGCCCAGATC CTAGCCTGCT ATCGGAAGAA CTGTGCTAGT
CCCTCTTCTG CTGGCCAGCT CATCCTCCCC GAATGCATGA AGCTGCTTCC TGTGTACTTG
AACTGTGTGT TGAAGAGTGA CGTGCTTCAG CCCGGCCCAG AGGTCACAAC AGACGACCGT
GCCTACGTCC GTCAGTTAGT GACGTCCATG GATGTGGCTG AAACAAACGT TTTCTTTTAT
CCCAGGCTTT TGCCTCTGAC CAAAGCAGAT GTTGACAGTG ATTCCTTGCC AGCAGCCATT
CGGAACTCTG AGGAGCGTCT CTCCAAGGGT GACATCTACC TGCTGGAGAA TGGGCTGAAC
ATCTTTGTGT GGGTGGGAAT CAACGTGCAG CAAGGCCTGA TCCAGAACCT CTTTGGAGTG
TCATCCTTCA ATCAAATTAG CAATGCCTTG AGTACCCTGC CAGTCTTGGA AAACCCCTTT
TCAAAGAAAG TGCGATCTAT TGTTGATATG CTTCAAGGAC AGAGATCCCG CTACATGAAG
TTGATAATTG TGAAGCAAGA AGATAAGCTG GAAATGCTGT TCAAACACTT TCTAGTGGAG
GACAAGAGCC TGAGTGGGGG GGCTTCCTAT GTGGACTTCC TGTGTCACAT GCACAAGGAG
ATTCGGCAGC TACTGAGCTA GThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd49171 Clone ID Related Accession (Same CDS sequence) XM_030276872.1 Accession Version XM_030276872.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3165bp)
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 protein transport protein Sec24C isoform X9 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044218.1) 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
3121ATGAGTGTAA ACCAGCAAGC TCACACGGGG CCTCCTTATG GGCAACCTCA GCCTGGATAT
CAGGGATACC AGCAGCCTGC CTACGGAGGA CAGTCATTGC CAGGGGTTCC TCAGGCGCAG
TATGGAGCTT ATAATGGGCC GGTGCCAGGA TATCAACAGC CAGTCCCTCC ACAAGGTTCA
TTAAGAGCCC CGCCAACATC TGGAGCTCCC CCTCCAGCCT CTGGAGCATC TCATCCTTCT
GGCCACTTGG CATACAGTCA GTTTGAACAT GGAGATGTGC AGAATGGAAT TCCAGCCTCA
ACAGCTCCAA TGCAGAGGCC ACCTGCTTCT CAGCCGTTCC TGCCAGGCTC AGCACCCACG
CCTGTCAGCC AGATACCTAC GTTCCAGCAA TATGGGGCCC CCCCAGCCAG CGTGCAGCAG
CTCAGGAATC ACATGGCAGG GATGACAATT GGTGGTACTG CAGCCTCTGC TCCTCCCCCA
GCTGGACTGG GCTATGGGGT TGGACCTTCC TCTTACCCTC CTACCACAGG TGCTCCAAGG
CCACCTGCCA TGCCAGGCCC ACCACTGCCT GGGCAGACAG TTGCTGGACC ACCATCATCC
CAGCCTAATC ATGTATCCTC ACCACCACCT CCATCAACTA TGGCAGGGCT GCACCCTGGG
CCTCCCATGA GTGGTCTCCA TGGACCACCT CCTCCCACTC ATCCTCCTCA GCCAGGATAC
CAAATGCAGC AGAATGGTTC CTTTGGACAG ATGAGGGGTC CTCCACCAAA CTATGGAGGA
