| Gene Symbol | SMG8 |
| Entrez Gene ID | 100230008 |
| Full Name | SMG8, nonsense mediated mRNA decay factor |
| Gene Type | protein-coding |
| Organism | Taeniopygia guttata(zebra finch) |
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SMG8 cDNA ORF clone, Taeniopygia guttata(zebra finch)
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Gene
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Clones
gRNAs
The following SMG8 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the SMG8 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 OTd03273 Clone ID Related Accession (Same CDS sequence) XM_002196368.3 Accession Version XM_002196368.3 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 2991bp)
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 SMG8 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002197521.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On May 26, 2015 this sequence version replaced XM_002196368.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Taeniopygia guttata Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 6% of CDS bases ##RefSeq-Attributes-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941ATGGGGACCG GTGGCGCTGC TCCAGTGTCG GAATCTGTCA CCAGCTCATC TGTCTCTGAA
CTCATCACCA GTCCCAAGCT GCTCCCGCTG GCCTTTAGCC TTGCCCAGTG TAAAAAGTGT
GCTCAGACCC TTGACAACAG CAGCATCATT TCTGTATTGG TGGTGCCAGA GCAGGGTTGC
ACAGGGGGGG CGGCGGGCGG CGAGGAGGAG GTGTGCGTGG TGGGCATCTT CGGCAAAACC
GCGCTGCAGC TCTGCTCCCA GAAGGATGCC CTGGTGAGCA CCGTGTGCGA CCGGCAGGTG
TTCCCGCTGT TCCCGGAGGA GGATCCCGAG CTGGCGGATG GCGCGGCGGG GCAGGACGGG
GACCCGGCCA CCAAGGACTA CAACCAGCTG CAGGCGTACT ACAGCCAGGA GAGCCGCGTG
CTGTACCTGG TGCTCACCTC CATCTGCGAC ACGCCGCAGC TGCTGCGCGC CTGCGGAGAC
CTGGCGGCGG CCGAGAACAG AGAGGCCGGA CCCGGCCACC CCTCCGGAGG GCCGGCCCCG
CTGCCCCACG CCGAGGCGCA CGAGTTCTGG AAGCACCAGG AGAAGCTGCA CTGCCTGAGC
CTCCTCTACC TCTTCTCCGT GTGCCACATC CTCCTGCTGG TGCATCCCAC CTGCTCCTTC
GACATCACCT ACGACCGCGT GTTCAGGGCG CTGGATGGGT TGCGGCAGAA GGTGCTGCCC
TCCCTGAAGG CTGCCATCAA GGACTGCCCT GTCGGCAAGG AGTGGAAGCT CAACTGCAGA
CCATGCCCTC CACGCCTCCT CTTCCTCTTC CAGCTCAACG GGGCTCTGAA GGTGGATCCG
CTGCCAAGCA GGGGCCAGGA TCCCTGTGGT CACCTGGAAA AGCCACCCCC CAAGAAGCAT
TCCCCCAAGA GGAGGCTGCA GCACGCTCTG GAGGATCAGA TCTACCGCAT CTTCCGCAAG
