NUP155 cDNA ORF clone, Corvus cornix cornix

Gene
Clones
gRNAs

Summary

Gene Symbol	NUP155
Entrez Gene ID	104686615
Full Name	nucleoporin 155
Gene Type	protein-coding
Organism	Corvus cornix cornix

mRNA and Protein(s)

mRNA	Protein	Name
XM_010395182.2	XP_010393484.1	nuclear pore complex protein Nup155 isoform X1
XM_010395183.2	XP_010393485.1	nuclear pore complex protein Nup155 isoform X2

Pathways from BioSystems
Gene Ontology

The following NUP155 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the NUP155 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
OCo101531	XM_010395182.2 Latest version!	Corvus cornix cornix nucleoporin 155 (NUP155), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$797.30 $1139.00
OCo101532	XM_010395183.2 Latest version!	Corvus cornix cornix nucleoporin 155 (NUP155), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$797.30 $1139.00

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)

NUP155 ( XM_010395182.2 ) cDNA ORF clone, Corvus cornix cornix -> XP_010393484.1 Corvus cornix cornix nucleoporin 155 (NUP155), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OCo101531
Clone ID Related Accession (Same CDS sequence)	XM_010395182.2
Accession Version	XM_010395182.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4068bp) 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	2017-03-21
Organism	Corvus cornix cornix
Product	nuclear pore complex protein Nup155 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_018114013.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Nov 29, 2016 this sequence version replaced XM_010395182.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Corvus cornix cornix Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTCAGATA TGGATTATCC TTTACAAGGA CCAGGTATGC TGTCGATACC CAATCTTCCA 
GAAATCAGTT CAGTCCGCCG AGTCCCACTT CCACCAGAGC TAGTGGAGCA GTTTGGACAT 
ATGCAGTGCA ATTGTATGAT GGGAGTATTT CCAGAGATCA GCAGAGCTTG GCTGACCATT 
GACAGTGACA TCTTTATGTG GAACTATGAA GATGGAGGAG ATCTGGCTTA TTTTGATGGC 
CTCAGTGAAA CTATTCTGGC AGTGGGCCTT GTAAAGCCAA AGGCAGGTAT CTTCCAGCCT 
CATGTACGAC ACTTACTTGT TCTGGCTACT CCTGTGGATA TTGTGATTTT AGGGCTTCAT 
TGTTCTAATA TACAGTCAGG TACTGGATCG CTCAATGACA GCATGTCTGG AGGAATGCAG 
CTGCTACCAG ATCCTCTGTA TTCGCTCCCT ACTGACAACA CCTACATCCT GGCAATCACA 
TCTAGTGATA ATGGGCGGAT CTTTTTGGCA GGAAAAGATG GCTGCTTATA TGAAGTAGCA 
TACCAGGCTG AAGCAGGCTG GTTTAGCCAG CGCTGTAGAA AAATCAATCA TTCAAAGAGT 
GCGCTGTCAT TTCTTATTCC TTCATTGCTA CAATTCACAT TCTCAGAGGA TGATCCTGTA 
GTTCAAATTG CCATTGACAA CTCTCGAAAT ATCTTGTACA CTCGCTCAGA AAAAGGAGTC 
CTGCAAGTTT ATGATTTGGG GCAAGATGGT CAAGGAATGA CCAGGGTTAC TTCTCTTTCA 
CAAAATGCTA TAGTTTCTGC TGCAGGGAGC ATTGCCAGAA CAATTGATCG TTCTGTATTT 
AAGCCTATTG TTCAAATAGC AGTGATTGAA AATTCTGAAT CCATAGACTG TCAACTACTA 
GCAATTACAC ATGCAGGTGT CCGACTGTAT TTTAGTACTT CACAATTTAA ACATCCAACA 
GCTCGTCCTT CCATGTTAAC TTTGGTTCAT GTCCGTTTGC CACCTGGATT TTCAGCTTCT 
TCAAACGTAG AGAAGCCTGC AAAGGTTCAC AGAGCTCTTT ATAGCAAAGG GGTCCTGCTG 
ATGGCAGCTT CAGAAAATGA AGATAATGAT ATCCTGTGGT GTGTCAATCA TGATTCTTTC 
CCTTTTCAAA AGCCAATGGT GGAAACACAG ATGACAACCC GTGTTGATGG ACATTCCTGG 
GCTCTTTCTG CTATCGATGA ATTTAAAGTT CAAAAGATTG TAACACCACT AAATAAAGAC 
