NUP153 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene
Clones
gRNAs

Summary

Gene Symbol	NUP153
Entrez Gene ID	100478692
Full Name	nucleoporin 153
Gene Type	protein-coding
Organism	Ailuropoda melanoleuca(giant panda)

mRNA and Protein(s)

mRNA	Protein	Name
XM_011234465.2	XP_011232767.1	nuclear pore complex protein Nup153 isoform X2
XM_002926986.3	XP_002927032.1	nuclear pore complex protein Nup153 isoform X1
XM_019807727.1	XP_019663286.1	nuclear pore complex protein Nup153 isoform X1

Pathways from BioSystems
Gene Ontology

The following NUP153 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the NUP153 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.

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)
OAc14072	XM_002926986.3 Latest version!	Ailuropoda melanoleuca nucleoporin 153 (NUP153), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00
OAc14072	XM_019807727.1 Latest version!	Ailuropoda melanoleuca nucleoporin 153 (NUP153), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00
OAc28933	XM_011234465.2 Latest version!	Ailuropoda melanoleuca nucleoporin 153 (NUP153), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

Reference Sequences (Refseq)

NUP153 ( XM_002926986.3 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_002927032.1 Ailuropoda melanoleuca nucleoporin 153 (NUP153), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OAc14072
Clone ID Related Accession (Same CDS sequence)	XM_002926986.3 , XM_019807727.1
Accession Version	XM_002926986.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4431bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag 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	nuclear pore complex protein Nup153 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218484.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_002926986.2. ##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##

ATGGCCTCGG GAGCCGGAGG AATAGGAGGG GGCGGTGGCG GCAAGATCCG GACGCGGCGT 
TGCCACCAGG GACCAATTAA GCCTTACCAG CAGGGGCGAC AACAGCAGCA GGGCATTCTT 
AGCAGGGTTA CAGAATCTGT TAAGAATATT GTGCCAGGAT GGCTACAAAG ATACTTCAAC 
AAGAATGAAG ATGTATGCAG CTGCTCAACA GACACAAGAG AGGTACCGCA GTGGCCAGAA 
AATAGAGAAG ATGATCACCT GGTATATGCC GATGAGGAGA GCTCTAATAT TCATGATGGG 
AGGATCACTC CTGAGCCAAC AGTCAGTAAT ACAGAAGAAC CCTCAACAAC TAGTACTTCT 
TCAAATTACC CAGATGTATT AACAAGGCCT TCTCTTCATC GGAGCCATAT GAATTTCTCC 
ATGTTGGAAT CTCCTGCATT ACACTGTCAA CCCTCTACAT CCTCGGCATT CCCAATTGGC 
AGTTCTGGAT TTTCCCTTGT AAAGGAAATT AAAGATTCTA CCTCTCAACA TGATGATGAT 
AACATCTCAA CTACCAGTGG TTTTTCTTCA AGAGCTTCTG ATAAAGATAT AGCTGTTACA 
AAGAGCACTT CAGTGCCACC TCTGTGGTCC CCAGAGGCTG AACGTACTCC TTCACTCTCA 
CAGCACACTG CCACCAGCTC AAAAAAACCA GCATTCAACT TGTCTGCCTT TGGAACACTT 
TCCCCTTCAC TTGGGAATTC TTCAATCCTT AAAACAAGTC AACTTGGAGA TTCTCCTTTT 
TATCCTGGAA AAACAGTGTA TGGTGGGGCA GCAGCTGCTG TAAGACAGCC TAAACTACGA 
AACACACCAT ATCAGGCACC AGTCAGAAGA CAGATGAAAG CTAAGCAGCT CAATGCACAA 
TCCTATGGTG TGACCAGTTC AACAGCTCGG CGAATATTGC AGTCTTTAGA GAAGATGTCA 
AGCCCTCTAG CGGATGCAAA AAGAATTCCA TCTATTGTCT CTTCTCCCCT GAATTCTTCT 
CTGGATAGAA GTGGAATAGA TACCACTGCA GACTTTCAGG CCAAAAGGGA AAGGGTGGAC 
TCTCAGTATC CCCCTGTTCA GAGACTCATG ACCCCAAAGC CAGTTTCCAT AGCAACAAAT 
CGAACTGTTT ATTTTAAACC ATCTCTGACC CCGTCTGGTG AATTAAGGAA GACAAATCAA 
AGAATAGATA AAAAGCACAG TACTGGATAT GAAAAACCTG TGACACCAGG ACAAACTAGA 
GAACGAGAAA GTGGCTTTTC TTACCCAAAT TTCAGTATGT CTGCAGCCAA TGGTTTATCT 
TCTGGAGTAG GTGGTGGAGG CGGCAAGATG AGACGAGAGA GAACGCGCTT TGCATCTAAA 
CCTCCAGAGG AGGAGGAAAT GGAAGTACCA GTATTGCCGA AAATCTCTCT ACCCATCACC 
AGTTCTTCAC TGCCTACCTT CAGTTTTAGT TCCTCTGTGA TCACAACATC CTCTCCATCA 
CCCATTAGTC CTTCGCAATC ATTAACAAAC AAGGTACAAA TGACCTCTCC AAACAGCACT 
GGCAGCCCCA TGTTTCGATT TTCATCTCCA ATTGTAAAAT CTACTGAGGC AGATGTACTA 
CCTCCATCAT CTATCGGATT TACATTCAGT GTGCCTGTTG CAAAAACAGC AGAACTTTCT 
GGCTCTAGTA GTATTTCAGA AACAATTACA AGTAGTAGTT CAGCTCAAGA TATCAGTGCA 
GTGAATAGTA CAAGCTGTAA GAAGAAGCCA GATGAAGATT GTGAGGGTCC TTTTAGACCT 
GCAAAAACCC TGAAAGAAGG AAGTGTCCTA GATGTTCTCA AAAGCCCCGG TTTCACATCA 
CCAAAGGCAG ATTCCCTTGC TGCTCAGCCT GCTACCACAA GCCCAGTCGT TTATACAAGA 
CCAGCAATAA GTAGCTTTTC TTCTAGTGGC ATCGGGTGTG GTGAAAGTTT AAAAGCCGGA 
CCATCGTGGC AGTGTGATAC TTGTCTACTC CAGAACAAAA TTACAGACAG CAAGTGCATA 
GCCTGTCAAG CAACAAAATT GCCGCCAAAA GAGACTGCTA AACAAACTGG AATTGGAACA 
CCAAGTAAAA GTGACAAATC AACTCTTCCC GCATCAGGGA CAGGTTTCGG AGACAAATTT 
AAGCCAGCAG TAGGCACTTG GGATTGTGAT ACCTGCTTAG TGCAGAATAA ACCCGAGGCG 
ATAAAATGCG TGGCCTGTGA AACACCGAAG CCTGGGACCG GGGTTAAGCG AGTCCTTACA 
TTGCCCGCGG CTTCAGAGAG TGCTGTGACC ACGGCTGCTT CATCTGCCAC CTGCACTGTG 
ACCACTGCCG CCTTAGGGTT TGCAGATCAA TTTAAAAGGC CCGTGGGATC TTGGGAGTGT 
CCCGTGTGCT GTGTTTTTAA TAATGGAGAA GACAGTAAAT GTGTGTCCTG TGTGTCTGAG 
AAACCAGGAA GTTCGGTACC TGCTTCAAGT AGCAGCAGTG TCCCCACCTC TCTGTCTTCT 
GGAAGCTGCC TGGGGTTAGA CAAGTTCAAG AAACCCGAGG GCAGCTGGGA CTGTGAGGTG 
TGCCTGGTAC AGAATAAAGC AGATGCTACC AAATGTGTGG CGTGCGAAAG TGCAAAGCCA 
GGCACAAAAT CTGAGTTTAA AGGCTTTGGC ACATCTTCCT CGTCTTCGAA CCCAGCAGCC 
TCATCCTTCA AATTTGGTAT CCCATCATCC TCTTCTGGGC CTTCTCAGAC TTTAACAAGC 
ACTGGAAATT TTAAGTTTGG AGATCAGGGA GGCTTCAAAA TAGGAGTGTC TTCAGAGTCT 
GAGTCTCCAA ACTCCATGAG CGAAGGCTTT AAATTTCCTA AACCAATAGG AGATTTTAAA 
TTTGGGGTTT CGTCTGAGTC TAAACCTGAA GAAGCTAAAA AAGACAGTAA GAATGATAAT 
GATTTTAAGT TTGGACTTCC TTCGGGTTTA AGTAATACAG CTTCCTTAGC TCCATTTCAG 
TTTGGGGTGT CTAATCTTGG GCAGCAAGAA AAGAAAGAGG AACTACCTAA ACCTTCATCT 
GCAGGCTTCA GCTTTGGTAC AGGTGTCATT AACCCCACAC CTGCTGCTAC TAACACCGCA 
GTGACCTCTG AGAACAAGAG CAGCTTCAGC TTTGGAGCCG TAGAAACCAA GAGTGTTTCA 
GTGGCTCCTT TCACGTGTAA GACGACAGAA GCAAAAAAGG AAGAAATGCC TGCCGCCAAA 
GGAGGCTTCA CTTTTGGTGG GATAGAACCC GCCCCCCTGC CATCTGCCTC ATTGTTTGCG 
TTGGGAAGGA CAGAAGAGAA GCAGCAAGAG CCCGTGACTT CTACTTCTCT GGTGTTTGGG 
AAGAAAGCTG ACAGTGAAGA GCCAAAGTGT CAATCAGTGT TTTCCTTTGG AAATTCAGAG 
CAAACCAAAG ATGAGAGTTC TTCGAAGTCC ACCTTCAGTT TCAGTATGGC AAAACCAGCC 
GAGAAGGAAG CGGAACAGCC GACAAAGGCC ACGTTCACGT TTGGGACGCC AACCAGTACT 
ACGGCTGATG CCGCGGCGGC CAAGCCGGTG TTCAGCTTCC TGAAGAGCAG CGCTCCCACG 
GCCAGCGCCC CGGCCACCGC GGGGGGTGTT TTCGGCAGCT CCGCTCCCGC CACCAGTGCA 
CCTGTGACCG CCTTTGTGTT TGGACAGGCC GCCAACCCCG TGAGCAGCTC TGCCTTCGGG 
ACCTCCACCG AATCGGGCGC CTCCCAGCCT TTGCTGTTCT CGCAAGAGAG TAAGCCAGCA 
ACCACGTCGA GCGCGGGTGC GGCTGTCACC CCGTTCGTCT TCGGGCCGGG AGCCAGCAGC 
AGCAGCACTG CGACCTCCGC TTTCAGCTTT GGAGCCACGA CCACGGCCAG CTCTGCAGGA 
TCCTCCTTCG TATTTGGCAC GGGGCCTTCC GCACCCTCTG CCAGTCCAGC ATTTGGTGTT 
AACCAAACCC CGACGTTCGG ACAGAGTCAG GGTGCCAGCC AGCCGAATCC CCCAGGCTTT 
GGAGCTCTGT CCTCGTCAGC AGCGTTGTTT TCTGCTGGTA CTCAGCCCGC ACCACCTACT 
TTTGGGACCG TGTCGAGCAG CAGCCAGCCT CCTGTGTTTG GACAGCAGCC CAGTCAGTCT 
GCGTTCGGCT CTGCAGCAGC TCCTAGTTCC GGTTCAGTTT TCCAGTTCGG CGGCAGCAGC 
AGCACCACCA ATTTCAACTT CACGAACAAC AATCCGTCAG GAGTGTTCAC GTTCAGTGCG 
AACCCTAGCA CCCCTGCGGC CTCAGCCCAG CCTTCCGGCT CCGGGGGCTT CCCGTTCAAC 
CAGCCTTCAG CGGCGTTTAC AGTGGGGTCA AACGGGAAAA ATGTGTTCTC CTCTTCTGGA 
ACTTCAGTGT CTGGTCGCAA GATCAAGACT GCTGTTCGGC GCAGGAAATA A