GCCTATCCAG GAGCACCAAA TTATGGAAGT CCTCCTGGAC CACCACCTCC ACCAAAACGC
TTGGATCCAG ATTCCATTCC TAGCCCTATT CAAGTGATTG AAGATGACAG AAATAACCGT
GGGTCAGAAC CATTTGTCAC TGGAGTGAGA GGGCAGGTCC CACCTCTTGT TACTACAAAT
TTCTTGGTCA AGGATCAAGG TAATGCAAGC CCCCGCTACA TCAGGTGCAC ATCTTACAAT
ATTCCCTGCA CGTCTGACAT GGCCAAACAA TCCCAAGTTC CCCTGGCTGC CGTCATAAAG
CCGCTGGCTG CTCTGCCGCC GGAGGAGACT GTTCCTTATT TGGTAGACCA TGGAGAATCC
GGTCCTGTCC GATGTAATAG GTGCAAAGCT TACATGTGCC CTTTTATGCA ATTCATTGAA
GGTGGAAGGA GGTTCCAGTG TTGTTTCTGC AGCTGTGTCA CTGAGGTTCC ACCTCACTAC
TTCCAACATT TGGATCACAC TGGAAAGCGA GTAGATTTCT ATGACCGACC AGAGTTATCA
CTGGGGTCAT ACGAGTTTCT AGCAACAGTT GACTATTGCA AGAATAACAA GTTTCCTAGT
CCACCTGCTT TCATTTTTAT GATTGATGTG TCTTACAATG CTGTGAAGAG TGGCTTAGTG
AGGCTAATAT GTGAAGAATT AAAGTCACTC CTAGATTACC TGCCCAGGGA AGGGAACATG
GAGGAATCAG CCATTCGAGT AGGCTTTGTC ACCTACAACA AAGTTCTGCA TTTCTATAAT
GTGAAGAGCT CACTGGCACA GCCGCAAATG ATGGTGGTCT CAGATGTGGC AGATATGTTT
GTGCCACTCC TTGATGGTTT TCTGGTGAAT GTGAATGAGT CCAGGACAGT TATTGCCAGT
TTACTGGATC AGATTCCAGA AATGTTTGCA GACACAAGAG AAACAGAAAC TGTTTTTGCA
CCTGTGATTC AAGCAGGGCT GGAGGCACTG AAGGCAGCAG AGTGTGCTGG CAAGCTCTTC
ATTTTCCACA CCTCTCTGCC CATTGCAGAG GCTCCAGGAA AGTTAAAGAA CAGGGATGAT
AGGAAACTGA TCAACACAGA TAAGGAGAAG ACTTTGTTTC AACCACAGAC GAGCTTTTAC
AACAACTTGG CCAAGGACTG TGTGGCGCAG GGCTGTTGTG TGGATCTGTT CCTGTTTCCA
AACCAGTATT TGGATGTGGC CACGCTGGGT GTGGTACCTT ACCAGACAGG AGGCTCCATT
TTTAAGTATG CGTATTTCCA GCTGGAGACA GACCAGTACA GATTCCTGAA TGACTTGAGG
AGGGATGTCC AGAAAGAAGT GGGATTTGAT GCTGTAATGA GAGTGCGCAC AAGCACAGGT
ATTAGAGCAA CAGACTTTTT TGGAGCTTTC TATATGAGCA ACACAACTGA TGTAGAGATG
GCAGGTCTGG ACTGTGATAA AACAATCACA GTGGAATTCA AGCATGATGA TAAATTGAGT
GAAGATAGTG GTGCACTGCT TCAGTGTGCT CTGCTGTATA CAAGTTGTGC AGGACAGCGA
CGACTCCGCA TTCACAATCT CTCCTTAAAC TGCTGCACGC AGCTTGCTGA CCTCTATCGG
AACTGTGAGA CTGACACCCT CATCAACTAC TTGGCTAAGT ATGCATATCG TGGAGTCTTG
AGTAGTCCAG TGAAGACTGT ACGAGATGCA CTCATCAACC AGTGTGCCCA GATCCTAGCC
TGCTATCGGA AGAACTGTGC TAGTCCCTCT TCTGCTGGCC AGCTCATCCT CCCCGAATGC
ATGAAGCTGC TTCCTGTGTA CTTGAACTGT GTGTTGAAGA GTGACGTGCT TCAGCCCGGC
