| Gene Symbol | NOL8 |
| Entrez Gene ID | 100470973 |
| Full Name | nucleolar protein 8 |
| Gene Type | protein-coding |
| Organism | Ailuropoda melanoleuca(giant panda) |
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NOL8 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)
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Gene
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Clones
gRNAs
The following NOL8 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the NOL8 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 OAc98638 Clone ID Related Accession (Same CDS sequence) XM_019808417.1 Accession Version XM_019808417.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 2943bp)
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 1482768000000 Organism Ailuropoda melanoleuca(giant panda) Product nucleolar protein 8 isoform X4 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218612.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 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
2941ATGAAGTATG ACCCATCAAA ATACTGCCAC AACTTAAAGA AGATCGCAGA GGATGTCACA
CATGCCACCC CTGTGTCCAG CCTCACCTGG CAACTGGAAG GAGGGGATGA CCCTATGAGT
AGGAAGCGAC GAGGGGAGTT CTGTGCCATT CAGACCTCCT CCCAGAAGAG GATCAAAGCA
CAGAAGGACA AGGGGACTGC TGCTTCTCCA GCTGTGAGAG CAGGAACCCT CACGGTCCCG
GGAAGTCCGC ATCCCAAACA GCAAGAGGCG GCACAGGAAG CACGCTGTGA GCTCATTACT
GCTCCGTTGC CCTCTGTCCC TGCTTCTCAC AGCCAGAAAC CTAACAGTAT GTTTGTTCAG
ACTTATGGTG TGGGAAGTGC CAGGCGCAGA AATCACGTGT CTGACGATGA TACCGATTCT
GAAGAAGAGA TACGACTACT GATTGCAAGA GAGGAAAACC TGGGGAAAAC TGCATGGCCC
TCAGTGGGTG ACTCTGCAAA TGAGTCCTTC GAAGTTGTCG GGGGGGACTT CAGGTCAGGT
GTTCACAAGC TGCATTCAGT AACAGCTCTA GGTGTCAGTC ATGTCTCTGA CCGGGATGGG
GAAGGTAATG CCCTGGGAAA CGATTGCAAC TATGATTCAG GAGATACAGA TGAGATCATC
GCAGCAAAGA AAAAGACCAG TAAAGTCAAA AACAGTGCAG AGTTTTCACA AATGGAAAAG
TATGCACACA AGAAAACGCC TTTGAAAAAT AGAAAAAACT GTGAGCTTTC TGATCCTTGT
GTTAAAGGAC AAAAAAGAAA GACCAAGCCA GATGGAGCCA TCAGTCCTAG GGTTACAGTC
CGCTGCAGCA GCAGGGAAGA TTGGGGTTCT GCGTCAGAAT CCGCTGAGTC TGCAGGAGAT
GAGGAGTATG AGGCCATGAT GAAAAACTGC CTCCATGTGC AGCTTACCTT AGCTGATCTG
GAACAGCTGG CTGGCGGTGA CCTGCAGGAT CCGGAAGAAG ATCCTGAGAG CGGTGGCCAG
GAGACCACCA CCAAATGTGA CAGGACTCTG GGGGGCCTGC ACAGAGCCCG GCCATGCATC
TGTCCCGAGG ACATTGTGGC TGCCCTTTTA GAAGGAGAAG AGAACACCTG TGGAAAGCAG
AAACTGAAGG GAAATAACCT ACAGCCGAAA TTCCAAGCTT TCAAGGGAGT AGGCTCTCTC
TATGGAAAGG AATCAATAAA AAAACCCTTG AAAGAAAGTG TTGCCTTTGA CAATATAAAT
AAAGATCAGA ATTCCTTGAA ATTTGATCCC AGTAGCATGT CCATGGAGAA GGGGTCCCCA
CCTGCTAATG GCTCGTCAGG CAAACTAACT CCTCTCCAAC ACGCAAAGAA GGCAAATGAC
CCAAACCAAA TTCAGCCTCA AAAGAGACGT TCTCCTTTCC AGAGCCAGGA TCACGAGATT
GTGTCCCCTA GCAGTTCGGA AGAGGGAGGT AGAAATCCTG TTTCTAGTCT GTTGCCATTA
AAAGATAAGA AAATAAGTCT TGGTACAATT ACCCCCAAGG TAGGCTTTGA TGAAGACTGC
CGCCACAGGA CTGGGGAGAC CGGAGAGGGC TCCAGACAGA GCAGCCACCC AGCGCCTGGG
AAAGCACCGG AGGGCTCCTC CAGGAGAGAC GCTCAGGGAA GCAGCACCAA CTTCCCACTT
CCTGTGAACT GTTGGTCCGA TGTTCACACT AAGGAGAAGC ATGCTGACAA TCAGAAGCGT
TTGGCAGCCT TGGACGCAAG GCAGAAAGCA AAGGAAGTGA GGAAGAAGCT GGTTCATAAT
GCCCTGGCAG ACTTGGATGG TCATCCAGAG GACAAGCCAA CGCACATCAT CTTTGGTTCT
GACAGTGAAA CAGAGGAGCA AAGCCACCCG GGAGAGGAGC CCGTGCAGGA GGCCGTGAGC
AGAGCATCTG GGAGGCTGTT TGACAGCAGT GAGGATGAAG AATCTGGCTT CGAAGATGAC
AGTCACAGGT TCAGAATTAA ACCTCAGTTT GAGGGCAGAG CTGGGCAGAA GCTTCTGGAC
TTGCAGTCTC ACTTCGGCAC TGATGACAGA TTCCGCATGG ACTCCCGATT TCTGGAAAGT
GACAGTGAAG AAGAACAGGA AGAGGAAAAT GATGAGAAAA CAGCGGAGGA AGAGGAGCTT
GCTGCAGAGA AGCTCAAAGC CCTGAACGTC ATGCAGAGTG TTTTGCACAC CACTGTGAGC
AGTTCTGCGC ACAAAGGATC GGCAGCTGCC AAGAAATTTA GGGATGTCGT ACATTATGAT
CCAACGAGGA ATGACCACAC CGCTTACGAA AGGAAGAGCG ATGATAAACC AAAGGAAAGT
AAAGCAAAAC GAAGGAAGCA GAGGGAGGAG GCCGAGAAGC TGCCTGAGGT GTCTAAAGAG
ATGTATTATA GCGTCGCTGC AGACTTAAAA GAAATATTTC AAACTACAAA AGTTACCAGT
GAAACAGCAG ACGACACACC GTCTAGTGAG AATCGTGATG GCGAGAAAGT CGACGTTCAC
CTCCCCACCA GTCCAACGAC GGGGGCCGAG CAGCGTGGCG GGTTCACATT CTCCTTTTTT
GATTCAGATG CTAAAGATGT AAAGGAAGAT GCCTACAGAG CTGAGCCTGT GAAAACCAGG
AAGGTCGTCT GGCAGGGGAC CCCTCGTTTC CAAGACAGCA GCTCCGAAGA GGAGGATATT
GCTGAAGAAG AAACAGAAGG CAGCCAGCCC AGCCCCAGAG AAGTATCATT ACCTGAGAAA
GAGACCATTA GATTTTTCTT TTTTTCTAAG AATGATGAAA GACTTCATGT AGGTTCTGAT
TTATTCTGGA GAGGAGTGGG AAGTGATATT AGCAGGAATT CTTGGGAGGC CAGAACAAAC
AACTTGCGGA TGGACTGCCG GAAGAAACAT AAAGATGCCA AAAGGAGAGT GAAACCAAAA
TAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_019663976.1 CDS 69..3011 Translation 
Target ORF information:
RefSeq Version XM_019808417.1 Organism Ailuropoda melanoleuca(giant panda) Definition Ailuropoda melanoleuca nucleolar protein 8 (NOL8), transcript variant X5, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_019808417.1
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
2941ATGAAGTATG ACCCATCAAA ATACTGCCAC AACTTAAAGA AGATCGCAGA GGATGTCACA
CATGCCACCC CTGTGTCCAG CCTCACCTGG CAACTGGAAG GAGGGGATGA CCCTATGAGT
AGGAAGCGAC GAGGGGAGTT CTGTGCCATT CAGACCTCCT CCCAGAAGAG GATCAAAGCA
CAGAAGGACA AGGGGACTGC TGCTTCTCCA GCTGTGAGAG CAGGAACCCT CACGGTCCCG
GGAAGTCCGC ATCCCAAACA GCAAGAGGCG GCACAGGAAG CACGCTGTGA GCTCATTACT
GCTCCGTTGC CCTCTGTCCC TGCTTCTCAC AGCCAGAAAC CTAACAGTAT GTTTGTTCAG
ACTTATGGTG TGGGAAGTGC CAGGCGCAGA AATCACGTGT CTGACGATGA TACCGATTCT
GAAGAAGAGA TACGACTACT GATTGCAAGA GAGGAAAACC TGGGGAAAAC TGCATGGCCC
TCAGTGGGTG ACTCTGCAAA TGAGTCCTTC GAAGTTGTCG GGGGGGACTT CAGGTCAGGT