GTTATTCCCA TTACTGATTC ACCCGTTGTT GTGCAGCAAC ACATGCTGCC ACCTAAGAAG 
TTTGTTCTGC TTTCAGCCCA GGGAAGCTTT ATGTTTCATA AACTCAGACC TGTTGATCAG 
CTGCGTCATC TGCTTGTGAG CAATACAGGT GGAGATGGAG AAGAGATTGA GAGATTTTTT 
AAGTTGCATC AGGAGGATCA GGCCTGTGCC ACTTGCCTTA TTTTGGCCTG TTCTAATGCT 
GCCTGTGATA GAGAAGTATC TGCCTGGGCT ACTCGAGCAT TCTTCAGGTA TGGTGGAGAA 
GCACAAATGA GATTTCCATC AGCTCTGCCT CCTCCCAGCA ACGTTGGACC TATTTTGGGT 
TCTCCTGTTT CTGCAGTAAC AGGTCCAGGT GGAAGATGGC ACCATTCTTC TCCTTCTACT 
TTCTCAGTTT GCTCAAAGGG TTCCCCTTTG ACTGTTGATA GTCCATATTC TAATCCTAGC 
ATTTTGACAT CTGGGCAAGG TTTACAACCT ACTGCTATGT CAACTCCCAT GTTTCCTTCT 
GGAAATTCCA TGTCTCACCC TGGTACATCC ATTAGTGGAA TGATGGGCCC CGAGATAGTA 
TTTTCTGGAA GACACAATGG AATCTGCATA TACTTTGCTC GGATTATAGG AAATATTTGG 
GATGGCAGTA TAGTCGTGGA GCGAGTTTTC AAAAGTGGCA ATCGAGAAGT TGTTGCAATA 
GAAAGCAGTG TTCCATCCCG TATGCTGGAA TGTGTGCTAC AAGAACTAAA AGGTTTACAA 
GAATTTCTGG ATAGAAATTC ACAGTTTGCT ACAGTAGGAG CACTTGGAAA CCCAAGTTTC 
AGCACACCAG CCAATCTACA GCAGAGGCTC CTGGGTTTTA TGCGGCCTGA TGGTGGAAGT 
TCTCAGCAAG TCCAGCAAGA ACTCCAAAGG AAATATCATG CTGAGGCACA GCTAACTGAG 
AAGAACTCAC TTCAAGGCAT CCAGCAGCTT GTTCGCAAAA CCTGCCAGGC ACTGGCTTTA 
TGGAAGTTGC TATGTGAGCA CCAATTCAGT GTTGCTGTAG GTGAGCTTCA GAAGGAACTT 
CAAGAACAAC TAAAGATTAC CGCTTTTAAA GACTTGGTGA TTAGAGACAG AGAGTTGACT 
GGAGCACTCA TTGCATCTCT TATAAACTGT TACATCAGAG ATAATGCTGC TGTGGATGGA 
ATCATTGCCC ATTTGCAAGA TATCTGTCCT CTTCTTTATA GCACTGATGA TGCTGTGTGT 
TCAAAGGCAA ATGAACTTCT TCAGAGGTCT CGACAAGCTC AAAGCAAAAT GGAAAAAGAG 
AAGATGCTGA GGGAGTCACT GAAAGAGTAC CAGAAGATCA GCAATCAAGT AGACCTTGCT 
AATGTTTGTG CACAGTACAG GCAGGTGCGT TTCTATGAGG GAGTAGTAGA GCTCTCTCTT 
ACAGCTGCTG AAAAGAAAGA TCCCCAAGGT CTTGGCCTTC ATTTCTATAA AAATGGAGAA 
CCAGAAGAAG ATGTTGTTGG ACTCCAAGCT TTTCAAGAAA GATTGAACAG CTACAAGTGT 
ATCACTGACA CCCTTCAAGA GTTAGTGAAT CAAAGTAAAG CTGCTCCTCA GTCTCCCAGT 
GTACCCAAAA AGCCAGGTCC TCCAGTGCTG TCCTCTGACC CCAACATGCT AAGCAATGAA 
GAAGCTGGAC ACCATTTTGA ACAAATGCTA AAGCTGGCTC AGCGTTCCAC AGATGAACTC 
TTCAGTATTG CACTTTACAA CTGGTTGATA CAAGCCGACT TGGCGGACAA GCTGTTACAG 
GTTACTGCCC CCTTTTTGGA ACCCTACCTG GTGCGGATGA CCAAGATTGA CCAAAACAAA 
GTCCGCTATA TGGATTTACT CTGGAGATAC TTTGAAAAGA ACAGAAATTT TAGTAATGCT 
GCTAGAGTCT TGGCTAAATT AGCTGACCTC CATAGCACAG AAATTTCTCT TCAGCAGCGT 
CTTGAATACA TTGCACGTGC TATTCTGAGT GCCAAAAGTT CCACTGCCAT ATCCTCTATA 
GCTGCAGATG GTGAATTCCT ACATGAACTA GAAGAGAAAA TGGAAGTTGC CAGGATCCAG 
CTTCAAATAC AAGAAACATT ACAGCGGCAG TATTCGCATC ATTCTTCAGT ACAAGATGCA 
ATCTCCCAGC TTGATGCTGA GTTGATGGAT ATAACCAAGC TGTATGGAGA ATTTGCTGAC 
CCTTTTAAGC TCTCGGAGTG TAAGCTTGCA ATTATACATT GTGCAGGTCA TTCTGATCCT 
ATCTTGGTGC AAACTCTCTG GCAAGAAATC ATTGAAAAAG AGTTGAGCGA CAGTGTATCT 
CTGAGCCCCA CTGACAGAAT GCAAGCGCTT TGTCTGAAGC TGGCATTGCT TGGAAAGATC 
TATGCTGGCA CACCTCGCTA CTTTCCTTTA GATTTCCTAG TGCAGTTTCT AGAGCAACAG 
GTCTGCACTT TGAACTGGGA TGTAGGTTTT GTAACATACA CCATGCAAGA AATTGGAGTG 
CCATTGCCAA GGCTGCTTGA AGTATATGAC CAGCTGTTTA AGGCACGGGA TCCATATTGG 
AATAGAATGA AAAAGCCTTT GCACCTCCTA GAGTGTATTC ATGTATTACT ATCAGGATAT 
GTACAGGATC CCAGCAGAGT ACCTATGAGG CGACGATTCA CAAATGTTTG CTTGGATGCT 
GTTAGTTGCT ACCTGGTTGA ACTTCAGTCT ATGAGCCCCA CGCTAATGGT GCAGACTACT 
ATTGGGAATT TTAAATCTCT ACAGGCCAAG TTAGAACGGC TTCACTGA