AGCCGGGTGC TGACCAACCA GAGCATCAAC TGCCTGTTCA CCGTGCCCGC CAACCAGGCT
TTCGTCTACA TCGTGGCCGG TGGACCCCAG GATGGAGATG ATCCTGTGGC CATGCTTCTC
GACCAGCTCA GGAGCAACTG CACCATGAGA GAGACTGACT CGCTGCTGGC TCCCACCCTG
TCGGGACCCA GGAGGTATCA GATGATGAGG CATGGCCGGC AGCAGCTCTC CTTCCACGCA
GAGAGCAGCA GCTCCAGCTC CTCTGGGCAG CTCGTGGACT GCACCCTCAA GGAGTTCTTG
TGGCAGCACG TGGAGTTGGT GCTCAGCAAG AAGGGCTTTG AAGACAGCGT GGGGAGGAAC
CCGCAGCCCT CTCACTTCGA GCTCCCGACC TACCAGAAGT GGGTGGCTGC AGCTCTAAAA
CTCTATGAAG TGACTATCGA AGGCAAAGAC GATGACCCAA CCTGCGGCGA GCTGAGCTCA
AAAATCATGA GCAGCATCAA AGTTTTGGAA GGCTACTTAG ACATAGACAC CAAGTTCTCC
GAAAACCGTT GCCAGAAGGC TCTGCCCATG GCCCACAGTG CCTACCAGTC CAACCTGCCC
CACAATTACA CCATGACAGT GCACAAGAAC CAGCTGGCCC AGGCCCTGCG TGTGTACAGC
CAGCACGCCC GGGGCCCAGC CTTCCACAAA TACGCCATGC AGCTCAACGA GGACTGCTAC
AAGTTCTGGA GCAACGGGCA CCAGCTCTGC GAGGAGCGGA GCTTGACAGA CCAGCACTGC
GTGCACAAGT TCCATCTGCT CCCCAAAGCA GGGGAAAAGC CAGAAGCAGA CAGAAATCCT
CCAATTCTGT ACCACAACAG CCGGGCTCGT TCCACTGGTG CCTGTAACTG TGGAAGGAAA
CAAGCTCCTC GGGAGGACCC CTTTGATATC AAAGCAGCTA ATTATGACTT TTACCAGCTG
CTGGAAGAGA AGTGCTGTGG AAAACTGGAG CACATCAACT TCCCCATATT TCAGCCAAGC
ACACCTGACC CGGCGCCTGC TCGGGACGAG GCATCGCCCG CCCCTCCGGA AGGCGAGATC
GAGAAACTCA AAGAGAAAGA ACCTCAGACT CAGGGAGAGA GCACAGGCCT GAGCTTAGCC
CTGAGCCTGG GCCAGTCTAC AGGCAGCCTG GGCACTTACC CACCCGATGC CCAGGGCGGA
GGGGACAATG CAGAAAGCCA CGGGCAGAGC GGAGACTCCA AGAGCGAGAA GAGGCCGAGC
CTGGTGGATC GCCAGGCTTC CACTGTCGAG TACCTCCCCG GGATGCTCCA TTCCAACTGC
CCCAAAGGCC TTCTGCCCAA ATTCTCCAGT TGGTCACTGG TCAAGCTGGG GCCTGCTAAG
GCTTATAACT TCCACACAGG TTTAGATCAA CAGGGCTTTA TCCCGGGAAC AAACTATTTA
ATGCCTTGGG ACATCGTCAT CAGGACGAGA ACTGAAGATG AAGGAGACTT AGACACCAAT
TCCTGGCCTG CACCCAACAA GGCTGTTCCT GGGAAAAGAA GCTCAGTGGT GATGGGAAGA
GGCCGGCGGA GGGACGACAT CGCTCGGGCT TTTGTGGGCT TCGAATATGA AGATGCACGT
GGGAGGAGAT TCATGTGCTC AGGGCCTGAT AAGGTGATGA AGGTGATGGG AGGGGGGCCG
AAGGAATCTG CCCTGAAAGC CCTCAACTCC GACATGCCCC TGTACATCCT GTCCTCGACG
CAGGGCCGGG GCCTCAAGCC CCACTACGCC CAGTTCATGA GGCTCTTCGT GGTGGTTCCC
GATGCTCCTC TGCAGATCAC CTTAACGCCT CAGGTTCAAC CAGGACCACC ACCCTGTCCC
ATATTTTACC CTGAGAAGCA GGAAATCACC CTTCCCTCTG ATGGACTCTG GGTGCTGAGG
TTTCCCTATG CCTACGTGAC AGAACGGGGG CCCTGCTTCC CTCCCAAAGA AAGCCAACAG
