USP19 cDNA ORF clone, Cuculus canorus(common cuckoo)

Gene
Clones
gRNAs

Summary

Gene Symbol	USP19
Entrez Gene ID	104063609
Full Name	ubiquitin specific peptidase 19
Gene Type	protein-coding
Organism	Cuculus canorus(common cuckoo)

mRNA and Protein(s)

mRNA	Protein	Name
XM_009565836.1	XP_009564131.1	ubiquitin carboxyl-terminal hydrolase 19

Pathways from BioSystems
Gene Ontology

The following USP19 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the USP19 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
OCu48773	XM_009565836.1 Latest version!	Cuculus canorus ubiquitin specific peptidase 19 (USP19), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	Quote Price

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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)

USP19 ( XM_009565836.1 ) cDNA ORF clone, Cuculus canorus(common cuckoo) -> XP_009564131.1 Cuculus canorus ubiquitin specific peptidase 19 (USP19), mRNA.

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CloneID	OCu48773
Clone ID Related Accession (Same CDS sequence)	XM_009565836.1
Accession Version	XM_009565836.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4305bp) 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	2014-10-13
Organism	Cuculus canorus(common cuckoo)
Product	ubiquitin carboxyl-terminal hydrolase 19
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_009245955.1) 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 Version :: Cuculus canorus Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTCCAGCA GCACCAATGC CCCTGGCCAG AGGAGAGTGT CTCGGGGCTT GGATGATGCC 
ACCAACAAGA AGAAGCAGAA AGATCGAGCC AACCAGGAGA GCAAGGAAGT GTCTCGCTCA 
GAGCTCGAGC AGGCTGAGAC TGTCCAGGTG AAGGACTCAG AAGAGGAGCT GCTGCTGGAC 
TGGAAGCAGA ATGCCGATGA GATCATCGTC AAGCTGAACT TGGGCAGTGG AGCTCTGAAG 
GTGGAGGATG TGAATGCTTC TTTCACCGAC ACAGACTGTG TAGTCAAACT ACCAGATGGG 
CGTCAGTGGA GCTGTCAATT CTACGAAGAA ATTGAGGGCT CCTGCAGCAA GATCCAGTGC 
AAAAAGGGCA ACTTTCTACA CCTTGTGCTT CAAAAGAAGA TCCCACTCCA TACCTGGTCT 
TCACTTTTGA AGAGAAGGAA AGACGGATCC AAAGAGCTGG CCAAAGGGGC CACGTGCTGG 
GAGAACGGGA AGGAGAAGGC TGCTTCTGCA GAGTTGGCCC CAGAAGAGCC AAGGGCTGAA 