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

RefSeq	XP_010393484.1
CDS	16..4083
Translation	MSDMDYPLQGPGMLSIPNLPEISSVRRVPLPPELVEQFGHMQCNCMMGVFPEISRAWLTIDSDIFMWNYEDGGDLAYFDGLSETILAVGLVKPKAGIFQPHVRHLLVLATPVDIVILGLHCSNIQSGTGSLNDSMSGGMQLLPDPLYSLPTDNTYILAITSSDNGRIFLAGKDGCLYEVAYQAEAGWFSQRCRKINHSKSALSFLIPSLLQFTFSEDDPVVQIAIDNSRNILYTRSEKGVLQVYDLGQDGQGMTRVTSLSQNAIVSAAGSIARTIDRSVFKPIVQIAVIENSESIDCQLLAITHAGVRLYFSTSQFKHPTARPSMLTLVHVRLPPGFSASSNVEKPAKVHRALYSKGVLLMAASENEDNDILWCVNHDSFPFQKPMVETQMTTRVDGHSWALSAIDEFKVQKIVTPLNKDVIPITDSPVVVQQHMLPPKKFVLLSAQGSFMFHKLRPVDQLRHLLVSNTGGDGEEIERFFKLHQEDQACATCLILACSNAACDREVSAWATRAFFRYGGEAQMRFPSALPPPSNVGPILGSPVSAVTGPGGRWHHSSPSTFSVCSKGSPLTVDSPYSNPSILTSGQGLQPTAMSTPMFPSGNSMSHPGTSISGMMGPEIVFSGRHNGICIYFARIIGNIWDGSIVVERVFKSGNREVVAIESSVPSRMLECVLQELKGLQEFLDRNSQFATVGALGNPSFSTPANLQQRLLGFMRPDGGSSQQVQQELQRKYHAEAQLTEKNSLQGIQQLVRKTCQALALWKLLCEHQFSVAVGELQKELQEQLKITAFKDLVIRDRELTGALIASLINCYIRDNAAVDGIIAHLQDICPLLYSTDDAVCSKANELLQRSRQAQSKMEKEKMLRESLKEYQKISNQVDLANVCAQYRQVRFYEGVVELSLTAAEKKDPQGLGLHFYKNGEPEEDVVGLQAFQERLNSYKCITDTLQELVNQSKAAPQSPSVPKKPGPPVLSSDPNMLSNEEAGHHFEQMLKLAQRSTDELFSIALYNWLIQADLADKLLQVTAPFLEPYLVRMTKIDQNKVRYMDLLWRYFEKNRNFSNAARVLAKLADLHSTEISLQQRLEYIARAILSAKSSTAISSIAADGEFLHELEEKMEVARIQLQIQETLQRQYSHHSSVQDAISQLDAELMDITKLYGEFADPFKLSECKLAIIHCAGHSDPILVQTLWQEIIEKELSDSVSLSPTDRMQALCLKLALLGKIYAGTPRYFPLDFLVQFLEQQVCTLNWDVGFVTYTMQEIGVPLPRLLEVYDQLFKARDPYWNRMKKPLHLLECIHVLLSGYVQDPSRVPMRRRFTNVCLDAVSCYLVELQSMSPTLMVQTTIGNFKSLQAKLERLH

Target ORF information:

RefSeq Version	XM_010395182.2
Organism	Corvus cornix cornix
Definition	Corvus cornix cornix nucleoporin 155 (NUP155), transcript variant X1, mRNA.

Target ORF information:

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

XM_010395182.2

ORF Insert Sequence:

ATGTCAGATA TGGATTATCC TTTACAAGGA CCAGGTATGC TGTCGATACC CAATCTTCCA 
GAAATCAGTT CAGTCCGCCG AGTCCCACTT CCACCAGAGC TAGTGGAGCA GTTTGGACAT 
ATGCAGTGCA ATTGTATGAT GGGAGTATTT CCAGAGATCA GCAGAGCTTG GCTGACCATT 
GACAGTGACA TCTTTATGTG GAACTATGAA GATGGAGGAG ATCTGGCTTA TTTTGATGGC 
CTCAGTGAAA CTATTCTGGC AGTGGGCCTT GTAAAGCCAA AGGCAGGTAT CTTCCAGCCT 
CATGTACGAC ACTTACTTGT TCTGGCTACT CCTGTGGATA TTGTGATTTT AGGGCTTCAT 
TGTTCTAATA TACAGTCAGG TACTGGATCG CTCAATGACA GCATGTCTGG AGGAATGCAG 
CTGCTACCAG ATCCTCTGTA TTCGCTCCCT ACTGACAACA CCTACATCCT GGCAATCACA 
TCTAGTGATA ATGGGCGGAT CTTTTTGGCA GGAAAAGATG GCTGCTTATA TGAAGTAGCA 
TACCAGGCTG AAGCAGGCTG GTTTAGCCAG CGCTGTAGAA AAATCAATCA TTCAAAGAGT 
GCGCTGTCAT TTCTTATTCC TTCATTGCTA CAATTCACAT TCTCAGAGGA TGATCCTGTA 
GTTCAAATTG CCATTGACAA CTCTCGAAAT ATCTTGTACA CTCGCTCAGA AAAAGGAGTC 
CTGCAAGTTT ATGATTTGGG GCAAGATGGT CAAGGAATGA CCAGGGTTAC TTCTCTTTCA 
CAAAATGCTA TAGTTTCTGC TGCAGGGAGC ATTGCCAGAA CAATTGATCG TTCTGTATTT 
AAGCCTATTG TTCAAATAGC AGTGATTGAA AATTCTGAAT CCATAGACTG TCAACTACTA 
GCAATTACAC ATGCAGGTGT CCGACTGTAT TTTAGTACTT CACAATTTAA ACATCCAACA 
GCTCGTCCTT CCATGTTAAC TTTGGTTCAT GTCCGTTTGC CACCTGGATT TTCAGCTTCT 
TCAAACGTAG AGAAGCCTGC AAAGGTTCAC AGAGCTCTTT ATAGCAAAGG GGTCCTGCTG 
ATGGCAGCTT CAGAAAATGA AGATAATGAT ATCCTGTGGT GTGTCAATCA TGATTCTTTC 
CCTTTTCAAA AGCCAATGGT GGAAACACAG ATGACAACCC GTGTTGATGG ACATTCCTGG 
GCTCTTTCTG CTATCGATGA ATTTAAAGTT CAAAAGATTG TAACACCACT AAATAAAGAC 
GTTATTCCCA TTACTGATTC ACCCGTTGTT GTGCAGCAAC ACATGCTGCC ACCTAAGAAG 
TTTGTTCTGC TTTCAGCCCA GGGAAGCTTT ATGTTTCATA AACTCAGACC TGTTGATCAG 
CTGCGTCATC TGCTTGTGAG CAATACAGGT GGAGATGGAG AAGAGATTGA GAGATTTTTT 
AAGTTGCATC AGGAGGATCA GGCCTGTGCC ACTTGCCTTA TTTTGGCCTG TTCTAATGCT 
GCCTGTGATA GAGAAGTATC TGCCTGGGCT ACTCGAGCAT TCTTCAGGTA TGGTGGAGAA 
GCACAAATGA GATTTCCATC AGCTCTGCCT CCTCCCAGCA ACGTTGGACC TATTTTGGGT 
TCTCCTGTTT CTGCAGTAAC AGGTCCAGGT GGAAGATGGC ACCATTCTTC TCCTTCTACT 
TTCTCAGTTT GCTCAAAGGG TTCCCCTTTG ACTGTTGATA GTCCATATTC TAATCCTAGC 
ATTTTGACAT CTGGGCAAGG TTTACAACCT ACTGCTATGT CAACTCCCAT GTTTCCTTCT 
GGAAATTCCA TGTCTCACCC TGGTACATCC ATTAGTGGAA TGATGGGCCC CGAGATAGTA 
TTTTCTGGAA GACACAATGG AATCTGCATA TACTTTGCTC GGATTATAGG AAATATTTGG 
GATGGCAGTA TAGTCGTGGA GCGAGTTTTC AAAAGTGGCA ATCGAGAAGT TGTTGCAATA 
GAAAGCAGTG TTCCATCCCG TATGCTGGAA TGTGTGCTAC AAGAACTAAA AGGTTTACAA 
GAATTTCTGG ATAGAAATTC ACAGTTTGCT ACAGTAGGAG CACTTGGAAA CCCAAGTTTC 
AGCACACCAG CCAATCTACA GCAGAGGCTC CTGGGTTTTA TGCGGCCTGA TGGTGGAAGT 
TCTCAGCAAG TCCAGCAAGA ACTCCAAAGG AAATATCATG CTGAGGCACA GCTAACTGAG 
AAGAACTCAC TTCAAGGCAT CCAGCAGCTT GTTCGCAAAA CCTGCCAGGC ACTGGCTTTA 
TGGAAGTTGC TATGTGAGCA CCAATTCAGT GTTGCTGTAG GTGAGCTTCA GAAGGAACTT 
CAAGAACAAC TAAAGATTAC CGCTTTTAAA GACTTGGTGA TTAGAGACAG AGAGTTGACT 
GGAGCACTCA TTGCATCTCT TATAAACTGT TACATCAGAG ATAATGCTGC TGTGGATGGA 
ATCATTGCCC ATTTGCAAGA TATCTGTCCT CTTCTTTATA GCACTGATGA TGCTGTGTGT 
TCAAAGGCAA ATGAACTTCT TCAGAGGTCT CGACAAGCTC AAAGCAAAAT GGAAAAAGAG 
AAGATGCTGA GGGAGTCACT GAAAGAGTAC CAGAAGATCA GCAATCAAGT AGACCTTGCT 
AATGTTTGTG CACAGTACAG GCAGGTGCGT TTCTATGAGG GAGTAGTAGA GCTCTCTCTT 
ACAGCTGCTG AAAAGAAAGA TCCCCAAGGT CTTGGCCTTC ATTTCTATAA AAATGGAGAA 
CCAGAAGAAG ATGTTGTTGG ACTCCAAGCT TTTCAAGAAA GATTGAACAG CTACAAGTGT 
ATCACTGACA CCCTTCAAGA GTTAGTGAAT CAAAGTAAAG CTGCTCCTCA GTCTCCCAGT 
GTACCCAAAA AGCCAGGTCC TCCAGTGCTG TCCTCTGACC CCAACATGCT AAGCAATGAA 
GAAGCTGGAC ACCATTTTGA ACAAATGCTA AAGCTGGCTC AGCGTTCCAC AGATGAACTC 
TTCAGTATTG CACTTTACAA CTGGTTGATA CAAGCCGACT TGGCGGACAA GCTGTTACAG 
GTTACTGCCC CCTTTTTGGA ACCCTACCTG GTGCGGATGA CCAAGATTGA CCAAAACAAA 
GTCCGCTATA TGGATTTACT CTGGAGATAC TTTGAAAAGA ACAGAAATTT TAGTAATGCT 
GCTAGAGTCT TGGCTAAATT AGCTGACCTC CATAGCACAG AAATTTCTCT TCAGCAGCGT 
CTTGAATACA TTGCACGTGC TATTCTGAGT GCCAAAAGTT CCACTGCCAT ATCCTCTATA 
GCTGCAGATG GTGAATTCCT ACATGAACTA GAAGAGAAAA TGGAAGTTGC CAGGATCCAG 
CTTCAAATAC AAGAAACATT ACAGCGGCAG TATTCGCATC ATTCTTCAGT ACAAGATGCA 
ATCTCCCAGC TTGATGCTGA GTTGATGGAT ATAACCAAGC TGTATGGAGA ATTTGCTGAC 
CCTTTTAAGC TCTCGGAGTG TAAGCTTGCA ATTATACATT GTGCAGGTCA TTCTGATCCT 
ATCTTGGTGC AAACTCTCTG GCAAGAAATC ATTGAAAAAG AGTTGAGCGA CAGTGTATCT 
CTGAGCCCCA CTGACAGAAT GCAAGCGCTT TGTCTGAAGC TGGCATTGCT TGGAAAGATC 
TATGCTGGCA CACCTCGCTA CTTTCCTTTA GATTTCCTAG TGCAGTTTCT AGAGCAACAG 
GTCTGCACTT TGAACTGGGA TGTAGGTTTT GTAACATACA CCATGCAAGA AATTGGAGTG 
CCATTGCCAA GGCTGCTTGA AGTATATGAC CAGCTGTTTA AGGCACGGGA TCCATATTGG 
AATAGAATGA AAAAGCCTTT GCACCTCCTA GAGTGTATTC ATGTATTACT ATCAGGATAT 
GTACAGGATC CCAGCAGAGT ACCTATGAGG CGACGATTCA CAAATGTTTG CTTGGATGCT 
GTTAGTTGCT ACCTGGTTGA ACTTCAGTCT ATGAGCCCCA CGCTAATGGT GCAGACTACT 
ATTGGGAATT TTAAATCTCT ACAGGCCAAG TTAGAACGGC TTCACTGA