TTAATGAGCT ACAAAGTTCT CCGAGGAATA CTGAAAGCAA TTACACAGTA AThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_002196404.1 CDS 1..2991 Translation 
Target ORF information:
RefSeq Version XM_002196368.3 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata SMG8 nonsense mediated mRNA decay factor (SMG8), mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_002196368.3
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941ATGGGGACCG GTGGCGCTGC TCCAGTGTCG GAATCTGTCA CCAGCTCATC TGTCTCTGAA
CTCATCACCA GTCCCAAGCT GCTCCCGCTG GCCTTTAGCC TTGCCCAGTG TAAAAAGTGT
GCTCAGACCC TTGACAACAG CAGCATCATT TCTGTATTGG TGGTGCCAGA GCAGGGTTGC
ACAGGGGGGG CGGCGGGCGG CGAGGAGGAG GTGTGCGTGG TGGGCATCTT CGGCAAAACC
GCGCTGCAGC TCTGCTCCCA GAAGGATGCC CTGGTGAGCA CCGTGTGCGA CCGGCAGGTG
TTCCCGCTGT TCCCGGAGGA GGATCCCGAG CTGGCGGATG GCGCGGCGGG GCAGGACGGG
GACCCGGCCA CCAAGGACTA CAACCAGCTG CAGGCGTACT ACAGCCAGGA GAGCCGCGTG
CTGTACCTGG TGCTCACCTC CATCTGCGAC ACGCCGCAGC TGCTGCGCGC CTGCGGAGAC
CTGGCGGCGG CCGAGAACAG AGAGGCCGGA CCCGGCCACC CCTCCGGAGG GCCGGCCCCG
CTGCCCCACG CCGAGGCGCA CGAGTTCTGG AAGCACCAGG AGAAGCTGCA CTGCCTGAGC
CTCCTCTACC TCTTCTCCGT GTGCCACATC CTCCTGCTGG TGCATCCCAC CTGCTCCTTC
GACATCACCT ACGACCGCGT GTTCAGGGCG CTGGATGGGT TGCGGCAGAA GGTGCTGCCC
TCCCTGAAGG CTGCCATCAA GGACTGCCCT GTCGGCAAGG AGTGGAAGCT CAACTGCAGA
CCATGCCCTC CACGCCTCCT CTTCCTCTTC CAGCTCAACG GGGCTCTGAA GGTGGATCCG
CTGCCAAGCA GGGGCCAGGA TCCCTGTGGT CACCTGGAAA AGCCACCCCC CAAGAAGCAT
TCCCCCAAGA GGAGGCTGCA GCACGCTCTG GAGGATCAGA TCTACCGCAT CTTCCGCAAG
AGCCGGGTGC TGACCAACCA GAGCATCAAC TGCCTGTTCA CCGTGCCCGC CAACCAGGCT
TTCGTCTACA TCGTGGCCGG TGGACCCCAG GATGGAGATG ATCCTGTGGC CATGCTTCTC
GACCAGCTCA GGAGCAACTG CACCATGAGA GAGACTGACT CGCTGCTGGC TCCCACCCTG
TCGGGACCCA GGAGGTATCA GATGATGAGG CATGGCCGGC AGCAGCTCTC CTTCCACGCA
GAGAGCAGCA GCTCCAGCTC CTCTGGGCAG CTCGTGGACT GCACCCTCAA GGAGTTCTTG
TGGCAGCACG TGGAGTTGGT GCTCAGCAAG AAGGGCTTTG AAGACAGCGT GGGGAGGAAC
CCGCAGCCCT CTCACTTCGA GCTCCCGACC TACCAGAAGT GGGTGGCTGC AGCTCTAAAA
CTCTATGAAG TGACTATCGA AGGCAAAGAC GATGACCCAA CCTGCGGCGA GCTGAGCTCA
AAAATCATGA GCAGCATCAA AGTTTTGGAA GGCTACTTAG ACATAGACAC CAAGTTCTCC
GAAAACCGTT GCCAGAAGGC TCTGCCCATG GCCCACAGTG CCTACCAGTC CAACCTGCCC
CACAATTACA CCATGACAGT GCACAAGAAC CAGCTGGCCC AGGCCCTGCG TGTGTACAGC