GGCACAGAGC TGCCGAGGTC CCGGCGAGAA CCTTCCAACC CCAAGCGTGC TCCAGGAAGA 
AGCGAGGCCC TGGGAGGGAA AAGCCCAGCC AGCCCAGGGA GGCAGAGTGG CCCCAGCGCC 
AAGCGGGCAG TATACCTCAA AGTGGCTCCC ACTGAAGAGG AGCCAAATGC CAGGGTCACT 
GGGAGTGTGG AGCCCAGCAG AGGGCACAGC GGAAGGGCAG GCACCCGCCG CAATGGCAGA 
TCCAGCCAGA CTGATGTGCC GACAGCGCTC ACGGACCTCG CACCGCCACT GGAGAAGGCT 
GTGGTTTTGG CCAAGGAGAC TGTTCCCATG GAGATGCCAC CTCTCGCAGC TACCACGGAG 
GTGTTCCCCC ACCGTGTTGC CACCTGTGTA GAGAAGAGGG TCCTGCAGCC AGGCAGCCCT 
GCTGAGGCCT TGCGTGGACG GGACTGCACA CCTGTCCTGG GAGAGAGCTC TAAGACTGTC 
ACAGCAGCCA CCCCTCCCCT GGGCAGAGAT GGTGAGAAAA GGGACTGGTC CAAGGATGAC 
GTGGCTCTGG AAGCAGCGGC TGATGAGCCA GAGCCTTTCG TGAGCCTGAC CTTTGTCAAG 
AATGACTCGT ACGAGAAGGG CAATGACCTG GTGGTAGTGC ATGTCTACGT GAAAGAGATC 
CACAAGGAGA CATCCAAGGT GTTGTTCCGG GAGCAAGACT TCACGCTGGT GTTCCAGACG 
AGTGACATGA ACTTCCTTCG CCTCCACCCT GGCTGTGGGC CCCACACAGT GTTCCGGTGG 
CAGGTGAAGC TCAGGAACCT TATTGAGCCG GACCAGTGTA CGTACAACTT CACGGTGTCT 
CGCATTGACG TCTGCCTGAA GAAACGCCAG AGCCAGCGCT GGGGTGGGCT GGAGGCTCCA 
GCCACACGAG GTGCAGTGGG TGGTGCAAAG GTTGCCATGC CTACAGGCCC TACCCCTCTG 
GACAAGAATC CCCCGGGCAG TAACCAGCAC CCACTGTCCA GCAAGGAGGA GGCTCGAGCC 
AGTGACAAAG AGAAACCACG CATGGAAGAT GGGGGCCTGG ATGGTGTGGC AGCCCGTACA 
GCTCCAGAGC ATGTGGCAGT GAAGCAGGAG CCGCACATCC CCTCACCGAA ACCCACGTGC 
ATGGTGCCAC CGATGACACA CAGCCCGGTG AGCACTGAGA GTGTGGAGGA CGATGAGGAT 
GAGGACGAGA AGAAGAAGGT GTGCCTGCCT GGCTTCACGG GGCTGGTGAA CCTGGGCAAC 
ACCTGCTTCA TGAACAGCGT CATCCAGTCC CTGTCCAACA CCCGGGAGCT GCGCGACTAC 
TTCCATGATC GGTCCTTTGA GTCAGAAATC AACTACAACA ACCCTCTGGG GACAGGGGGA 
CGCCTGGCCA TCGGCTTTGC CATGCTGCTG CGAGCACTGT GGAAGGGCAC ACACCATGCC 
TTCCAGCCCT CTAAACTGAA GGCAATCGTG GCCAGCAAGG CCAGCCAGTT CACTGGCTAT 
GCCCAGCATG ACGCTCAGGA GTTCATGGCC TTCCTGCTGG ATGGCCTGCA TGAGGACCTC 
AACCGCATCC AGAACAAGCC CTACACAGAG ACTGTTGACT CAGATGGGAG GCCCGATGAG 
GTAGTAGCTG AGGAGGCCTG GCAGCGACAC AAGATGAGGA ATGACTCTTT CATTGTGGAC 
CTCTTCCAGG GCCAGTACAA ATCCAAGCTG GTGTGCCCGG TGTGTTCCAA GGTGTCCATC 
ACCTTCGACC CCTTCCTGTA CCTCCCCGTG CCCCTCCCAC AGAAGCAGAA GGTGCTGACT 
GTCTACTATT TTGCAAAGGA GCCACACAAG AAACCCATCA AGTTTCTCGT GAGTATAAGC 
