NUP160 cDNA ORF clone, Taeniopygia guttata(zebra finch)

Gene
Clones
gRNAs

Summary

Gene Symbol	NUP160
Entrez Gene ID	100231566
Full Name	nucleoporin 160
Gene Type	protein-coding
Organism	Taeniopygia guttata(zebra finch)

mRNA and Protein(s)

mRNA	Protein	Name
XM_012574342.1	XP_012429796.1	nuclear pore complex protein Nup160
XM_030275390.1	XP_030131250.1	nuclear pore complex protein Nup160

Pathways from BioSystems
Gene Ontology

The following NUP160 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the NUP160 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)	Select
OTd20104	XM_012574342.1 Latest version!	Taeniopygia guttata nucleoporin 160kDa (NUP160), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00
OTd47909	XM_030275390.1 Latest version!	Taeniopygia guttata nucleoporin 160 (NUP160), 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)
1 Clone	30% OFF
2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
30% OFF

*Business Day

** 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)

NUP160 ( XM_012574342.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_012429796.1 Taeniopygia guttata nucleoporin 160kDa (NUP160), mRNA.

Price & Availability↑

CloneID	OTd20104
Clone ID Related Accession (Same CDS sequence)	XM_012574342.1
Accession Version	XM_012574342.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4185bp) 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	1432483200000
Organism	Taeniopygia guttata(zebra finch)
Product	nuclear pore complex protein Nup160
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002198757.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Taeniopygia guttata Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCGGCGG CTCTGGCGGC GCGGAGCTGC CTGGAGCTGA GCGCGGCCGG CCGGGCCCCG 
CCGCGACCCC CGCAGGAGCT GCTCTTCGTG CCCCCCGGCG TCGCCCCGCT CCCCGCCGGG 
CGCTACGGCG ACAGCGCCGG CGGCTTCTGC TACCAGGAGA GCGCGCAGCT CGGGGCCGCC 
ACCAGGAATC GCTGGGTGCG ATGGAGCACG TCGGGGGACA CGGTGGAGCT GGTGGAGGAG 
TCCCTGGACG TGAACCTGCT GAACAACGCT GTGCGGCTGC GGATCCAGGG CTGCCCGTTC 
CTGCCGGGCG GGATCCACCT GTGCGAGGTG CAGAGTCACC TGGTGGTGCT GCTGCTCACG 
GCACAGACGG TGCACCGGCT GCTGCTCCCG CATCCCGCCC GCCTCTACCG CAGCGAGCTG 
ATAACGGAGA GCCAAGTGCA GTCTGTGTTT ACAGATATCA GCAAAATCCA CATCAGGGAT 
CCCTCCAATT ACTACGTGAT TCCCAGCGTG CCGGGGCTGG CTCCCAACTC TGTGGCCTCT 
GCAGCCTGGC TGAGCAGCGA GGGAGAGGCT CTCTTTGCCC TCCCCTCTGC CTCAGGAGGG 
ATCTTTGTCC TTAAGCTGCC TCCTCCCGAT GCTCCTGGGA GTGTTTCTGT CGTGGAGTTG 
AAGCAGAGCT CGGTGGTGCA GCGTTTCCTC ACAGGCTGGA TGCCAACTGC CATCAGAGGT 
GATGGTGGCC CCTCGGATGT GCCCGTCAGC CTCTCCGTGC ACTGCCTGGA TCACGATGCC 
TTCCTCTTCG CCCTCTGCCA GGACCATAAG CTCCGGATGT GGTCCTACAA GGATCAGATG 
TGCCTGATGG TGGCGGATCT GCTGGAATTC ATGCCGGTCA GCAGGGACCT GCGGCTGGCA 
GCTGGCACCG GGCACCGCCT GCGCCTGGCC TTCTCCCAGT CCCTGGGCCT GTACCTGGGA 
GTCTACATGC ACGCTCCCAA GCGAGGGCAG TTTTGTGTCT TCCAGCTGGT GAGCACTGAG 
AGCAACCGCT ACAGCCTTGA CCACATCTCC TCCCTGTTCT CCTCACAGGA GACTTTGGTT 
GACTTTGCCT TAACCTCAGC CGAGATCTGG GCGCTCTGGC ACAACGAGGA GAATCAAACT 
GTTGTGAAAT ACATCAACTT TGAGCAGAAT GTTGCAGGTC AGTGGAACCA GGTGTTTGTG 
CAGCCGCTCC CTGAGGAGGA GGTGACGGTC CGGCAGGATC AGGACCCCAG GGAAATCTAC 
TTGGAATATC TCTTCATGCC GGGTCGGTTC ACTAATGCAG CTATCCAGAA GGCTTTGCAG 