GTTCACAAGC TGCATTCAGT AACAGCTCTA GGTGTCAGTC ATGTCTCTGA CCGGGATGGG
GAAGGTAATG CCCTGGGAAA CGATTGCAAC TATGATTCAG GAGATACAGA TGAGATCATC
GCAGCAAAGA AAAAGACCAG TAAAGTCAAA AACAGTGCAG AGTTTTCACA AATGGAAAAG
TATGCACACA AGAAAACGCC TTTGAAAAAT AGAAAAAACT GTGAGCTTTC TGATCCTTGT
GTTAAAGGAC AAAAAAGAAA GACCAAGCCA GATGGAGCCA TCAGTCCTAG GGTTACAGTC
CGCTGCAGCA GCAGGGAAGA TTGGGGTTCT GCGTCAGAAT CCGCTGAGTC TGCAGGAGAT
GAGGAGTATG AGGCCATGAT GAAAAACTGC CTCCATGTGC AGCTTACCTT AGCTGATCTG
GAACAGCTGG CTGGCGGTGA CCTGCAGGAT CCGGAAGAAG ATCCTGAGAG CGGTGGCCAG
GAGACCACCA CCAAATGTGA CAGGACTCTG GGGGGCCTGC ACAGAGCCCG GCCATGCATC
TGTCCCGAGG ACATTGTGGC TGCCCTTTTA GAAGGAGAAG AGAACACCTG TGGAAAGCAG
AAACTGAAGG GAAATAACCT ACAGCCGAAA TTCCAAGCTT TCAAGGGAGT AGGCTCTCTC
TATGGAAAGG AATCAATAAA AAAACCCTTG AAAGAAAGTG TTGCCTTTGA CAATATAAAT
AAAGATCAGA ATTCCTTGAA ATTTGATCCC AGTAGCATGT CCATGGAGAA GGGGTCCCCA
CCTGCTAATG GCTCGTCAGG CAAACTAACT CCTCTCCAAC ACGCAAAGAA GGCAAATGAC
CCAAACCAAA TTCAGCCTCA AAAGAGACGT TCTCCTTTCC AGAGCCAGGA TCACGAGATT
GTGTCCCCTA GCAGTTCGGA AGAGGGAGGT AGAAATCCTG TTTCTAGTCT GTTGCCATTA
AAAGATAAGA AAATAAGTCT TGGTACAATT ACCCCCAAGG TAGGCTTTGA TGAAGACTGC
CGCCACAGGA CTGGGGAGAC CGGAGAGGGC TCCAGACAGA GCAGCCACCC AGCGCCTGGG
AAAGCACCGG AGGGCTCCTC CAGGAGAGAC GCTCAGGGAA GCAGCACCAA CTTCCCACTT
CCTGTGAACT GTTGGTCCGA TGTTCACACT AAGGAGAAGC ATGCTGACAA TCAGAAGCGT
TTGGCAGCCT TGGACGCAAG GCAGAAAGCA AAGGAAGTGA GGAAGAAGCT GGTTCATAAT
GCCCTGGCAG ACTTGGATGG TCATCCAGAG GACAAGCCAA CGCACATCAT CTTTGGTTCT
GACAGTGAAA CAGAGGAGCA AAGCCACCCG GGAGAGGAGC CCGTGCAGGA GGCCGTGAGC
AGAGCATCTG GGAGGCTGTT TGACAGCAGT GAGGATGAAG AATCTGGCTT CGAAGATGAC
AGTCACAGGT TCAGAATTAA ACCTCAGTTT GAGGGCAGAG CTGGGCAGAA GCTTCTGGAC
TTGCAGTCTC ACTTCGGCAC TGATGACAGA TTCCGCATGG ACTCCCGATT TCTGGAAAGT
GACAGTGAAG AAGAACAGGA AGAGGAAAAT GATGAGAAAA CAGCGGAGGA AGAGGAGCTT
GCTGCAGAGA AGCTCAAAGC CCTGAACGTC ATGCAGAGTG TTTTGCACAC CACTGTGAGC
AGTTCTGCGC ACAAAGGATC GGCAGCTGCC AAGAAATTTA GGGATGTCGT ACATTATGAT
CCAACGAGGA ATGACCACAC CGCTTACGAA AGGAAGAGCG ATGATAAACC AAAGGAAAGT
AAAGCAAAAC GAAGGAAGCA GAGGGAGGAG GCCGAGAAGC TGCCTGAGGT GTCTAAAGAG
ATGTATTATA GCGTCGCTGC AGACTTAAAA GAAATATTTC AAACTACAAA AGTTACCAGT
GAAACAGCAG ACGACACACC GTCTAGTGAG AATCGTGATG GCGAGAAAGT CGACGTTCAC
CTCCCCACCA GTCCAACGAC GGGGGCCGAG CAGCGTGGCG GGTTCACATT CTCCTTTTTT
GATTCAGATG CTAAAGATGT AAAGGAAGAT GCCTACAGAG CTGAGCCTGT GAAAACCAGG
AAGGTCGTCT GGCAGGGGAC CCCTCGTTTC CAAGACAGCA GCTCCGAAGA GGAGGATATT
GCTGAAGAAG AAACAGAAGG CAGCCAGCCC AGCCCCAGAG AAGTATCATT ACCTGAGAAA
GAGACCATTA GATTTTTCTT TTTTTCTAAG AATGATGAAA GACTTCATGT AGGTTCTGAT
TTATTCTGGA GAGGAGTGGG AAGTGATATT AGCAGGAATT CTTGGGAGGC CAGAACAAAC
AACTTGCGGA TGGACTGCCG GAAGAAACAT AAAGATGCCA AAAGGAGAGT GAAACCAAAA
TAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAc14734 Clone ID Related Accession (Same CDS sequence) XM_002927686.3 Accession Version XM_002927686.3 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3429bp)
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 1482768000000 Organism Ailuropoda melanoleuca(giant panda) Product nucleolar protein 8 isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218612.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_002927686.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 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
3421ATGAAAGCTG ACAGAGAAGT GAGGCGCCTA TTCGTGGGTG GCCTTGGCCA GAACATTTCC
GAGACAGACC TACAAAATCA GTTCAGCAGA TTTGGAGAAG TTTCTGATGT GGAGATCATC
ACACGAAAAG ATGACCAAGG AAACCCACAG AAAGTCTTTG CGTATATCAA CATCAGAGTA
GCAGAGGCAG ATCTGAACAA ATGTATGTCT GCTTTGAATA AAACAAAATG GAAAGGTGGA
ACACTACAAA TTCAGCTAGC AAAAGAAAGT TTTTTGCACA GATTGGCCCA AGAGAGAGAA
GCAGCAAAAG CGAAGAAAGC AAAATCAACA ACAGGCAACA CCAACATTTT GGAAAAGATG
GGAGTGGTGG ATTTCCATGT GAAAGCTGTA CCAGGGACAG AAGTGCCAGG GCACAAAAAT
TGGGTTGTGA GTAAATTTGG AAGAGTTTTA CCTGTCCTTC ACCTAAAGAA CCAACATAAA
CGTAAAATCA TGAAGTATGA CCCATCAAAA TACTGCCACA ACTTAAAGAA GATCGCAGAG
GATGTCACAC ATGCCACCCC TGTGTCCAGC CTCACCTGGC AACTGGAAGG AGGGGATGAC
CCTATGAGTA GGAAGCGACG AGGGGAGTTC TGTGCCATTC AGACCTCCTC CCAGAAGAGG
ATCAAAGCAC AGAAGGACAA GGGGACTGCT GCTTCTCCAG CTGTGAGAGC AGGAACCCTC
ACGGTCCCGG GAAGTCCGCA TCCCAAACAG CAAGAGGCGG CACAGGAAGC ACGCTGTGAG
CTCATTACTG CTCCGTTGCC CTCTGTCCCT GCTTCTCACA GCCAGAAACC TAACAGTATG
TTTGTTCAGA CTTATGGTGT GGGAAGTGCC AGGCGCAGAA ATCACGTGTC TGACGATGAT
ACCGATTCTG AAGAAGAGAT ACGACTACTG ATTGCAAGAG AGGAAAACCT GGGGAAAACT
GCATGGCCCT CAGTGGGTGA CTCTGCAAAT GAGTCCTTCG AAGTTGTCGG GGGGGACTTC
AGGTCAGGTG TTCACAAGCT GCATTCAGTA ACAGCTCTAG GTGTCAGTCA TGTCTCTGAC
CGGGATGGGG AAGGTAATGC CCTGGGAAAC GATTGCAACT ATGATTCAGG AGATACAGAT
GAGATCATCG CAGCAAAGAA AAAGACCAGT AAAGTCAAAA ACAGTGCAGA GTTTTCACAA
ATGGAAAAGT ATGCACACAA GAAAACGCCT TTGAAAAATA GAAAAAACTG TGAGCTTTCT
GATCCTTGTG TTAAAGGACA AAAAAGAAAG ACCAAGCCAG ATGGAGCCAT CAGTCCTAGG
GTTACAGTCC GCTGCAGCAG CAGGGAAGAT TGGGGTTCTG CGTCAGAATC CGCTGAGTCT
GCAGGAGATG AGGAGTATGA GGCCATGATG AAAAACTGCC TCCATGTGCA GCTTACCTTA
GCTGATCTGG AACAGCTGGC TGGCGGTGAC CTGCAGGATC CGGAAGAAGA TCCTGAGAGC
GGTGGCCAGG AGACCACCAC CAAATGTGAC AGGACTCTGG GGGGCCTGCA CAGAGCCCGG
CCATGCATCT GTCCCGAGGA CATTGTGGCT GCCCTTTTAG AAGGAGAAGA GAACACCTGT
GGAAAGCAGA AACTGAAGGG AAATAACCTA CAGCCGAAAT TCCAAGCTTT CAAGGGAGTA
GGCTCTCTCT ATGGAAAGGA ATCAATAAAA AAACCCTTGA AAGAAAGTGT TGCCTTTGAC
AATATAAATA AAGATCAGAA TTCCTTGAAA TTTGATCCCA GTAGCATGTC CATGGAGAAG
GGGTCCCCAC CTGCTAATGG CTCGTCAGGC AAACTAACTC CTCTCCAACA CGCAAAGAAG