AAGGAGAATT CCAGTGCCAT GGAGGTACTT GATTCAGTGG CCCACAGCGT GCGTGTGAAA 
CCAGAGAACC TGCGTCTGGC AGAGGTGATC AAGAATCGCT TCCACCGCAT GTTTCTGCCG 
TCCAACTCAC TGGACACGGT CTCCCCCACG GACCTGCTGC TTTGCTTCGA GGTGCTATCT 
CCAGAGCTGG CCAAGGAACG GGTGGTGGAG CTGCAGGTCC AGCAGCGTCC ACAGGTGCCC 
AGCGGCCCCG TCGCCAAGTG TGCAGCCTGC CAGAAGAAGC AGCTGCCTGA GGATGAGAAG 
CTCAGGCGCT GCACGAGATG CTATCGAGTT GGTTACTGCA ATGTGGCCTG TCAGAAAACA 
CACTGGCCAG ACCACAAGGC TTTGTGCCGC CCTGAGAACA TCGGTTTCCC CTTCCTCATC 
AGTGTGCCGG AGTCCCGCCT CACCTATGCC CGCCTGGCCC AGCTGCTGGA GGGCTATGCA 
AGGTACTCAG TCAGCGTGTT CCAGCCTCCA TTCCAGCTGG GCCGGATGTC GCCGGAGCAG 
GGGCTGCAGC CTATGCTCTC AGACAAGCTG GAGCCCCTGG CCAAGAGCAG CTGTGCAGCA 
GCCACCTCTG TCCCTGATCT GGATAACGGG GACAAGGTTT CCAGCCTTCT GCAGGAGCCC 
CCACTCTCGC CAGCTGTGCC TGAGCTGCAC CCAGAGCAGG CGGATATAGG CACTGTGCGG 
AGCAAGGTCC TGGCAGCTAG GAGTTCCCTG CTGAGCTTGG ATTCAGGCTT CTCTGAGCAC 
ATGGAGTCGC AGGGCGACAG CTGTTGTGAG AAGGAGCCAT CATATGAGAG AGCCCTCAAG 
CCTGAAGCTG CCATCCCTGG GTACCAACAC ACTCCAGACT CGCTGGGTGC CCGCACCACA 
CAGTTCTACA TCAACAAGAT CGATGCTGCC AACCGAGAGC ACAAGCTGGA AGATAAAGGT 
GACACCCCCC TGGAGTTGAC GGATGACTGC TCCCTTGCCC TGGTGTGGAA GAACAATGAG 
CGCCTCAAGG AATTTGTGTT GGTGGAATCC AAGGAGCTGG AGTGCGTGGA GGACCCAGGC 
TCAGCCAGTG AAGCAGCCCG TGCTGGTCAC TTCACCCTGG AGCAGTGCCT CAATCTCTTC 
ACCAAGCCCG AAGTCCTGGC CCCGGAGGAA GCATGGTACT GCCCCAAGTG CAAGCAGCAC 
CGTGAGGCCT CCAAGCAGCT GATGCTGTGG CGGCTGCCCA ACGTCCTCAT CATCCAGCTC 
AAGCGCTTCT CCTTCCGCAG CTTTATTTGG AGGGACAAGA TCAATGACAT GGTGGACTTC 
CCTGTCCGGA GCCTGGACCT GAGCAAGTTC TGCATTGGCC GGAAGGGTGA GCAGCAGCTG 
CCCATGTATG ACCTGTATGC TGTGATCAAC CACTACGGGG GCATGATTGG CGGGCATTAC 
ACGGCGTATG CCCGTCTGCC CAATGACAAG AACAGCCAGC GCAGCGACGT GGGCTGGCGG 
CTCTTTGATG ACAGCACAGT CACCACTGTG GACGAGAGCC AGGTGGTAAC CAGATACGCA 
TATGTCCTCT TCTACCGCCG GAGGAACTCT CCTGTGGAGA GACCCCTGCC AGGGCACCCC 
CCAGATCACC GGGCTGAGCG CACCCCCTCT GCCGAAGCTG CTGCCAGCCA GGCTTCTCTG 
ATCTGGCAGG AACTGGAGGC TGAAGAACAA GAGCTGCAGC TCGAGGCGCC CCAAAGGCCC 
CCAAGAAACT CCTGGAGGCC CCGTGGCCAG AAGCCAAGTC TGGGCAACCC ACAGCACCCT 
AACGAAGGCT GCGTCAGATA CTTCGTCCTG GCCACCACAG CCGCAATTGT GGCTCTCTTC 
CTGAACATCT TCTACCCGCT CATTTACCAG ACCCGCTGGA GATAA