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

NUP155 ( XM_010395183.2 ) cDNA ORF clone, Corvus cornix cornix -> XP_010393485.1 Corvus cornix cornix nucleoporin 155 (NUP155), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OCo101532
Clone ID Related Accession (Same CDS sequence)	XM_010395183.2
Accession Version	XM_010395183.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4005bp) 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	2017-03-21
Organism	Corvus cornix cornix
Product	nuclear pore complex protein Nup155 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_018114013.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Nov 29, 2016 this sequence version replaced XM_010395183.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Corvus cornix cornix Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTCAGATA TGGATTATCC TTTACAAGGA CCAGGTATGC TGTCGATACC CAATCTTCCA 
GAAATCAGTT CAGTCCGCCG AGTCCCACTT CCACCAGAGC TAGTGGAGCA GTTTGGACAT 
ATGCAGTGCA ATTGTATGAT GGGAGTATTT CCAGAGATCA GCAGAGCTTG GCTGACCATT 
GACAGTGACA TCTTTATGTG GAACTATGAA GATGGAGGAG ATCTGGCTTA TTTTGATGGC 
CTCAGTGAAA CTATTCTGGC AGTGGGCCTT GTAAAGCCAA AGGCAGGTAT CTTCCAGCCT 
CATGTACGAC ACTTACTTGT TCTGGCTACT CCTGTGGATA TTGTGATTTT AGGGCTTCAT 
TGTTCTAATA TACAGTCAGG TACTGGATCG CTCAATGACA GCATGTCTGG AGGAATGCAG 
CTGCTACCAG ATCCTCTGTA TTCGCTCCCT ACTGACAACA CCTACATCCT GGCAATCACA 
TCTAGTGATA ATGGGCGGAT CTTTTTGGCA GGAAAAGATG GCTGCTTATA TGAAGTAGCA 
TACCAGGCTG AAGCAGGCTG GTTTAGCCAG CGCTGTAGAA AAATCAATCA TTCAAAGAGT 
GCGCTGTCAT TTCTTATTCC TTCATTGCTA CAATTCACAT TCTCAGAGGA TGATCCTGTA 
GTTCAAATTG CCATTGACAA CTCTCGAAAT ATCTTGTACA CTCGCTCAGA AAAAGGAGTC 
CTGCAAGTTT ATGATTTGGG GCAAGATGGT CAAGGAATGA CCAGGGTTAC TTCTCTTTCA 
CAAAATGCTA TAGTTTCTGC TGCAGGGAGC ATTGCCAGAA CAATTGATCG TTCTGTATTT 
AAGCCTATTG TTCAAATAGC AGTGATTGAA AATTCTGAAT CCATAGACTG TCAACTACTA 
GCAATTACAC ATGCAGGTGT CCGACTGTAT TTTAGTACTT CACAATTTAA ACATCCAACA 
GCTCGTCCTT CCATGTTAAC TTTGGTTCAT GTCCGTTTGC CACCTGGATT TTCAGCTTCT 
TCAAACGTAG AGAAGCCTGC AAAGGTTCAC AGAGCTCTTT ATAGCAAAGG GGTCCTGCTG 
ATGGCAGCTT CAGAAAATGA AGATAATGAT ATCCTGTGGT GTGTCAATCA TGATTCTTTC 
CCTTTTCAAA AGCCAATGGT GGAAACACAG ATGACAACCC GTGTTGATGG ACATTCCTGG 
GCTCTTTCTG CTATCGATGA ATTTAAAGTT CAAAAGATTG TAACACCACT AAATAAAGAC 
GTTATTCCCA TTACTGATTC ACCCGTTGTT GTGCAGCAAC ACATGCTGCC ACCTAAGAAG 
TTTGTTCTGC TTTCAGCCCA GGGAAGCTTT ATGTTTCATA AACTCAGACC TGTTGATCAG 
CTGCGTCATC TGCTTGTGAG CAATACAGGT GGAGATGGAG AAGAGATTGA GAGATTTTTT 
AAGTTGCATC AGGAGGATCA GGCCTGTGCC ACTTGCCTTA TTTTGGCCTG TTCTAATGCT 
GCCTGTGATA GAGAAGTATC TGCCTGGGCT ACTCGAGCAT TCTTCAGGTA TGGTGGAGAA 
GCACAAATGA GATTTCCATC AGCTCTGCCT CCTCCCAGCA ACGTTGGACC TATTTTGGGT 