GCAAATGACC CAAACCAAAT TCAGCCTCAA AAGAGACGTT CTCCTTTCCA GAGCCAGGAT
CACGAGATTG TGTCCCCTAG CAGTTCGGAA GAGGGAGGTA GAAATCCTGT TTCTAGTCTG
TTGCCATTAA AAGATAAGAA AATAAGTCTT GGTACAATTA CCCCCAAGGT AGGCTTTGAT
GAAGACTGCC GCCACAGGAC TGGGGAGACC GGAGAGGGCT CCAGACAGAG CAGCCACCCA
GCGCCTGGGA AAGCACCGGA GGGCTCCTCC AGGAGAGACG CTCAGGGAAG CAGCACCAAC
TTCCCACTTC CTGTGAACTG TTGGTCCGAT GTTCACACTA AGGAGAAGCA TGCTGACAAT
CAGAAGCGTT TGGCAGCCTT GGACGCAAGG CAGAAAGCAA AGGAAGTGAG GAAGAAGCTG
GTTCATAATG CCCTGGCAGA CTTGGATGGT CATCCAGAGG ACAAGCCAAC GCACATCATC
TTTGGTTCTG ACAGTGAAAC AGAGGAGCAA AGCCACCCGG GAGAGGAGCC CGTGCAGGAG
GCCGTGAGCA GAGCATCTGG GAGGCTGTTT GACAGCAGTG AGGATGAAGA ATCTGGCTTC
GAAGATGACA GTCACAGGTT CAGAATTAAA CCTCAGTTTG AGGGCAGAGC TGGGCAGAAG
CTTCTGGACT TGCAGTCTCA CTTCGGCACT GATGACAGAT TCCGCATGGA CTCCCGATTT
CTGGAAAGTG ACAGTGAAGA AGAACAGGAA GAGGAAAATG ATGAGAAAAC AGCGGAGGAA
GAGGAGCTTG CTGCAGAGAA GCTCAAAGCC CTGAACGTCA TGCAGAGTGT TTTGCACACC
ACTGTGAGCA GTTCTGCGCA CAAAGGATCG GCAGCTGCCA AGAAATTTAG GGATGTCGTA
CATTATGATC CAACGAGGAA TGACCACACC GCTTACGAAA GGAAGAGCGA TGATAAACCA
AAGGAAAGTA AAGCAAAACG AAGGAAGCAG AGGGAGGAGG CCGAGAAGCT GCCTGAGGTG
TCTAAAGAGA TGTATTATAG CGTCGCTGCA GACTTAAAAG AAATATTTCA AACTACAAAA
GTTACCAGTG AAACAGCAGA CGACACACCG TCTAGTGAGA ATCGTGATGG CGAGAAAGTC
GACGTTCACC TCCCCACCAG TCCAACGACG GGGGCCGAGC AGCGTGGCGG GTTCACATTC
TCCTTTTTTG ATTCAGATGC TAAAGATGTA AAGGAAGATG CCTACAGAGC TGAGCCTGTG
AAAACCAGGA AGGTCGTCTG GCAGGGGACC CCTCGTTTCC AAGACAGCAG CTCCGAAGAG
GAGGATATTG CTGAAGAAGA AACAGAAGGC AGCCAGCCCA GCCCCAGAGA AGTATCATTA
CCTGAGAAAG AGACCATTAG ATTTTTCTTT TTTTCTAAGA ATGATGAAAG ACTTCATGGT
TCTGATTTAT TCTGGAGAGG AGTGGGAAGT GATATTAGCA GGAATTCTTG GGAGGCCAGA
ACAAACAACT TGCGGATGGA CTGCCGGAAG AAACATAAAG ATGCCAAAAG GAGAGTGAAA
CCAAAATAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_002927732.1 CDS 416..3844 Translation
Target ORF information:
RefSeq Version XM_002927686.3 Organism Ailuropoda melanoleuca(giant panda) Definition Ailuropoda melanoleuca nucleolar protein 8 (NOL8), transcript variant X3, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_002927686.3
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
2941
3001
3061
3121
3181
3241
3301
3361
3421ATGAAAGCTG ACAGAGAAGT GAGGCGCCTA TTCGTGGGTG GCCTTGGCCA GAACATTTCC
GAGACAGACC TACAAAATCA GTTCAGCAGA TTTGGAGAAG TTTCTGATGT GGAGATCATC
ACACGAAAAG ATGACCAAGG AAACCCACAG AAAGTCTTTG CGTATATCAA CATCAGAGTA
GCAGAGGCAG ATCTGAACAA ATGTATGTCT GCTTTGAATA AAACAAAATG GAAAGGTGGA
ACACTACAAA TTCAGCTAGC AAAAGAAAGT TTTTTGCACA GATTGGCCCA AGAGAGAGAA
GCAGCAAAAG CGAAGAAAGC AAAATCAACA ACAGGCAACA CCAACATTTT GGAAAAGATG
GGAGTGGTGG ATTTCCATGT GAAAGCTGTA CCAGGGACAG AAGTGCCAGG GCACAAAAAT
TGGGTTGTGA GTAAATTTGG AAGAGTTTTA CCTGTCCTTC ACCTAAAGAA CCAACATAAA
CGTAAAATCA TGAAGTATGA CCCATCAAAA TACTGCCACA ACTTAAAGAA GATCGCAGAG
GATGTCACAC ATGCCACCCC TGTGTCCAGC CTCACCTGGC AACTGGAAGG AGGGGATGAC
CCTATGAGTA GGAAGCGACG AGGGGAGTTC TGTGCCATTC AGACCTCCTC CCAGAAGAGG
ATCAAAGCAC AGAAGGACAA GGGGACTGCT GCTTCTCCAG CTGTGAGAGC AGGAACCCTC
ACGGTCCCGG GAAGTCCGCA TCCCAAACAG CAAGAGGCGG CACAGGAAGC ACGCTGTGAG
CTCATTACTG CTCCGTTGCC CTCTGTCCCT GCTTCTCACA GCCAGAAACC TAACAGTATG
TTTGTTCAGA CTTATGGTGT GGGAAGTGCC AGGCGCAGAA ATCACGTGTC TGACGATGAT
ACCGATTCTG AAGAAGAGAT ACGACTACTG ATTGCAAGAG AGGAAAACCT GGGGAAAACT
GCATGGCCCT CAGTGGGTGA CTCTGCAAAT GAGTCCTTCG AAGTTGTCGG GGGGGACTTC
AGGTCAGGTG TTCACAAGCT GCATTCAGTA ACAGCTCTAG GTGTCAGTCA TGTCTCTGAC
CGGGATGGGG AAGGTAATGC CCTGGGAAAC GATTGCAACT ATGATTCAGG AGATACAGAT
GAGATCATCG CAGCAAAGAA AAAGACCAGT AAAGTCAAAA ACAGTGCAGA GTTTTCACAA
ATGGAAAAGT ATGCACACAA GAAAACGCCT TTGAAAAATA GAAAAAACTG TGAGCTTTCT
GATCCTTGTG TTAAAGGACA AAAAAGAAAG ACCAAGCCAG ATGGAGCCAT CAGTCCTAGG
GTTACAGTCC GCTGCAGCAG CAGGGAAGAT TGGGGTTCTG CGTCAGAATC CGCTGAGTCT
GCAGGAGATG AGGAGTATGA GGCCATGATG AAAAACTGCC TCCATGTGCA GCTTACCTTA
GCTGATCTGG AACAGCTGGC TGGCGGTGAC CTGCAGGATC CGGAAGAAGA TCCTGAGAGC
GGTGGCCAGG AGACCACCAC CAAATGTGAC AGGACTCTGG GGGGCCTGCA CAGAGCCCGG
CCATGCATCT GTCCCGAGGA CATTGTGGCT GCCCTTTTAG AAGGAGAAGA GAACACCTGT
GGAAAGCAGA AACTGAAGGG AAATAACCTA CAGCCGAAAT TCCAAGCTTT CAAGGGAGTA
GGCTCTCTCT ATGGAAAGGA ATCAATAAAA AAACCCTTGA AAGAAAGTGT TGCCTTTGAC
AATATAAATA AAGATCAGAA TTCCTTGAAA TTTGATCCCA GTAGCATGTC CATGGAGAAG
GGGTCCCCAC CTGCTAATGG CTCGTCAGGC AAACTAACTC CTCTCCAACA CGCAAAGAAG
GCAAATGACC CAAACCAAAT TCAGCCTCAA AAGAGACGTT CTCCTTTCCA GAGCCAGGAT
CACGAGATTG TGTCCCCTAG CAGTTCGGAA GAGGGAGGTA GAAATCCTGT TTCTAGTCTG
TTGCCATTAA AAGATAAGAA AATAAGTCTT GGTACAATTA CCCCCAAGGT AGGCTTTGAT
GAAGACTGCC GCCACAGGAC TGGGGAGACC GGAGAGGGCT CCAGACAGAG CAGCCACCCA
GCGCCTGGGA AAGCACCGGA GGGCTCCTCC AGGAGAGACG CTCAGGGAAG CAGCACCAAC
TTCCCACTTC CTGTGAACTG TTGGTCCGAT GTTCACACTA AGGAGAAGCA TGCTGACAAT
CAGAAGCGTT TGGCAGCCTT GGACGCAAGG CAGAAAGCAA AGGAAGTGAG GAAGAAGCTG
GTTCATAATG CCCTGGCAGA CTTGGATGGT CATCCAGAGG ACAAGCCAAC GCACATCATC
TTTGGTTCTG ACAGTGAAAC AGAGGAGCAA AGCCACCCGG GAGAGGAGCC CGTGCAGGAG
GCCGTGAGCA GAGCATCTGG GAGGCTGTTT GACAGCAGTG AGGATGAAGA ATCTGGCTTC
GAAGATGACA GTCACAGGTT CAGAATTAAA CCTCAGTTTG AGGGCAGAGC TGGGCAGAAG
CTTCTGGACT TGCAGTCTCA CTTCGGCACT GATGACAGAT TCCGCATGGA CTCCCGATTT
CTGGAAAGTG ACAGTGAAGA AGAACAGGAA GAGGAAAATG ATGAGAAAAC AGCGGAGGAA
GAGGAGCTTG CTGCAGAGAA GCTCAAAGCC CTGAACGTCA TGCAGAGTGT TTTGCACACC
ACTGTGAGCA GTTCTGCGCA CAAAGGATCG GCAGCTGCCA AGAAATTTAG GGATGTCGTA
CATTATGATC CAACGAGGAA TGACCACACC GCTTACGAAA GGAAGAGCGA TGATAAACCA