CAGCACGCCC GGGGCCCAGC CTTCCACAAA TACGCCATGC AGCTCAACGA GGACTGCTAC
AAGTTCTGGA GCAACGGGCA CCAGCTCTGC GAGGAGCGGA GCTTGACAGA CCAGCACTGC
GTGCACAAGT TCCATCTGCT CCCCAAAGCA GGGGAAAAGC CAGAAGCAGA CAGAAATCCT
CCAATTCTGT ACCACAACAG CCGGGCTCGT TCCACTGGTG CCTGTAACTG TGGAAGGAAA
CAAGCTCCTC GGGAGGACCC CTTTGATATC AAAGCAGCTA ATTATGACTT TTACCAGCTG
CTGGAAGAGA AGTGCTGTGG AAAACTGGAG CACATCAACT TCCCCATATT TCAGCCAAGC
ACACCTGACC CGGCGCCTGC TCGGGACGAG GCATCGCCCG CCCCTCCGGA AGGCGAGATC
GAGAAACTCA AAGAGAAAGA ACCTCAGACT CAGGGAGAGA GCACAGGCCT GAGCTTAGCC
CTGAGCCTGG GCCAGTCTAC AGGCAGCCTG GGCACTTACC CACCCGATGC CCAGGGCGGA
GGGGACAATG CAGAAAGCCA CGGGCAGAGC GGAGACTCCA AGAGCGAGAA GAGGCCGAGC
CTGGTGGATC GCCAGGCTTC CACTGTCGAG TACCTCCCCG GGATGCTCCA TTCCAACTGC
CCCAAAGGCC TTCTGCCCAA ATTCTCCAGT TGGTCACTGG TCAAGCTGGG GCCTGCTAAG
GCTTATAACT TCCACACAGG TTTAGATCAA CAGGGCTTTA TCCCGGGAAC AAACTATTTA
ATGCCTTGGG ACATCGTCAT CAGGACGAGA ACTGAAGATG AAGGAGACTT AGACACCAAT
TCCTGGCCTG CACCCAACAA GGCTGTTCCT GGGAAAAGAA GCTCAGTGGT GATGGGAAGA
GGCCGGCGGA GGGACGACAT CGCTCGGGCT TTTGTGGGCT TCGAATATGA AGATGCACGT
GGGAGGAGAT TCATGTGCTC AGGGCCTGAT AAGGTGATGA AGGTGATGGG AGGGGGGCCG
AAGGAATCTG CCCTGAAAGC CCTCAACTCC GACATGCCCC TGTACATCCT GTCCTCGACG
CAGGGCCGGG GCCTCAAGCC CCACTACGCC CAGTTCATGA GGCTCTTCGT GGTGGTTCCC
GATGCTCCTC TGCAGATCAC CTTAACGCCT CAGGTTCAAC CAGGACCACC ACCCTGTCCC
ATATTTTACC CTGAGAAGCA GGAAATCACC CTTCCCTCTG ATGGACTCTG GGTGCTGAGG
TTTCCCTATG CCTACGTGAC AGAACGGGGG CCCTGCTTCC CTCCCAAAGA AAGCCAACAG
TTAATGAGCT ACAAAGTTCT CCGAGGAATA CTGAAAGCAA TTACACAGTA AThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd31954 Clone ID Related Accession (Same CDS sequence) XM_030287921.1 Accession Version XM_030287921.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 2949bp)
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 SMG8 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044231.1) 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
2941ATGCGCGGGC CGGGCCGGGG CTCCGCCGCT TCAGGCCGGC AGCGGGGCCG GCAGCGGGGC
CGGGCCATGC CGCCGCCCGG GGCCGCGGGC ACGGCCGTGG GGCCCATGAG CCTGCGGGAG
CTGCTGCTGG CGGCCGAGGC GGGCGGCGCG GCGGGCGGCG AGGAGGAGGT GTGCGTGGTG
GGCATCTTCG GCAAAACCGC GCTGCAGCTC TGCTCCGAGA AGGAGGCCCT GGTGAGCACC
GTGTGCGACC GGCAGGTGTT CCCGCTGTTC CCGGAGGAGG ATCCCGAGCT GGCGGATGGC