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_002927032.1
CDS	199..4629
Translation	MASGAGGIGGGGGGKIRTRRCHQGPIKPYQQGRQQQQGILSRVTESVKNIVPGWLQRYFNKNEDVCSCSTDTREVPQWPENREDDHLVYADEESSNIHDGRITPEPTVSNTEEPSTTSTSSNYPDVLTRPSLHRSHMNFSMLESPALHCQPSTSSAFPIGSSGFSLVKEIKDSTSQHDDDNISTTSGFSSRASDKDIAVTKSTSVPPLWSPEAERTPSLSQHTATSSKKPAFNLSAFGTLSPSLGNSSILKTSQLGDSPFYPGKTVYGGAAAAVRQPKLRNTPYQAPVRRQMKAKQLNAQSYGVTSSTARRILQSLEKMSSPLADAKRIPSIVSSPLNSSLDRSGIDTTADFQAKRERVDSQYPPVQRLMTPKPVSIATNRTVYFKPSLTPSGELRKTNQRIDKKHSTGYEKPVTPGQTRERESGFSYPNFSMSAANGLSSGVGGGGGKMRRERTRFASKPPEEEEMEVPVLPKISLPITSSSLPTFSFSSSVITTSSPSPISPSQSLTNKVQMTSPNSTGSPMFRFSSPIVKSTEADVLPPSSIGFTFSVPVAKTAELSGSSSISETITSSSSAQDISAVNSTSCKKKPDEDCEGPFRPAKTLKEGSVLDVLKSPGFTSPKADSLAAQPATTSPVVYTRPAISSFSSSGIGCGESLKAGPSWQCDTCLLQNKITDSKCIACQATKLPPKETAKQTGIGTPSKSDKSTLPASGTGFGDKFKPAVGTWDCDTCLVQNKPEAIKCVACETPKPGTGVKRVLTLPAASESAVTTAASSATCTVTTAALGFADQFKRPVGSWECPVCCVFNNGEDSKCVSCVSEKPGSSVPASSSSSVPTSLSSGSCLGLDKFKKPEGSWDCEVCLVQNKADATKCVACESAKPGTKSEFKGFGTSSSSSNPAASSFKFGIPSSSSGPSQTLTSTGNFKFGDQGGFKIGVSSESESPNSMSEGFKFPKPIGDFKFGVSSESKPEEAKKDSKNDNDFKFGLPSGLSNTASLAPFQFGVSNLGQQEKKEELPKPSSAGFSFGTGVINPTPAATNTAVTSENKSSFSFGAVETKSVSVAPFTCKTTEAKKEEMPAAKGGFTFGGIEPAPLPSASLFALGRTEEKQQEPVTSTSLVFGKKADSEEPKCQSVFSFGNSEQTKDESSSKSTFSFSMAKPAEKEAEQPTKATFTFGTPTSTTADAAAAKPVFSFLKSSAPTASAPATAGGVFGSSAPATSAPVTAFVFGQAANPVSSSAFGTSTESGASQPLLFSQESKPATTSSAGAAVTPFVFGPGASSSSTATSAFSFGATTTASSAGSSFVFGTGPSAPSASPAFGVNQTPTFGQSQGASQPNPPGFGALSSSAALFSAGTQPAPPTFGTVSSSSQPPVFGQQPSQSAFGSAAAPSSGSVFQFGGSSSTTNFNFTNNNPSGVFTFSANPSTPAASAQPSGSGGFPFNQPSAAFTVGSNGKNVFSSSGTSVSGRKIKTAVRRRK

Target ORF information:

RefSeq Version	XM_002926986.3
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca nucleoporin 153 (NUP153), transcript variant X1, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_002926986.3

ORF Insert Sequence:

ATGGCCTCGG GAGCCGGAGG AATAGGAGGG GGCGGTGGCG GCAAGATCCG GACGCGGCGT 
TGCCACCAGG GACCAATTAA GCCTTACCAG CAGGGGCGAC AACAGCAGCA GGGCATTCTT 
AGCAGGGTTA CAGAATCTGT TAAGAATATT GTGCCAGGAT GGCTACAAAG ATACTTCAAC 
AAGAATGAAG ATGTATGCAG CTGCTCAACA GACACAAGAG AGGTACCGCA GTGGCCAGAA 
AATAGAGAAG ATGATCACCT GGTATATGCC GATGAGGAGA GCTCTAATAT TCATGATGGG 
AGGATCACTC CTGAGCCAAC AGTCAGTAAT ACAGAAGAAC CCTCAACAAC TAGTACTTCT 
TCAAATTACC CAGATGTATT AACAAGGCCT TCTCTTCATC GGAGCCATAT GAATTTCTCC 
ATGTTGGAAT CTCCTGCATT ACACTGTCAA CCCTCTACAT CCTCGGCATT CCCAATTGGC 
AGTTCTGGAT TTTCCCTTGT AAAGGAAATT AAAGATTCTA CCTCTCAACA TGATGATGAT 
AACATCTCAA CTACCAGTGG TTTTTCTTCA AGAGCTTCTG ATAAAGATAT AGCTGTTACA 
AAGAGCACTT CAGTGCCACC TCTGTGGTCC CCAGAGGCTG AACGTACTCC TTCACTCTCA 
CAGCACACTG CCACCAGCTC AAAAAAACCA GCATTCAACT TGTCTGCCTT TGGAACACTT 
TCCCCTTCAC TTGGGAATTC TTCAATCCTT AAAACAAGTC AACTTGGAGA TTCTCCTTTT 
TATCCTGGAA AAACAGTGTA TGGTGGGGCA GCAGCTGCTG TAAGACAGCC TAAACTACGA 
AACACACCAT ATCAGGCACC AGTCAGAAGA CAGATGAAAG CTAAGCAGCT CAATGCACAA 
TCCTATGGTG TGACCAGTTC AACAGCTCGG CGAATATTGC AGTCTTTAGA GAAGATGTCA 
AGCCCTCTAG CGGATGCAAA AAGAATTCCA TCTATTGTCT CTTCTCCCCT GAATTCTTCT 
CTGGATAGAA GTGGAATAGA TACCACTGCA GACTTTCAGG CCAAAAGGGA AAGGGTGGAC 
TCTCAGTATC CCCCTGTTCA GAGACTCATG ACCCCAAAGC CAGTTTCCAT AGCAACAAAT 
CGAACTGTTT ATTTTAAACC ATCTCTGACC CCGTCTGGTG AATTAAGGAA GACAAATCAA 
AGAATAGATA AAAAGCACAG TACTGGATAT GAAAAACCTG TGACACCAGG ACAAACTAGA 
GAACGAGAAA GTGGCTTTTC TTACCCAAAT TTCAGTATGT CTGCAGCCAA TGGTTTATCT 
TCTGGAGTAG GTGGTGGAGG CGGCAAGATG AGACGAGAGA GAACGCGCTT TGCATCTAAA 
CCTCCAGAGG AGGAGGAAAT GGAAGTACCA GTATTGCCGA AAATCTCTCT ACCCATCACC 
AGTTCTTCAC TGCCTACCTT CAGTTTTAGT TCCTCTGTGA TCACAACATC CTCTCCATCA 
CCCATTAGTC CTTCGCAATC ATTAACAAAC AAGGTACAAA TGACCTCTCC AAACAGCACT 
GGCAGCCCCA TGTTTCGATT TTCATCTCCA ATTGTAAAAT CTACTGAGGC AGATGTACTA 
CCTCCATCAT CTATCGGATT TACATTCAGT GTGCCTGTTG CAAAAACAGC AGAACTTTCT 
GGCTCTAGTA GTATTTCAGA AACAATTACA AGTAGTAGTT CAGCTCAAGA TATCAGTGCA 
GTGAATAGTA CAAGCTGTAA GAAGAAGCCA GATGAAGATT GTGAGGGTCC TTTTAGACCT 
GCAAAAACCC TGAAAGAAGG AAGTGTCCTA GATGTTCTCA AAAGCCCCGG TTTCACATCA 
CCAAAGGCAG ATTCCCTTGC TGCTCAGCCT GCTACCACAA GCCCAGTCGT TTATACAAGA 
CCAGCAATAA GTAGCTTTTC TTCTAGTGGC ATCGGGTGTG GTGAAAGTTT AAAAGCCGGA 
CCATCGTGGC AGTGTGATAC TTGTCTACTC CAGAACAAAA TTACAGACAG CAAGTGCATA 
GCCTGTCAAG CAACAAAATT GCCGCCAAAA GAGACTGCTA AACAAACTGG AATTGGAACA 
CCAAGTAAAA GTGACAAATC AACTCTTCCC GCATCAGGGA CAGGTTTCGG AGACAAATTT 
AAGCCAGCAG TAGGCACTTG GGATTGTGAT ACCTGCTTAG TGCAGAATAA ACCCGAGGCG 
ATAAAATGCG TGGCCTGTGA AACACCGAAG CCTGGGACCG GGGTTAAGCG AGTCCTTACA 
TTGCCCGCGG CTTCAGAGAG TGCTGTGACC ACGGCTGCTT CATCTGCCAC CTGCACTGTG 
ACCACTGCCG CCTTAGGGTT TGCAGATCAA TTTAAAAGGC CCGTGGGATC TTGGGAGTGT 
CCCGTGTGCT GTGTTTTTAA TAATGGAGAA GACAGTAAAT GTGTGTCCTG TGTGTCTGAG 
AAACCAGGAA GTTCGGTACC TGCTTCAAGT AGCAGCAGTG TCCCCACCTC TCTGTCTTCT 
GGAAGCTGCC TGGGGTTAGA CAAGTTCAAG AAACCCGAGG GCAGCTGGGA CTGTGAGGTG 
TGCCTGGTAC AGAATAAAGC AGATGCTACC AAATGTGTGG CGTGCGAAAG TGCAAAGCCA 
GGCACAAAAT CTGAGTTTAA AGGCTTTGGC ACATCTTCCT CGTCTTCGAA CCCAGCAGCC 
TCATCCTTCA AATTTGGTAT CCCATCATCC TCTTCTGGGC CTTCTCAGAC TTTAACAAGC 
ACTGGAAATT TTAAGTTTGG AGATCAGGGA GGCTTCAAAA TAGGAGTGTC TTCAGAGTCT 
GAGTCTCCAA ACTCCATGAG CGAAGGCTTT AAATTTCCTA AACCAATAGG AGATTTTAAA 
TTTGGGGTTT CGTCTGAGTC TAAACCTGAA GAAGCTAAAA AAGACAGTAA GAATGATAAT 
GATTTTAAGT TTGGACTTCC TTCGGGTTTA AGTAATACAG CTTCCTTAGC TCCATTTCAG 
TTTGGGGTGT CTAATCTTGG GCAGCAAGAA AAGAAAGAGG AACTACCTAA ACCTTCATCT 
GCAGGCTTCA GCTTTGGTAC AGGTGTCATT AACCCCACAC CTGCTGCTAC TAACACCGCA 
GTGACCTCTG AGAACAAGAG CAGCTTCAGC TTTGGAGCCG TAGAAACCAA GAGTGTTTCA 
GTGGCTCCTT TCACGTGTAA GACGACAGAA GCAAAAAAGG AAGAAATGCC TGCCGCCAAA 
GGAGGCTTCA CTTTTGGTGG GATAGAACCC GCCCCCCTGC CATCTGCCTC ATTGTTTGCG 
TTGGGAAGGA CAGAAGAGAA GCAGCAAGAG CCCGTGACTT CTACTTCTCT GGTGTTTGGG 
AAGAAAGCTG ACAGTGAAGA GCCAAAGTGT CAATCAGTGT TTTCCTTTGG AAATTCAGAG 
CAAACCAAAG ATGAGAGTTC TTCGAAGTCC ACCTTCAGTT TCAGTATGGC AAAACCAGCC 
GAGAAGGAAG CGGAACAGCC GACAAAGGCC ACGTTCACGT TTGGGACGCC AACCAGTACT 
ACGGCTGATG CCGCGGCGGC CAAGCCGGTG TTCAGCTTCC TGAAGAGCAG CGCTCCCACG 
GCCAGCGCCC CGGCCACCGC GGGGGGTGTT TTCGGCAGCT CCGCTCCCGC CACCAGTGCA 
CCTGTGACCG CCTTTGTGTT TGGACAGGCC GCCAACCCCG TGAGCAGCTC TGCCTTCGGG 
ACCTCCACCG AATCGGGCGC CTCCCAGCCT TTGCTGTTCT CGCAAGAGAG TAAGCCAGCA 
ACCACGTCGA GCGCGGGTGC GGCTGTCACC CCGTTCGTCT TCGGGCCGGG AGCCAGCAGC 
AGCAGCACTG CGACCTCCGC TTTCAGCTTT GGAGCCACGA CCACGGCCAG CTCTGCAGGA 
TCCTCCTTCG TATTTGGCAC GGGGCCTTCC GCACCCTCTG CCAGTCCAGC ATTTGGTGTT 
AACCAAACCC CGACGTTCGG ACAGAGTCAG GGTGCCAGCC AGCCGAATCC CCCAGGCTTT 
GGAGCTCTGT CCTCGTCAGC AGCGTTGTTT TCTGCTGGTA CTCAGCCCGC ACCACCTACT 
TTTGGGACCG TGTCGAGCAG CAGCCAGCCT CCTGTGTTTG GACAGCAGCC CAGTCAGTCT 
GCGTTCGGCT CTGCAGCAGC TCCTAGTTCC GGTTCAGTTT TCCAGTTCGG CGGCAGCAGC 
AGCACCACCA ATTTCAACTT CACGAACAAC AATCCGTCAG GAGTGTTCAC GTTCAGTGCG 
AACCCTAGCA CCCCTGCGGC CTCAGCCCAG CCTTCCGGCT CCGGGGGCTT CCCGTTCAAC 
CAGCCTTCAG CGGCGTTTAC AGTGGGGTCA AACGGGAAAA ATGTGTTCTC CTCTTCTGGA 
ACTTCAGTGT CTGGTCGCAA GATCAAGACT GCTGTTCGGC GCAGGAAATA A

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

NUP153 ( XM_019807727.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019663286.1 Ailuropoda melanoleuca nucleoporin 153 (NUP153), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OAc14072
Clone ID Related Accession (Same CDS sequence)	XM_002926986.3 , XM_019807727.1
Accession Version	XM_019807727.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4431bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag 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	nuclear pore complex protein Nup153 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218484.1) 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##