AAGGAAAGTA AAGCAAAACG AAGGAAGCAG AGGGAGGAGG CCGAGAAGCT GCCTGAGGTG
TCTAAAGAGA TGTATTATAG CGTCGCTGCA GACTTAAAAG AAATATTTCA AACTACAAAA
GTTACCAGTG AAACAGCAGA CGACACACCG TCTAGTGAGA ATCGTGATGG CGAGAAAGTC
GACGTTCACC TCCCCACCAG TCCAACGACG GGGGCCGAGC AGCGTGGCGG GTTCACATTC
TCCTTTTTTG ATTCAGATGC TAAAGATGTA AAGGAAGATG CCTACAGAGC TGAGCCTGTG
AAAACCAGGA AGGTCGTCTG GCAGGGGACC CCTCGTTTCC AAGACAGCAG CTCCGAAGAG
GAGGATATTG CTGAAGAAGA AACAGAAGGC AGCCAGCCCA GCCCCAGAGA AGTATCATTA
CCTGAGAAAG AGACCATTAG ATTTTTCTTT TTTTCTAAGA ATGATGAAAG ACTTCATGGT
TCTGATTTAT TCTGGAGAGG AGTGGGAAGT GATATTAGCA GGAATTCTTG GGAGGCCAGA
ACAAACAACT TGCGGATGGA CTGCCGGAAG AAACATAAAG ATGCCAAAAG GAGAGTGAAA
CCAAAATAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAc23316 Clone ID Related Accession (Same CDS sequence) XM_011235348.2 , XM_011235349.2 Accession Version XM_011235348.2 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3432bp)
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 1482768000000 Organism Ailuropoda melanoleuca(giant panda) Product nucleolar protein 8 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218612.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011235348.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 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
3421ATGAAAGCTG ACAGAGAAGT GAGGCGCCTA TTCGTGGGTG GCCTTGGCCA GAACATTTCC
GAGACAGACC TACAAAATCA GTTCAGCAGA TTTGGAGAAG TTTCTGATGT GGAGATCATC
ACACGAAAAG ATGACCAAGG AAACCCACAG AAAGTCTTTG CGTATATCAA CATCAGAGTA
GCAGAGGCAG ATCTGAACAA ATGTATGTCT GCTTTGAATA AAACAAAATG GAAAGGTGGA
ACACTACAAA TTCAGCTAGC AAAAGAAAGT TTTTTGCACA GATTGGCCCA AGAGAGAGAA
GCAGCAAAAG CGAAGAAAGC AAAATCAACA ACAGGCAACA CCAACATTTT GGAAAAGATG
GGAGTGGTGG ATTTCCATGT GAAAGCTGTA CCAGGGACAG AAGTGCCAGG GCACAAAAAT
TGGGTTGTGA GTAAATTTGG AAGAGTTTTA CCTGTCCTTC ACCTAAAGAA CCAACATAAA
CGTAAAATCA TGAAGTATGA CCCATCAAAA TACTGCCACA ACTTAAAGAA GATCGCAGAG
GATGTCACAC ATGCCACCCC TGTGTCCAGC CTCACCTGGC AACTGGAAGG AGGGGATGAC
CCTATGAGTA GGAAGCGACG AGGGGAGTTC TGTGCCATTC AGACCTCCTC CCAGAAGAGG
ATCAAAGCAC AGAAGGACAA GGGGACTGCT GCTTCTCCAG CTGTGAGAGC AGGAACCCTC
ACGGTCCCGG GAAGTCCGCA TCCCAAACAG CAAGAGGCGG CACAGGAAGC ACGCTGTGAG
CTCATTACTG CTCCGTTGCC CTCTGTCCCT GCTTCTCACA GCCAGAAACC TAACAGTATG
TTTGTTCAGA CTTATGGTGT GGGAAGTGCC AGGCGCAGAA ATCACGTGTC TGACGATGAT
ACCGATTCTG AAGAAGAGAT ACGACTACTG ATTGCAAGAG AGGAAAACCT GGGGAAAACT
GCATGGCCCT CAGTGGGTGA CTCTGCAAAT GAGTCCTTCG AAGTTGTCGG GGGGGACTTC
AGGTCAGGTG TTCACAAGCT GCATTCAGTA ACAGCTCTAG GTGTCAGTCA TGTCTCTGAC
CGGGATGGGG AAGGTAATGC CCTGGGAAAC GATTGCAACT ATGATTCAGG AGATACAGAT
GAGATCATCG CAGCAAAGAA AAAGACCAGT AAAGTCAAAA ACAGTGCAGA GTTTTCACAA
ATGGAAAAGT ATGCACACAA GAAAACGCCT TTGAAAAATA GAAAAAACTG TGAGCTTTCT
GATCCTTGTG TTAAAGGACA AAAAAGAAAG ACCAAGCCAG ATGGAGCCAT CAGTCCTAGG
GTTACAGTCC GCTGCAGCAG CAGGGAAGAT TGGGGTTCTG CGTCAGAATC CGCTGAGTCT
GCAGGAGATG AGGAGTATGA GGCCATGATG AAAAACTGCC TCCATGTGCA GCTTACCTTA
GCTGATCTGG AACAGCTGGC TGGCGGTGAC CTGCAGGATC CGGAAGAAGA TCCTGAGAGC
GGTGGCCAGG AGACCACCAC CAAATGTGAC AGGACTCTGG GGGGCCTGCA CAGAGCCCGG
CCATGCATCT GTCCCGAGGA CATTGTGGCT GCCCTTTTAG AAGGAGAAGA GAACACCTGT
GGAAAGCAGA AACTGAAGGG AAATAACCTA CAGCCGAAAT TCCAAGCTTT CAAGGGAGTA
GGCTCTCTCT ATGGAAAGGA ATCAATAAAA AAACCCTTGA AAGAAAGTGT TGCCTTTGAC
AATATAAATA AAGATCAGAA TTCCTTGAAA TTTGATCCCA GTAGCATGTC CATGGAGAAG
GGGTCCCCAC CTGCTAATGG CTCGTCAGGC AAACTAACTC CTCTCCAACA CGCAAAGAAG
GCAAATGACC CAAACCAAAT TCAGCCTCAA AAGAGACGTT CTCCTTTCCA GAGCCAGGAT
CACGAGATTG TGTCCCCTAG CAGTTCGGAA GAGGGAGGTA GAAATCCTGT TTCTAGTCTG
TTGCCATTAA AAGATAAGAA AATAAGTCTT GGTACAATTA CCCCCAAGGT AGGCTTTGAT
GAAGACTGCC GCCACAGGAC TGGGGAGACC GGAGAGGGCT CCAGACAGAG CAGCCACCCA
GCGCCTGGGA AAGCACCGGA GGGCTCCTCC AGGAGAGACG CTCAGGGAAG CAGCACCAAC
TTCCCACTTC CTGTGAACTG TTGGTCCGAT GTTCACACTA AGGAGAAGCA TGCTGACAAT
CAGAAGCGTT TGGCAGCCTT GGACGCAAGG CAGAAAGCAA AGGAAGTGAG GAAGAAGCTG
GTTCATAATG CCCTGGCAGA CTTGGATGGT CATCCAGAGG ACAAGCCAAC GCACATCATC
TTTGGTTCTG ACAGTGAAAC AGAGGAGCAA AGCCACCCGG GAGAGGAGCC CGTGCAGGAG
GCCGTGAGCA GAGCATCTGG GAGGCTGTTT GACAGCAGTG AGGATGAAGA ATCTGGCTTC
GAAGATGACA GTCACAGGTT CAGAATTAAA CCTCAGTTTG AGGGCAGAGC TGGGCAGAAG
CTTCTGGACT TGCAGTCTCA CTTCGGCACT GATGACAGAT TCCGCATGGA CTCCCGATTT
CTGGAAAGTG ACAGTGAAGA AGAACAGGAA GAGGAAAATG ATGAGAAAAC AGCGGAGGAA
GAGGAGCTTG CTGCAGAGAA GCTCAAAGCC CTGAACGTCA TGCAGAGTGT TTTGCACACC
ACTGTGAGCA GTTCTGCGCA CAAAGGATCG GCAGCTGCCA AGAAATTTAG GGATGTCGTA
CATTATGATC CAACGAGGAA TGACCACACC GCTTACGAAA GGAAGAGCGA TGATAAACCA
AAGGAAAGTA AAGCAAAACG AAGGAAGCAG AGGGAGGAGG CCGAGAAGCT GCCTGAGGTG
TCTAAAGAGA TGTATTATAG CGTCGCTGCA GACTTAAAAG AAATATTTCA AACTACAAAA
GTTACCAGTG AAACAGCAGA CGACACACCG TCTAGTGAGA ATCGTGATGG CGAGAAAGTC
GACGTTCACC TCCCCACCAG TCCAACGACG GGGGCCGAGC AGCGTGGCGG GTTCACATTC
TCCTTTTTTG ATTCAGATGC TAAAGATGTA AAGGAAGATG CCTACAGAGC TGAGCCTGTG
AAAACCAGGA AGGTCGTCTG GCAGGGGACC CCTCGTTTCC AAGACAGCAG CTCCGAAGAG
GAGGATATTG CTGAAGAAGA AACAGAAGGC AGCCAGCCCA GCCCCAGAGA AGTATCATTA
CCTGAGAAAG AGACCATTAG ATTTTTCTTT TTTTCTAAGA ATGATGAAAG ACTTCATGTA
GGTTCTGATT TATTCTGGAG AGGAGTGGGA AGTGATATTA GCAGGAATTC TTGGGAGGCC
AGAACAAACA ACTTGCGGAT GGACTGCCGG AAGAAACATA AAGATGCCAA AAGGAGAGTG
AAACCAAAAT AAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_011233650.1 CDS 416..3847 Translation
Target ORF information:
RefSeq Version XM_011235348.2 Organism Ailuropoda melanoleuca(giant panda) Definition Ailuropoda melanoleuca nucleolar protein 8 (NOL8), transcript variant X1, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_011235348.2
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421ATGAAAGCTG ACAGAGAAGT GAGGCGCCTA TTCGTGGGTG GCCTTGGCCA GAACATTTCC
GAGACAGACC TACAAAATCA GTTCAGCAGA TTTGGAGAAG TTTCTGATGT GGAGATCATC
ACACGAAAAG ATGACCAAGG AAACCCACAG AAAGTCTTTG CGTATATCAA CATCAGAGTA
GCAGAGGCAG ATCTGAACAA ATGTATGTCT GCTTTGAATA AAACAAAATG GAAAGGTGGA
ACACTACAAA TTCAGCTAGC AAAAGAAAGT TTTTTGCACA GATTGGCCCA AGAGAGAGAA
GCAGCAAAAG CGAAGAAAGC AAAATCAACA ACAGGCAACA CCAACATTTT GGAAAAGATG
GGAGTGGTGG ATTTCCATGT GAAAGCTGTA CCAGGGACAG AAGTGCCAGG GCACAAAAAT
TGGGTTGTGA GTAAATTTGG AAGAGTTTTA CCTGTCCTTC ACCTAAAGAA CCAACATAAA
CGTAAAATCA TGAAGTATGA CCCATCAAAA TACTGCCACA ACTTAAAGAA GATCGCAGAG
GATGTCACAC ATGCCACCCC TGTGTCCAGC CTCACCTGGC AACTGGAAGG AGGGGATGAC
CCTATGAGTA GGAAGCGACG AGGGGAGTTC TGTGCCATTC AGACCTCCTC CCAGAAGAGG
ATCAAAGCAC AGAAGGACAA GGGGACTGCT GCTTCTCCAG CTGTGAGAGC AGGAACCCTC
ACGGTCCCGG GAAGTCCGCA TCCCAAACAG CAAGAGGCGG CACAGGAAGC ACGCTGTGAG
CTCATTACTG CTCCGTTGCC CTCTGTCCCT GCTTCTCACA GCCAGAAACC TAACAGTATG
TTTGTTCAGA CTTATGGTGT GGGAAGTGCC AGGCGCAGAA ATCACGTGTC TGACGATGAT
ACCGATTCTG AAGAAGAGAT ACGACTACTG ATTGCAAGAG AGGAAAACCT GGGGAAAACT
GCATGGCCCT CAGTGGGTGA CTCTGCAAAT GAGTCCTTCG AAGTTGTCGG GGGGGACTTC
AGGTCAGGTG TTCACAAGCT GCATTCAGTA ACAGCTCTAG GTGTCAGTCA TGTCTCTGAC
CGGGATGGGG AAGGTAATGC CCTGGGAAAC GATTGCAACT ATGATTCAGG AGATACAGAT
GAGATCATCG CAGCAAAGAA AAAGACCAGT AAAGTCAAAA ACAGTGCAGA GTTTTCACAA
ATGGAAAAGT ATGCACACAA GAAAACGCCT TTGAAAAATA GAAAAAACTG TGAGCTTTCT
GATCCTTGTG TTAAAGGACA AAAAAGAAAG ACCAAGCCAG ATGGAGCCAT CAGTCCTAGG
GTTACAGTCC GCTGCAGCAG CAGGGAAGAT TGGGGTTCTG CGTCAGAATC CGCTGAGTCT
GCAGGAGATG AGGAGTATGA GGCCATGATG AAAAACTGCC TCCATGTGCA GCTTACCTTA
GCTGATCTGG AACAGCTGGC TGGCGGTGAC CTGCAGGATC CGGAAGAAGA TCCTGAGAGC
GGTGGCCAGG AGACCACCAC CAAATGTGAC AGGACTCTGG GGGGCCTGCA CAGAGCCCGG
CCATGCATCT GTCCCGAGGA CATTGTGGCT GCCCTTTTAG AAGGAGAAGA GAACACCTGT
GGAAAGCAGA AACTGAAGGG AAATAACCTA CAGCCGAAAT TCCAAGCTTT CAAGGGAGTA
GGCTCTCTCT ATGGAAAGGA ATCAATAAAA AAACCCTTGA AAGAAAGTGT TGCCTTTGAC
AATATAAATA AAGATCAGAA TTCCTTGAAA TTTGATCCCA GTAGCATGTC CATGGAGAAG
GGGTCCCCAC CTGCTAATGG CTCGTCAGGC AAACTAACTC CTCTCCAACA CGCAAAGAAG
GCAAATGACC CAAACCAAAT TCAGCCTCAA AAGAGACGTT CTCCTTTCCA GAGCCAGGAT
CACGAGATTG TGTCCCCTAG CAGTTCGGAA GAGGGAGGTA GAAATCCTGT TTCTAGTCTG
TTGCCATTAA AAGATAAGAA AATAAGTCTT GGTACAATTA CCCCCAAGGT AGGCTTTGAT
GAAGACTGCC GCCACAGGAC TGGGGAGACC GGAGAGGGCT CCAGACAGAG CAGCCACCCA
GCGCCTGGGA AAGCACCGGA GGGCTCCTCC AGGAGAGACG CTCAGGGAAG CAGCACCAAC
TTCCCACTTC CTGTGAACTG TTGGTCCGAT GTTCACACTA AGGAGAAGCA TGCTGACAAT
CAGAAGCGTT TGGCAGCCTT GGACGCAAGG CAGAAAGCAA AGGAAGTGAG GAAGAAGCTG
GTTCATAATG CCCTGGCAGA CTTGGATGGT CATCCAGAGG ACAAGCCAAC GCACATCATC
TTTGGTTCTG ACAGTGAAAC AGAGGAGCAA AGCCACCCGG GAGAGGAGCC CGTGCAGGAG
GCCGTGAGCA GAGCATCTGG GAGGCTGTTT GACAGCAGTG AGGATGAAGA ATCTGGCTTC
GAAGATGACA GTCACAGGTT CAGAATTAAA CCTCAGTTTG AGGGCAGAGC TGGGCAGAAG
CTTCTGGACT TGCAGTCTCA CTTCGGCACT GATGACAGAT TCCGCATGGA CTCCCGATTT
CTGGAAAGTG ACAGTGAAGA AGAACAGGAA GAGGAAAATG ATGAGAAAAC AGCGGAGGAA
GAGGAGCTTG CTGCAGAGAA GCTCAAAGCC CTGAACGTCA TGCAGAGTGT TTTGCACACC
ACTGTGAGCA GTTCTGCGCA CAAAGGATCG GCAGCTGCCA AGAAATTTAG GGATGTCGTA
CATTATGATC CAACGAGGAA TGACCACACC GCTTACGAAA GGAAGAGCGA TGATAAACCA
AAGGAAAGTA AAGCAAAACG AAGGAAGCAG AGGGAGGAGG CCGAGAAGCT GCCTGAGGTG
TCTAAAGAGA TGTATTATAG CGTCGCTGCA GACTTAAAAG AAATATTTCA AACTACAAAA
GTTACCAGTG AAACAGCAGA CGACACACCG TCTAGTGAGA ATCGTGATGG CGAGAAAGTC
GACGTTCACC TCCCCACCAG TCCAACGACG GGGGCCGAGC AGCGTGGCGG GTTCACATTC
TCCTTTTTTG ATTCAGATGC TAAAGATGTA AAGGAAGATG CCTACAGAGC TGAGCCTGTG
AAAACCAGGA AGGTCGTCTG GCAGGGGACC CCTCGTTTCC AAGACAGCAG CTCCGAAGAG
GAGGATATTG CTGAAGAAGA AACAGAAGGC AGCCAGCCCA GCCCCAGAGA AGTATCATTA
CCTGAGAAAG AGACCATTAG ATTTTTCTTT TTTTCTAAGA ATGATGAAAG ACTTCATGTA
GGTTCTGATT TATTCTGGAG AGGAGTGGGA AGTGATATTA GCAGGAATTC TTGGGAGGCC
AGAACAAACA ACTTGCGGAT GGACTGCCGG AAGAAACATA AAGATGCCAA AAGGAGAGTG
AAACCAAAAT AAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAc23316 Clone ID Related Accession (Same CDS sequence) XM_011235348.2 , XM_011235349.2 Accession Version XM_011235349.2 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3432bp)
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 1482768000000 Organism Ailuropoda melanoleuca(giant panda) Product nucleolar protein 8 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218612.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011235349.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 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
3421ATGAAAGCTG ACAGAGAAGT GAGGCGCCTA TTCGTGGGTG GCCTTGGCCA GAACATTTCC
GAGACAGACC TACAAAATCA GTTCAGCAGA TTTGGAGAAG TTTCTGATGT GGAGATCATC
ACACGAAAAG ATGACCAAGG AAACCCACAG AAAGTCTTTG CGTATATCAA CATCAGAGTA
GCAGAGGCAG ATCTGAACAA ATGTATGTCT GCTTTGAATA AAACAAAATG GAAAGGTGGA
ACACTACAAA TTCAGCTAGC AAAAGAAAGT TTTTTGCACA GATTGGCCCA AGAGAGAGAA
GCAGCAAAAG CGAAGAAAGC AAAATCAACA ACAGGCAACA CCAACATTTT GGAAAAGATG
GGAGTGGTGG ATTTCCATGT GAAAGCTGTA CCAGGGACAG AAGTGCCAGG GCACAAAAAT
TGGGTTGTGA GTAAATTTGG AAGAGTTTTA CCTGTCCTTC ACCTAAAGAA CCAACATAAA
CGTAAAATCA TGAAGTATGA CCCATCAAAA TACTGCCACA ACTTAAAGAA GATCGCAGAG
GATGTCACAC ATGCCACCCC TGTGTCCAGC CTCACCTGGC AACTGGAAGG AGGGGATGAC
