NUP107 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene
Clones
gRNAs

Summary

Gene Symbol	NUP107
Entrez Gene ID	100479983
Full Name	nucleoporin 107
Gene Type	protein-coding
Organism	Ailuropoda melanoleuca(giant panda)

mRNA and Protein(s)

mRNA	Protein	Name
XM_019798671.1	XP_019654230.1	nuclear pore complex protein Nup107 isoform X2
XM_002918319.3	XP_002918365.1	nuclear pore complex protein Nup107 isoform X1
XM_019798672.1	XP_019654231.1	nuclear pore complex protein Nup107 isoform X3

Pathways from BioSystems
Gene Ontology

The following NUP107 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the NUP107 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)
OAc05852	XM_002918319.3 Latest version!	Ailuropoda melanoleuca nucleoporin 107 (NUP107), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OAc92140	XM_019798671.1 Latest version!	Ailuropoda melanoleuca nucleoporin 107 (NUP107), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OAc92141	XM_019798672.1 Latest version!	Ailuropoda melanoleuca nucleoporin 107 (NUP107), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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2-4 Clone	40% OFF
5 or more Clone	50% OFF
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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)

NUP107 ( XM_002918319.3 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_002918365.1 Ailuropoda melanoleuca nucleoporin 107 (NUP107), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OAc05852
Clone ID Related Accession (Same CDS sequence)	XM_002918319.3
Accession Version	XM_002918319.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2778bp) 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 Nup107 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217541.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_002918319.2. ##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##

ATGGACAGGA GTGGCTATGG AGAGATGTCA TCGCCTGTGA TCCGGGAGGC AGAGGTGACT 
CGGACTGCAC GGAAACAGAG TGCTCAAAAA AGAGTTTTAA TTCAGCCATC CCAAGATGAA 
ATTTTCTCCA ATACTACACC AAGAAACCAG GTTATCCCTC GGACTCCCAG TTCATTTCGA 
CCACCTTTTA CTCCACCCAG CCGAAGCTTA CTAAGGCATC CAGATGTTTC CTGCATTCTT 
GGAACAGGAG GGAGGTCTCC CCGGCTTACA CAGTCTTCAG GGTTCTTGGG AAACCTGTCT 
ATGGTAACTA ATCTGGATGA CAGTAATTGG GCCACTGCAT TCATGTCACA GCGATCCGGA 
ACCCTCACAA ACACAGAGTC CCACAGTGTA ACAGAGGACG TAACTCTCAG TGCTGTTATG 
TTACGTGAAG ATGATCCTGG TGAAGCTGCA TCCATGAGTA TGTTTTCTGA TTTCCTGCAG 
TCTTTCTTAA AGTACTCTTC ATCTACAGTT TTTGACCTTG TAGAAGAGTA TGAAAACATT 
TGTAGTTGTC AGGTGAATAT ACTGAGTAAA ATAGTGAGCC GAGCAACACC TGGACTTCAG 
AAGTTCTCAA AAACAGCCAG TATGCTCTGG CTTCTTCAAC AGGAGATGGT CACATGGAGG 
CTGCTGGCTT CTTTGTACAG AGACAGAGTA CAGTCTGCAT TGGAAGAGGA AAATACATTT 
GCAGTTACTG CTCTTAATGC CAGTGAGAAA GTGGTGGTGG AAGCATTATT TCAGAGAGAT 
TCACTTGTCC GACAAAGTCA GCTGGTGGTG GATTGGTTAG AGAGCATTGC CAAAGATGAG 
ATTGGAGATT TTTCCGATAA TATTGAGTTT TATGCAAAAT CAGTATATTG GGAAAATACC 
CTGCATACCC TGAAACAGAG GCAGCTACCT TCTTACATAG GAAGTGTCCG TCCCCTTGTC 
ACTGAATTGG ACCCTGATGC TCCCATTAGA CAGAAAATGC CCCTTGATGA TCTGGATAGA 
GAAGATGAAG TCAGATTACT CAAGTATCTT TTCACTTTAA TCCGTGCTGG AATGACAGAA 
GAGGCACAAC GGCTCTGTAA ACGTTGTGGT CAGGCATGGA GAGCTGCAAC ACTTGAAGGC 
TGGAAACTCT ATCATGACCC TAATGTGAAT GGAGGAACAG AATTAGAACC TGTAGAAGGG 
AATCCATATA GAATCATTTG GAAAATAAGT TGTTGGAGAA TGGCAGAAGA TGAGCTTTTT 
AATAGATACG AGAGGGCAAT TTATGCAGCT TTAAGTGGGA ATCTCAAGCA GCTGCTTCCT 
GTCTGTGACA CCTGGGAAGA CACAGTGTGG GCCTACTTTC GGGTGATGGT GGACAGTTTG 
GTAGAACAGG AGATCCGGAC GTCAGTAGTG AATCTAGATG AAACTGAAGA ACTCCCTAGG 
GAATATTTGG AAACAAATTG GACCTTGGAA AAGGTATTTG AAGAACTTCA AGCCACTGAT 
AAAAAGAGAG TTTTGGAAGA GAATCAAGAA CATTATCATA TTGTTCAAAA ATTCCTTATC 
CTGGGAGACA TTGATGGTTT GATGAATGAA TTTAACAAAT GGCTTTCCAA AAGCAGAAAC 
AATCTACCTG GACACCTCCT CCGCTTCATG ACTCATCTCA TTTTGTTTTT TCATACTCTG 
GGACTGCAGA TCAAAGAAGA AGTTTCCATT GAAGTTTTAA AGACATACAT ACAGCTTTTA 
ATAAATGAGA AGCATACAAA TCTCATAGCA TTTTATACCT GTCATTTGCC TCAAGACCTA 
GCTGTTGCCC AGTATGCATT ATTTTTGGAA GGTGTTACAG AATTTGAGCA GCGCCACCGT 
TGCCTGGAGC TGGCTAAAGA AGCAGATTTG GATATTGCAG CTATAACAAA GACTGTAGTC 
GAGAATATCC GAAAGAAAGA TAATGGTGAA TTCAGTCATC ATGACGTGGC CCCCGCCCTA 
GATACCAGCA CTACTGAGGA GGACCGTTTA AAAATTGACG TGATTGACTG GTTGGTATTT 
GACCCAGCAC AGAGGGCAGA AGCACTTAAA CAAGGCAATG CGATAATGAG AAAATTCTTG 
GCATCAAAAA AGCATGAAGC TGCAAAAGAA GTGTTTGTGA AAATTCCTCA AGATTCTATA 
GCGGAGATCT ATAATCAGTG GGAGGAACAA GGAATGGAAA GTCCGCTTCC CGCTGAAGAC 
GATAATGCTA TCAGAGAACA TTTGTGCATT AGAGCTTATT TGGAAGCCAA TGAAACCTTT 
AATGAGTGGT TTAAGCATAT GAATTCAGCT CCACAGAAAC CTACTTTGAT ACCTCAAGCA 
ACTTTTACTG AGAAAGTGGC TCATGAACAC AAAGAAAAGA AATACGAAAT GGATTATGTT 
ATTTGGAAAG GCCATTTGGA CGCCCTAACT GCCGATGTGA AGGAGAAAAT GTACAATGTC 
TTGTTGTTTG TTGACGGAGG GTGGATGGTG GATGTTAGAG AGGATGCTGA AGAAGACCAT 
GATAGGACAC ACCAGATGGT TTCATTGAGA AAGCTTTGTC TGCCAATGTT GTGTTTTCTG 
CTTCATACCA TATTGCATAG TACCGGTCAG TATCAGGAAT GCTTGCAATT AGCAGATATG 
GTCTCCTCTG AGCGCCACAA ACTGTATCTG GTGTTTTCTA AGGAAGAACT AAGGAAATTG 
TTGCAGAAGT TAAGAGAGTC CTCTCTAATG CTCCTAGACC AAGGACTTGA TCCGTTAGGA 
TATGAAATTC AGTCATAA