ATCTTTTCTC AAGGAACTGA GAGGCACATG GATCTGACAT GGGATGAATT AAGGAAAGAG 
GTCACCTTAG CTGTGGAAAA TGAGTTCCAG GGCAGCGTGA CAGAATACGA GTGCTCCCCA 
GAGGAGTTTT GGCAGTTGCA GGTGGAATTC TGGTCCAAGT TCTATGCCTG CTGCCTGCAG 
TACCAGGAAG CTCTTTCCCG GCCCCTGGCC TTGCACCTGA ACCCCTACAC CAGCATGGTG 
TGCCTGCTAA AGAAGGGCTC CATGTCCTTC CTTGTGCCCT GCTCCTTGGT CGATCATCTC 
TATCTCCTCT CCAACGAGCA CTTCCTGACC GAGGATGATG CTGCCATCTT TGAAGATTTG 
GAGATGTCTC GTGATGTTGT CTGTCTTGTC CAGTGCCTTC GCCTGATTGG AGAATCAATT 
TCTATGGAAA TGGCATTCAT CATGGAAATG GCTTGCTCCC GCCTCCAGCC TCCAGAAAAG 
GCTGCAGAGC AGATCCTGGA GAACTTGATA GCTAATGACA CGGAAAATGT GATGGAGGAT 
ATTCACAGCA AACTGCAGGA GATCAGGAAC CCCATCCATG CCATTGGATT GCTCATCCGA 
GAGATGGACT ACGAGACAGA CGCTGACATG GAAAGAGCTC CGCACCTGGC GCTGCGCATG 
AGTCTGTCCC AGCTGTTTGG CAGCAGCACT GCTGCGCACG TGGTGTGCGG GGGGGTGGCC 
AAGATCTGCA CCGTCCGCTT CCTCCTCTGC CGGGACCTGC TCATCCTCCA GCAGCTCCTG 
CTGCGCCTCG GAGATCCTAT GGTTTTGGGA GGGGGACAGC TCTTCCAGTC CCAGCAGGAC 
TTGCTGCACC GCACCTCTCC CCTGCTGCTG TCCTACTTCC TGATCCGGTG GGCGAGCCAG 
TGCCTGGCCT CTGACGTCCC TGTGGACACG TTGGAATCTA ATCTGCAGCA TCTCTCCGTG 
TTGGAGTTAG CAGACACCAC GGCCCTGACA CCACACAAAC TGGTATCCGG CCCTCAGACA 
ATCGTGGAGC TCTTCTTTCA GGAAGTGGCC AGAAAACACA TCATATCCCG ACTCTTCCTG 
CAACCAAACA CCTCTTTGGC TGAGACAAGT TTGAACTGGC CCCACCTTAT CACCTCAATA 
GTGGCTGATT TTCTTCCTCT CCTATGGCCC AGCAATCCCA GCTTCCTCTT CCCAGAGTGC 
CTGATGGGGA GCTGTCAGTA CACCCAGCTC CAGGAATATA TCCGACTGCT GCAGCCATGG 
TGCCACGTGA ACATAGGCTC CTGCTGCTTT ATGATGGGCA GGTGCTACCT TGTCATGGGT 
GAAGGGCACA AGGCTTTGGA TTGCTTCTGC CAAGCTGCCT CTGAGGTGGG AAGAGAGGAG 
TTCCTGGACA GGCTGATCCA GCCCGAGGAG GGTGAGGTGG TCTCCACGCC ACGCCTGCAG 
TACTACAACA AGGTCCTTCG CTTGTTGGAG ATGCTGGGTT TGCCAGAGCT GGTCATCGAG 
CTGGCCACCC TGGCCATCAT GGAATCAGCA GATGACTGGA GGAGCCAGGC TACTTTAAGG 
ACCTGCATCT TCAAACATCA TTTGGATTTG GGGCACAACA GTGAAGCCTA TGTAGCCTTA 
ACACAAAACC CAGATCCAAG CAGGCAGCTG GACTGCCTAC GCCAGCTAGT GGTGGTTCTC 
TGCGAGCGAT CCCAGCTCCA GGACCTGGTG GAATTTCCTT ACGTGAACCT GCACAATGAG 
GTCGTTGGGA TCATCGAGTC CCATGCTCGG GCTGTGGATC TGATGACTCA CAACTACTAC 
GAGCTGCTCT ACGCTTTCCA TGTGTACCGG CACAACTACC GGAAAGCTGG AACGGTGATG 
TTTGAGTACG GCATGCGGCT GGGCAGGGAG GTGCGGACGC TCCGAGGGCT CCAGAAACAG 
GGGAATTGTT TCCTGGCTGC CATTAACTGC CTGCGGCTGA TCCGCCCGGA ATACGCCTGG 
ATAGTGCAGC CAGCCTCTGG AGCTGTGTAT GAGCGCCCAG GAGCGTCTCC GAAGAGGAGC 
CACGATGGGG AGTGCATGGC TGTTCCCACC ACTCACCAGA TCGAGATCCT GGAGCTGGAG 
GATTTGGAGA GGGAGTGTCT GCTGGCGCGG ATCCGGCTCA CCCTGGTAGA ACACGACGTG 
TCAGCAGCAG CTGTGGCAGG CAACTCCACG CCCGAGGAAA CAGTGTCTCT GCTGGTCCGG 
GCCGGGCTCT TCGACTCGGC CATCACCCTC TGCCAAACCT TCAAGCTGCC CTTGACACCC 
ATCTTTGAGG GCCTGACCTT CAAGTGCATC AAGCTCCAGC TGGGAGGGGA AGCGGCACAG 
GCCAAGGCCT GGGACTGGCT GGCAGCCAAC CAACTCTCAG CCCTGGTCAC CACCAAGGAG 
TCCAGTGCCA CAGATGAAGC CTGGAGGCTG CTGTCATCCT ACTTGGAGCG TTACCCATCC 
CAGAACAGCC TGTACCATCG CTGTGTCATC AACAAGCTCC TGGCACATGG GATACCTCTG 
CCCAACTGGC TCATTAACAG CTACAAGGAA GTGGATGCTG CCGAGCTGCT GCGCCTGTAC 
CTGAGCTACG ATCTGCTGGA GGAGGCTGTG GATTTGGTCC TGGAGTATGT GGATGCTGTG 
CTGGGCAAAG GTCACCAGTA TTTGGGATCG AGGTTCCCTC TGTCCCCAGT GTCCCCCACG 
ATGTGGCTTC CCTACACTGC CATTGACCAG CTGCTGCAGG CGCTGCGGGA GAGCAGCGCC 
AGCGAGAACA GTGTCGTGCT CTACGAGAAG CTGAACGACA AGATGGAGGA CTACCAGCAG 
AAGGTCAGCG TGGCCACCAC GGAGCGCCTG TACTGCCGGC CCTAG