CCTATGAGTA GGAAGCGACG AGGGGAGTTC TGTGCCATTC AGACCTCCTC CCAGAAGAGG
ATCAAAGCAC AGAAGGACAA GGGGACTGCT GCTTCTCCAG CTGTGAGAGC AGGAACCCTC
ACGGTCCCGG GAAGTCCGCA TCCCAAACAG CAAGAGGCGG CACAGGAAGC ACGCTGTGAG
CTCATTACTG CTCCGTTGCC CTCTGTCCCT GCTTCTCACA GCCAGAAACC TAACAGTATG
TTTGTTCAGA CTTATGGTGT GGGAAGTGCC AGGCGCAGAA ATCACGTGTC TGACGATGAT
ACCGATTCTG AAGAAGAGAT ACGACTACTG ATTGCAAGAG AGGAAAACCT GGGGAAAACT
GCATGGCCCT CAGTGGGTGA CTCTGCAAAT GAGTCCTTCG AAGTTGTCGG GGGGGACTTC
AGGTCAGGTG TTCACAAGCT GCATTCAGTA ACAGCTCTAG GTGTCAGTCA TGTCTCTGAC
CGGGATGGGG AAGGTAATGC CCTGGGAAAC GATTGCAACT ATGATTCAGG AGATACAGAT
GAGATCATCG CAGCAAAGAA AAAGACCAGT AAAGTCAAAA ACAGTGCAGA GTTTTCACAA
ATGGAAAAGT ATGCACACAA GAAAACGCCT TTGAAAAATA GAAAAAACTG TGAGCTTTCT
GATCCTTGTG TTAAAGGACA AAAAAGAAAG ACCAAGCCAG ATGGAGCCAT CAGTCCTAGG
GTTACAGTCC GCTGCAGCAG CAGGGAAGAT TGGGGTTCTG CGTCAGAATC CGCTGAGTCT
GCAGGAGATG AGGAGTATGA GGCCATGATG AAAAACTGCC TCCATGTGCA GCTTACCTTA
GCTGATCTGG AACAGCTGGC TGGCGGTGAC CTGCAGGATC CGGAAGAAGA TCCTGAGAGC
GGTGGCCAGG AGACCACCAC CAAATGTGAC AGGACTCTGG GGGGCCTGCA CAGAGCCCGG
CCATGCATCT GTCCCGAGGA CATTGTGGCT GCCCTTTTAG AAGGAGAAGA GAACACCTGT
GGAAAGCAGA AACTGAAGGG AAATAACCTA CAGCCGAAAT TCCAAGCTTT CAAGGGAGTA
GGCTCTCTCT ATGGAAAGGA ATCAATAAAA AAACCCTTGA AAGAAAGTGT TGCCTTTGAC
AATATAAATA AAGATCAGAA TTCCTTGAAA TTTGATCCCA GTAGCATGTC CATGGAGAAG
GGGTCCCCAC CTGCTAATGG CTCGTCAGGC AAACTAACTC CTCTCCAACA CGCAAAGAAG
GCAAATGACC CAAACCAAAT TCAGCCTCAA AAGAGACGTT CTCCTTTCCA GAGCCAGGAT
CACGAGATTG TGTCCCCTAG CAGTTCGGAA GAGGGAGGTA GAAATCCTGT TTCTAGTCTG
TTGCCATTAA AAGATAAGAA AATAAGTCTT GGTACAATTA CCCCCAAGGT AGGCTTTGAT
GAAGACTGCC GCCACAGGAC TGGGGAGACC GGAGAGGGCT CCAGACAGAG CAGCCACCCA
GCGCCTGGGA AAGCACCGGA GGGCTCCTCC AGGAGAGACG CTCAGGGAAG CAGCACCAAC
TTCCCACTTC CTGTGAACTG TTGGTCCGAT GTTCACACTA AGGAGAAGCA TGCTGACAAT
CAGAAGCGTT TGGCAGCCTT GGACGCAAGG CAGAAAGCAA AGGAAGTGAG GAAGAAGCTG
GTTCATAATG CCCTGGCAGA CTTGGATGGT CATCCAGAGG ACAAGCCAAC GCACATCATC
TTTGGTTCTG ACAGTGAAAC AGAGGAGCAA AGCCACCCGG GAGAGGAGCC CGTGCAGGAG
GCCGTGAGCA GAGCATCTGG GAGGCTGTTT GACAGCAGTG AGGATGAAGA ATCTGGCTTC
GAAGATGACA GTCACAGGTT CAGAATTAAA CCTCAGTTTG AGGGCAGAGC TGGGCAGAAG
CTTCTGGACT TGCAGTCTCA CTTCGGCACT GATGACAGAT TCCGCATGGA CTCCCGATTT
CTGGAAAGTG ACAGTGAAGA AGAACAGGAA GAGGAAAATG ATGAGAAAAC AGCGGAGGAA
GAGGAGCTTG CTGCAGAGAA GCTCAAAGCC CTGAACGTCA TGCAGAGTGT TTTGCACACC
ACTGTGAGCA GTTCTGCGCA CAAAGGATCG GCAGCTGCCA AGAAATTTAG GGATGTCGTA
CATTATGATC CAACGAGGAA TGACCACACC GCTTACGAAA GGAAGAGCGA TGATAAACCA
AAGGAAAGTA AAGCAAAACG AAGGAAGCAG AGGGAGGAGG CCGAGAAGCT GCCTGAGGTG
TCTAAAGAGA TGTATTATAG CGTCGCTGCA GACTTAAAAG AAATATTTCA AACTACAAAA
GTTACCAGTG AAACAGCAGA CGACACACCG TCTAGTGAGA ATCGTGATGG CGAGAAAGTC
GACGTTCACC TCCCCACCAG TCCAACGACG GGGGCCGAGC AGCGTGGCGG GTTCACATTC
TCCTTTTTTG ATTCAGATGC TAAAGATGTA AAGGAAGATG CCTACAGAGC TGAGCCTGTG
AAAACCAGGA AGGTCGTCTG GCAGGGGACC CCTCGTTTCC AAGACAGCAG CTCCGAAGAG
GAGGATATTG CTGAAGAAGA AACAGAAGGC AGCCAGCCCA GCCCCAGAGA AGTATCATTA
CCTGAGAAAG AGACCATTAG ATTTTTCTTT TTTTCTAAGA ATGATGAAAG ACTTCATGTA
GGTTCTGATT TATTCTGGAG AGGAGTGGGA AGTGATATTA GCAGGAATTC TTGGGAGGCC
AGAACAAACA ACTTGCGGAT GGACTGCCGG AAGAAACATA AAGATGCCAA AAGGAGAGTG
AAACCAAAAT AAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_011233651.1 CDS 322..3753 Translation
Target ORF information:
RefSeq Version XM_011235349.2 Organism Ailuropoda melanoleuca(giant panda) Definition Ailuropoda melanoleuca nucleolar protein 8 (NOL8), transcript variant X2, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_011235349.2
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421ATGAAAGCTG ACAGAGAAGT GAGGCGCCTA TTCGTGGGTG GCCTTGGCCA GAACATTTCC
GAGACAGACC TACAAAATCA GTTCAGCAGA TTTGGAGAAG TTTCTGATGT GGAGATCATC
ACACGAAAAG ATGACCAAGG AAACCCACAG AAAGTCTTTG CGTATATCAA CATCAGAGTA
GCAGAGGCAG ATCTGAACAA ATGTATGTCT GCTTTGAATA AAACAAAATG GAAAGGTGGA
ACACTACAAA TTCAGCTAGC AAAAGAAAGT TTTTTGCACA GATTGGCCCA AGAGAGAGAA
GCAGCAAAAG CGAAGAAAGC AAAATCAACA ACAGGCAACA CCAACATTTT GGAAAAGATG
GGAGTGGTGG ATTTCCATGT GAAAGCTGTA CCAGGGACAG AAGTGCCAGG GCACAAAAAT
TGGGTTGTGA GTAAATTTGG AAGAGTTTTA CCTGTCCTTC ACCTAAAGAA CCAACATAAA
CGTAAAATCA TGAAGTATGA CCCATCAAAA TACTGCCACA ACTTAAAGAA GATCGCAGAG
GATGTCACAC ATGCCACCCC TGTGTCCAGC CTCACCTGGC AACTGGAAGG AGGGGATGAC
CCTATGAGTA GGAAGCGACG AGGGGAGTTC TGTGCCATTC AGACCTCCTC CCAGAAGAGG
ATCAAAGCAC AGAAGGACAA GGGGACTGCT GCTTCTCCAG CTGTGAGAGC AGGAACCCTC
ACGGTCCCGG GAAGTCCGCA TCCCAAACAG CAAGAGGCGG CACAGGAAGC ACGCTGTGAG
CTCATTACTG CTCCGTTGCC CTCTGTCCCT GCTTCTCACA GCCAGAAACC TAACAGTATG
TTTGTTCAGA CTTATGGTGT GGGAAGTGCC AGGCGCAGAA ATCACGTGTC TGACGATGAT
ACCGATTCTG AAGAAGAGAT ACGACTACTG ATTGCAAGAG AGGAAAACCT GGGGAAAACT
GCATGGCCCT CAGTGGGTGA CTCTGCAAAT GAGTCCTTCG AAGTTGTCGG GGGGGACTTC
AGGTCAGGTG TTCACAAGCT GCATTCAGTA ACAGCTCTAG GTGTCAGTCA TGTCTCTGAC
CGGGATGGGG AAGGTAATGC CCTGGGAAAC GATTGCAACT ATGATTCAGG AGATACAGAT
GAGATCATCG CAGCAAAGAA AAAGACCAGT AAAGTCAAAA ACAGTGCAGA GTTTTCACAA
ATGGAAAAGT ATGCACACAA GAAAACGCCT TTGAAAAATA GAAAAAACTG TGAGCTTTCT
GATCCTTGTG TTAAAGGACA AAAAAGAAAG ACCAAGCCAG ATGGAGCCAT CAGTCCTAGG
GTTACAGTCC GCTGCAGCAG CAGGGAAGAT TGGGGTTCTG CGTCAGAATC CGCTGAGTCT
GCAGGAGATG AGGAGTATGA GGCCATGATG AAAAACTGCC TCCATGTGCA GCTTACCTTA
GCTGATCTGG AACAGCTGGC TGGCGGTGAC CTGCAGGATC CGGAAGAAGA TCCTGAGAGC
GGTGGCCAGG AGACCACCAC CAAATGTGAC AGGACTCTGG GGGGCCTGCA CAGAGCCCGG
CCATGCATCT GTCCCGAGGA CATTGTGGCT GCCCTTTTAG AAGGAGAAGA GAACACCTGT