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

RefSeq	XP_002918365.1
CDS	377..3154
Translation	MDRSGYGEMSSPVIREAEVTRTARKQSAQKRVLIQPSQDEIFSNTTPRNQVIPRTPSSFRPPFTPPSRSLLRHPDVSCILGTGGRSPRLTQSSGFLGNLSMVTNLDDSNWATAFMSQRSGTLTNTESHSVTEDVTLSAVMLREDDPGEAASMSMFSDFLQSFLKYSSSTVFDLVEEYENICSCQVNILSKIVSRATPGLQKFSKTASMLWLLQQEMVTWRLLASLYRDRVQSALEEENTFAVTALNASEKVVVEALFQRDSLVRQSQLVVDWLESIAKDEIGDFSDNIEFYAKSVYWENTLHTLKQRQLPSYIGSVRPLVTELDPDAPIRQKMPLDDLDREDEVRLLKYLFTLIRAGMTEEAQRLCKRCGQAWRAATLEGWKLYHDPNVNGGTELEPVEGNPYRIIWKISCWRMAEDELFNRYERAIYAALSGNLKQLLPVCDTWEDTVWAYFRVMVDSLVEQEIRTSVVNLDETEELPREYLETNWTLEKVFEELQATDKKRVLEENQEHYHIVQKFLILGDIDGLMNEFNKWLSKSRNNLPGHLLRFMTHLILFFHTLGLQIKEEVSIEVLKTYIQLLINEKHTNLIAFYTCHLPQDLAVAQYALFLEGVTEFEQRHRCLELAKEADLDIAAITKTVVENIRKKDNGEFSHHDVAPALDTSTTEEDRLKIDVIDWLVFDPAQRAEALKQGNAIMRKFLASKKHEAAKEVFVKIPQDSIAEIYNQWEEQGMESPLPAEDDNAIREHLCIRAYLEANETFNEWFKHMNSAPQKPTLIPQATFTEKVAHEHKEKKYEMDYVIWKGHLDALTADVKEKMYNVLLFVDGGWMVDVREDAEEDHDRTHQMVSLRKLCLPMLCFLLHTILHSTGQYQECLQLADMVSSERHKLYLVFSKEELRKLLQKLRESSLMLLDQGLDPLGYEIQS

Target ORF information:

RefSeq Version	XM_002918319.3
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca nucleoporin 107 (NUP107), transcript variant X1, mRNA.

Target ORF information:

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

XM_002918319.3

ORF Insert Sequence:

ATGGACAGGA GTGGCTATGG AGAGATGTCA TCGCCTGTGA TCCGGGAGGC AGAGGTGACT 
CGGACTGCAC GGAAACAGAG TGCTCAAAAA AGAGTTTTAA TTCAGCCATC CCAAGATGAA 
ATTTTCTCCA ATACTACACC AAGAAACCAG GTTATCCCTC GGACTCCCAG TTCATTTCGA 
CCACCTTTTA CTCCACCCAG CCGAAGCTTA CTAAGGCATC CAGATGTTTC CTGCATTCTT 
GGAACAGGAG GGAGGTCTCC CCGGCTTACA CAGTCTTCAG GGTTCTTGGG AAACCTGTCT 
ATGGTAACTA ATCTGGATGA CAGTAATTGG GCCACTGCAT TCATGTCACA GCGATCCGGA 
ACCCTCACAA ACACAGAGTC CCACAGTGTA ACAGAGGACG TAACTCTCAG TGCTGTTATG 
TTACGTGAAG ATGATCCTGG TGAAGCTGCA TCCATGAGTA TGTTTTCTGA TTTCCTGCAG 
TCTTTCTTAA AGTACTCTTC ATCTACAGTT TTTGACCTTG TAGAAGAGTA TGAAAACATT 
TGTAGTTGTC AGGTGAATAT ACTGAGTAAA ATAGTGAGCC GAGCAACACC TGGACTTCAG 
AAGTTCTCAA AAACAGCCAG TATGCTCTGG CTTCTTCAAC AGGAGATGGT CACATGGAGG 
CTGCTGGCTT CTTTGTACAG AGACAGAGTA CAGTCTGCAT TGGAAGAGGA AAATACATTT 
GCAGTTACTG CTCTTAATGC CAGTGAGAAA GTGGTGGTGG AAGCATTATT TCAGAGAGAT 
TCACTTGTCC GACAAAGTCA GCTGGTGGTG GATTGGTTAG AGAGCATTGC CAAAGATGAG 
ATTGGAGATT TTTCCGATAA TATTGAGTTT TATGCAAAAT CAGTATATTG GGAAAATACC 
CTGCATACCC TGAAACAGAG GCAGCTACCT TCTTACATAG GAAGTGTCCG TCCCCTTGTC 
ACTGAATTGG ACCCTGATGC TCCCATTAGA CAGAAAATGC CCCTTGATGA TCTGGATAGA 
GAAGATGAAG TCAGATTACT CAAGTATCTT TTCACTTTAA TCCGTGCTGG AATGACAGAA 
GAGGCACAAC GGCTCTGTAA ACGTTGTGGT CAGGCATGGA GAGCTGCAAC ACTTGAAGGC 
TGGAAACTCT ATCATGACCC TAATGTGAAT GGAGGAACAG AATTAGAACC TGTAGAAGGG 
AATCCATATA GAATCATTTG GAAAATAAGT TGTTGGAGAA TGGCAGAAGA TGAGCTTTTT 
AATAGATACG AGAGGGCAAT TTATGCAGCT TTAAGTGGGA ATCTCAAGCA GCTGCTTCCT 
GTCTGTGACA CCTGGGAAGA CACAGTGTGG GCCTACTTTC GGGTGATGGT GGACAGTTTG 
GTAGAACAGG AGATCCGGAC GTCAGTAGTG AATCTAGATG AAACTGAAGA ACTCCCTAGG 
GAATATTTGG AAACAAATTG GACCTTGGAA AAGGTATTTG AAGAACTTCA AGCCACTGAT 
AAAAAGAGAG TTTTGGAAGA GAATCAAGAA CATTATCATA TTGTTCAAAA ATTCCTTATC 
CTGGGAGACA TTGATGGTTT GATGAATGAA TTTAACAAAT GGCTTTCCAA AAGCAGAAAC 
AATCTACCTG GACACCTCCT CCGCTTCATG ACTCATCTCA TTTTGTTTTT TCATACTCTG 
GGACTGCAGA TCAAAGAAGA AGTTTCCATT GAAGTTTTAA AGACATACAT ACAGCTTTTA 
ATAAATGAGA AGCATACAAA TCTCATAGCA TTTTATACCT GTCATTTGCC TCAAGACCTA 
GCTGTTGCCC AGTATGCATT ATTTTTGGAA GGTGTTACAG AATTTGAGCA GCGCCACCGT 
TGCCTGGAGC TGGCTAAAGA AGCAGATTTG GATATTGCAG CTATAACAAA GACTGTAGTC 
GAGAATATCC GAAAGAAAGA TAATGGTGAA TTCAGTCATC ATGACGTGGC CCCCGCCCTA 
GATACCAGCA CTACTGAGGA GGACCGTTTA AAAATTGACG TGATTGACTG GTTGGTATTT 
GACCCAGCAC AGAGGGCAGA AGCACTTAAA CAAGGCAATG CGATAATGAG AAAATTCTTG 
GCATCAAAAA AGCATGAAGC TGCAAAAGAA GTGTTTGTGA AAATTCCTCA AGATTCTATA 
GCGGAGATCT ATAATCAGTG GGAGGAACAA GGAATGGAAA GTCCGCTTCC CGCTGAAGAC 
GATAATGCTA TCAGAGAACA TTTGTGCATT AGAGCTTATT TGGAAGCCAA TGAAACCTTT 
AATGAGTGGT TTAAGCATAT GAATTCAGCT CCACAGAAAC CTACTTTGAT ACCTCAAGCA 
ACTTTTACTG AGAAAGTGGC TCATGAACAC AAAGAAAAGA AATACGAAAT GGATTATGTT 
ATTTGGAAAG GCCATTTGGA CGCCCTAACT GCCGATGTGA AGGAGAAAAT GTACAATGTC 
TTGTTGTTTG TTGACGGAGG GTGGATGGTG GATGTTAGAG AGGATGCTGA AGAAGACCAT 
GATAGGACAC ACCAGATGGT TTCATTGAGA AAGCTTTGTC TGCCAATGTT GTGTTTTCTG 
CTTCATACCA TATTGCATAG TACCGGTCAG TATCAGGAAT GCTTGCAATT AGCAGATATG 
GTCTCCTCTG AGCGCCACAA ACTGTATCTG GTGTTTTCTA AGGAAGAACT AAGGAAATTG 
TTGCAGAAGT TAAGAGAGTC CTCTCTAATG CTCCTAGACC AAGGACTTGA TCCGTTAGGA 
TATGAAATTC AGTCATAA

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

NUP107 ( XM_019798671.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019654230.1 Ailuropoda melanoleuca nucleoporin 107 (NUP107), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OAc92140
Clone ID Related Accession (Same CDS sequence)	XM_019798671.1
Accession Version	XM_019798671.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2754bp) 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 Nup107 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217541.1) 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##