GCGGCGGGGC AGGACGGGGA CCCGGCCACC AAGGACTACA ACCAGCTGCA GGCGTACTAC
AGCCAGGAGA GCCGCGTGCT GTACCTGGTG CTCACCTCCA TCTGCGACAC GCCGCAGCTG
CTGCGCGCCT GCGGAGACCT GGCGGCGGCC GAGAACAGAG AGGCCGGACC CGGCCACCCC
TCCGGAGGGC CGGCCCCGCT GCCCCACGCC GAGGCGCACG AGTTCTGGAA GCACCAGGAG
AAGCTGCACT GCCTGAGCCT CCTCTACCTC TTCTCCGTGT GCCACATCCT CCTGCTGGTG
CATCCCACCT GCTCCTTCGA CATCACCTAC GACCGCGTGT TCAGGGCGCT GGACGGGCTG
CGGCAGAAGG TGCTGCCCTC CCTGAAGGCT GCCATCAAGG ACTGCCCTGT CGGCAAGGAG
TGGAAGCTCA ACTGCAGACC ATGCCCTCCA CGCCTCCTCT TCCTCTTCCA GCTCAACGGG
GCTCTGAAGG TGGATCCGCT GCCAAGCAGG GGCCAGGATC CCTGTGGTCA CCTGGAAAAG
CCACCCCCCA AGAAGCATTC CCCCAAGAGG AGGCTGCAGC ACGCTCTGGA GGATCAGATC
TACCGCATCT TCCGCAAGAG CCGGGTGCTG ACCAACCAGA GCATCAACTG CCTGTTCACC
GTGCCTGCCA ACCAGGCTTT CGTCTACATC GTGGCCGGTG GGCCCCAGGA TGGAGATGAT
CCTGTGGCCA TGCTTCTCGA CCAGCTCAGG AGCAACTGCA CCATGAGAGA GACTGACTCG
CTGCTGGCTC CCACCCTGTC GGGACCCAGG AGGTATCAGA TGATGAGGCA CGGCCGGCAG
CAGCTCTCCT TCCACGCAGA GAGCAGCAGC TCCAGCTCCT CTGGGCAGCT CGTGGACTGC
ACCCTCAAGG AGTTCTTGTG GCAGCACGTG GAGTTGGTGC TCAGCAAGAA AGGCTTTGAA
GACAGCGTGG GGAGGAACCC GCAGCCCTCT CACTTCGAGC TCCCGACCTA CCAGAAGTGG
GTGGCTGCAG CTCTAAAACT CTATGAAGTG ACTATCGAAG GCAAAGACGA TGACCCAACC
TGCGGCGAGC TGAGCTCAAA AATCATGAGC AGCATCAAAG TTTTGGAAGG CTACTTAGAC
ATAGACACCA AGTTCTCCGA AAACCGTTGC CAGAAGGCTC TGCCCATGGC CCACAGTGCC
TACCAGTCCA ACCTGCCCCA CAATTACACC ATGACAGTGC ACAAGAACCA GCTGGCCCAG
GCCCTGCGTG TGTACAGCCA GCACGCCCGG GGCCCAGCCT TCCACAAATA CGCCATGCAG
CTCAACGAGG ACTGCTACAA GTTCTGGAGC AACGGGCACC AGCTCTGCGA GGAGCGGAGC
TTGACAGACC AGCACTGCGT GCACAAGTTC CATCTGCTCC CCAAAGCAGG GGAAAAGCCA
GAAGCAGACA GAAATCCTCC AATTCTGTAC CACAACAGCC GGGCTCGTTC CACTGGTGCC
TGTAACTGTG GAAGGAAACA AGCTCCTCGG GAGGACCCCT TTGATATCAA AGCAGCTAAT
TATGACTTTT ACCAGCTGCT GGAAGAGAAG TGCTGTGGAA AACTGGAGCA CATCAACTTC
CCCATATTTC AGCCAAGCAC ACCTGACCCG GCGCCTGCTC GGGACGAGGC ATCGCCCGCC
CCTCCGGAAG GCGAGATCGA GAAACTCAAA GAGAAAGAAC CTCAGACTCA GGGAGAGAGC
ACAGGCCTGA GCTTAGCCCT GAGCCTGGGC CAGTCTACAG GCAGCCTGGG CACTTACCCA
CCCGATGCCC AGGGCGGAGG GGACAATGCA GAAAGCCACG GGCAGAGCGG AGACTCCAAG
AGCGAGAAGA GGCCGAGCCT GGTGGATCGC CAGGCTTCCA CTGTCGAGTA CCTCCCCGGG
ATGCTCCATT CCAACTGCCC CAAAGGCCTT CTGCCCAAAT TCTCCAGTTG GTCACTGGTC