CCAGAGGTCA CAACAGACGA CCGTGCCTAC GTCCGTCAGT TAGTGACGTC CATGGATGTG
GCTGAAACAA ACGTTTTCTT TTATCCCAGG CTTTTGCCTC TGACCAAAGC AGATGTTGAC
AGTGATTCCT TGCCAGCAGC CATTCGGAAC TCTGAGGAGC GTCTCTCCAA GGGTGACATC
TACCTGCTGG AGAATGGGCT GAACATCTTT GTGTGGGTGG GAATCAACGT GCAGCAAGGC
CTGATCCAGA ACCTCTTTGG AGTGTCATCC TTCAATCAAA TTAGCAATGC CTTGAGTACC
CTGCCAGTCT TGGAAAACCC CTTTTCAAAG AAAGTGCGAT CTATTGTTGA TATGCTTCAA
GGACAGAGAT CCCGCTACAT GAAGTTGATA ATTGTGAAGC AAGAAGATAA GCTGGAAATG
CTGTTCAAAC ACTTTCTAGT GGAGGACAAG AGCCTGAGTG GGGGGGCTTC CTATGTGGAC
TTCCTGTGTC ACATGCACAA GGAGATTCGG CAGCTACTGA GCTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030132732.1 CDS 85..3249 Translation
Target ORF information:
RefSeq Version XM_030276872.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata SEC24 homolog C, COPII coat complex component (SEC24C), transcript variant X10, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030276872.1
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
3121ATGAGTGTAA ACCAGCAAGC TCACACGGGG CCTCCTTATG GGCAACCTCA GCCTGGATAT
CAGGGATACC AGCAGCCTGC CTACGGAGGA CAGTCATTGC CAGGGGTTCC TCAGGCGCAG
TATGGAGCTT ATAATGGGCC GGTGCCAGGA TATCAACAGC CAGTCCCTCC ACAAGGTTCA
TTAAGAGCCC CGCCAACATC TGGAGCTCCC CCTCCAGCCT CTGGAGCATC TCATCCTTCT
GGCCACTTGG CATACAGTCA GTTTGAACAT GGAGATGTGC AGAATGGAAT TCCAGCCTCA
ACAGCTCCAA TGCAGAGGCC ACCTGCTTCT CAGCCGTTCC TGCCAGGCTC AGCACCCACG
CCTGTCAGCC AGATACCTAC GTTCCAGCAA TATGGGGCCC CCCCAGCCAG CGTGCAGCAG
CTCAGGAATC ACATGGCAGG GATGACAATT GGTGGTACTG CAGCCTCTGC TCCTCCCCCA
GCTGGACTGG GCTATGGGGT TGGACCTTCC TCTTACCCTC CTACCACAGG TGCTCCAAGG
CCACCTGCCA TGCCAGGCCC ACCACTGCCT GGGCAGACAG TTGCTGGACC ACCATCATCC
CAGCCTAATC ATGTATCCTC ACCACCACCT CCATCAACTA TGGCAGGGCT GCACCCTGGG
CCTCCCATGA GTGGTCTCCA TGGACCACCT CCTCCCACTC ATCCTCCTCA GCCAGGATAC
CAAATGCAGC AGAATGGTTC CTTTGGACAG ATGAGGGGTC CTCCACCAAA CTATGGAGGA
GCCTATCCAG GAGCACCAAA TTATGGAAGT CCTCCTGGAC CACCACCTCC ACCAAAACGC
TTGGATCCAG ATTCCATTCC TAGCCCTATT CAAGTGATTG AAGATGACAG AAATAACCGT
GGGTCAGAAC CATTTGTCAC TGGAGTGAGA GGGCAGGTCC CACCTCTTGT TACTACAAAT
TTCTTGGTCA AGGATCAAGG TAATGCAAGC CCCCGCTACA TCAGGTGCAC ATCTTACAAT