ATGTCATCGC CTGTGATCCG GGAGGCAGAG GTGACTCGGA CTGCACGGAA ACAGAGTGCT 
CAAAAAAGAG TTTTAATTCA GCCATCCCAA GATGAAATTT TCTCCAATAC TACACCAAGA 
AACCAGGTTA TCCCTCGGAC TCCCAGTTCA TTTCGACCAC CTTTTACTCC ACCCAGCCGA 
AGCTTACTAA GGCATCCAGA TGTTTCCTGC ATTCTTGGAA CAGGAGGGAG GTCTCCCCGG 
CTTACACAGT CTTCAGGGTT CTTGGGAAAC CTGTCTATGG TAACTAATCT GGATGACAGT 
AATTGGGCCA CTGCATTCAT GTCACAGCGA TCCGGAACCC TCACAAACAC AGAGTCCCAC 
AGTGTAACAG AGGACGTAAC TCTCAGTGCT GTTATGTTAC GTGAAGATGA TCCTGGTGAA 
GCTGCATCCA TGAGTATGTT TTCTGATTTC CTGCAGTCTT TCTTAAAGTA CTCTTCATCT 
ACAGTTTTTG ACCTTGTAGA AGAGTATGAA AACATTTGTA GTTGTCAGGT GAATATACTG 
AGTAAAATAG TGAGCCGAGC AACACCTGGA CTTCAGAAGT TCTCAAAAAC AGCCAGTATG 
CTCTGGCTTC TTCAACAGGA GATGGTCACA TGGAGGCTGC TGGCTTCTTT GTACAGAGAC 
AGAGTACAGT CTGCATTGGA AGAGGAAAAT ACATTTGCAG TTACTGCTCT TAATGCCAGT 
GAGAAAGTGG TGGTGGAAGC ATTATTTCAG AGAGATTCAC TTGTCCGACA AAGTCAGCTG 
GTGGTGGATT GGTTAGAGAG CATTGCCAAA GATGAGATTG GAGATTTTTC CGATAATATT 
GAGTTTTATG CAAAATCAGT ATATTGGGAA AATACCCTGC ATACCCTGAA ACAGAGGCAG 
CTACCTTCTT ACATAGGAAG TGTCCGTCCC CTTGTCACTG AATTGGACCC TGATGCTCCC 
ATTAGACAGA AAATGCCCCT TGATGATCTG GATAGAGAAG ATGAAGTCAG ATTACTCAAG 
TATCTTTTCA CTTTAATCCG TGCTGGAATG ACAGAAGAGG CACAACGGCT CTGTAAACGT 
TGTGGTCAGG CATGGAGAGC TGCAACACTT GAAGGCTGGA AACTCTATCA TGACCCTAAT 
GTGAATGGAG GAACAGAATT AGAACCTGTA GAAGGGAATC CATATAGAAT CATTTGGAAA 
ATAAGTTGTT GGAGAATGGC AGAAGATGAG CTTTTTAATA GATACGAGAG GGCAATTTAT 
GCAGCTTTAA GTGGGAATCT CAAGCAGCTG CTTCCTGTCT GTGACACCTG GGAAGACACA 
GTGTGGGCCT ACTTTCGGGT GATGGTGGAC AGTTTGGTAG AACAGGAGAT CCGGACGTCA 
GTAGTGAATC TAGATGAAAC TGAAGAACTC CCTAGGGAAT ATTTGGAAAC AAATTGGACC 
TTGGAAAAGG TATTTGAAGA ACTTCAAGCC ACTGATAAAA AGAGAGTTTT GGAAGAGAAT 
CAAGAACATT ATCATATTGT TCAAAAATTC CTTATCCTGG GAGACATTGA TGGTTTGATG 
AATGAATTTA ACAAATGGCT TTCCAAAAGC AGAAACAATC TACCTGGACA CCTCCTCCGC 
TTCATGACTC ATCTCATTTT GTTTTTTCAT ACTCTGGGAC TGCAGATCAA AGAAGAAGTT 
TCCATTGAAG TTTTAAAGAC ATACATACAG CTTTTAATAA ATGAGAAGCA TACAAATCTC 
ATAGCATTTT ATACCTGTCA TTTGCCTCAA GACCTAGCTG TTGCCCAGTA TGCATTATTT 
TTGGAAGGTG TTACAGAATT TGAGCAGCGC CACCGTTGCC TGGAGCTGGC TAAAGAAGCA 
GATTTGGATA TTGCAGCTAT AACAAAGACT GTAGTCGAGA ATATCCGAAA GAAAGATAAT 
GGTGAATTCA GTCATCATGA CGTGGCCCCC GCCCTAGATA CCAGCACTAC TGAGGAGGAC 
CGTTTAAAAA TTGACGTGAT TGACTGGTTG GTATTTGACC CAGCACAGAG GGCAGAAGCA 
CTTAAACAAG GCAATGCGAT AATGAGAAAA TTCTTGGCAT CAAAAAAGCA TGAAGCTGCA 
AAAGAAGTGT TTGTGAAAAT TCCTCAAGAT TCTATAGCGG AGATCTATAA TCAGTGGGAG 
GAACAAGGAA TGGAAAGTCC GCTTCCCGCT GAAGACGATA ATGCTATCAG AGAACATTTG 
TGCATTAGAG CTTATTTGGA AGCCAATGAA ACCTTTAATG AGTGGTTTAA GCATATGAAT 
TCAGCTCCAC AGAAACCTAC TTTGATACCT CAAGCAACTT TTACTGAGAA AGTGGCTCAT 
GAACACAAAG AAAAGAAATA CGAAATGGAT TATGTTATTT GGAAAGGCCA TTTGGACGCC 
CTAACTGCCG ATGTGAAGGA GAAAATGTAC AATGTCTTGT TGTTTGTTGA CGGAGGGTGG 
ATGGTGGATG TTAGAGAGGA TGCTGAAGAA GACCATGATA GGACACACCA GATGGTTTCA 
TTGAGAAAGC TTTGTCTGCC AATGTTGTGT TTTCTGCTTC ATACCATATT GCATAGTACC 
GGTCAGTATC AGGAATGCTT GCAATTAGCA GATATGGTCT CCTCTGAGCG CCACAAACTG 
TATCTGGTGT TTTCTAAGGA AGAACTAAGG AAATTGTTGC AGAAGTTAAG AGAGTCCTCT 
CTAATGCTCC TAGACCAAGG ACTTGATCCG TTAGGATATG AAATTCAGTC ATAA