AAGCTGGGGC CTGCTAAGGC TTATAACTTC CACACAGGTT TAGATCAACA GGGCTTTATC
CCGGGAACAA ACTATTTAAT GCCTTGGGAC ATCGTCATCA GGACGAGAAC TGAAGATGAA
GGAGACTTAG ACACCAATTC CTGGCCTGCA CCCAACAAGG CTGTTCCTGG GAAAAGAAGC
TCAGTGGTGA TGGGAAGAGG CCGGCGGAGG GACGACATCG CTCGGGCTTT TGTGGGCTTC
GAATATGAAG ATGCACGTGG GAGGAGATTC ATGTGCTCAG GGCCTGATAA GGTGATGAAG
GTGATGGGAG GGGGGCCGAA GGAATCTGCC CTGAAAGCCC TCAACTCCGA CATGCCCCTG
TACATCCTGT CCTCGACGCA GGGCCGGGGC CTCAAGCCCC ACTACGCCCA GTTCATGAGG
CTCTTCGTGG TGGTTCCCGA TGCTCCTCTG CAGATCACCT TAACGCCTCA GGTTCAACCA
GGACCACCAC CCTGTCCCAT ATTTTACCCT GAGAAGCAGG AAATCACCCT TCCCTCTGAT
GGACTCTGGG TGCTGAGGTT TCCCTATGCC TACGTGACAG AACGGGGGCC CTGCTTCCCT
CCCAAAGAAA GCCAACAGTT AATGAGCTAC AAAGTTCTCC GAGGAATACT GAAAGCAATT
ACACAGTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030143781.1 CDS 31..2979 Translation
Target ORF information:
RefSeq Version XM_030287921.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata SMG8 nonsense mediated mRNA decay factor (SMG8), mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030287921.1
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
2941ATGCGCGGGC CGGGCCGGGG CTCCGCCGCT TCAGGCCGGC AGCGGGGCCG GCAGCGGGGC
CGGGCCATGC CGCCGCCCGG GGCCGCGGGC ACGGCCGTGG GGCCCATGAG CCTGCGGGAG
CTGCTGCTGG CGGCCGAGGC GGGCGGCGCG GCGGGCGGCG AGGAGGAGGT GTGCGTGGTG
GGCATCTTCG GCAAAACCGC GCTGCAGCTC TGCTCCGAGA AGGAGGCCCT GGTGAGCACC
GTGTGCGACC GGCAGGTGTT CCCGCTGTTC CCGGAGGAGG ATCCCGAGCT GGCGGATGGC
GCGGCGGGGC AGGACGGGGA CCCGGCCACC AAGGACTACA ACCAGCTGCA GGCGTACTAC
AGCCAGGAGA GCCGCGTGCT GTACCTGGTG CTCACCTCCA TCTGCGACAC GCCGCAGCTG
CTGCGCGCCT GCGGAGACCT GGCGGCGGCC GAGAACAGAG AGGCCGGACC CGGCCACCCC
TCCGGAGGGC CGGCCCCGCT GCCCCACGCC GAGGCGCACG AGTTCTGGAA GCACCAGGAG
AAGCTGCACT GCCTGAGCCT CCTCTACCTC TTCTCCGTGT GCCACATCCT CCTGCTGGTG
CATCCCACCT GCTCCTTCGA CATCACCTAC GACCGCGTGT TCAGGGCGCT GGACGGGCTG
CGGCAGAAGG TGCTGCCCTC CCTGAAGGCT GCCATCAAGG ACTGCCCTGT CGGCAAGGAG
TGGAAGCTCA ACTGCAGACC ATGCCCTCCA CGCCTCCTCT TCCTCTTCCA GCTCAACGGG
GCTCTGAAGG TGGATCCGCT GCCAAGCAGG GGCCAGGATC CCTGTGGTCA CCTGGAAAAG
CCACCCCCCA AGAAGCATTC CCCCAAGAGG AGGCTGCAGC ACGCTCTGGA GGATCAGATC
TACCGCATCT TCCGCAAGAG CCGGGTGCTG ACCAACCAGA GCATCAACTG CCTGTTCACC
GTGCCTGCCA ACCAGGCTTT CGTCTACATC GTGGCCGGTG GGCCCCAGGA TGGAGATGAT