ATTCCCTGCA CGTCTGACAT GGCCAAACAA TCCCAAGTTC CCCTGGCTGC CGTCATAAAG
CCGCTGGCTG CTCTGCCGCC GGAGGAGACT GTTCCTTATT TGGTAGACCA TGGAGAATCC
GGTCCTGTCC GATGTAATAG GTGCAAAGCT TACATGTGCC CTTTTATGCA ATTCATTGAA
GGTGGAAGGA GGTTCCAGTG TTGTTTCTGC AGCTGTGTCA CTGAGGTTCC ACCTCACTAC
TTCCAACATT TGGATCACAC TGGAAAGCGA GTAGATTTCT ATGACCGACC AGAGTTATCA
CTGGGGTCAT ACGAGTTTCT AGCAACAGTT GACTATTGCA AGAATAACAA GTTTCCTAGT
CCACCTGCTT TCATTTTTAT GATTGATGTG TCTTACAATG CTGTGAAGAG TGGCTTAGTG
AGGCTAATAT GTGAAGAATT AAAGTCACTC CTAGATTACC TGCCCAGGGA AGGGAACATG
GAGGAATCAG CCATTCGAGT AGGCTTTGTC ACCTACAACA AAGTTCTGCA TTTCTATAAT
GTGAAGAGCT CACTGGCACA GCCGCAAATG ATGGTGGTCT CAGATGTGGC AGATATGTTT
GTGCCACTCC TTGATGGTTT TCTGGTGAAT GTGAATGAGT CCAGGACAGT TATTGCCAGT
TTACTGGATC AGATTCCAGA AATGTTTGCA GACACAAGAG AAACAGAAAC TGTTTTTGCA
CCTGTGATTC AAGCAGGGCT GGAGGCACTG AAGGCAGCAG AGTGTGCTGG CAAGCTCTTC
ATTTTCCACA CCTCTCTGCC CATTGCAGAG GCTCCAGGAA AGTTAAAGAA CAGGGATGAT
AGGAAACTGA TCAACACAGA TAAGGAGAAG ACTTTGTTTC AACCACAGAC GAGCTTTTAC
AACAACTTGG CCAAGGACTG TGTGGCGCAG GGCTGTTGTG TGGATCTGTT CCTGTTTCCA
AACCAGTATT TGGATGTGGC CACGCTGGGT GTGGTACCTT ACCAGACAGG AGGCTCCATT
TTTAAGTATG CGTATTTCCA GCTGGAGACA GACCAGTACA GATTCCTGAA TGACTTGAGG
AGGGATGTCC AGAAAGAAGT GGGATTTGAT GCTGTAATGA GAGTGCGCAC AAGCACAGGT
ATTAGAGCAA CAGACTTTTT TGGAGCTTTC TATATGAGCA ACACAACTGA TGTAGAGATG
GCAGGTCTGG ACTGTGATAA AACAATCACA GTGGAATTCA AGCATGATGA TAAATTGAGT
GAAGATAGTG GTGCACTGCT TCAGTGTGCT CTGCTGTATA CAAGTTGTGC AGGACAGCGA
CGACTCCGCA TTCACAATCT CTCCTTAAAC TGCTGCACGC AGCTTGCTGA CCTCTATCGG
AACTGTGAGA CTGACACCCT CATCAACTAC TTGGCTAAGT ATGCATATCG TGGAGTCTTG
AGTAGTCCAG TGAAGACTGT ACGAGATGCA CTCATCAACC AGTGTGCCCA GATCCTAGCC
TGCTATCGGA AGAACTGTGC TAGTCCCTCT TCTGCTGGCC AGCTCATCCT CCCCGAATGC
ATGAAGCTGC TTCCTGTGTA CTTGAACTGT GTGTTGAAGA GTGACGTGCT TCAGCCCGGC
CCAGAGGTCA CAACAGACGA CCGTGCCTAC GTCCGTCAGT TAGTGACGTC CATGGATGTG
GCTGAAACAA ACGTTTTCTT TTATCCCAGG CTTTTGCCTC TGACCAAAGC AGATGTTGAC
AGTGATTCCT TGCCAGCAGC CATTCGGAAC TCTGAGGAGC GTCTCTCCAA GGGTGACATC