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

RefSeq	XP_019654230.1
CDS	85..2838
Translation	MSSPVIREAEVTRTARKQSAQKRVLIQPSQDEIFSNTTPRNQVIPRTPSSFRPPFTPPSRSLLRHPDVSCILGTGGRSPRLTQSSGFLGNLSMVTNLDDSNWATAFMSQRSGTLTNTESHSVTEDVTLSAVMLREDDPGEAASMSMFSDFLQSFLKYSSSTVFDLVEEYENICSCQVNILSKIVSRATPGLQKFSKTASMLWLLQQEMVTWRLLASLYRDRVQSALEEENTFAVTALNASEKVVVEALFQRDSLVRQSQLVVDWLESIAKDEIGDFSDNIEFYAKSVYWENTLHTLKQRQLPSYIGSVRPLVTELDPDAPIRQKMPLDDLDREDEVRLLKYLFTLIRAGMTEEAQRLCKRCGQAWRAATLEGWKLYHDPNVNGGTELEPVEGNPYRIIWKISCWRMAEDELFNRYERAIYAALSGNLKQLLPVCDTWEDTVWAYFRVMVDSLVEQEIRTSVVNLDETEELPREYLETNWTLEKVFEELQATDKKRVLEENQEHYHIVQKFLILGDIDGLMNEFNKWLSKSRNNLPGHLLRFMTHLILFFHTLGLQIKEEVSIEVLKTYIQLLINEKHTNLIAFYTCHLPQDLAVAQYALFLEGVTEFEQRHRCLELAKEADLDIAAITKTVVENIRKKDNGEFSHHDVAPALDTSTTEEDRLKIDVIDWLVFDPAQRAEALKQGNAIMRKFLASKKHEAAKEVFVKIPQDSIAEIYNQWEEQGMESPLPAEDDNAIREHLCIRAYLEANETFNEWFKHMNSAPQKPTLIPQATFTEKVAHEHKEKKYEMDYVIWKGHLDALTADVKEKMYNVLLFVDGGWMVDVREDAEEDHDRTHQMVSLRKLCLPMLCFLLHTILHSTGQYQECLQLADMVSSERHKLYLVFSKEELRKLLQKLRESSLMLLDQGLDPLGYEIQS

Target ORF information:

RefSeq Version	XM_019798671.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca nucleoporin 107 (NUP107), transcript variant X2, mRNA.

Target ORF information:

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

XM_019798671.1

ORF Insert Sequence:

ATGTCATCGC CTGTGATCCG GGAGGCAGAG GTGACTCGGA CTGCACGGAA ACAGAGTGCT 
CAAAAAAGAG TTTTAATTCA GCCATCCCAA GATGAAATTT TCTCCAATAC TACACCAAGA 
AACCAGGTTA TCCCTCGGAC TCCCAGTTCA TTTCGACCAC CTTTTACTCC ACCCAGCCGA 
AGCTTACTAA GGCATCCAGA TGTTTCCTGC ATTCTTGGAA CAGGAGGGAG GTCTCCCCGG 
CTTACACAGT CTTCAGGGTT CTTGGGAAAC CTGTCTATGG TAACTAATCT GGATGACAGT 
AATTGGGCCA CTGCATTCAT GTCACAGCGA TCCGGAACCC TCACAAACAC AGAGTCCCAC 
AGTGTAACAG AGGACGTAAC TCTCAGTGCT GTTATGTTAC GTGAAGATGA TCCTGGTGAA 
GCTGCATCCA TGAGTATGTT TTCTGATTTC CTGCAGTCTT TCTTAAAGTA CTCTTCATCT 
ACAGTTTTTG ACCTTGTAGA AGAGTATGAA AACATTTGTA GTTGTCAGGT GAATATACTG 
AGTAAAATAG TGAGCCGAGC AACACCTGGA CTTCAGAAGT TCTCAAAAAC AGCCAGTATG 
CTCTGGCTTC TTCAACAGGA GATGGTCACA TGGAGGCTGC TGGCTTCTTT GTACAGAGAC 
AGAGTACAGT CTGCATTGGA AGAGGAAAAT ACATTTGCAG TTACTGCTCT TAATGCCAGT 
GAGAAAGTGG TGGTGGAAGC ATTATTTCAG AGAGATTCAC TTGTCCGACA AAGTCAGCTG 
GTGGTGGATT GGTTAGAGAG CATTGCCAAA GATGAGATTG GAGATTTTTC CGATAATATT 
GAGTTTTATG CAAAATCAGT ATATTGGGAA AATACCCTGC ATACCCTGAA ACAGAGGCAG 
CTACCTTCTT ACATAGGAAG TGTCCGTCCC CTTGTCACTG AATTGGACCC TGATGCTCCC 
ATTAGACAGA AAATGCCCCT TGATGATCTG GATAGAGAAG ATGAAGTCAG ATTACTCAAG 
TATCTTTTCA CTTTAATCCG TGCTGGAATG ACAGAAGAGG CACAACGGCT CTGTAAACGT 
TGTGGTCAGG CATGGAGAGC TGCAACACTT GAAGGCTGGA AACTCTATCA TGACCCTAAT 
GTGAATGGAG GAACAGAATT AGAACCTGTA GAAGGGAATC CATATAGAAT CATTTGGAAA 
ATAAGTTGTT GGAGAATGGC AGAAGATGAG CTTTTTAATA GATACGAGAG GGCAATTTAT 
GCAGCTTTAA GTGGGAATCT CAAGCAGCTG CTTCCTGTCT GTGACACCTG GGAAGACACA 
GTGTGGGCCT ACTTTCGGGT GATGGTGGAC AGTTTGGTAG AACAGGAGAT CCGGACGTCA 
GTAGTGAATC TAGATGAAAC TGAAGAACTC CCTAGGGAAT ATTTGGAAAC AAATTGGACC 
TTGGAAAAGG TATTTGAAGA ACTTCAAGCC ACTGATAAAA AGAGAGTTTT GGAAGAGAAT 
CAAGAACATT ATCATATTGT TCAAAAATTC CTTATCCTGG GAGACATTGA TGGTTTGATG 
AATGAATTTA ACAAATGGCT TTCCAAAAGC AGAAACAATC TACCTGGACA CCTCCTCCGC 
TTCATGACTC ATCTCATTTT GTTTTTTCAT ACTCTGGGAC TGCAGATCAA AGAAGAAGTT 
TCCATTGAAG TTTTAAAGAC ATACATACAG CTTTTAATAA ATGAGAAGCA TACAAATCTC 
ATAGCATTTT ATACCTGTCA TTTGCCTCAA GACCTAGCTG TTGCCCAGTA TGCATTATTT 
TTGGAAGGTG TTACAGAATT TGAGCAGCGC CACCGTTGCC TGGAGCTGGC TAAAGAAGCA 
GATTTGGATA TTGCAGCTAT AACAAAGACT GTAGTCGAGA ATATCCGAAA GAAAGATAAT 
GGTGAATTCA GTCATCATGA CGTGGCCCCC GCCCTAGATA CCAGCACTAC TGAGGAGGAC 
CGTTTAAAAA TTGACGTGAT TGACTGGTTG GTATTTGACC CAGCACAGAG GGCAGAAGCA 
CTTAAACAAG GCAATGCGAT AATGAGAAAA TTCTTGGCAT CAAAAAAGCA TGAAGCTGCA 
AAAGAAGTGT TTGTGAAAAT TCCTCAAGAT TCTATAGCGG AGATCTATAA TCAGTGGGAG 
GAACAAGGAA TGGAAAGTCC GCTTCCCGCT GAAGACGATA ATGCTATCAG AGAACATTTG 
TGCATTAGAG CTTATTTGGA AGCCAATGAA ACCTTTAATG AGTGGTTTAA GCATATGAAT 
TCAGCTCCAC AGAAACCTAC TTTGATACCT CAAGCAACTT TTACTGAGAA AGTGGCTCAT 
GAACACAAAG AAAAGAAATA CGAAATGGAT TATGTTATTT GGAAAGGCCA TTTGGACGCC 
CTAACTGCCG ATGTGAAGGA GAAAATGTAC AATGTCTTGT TGTTTGTTGA CGGAGGGTGG 
ATGGTGGATG TTAGAGAGGA TGCTGAAGAA GACCATGATA GGACACACCA GATGGTTTCA 
TTGAGAAAGC TTTGTCTGCC AATGTTGTGT TTTCTGCTTC ATACCATATT GCATAGTACC 
GGTCAGTATC AGGAATGCTT GCAATTAGCA GATATGGTCT CCTCTGAGCG CCACAAACTG 
TATCTGGTGT TTTCTAAGGA AGAACTAAGG AAATTGTTGC AGAAGTTAAG AGAGTCCTCT 
CTAATGCTCC TAGACCAAGG ACTTGATCCG TTAGGATATG AAATTCAGTC ATAA