CCTGTGGCCA TGCTTCTCGA CCAGCTCAGG AGCAACTGCA CCATGAGAGA GACTGACTCG
CTGCTGGCTC CCACCCTGTC GGGACCCAGG AGGTATCAGA TGATGAGGCA CGGCCGGCAG
CAGCTCTCCT TCCACGCAGA GAGCAGCAGC TCCAGCTCCT CTGGGCAGCT CGTGGACTGC
ACCCTCAAGG AGTTCTTGTG GCAGCACGTG GAGTTGGTGC TCAGCAAGAA AGGCTTTGAA
GACAGCGTGG GGAGGAACCC GCAGCCCTCT CACTTCGAGC TCCCGACCTA CCAGAAGTGG
GTGGCTGCAG CTCTAAAACT CTATGAAGTG ACTATCGAAG GCAAAGACGA TGACCCAACC
TGCGGCGAGC TGAGCTCAAA AATCATGAGC AGCATCAAAG TTTTGGAAGG CTACTTAGAC
ATAGACACCA AGTTCTCCGA AAACCGTTGC CAGAAGGCTC TGCCCATGGC CCACAGTGCC
TACCAGTCCA ACCTGCCCCA CAATTACACC ATGACAGTGC ACAAGAACCA GCTGGCCCAG
GCCCTGCGTG TGTACAGCCA GCACGCCCGG GGCCCAGCCT TCCACAAATA CGCCATGCAG
CTCAACGAGG ACTGCTACAA GTTCTGGAGC AACGGGCACC AGCTCTGCGA GGAGCGGAGC
TTGACAGACC AGCACTGCGT GCACAAGTTC CATCTGCTCC CCAAAGCAGG GGAAAAGCCA
GAAGCAGACA GAAATCCTCC AATTCTGTAC CACAACAGCC GGGCTCGTTC CACTGGTGCC
TGTAACTGTG GAAGGAAACA AGCTCCTCGG GAGGACCCCT TTGATATCAA AGCAGCTAAT
TATGACTTTT ACCAGCTGCT GGAAGAGAAG TGCTGTGGAA AACTGGAGCA CATCAACTTC
CCCATATTTC AGCCAAGCAC ACCTGACCCG GCGCCTGCTC GGGACGAGGC ATCGCCCGCC
CCTCCGGAAG GCGAGATCGA GAAACTCAAA GAGAAAGAAC CTCAGACTCA GGGAGAGAGC
ACAGGCCTGA GCTTAGCCCT GAGCCTGGGC CAGTCTACAG GCAGCCTGGG CACTTACCCA
CCCGATGCCC AGGGCGGAGG GGACAATGCA GAAAGCCACG GGCAGAGCGG AGACTCCAAG
AGCGAGAAGA GGCCGAGCCT GGTGGATCGC CAGGCTTCCA CTGTCGAGTA CCTCCCCGGG
ATGCTCCATT CCAACTGCCC CAAAGGCCTT CTGCCCAAAT TCTCCAGTTG GTCACTGGTC
AAGCTGGGGC CTGCTAAGGC TTATAACTTC CACACAGGTT TAGATCAACA GGGCTTTATC
CCGGGAACAA ACTATTTAAT GCCTTGGGAC ATCGTCATCA GGACGAGAAC TGAAGATGAA
GGAGACTTAG ACACCAATTC CTGGCCTGCA CCCAACAAGG CTGTTCCTGG GAAAAGAAGC
TCAGTGGTGA TGGGAAGAGG CCGGCGGAGG GACGACATCG CTCGGGCTTT TGTGGGCTTC
GAATATGAAG ATGCACGTGG GAGGAGATTC ATGTGCTCAG GGCCTGATAA GGTGATGAAG
GTGATGGGAG GGGGGCCGAA GGAATCTGCC CTGAAAGCCC TCAACTCCGA CATGCCCCTG
TACATCCTGT CCTCGACGCA GGGCCGGGGC CTCAAGCCCC ACTACGCCCA GTTCATGAGG
CTCTTCGTGG TGGTTCCCGA TGCTCCTCTG CAGATCACCT TAACGCCTCA GGTTCAACCA
GGACCACCAC CCTGTCCCAT ATTTTACCCT GAGAAGCAGG AAATCACCCT TCCCTCTGAT
GGACTCTGGG TGCTGAGGTT TCCCTATGCC TACGTGACAG AACGGGGGCC CTGCTTCCCT
CCCAAAGAAA GCCAACAGTT AATGAGCTAC AAAGTTCTCC GAGGAATACT GAAAGCAATT
ACACAGTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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