ATGGCCTCGG GAGCCGGAGG AATAGGAGGG GGCGGTGGCG GCAAGATCCG GACGCGGCGT 
TGCCACCAGG GACCAATTAA GCCTTACCAG CAGGGGCGAC AACAGCAGCA GGGCATTCTT 
AGCAGGGTTA CAGAATCTGT TAAGAATATT GTGCCAGGAT GGCTACAAAG ATACTTCAAC 
AAGAATGAAG ATGTATGCAG CTGCTCAACA GACACAAGAG AGGTACCGCA GTGGCCAGAA 
AATAGAGAAG ATGATCACCT GGTATATGCC GATGAGGAGA GCTCTAATAT TCATGATGGG 
AGGATCACTC CTGAGCCAAC AGTCAGTAAT ACAGAAGAAC CCTCAACAAC TAGTACTTCT 
TCAAATTACC CAGATGTATT AACAAGGCCT TCTCTTCATC GGAGCCATAT GAATTTCTCC 
ATGTTGGAAT CTCCTGCATT ACACTGTCAA CCCTCTACAT CCTCGGCATT CCCAATTGGC 
AGTTCTGGAT TTTCCCTTGT AAAGGAAATT AAAGATTCTA CCTCTCAACA TGATGATGAT 
AACATCTCAA CTACCAGTGG TTTTTCTTCA AGAGCTTCTG ATAAAGATAT AGCTGTTACA 
AAGAGCACTT CAGTGCCACC TCTGTGGTCC CCAGAGGCTG AACGTACTCC TTCACTCTCA 
CAGCACACTG CCACCAGCTC AAAAAAACCA GCATTCAACT TGTCTGCCTT TGGAACACTT 
TCCCCTTCAC TTGGGAATTC TTCAATCCTT AAAACAAGTC AACTTGGAGA TTCTCCTTTT 
TATCCTGGAA AAACAGTGTA TGGTGGGGCA GCAGCTGCTG TAAGACAGCC TAAACTACGA 
AACACACCAT ATCAGGCACC AGTCAGAAGA CAGATGAAAG CTAAGCAGCT CAATGCACAA 
TCCTATGGTG TGACCAGTTC AACAGCTCGG CGAATATTGC AGTCTTTAGA GAAGATGTCA 
AGCCCTCTAG CGGATGCAAA AAGAATTCCA TCTATTGTCT CTTCTCCCCT GAATTCTTCT 
CTGGATAGAA GTGGAATAGA TACCACTGCA GACTTTCAGG CCAAAAGGGA AAGGGTGGAC 
TCTCAGTATC CCCCTGTTCA GAGACTCATG ACCCCAAAGC CAGTTTCCAT AGCAACAAAT 
CGAACTGTTT ATTTTAAACC ATCTCTGACC CCGTCTGGTG AATTAAGGAA GACAAATCAA 
AGAATAGATA AAAAGCACAG TACTGGATAT GAAAAACCTG TGACACCAGG ACAAACTAGA 
GAACGAGAAA GTGGCTTTTC TTACCCAAAT TTCAGTATGT CTGCAGCCAA TGGTTTATCT 
TCTGGAGTAG GTGGTGGAGG CGGCAAGATG AGACGAGAGA GAACGCGCTT TGCATCTAAA 
CCTCCAGAGG AGGAGGAAAT GGAAGTACCA GTATTGCCGA AAATCTCTCT ACCCATCACC 
AGTTCTTCAC TGCCTACCTT CAGTTTTAGT TCCTCTGTGA TCACAACATC CTCTCCATCA 
CCCATTAGTC CTTCGCAATC ATTAACAAAC AAGGTACAAA TGACCTCTCC AAACAGCACT 
GGCAGCCCCA TGTTTCGATT TTCATCTCCA ATTGTAAAAT CTACTGAGGC AGATGTACTA 
CCTCCATCAT CTATCGGATT TACATTCAGT GTGCCTGTTG CAAAAACAGC AGAACTTTCT 
GGCTCTAGTA GTATTTCAGA AACAATTACA AGTAGTAGTT CAGCTCAAGA TATCAGTGCA 
GTGAATAGTA CAAGCTGTAA GAAGAAGCCA GATGAAGATT GTGAGGGTCC TTTTAGACCT 
GCAAAAACCC TGAAAGAAGG AAGTGTCCTA GATGTTCTCA AAAGCCCCGG TTTCACATCA 
CCAAAGGCAG ATTCCCTTGC TGCTCAGCCT GCTACCACAA GCCCAGTCGT TTATACAAGA 
CCAGCAATAA GTAGCTTTTC TTCTAGTGGC ATCGGGTGTG GTGAAAGTTT AAAAGCCGGA 
CCATCGTGGC AGTGTGATAC TTGTCTACTC CAGAACAAAA TTACAGACAG CAAGTGCATA 
GCCTGTCAAG CAACAAAATT GCCGCCAAAA GAGACTGCTA AACAAACTGG AATTGGAACA 
CCAAGTAAAA GTGACAAATC AACTCTTCCC GCATCAGGGA CAGGTTTCGG AGACAAATTT 
AAGCCAGCAG TAGGCACTTG GGATTGTGAT ACCTGCTTAG TGCAGAATAA ACCCGAGGCG 
ATAAAATGCG TGGCCTGTGA AACACCGAAG CCTGGGACCG GGGTTAAGCG AGTCCTTACA 
TTGCCCGCGG CTTCAGAGAG TGCTGTGACC ACGGCTGCTT CATCTGCCAC CTGCACTGTG 
ACCACTGCCG CCTTAGGGTT TGCAGATCAA TTTAAAAGGC CCGTGGGATC TTGGGAGTGT 
CCCGTGTGCT GTGTTTTTAA TAATGGAGAA GACAGTAAAT GTGTGTCCTG TGTGTCTGAG 
AAACCAGGAA GTTCGGTACC TGCTTCAAGT AGCAGCAGTG TCCCCACCTC TCTGTCTTCT 
GGAAGCTGCC TGGGGTTAGA CAAGTTCAAG AAACCCGAGG GCAGCTGGGA CTGTGAGGTG 
TGCCTGGTAC AGAATAAAGC AGATGCTACC AAATGTGTGG CGTGCGAAAG TGCAAAGCCA 
GGCACAAAAT CTGAGTTTAA AGGCTTTGGC ACATCTTCCT CGTCTTCGAA CCCAGCAGCC 
TCATCCTTCA AATTTGGTAT CCCATCATCC TCTTCTGGGC CTTCTCAGAC TTTAACAAGC 
ACTGGAAATT TTAAGTTTGG AGATCAGGGA GGCTTCAAAA TAGGAGTGTC TTCAGAGTCT 
GAGTCTCCAA ACTCCATGAG CGAAGGCTTT AAATTTCCTA AACCAATAGG AGATTTTAAA 
TTTGGGGTTT CGTCTGAGTC TAAACCTGAA GAAGCTAAAA AAGACAGTAA GAATGATAAT 
GATTTTAAGT TTGGACTTCC TTCGGGTTTA AGTAATACAG CTTCCTTAGC TCCATTTCAG 
TTTGGGGTGT CTAATCTTGG GCAGCAAGAA AAGAAAGAGG AACTACCTAA ACCTTCATCT 
GCAGGCTTCA GCTTTGGTAC AGGTGTCATT AACCCCACAC CTGCTGCTAC TAACACCGCA 
GTGACCTCTG AGAACAAGAG CAGCTTCAGC TTTGGAGCCG TAGAAACCAA GAGTGTTTCA 
GTGGCTCCTT TCACGTGTAA GACGACAGAA GCAAAAAAGG AAGAAATGCC TGCCGCCAAA 
GGAGGCTTCA CTTTTGGTGG GATAGAACCC GCCCCCCTGC CATCTGCCTC ATTGTTTGCG 
TTGGGAAGGA CAGAAGAGAA GCAGCAAGAG CCCGTGACTT CTACTTCTCT GGTGTTTGGG 
AAGAAAGCTG ACAGTGAAGA GCCAAAGTGT CAATCAGTGT TTTCCTTTGG AAATTCAGAG 
CAAACCAAAG ATGAGAGTTC TTCGAAGTCC ACCTTCAGTT TCAGTATGGC AAAACCAGCC 
GAGAAGGAAG CGGAACAGCC GACAAAGGCC ACGTTCACGT TTGGGACGCC AACCAGTACT 
ACGGCTGATG CCGCGGCGGC CAAGCCGGTG TTCAGCTTCC TGAAGAGCAG CGCTCCCACG 
GCCAGCGCCC CGGCCACCGC GGGGGGTGTT TTCGGCAGCT CCGCTCCCGC CACCAGTGCA 
CCTGTGACCG CCTTTGTGTT TGGACAGGCC GCCAACCCCG TGAGCAGCTC TGCCTTCGGG 
ACCTCCACCG AATCGGGCGC CTCCCAGCCT TTGCTGTTCT CGCAAGAGAG TAAGCCAGCA 
ACCACGTCGA GCGCGGGTGC GGCTGTCACC CCGTTCGTCT TCGGGCCGGG AGCCAGCAGC 
AGCAGCACTG CGACCTCCGC TTTCAGCTTT GGAGCCACGA CCACGGCCAG CTCTGCAGGA 
TCCTCCTTCG TATTTGGCAC GGGGCCTTCC GCACCCTCTG CCAGTCCAGC ATTTGGTGTT 
AACCAAACCC CGACGTTCGG ACAGAGTCAG GGTGCCAGCC AGCCGAATCC CCCAGGCTTT 
GGAGCTCTGT CCTCGTCAGC AGCGTTGTTT TCTGCTGGTA CTCAGCCCGC ACCACCTACT 
TTTGGGACCG TGTCGAGCAG CAGCCAGCCT CCTGTGTTTG GACAGCAGCC CAGTCAGTCT 
GCGTTCGGCT CTGCAGCAGC TCCTAGTTCC GGTTCAGTTT TCCAGTTCGG CGGCAGCAGC 
AGCACCACCA ATTTCAACTT CACGAACAAC AATCCGTCAG GAGTGTTCAC GTTCAGTGCG 
AACCCTAGCA CCCCTGCGGC CTCAGCCCAG CCTTCCGGCT CCGGGGGCTT CCCGTTCAAC 
CAGCCTTCAG CGGCGTTTAC AGTGGGGTCA AACGGGAAAA ATGTGTTCTC CTCTTCTGGA 
ACTTCAGTGT CTGGTCGCAA GATCAAGACT GCTGTTCGGC GCAGGAAATA A