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

NUP107 ( XM_019798672.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019654231.1 Ailuropoda melanoleuca nucleoporin 107 (NUP107), transcript variant X3, mRNA.

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CloneID	OAc92141
Clone ID Related Accession (Same CDS sequence)	XM_019798672.1
Accession Version	XM_019798672.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2691bp) 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 Nup107 isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217541.1) 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##

ATGAAATTTT CTCCAATACT ACACCAAGAA ACCAGGTTAT CCCTCGGACT CCCAGTTCAT 
TTCGACCACC TTATTCTTTT TACTAACCTC TTATCTGTAG TTACTCCACC CAGCCGAAGC 
TTACTAAGGC ATCCAGATGT TTCCTGCATT CTTGGAACAG GAGGGAGGTC TCCCCGGCTT 
ACACAGTCTT CAGGGTTCTT GGGAAACCTG TCTATGGTAA CTAATCTGGA TGACAGTAAT 
TGGGCCACTG CATTCATGTC ACAGCGATCC GGAACCCTCA CAAACACAGA GTCCCACAGT 
GTAACAGAGG ACGTAACTCT CAGTGCTGTT ATGTTACGTG AAGATGATCC TGGTGAAGCT 
GCATCCATGA GTATGTTTTC TGATTTCCTG CAGTCTTTCT TAAAGTACTC TTCATCTACA 
GTTTTTGACC TTGTAGAAGA GTATGAAAAC ATTTGTAGTT GTCAGGTGAA TATACTGAGT 
AAAATAGTGA GCCGAGCAAC ACCTGGACTT CAGAAGTTCT CAAAAACAGC CAGTATGCTC 
TGGCTTCTTC AACAGGAGAT GGTCACATGG AGGCTGCTGG CTTCTTTGTA CAGAGACAGA 
GTACAGTCTG CATTGGAAGA GGAAAATACA TTTGCAGTTA CTGCTCTTAA TGCCAGTGAG 
AAAGTGGTGG TGGAAGCATT ATTTCAGAGA GATTCACTTG TCCGACAAAG TCAGCTGGTG 
GTGGATTGGT TAGAGAGCAT TGCCAAAGAT GAGATTGGAG ATTTTTCCGA TAATATTGAG 
TTTTATGCAA AATCAGTATA TTGGGAAAAT ACCCTGCATA CCCTGAAACA GAGGCAGCTA 
CCTTCTTACA TAGGAAGTGT CCGTCCCCTT GTCACTGAAT TGGACCCTGA TGCTCCCATT 
AGACAGAAAA TGCCCCTTGA TGATCTGGAT AGAGAAGATG AAGTCAGATT ACTCAAGTAT 
CTTTTCACTT TAATCCGTGC TGGAATGACA GAAGAGGCAC AACGGCTCTG TAAACGTTGT 
GGTCAGGCAT GGAGAGCTGC AACACTTGAA GGCTGGAAAC TCTATCATGA CCCTAATGTG 
AATGGAGGAA CAGAATTAGA ACCTGTAGAA GGGAATCCAT ATAGAATCAT TTGGAAAATA 
AGTTGTTGGA GAATGGCAGA AGATGAGCTT TTTAATAGAT ACGAGAGGGC AATTTATGCA 
GCTTTAAGTG GGAATCTCAA GCAGCTGCTT CCTGTCTGTG ACACCTGGGA AGACACAGTG 
TGGGCCTACT TTCGGGTGAT GGTGGACAGT TTGGTAGAAC AGGAGATCCG GACGTCAGTA 
GTGAATCTAG ATGAAACTGA AGAACTCCCT AGGGAATATT TGGAAACAAA TTGGACCTTG 
GAAAAGGTAT TTGAAGAACT TCAAGCCACT GATAAAAAGA GAGTTTTGGA AGAGAATCAA 
GAACATTATC ATATTGTTCA AAAATTCCTT ATCCTGGGAG ACATTGATGG TTTGATGAAT 
GAATTTAACA AATGGCTTTC CAAAAGCAGA AACAATCTAC CTGGACACCT CCTCCGCTTC 