GGAAAGCAGA AACTGAAGGG AAATAACCTA CAGCCGAAAT TCCAAGCTTT CAAGGGAGTA
GGCTCTCTCT ATGGAAAGGA ATCAATAAAA AAACCCTTGA AAGAAAGTGT TGCCTTTGAC
AATATAAATA AAGATCAGAA TTCCTTGAAA TTTGATCCCA GTAGCATGTC CATGGAGAAG
GGGTCCCCAC CTGCTAATGG CTCGTCAGGC AAACTAACTC CTCTCCAACA CGCAAAGAAG
GCAAATGACC CAAACCAAAT TCAGCCTCAA AAGAGACGTT CTCCTTTCCA GAGCCAGGAT
CACGAGATTG TGTCCCCTAG CAGTTCGGAA GAGGGAGGTA GAAATCCTGT TTCTAGTCTG
TTGCCATTAA AAGATAAGAA AATAAGTCTT GGTACAATTA CCCCCAAGGT AGGCTTTGAT
GAAGACTGCC GCCACAGGAC TGGGGAGACC GGAGAGGGCT CCAGACAGAG CAGCCACCCA
GCGCCTGGGA AAGCACCGGA GGGCTCCTCC AGGAGAGACG CTCAGGGAAG CAGCACCAAC
TTCCCACTTC CTGTGAACTG TTGGTCCGAT GTTCACACTA AGGAGAAGCA TGCTGACAAT
CAGAAGCGTT TGGCAGCCTT GGACGCAAGG CAGAAAGCAA AGGAAGTGAG GAAGAAGCTG
GTTCATAATG CCCTGGCAGA CTTGGATGGT CATCCAGAGG ACAAGCCAAC GCACATCATC
TTTGGTTCTG ACAGTGAAAC AGAGGAGCAA AGCCACCCGG GAGAGGAGCC CGTGCAGGAG
GCCGTGAGCA GAGCATCTGG GAGGCTGTTT GACAGCAGTG AGGATGAAGA ATCTGGCTTC
GAAGATGACA GTCACAGGTT CAGAATTAAA CCTCAGTTTG AGGGCAGAGC TGGGCAGAAG
CTTCTGGACT TGCAGTCTCA CTTCGGCACT GATGACAGAT TCCGCATGGA CTCCCGATTT
CTGGAAAGTG ACAGTGAAGA AGAACAGGAA GAGGAAAATG ATGAGAAAAC AGCGGAGGAA
GAGGAGCTTG CTGCAGAGAA GCTCAAAGCC CTGAACGTCA TGCAGAGTGT TTTGCACACC
ACTGTGAGCA GTTCTGCGCA CAAAGGATCG GCAGCTGCCA AGAAATTTAG GGATGTCGTA
CATTATGATC CAACGAGGAA TGACCACACC GCTTACGAAA GGAAGAGCGA TGATAAACCA
AAGGAAAGTA AAGCAAAACG AAGGAAGCAG AGGGAGGAGG CCGAGAAGCT GCCTGAGGTG
TCTAAAGAGA TGTATTATAG CGTCGCTGCA GACTTAAAAG AAATATTTCA AACTACAAAA
GTTACCAGTG AAACAGCAGA CGACACACCG TCTAGTGAGA ATCGTGATGG CGAGAAAGTC
GACGTTCACC TCCCCACCAG TCCAACGACG GGGGCCGAGC AGCGTGGCGG GTTCACATTC
TCCTTTTTTG ATTCAGATGC TAAAGATGTA AAGGAAGATG CCTACAGAGC TGAGCCTGTG
AAAACCAGGA AGGTCGTCTG GCAGGGGACC CCTCGTTTCC AAGACAGCAG CTCCGAAGAG
GAGGATATTG CTGAAGAAGA AACAGAAGGC AGCCAGCCCA GCCCCAGAGA AGTATCATTA
CCTGAGAAAG AGACCATTAG ATTTTTCTTT TTTTCTAAGA ATGATGAAAG ACTTCATGTA
GGTTCTGATT TATTCTGGAG AGGAGTGGGA AGTGATATTA GCAGGAATTC TTGGGAGGCC
AGAACAAACA ACTTGCGGAT GGACTGCCGG AAGAAACATA AAGATGCCAA AAGGAGAGTG
AAACCAAAAT AAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAc98637 Clone ID Related Accession (Same CDS sequence) XM_019808416.1 Accession Version XM_019808416.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3369bp)
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 1482768000000 Organism Ailuropoda melanoleuca(giant panda) Product nucleolar protein 8 isoform X3 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218612.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 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
3361ATGAAAGCTG ACAGAGAAGT GAGGCGCCTA TTCGTGGGTG GCCTTGGCCA GAACATTTCC
GAGACAGACC TACAAAATCA GTTCAGCAGA TTTGGAGAAG TTTCTGATGT GGAGATCATC
ACACGAAAAG ATGACCAAGG TATGTCTGCT TTGAATAAAA CAAAATGGAA AGGTGGAACA
CTACAAATTC AGCTAGCAAA AGAAAGTTTT TTGCACAGAT TGGCCCAAGA GAGAGAAGCA
GCAAAAGCGA AGAAAGCAAA ATCAACAACA GGCAACACCA ACATTTTGGA AAAGATGGGA
GTGGTGGATT TCCATGTGAA AGCTGTACCA GGGACAGAAG TGCCAGGGCA CAAAAATTGG
GTTGTGAGTA AATTTGGAAG AGTTTTACCT GTCCTTCACC TAAAGAACCA ACATAAACGT
AAAATCATGA AGTATGACCC ATCAAAATAC TGCCACAACT TAAAGAAGAT CGCAGAGGAT
GTCACACATG CCACCCCTGT GTCCAGCCTC ACCTGGCAAC TGGAAGGAGG GGATGACCCT
ATGAGTAGGA AGCGACGAGG GGAGTTCTGT GCCATTCAGA CCTCCTCCCA GAAGAGGATC
AAAGCACAGA AGGACAAGGG GACTGCTGCT TCTCCAGCTG TGAGAGCAGG AACCCTCACG
GTCCCGGGAA GTCCGCATCC CAAACAGCAA GAGGCGGCAC AGGAAGCACG CTGTGAGCTC
ATTACTGCTC CGTTGCCCTC TGTCCCTGCT TCTCACAGCC AGAAACCTAA CAGTATGTTT
GTTCAGACTT ATGGTGTGGG AAGTGCCAGG CGCAGAAATC ACGTGTCTGA CGATGATACC
GATTCTGAAG AAGAGATACG ACTACTGATT GCAAGAGAGG AAAACCTGGG GAAAACTGCA
TGGCCCTCAG TGGGTGACTC TGCAAATGAG TCCTTCGAAG TTGTCGGGGG GGACTTCAGG
TCAGGTGTTC ACAAGCTGCA TTCAGTAACA GCTCTAGGTG TCAGTCATGT CTCTGACCGG
GATGGGGAAG GTAATGCCCT GGGAAACGAT TGCAACTATG ATTCAGGAGA TACAGATGAG
ATCATCGCAG CAAAGAAAAA GACCAGTAAA GTCAAAAACA GTGCAGAGTT TTCACAAATG
GAAAAGTATG CACACAAGAA AACGCCTTTG AAAAATAGAA AAAACTGTGA GCTTTCTGAT
CCTTGTGTTA AAGGACAAAA AAGAAAGACC AAGCCAGATG GAGCCATCAG TCCTAGGGTT
ACAGTCCGCT GCAGCAGCAG GGAAGATTGG GGTTCTGCGT CAGAATCCGC TGAGTCTGCA
GGAGATGAGG AGTATGAGGC CATGATGAAA AACTGCCTCC ATGTGCAGCT TACCTTAGCT
GATCTGGAAC AGCTGGCTGG CGGTGACCTG CAGGATCCGG AAGAAGATCC TGAGAGCGGT
GGCCAGGAGA CCACCACCAA ATGTGACAGG ACTCTGGGGG GCCTGCACAG AGCCCGGCCA
TGCATCTGTC CCGAGGACAT TGTGGCTGCC CTTTTAGAAG GAGAAGAGAA CACCTGTGGA
AAGCAGAAAC TGAAGGGAAA TAACCTACAG CCGAAATTCC AAGCTTTCAA GGGAGTAGGC
TCTCTCTATG GAAAGGAATC AATAAAAAAA CCCTTGAAAG AAAGTGTTGC CTTTGACAAT
ATAAATAAAG ATCAGAATTC CTTGAAATTT GATCCCAGTA GCATGTCCAT GGAGAAGGGG
TCCCCACCTG CTAATGGCTC GTCAGGCAAA CTAACTCCTC TCCAACACGC AAAGAAGGCA
AATGACCCAA ACCAAATTCA GCCTCAAAAG AGACGTTCTC CTTTCCAGAG CCAGGATCAC
GAGATTGTGT CCCCTAGCAG TTCGGAAGAG GGAGGTAGAA ATCCTGTTTC TAGTCTGTTG
CCATTAAAAG ATAAGAAAAT AAGTCTTGGT ACAATTACCC CCAAGGTAGG CTTTGATGAA
GACTGCCGCC ACAGGACTGG GGAGACCGGA GAGGGCTCCA GACAGAGCAG CCACCCAGCG
CCTGGGAAAG CACCGGAGGG CTCCTCCAGG AGAGACGCTC AGGGAAGCAG CACCAACTTC
CCACTTCCTG TGAACTGTTG GTCCGATGTT CACACTAAGG AGAAGCATGC TGACAATCAG
AAGCGTTTGG CAGCCTTGGA CGCAAGGCAG AAAGCAAAGG AAGTGAGGAA GAAGCTGGTT
CATAATGCCC TGGCAGACTT GGATGGTCAT CCAGAGGACA AGCCAACGCA CATCATCTTT
GGTTCTGACA GTGAAACAGA GGAGCAAAGC CACCCGGGAG AGGAGCCCGT GCAGGAGGCC
GTGAGCAGAG CATCTGGGAG GCTGTTTGAC AGCAGTGAGG ATGAAGAATC TGGCTTCGAA
GATGACAGTC ACAGGTTCAG AATTAAACCT CAGTTTGAGG GCAGAGCTGG GCAGAAGCTT