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

RefSeq	XP_012429796.1
CDS	1..4185
Translation	MAAALAARSCLELSAAGRAPPRPPQELLFVPPGVAPLPAGRYGDSAGGFCYQESAQLGAATRNRWVRWSTSGDTVELVEESLDVNLLNNAVRLRIQGCPFLPGGIHLCEVQSHLVVLLLTAQTVHRLLLPHPARLYRSELITESQVQSVFTDISKIHIRDPSNYYVIPSVPGLAPNSVASAAWLSSEGEALFALPSASGGIFVLKLPPPDAPGSVSVVELKQSSVVQRFLTGWMPTAIRGDGGPSDVPVSLSVHCLDHDAFLFALCQDHKLRMWSYKDQMCLMVADLLEFMPVSRDLRLAAGTGHRLRLAFSQSLGLYLGVYMHAPKRGQFCVFQLVSTESNRYSLDHISSLFSSQETLVDFALTSAEIWALWHNEENQTVVKYINFEQNVAGQWNQVFVQPLPEEEVTVRQDQDPREIYLEYLFMPGRFTNAAIQKALQIFSQGTERHMDLTWDELRKEVTLAVENEFQGSVTEYECSPEEFWQLQVEFWSKFYACCLQYQEALSRPLALHLNPYTSMVCLLKKGSMSFLVPCSLVDHLYLLSNEHFLTEDDAAIFEDLEMSRDVVCLVQCLRLIGESISMEMAFIMEMACSRLQPPEKAAEQILENLIANDTENVMEDIHSKLQEIRNPIHAIGLLIREMDYETDADMERAPHLALRMSLSQLFGSSTAAHVVCGGVAKICTVRFLLCRDLLILQQLLLRLGDPMVLGGGQLFQSQQDLLHRTSPLLLSYFLIRWASQCLASDVPVDTLESNLQHLSVLELADTTALTPHKLVSGPQTIVELFFQEVARKHIISRLFLQPNTSLAETSLNWPHLITSIVADFLPLLWPSNPSFLFPECLMGSCQYTQLQEYIRLLQPWCHVNIGSCCFMMGRCYLVMGEGHKALDCFCQAASEVGREEFLDRLIQPEEGEVVSTPRLQYYNKVLRLLEMLGLPELVIELATLAIMESADDWRSQATLRTCIFKHHLDLGHNSEAYVALTQNPDPSRQLDCLRQLVVVLCERSQLQDLVEFPYVNLHNEVVGIIESHARAVDLMTHNYYELLYAFHVYRHNYRKAGTVMFEYGMRLGREVRTLRGLQKQGNCFLAAINCLRLIRPEYAWIVQPASGAVYERPGASPKRSHDGECMAVPTTHQIEILELEDLERECLLARIRLTLVEHDVSAAAVAGNSTPEETVSLLVRAGLFDSAITLCQTFKLPLTPIFEGLTFKCIKLQLGGEAAQAKAWDWLAANQLSALVTTKESSATDEAWRLLSSYLERYPSQNSLYHRCVINKLLAHGIPLPNWLINSYKEVDAAELLRLYLSYDLLEEAVDLVLEYVDAVLGKGHQYLGSRFPLSPVSPTMWLPYTAIDQLLQALRESSASENSVVLYEKLNDKMEDYQQKVSVATTERLYCRP

Target ORF information:

RefSeq Version	XM_012574342.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata nucleoporin 160kDa (NUP160), mRNA.

Target ORF information:

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

XM_012574342.1

ORF Insert Sequence:

ATGGCGGCGG CTCTGGCGGC GCGGAGCTGC CTGGAGCTGA GCGCGGCCGG CCGGGCCCCG 
CCGCGACCCC CGCAGGAGCT GCTCTTCGTG CCCCCCGGCG TCGCCCCGCT CCCCGCCGGG 
CGCTACGGCG ACAGCGCCGG CGGCTTCTGC TACCAGGAGA GCGCGCAGCT CGGGGCCGCC 
ACCAGGAATC GCTGGGTGCG ATGGAGCACG TCGGGGGACA CGGTGGAGCT GGTGGAGGAG 
TCCCTGGACG TGAACCTGCT GAACAACGCT GTGCGGCTGC GGATCCAGGG CTGCCCGTTC 
CTGCCGGGCG GGATCCACCT GTGCGAGGTG CAGAGTCACC TGGTGGTGCT GCTGCTCACG 
GCACAGACGG TGCACCGGCT GCTGCTCCCG CATCCCGCCC GCCTCTACCG CAGCGAGCTG 
ATAACGGAGA GCCAAGTGCA GTCTGTGTTT ACAGATATCA GCAAAATCCA CATCAGGGAT 
CCCTCCAATT ACTACGTGAT TCCCAGCGTG CCGGGGCTGG CTCCCAACTC TGTGGCCTCT 
GCAGCCTGGC TGAGCAGCGA GGGAGAGGCT CTCTTTGCCC TCCCCTCTGC CTCAGGAGGG 
ATCTTTGTCC TTAAGCTGCC TCCTCCCGAT GCTCCTGGGA GTGTTTCTGT CGTGGAGTTG 
AAGCAGAGCT CGGTGGTGCA GCGTTTCCTC ACAGGCTGGA TGCCAACTGC CATCAGAGGT 
GATGGTGGCC CCTCGGATGT GCCCGTCAGC CTCTCCGTGC ACTGCCTGGA TCACGATGCC 
TTCCTCTTCG CCCTCTGCCA GGACCATAAG CTCCGGATGT GGTCCTACAA GGATCAGATG 
TGCCTGATGG TGGCGGATCT GCTGGAATTC ATGCCGGTCA GCAGGGACCT GCGGCTGGCA 
GCTGGCACCG GGCACCGCCT GCGCCTGGCC TTCTCCCAGT CCCTGGGCCT GTACCTGGGA 
GTCTACATGC ACGCTCCCAA GCGAGGGCAG TTTTGTGTCT TCCAGCTGGT GAGCACTGAG 
AGCAACCGCT ACAGCCTTGA CCACATCTCC TCCCTGTTCT CCTCACAGGA GACTTTGGTT 
GACTTTGCCT TAACCTCAGC CGAGATCTGG GCGCTCTGGC ACAACGAGGA GAATCAAACT 
GTTGTGAAAT ACATCAACTT TGAGCAGAAT GTTGCAGGTC AGTGGAACCA GGTGTTTGTG 
CAGCCGCTCC CTGAGGAGGA GGTGACGGTC CGGCAGGATC AGGACCCCAG GGAAATCTAC 
TTGGAATATC TCTTCATGCC GGGTCGGTTC ACTAATGCAG CTATCCAGAA GGCTTTGCAG 
ATCTTTTCTC AAGGAACTGA GAGGCACATG GATCTGACAT GGGATGAATT AAGGAAAGAG 
GTCACCTTAG CTGTGGAAAA TGAGTTCCAG GGCAGCGTGA CAGAATACGA GTGCTCCCCA 
GAGGAGTTTT GGCAGTTGCA GGTGGAATTC TGGTCCAAGT TCTATGCCTG CTGCCTGCAG 
TACCAGGAAG CTCTTTCCCG GCCCCTGGCC TTGCACCTGA ACCCCTACAC CAGCATGGTG 
TGCCTGCTAA AGAAGGGCTC CATGTCCTTC CTTGTGCCCT GCTCCTTGGT CGATCATCTC 
TATCTCCTCT CCAACGAGCA CTTCCTGACC GAGGATGATG CTGCCATCTT TGAAGATTTG 
GAGATGTCTC GTGATGTTGT CTGTCTTGTC CAGTGCCTTC GCCTGATTGG AGAATCAATT 
TCTATGGAAA TGGCATTCAT CATGGAAATG GCTTGCTCCC GCCTCCAGCC TCCAGAAAAG 
GCTGCAGAGC AGATCCTGGA GAACTTGATA GCTAATGACA CGGAAAATGT GATGGAGGAT 
ATTCACAGCA AACTGCAGGA GATCAGGAAC CCCATCCATG CCATTGGATT GCTCATCCGA 
GAGATGGACT ACGAGACAGA CGCTGACATG GAAAGAGCTC CGCACCTGGC GCTGCGCATG 
AGTCTGTCCC AGCTGTTTGG CAGCAGCACT GCTGCGCACG TGGTGTGCGG GGGGGTGGCC 
AAGATCTGCA CCGTCCGCTT CCTCCTCTGC CGGGACCTGC TCATCCTCCA GCAGCTCCTG 
CTGCGCCTCG GAGATCCTAT GGTTTTGGGA GGGGGACAGC TCTTCCAGTC CCAGCAGGAC 
TTGCTGCACC GCACCTCTCC CCTGCTGCTG TCCTACTTCC TGATCCGGTG GGCGAGCCAG 
TGCCTGGCCT CTGACGTCCC TGTGGACACG TTGGAATCTA ATCTGCAGCA TCTCTCCGTG 
TTGGAGTTAG CAGACACCAC GGCCCTGACA CCACACAAAC TGGTATCCGG CCCTCAGACA 
ATCGTGGAGC TCTTCTTTCA GGAAGTGGCC AGAAAACACA TCATATCCCG ACTCTTCCTG 
CAACCAAACA CCTCTTTGGC TGAGACAAGT TTGAACTGGC CCCACCTTAT CACCTCAATA 
GTGGCTGATT TTCTTCCTCT CCTATGGCCC AGCAATCCCA GCTTCCTCTT CCCAGAGTGC 
CTGATGGGGA GCTGTCAGTA CACCCAGCTC CAGGAATATA TCCGACTGCT GCAGCCATGG 
TGCCACGTGA ACATAGGCTC CTGCTGCTTT ATGATGGGCA GGTGCTACCT TGTCATGGGT 
GAAGGGCACA AGGCTTTGGA TTGCTTCTGC CAAGCTGCCT CTGAGGTGGG AAGAGAGGAG 
TTCCTGGACA GGCTGATCCA GCCCGAGGAG GGTGAGGTGG TCTCCACGCC ACGCCTGCAG 
TACTACAACA AGGTCCTTCG CTTGTTGGAG ATGCTGGGTT TGCCAGAGCT GGTCATCGAG 
CTGGCCACCC TGGCCATCAT GGAATCAGCA GATGACTGGA GGAGCCAGGC TACTTTAAGG 
ACCTGCATCT TCAAACATCA TTTGGATTTG GGGCACAACA GTGAAGCCTA TGTAGCCTTA 
ACACAAAACC CAGATCCAAG CAGGCAGCTG GACTGCCTAC GCCAGCTAGT GGTGGTTCTC 
TGCGAGCGAT CCCAGCTCCA GGACCTGGTG GAATTTCCTT ACGTGAACCT GCACAATGAG 
GTCGTTGGGA TCATCGAGTC CCATGCTCGG GCTGTGGATC TGATGACTCA CAACTACTAC 
GAGCTGCTCT ACGCTTTCCA TGTGTACCGG CACAACTACC GGAAAGCTGG AACGGTGATG 
TTTGAGTACG GCATGCGGCT GGGCAGGGAG GTGCGGACGC TCCGAGGGCT CCAGAAACAG 
GGGAATTGTT TCCTGGCTGC CATTAACTGC CTGCGGCTGA TCCGCCCGGA ATACGCCTGG 
ATAGTGCAGC CAGCCTCTGG AGCTGTGTAT GAGCGCCCAG GAGCGTCTCC GAAGAGGAGC 
CACGATGGGG AGTGCATGGC TGTTCCCACC ACTCACCAGA TCGAGATCCT GGAGCTGGAG 
GATTTGGAGA GGGAGTGTCT GCTGGCGCGG ATCCGGCTCA CCCTGGTAGA ACACGACGTG 
TCAGCAGCAG CTGTGGCAGG CAACTCCACG CCCGAGGAAA CAGTGTCTCT GCTGGTCCGG 
GCCGGGCTCT TCGACTCGGC CATCACCCTC TGCCAAACCT TCAAGCTGCC CTTGACACCC 
ATCTTTGAGG GCCTGACCTT CAAGTGCATC AAGCTCCAGC TGGGAGGGGA AGCGGCACAG 
GCCAAGGCCT GGGACTGGCT GGCAGCCAAC CAACTCTCAG CCCTGGTCAC CACCAAGGAG 
TCCAGTGCCA CAGATGAAGC CTGGAGGCTG CTGTCATCCT ACTTGGAGCG TTACCCATCC 
CAGAACAGCC TGTACCATCG CTGTGTCATC AACAAGCTCC TGGCACATGG GATACCTCTG 
CCCAACTGGC TCATTAACAG CTACAAGGAA GTGGATGCTG CCGAGCTGCT GCGCCTGTAC 
CTGAGCTACG ATCTGCTGGA GGAGGCTGTG GATTTGGTCC TGGAGTATGT GGATGCTGTG 
CTGGGCAAAG GTCACCAGTA TTTGGGATCG AGGTTCCCTC TGTCCCCAGT GTCCCCCACG 
ATGTGGCTTC CCTACACTGC CATTGACCAG CTGCTGCAGG CGCTGCGGGA GAGCAGCGCC 
AGCGAGAACA GTGTCGTGCT CTACGAGAAG CTGAACGACA AGATGGAGGA CTACCAGCAG 
AAGGTCAGCG TGGCCACCAC GGAGCGCCTG TACTGCCGGC CCTAG

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

NUP160 ( XM_030275390.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030131250.1 Taeniopygia guttata nucleoporin 160 (NUP160), mRNA.