ATGACTCATC TCATTTTGTT TTTTCATACT CTGGGACTGC AGATCAAAGA AGAAGTTTCC 
ATTGAAGTTT TAAAGACATA CATACAGCTT TTAATAAATG AGAAGCATAC AAATCTCATA 
GCATTTTATA CCTGTCATTT GCCTCAAGAC CTAGCTGTTG CCCAGTATGC ATTATTTTTG 
GAAGGTGTTA CAGAATTTGA GCAGCGCCAC CGTTGCCTGG AGCTGGCTAA AGAAGCAGAT 
TTGGATATTG CAGCTATAAC AAAGACTGTA GTCGAGAATA TCCGAAAGAA AGATAATGGT 
GAATTCAGTC ATCATGACGT GGCCCCCGCC CTAGATACCA GCACTACTGA GGAGGACCGT 
TTAAAAATTG ACGTGATTGA CTGGTTGGTA TTTGACCCAG CACAGAGGGC AGAAGCACTT 
AAACAAGGCA ATGCGATAAT GAGAAAATTC TTGGCATCAA AAAAGCATGA AGCTGCAAAA 
GAAGTGTTTG TGAAAATTCC TCAAGATTCT ATAGCGGAGA TCTATAATCA GTGGGAGGAA 
CAAGGAATGG AAAGTCCGCT TCCCGCTGAA GACGATAATG CTATCAGAGA ACATTTGTGC 
ATTAGAGCTT ATTTGGAAGC CAATGAAACC TTTAATGAGT GGTTTAAGCA TATGAATTCA 
GCTCCACAGA AACCTACTTT GATACCTCAA GCAACTTTTA CTGAGAAAGT GGCTCATGAA 
CACAAAGAAA AGAAATACGA AATGGATTAT GTTATTTGGA AAGGCCATTT GGACGCCCTA 
ACTGCCGATG TGAAGGAGAA AATGTACAAT GTCTTGTTGT TTGTTGACGG AGGGTGGATG 
GTGGATGTTA GAGAGGATGC TGAAGAAGAC CATGATAGGA CACACCAGAT GGTTTCATTG 
AGAAAGCTTT GTCTGCCAAT GTTGTGTTTT CTGCTTCATA CCATATTGCA TAGTACCGGT 
CAGTATCAGG AATGCTTGCA ATTAGCAGAT ATGGTCTCCT CTGAGCGCCA CAAACTGTAT 
CTGGTGTTTT CTAAGGAAGA ACTAAGGAAA TTGTTGCAGA AGTTAAGAGA GTCCTCTCTA 
ATGCTCCTAG ACCAAGGACT TGATCCGTTA GGATATGAAA TTCAGTCATA A

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

RefSeq	XP_019654231.1
CDS	1..2691
Translation	MKFSPILHQETRLSLGLPVHFDHLILFTNLLSVVTPPSRSLLRHPDVSCILGTGGRSPRLTQSSGFLGNLSMVTNLDDSNWATAFMSQRSGTLTNTESHSVTEDVTLSAVMLREDDPGEAASMSMFSDFLQSFLKYSSSTVFDLVEEYENICSCQVNILSKIVSRATPGLQKFSKTASMLWLLQQEMVTWRLLASLYRDRVQSALEEENTFAVTALNASEKVVVEALFQRDSLVRQSQLVVDWLESIAKDEIGDFSDNIEFYAKSVYWENTLHTLKQRQLPSYIGSVRPLVTELDPDAPIRQKMPLDDLDREDEVRLLKYLFTLIRAGMTEEAQRLCKRCGQAWRAATLEGWKLYHDPNVNGGTELEPVEGNPYRIIWKISCWRMAEDELFNRYERAIYAALSGNLKQLLPVCDTWEDTVWAYFRVMVDSLVEQEIRTSVVNLDETEELPREYLETNWTLEKVFEELQATDKKRVLEENQEHYHIVQKFLILGDIDGLMNEFNKWLSKSRNNLPGHLLRFMTHLILFFHTLGLQIKEEVSIEVLKTYIQLLINEKHTNLIAFYTCHLPQDLAVAQYALFLEGVTEFEQRHRCLELAKEADLDIAAITKTVVENIRKKDNGEFSHHDVAPALDTSTTEEDRLKIDVIDWLVFDPAQRAEALKQGNAIMRKFLASKKHEAAKEVFVKIPQDSIAEIYNQWEEQGMESPLPAEDDNAIREHLCIRAYLEANETFNEWFKHMNSAPQKPTLIPQATFTEKVAHEHKEKKYEMDYVIWKGHLDALTADVKEKMYNVLLFVDGGWMVDVREDAEEDHDRTHQMVSLRKLCLPMLCFLLHTILHSTGQYQECLQLADMVSSERHKLYLVFSKEELRKLLQKLRESSLMLLDQGLDPLGYEIQS

Target ORF information:

RefSeq Version	XM_019798672.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca nucleoporin 107 (NUP107), transcript variant X3, mRNA.