CTGGACTTGC AGTCTCACTT CGGCACTGAT GACAGATTCC GCATGGACTC CCGATTTCTG
GAAAGTGACA GTGAAGAAGA ACAGGAAGAG GAAAATGATG AGAAAACAGC GGAGGAAGAG
GAGCTTGCTG CAGAGAAGCT CAAAGCCCTG AACGTCATGC AGAGTGTTTT GCACACCACT
GTGAGCAGTT CTGCGCACAA AGGATCGGCA GCTGCCAAGA AATTTAGGGA TGTCGTACAT
TATGATCCAA CGAGGAATGA CCACACCGCT TACGAAAGGA AGAGCGATGA TAAACCAAAG
GAAAGTAAAG CAAAACGAAG GAAGCAGAGG GAGGAGGCCG AGAAGCTGCC TGAGGTGTCT
AAAGAGATGT ATTATAGCGT CGCTGCAGAC TTAAAAGAAA TATTTCAAAC TACAAAAGTT
ACCAGTGAAA CAGCAGACGA CACACCGTCT AGTGAGAATC GTGATGGCGA GAAAGTCGAC
GTTCACCTCC CCACCAGTCC AACGACGGGG GCCGAGCAGC GTGGCGGGTT CACATTCTCC
TTTTTTGATT CAGATGCTAA AGATGTAAAG GAAGATGCCT ACAGAGCTGA GCCTGTGAAA
ACCAGGAAGG TCGTCTGGCA GGGGACCCCT CGTTTCCAAG ACAGCAGCTC CGAAGAGGAG
GATATTGCTG AAGAAGAAAC AGAAGGCAGC CAGCCCAGCC CCAGAGAAGT ATCATTACCT
GAGAAAGAGA CCATTAGATT TTTCTTTTTT TCTAAGAATG ATGAAAGACT TCATGTAGGT
TCTGATTTAT TCTGGAGAGG AGTGGGAAGT GATATTAGCA GGAATTCTTG GGAGGCCAGA
ACAAACAACT TGCGGATGGA CTGCCGGAAG AAACATAAAG ATGCCAAAAG GAGAGTGAAA
CCAAAATAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_019663975.1 CDS 416..3784 Translation
Target ORF information:
RefSeq Version XM_019808416.1 Organism Ailuropoda melanoleuca(giant panda) Definition Ailuropoda melanoleuca nucleolar protein 8 (NOL8), transcript variant X4, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_019808416.1
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
3361ATGAAAGCTG ACAGAGAAGT GAGGCGCCTA TTCGTGGGTG GCCTTGGCCA GAACATTTCC
GAGACAGACC TACAAAATCA GTTCAGCAGA TTTGGAGAAG TTTCTGATGT GGAGATCATC
ACACGAAAAG ATGACCAAGG TATGTCTGCT TTGAATAAAA CAAAATGGAA AGGTGGAACA
CTACAAATTC AGCTAGCAAA AGAAAGTTTT TTGCACAGAT TGGCCCAAGA GAGAGAAGCA
GCAAAAGCGA AGAAAGCAAA ATCAACAACA GGCAACACCA ACATTTTGGA AAAGATGGGA
GTGGTGGATT TCCATGTGAA AGCTGTACCA GGGACAGAAG TGCCAGGGCA CAAAAATTGG
GTTGTGAGTA AATTTGGAAG AGTTTTACCT GTCCTTCACC TAAAGAACCA ACATAAACGT
AAAATCATGA AGTATGACCC ATCAAAATAC TGCCACAACT TAAAGAAGAT CGCAGAGGAT
GTCACACATG CCACCCCTGT GTCCAGCCTC ACCTGGCAAC TGGAAGGAGG GGATGACCCT
ATGAGTAGGA AGCGACGAGG GGAGTTCTGT GCCATTCAGA CCTCCTCCCA GAAGAGGATC
AAAGCACAGA AGGACAAGGG GACTGCTGCT TCTCCAGCTG TGAGAGCAGG AACCCTCACG
GTCCCGGGAA GTCCGCATCC CAAACAGCAA GAGGCGGCAC AGGAAGCACG CTGTGAGCTC
ATTACTGCTC CGTTGCCCTC TGTCCCTGCT TCTCACAGCC AGAAACCTAA CAGTATGTTT
GTTCAGACTT ATGGTGTGGG AAGTGCCAGG CGCAGAAATC ACGTGTCTGA CGATGATACC
GATTCTGAAG AAGAGATACG ACTACTGATT GCAAGAGAGG AAAACCTGGG GAAAACTGCA
TGGCCCTCAG TGGGTGACTC TGCAAATGAG TCCTTCGAAG TTGTCGGGGG GGACTTCAGG
TCAGGTGTTC ACAAGCTGCA TTCAGTAACA GCTCTAGGTG TCAGTCATGT CTCTGACCGG
GATGGGGAAG GTAATGCCCT GGGAAACGAT TGCAACTATG ATTCAGGAGA TACAGATGAG
ATCATCGCAG CAAAGAAAAA GACCAGTAAA GTCAAAAACA GTGCAGAGTT TTCACAAATG
GAAAAGTATG CACACAAGAA AACGCCTTTG AAAAATAGAA AAAACTGTGA GCTTTCTGAT
CCTTGTGTTA AAGGACAAAA AAGAAAGACC AAGCCAGATG GAGCCATCAG TCCTAGGGTT
ACAGTCCGCT GCAGCAGCAG GGAAGATTGG GGTTCTGCGT CAGAATCCGC TGAGTCTGCA
GGAGATGAGG AGTATGAGGC CATGATGAAA AACTGCCTCC ATGTGCAGCT TACCTTAGCT
GATCTGGAAC AGCTGGCTGG CGGTGACCTG CAGGATCCGG AAGAAGATCC TGAGAGCGGT
GGCCAGGAGA CCACCACCAA ATGTGACAGG ACTCTGGGGG GCCTGCACAG AGCCCGGCCA
TGCATCTGTC CCGAGGACAT TGTGGCTGCC CTTTTAGAAG GAGAAGAGAA CACCTGTGGA
AAGCAGAAAC TGAAGGGAAA TAACCTACAG CCGAAATTCC AAGCTTTCAA GGGAGTAGGC
TCTCTCTATG GAAAGGAATC AATAAAAAAA CCCTTGAAAG AAAGTGTTGC CTTTGACAAT
ATAAATAAAG ATCAGAATTC CTTGAAATTT GATCCCAGTA GCATGTCCAT GGAGAAGGGG
TCCCCACCTG CTAATGGCTC GTCAGGCAAA CTAACTCCTC TCCAACACGC AAAGAAGGCA
AATGACCCAA ACCAAATTCA GCCTCAAAAG AGACGTTCTC CTTTCCAGAG CCAGGATCAC
GAGATTGTGT CCCCTAGCAG TTCGGAAGAG GGAGGTAGAA ATCCTGTTTC TAGTCTGTTG
CCATTAAAAG ATAAGAAAAT AAGTCTTGGT ACAATTACCC CCAAGGTAGG CTTTGATGAA
GACTGCCGCC ACAGGACTGG GGAGACCGGA GAGGGCTCCA GACAGAGCAG CCACCCAGCG
CCTGGGAAAG CACCGGAGGG CTCCTCCAGG AGAGACGCTC AGGGAAGCAG CACCAACTTC
CCACTTCCTG TGAACTGTTG GTCCGATGTT CACACTAAGG AGAAGCATGC TGACAATCAG
AAGCGTTTGG CAGCCTTGGA CGCAAGGCAG AAAGCAAAGG AAGTGAGGAA GAAGCTGGTT
CATAATGCCC TGGCAGACTT GGATGGTCAT CCAGAGGACA AGCCAACGCA CATCATCTTT
GGTTCTGACA GTGAAACAGA GGAGCAAAGC CACCCGGGAG AGGAGCCCGT GCAGGAGGCC
GTGAGCAGAG CATCTGGGAG GCTGTTTGAC AGCAGTGAGG ATGAAGAATC TGGCTTCGAA
GATGACAGTC ACAGGTTCAG AATTAAACCT CAGTTTGAGG GCAGAGCTGG GCAGAAGCTT
CTGGACTTGC AGTCTCACTT CGGCACTGAT GACAGATTCC GCATGGACTC CCGATTTCTG
GAAAGTGACA GTGAAGAAGA ACAGGAAGAG GAAAATGATG AGAAAACAGC GGAGGAAGAG
GAGCTTGCTG CAGAGAAGCT CAAAGCCCTG AACGTCATGC AGAGTGTTTT GCACACCACT
GTGAGCAGTT CTGCGCACAA AGGATCGGCA GCTGCCAAGA AATTTAGGGA TGTCGTACAT
TATGATCCAA CGAGGAATGA CCACACCGCT TACGAAAGGA AGAGCGATGA TAAACCAAAG
GAAAGTAAAG CAAAACGAAG GAAGCAGAGG GAGGAGGCCG AGAAGCTGCC TGAGGTGTCT
AAAGAGATGT ATTATAGCGT CGCTGCAGAC TTAAAAGAAA TATTTCAAAC TACAAAAGTT
ACCAGTGAAA CAGCAGACGA CACACCGTCT AGTGAGAATC GTGATGGCGA GAAAGTCGAC
GTTCACCTCC CCACCAGTCC AACGACGGGG GCCGAGCAGC GTGGCGGGTT CACATTCTCC
TTTTTTGATT CAGATGCTAA AGATGTAAAG GAAGATGCCT ACAGAGCTGA GCCTGTGAAA
ACCAGGAAGG TCGTCTGGCA GGGGACCCCT CGTTTCCAAG ACAGCAGCTC CGAAGAGGAG
GATATTGCTG AAGAAGAAAC AGAAGGCAGC CAGCCCAGCC CCAGAGAAGT ATCATTACCT
GAGAAAGAGA CCATTAGATT TTTCTTTTTT TCTAAGAATG ATGAAAGACT TCATGTAGGT
TCTGATTTAT TCTGGAGAGG AGTGGGAAGT GATATTAGCA GGAATTCTTG GGAGGCCAGA
ACAAACAACT TGCGGATGGA CTGCCGGAAG AAACATAAAG ATGCCAAAAG GAGAGTGAAA
CCAAAATAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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PubMed
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