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_019663286.1
CDS	199..4629
Translation	MASGAGGIGGGGGGKIRTRRCHQGPIKPYQQGRQQQQGILSRVTESVKNIVPGWLQRYFNKNEDVCSCSTDTREVPQWPENREDDHLVYADEESSNIHDGRITPEPTVSNTEEPSTTSTSSNYPDVLTRPSLHRSHMNFSMLESPALHCQPSTSSAFPIGSSGFSLVKEIKDSTSQHDDDNISTTSGFSSRASDKDIAVTKSTSVPPLWSPEAERTPSLSQHTATSSKKPAFNLSAFGTLSPSLGNSSILKTSQLGDSPFYPGKTVYGGAAAAVRQPKLRNTPYQAPVRRQMKAKQLNAQSYGVTSSTARRILQSLEKMSSPLADAKRIPSIVSSPLNSSLDRSGIDTTADFQAKRERVDSQYPPVQRLMTPKPVSIATNRTVYFKPSLTPSGELRKTNQRIDKKHSTGYEKPVTPGQTRERESGFSYPNFSMSAANGLSSGVGGGGGKMRRERTRFASKPPEEEEMEVPVLPKISLPITSSSLPTFSFSSSVITTSSPSPISPSQSLTNKVQMTSPNSTGSPMFRFSSPIVKSTEADVLPPSSIGFTFSVPVAKTAELSGSSSISETITSSSSAQDISAVNSTSCKKKPDEDCEGPFRPAKTLKEGSVLDVLKSPGFTSPKADSLAAQPATTSPVVYTRPAISSFSSSGIGCGESLKAGPSWQCDTCLLQNKITDSKCIACQATKLPPKETAKQTGIGTPSKSDKSTLPASGTGFGDKFKPAVGTWDCDTCLVQNKPEAIKCVACETPKPGTGVKRVLTLPAASESAVTTAASSATCTVTTAALGFADQFKRPVGSWECPVCCVFNNGEDSKCVSCVSEKPGSSVPASSSSSVPTSLSSGSCLGLDKFKKPEGSWDCEVCLVQNKADATKCVACESAKPGTKSEFKGFGTSSSSSNPAASSFKFGIPSSSSGPSQTLTSTGNFKFGDQGGFKIGVSSESESPNSMSEGFKFPKPIGDFKFGVSSESKPEEAKKDSKNDNDFKFGLPSGLSNTASLAPFQFGVSNLGQQEKKEELPKPSSAGFSFGTGVINPTPAATNTAVTSENKSSFSFGAVETKSVSVAPFTCKTTEAKKEEMPAAKGGFTFGGIEPAPLPSASLFALGRTEEKQQEPVTSTSLVFGKKADSEEPKCQSVFSFGNSEQTKDESSSKSTFSFSMAKPAEKEAEQPTKATFTFGTPTSTTADAAAAKPVFSFLKSSAPTASAPATAGGVFGSSAPATSAPVTAFVFGQAANPVSSSAFGTSTESGASQPLLFSQESKPATTSSAGAAVTPFVFGPGASSSSTATSAFSFGATTTASSAGSSFVFGTGPSAPSASPAFGVNQTPTFGQSQGASQPNPPGFGALSSSAALFSAGTQPAPPTFGTVSSSSQPPVFGQQPSQSAFGSAAAPSSGSVFQFGGSSSTTNFNFTNNNPSGVFTFSANPSTPAASAQPSGSGGFPFNQPSAAFTVGSNGKNVFSSSGTSVSGRKIKTAVRRRK

Target ORF information:

RefSeq Version	XM_019807727.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca nucleoporin 153 (NUP153), transcript variant X2, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_019807727.1

ORF Insert Sequence:

ATGGCCTCGG GAGCCGGAGG AATAGGAGGG GGCGGTGGCG GCAAGATCCG GACGCGGCGT 
TGCCACCAGG GACCAATTAA GCCTTACCAG CAGGGGCGAC AACAGCAGCA GGGCATTCTT 
AGCAGGGTTA CAGAATCTGT TAAGAATATT GTGCCAGGAT GGCTACAAAG ATACTTCAAC 
AAGAATGAAG ATGTATGCAG CTGCTCAACA GACACAAGAG AGGTACCGCA GTGGCCAGAA 
AATAGAGAAG ATGATCACCT GGTATATGCC GATGAGGAGA GCTCTAATAT TCATGATGGG 
AGGATCACTC CTGAGCCAAC AGTCAGTAAT ACAGAAGAAC CCTCAACAAC TAGTACTTCT 
TCAAATTACC CAGATGTATT AACAAGGCCT TCTCTTCATC GGAGCCATAT GAATTTCTCC 
ATGTTGGAAT CTCCTGCATT ACACTGTCAA CCCTCTACAT CCTCGGCATT CCCAATTGGC 
AGTTCTGGAT TTTCCCTTGT AAAGGAAATT AAAGATTCTA CCTCTCAACA TGATGATGAT 
AACATCTCAA CTACCAGTGG TTTTTCTTCA AGAGCTTCTG ATAAAGATAT AGCTGTTACA 
AAGAGCACTT CAGTGCCACC TCTGTGGTCC CCAGAGGCTG AACGTACTCC TTCACTCTCA 
CAGCACACTG CCACCAGCTC AAAAAAACCA GCATTCAACT TGTCTGCCTT TGGAACACTT 
TCCCCTTCAC TTGGGAATTC TTCAATCCTT AAAACAAGTC AACTTGGAGA TTCTCCTTTT 
TATCCTGGAA AAACAGTGTA TGGTGGGGCA GCAGCTGCTG TAAGACAGCC TAAACTACGA 
AACACACCAT ATCAGGCACC AGTCAGAAGA CAGATGAAAG CTAAGCAGCT CAATGCACAA 
TCCTATGGTG TGACCAGTTC AACAGCTCGG CGAATATTGC AGTCTTTAGA GAAGATGTCA 
AGCCCTCTAG CGGATGCAAA AAGAATTCCA TCTATTGTCT CTTCTCCCCT GAATTCTTCT 
CTGGATAGAA GTGGAATAGA TACCACTGCA GACTTTCAGG CCAAAAGGGA AAGGGTGGAC 
TCTCAGTATC CCCCTGTTCA GAGACTCATG ACCCCAAAGC CAGTTTCCAT AGCAACAAAT 
CGAACTGTTT ATTTTAAACC ATCTCTGACC CCGTCTGGTG AATTAAGGAA GACAAATCAA 
AGAATAGATA AAAAGCACAG TACTGGATAT GAAAAACCTG TGACACCAGG ACAAACTAGA 
GAACGAGAAA GTGGCTTTTC TTACCCAAAT TTCAGTATGT CTGCAGCCAA TGGTTTATCT 
TCTGGAGTAG GTGGTGGAGG CGGCAAGATG AGACGAGAGA GAACGCGCTT TGCATCTAAA 
CCTCCAGAGG AGGAGGAAAT GGAAGTACCA GTATTGCCGA AAATCTCTCT ACCCATCACC 
AGTTCTTCAC TGCCTACCTT CAGTTTTAGT TCCTCTGTGA TCACAACATC CTCTCCATCA 
CCCATTAGTC CTTCGCAATC ATTAACAAAC AAGGTACAAA TGACCTCTCC AAACAGCACT 
GGCAGCCCCA TGTTTCGATT TTCATCTCCA ATTGTAAAAT CTACTGAGGC AGATGTACTA 
CCTCCATCAT CTATCGGATT TACATTCAGT GTGCCTGTTG CAAAAACAGC AGAACTTTCT 
GGCTCTAGTA GTATTTCAGA AACAATTACA AGTAGTAGTT CAGCTCAAGA TATCAGTGCA 
GTGAATAGTA CAAGCTGTAA GAAGAAGCCA GATGAAGATT GTGAGGGTCC TTTTAGACCT 
GCAAAAACCC TGAAAGAAGG AAGTGTCCTA GATGTTCTCA AAAGCCCCGG TTTCACATCA 
CCAAAGGCAG ATTCCCTTGC TGCTCAGCCT GCTACCACAA GCCCAGTCGT TTATACAAGA 
CCAGCAATAA GTAGCTTTTC TTCTAGTGGC ATCGGGTGTG GTGAAAGTTT AAAAGCCGGA 
CCATCGTGGC AGTGTGATAC TTGTCTACTC CAGAACAAAA TTACAGACAG CAAGTGCATA 
GCCTGTCAAG CAACAAAATT GCCGCCAAAA GAGACTGCTA AACAAACTGG AATTGGAACA 
CCAAGTAAAA GTGACAAATC AACTCTTCCC GCATCAGGGA CAGGTTTCGG AGACAAATTT 
AAGCCAGCAG TAGGCACTTG GGATTGTGAT ACCTGCTTAG TGCAGAATAA ACCCGAGGCG 
ATAAAATGCG TGGCCTGTGA AACACCGAAG CCTGGGACCG GGGTTAAGCG AGTCCTTACA 
TTGCCCGCGG CTTCAGAGAG TGCTGTGACC ACGGCTGCTT CATCTGCCAC CTGCACTGTG 
ACCACTGCCG CCTTAGGGTT TGCAGATCAA TTTAAAAGGC CCGTGGGATC TTGGGAGTGT 
CCCGTGTGCT GTGTTTTTAA TAATGGAGAA GACAGTAAAT GTGTGTCCTG TGTGTCTGAG 
AAACCAGGAA GTTCGGTACC TGCTTCAAGT AGCAGCAGTG TCCCCACCTC TCTGTCTTCT 
GGAAGCTGCC TGGGGTTAGA CAAGTTCAAG AAACCCGAGG GCAGCTGGGA CTGTGAGGTG 
TGCCTGGTAC AGAATAAAGC AGATGCTACC AAATGTGTGG CGTGCGAAAG TGCAAAGCCA 
GGCACAAAAT CTGAGTTTAA AGGCTTTGGC ACATCTTCCT CGTCTTCGAA CCCAGCAGCC 
TCATCCTTCA AATTTGGTAT CCCATCATCC TCTTCTGGGC CTTCTCAGAC TTTAACAAGC 
ACTGGAAATT TTAAGTTTGG AGATCAGGGA GGCTTCAAAA TAGGAGTGTC TTCAGAGTCT 
GAGTCTCCAA ACTCCATGAG CGAAGGCTTT AAATTTCCTA AACCAATAGG AGATTTTAAA 
TTTGGGGTTT CGTCTGAGTC TAAACCTGAA GAAGCTAAAA AAGACAGTAA GAATGATAAT 
GATTTTAAGT TTGGACTTCC TTCGGGTTTA AGTAATACAG CTTCCTTAGC TCCATTTCAG 
TTTGGGGTGT CTAATCTTGG GCAGCAAGAA AAGAAAGAGG AACTACCTAA ACCTTCATCT 
GCAGGCTTCA GCTTTGGTAC AGGTGTCATT AACCCCACAC CTGCTGCTAC TAACACCGCA 
GTGACCTCTG AGAACAAGAG CAGCTTCAGC TTTGGAGCCG TAGAAACCAA GAGTGTTTCA 
GTGGCTCCTT TCACGTGTAA GACGACAGAA GCAAAAAAGG AAGAAATGCC TGCCGCCAAA 
GGAGGCTTCA CTTTTGGTGG GATAGAACCC GCCCCCCTGC CATCTGCCTC ATTGTTTGCG 
TTGGGAAGGA CAGAAGAGAA GCAGCAAGAG CCCGTGACTT CTACTTCTCT GGTGTTTGGG 
AAGAAAGCTG ACAGTGAAGA GCCAAAGTGT CAATCAGTGT TTTCCTTTGG AAATTCAGAG 
CAAACCAAAG ATGAGAGTTC TTCGAAGTCC ACCTTCAGTT TCAGTATGGC AAAACCAGCC 
GAGAAGGAAG CGGAACAGCC GACAAAGGCC ACGTTCACGT TTGGGACGCC AACCAGTACT 
ACGGCTGATG CCGCGGCGGC CAAGCCGGTG TTCAGCTTCC TGAAGAGCAG CGCTCCCACG 
GCCAGCGCCC CGGCCACCGC GGGGGGTGTT TTCGGCAGCT CCGCTCCCGC CACCAGTGCA 
CCTGTGACCG CCTTTGTGTT TGGACAGGCC GCCAACCCCG TGAGCAGCTC TGCCTTCGGG 
ACCTCCACCG AATCGGGCGC CTCCCAGCCT TTGCTGTTCT CGCAAGAGAG TAAGCCAGCA 
ACCACGTCGA GCGCGGGTGC GGCTGTCACC CCGTTCGTCT TCGGGCCGGG AGCCAGCAGC 
AGCAGCACTG CGACCTCCGC TTTCAGCTTT GGAGCCACGA CCACGGCCAG CTCTGCAGGA 
TCCTCCTTCG TATTTGGCAC GGGGCCTTCC GCACCCTCTG CCAGTCCAGC ATTTGGTGTT 
AACCAAACCC CGACGTTCGG ACAGAGTCAG GGTGCCAGCC AGCCGAATCC CCCAGGCTTT 
GGAGCTCTGT CCTCGTCAGC AGCGTTGTTT TCTGCTGGTA CTCAGCCCGC ACCACCTACT 
TTTGGGACCG TGTCGAGCAG CAGCCAGCCT CCTGTGTTTG GACAGCAGCC CAGTCAGTCT 
GCGTTCGGCT CTGCAGCAGC TCCTAGTTCC GGTTCAGTTT TCCAGTTCGG CGGCAGCAGC 
AGCACCACCA ATTTCAACTT CACGAACAAC AATCCGTCAG GAGTGTTCAC GTTCAGTGCG 
AACCCTAGCA CCCCTGCGGC CTCAGCCCAG CCTTCCGGCT CCGGGGGCTT CCCGTTCAAC 
CAGCCTTCAG CGGCGTTTAC AGTGGGGTCA AACGGGAAAA ATGTGTTCTC CTCTTCTGGA 
ACTTCAGTGT CTGGTCGCAA GATCAAGACT GCTGTTCGGC GCAGGAAATA A