Target ORF information:

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

XM_019798672.1

ORF Insert Sequence:

ATGAAATTTT CTCCAATACT ACACCAAGAA ACCAGGTTAT CCCTCGGACT CCCAGTTCAT 
TTCGACCACC TTATTCTTTT TACTAACCTC TTATCTGTAG TTACTCCACC CAGCCGAAGC 
TTACTAAGGC ATCCAGATGT TTCCTGCATT CTTGGAACAG GAGGGAGGTC TCCCCGGCTT 
ACACAGTCTT CAGGGTTCTT GGGAAACCTG TCTATGGTAA CTAATCTGGA TGACAGTAAT 
TGGGCCACTG CATTCATGTC ACAGCGATCC GGAACCCTCA CAAACACAGA GTCCCACAGT 
GTAACAGAGG ACGTAACTCT CAGTGCTGTT ATGTTACGTG AAGATGATCC TGGTGAAGCT 
GCATCCATGA GTATGTTTTC TGATTTCCTG CAGTCTTTCT TAAAGTACTC TTCATCTACA 
GTTTTTGACC TTGTAGAAGA GTATGAAAAC ATTTGTAGTT GTCAGGTGAA TATACTGAGT 
AAAATAGTGA GCCGAGCAAC ACCTGGACTT CAGAAGTTCT CAAAAACAGC CAGTATGCTC 
TGGCTTCTTC AACAGGAGAT GGTCACATGG AGGCTGCTGG CTTCTTTGTA CAGAGACAGA 
GTACAGTCTG CATTGGAAGA GGAAAATACA TTTGCAGTTA CTGCTCTTAA TGCCAGTGAG 
AAAGTGGTGG TGGAAGCATT ATTTCAGAGA GATTCACTTG TCCGACAAAG TCAGCTGGTG 
GTGGATTGGT TAGAGAGCAT TGCCAAAGAT GAGATTGGAG ATTTTTCCGA TAATATTGAG 
TTTTATGCAA AATCAGTATA TTGGGAAAAT ACCCTGCATA CCCTGAAACA GAGGCAGCTA 
CCTTCTTACA TAGGAAGTGT CCGTCCCCTT GTCACTGAAT TGGACCCTGA TGCTCCCATT 
AGACAGAAAA TGCCCCTTGA TGATCTGGAT AGAGAAGATG AAGTCAGATT ACTCAAGTAT 
CTTTTCACTT TAATCCGTGC TGGAATGACA GAAGAGGCAC AACGGCTCTG TAAACGTTGT 
GGTCAGGCAT GGAGAGCTGC AACACTTGAA GGCTGGAAAC TCTATCATGA CCCTAATGTG 
AATGGAGGAA CAGAATTAGA ACCTGTAGAA GGGAATCCAT ATAGAATCAT TTGGAAAATA 
AGTTGTTGGA GAATGGCAGA AGATGAGCTT TTTAATAGAT ACGAGAGGGC AATTTATGCA 
GCTTTAAGTG GGAATCTCAA GCAGCTGCTT CCTGTCTGTG ACACCTGGGA AGACACAGTG 
TGGGCCTACT TTCGGGTGAT GGTGGACAGT TTGGTAGAAC AGGAGATCCG GACGTCAGTA 
GTGAATCTAG ATGAAACTGA AGAACTCCCT AGGGAATATT TGGAAACAAA TTGGACCTTG 
GAAAAGGTAT TTGAAGAACT TCAAGCCACT GATAAAAAGA GAGTTTTGGA AGAGAATCAA 
GAACATTATC ATATTGTTCA AAAATTCCTT ATCCTGGGAG ACATTGATGG TTTGATGAAT 
GAATTTAACA AATGGCTTTC CAAAAGCAGA AACAATCTAC CTGGACACCT CCTCCGCTTC 
ATGACTCATC TCATTTTGTT TTTTCATACT CTGGGACTGC AGATCAAAGA AGAAGTTTCC 
ATTGAAGTTT TAAAGACATA CATACAGCTT TTAATAAATG AGAAGCATAC AAATCTCATA 
GCATTTTATA CCTGTCATTT GCCTCAAGAC CTAGCTGTTG CCCAGTATGC ATTATTTTTG 
GAAGGTGTTA CAGAATTTGA GCAGCGCCAC CGTTGCCTGG AGCTGGCTAA AGAAGCAGAT 
TTGGATATTG CAGCTATAAC AAAGACTGTA GTCGAGAATA TCCGAAAGAA AGATAATGGT 
GAATTCAGTC ATCATGACGT GGCCCCCGCC CTAGATACCA GCACTACTGA GGAGGACCGT 
TTAAAAATTG ACGTGATTGA CTGGTTGGTA TTTGACCCAG CACAGAGGGC AGAAGCACTT 
AAACAAGGCA ATGCGATAAT GAGAAAATTC TTGGCATCAA AAAAGCATGA AGCTGCAAAA 
GAAGTGTTTG TGAAAATTCC TCAAGATTCT ATAGCGGAGA TCTATAATCA GTGGGAGGAA 
CAAGGAATGG AAAGTCCGCT TCCCGCTGAA GACGATAATG CTATCAGAGA ACATTTGTGC 
ATTAGAGCTT ATTTGGAAGC CAATGAAACC TTTAATGAGT GGTTTAAGCA TATGAATTCA 
GCTCCACAGA AACCTACTTT GATACCTCAA GCAACTTTTA CTGAGAAAGT GGCTCATGAA 
CACAAAGAAA AGAAATACGA AATGGATTAT GTTATTTGGA AAGGCCATTT GGACGCCCTA 
ACTGCCGATG TGAAGGAGAA AATGTACAAT GTCTTGTTGT TTGTTGACGG AGGGTGGATG 
GTGGATGTTA GAGAGGATGC TGAAGAAGAC CATGATAGGA CACACCAGAT GGTTTCATTG 
AGAAAGCTTT GTCTGCCAAT GTTGTGTTTT CTGCTTCATA CCATATTGCA TAGTACCGGT 
CAGTATCAGG AATGCTTGCA ATTAGCAGAT ATGGTCTCCT CTGAGCGCCA CAAACTGTAT 
CTGGTGTTTT CTAAGGAAGA ACTAAGGAAA TTGTTGCAGA AGTTAAGAGA GTCCTCTCTA 
ATGCTCCTAG ACCAAGGACT TGATCCGTTA GGATATGAAA TTCAGTCATA A

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

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NUP107 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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