Price & Availability↑

CloneID	OTd47909
Clone ID Related Accession (Same CDS sequence)	XM_030275390.1
Accession Version	XM_030275390.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4185bp) 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	1565193600000
Organism	Taeniopygia guttata(zebra finch)
Product	nuclear pore complex protein Nup160
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044217.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCGGCGG CTCTGGCGGC GCGGAGCTGC CTGGAGCTGA GCGCGGCCGG CCGGGCCCCG 
CCGCGACCCC CGCAGGAGCT GCTCTTCGTG CCCCCCGGCG TCGCCCCGCT CCCCGCCGGG 
CGCTACGGCG ACAGCGCCGG CGGCTTCTGC TACCAGGAGA GCGCGCAGCT CGGGGCCGCC 
ACCAGGAATC GCTGGGTGCG ATGGAGCACG TCGGGGGACA CGGTGGAGCT GGTGGAGGAG 
TCCCTGGACG TGAACCTGCT GAACAACGCT GTGCGGCTGC GGATCCAGGG CTGCCCGTTC 
CTGCCGGGCG GGATTCACCT GTGCGAGGTG CAGAGTCACC TGGTGGTGCT GCTGCTCACG 
GCACAGACGG TGCACCGGCT GCTGCTCCCG CACCCCGCCC GCCTCTACCG CAGCGAGCTG 
ATAACGGAGA GCCAAGTGCA GTCTGTGTTT ACAGATATCA GCAAAATCCA CATCAGGGAT 
CCCTCCAATT ACTACGTGAT TCCCAGCGTG CCGGGGCTGG CTCCCAACTC TGTGGCCTCT 
GCAGCCTGGC TGAGCAGCGA GGGAGAGGCT CTCTTTGCCC TCCCCTCTGC CTCAGGAGGG 
ATCTTTGTCC TTAAGCTGCC TCCTCCCGAT GCTCCTGGGA GTGTTTCTGT CGTGGAGTTG 
AAGCAGAGCT CGGTGGTGCA GCGTTTCCTC ACAGGCTGGA TGCCAACTGC CATCAGAGGT 
GATGGTGGCC CCTCGGATGT GCCCGTCAGC CTCTCCGTGC ACTGCCTGGA TCACGATGCC 
TTCCTCTTCG CCCTCTGCCA GGACCATAAG CTCCGGATGT GGTCCTACAA GGATCAGATG 
TGCCTGATGG TGGCGGATCT GCTGGAATTC ATGCCGGTCA GCAGGGACCT GCGGCTGGCA 
GCTGGCACCG GGCACCGCCT GCGCCTGGCC TTCTCCCAGT CCCTGGGCCT GTACCTGGGA 
GTCTACATGC ACGCTCCCAA GCGAGGGCAG TTTTGTGTCT TCCAGCTGGT GAGCACTGAG 
AGCAACCGCT ACAGCCTTGA CCACATCTCC TCCCTGTTCT CCTCACAGGA GACTTTGGTT 
GACTTTGCCT TAACCTCAGC CGAGATCTGG GCGCTCTGGC ACAACGAGGA GAATCAAACT 
GTTGTGAAAT ACATCAACTT TGAGCAGAAT GTTGCAGGTC AGTGGAACCA GGTGTTTGTG 
CAGCCGCTCC CTGAGGAGGA GGTGACAGTC CGGCAGGATC AGGACCCCAG GGAAATCTAC 
TTGGAATATC TCTTCATGCC GGGTCGGTTC ACTAATGCAG CTATCCAGAA GGCTTTGCAG 
ATCTTTTCTC AAGGAACTGA GAGGCACATG GATCTGACAT GGGATGAATT AAGGAAAGAG 
GTCACCTTAG CTGTGGAAAA TGAGTTCCAG GGCAGCGTGA CAGAATACGA GTGCTCCCCA 
GAGGAGTTTT GGCAGTTGCA GGTGGAATTC TGGTCCAAGT TCTATGCCTG CTGCCTGCAG 
TACCAGGAAG CTCTTTCCCG GCCCCTGGCC TTGCACCTGA ACCCCTACAC CAGCATGGTG 
TGCCTGCTAA AGAAGGGCTC CATGTCCTTC CTTGTGCCCT GCTCCTTGGT CGATCATCTC 
TATCTCCTCT CCAACGAGCA CTTCCTGACC GAGGATGATG CTGCCATCTT TGAAGATTTG 
GAGATGTCTC GTGATGTTGT CTGTCTTGTC CAGTGCCTTC GCCTGATTGG AGAATCAATT 
TCTATGGAAA TGGCATTCAT CATGGAAATG GCTTGCTCCC GCCTCCAGCC TCCAGAAAAG 
GCTGCAGAGC AGATCCTGGA GAACTTGATA GCTAATGACA CGGAAAATGT GATGGAGGAT 