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

NUP153 ( XM_011234465.2 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_011232767.1 Ailuropoda melanoleuca nucleoporin 153 (NUP153), transcript variant X3, mRNA.

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CloneID	OAc28933
Clone ID Related Accession (Same CDS sequence)	XM_011234465.2
Accession Version	XM_011234465.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4332bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag 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	nuclear pore complex protein Nup153 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218484.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011234465.1. ##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##

ATGTGGCTGG AGGGCATTCT TAGCAGGGTT ACAGAATCTG TTAAGAATAT TGTGCCAGGA 
TGGCTACAAA GATACTTCAA CAAGAATGAA GATGTATGCA GCTGCTCAAC AGACACAAGA 
GAGGTACCGC AGTGGCCAGA AAATAGAGAA GATGATCACC TGGTATATGC CGATGAGGAG 
AGCTCTAATA TTCATGATGG GAGGATCACT CCTGAGCCAA CAGTCAGTAA TACAGAAGAA 
CCCTCAACAA CTAGTACTTC TTCAAATTAC CCAGATGTAT TAACAAGGCC TTCTCTTCAT 
CGGAGCCATA TGAATTTCTC CATGTTGGAA TCTCCTGCAT TACACTGTCA ACCCTCTACA 
TCCTCGGCAT TCCCAATTGG CAGTTCTGGA TTTTCCCTTG TAAAGGAAAT TAAAGATTCT 
ACCTCTCAAC ATGATGATGA TAACATCTCA ACTACCAGTG GTTTTTCTTC AAGAGCTTCT 
GATAAAGATA TAGCTGTTAC AAAGAGCACT TCAGTGCCAC CTCTGTGGTC CCCAGAGGCT 
GAACGTACTC CTTCACTCTC ACAGCACACT GCCACCAGCT CAAAAAAACC AGCATTCAAC 
TTGTCTGCCT TTGGAACACT TTCCCCTTCA CTTGGGAATT CTTCAATCCT TAAAACAAGT 
CAACTTGGAG ATTCTCCTTT TTATCCTGGA AAAACAGTGT ATGGTGGGGC AGCAGCTGCT 
GTAAGACAGC CTAAACTACG AAACACACCA TATCAGGCAC CAGTCAGAAG ACAGATGAAA 
GCTAAGCAGC TCAATGCACA ATCCTATGGT GTGACCAGTT CAACAGCTCG GCGAATATTG 
CAGTCTTTAG AGAAGATGTC AAGCCCTCTA GCGGATGCAA AAAGAATTCC ATCTATTGTC 
TCTTCTCCCC TGAATTCTTC TCTGGATAGA AGTGGAATAG ATACCACTGC AGACTTTCAG 
GCCAAAAGGG AAAGGGTGGA CTCTCAGTAT CCCCCTGTTC AGAGACTCAT GACCCCAAAG 
CCAGTTTCCA TAGCAACAAA TCGAACTGTT TATTTTAAAC CATCTCTGAC CCCGTCTGGT 
GAATTAAGGA AGACAAATCA AAGAATAGAT AAAAAGCACA GTACTGGATA TGAAAAACCT 
GTGACACCAG GACAAACTAG AGAACGAGAA AGTGGCTTTT CTTACCCAAA TTTCAGTATG 
TCTGCAGCCA ATGGTTTATC TTCTGGAGTA GGTGGTGGAG GCGGCAAGAT GAGACGAGAG 
AGAACGCGCT TTGCATCTAA ACCTCCAGAG GAGGAGGAAA TGGAAGTACC AGTATTGCCG 
AAAATCTCTC TACCCATCAC CAGTTCTTCA CTGCCTACCT TCAGTTTTAG TTCCTCTGTG 
ATCACAACAT CCTCTCCATC ACCCATTAGT CCTTCGCAAT CATTAACAAA CAAGGTACAA 
ATGACCTCTC CAAACAGCAC TGGCAGCCCC ATGTTTCGAT TTTCATCTCC AATTGTAAAA 
TCTACTGAGG CAGATGTACT ACCTCCATCA TCTATCGGAT TTACATTCAG TGTGCCTGTT 
GCAAAAACAG CAGAACTTTC TGGCTCTAGT AGTATTTCAG AAACAATTAC AAGTAGTAGT 
TCAGCTCAAG ATATCAGTGC AGTGAATAGT ACAAGCTGTA AGAAGAAGCC AGATGAAGAT 
TGTGAGGGTC CTTTTAGACC TGCAAAAACC CTGAAAGAAG GAAGTGTCCT AGATGTTCTC 
AAAAGCCCCG GTTTCACATC ACCAAAGGCA GATTCCCTTG CTGCTCAGCC TGCTACCACA 
AGCCCAGTCG TTTATACAAG ACCAGCAATA AGTAGCTTTT CTTCTAGTGG CATCGGGTGT 
GGTGAAAGTT TAAAAGCCGG ACCATCGTGG CAGTGTGATA CTTGTCTACT CCAGAACAAA 
ATTACAGACA GCAAGTGCAT AGCCTGTCAA GCAACAAAAT TGCCGCCAAA AGAGACTGCT 
AAACAAACTG GAATTGGAAC ACCAAGTAAA AGTGACAAAT CAACTCTTCC CGCATCAGGG 
ACAGGTTTCG GAGACAAATT TAAGCCAGCA GTAGGCACTT GGGATTGTGA TACCTGCTTA 
GTGCAGAATA AACCCGAGGC GATAAAATGC GTGGCCTGTG AAACACCGAA GCCTGGGACC 
GGGGTTAAGC GAGTCCTTAC ATTGCCCGCG GCTTCAGAGA GTGCTGTGAC CACGGCTGCT 
TCATCTGCCA CCTGCACTGT GACCACTGCC GCCTTAGGGT TTGCAGATCA ATTTAAAAGG 
CCCGTGGGAT CTTGGGAGTG TCCCGTGTGC TGTGTTTTTA ATAATGGAGA AGACAGTAAA 
TGTGTGTCCT GTGTGTCTGA GAAACCAGGA AGTTCGGTAC CTGCTTCAAG TAGCAGCAGT 
GTCCCCACCT CTCTGTCTTC TGGAAGCTGC CTGGGGTTAG ACAAGTTCAA GAAACCCGAG 
GGCAGCTGGG ACTGTGAGGT GTGCCTGGTA CAGAATAAAG CAGATGCTAC CAAATGTGTG 
GCGTGCGAAA GTGCAAAGCC AGGCACAAAA TCTGAGTTTA AAGGCTTTGG CACATCTTCC 
TCGTCTTCGA ACCCAGCAGC CTCATCCTTC AAATTTGGTA TCCCATCATC CTCTTCTGGG 