TACCTGCTGG AGAATGGGCT GAACATCTTT GTGTGGGTGG GAATCAACGT GCAGCAAGGC
CTGATCCAGA ACCTCTTTGG AGTGTCATCC TTCAATCAAA TTAGCAATGC CTTGAGTACC
CTGCCAGTCT TGGAAAACCC CTTTTCAAAG AAAGTGCGAT CTATTGTTGA TATGCTTCAA
GGACAGAGAT CCCGCTACAT GAAGTTGATA ATTGTGAAGC AAGAAGATAA GCTGGAAATG
CTGTTCAAAC ACTTTCTAGT GGAGGACAAG AGCCTGAGTG GGGGGGCTTC CTATGTGGAC
TTCCTGTGTC ACATGCACAA GGAGATTCGG CAGCTACTGA GCTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd49172 Clone ID Related Accession (Same CDS sequence) XM_030276873.1 Accession Version XM_030276873.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3132bp)
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 protein transport protein Sec24C isoform X10 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044218.1) 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
3121ATGAGTGTAA ACCAGCAAGC TCACACGGGG CCTCCTTATG GGCAACCTCA GCCTGGATAT
CAGGGATACC AGCAGCCTGC CTACGGAGGA CAGTCATTGC CAGGGGTTCC TCAGGCGCAG
TATGGAGCTT ATAATGGGCC GGTGCCAGGA TATCAACAGC CAGTCCCTCC ACAAGGTTCA
TTAAGAGCCC CGCCAACATC TGGAGCTCCC CCTCCAGCCT CTGGAGCATC TCATCCTTCT
GGCCACTTGG CATACAGTCA GTTTGAACAT GGAGATGTGC AGAATGGAAT TCCAGCCTCA
ACAGCTCCAA TGCAGAGGCC ACCTGCTTCT CAGCCGTTCC TGCCAGGCTC AGCACCCACG
CCTGTCAGCC AGATACCTAC GTTCCAGCAA TATGGGGCCC CCCCAGCCAG CGTGCAGCAG
CTCAGGAATC ACATGGCAGG GATGACAATT GGTGGTACTG CAGCCTCTGC TCCTCCCCCA
GCTGGACTGG GCTATGGTGC TCCAAGGCCA CCTGCCATGC CAGGCCCACC ACTGCCTGGG
CAGACAGTTG CTGGACCACC ATCATCCCAG CCTAATCATG TATCCTCACC ACCACCTCCA
TCAACTATGG CAGGGCTGCA CCCTGGGCCT CCCATGAGTG GTCTCCATGG ACCACCTCCT
CCCACTCATC CTCCTCAGCC AGGATACCAA ATGCAGCAGA ATGGTTCCTT TGGACAGATG
AGGGGTCCTC CACCAAACTA TGGAGGAGCC TATCCAGGAG CACCAAATTA TGGAAGTCCT
CCTGGACCAC CACCTCCACC AAAACGCTTG GATCCAGATT CCATTCCTAG CCCTATTCAA
GTGATTGAAG ATGACAGAAA TAACCGTGGG TCAGAACCAT TTGTCACTGG AGTGAGAGGG
CAGGTCCCAC CTCTTGTTAC TACAAATTTC TTGGTCAAGG ATCAAGGTAA TGCAAGCCCC
CGCTACATCA GGTGCACATC TTACAATATT CCCTGCACGT CTGACATGGC CAAACAATCC
CAAGTTCCCC TGGCTGCCGT CATAAAGCCG CTGGCTGCTC TGCCGCCGGA GGAGACTGTT
CCTTATTTGG TAGACCATGG AGAATCCGGT CCTGTCCGAT GTAATAGGTG CAAAGCTTAC