TCTCCTGTTT CTGCAGGTTC CCCTTTGACT GTTGATAGTC CATATTCTAA TCCTAGCATT 
TTGACATCTG GGCAAGGTTT ACAACCTACT GCTATGTCAA CTCCCATGTT TCCTTCTGGA 
AATTCCATGT CTCACCCTGG TACATCCATT AGTGGAATGA TGGGCCCCGA GATAGTATTT 
TCTGGAAGAC ACAATGGAAT CTGCATATAC TTTGCTCGGA TTATAGGAAA TATTTGGGAT 
GGCAGTATAG TCGTGGAGCG AGTTTTCAAA AGTGGCAATC GAGAAGTTGT TGCAATAGAA 
AGCAGTGTTC CATCCCGTAT GCTGGAATGT GTGCTACAAG AACTAAAAGG TTTACAAGAA 
TTTCTGGATA GAAATTCACA GTTTGCTACA GTAGGAGCAC TTGGAAACCC AAGTTTCAGC 
ACACCAGCCA ATCTACAGCA GAGGCTCCTG GGTTTTATGC GGCCTGATGG TGGAAGTTCT 
CAGCAAGTCC AGCAAGAACT CCAAAGGAAA TATCATGCTG AGGCACAGCT AACTGAGAAG 
AACTCACTTC AAGGCATCCA GCAGCTTGTT CGCAAAACCT GCCAGGCACT GGCTTTATGG 
AAGTTGCTAT GTGAGCACCA ATTCAGTGTT GCTGTAGGTG AGCTTCAGAA GGAACTTCAA 
GAACAACTAA AGATTACCGC TTTTAAAGAC TTGGTGATTA GAGACAGAGA GTTGACTGGA 
GCACTCATTG CATCTCTTAT AAACTGTTAC ATCAGAGATA ATGCTGCTGT GGATGGAATC 
ATTGCCCATT TGCAAGATAT CTGTCCTCTT CTTTATAGCA CTGATGATGC TGTGTGTTCA 
AAGGCAAATG AACTTCTTCA GAGGTCTCGA CAAGCTCAAA GCAAAATGGA AAAAGAGAAG 
ATGCTGAGGG AGTCACTGAA AGAGTACCAG AAGATCAGCA ATCAAGTAGA CCTTGCTAAT 
GTTTGTGCAC AGTACAGGCA GGTGCGTTTC TATGAGGGAG TAGTAGAGCT CTCTCTTACA 
GCTGCTGAAA AGAAAGATCC CCAAGGTCTT GGCCTTCATT TCTATAAAAA TGGAGAACCA 
GAAGAAGATG TTGTTGGACT CCAAGCTTTT CAAGAAAGAT TGAACAGCTA CAAGTGTATC 
ACTGACACCC TTCAAGAGTT AGTGAATCAA AGTAAAGCTG CTCCTCAGTC TCCCAGTGTA 
CCCAAAAAGC CAGGTCCTCC AGTGCTGTCC TCTGACCCCA ACATGCTAAG CAATGAAGAA 
GCTGGACACC ATTTTGAACA AATGCTAAAG CTGGCTCAGC GTTCCACAGA TGAACTCTTC 
AGTATTGCAC TTTACAACTG GTTGATACAA GCCGACTTGG CGGACAAGCT GTTACAGGTT 
ACTGCCCCCT TTTTGGAACC CTACCTGGTG CGGATGACCA AGATTGACCA AAACAAAGTC 
CGCTATATGG ATTTACTCTG GAGATACTTT GAAAAGAACA GAAATTTTAG TAATGCTGCT 
AGAGTCTTGG CTAAATTAGC TGACCTCCAT AGCACAGAAA TTTCTCTTCA GCAGCGTCTT 
GAATACATTG CACGTGCTAT TCTGAGTGCC AAAAGTTCCA CTGCCATATC CTCTATAGCT 
GCAGATGGTG AATTCCTACA TGAACTAGAA GAGAAAATGG AAGTTGCCAG GATCCAGCTT 
CAAATACAAG AAACATTACA GCGGCAGTAT TCGCATCATT CTTCAGTACA AGATGCAATC 
TCCCAGCTTG ATGCTGAGTT GATGGATATA ACCAAGCTGT ATGGAGAATT TGCTGACCCT 
TTTAAGCTCT CGGAGTGTAA GCTTGCAATT ATACATTGTG CAGGTCATTC TGATCCTATC 
TTGGTGCAAA CTCTCTGGCA AGAAATCATT GAAAAAGAGT TGAGCGACAG TGTATCTCTG 
AGCCCCACTG ACAGAATGCA AGCGCTTTGT CTGAAGCTGG CATTGCTTGG AAAGATCTAT 
GCTGGCACAC CTCGCTACTT TCCTTTAGAT TTCCTAGTGC AGTTTCTAGA GCAACAGGTC 
TGCACTTTGA ACTGGGATGT AGGTTTTGTA ACATACACCA TGCAAGAAAT TGGAGTGCCA 
TTGCCAAGGC TGCTTGAAGT ATATGACCAG CTGTTTAAGG CACGGGATCC ATATTGGAAT 
AGAATGAAAA AGCCTTTGCA CCTCCTAGAG TGTATTCATG TATTACTATC AGGATATGTA 
CAGGATCCCA GCAGAGTACC TATGAGGCGA CGATTCACAA ATGTTTGCTT GGATGCTGTT 
AGTTGCTACC TGGTTGAACT TCAGTCTATG AGCCCCACGC TAATGGTGCA GACTACTATT 
GGGAATTTTA AATCTCTACA GGCCAAGTTA GAACGGCTTC ACTGA