CCTTCTCAGA CTTTAACAAG CACTGGAAAT TTTAAGTTTG GAGATCAGGG AGGCTTCAAA 
ATAGGAGTGT CTTCAGAGTC TGAGTCTCCA AACTCCATGA GCGAAGGCTT TAAATTTCCT 
AAACCAATAG GAGATTTTAA ATTTGGGGTT TCGTCTGAGT CTAAACCTGA AGAAGCTAAA 
AAAGACAGTA AGAATGATAA TGATTTTAAG TTTGGACTTC CTTCGGGTTT AAGTAATACA 
GCTTCCTTAG CTCCATTTCA GTTTGGGGTG TCTAATCTTG GGCAGCAAGA AAAGAAAGAG 
GAACTACCTA AACCTTCATC TGCAGGCTTC AGCTTTGGTA CAGGTGTCAT TAACCCCACA 
CCTGCTGCTA CTAACACCGC AGTGACCTCT GAGAACAAGA GCAGCTTCAG CTTTGGAGCC 
GTAGAAACCA AGAGTGTTTC AGTGGCTCCT TTCACGTGTA AGACGACAGA AGCAAAAAAG 
GAAGAAATGC CTGCCGCCAA AGGAGGCTTC ACTTTTGGTG GGATAGAACC CGCCCCCCTG 
CCATCTGCCT CATTGTTTGC GTTGGGAAGG ACAGAAGAGA AGCAGCAAGA GCCCGTGACT 
TCTACTTCTC TGGTGTTTGG GAAGAAAGCT GACAGTGAAG AGCCAAAGTG TCAATCAGTG 
TTTTCCTTTG GAAATTCAGA GCAAACCAAA GATGAGAGTT CTTCGAAGTC CACCTTCAGT 
TTCAGTATGG CAAAACCAGC CGAGAAGGAA GCGGAACAGC CGACAAAGGC CACGTTCACG 
TTTGGGACGC CAACCAGTAC TACGGCTGAT GCCGCGGCGG CCAAGCCGGT GTTCAGCTTC 
CTGAAGAGCA GCGCTCCCAC GGCCAGCGCC CCGGCCACCG CGGGGGGTGT TTTCGGCAGC 
TCCGCTCCCG CCACCAGTGC ACCTGTGACC GCCTTTGTGT TTGGACAGGC CGCCAACCCC 
GTGAGCAGCT CTGCCTTCGG GACCTCCACC GAATCGGGCG CCTCCCAGCC TTTGCTGTTC 
TCGCAAGAGA GTAAGCCAGC AACCACGTCG AGCGCGGGTG CGGCTGTCAC CCCGTTCGTC 
TTCGGGCCGG GAGCCAGCAG CAGCAGCACT GCGACCTCCG CTTTCAGCTT TGGAGCCACG 
ACCACGGCCA GCTCTGCAGG ATCCTCCTTC GTATTTGGCA CGGGGCCTTC CGCACCCTCT 
GCCAGTCCAG CATTTGGTGT TAACCAAACC CCGACGTTCG GACAGAGTCA GGGTGCCAGC 
CAGCCGAATC CCCCAGGCTT TGGAGCTCTG TCCTCGTCAG CAGCGTTGTT TTCTGCTGGT 
ACTCAGCCCG CACCACCTAC TTTTGGGACC GTGTCGAGCA GCAGCCAGCC TCCTGTGTTT 
GGACAGCAGC CCAGTCAGTC TGCGTTCGGC TCTGCAGCAG CTCCTAGTTC CGGTTCAGTT 
TTCCAGTTCG GCGGCAGCAG CAGCACCACC AATTTCAACT TCACGAACAA CAATCCGTCA 
GGAGTGTTCA CGTTCAGTGC GAACCCTAGC ACCCCTGCGG CCTCAGCCCA GCCTTCCGGC 
TCCGGGGGCT TCCCGTTCAA CCAGCCTTCA GCGGCGTTTA CAGTGGGGTC AAACGGGAAA 
AATGTGTTCT CCTCTTCTGG AACTTCAGTG TCTGGTCGCA AGATCAAGAC TGCTGTTCGG 
CGCAGGAAAT AA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_011232767.1
CDS	337..4668
Translation	MWLEGILSRVTESVKNIVPGWLQRYFNKNEDVCSCSTDTREVPQWPENREDDHLVYADEESSNIHDGRITPEPTVSNTEEPSTTSTSSNYPDVLTRPSLHRSHMNFSMLESPALHCQPSTSSAFPIGSSGFSLVKEIKDSTSQHDDDNISTTSGFSSRASDKDIAVTKSTSVPPLWSPEAERTPSLSQHTATSSKKPAFNLSAFGTLSPSLGNSSILKTSQLGDSPFYPGKTVYGGAAAAVRQPKLRNTPYQAPVRRQMKAKQLNAQSYGVTSSTARRILQSLEKMSSPLADAKRIPSIVSSPLNSSLDRSGIDTTADFQAKRERVDSQYPPVQRLMTPKPVSIATNRTVYFKPSLTPSGELRKTNQRIDKKHSTGYEKPVTPGQTRERESGFSYPNFSMSAANGLSSGVGGGGGKMRRERTRFASKPPEEEEMEVPVLPKISLPITSSSLPTFSFSSSVITTSSPSPISPSQSLTNKVQMTSPNSTGSPMFRFSSPIVKSTEADVLPPSSIGFTFSVPVAKTAELSGSSSISETITSSSSAQDISAVNSTSCKKKPDEDCEGPFRPAKTLKEGSVLDVLKSPGFTSPKADSLAAQPATTSPVVYTRPAISSFSSSGIGCGESLKAGPSWQCDTCLLQNKITDSKCIACQATKLPPKETAKQTGIGTPSKSDKSTLPASGTGFGDKFKPAVGTWDCDTCLVQNKPEAIKCVACETPKPGTGVKRVLTLPAASESAVTTAASSATCTVTTAALGFADQFKRPVGSWECPVCCVFNNGEDSKCVSCVSEKPGSSVPASSSSSVPTSLSSGSCLGLDKFKKPEGSWDCEVCLVQNKADATKCVACESAKPGTKSEFKGFGTSSSSSNPAASSFKFGIPSSSSGPSQTLTSTGNFKFGDQGGFKIGVSSESESPNSMSEGFKFPKPIGDFKFGVSSESKPEEAKKDSKNDNDFKFGLPSGLSNTASLAPFQFGVSNLGQQEKKEELPKPSSAGFSFGTGVINPTPAATNTAVTSENKSSFSFGAVETKSVSVAPFTCKTTEAKKEEMPAAKGGFTFGGIEPAPLPSASLFALGRTEEKQQEPVTSTSLVFGKKADSEEPKCQSVFSFGNSEQTKDESSSKSTFSFSMAKPAEKEAEQPTKATFTFGTPTSTTADAAAAKPVFSFLKSSAPTASAPATAGGVFGSSAPATSAPVTAFVFGQAANPVSSSAFGTSTESGASQPLLFSQESKPATTSSAGAAVTPFVFGPGASSSSTATSAFSFGATTTASSAGSSFVFGTGPSAPSASPAFGVNQTPTFGQSQGASQPNPPGFGALSSSAALFSAGTQPAPPTFGTVSSSSQPPVFGQQPSQSAFGSAAAPSSGSVFQFGGSSSTTNFNFTNNNPSGVFTFSANPSTPAASAQPSGSGGFPFNQPSAAFTVGSNGKNVFSSSGTSVSGRKIKTAVRRRK

Target ORF information:

RefSeq Version	XM_011234465.2
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca nucleoporin 153 (NUP153), transcript variant X3, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_011234465.2

ORF Insert Sequence:

ATGTGGCTGG AGGGCATTCT TAGCAGGGTT ACAGAATCTG TTAAGAATAT TGTGCCAGGA 
TGGCTACAAA GATACTTCAA CAAGAATGAA GATGTATGCA GCTGCTCAAC AGACACAAGA 
GAGGTACCGC AGTGGCCAGA AAATAGAGAA GATGATCACC TGGTATATGC CGATGAGGAG 
AGCTCTAATA TTCATGATGG GAGGATCACT CCTGAGCCAA CAGTCAGTAA TACAGAAGAA 
CCCTCAACAA CTAGTACTTC TTCAAATTAC CCAGATGTAT TAACAAGGCC TTCTCTTCAT 
CGGAGCCATA TGAATTTCTC CATGTTGGAA TCTCCTGCAT TACACTGTCA ACCCTCTACA 
TCCTCGGCAT TCCCAATTGG CAGTTCTGGA TTTTCCCTTG TAAAGGAAAT TAAAGATTCT 
ACCTCTCAAC ATGATGATGA TAACATCTCA ACTACCAGTG GTTTTTCTTC AAGAGCTTCT 
GATAAAGATA TAGCTGTTAC AAAGAGCACT TCAGTGCCAC CTCTGTGGTC CCCAGAGGCT 
GAACGTACTC CTTCACTCTC ACAGCACACT GCCACCAGCT CAAAAAAACC AGCATTCAAC 
TTGTCTGCCT TTGGAACACT TTCCCCTTCA CTTGGGAATT CTTCAATCCT TAAAACAAGT 
CAACTTGGAG ATTCTCCTTT TTATCCTGGA AAAACAGTGT ATGGTGGGGC AGCAGCTGCT 
GTAAGACAGC CTAAACTACG AAACACACCA TATCAGGCAC CAGTCAGAAG ACAGATGAAA 
GCTAAGCAGC TCAATGCACA ATCCTATGGT GTGACCAGTT CAACAGCTCG GCGAATATTG 
CAGTCTTTAG AGAAGATGTC AAGCCCTCTA GCGGATGCAA AAAGAATTCC ATCTATTGTC 
TCTTCTCCCC TGAATTCTTC TCTGGATAGA AGTGGAATAG ATACCACTGC AGACTTTCAG 
GCCAAAAGGG AAAGGGTGGA CTCTCAGTAT CCCCCTGTTC AGAGACTCAT GACCCCAAAG 
CCAGTTTCCA TAGCAACAAA TCGAACTGTT TATTTTAAAC CATCTCTGAC CCCGTCTGGT 
GAATTAAGGA AGACAAATCA AAGAATAGAT AAAAAGCACA GTACTGGATA TGAAAAACCT 
GTGACACCAG GACAAACTAG AGAACGAGAA AGTGGCTTTT CTTACCCAAA TTTCAGTATG 
TCTGCAGCCA ATGGTTTATC TTCTGGAGTA GGTGGTGGAG GCGGCAAGAT GAGACGAGAG 
AGAACGCGCT TTGCATCTAA ACCTCCAGAG GAGGAGGAAA TGGAAGTACC AGTATTGCCG 
AAAATCTCTC TACCCATCAC CAGTTCTTCA CTGCCTACCT TCAGTTTTAG TTCCTCTGTG 
ATCACAACAT CCTCTCCATC ACCCATTAGT CCTTCGCAAT CATTAACAAA CAAGGTACAA 
ATGACCTCTC CAAACAGCAC TGGCAGCCCC ATGTTTCGAT TTTCATCTCC AATTGTAAAA 
TCTACTGAGG CAGATGTACT ACCTCCATCA TCTATCGGAT TTACATTCAG TGTGCCTGTT 
GCAAAAACAG CAGAACTTTC TGGCTCTAGT AGTATTTCAG AAACAATTAC AAGTAGTAGT 
TCAGCTCAAG ATATCAGTGC AGTGAATAGT ACAAGCTGTA AGAAGAAGCC AGATGAAGAT 
TGTGAGGGTC CTTTTAGACC TGCAAAAACC CTGAAAGAAG GAAGTGTCCT AGATGTTCTC 
AAAAGCCCCG GTTTCACATC ACCAAAGGCA GATTCCCTTG CTGCTCAGCC TGCTACCACA 
AGCCCAGTCG TTTATACAAG ACCAGCAATA AGTAGCTTTT CTTCTAGTGG CATCGGGTGT 
GGTGAAAGTT TAAAAGCCGG ACCATCGTGG CAGTGTGATA CTTGTCTACT CCAGAACAAA 
ATTACAGACA GCAAGTGCAT AGCCTGTCAA GCAACAAAAT TGCCGCCAAA AGAGACTGCT 
AAACAAACTG GAATTGGAAC ACCAAGTAAA AGTGACAAAT CAACTCTTCC CGCATCAGGG 
ACAGGTTTCG GAGACAAATT TAAGCCAGCA GTAGGCACTT GGGATTGTGA TACCTGCTTA 
GTGCAGAATA AACCCGAGGC GATAAAATGC GTGGCCTGTG AAACACCGAA GCCTGGGACC 
GGGGTTAAGC GAGTCCTTAC ATTGCCCGCG GCTTCAGAGA GTGCTGTGAC CACGGCTGCT 
TCATCTGCCA CCTGCACTGT GACCACTGCC GCCTTAGGGT TTGCAGATCA ATTTAAAAGG 
CCCGTGGGAT CTTGGGAGTG TCCCGTGTGC TGTGTTTTTA ATAATGGAGA AGACAGTAAA 
TGTGTGTCCT GTGTGTCTGA GAAACCAGGA AGTTCGGTAC CTGCTTCAAG TAGCAGCAGT 
GTCCCCACCT CTCTGTCTTC TGGAAGCTGC CTGGGGTTAG ACAAGTTCAA GAAACCCGAG 
GGCAGCTGGG ACTGTGAGGT GTGCCTGGTA CAGAATAAAG CAGATGCTAC CAAATGTGTG 
GCGTGCGAAA GTGCAAAGCC AGGCACAAAA TCTGAGTTTA AAGGCTTTGG CACATCTTCC 
TCGTCTTCGA ACCCAGCAGC CTCATCCTTC AAATTTGGTA TCCCATCATC CTCTTCTGGG 
CCTTCTCAGA CTTTAACAAG CACTGGAAAT TTTAAGTTTG GAGATCAGGG AGGCTTCAAA 
ATAGGAGTGT CTTCAGAGTC TGAGTCTCCA AACTCCATGA GCGAAGGCTT TAAATTTCCT 
AAACCAATAG GAGATTTTAA ATTTGGGGTT TCGTCTGAGT CTAAACCTGA AGAAGCTAAA 
AAAGACAGTA AGAATGATAA TGATTTTAAG TTTGGACTTC CTTCGGGTTT AAGTAATACA 
GCTTCCTTAG CTCCATTTCA GTTTGGGGTG TCTAATCTTG GGCAGCAAGA AAAGAAAGAG 
GAACTACCTA AACCTTCATC TGCAGGCTTC AGCTTTGGTA CAGGTGTCAT TAACCCCACA 
CCTGCTGCTA CTAACACCGC AGTGACCTCT GAGAACAAGA GCAGCTTCAG CTTTGGAGCC 
GTAGAAACCA AGAGTGTTTC AGTGGCTCCT TTCACGTGTA AGACGACAGA AGCAAAAAAG 
GAAGAAATGC CTGCCGCCAA AGGAGGCTTC ACTTTTGGTG GGATAGAACC CGCCCCCCTG 
CCATCTGCCT CATTGTTTGC GTTGGGAAGG ACAGAAGAGA AGCAGCAAGA GCCCGTGACT 
TCTACTTCTC TGGTGTTTGG GAAGAAAGCT GACAGTGAAG AGCCAAAGTG TCAATCAGTG 
TTTTCCTTTG GAAATTCAGA GCAAACCAAA GATGAGAGTT CTTCGAAGTC CACCTTCAGT 
TTCAGTATGG CAAAACCAGC CGAGAAGGAA GCGGAACAGC CGACAAAGGC CACGTTCACG 
TTTGGGACGC CAACCAGTAC TACGGCTGAT GCCGCGGCGG CCAAGCCGGT GTTCAGCTTC 
CTGAAGAGCA GCGCTCCCAC GGCCAGCGCC CCGGCCACCG CGGGGGGTGT TTTCGGCAGC 
TCCGCTCCCG CCACCAGTGC ACCTGTGACC GCCTTTGTGT TTGGACAGGC CGCCAACCCC 
GTGAGCAGCT CTGCCTTCGG GACCTCCACC GAATCGGGCG CCTCCCAGCC TTTGCTGTTC 
TCGCAAGAGA GTAAGCCAGC AACCACGTCG AGCGCGGGTG CGGCTGTCAC CCCGTTCGTC 
TTCGGGCCGG GAGCCAGCAG CAGCAGCACT GCGACCTCCG CTTTCAGCTT TGGAGCCACG 
ACCACGGCCA GCTCTGCAGG ATCCTCCTTC GTATTTGGCA CGGGGCCTTC CGCACCCTCT 
GCCAGTCCAG CATTTGGTGT TAACCAAACC CCGACGTTCG GACAGAGTCA GGGTGCCAGC 
CAGCCGAATC CCCCAGGCTT TGGAGCTCTG TCCTCGTCAG CAGCGTTGTT TTCTGCTGGT 
ACTCAGCCCG CACCACCTAC TTTTGGGACC GTGTCGAGCA GCAGCCAGCC TCCTGTGTTT 
GGACAGCAGC CCAGTCAGTC TGCGTTCGGC TCTGCAGCAG CTCCTAGTTC CGGTTCAGTT 
TTCCAGTTCG GCGGCAGCAG CAGCACCACC AATTTCAACT TCACGAACAA CAATCCGTCA 
GGAGTGTTCA CGTTCAGTGC GAACCCTAGC ACCCCTGCGG CCTCAGCCCA GCCTTCCGGC 
TCCGGGGGCT TCCCGTTCAA CCAGCCTTCA GCGGCGTTTA CAGTGGGGTC AAACGGGAAA 
AATGTGTTCT CCTCTTCTGG AACTTCAGTG TCTGGTCGCA AGATCAAGAC TGCTGTTCGG 
CGCAGGAAAT AA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

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NUP153 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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