ATGTGCCCTT TTATGCAATT CATTGAAGGT GGAAGGAGGT TCCAGTGTTG TTTCTGCAGC
TGTGTCACTG AGGTTCCACC TCACTACTTC CAACATTTGG ATCACACTGG AAAGCGAGTA
GATTTCTATG ACCGACCAGA GTTATCACTG GGGTCATACG AGTTTCTAGC AACAGTTGAC
TATTGCAAGA ATAACAAGTT TCCTAGTCCA CCTGCTTTCA TTTTTATGAT TGATGTGTCT
TACAATGCTG TGAAGAGTGG CTTAGTGAGG CTAATATGTG AAGAATTAAA GTCACTCCTA
GATTACCTGC CCAGGGAAGG GAACATGGAG GAATCAGCCA TTCGAGTAGG CTTTGTCACC
TACAACAAAG TTCTGCATTT CTATAATGTG AAGAGCTCAC TGGCACAGCC GCAAATGATG
GTGGTCTCAG ATGTGGCAGA TATGTTTGTG CCACTCCTTG ATGGTTTTCT GGTGAATGTG
AATGAGTCCA GGACAGTTAT TGCCAGTTTA CTGGATCAGA TTCCAGAAAT GTTTGCAGAC
ACAAGAGAAA CAGAAACTGT TTTTGCACCT GTGATTCAAG CAGGGCTGGA GGCACTGAAG
GCAGCAGAGT GTGCTGGCAA GCTCTTCATT TTCCACACCT CTCTGCCCAT TGCAGAGGCT
CCAGGAAAGT TAAAGAACAG GGATGATAGG AAACTGATCA ACACAGATAA GGAGAAGACT
TTGTTTCAAC CACAGACGAG CTTTTACAAC AACTTGGCCA AGGACTGTGT GGCGCAGGGC
TGTTGTGTGG ATCTGTTCCT GTTTCCAAAC CAGTATTTGG ATGTGGCCAC GCTGGGTGTG
GTACCTTACC AGACAGGAGG CTCCATTTTT AAGTATGCGT ATTTCCAGCT GGAGACAGAC
CAGTACAGAT TCCTGAATGA CTTGAGGAGG GATGTCCAGA AAGAAGTGGG ATTTGATGCT
GTAATGAGAG TGCGCACAAG CACAGGTATT AGAGCAACAG ACTTTTTTGG AGCTTTCTAT
ATGAGCAACA CAACTGATGT AGAGATGGCA GGTCTGGACT GTGATAAAAC AATCACAGTG
GAATTCAAGC ATGATGATAA ATTGAGTGAA GATAGTGGTG CACTGCTTCA GTGTGCTCTG
CTGTATACAA GTTGTGCAGG ACAGCGACGA CTCCGCATTC ACAATCTCTC CTTAAACTGC
TGCACGCAGC TTGCTGACCT CTATCGGAAC TGTGAGACTG ACACCCTCAT CAACTACTTG
GCTAAGTATG CATATCGTGG AGTCTTGAGT AGTCCAGTGA AGACTGTACG AGATGCACTC
ATCAACCAGT GTGCCCAGAT CCTAGCCTGC TATCGGAAGA ACTGTGCTAG TCCCTCTTCT
GCTGGCCAGC TCATCCTCCC CGAATGCATG AAGCTGCTTC CTGTGTACTT GAACTGTGTG
TTGAAGAGTG ACGTGCTTCA GCCCGGCCCA GAGGTCACAA CAGACGACCG TGCCTACGTC
CGTCAGTTAG TGACGTCCAT GGATGTGGCT GAAACAAACG TTTTCTTTTA TCCCAGGCTT
TTGCCTCTGA CCAAAGCAGA TGTTGACAGT GATTCCTTGC CAGCAGCCAT TCGGAACTCT
GAGGAGCGTC TCTCCAAGGG TGACATCTAC CTGCTGGAGA ATGGGCTGAA CATCTTTGTG
TGGGTGGGAA TCAACGTGCA GCAAGGCCTG ATCCAGAACC TCTTTGGAGT GTCATCCTTC
AATCAAATTA GCAATGCCTT GAGTACCCTG CCAGTCTTGG AAAACCCCTT TTCAAAGAAA
GTGCGATCTA TTGTTGATAT GCTTCAAGGA CAGAGATCCC GCTACATGAA GTTGATAATT