ATTCACAGCA AACTGCAGGA GATCAGGAAC CCCATCCATG CCATTGGATT GCTCATCCGA 
GAGATGGACT ACGAGACAGA CGCTGACATG GAAAGAGCTC CGCACCTGGC GCTGCGCATG 
AGCCTGTCCC AGCTGTTTGG CAGCAGCACT GCTGCGCACG TGGTGTGCGG GGGGGTGGCC 
AAGATCTGCA CCGTCCGCTT CCTCCTCTGC CGGGACCTGC TCATCCTCCA GCAGCTCCTG 
CTGCGCCTCG GAGATCCTAT GGTTTTGGGA GGGGGACAGC TCTTCCAGTC CCAGCAGGAC 
TTGCTGCACC GCACCTCTCC CCTGCTGCTG TCCTACTTCC TGATCCGGTG GGCGAGCCAG 
TGCCTGGCCT CTGACGTCCC TGTGGACACG TTGGAATCTA ATCTGCAGCA TCTCTCCGTG 
TTGGAGTTAG CAGACACCAC GGCCCTGACA CCACACAAAC TGGTATCCGG CCCTCAGACA 
ATCGTGGAGC TCTTCTTTCA GGAAGTGGCC AGAAAACACA TCATATCCCG ACTCTTCCTG 
CAACCAAACA CCTCTTTGGC TGAGACAAGT TTGAACTGGC CCCACCTTAT CACCTCAATA 
GTGGCTGATT TTCTTCCTCT CCTATGGCCC AGCAATCCCA GCTTCCTCTT CCCAGAGTGC 
CTGATGGGGA GCTGTCAGTA CACCCAGCTC CAGGAATATA TCCGACTGCT GCAGCCATGG 
TGCCACGTGA ACATAGGCTC CTGCTGCTTT ATGATGGGCA GGTGCTACCT TGTCATGGGT 
GAAGGGCACA AGGCTTTGGA TTGCTTCTGC CAAGCTGCCT CTGAGGTGGG AAGAGAGGAG 
TTCCTGGACA GGCTGATCCA GCCCGAGGAG GGTGAGGTGG TCTCCACGCC ACGCCTGCAG 
TACTACAACA AGGTCCTTCG CTTGTTGGAG ATGCTGGGTT TGCCAGAGCT GGTCATCGAG 
CTGGCCACCC TGGCCATCAT GGAATCAGCA GATGACTGGA GGAGCCAGGC TACTTTAAGG 
ACCTGCATCT TCAAACATCA TTTGGATTTG GGGCACAACA GTGAAGCCTA TGTAGCCTTA 
ACACAAAACC CAGATCCAAG CAGGCAGCTG GACTGCCTAC GCCAGCTAGT GGTGGTTCTC 
TGCGAGCGAT CCCAGCTCCA GGACCTGGTG GAATTTCCTT ACGTGAACCT GCACAATGAG 
GTCGTTGGGA TCATCGAGTC CCATGCTCGG GCTGTGGATC TGATGACTCA CAACTACTAC 
GAGCTGCTCT ACGCTTTCCA TGTGTACCGG CACAACTACC GGAAAGCTGG AACGGTGATG 
TTTGAGTACG GCATGCGGCT GGGCAGGGAG GTGCGGACGC TCCGAGGGCT CCAGAAACAG 
GGGAATTGTT TCCTGGCTGC CATTAACTGC CTGCGGCTGA TCCGCCCGGA ATACGCCTGG 
ATAGTGCAGC CAGCCTCTGG AGCTGTGTAT GAGCGCCCAG GAGCGTCTCC GAAGAGGAGC 
CACGATGGGG AGTGCATGGC TGTTCCCACC ACTCACCAGA TCGAGATCCT GGAGCTGGAG 
GATTTGGAGA GGGAGTGTCT GCTGGCGCGG ATCCGGCTCA CCCTGGTAGA ACACGACGTG 
TCAGCAGCAG CTGTGGCAGG CAACTCCACG CCCGAGGAAA CAGTGTCTCT GCTGGTCCGG 
GCCGGGCTCT TCGACTCGGC CATCACCCTC TGCCAAACCT TCAAGCTGCC CTTGACACCC 
ATCTTTGAGG GCCTGACCTT CAAGTGCATC AAGCTCCAGC TGGGAGGGGA AGCGGCACAG 
GCCAAGGCCT GGGACTGGCT GGCAGCCAAC CAACTCTCAG CCCTGGTCAC CACCAAGGAG 
TCCAGTGCCA CAGATGAAGC CTGGAGGCTG CTGTCATCCT ACTTGGAGCG TTACCCATCC 
CAGAACAGCC TGTACCATCG CTGTGTCATC AACAAGCTCC TGGCACATGG GATACCTCTG 
CCCAACTGGC TCATTAACAG CTACAAGGAA GTGGATGCTG CCGAGCTGCT GCGCCTGTAC 
CTGAGCTACG ATCTGCTGGA GGAGGCTGTG GATTTGGTCC TGGAGTATGT GGATGCTGTG 
CTGGGCAAAG GTCACCAGTA TTTTGGGATC GAGGTCCCTC TGTCCCCAGT GTCCCCCACG 
ATGTGGCTTC CCTACACTGC CATTGACCAG CTGCTGCAGG CGCTGCGGGA GAGCAGCGCC 
AGCGAGAACA GTGTCGTGCT CTACGAGAAG CTGAACGACA AGATGGAGGA CTACCAGCAG 
AAGGTCAGCG TGGCCACCAC GGAGCGCCTG TACTGCCGGC CCTAG