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

RefSeq	XP_010393485.1
CDS	16..4020
Translation	MSDMDYPLQGPGMLSIPNLPEISSVRRVPLPPELVEQFGHMQCNCMMGVFPEISRAWLTIDSDIFMWNYEDGGDLAYFDGLSETILAVGLVKPKAGIFQPHVRHLLVLATPVDIVILGLHCSNIQSGTGSLNDSMSGGMQLLPDPLYSLPTDNTYILAITSSDNGRIFLAGKDGCLYEVAYQAEAGWFSQRCRKINHSKSALSFLIPSLLQFTFSEDDPVVQIAIDNSRNILYTRSEKGVLQVYDLGQDGQGMTRVTSLSQNAIVSAAGSIARTIDRSVFKPIVQIAVIENSESIDCQLLAITHAGVRLYFSTSQFKHPTARPSMLTLVHVRLPPGFSASSNVEKPAKVHRALYSKGVLLMAASENEDNDILWCVNHDSFPFQKPMVETQMTTRVDGHSWALSAIDEFKVQKIVTPLNKDVIPITDSPVVVQQHMLPPKKFVLLSAQGSFMFHKLRPVDQLRHLLVSNTGGDGEEIERFFKLHQEDQACATCLILACSNAACDREVSAWATRAFFRYGGEAQMRFPSALPPPSNVGPILGSPVSAGSPLTVDSPYSNPSILTSGQGLQPTAMSTPMFPSGNSMSHPGTSISGMMGPEIVFSGRHNGICIYFARIIGNIWDGSIVVERVFKSGNREVVAIESSVPSRMLECVLQELKGLQEFLDRNSQFATVGALGNPSFSTPANLQQRLLGFMRPDGGSSQQVQQELQRKYHAEAQLTEKNSLQGIQQLVRKTCQALALWKLLCEHQFSVAVGELQKELQEQLKITAFKDLVIRDRELTGALIASLINCYIRDNAAVDGIIAHLQDICPLLYSTDDAVCSKANELLQRSRQAQSKMEKEKMLRESLKEYQKISNQVDLANVCAQYRQVRFYEGVVELSLTAAEKKDPQGLGLHFYKNGEPEEDVVGLQAFQERLNSYKCITDTLQELVNQSKAAPQSPSVPKKPGPPVLSSDPNMLSNEEAGHHFEQMLKLAQRSTDELFSIALYNWLIQADLADKLLQVTAPFLEPYLVRMTKIDQNKVRYMDLLWRYFEKNRNFSNAARVLAKLADLHSTEISLQQRLEYIARAILSAKSSTAISSIAADGEFLHELEEKMEVARIQLQIQETLQRQYSHHSSVQDAISQLDAELMDITKLYGEFADPFKLSECKLAIIHCAGHSDPILVQTLWQEIIEKELSDSVSLSPTDRMQALCLKLALLGKIYAGTPRYFPLDFLVQFLEQQVCTLNWDVGFVTYTMQEIGVPLPRLLEVYDQLFKARDPYWNRMKKPLHLLECIHVLLSGYVQDPSRVPMRRRFTNVCLDAVSCYLVELQSMSPTLMVQTTIGNFKSLQAKLERLH

Target ORF information:

RefSeq Version	XM_010395183.2
Organism	Corvus cornix cornix
Definition	Corvus cornix cornix nucleoporin 155 (NUP155), transcript variant X2, mRNA.

Target ORF information:

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

XM_010395183.2

ORF Insert Sequence:

ATGTCAGATA TGGATTATCC TTTACAAGGA CCAGGTATGC TGTCGATACC CAATCTTCCA 
GAAATCAGTT CAGTCCGCCG AGTCCCACTT CCACCAGAGC TAGTGGAGCA GTTTGGACAT 
ATGCAGTGCA ATTGTATGAT GGGAGTATTT CCAGAGATCA GCAGAGCTTG GCTGACCATT 
GACAGTGACA TCTTTATGTG GAACTATGAA GATGGAGGAG ATCTGGCTTA TTTTGATGGC 
CTCAGTGAAA CTATTCTGGC AGTGGGCCTT GTAAAGCCAA AGGCAGGTAT CTTCCAGCCT 
CATGTACGAC ACTTACTTGT TCTGGCTACT CCTGTGGATA TTGTGATTTT AGGGCTTCAT 
TGTTCTAATA TACAGTCAGG TACTGGATCG CTCAATGACA GCATGTCTGG AGGAATGCAG 
CTGCTACCAG ATCCTCTGTA TTCGCTCCCT ACTGACAACA CCTACATCCT GGCAATCACA 
TCTAGTGATA ATGGGCGGAT CTTTTTGGCA GGAAAAGATG GCTGCTTATA TGAAGTAGCA 
TACCAGGCTG AAGCAGGCTG GTTTAGCCAG CGCTGTAGAA AAATCAATCA TTCAAAGAGT 
GCGCTGTCAT TTCTTATTCC TTCATTGCTA CAATTCACAT TCTCAGAGGA TGATCCTGTA 
GTTCAAATTG CCATTGACAA CTCTCGAAAT ATCTTGTACA CTCGCTCAGA AAAAGGAGTC 
CTGCAAGTTT ATGATTTGGG GCAAGATGGT CAAGGAATGA CCAGGGTTAC TTCTCTTTCA 
CAAAATGCTA TAGTTTCTGC TGCAGGGAGC ATTGCCAGAA CAATTGATCG TTCTGTATTT 
AAGCCTATTG TTCAAATAGC AGTGATTGAA AATTCTGAAT CCATAGACTG TCAACTACTA 
GCAATTACAC ATGCAGGTGT CCGACTGTAT TTTAGTACTT CACAATTTAA ACATCCAACA 
GCTCGTCCTT CCATGTTAAC TTTGGTTCAT GTCCGTTTGC CACCTGGATT TTCAGCTTCT 
TCAAACGTAG AGAAGCCTGC AAAGGTTCAC AGAGCTCTTT ATAGCAAAGG GGTCCTGCTG 
ATGGCAGCTT CAGAAAATGA AGATAATGAT ATCCTGTGGT GTGTCAATCA TGATTCTTTC 
CCTTTTCAAA AGCCAATGGT GGAAACACAG ATGACAACCC GTGTTGATGG ACATTCCTGG 
GCTCTTTCTG CTATCGATGA ATTTAAAGTT CAAAAGATTG TAACACCACT AAATAAAGAC 
GTTATTCCCA TTACTGATTC ACCCGTTGTT GTGCAGCAAC ACATGCTGCC ACCTAAGAAG 
TTTGTTCTGC TTTCAGCCCA GGGAAGCTTT ATGTTTCATA AACTCAGACC TGTTGATCAG 
CTGCGTCATC TGCTTGTGAG CAATACAGGT GGAGATGGAG AAGAGATTGA GAGATTTTTT 
AAGTTGCATC AGGAGGATCA GGCCTGTGCC ACTTGCCTTA TTTTGGCCTG TTCTAATGCT 
GCCTGTGATA GAGAAGTATC TGCCTGGGCT ACTCGAGCAT TCTTCAGGTA TGGTGGAGAA 
GCACAAATGA GATTTCCATC AGCTCTGCCT CCTCCCAGCA ACGTTGGACC TATTTTGGGT 
TCTCCTGTTT CTGCAGGTTC CCCTTTGACT GTTGATAGTC CATATTCTAA TCCTAGCATT 
TTGACATCTG GGCAAGGTTT ACAACCTACT GCTATGTCAA CTCCCATGTT TCCTTCTGGA 
AATTCCATGT CTCACCCTGG TACATCCATT AGTGGAATGA TGGGCCCCGA GATAGTATTT 
TCTGGAAGAC ACAATGGAAT CTGCATATAC TTTGCTCGGA TTATAGGAAA TATTTGGGAT 
GGCAGTATAG TCGTGGAGCG AGTTTTCAAA AGTGGCAATC GAGAAGTTGT TGCAATAGAA 
AGCAGTGTTC CATCCCGTAT GCTGGAATGT GTGCTACAAG AACTAAAAGG TTTACAAGAA 
TTTCTGGATA GAAATTCACA GTTTGCTACA GTAGGAGCAC TTGGAAACCC AAGTTTCAGC 
ACACCAGCCA ATCTACAGCA GAGGCTCCTG GGTTTTATGC GGCCTGATGG TGGAAGTTCT 
CAGCAAGTCC AGCAAGAACT CCAAAGGAAA TATCATGCTG AGGCACAGCT AACTGAGAAG 
AACTCACTTC AAGGCATCCA GCAGCTTGTT CGCAAAACCT GCCAGGCACT GGCTTTATGG 
AAGTTGCTAT GTGAGCACCA ATTCAGTGTT GCTGTAGGTG AGCTTCAGAA GGAACTTCAA 
GAACAACTAA AGATTACCGC TTTTAAAGAC TTGGTGATTA GAGACAGAGA GTTGACTGGA 
GCACTCATTG CATCTCTTAT AAACTGTTAC ATCAGAGATA ATGCTGCTGT GGATGGAATC 
ATTGCCCATT TGCAAGATAT CTGTCCTCTT CTTTATAGCA CTGATGATGC TGTGTGTTCA 
AAGGCAAATG AACTTCTTCA GAGGTCTCGA CAAGCTCAAA GCAAAATGGA AAAAGAGAAG 
ATGCTGAGGG AGTCACTGAA AGAGTACCAG AAGATCAGCA ATCAAGTAGA CCTTGCTAAT 
GTTTGTGCAC AGTACAGGCA GGTGCGTTTC TATGAGGGAG TAGTAGAGCT CTCTCTTACA 
GCTGCTGAAA AGAAAGATCC CCAAGGTCTT GGCCTTCATT TCTATAAAAA TGGAGAACCA 
GAAGAAGATG TTGTTGGACT CCAAGCTTTT CAAGAAAGAT TGAACAGCTA CAAGTGTATC 
ACTGACACCC TTCAAGAGTT AGTGAATCAA AGTAAAGCTG CTCCTCAGTC TCCCAGTGTA 
CCCAAAAAGC CAGGTCCTCC AGTGCTGTCC TCTGACCCCA ACATGCTAAG CAATGAAGAA 
GCTGGACACC ATTTTGAACA AATGCTAAAG CTGGCTCAGC GTTCCACAGA TGAACTCTTC 
AGTATTGCAC TTTACAACTG GTTGATACAA GCCGACTTGG CGGACAAGCT GTTACAGGTT 
ACTGCCCCCT TTTTGGAACC CTACCTGGTG CGGATGACCA AGATTGACCA AAACAAAGTC 
CGCTATATGG ATTTACTCTG GAGATACTTT GAAAAGAACA GAAATTTTAG TAATGCTGCT 
AGAGTCTTGG CTAAATTAGC TGACCTCCAT AGCACAGAAA TTTCTCTTCA GCAGCGTCTT 
GAATACATTG CACGTGCTAT TCTGAGTGCC AAAAGTTCCA CTGCCATATC CTCTATAGCT 
GCAGATGGTG AATTCCTACA TGAACTAGAA GAGAAAATGG AAGTTGCCAG GATCCAGCTT 
CAAATACAAG AAACATTACA GCGGCAGTAT TCGCATCATT CTTCAGTACA AGATGCAATC 
TCCCAGCTTG ATGCTGAGTT GATGGATATA ACCAAGCTGT ATGGAGAATT TGCTGACCCT 
TTTAAGCTCT CGGAGTGTAA GCTTGCAATT ATACATTGTG CAGGTCATTC TGATCCTATC 
TTGGTGCAAA CTCTCTGGCA AGAAATCATT GAAAAAGAGT TGAGCGACAG TGTATCTCTG 
AGCCCCACTG ACAGAATGCA AGCGCTTTGT CTGAAGCTGG CATTGCTTGG AAAGATCTAT 
GCTGGCACAC CTCGCTACTT TCCTTTAGAT TTCCTAGTGC AGTTTCTAGA GCAACAGGTC 
TGCACTTTGA ACTGGGATGT AGGTTTTGTA ACATACACCA TGCAAGAAAT TGGAGTGCCA 
TTGCCAAGGC TGCTTGAAGT ATATGACCAG CTGTTTAAGG CACGGGATCC ATATTGGAAT 
AGAATGAAAA AGCCTTTGCA CCTCCTAGAG TGTATTCATG TATTACTATC AGGATATGTA 
CAGGATCCCA GCAGAGTACC TATGAGGCGA CGATTCACAA ATGTTTGCTT GGATGCTGTT 
AGTTGCTACC TGGTTGAACT TCAGTCTATG AGCCCCACGC TAATGGTGCA GACTACTATT 
GGGAATTTTA AATCTCTACA GGCCAAGTTA GAACGGCTTC ACTGA