GTGAAGCAAG AAGATAAGCT GGAAATGCTG TTCAAACACT TTCTAGTGGA GGACAAGAGC
CTGAGTGGGG GGGCTTCCTA TGTGGACTTC CTGTGTCACA TGCACAAGGA GATTCGGCAG
CTACTGAGCT AGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030132733.1 CDS 85..3216 Translation
Target ORF information:
RefSeq Version XM_030276873.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata SEC24 homolog C, COPII coat complex component (SEC24C), transcript variant X11, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030276873.1
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
3121ATGAGTGTAA ACCAGCAAGC TCACACGGGG CCTCCTTATG GGCAACCTCA GCCTGGATAT
CAGGGATACC AGCAGCCTGC CTACGGAGGA CAGTCATTGC CAGGGGTTCC TCAGGCGCAG
TATGGAGCTT ATAATGGGCC GGTGCCAGGA TATCAACAGC CAGTCCCTCC ACAAGGTTCA
TTAAGAGCCC CGCCAACATC TGGAGCTCCC CCTCCAGCCT CTGGAGCATC TCATCCTTCT
GGCCACTTGG CATACAGTCA GTTTGAACAT GGAGATGTGC AGAATGGAAT TCCAGCCTCA
ACAGCTCCAA TGCAGAGGCC ACCTGCTTCT CAGCCGTTCC TGCCAGGCTC AGCACCCACG
CCTGTCAGCC AGATACCTAC GTTCCAGCAA TATGGGGCCC CCCCAGCCAG CGTGCAGCAG
CTCAGGAATC ACATGGCAGG GATGACAATT GGTGGTACTG CAGCCTCTGC TCCTCCCCCA
GCTGGACTGG GCTATGGTGC TCCAAGGCCA CCTGCCATGC CAGGCCCACC ACTGCCTGGG
CAGACAGTTG CTGGACCACC ATCATCCCAG CCTAATCATG TATCCTCACC ACCACCTCCA
TCAACTATGG CAGGGCTGCA CCCTGGGCCT CCCATGAGTG GTCTCCATGG ACCACCTCCT
CCCACTCATC CTCCTCAGCC AGGATACCAA ATGCAGCAGA ATGGTTCCTT TGGACAGATG
AGGGGTCCTC CACCAAACTA TGGAGGAGCC TATCCAGGAG CACCAAATTA TGGAAGTCCT
CCTGGACCAC CACCTCCACC AAAACGCTTG GATCCAGATT CCATTCCTAG CCCTATTCAA
GTGATTGAAG ATGACAGAAA TAACCGTGGG TCAGAACCAT TTGTCACTGG AGTGAGAGGG
CAGGTCCCAC CTCTTGTTAC TACAAATTTC TTGGTCAAGG ATCAAGGTAA TGCAAGCCCC
CGCTACATCA GGTGCACATC TTACAATATT CCCTGCACGT CTGACATGGC CAAACAATCC
CAAGTTCCCC TGGCTGCCGT CATAAAGCCG CTGGCTGCTC TGCCGCCGGA GGAGACTGTT
CCTTATTTGG TAGACCATGG AGAATCCGGT CCTGTCCGAT GTAATAGGTG CAAAGCTTAC
ATGTGCCCTT TTATGCAATT CATTGAAGGT GGAAGGAGGT TCCAGTGTTG TTTCTGCAGC
TGTGTCACTG AGGTTCCACC TCACTACTTC CAACATTTGG ATCACACTGG AAAGCGAGTA
GATTTCTATG ACCGACCAGA GTTATCACTG GGGTCATACG AGTTTCTAGC AACAGTTGAC
TATTGCAAGA ATAACAAGTT TCCTAGTCCA CCTGCTTTCA TTTTTATGAT TGATGTGTCT