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

RefSeq	XP_030131250.1
CDS	11..4195
Translation	MAAALAARSCLELSAAGRAPPRPPQELLFVPPGVAPLPAGRYGDSAGGFCYQESAQLGAATRNRWVRWSTSGDTVELVEESLDVNLLNNAVRLRIQGCPFLPGGIHLCEVQSHLVVLLLTAQTVHRLLLPHPARLYRSELITESQVQSVFTDISKIHIRDPSNYYVIPSVPGLAPNSVASAAWLSSEGEALFALPSASGGIFVLKLPPPDAPGSVSVVELKQSSVVQRFLTGWMPTAIRGDGGPSDVPVSLSVHCLDHDAFLFALCQDHKLRMWSYKDQMCLMVADLLEFMPVSRDLRLAAGTGHRLRLAFSQSLGLYLGVYMHAPKRGQFCVFQLVSTESNRYSLDHISSLFSSQETLVDFALTSAEIWALWHNEENQTVVKYINFEQNVAGQWNQVFVQPLPEEEVTVRQDQDPREIYLEYLFMPGRFTNAAIQKALQIFSQGTERHMDLTWDELRKEVTLAVENEFQGSVTEYECSPEEFWQLQVEFWSKFYACCLQYQEALSRPLALHLNPYTSMVCLLKKGSMSFLVPCSLVDHLYLLSNEHFLTEDDAAIFEDLEMSRDVVCLVQCLRLIGESISMEMAFIMEMACSRLQPPEKAAEQILENLIANDTENVMEDIHSKLQEIRNPIHAIGLLIREMDYETDADMERAPHLALRMSLSQLFGSSTAAHVVCGGVAKICTVRFLLCRDLLILQQLLLRLGDPMVLGGGQLFQSQQDLLHRTSPLLLSYFLIRWASQCLASDVPVDTLESNLQHLSVLELADTTALTPHKLVSGPQTIVELFFQEVARKHIISRLFLQPNTSLAETSLNWPHLITSIVADFLPLLWPSNPSFLFPECLMGSCQYTQLQEYIRLLQPWCHVNIGSCCFMMGRCYLVMGEGHKALDCFCQAASEVGREEFLDRLIQPEEGEVVSTPRLQYYNKVLRLLEMLGLPELVIELATLAIMESADDWRSQATLRTCIFKHHLDLGHNSEAYVALTQNPDPSRQLDCLRQLVVVLCERSQLQDLVEFPYVNLHNEVVGIIESHARAVDLMTHNYYELLYAFHVYRHNYRKAGTVMFEYGMRLGREVRTLRGLQKQGNCFLAAINCLRLIRPEYAWIVQPASGAVYERPGASPKRSHDGECMAVPTTHQIEILELEDLERECLLARIRLTLVEHDVSAAAVAGNSTPEETVSLLVRAGLFDSAITLCQTFKLPLTPIFEGLTFKCIKLQLGGEAAQAKAWDWLAANQLSALVTTKESSATDEAWRLLSSYLERYPSQNSLYHRCVINKLLAHGIPLPNWLINSYKEVDAAELLRLYLSYDLLEEAVDLVLEYVDAVLGKGHQYFGIEVPLSPVSPTMWLPYTAIDQLLQALRESSASENSVVLYEKLNDKMEDYQQKVSVATTERLYCRP

Target ORF information:

RefSeq Version	XM_030275390.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata nucleoporin 160 (NUP160), mRNA.

Target ORF information:

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

XM_030275390.1

ORF Insert Sequence:

ATGGCGGCGG CTCTGGCGGC GCGGAGCTGC CTGGAGCTGA GCGCGGCCGG CCGGGCCCCG 
CCGCGACCCC CGCAGGAGCT GCTCTTCGTG CCCCCCGGCG TCGCCCCGCT CCCCGCCGGG 
CGCTACGGCG ACAGCGCCGG CGGCTTCTGC TACCAGGAGA GCGCGCAGCT CGGGGCCGCC 
ACCAGGAATC GCTGGGTGCG ATGGAGCACG TCGGGGGACA CGGTGGAGCT GGTGGAGGAG 
TCCCTGGACG TGAACCTGCT GAACAACGCT GTGCGGCTGC GGATCCAGGG CTGCCCGTTC 
CTGCCGGGCG GGATTCACCT GTGCGAGGTG CAGAGTCACC TGGTGGTGCT GCTGCTCACG 
GCACAGACGG TGCACCGGCT GCTGCTCCCG CACCCCGCCC GCCTCTACCG CAGCGAGCTG 
ATAACGGAGA GCCAAGTGCA GTCTGTGTTT ACAGATATCA GCAAAATCCA CATCAGGGAT 
CCCTCCAATT ACTACGTGAT TCCCAGCGTG CCGGGGCTGG CTCCCAACTC TGTGGCCTCT 
GCAGCCTGGC TGAGCAGCGA GGGAGAGGCT CTCTTTGCCC TCCCCTCTGC CTCAGGAGGG 
ATCTTTGTCC TTAAGCTGCC TCCTCCCGAT GCTCCTGGGA GTGTTTCTGT CGTGGAGTTG 
AAGCAGAGCT CGGTGGTGCA GCGTTTCCTC ACAGGCTGGA TGCCAACTGC CATCAGAGGT 
GATGGTGGCC CCTCGGATGT GCCCGTCAGC CTCTCCGTGC ACTGCCTGGA TCACGATGCC 
TTCCTCTTCG CCCTCTGCCA GGACCATAAG CTCCGGATGT GGTCCTACAA GGATCAGATG 
TGCCTGATGG TGGCGGATCT GCTGGAATTC ATGCCGGTCA GCAGGGACCT GCGGCTGGCA 
GCTGGCACCG GGCACCGCCT GCGCCTGGCC TTCTCCCAGT CCCTGGGCCT GTACCTGGGA 
GTCTACATGC ACGCTCCCAA GCGAGGGCAG TTTTGTGTCT TCCAGCTGGT GAGCACTGAG 
AGCAACCGCT ACAGCCTTGA CCACATCTCC TCCCTGTTCT CCTCACAGGA GACTTTGGTT 
GACTTTGCCT TAACCTCAGC CGAGATCTGG GCGCTCTGGC ACAACGAGGA GAATCAAACT 
GTTGTGAAAT ACATCAACTT TGAGCAGAAT GTTGCAGGTC AGTGGAACCA GGTGTTTGTG 
CAGCCGCTCC CTGAGGAGGA GGTGACAGTC CGGCAGGATC AGGACCCCAG GGAAATCTAC 
TTGGAATATC TCTTCATGCC GGGTCGGTTC ACTAATGCAG CTATCCAGAA GGCTTTGCAG 
ATCTTTTCTC AAGGAACTGA GAGGCACATG GATCTGACAT GGGATGAATT AAGGAAAGAG 
GTCACCTTAG CTGTGGAAAA TGAGTTCCAG GGCAGCGTGA CAGAATACGA GTGCTCCCCA 
GAGGAGTTTT GGCAGTTGCA GGTGGAATTC TGGTCCAAGT TCTATGCCTG CTGCCTGCAG 
TACCAGGAAG CTCTTTCCCG GCCCCTGGCC TTGCACCTGA ACCCCTACAC CAGCATGGTG 
TGCCTGCTAA AGAAGGGCTC CATGTCCTTC CTTGTGCCCT GCTCCTTGGT CGATCATCTC 
TATCTCCTCT CCAACGAGCA CTTCCTGACC GAGGATGATG CTGCCATCTT TGAAGATTTG 
GAGATGTCTC GTGATGTTGT CTGTCTTGTC CAGTGCCTTC GCCTGATTGG AGAATCAATT 
TCTATGGAAA TGGCATTCAT CATGGAAATG GCTTGCTCCC GCCTCCAGCC TCCAGAAAAG 
GCTGCAGAGC AGATCCTGGA GAACTTGATA GCTAATGACA CGGAAAATGT GATGGAGGAT 
ATTCACAGCA AACTGCAGGA GATCAGGAAC CCCATCCATG CCATTGGATT GCTCATCCGA 
GAGATGGACT ACGAGACAGA CGCTGACATG GAAAGAGCTC CGCACCTGGC GCTGCGCATG 
AGCCTGTCCC AGCTGTTTGG CAGCAGCACT GCTGCGCACG TGGTGTGCGG GGGGGTGGCC 
AAGATCTGCA CCGTCCGCTT CCTCCTCTGC CGGGACCTGC TCATCCTCCA GCAGCTCCTG 
CTGCGCCTCG GAGATCCTAT GGTTTTGGGA GGGGGACAGC TCTTCCAGTC CCAGCAGGAC 
TTGCTGCACC GCACCTCTCC CCTGCTGCTG TCCTACTTCC TGATCCGGTG GGCGAGCCAG 
TGCCTGGCCT CTGACGTCCC TGTGGACACG TTGGAATCTA ATCTGCAGCA TCTCTCCGTG 
TTGGAGTTAG CAGACACCAC GGCCCTGACA CCACACAAAC TGGTATCCGG CCCTCAGACA 
ATCGTGGAGC TCTTCTTTCA GGAAGTGGCC AGAAAACACA TCATATCCCG ACTCTTCCTG 
CAACCAAACA CCTCTTTGGC TGAGACAAGT TTGAACTGGC CCCACCTTAT CACCTCAATA 
GTGGCTGATT TTCTTCCTCT CCTATGGCCC AGCAATCCCA GCTTCCTCTT CCCAGAGTGC 
CTGATGGGGA GCTGTCAGTA CACCCAGCTC CAGGAATATA TCCGACTGCT GCAGCCATGG 
TGCCACGTGA ACATAGGCTC CTGCTGCTTT ATGATGGGCA GGTGCTACCT TGTCATGGGT 
GAAGGGCACA AGGCTTTGGA TTGCTTCTGC CAAGCTGCCT CTGAGGTGGG AAGAGAGGAG 
TTCCTGGACA GGCTGATCCA GCCCGAGGAG GGTGAGGTGG TCTCCACGCC ACGCCTGCAG 
TACTACAACA AGGTCCTTCG CTTGTTGGAG ATGCTGGGTT TGCCAGAGCT GGTCATCGAG 
CTGGCCACCC TGGCCATCAT GGAATCAGCA GATGACTGGA GGAGCCAGGC TACTTTAAGG 
ACCTGCATCT TCAAACATCA TTTGGATTTG GGGCACAACA GTGAAGCCTA TGTAGCCTTA 
ACACAAAACC CAGATCCAAG CAGGCAGCTG GACTGCCTAC GCCAGCTAGT GGTGGTTCTC 
TGCGAGCGAT CCCAGCTCCA GGACCTGGTG GAATTTCCTT ACGTGAACCT GCACAATGAG 
GTCGTTGGGA TCATCGAGTC CCATGCTCGG GCTGTGGATC TGATGACTCA CAACTACTAC 
GAGCTGCTCT ACGCTTTCCA TGTGTACCGG CACAACTACC GGAAAGCTGG AACGGTGATG 
TTTGAGTACG GCATGCGGCT GGGCAGGGAG GTGCGGACGC TCCGAGGGCT CCAGAAACAG 
GGGAATTGTT TCCTGGCTGC CATTAACTGC CTGCGGCTGA TCCGCCCGGA ATACGCCTGG 
ATAGTGCAGC CAGCCTCTGG AGCTGTGTAT GAGCGCCCAG GAGCGTCTCC GAAGAGGAGC 
CACGATGGGG AGTGCATGGC TGTTCCCACC ACTCACCAGA TCGAGATCCT GGAGCTGGAG 
GATTTGGAGA GGGAGTGTCT GCTGGCGCGG ATCCGGCTCA CCCTGGTAGA ACACGACGTG 
TCAGCAGCAG CTGTGGCAGG CAACTCCACG CCCGAGGAAA CAGTGTCTCT GCTGGTCCGG 
GCCGGGCTCT TCGACTCGGC CATCACCCTC TGCCAAACCT TCAAGCTGCC CTTGACACCC 
ATCTTTGAGG GCCTGACCTT CAAGTGCATC AAGCTCCAGC TGGGAGGGGA AGCGGCACAG 
GCCAAGGCCT GGGACTGGCT GGCAGCCAAC CAACTCTCAG CCCTGGTCAC CACCAAGGAG 
TCCAGTGCCA CAGATGAAGC CTGGAGGCTG CTGTCATCCT ACTTGGAGCG TTACCCATCC 
CAGAACAGCC TGTACCATCG CTGTGTCATC AACAAGCTCC TGGCACATGG GATACCTCTG 
CCCAACTGGC TCATTAACAG CTACAAGGAA GTGGATGCTG CCGAGCTGCT GCGCCTGTAC 
CTGAGCTACG ATCTGCTGGA GGAGGCTGTG GATTTGGTCC TGGAGTATGT GGATGCTGTG 
CTGGGCAAAG GTCACCAGTA TTTTGGGATC GAGGTCCCTC TGTCCCCAGT GTCCCCCACG 
ATGTGGCTTC CCTACACTGC CATTGACCAG CTGCTGCAGG CGCTGCGGGA GAGCAGCGCC 
AGCGAGAACA GTGTCGTGCT CTACGAGAAG CTGAACGACA AGATGGAGGA CTACCAGCAG 
AAGGTCAGCG TGGCCACCAC GGAGCGCCTG TACTGCCGGC CCTAG

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

PubMed

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NUP160 cDNA ORF clone, Taeniopygia guttata(zebra finch)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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