TACAATGCTG TGAAGAGTGG CTTAGTGAGG CTAATATGTG AAGAATTAAA GTCACTCCTA
GATTACCTGC CCAGGGAAGG GAACATGGAG GAATCAGCCA TTCGAGTAGG CTTTGTCACC
TACAACAAAG TTCTGCATTT CTATAATGTG AAGAGCTCAC TGGCACAGCC GCAAATGATG
GTGGTCTCAG ATGTGGCAGA TATGTTTGTG CCACTCCTTG ATGGTTTTCT GGTGAATGTG
AATGAGTCCA GGACAGTTAT TGCCAGTTTA CTGGATCAGA TTCCAGAAAT GTTTGCAGAC
ACAAGAGAAA CAGAAACTGT TTTTGCACCT GTGATTCAAG CAGGGCTGGA GGCACTGAAG
GCAGCAGAGT GTGCTGGCAA GCTCTTCATT TTCCACACCT CTCTGCCCAT TGCAGAGGCT
CCAGGAAAGT TAAAGAACAG GGATGATAGG AAACTGATCA ACACAGATAA GGAGAAGACT
TTGTTTCAAC CACAGACGAG CTTTTACAAC AACTTGGCCA AGGACTGTGT GGCGCAGGGC
TGTTGTGTGG ATCTGTTCCT GTTTCCAAAC CAGTATTTGG ATGTGGCCAC GCTGGGTGTG
GTACCTTACC AGACAGGAGG CTCCATTTTT AAGTATGCGT ATTTCCAGCT GGAGACAGAC
CAGTACAGAT TCCTGAATGA CTTGAGGAGG GATGTCCAGA AAGAAGTGGG ATTTGATGCT
GTAATGAGAG TGCGCACAAG CACAGGTATT AGAGCAACAG ACTTTTTTGG AGCTTTCTAT
ATGAGCAACA CAACTGATGT AGAGATGGCA GGTCTGGACT GTGATAAAAC AATCACAGTG
GAATTCAAGC ATGATGATAA ATTGAGTGAA GATAGTGGTG CACTGCTTCA GTGTGCTCTG
CTGTATACAA GTTGTGCAGG ACAGCGACGA CTCCGCATTC ACAATCTCTC CTTAAACTGC
TGCACGCAGC TTGCTGACCT CTATCGGAAC TGTGAGACTG ACACCCTCAT CAACTACTTG
GCTAAGTATG CATATCGTGG AGTCTTGAGT AGTCCAGTGA AGACTGTACG AGATGCACTC
ATCAACCAGT GTGCCCAGAT CCTAGCCTGC TATCGGAAGA ACTGTGCTAG TCCCTCTTCT
GCTGGCCAGC TCATCCTCCC CGAATGCATG AAGCTGCTTC CTGTGTACTT GAACTGTGTG
TTGAAGAGTG ACGTGCTTCA GCCCGGCCCA GAGGTCACAA CAGACGACCG TGCCTACGTC
CGTCAGTTAG TGACGTCCAT GGATGTGGCT GAAACAAACG TTTTCTTTTA TCCCAGGCTT
TTGCCTCTGA CCAAAGCAGA TGTTGACAGT GATTCCTTGC CAGCAGCCAT TCGGAACTCT
GAGGAGCGTC TCTCCAAGGG TGACATCTAC CTGCTGGAGA ATGGGCTGAA CATCTTTGTG
TGGGTGGGAA TCAACGTGCA GCAAGGCCTG ATCCAGAACC TCTTTGGAGT GTCATCCTTC
AATCAAATTA GCAATGCCTT GAGTACCCTG CCAGTCTTGG AAAACCCCTT TTCAAAGAAA
GTGCGATCTA TTGTTGATAT GCTTCAAGGA CAGAGATCCC GCTACATGAA GTTGATAATT
GTGAAGCAAG AAGATAAGCT GGAAATGCTG TTCAAACACT TTCTAGTGGA GGACAAGAGC
CTGAGTGGGG GGGCTTCCTA TGTGGACTTC CTGTGTCACA TGCACAAGGA GATTCGGCAG
CTACTGAGCT AGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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