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

RefSeq	XP_009564131.1
CDS	1..4305
Translation	MSSSTNAPGQRRVSRGLDDATNKKKQKDRANQESKEVSRSELEQAETVQVKDSEEELLLDWKQNADEIIVKLNLGSGALKVEDVNASFTDTDCVVKLPDGRQWSCQFYEEIEGSCSKIQCKKGNFLHLVLQKKIPLHTWSSLLKRRKDGSKELAKGATCWENGKEKAASAELAPEEPRAEGTELPRSRREPSNPKRAPGRSEALGGKSPASPGRQSGPSAKRAVYLKVAPTEEEPNARVTGSVEPSRGHSGRAGTRRNGRSSQTDVPTALTDLAPPLEKAVVLAKETVPMEMPPLAATTEVFPHRVATCVEKRVLQPGSPAEALRGRDCTPVLGESSKTVTAATPPLGRDGEKRDWSKDDVALEAAADEPEPFVSLTFVKNDSYEKGNDLVVVHVYVKEIHKETSKVLFREQDFTLVFQTSDMNFLRLHPGCGPHTVFRWQVKLRNLIEPDQCTYNFTVSRIDVCLKKRQSQRWGGLEAPATRGAVGGAKVAMPTGPTPLDKNPPGSNQHPLSSKEEARASDKEKPRMEDGGLDGVAARTAPEHVAVKQEPHIPSPKPTCMVPPMTHSPVSTESVEDDEDEDEKKKVCLPGFTGLVNLGNTCFMNSVIQSLSNTRELRDYFHDRSFESEINYNNPLGTGGRLAIGFAMLLRALWKGTHHAFQPSKLKAIVASKASQFTGYAQHDAQEFMAFLLDGLHEDLNRIQNKPYTETVDSDGRPDEVVAEEAWQRHKMRNDSFIVDLFQGQYKSKLVCPVCSKVSITFDPFLYLPVPLPQKQKVLTVYYFAKEPHKKPIKFLVSISKENSSAMEVLDSVAHSVRVKPENLRLAEVIKNRFHRMFLPSNSLDTVSPTDLLLCFEVLSPELAKERVVELQVQQRPQVPSGPVAKCAACQKKQLPEDEKLRRCTRCYRVGYCNVACQKTHWPDHKALCRPENIGFPFLISVPESRLTYARLAQLLEGYARYSVSVFQPPFQLGRMSPEQGLQPMLSDKLEPLAKSSCAAATSVPDLDNGDKVSSLLQEPPLSPAVPELHPEQADIGTVRSKVLAARSSLLSLDSGFSEHMESQGDSCCEKEPSYERALKPEAAIPGYQHTPDSLGARTTQFYINKIDAANREHKLEDKGDTPLELTDDCSLALVWKNNERLKEFVLVESKELECVEDPGSASEAARAGHFTLEQCLNLFTKPEVLAPEEAWYCPKCKQHREASKQLMLWRLPNVLIIQLKRFSFRSFIWRDKINDMVDFPVRSLDLSKFCIGRKGEQQLPMYDLYAVINHYGGMIGGHYTAYARLPNDKNSQRSDVGWRLFDDSTVTTVDESQVVTRYAYVLFYRRRNSPVERPLPGHPPDHRAERTPSAEAAASQASLIWQELEAEEQELQLEAPQRPPRNSWRPRGQKPSLGNPQHPNEGCVRYFVLATTAAIVALFLNIFYPLIYQTRWR

Target ORF information:

RefSeq Version	XM_009565836.1
Organism	Cuculus canorus(common cuckoo)
Definition	Cuculus canorus ubiquitin specific peptidase 19 (USP19), mRNA.

Target ORF information:

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

XM_009565836.1

ORF Insert Sequence:

ATGTCCAGCA GCACCAATGC CCCTGGCCAG AGGAGAGTGT CTCGGGGCTT GGATGATGCC 
ACCAACAAGA AGAAGCAGAA AGATCGAGCC AACCAGGAGA GCAAGGAAGT GTCTCGCTCA 
GAGCTCGAGC AGGCTGAGAC TGTCCAGGTG AAGGACTCAG AAGAGGAGCT GCTGCTGGAC 
TGGAAGCAGA ATGCCGATGA GATCATCGTC AAGCTGAACT TGGGCAGTGG AGCTCTGAAG 
GTGGAGGATG TGAATGCTTC TTTCACCGAC ACAGACTGTG TAGTCAAACT ACCAGATGGG 
CGTCAGTGGA GCTGTCAATT CTACGAAGAA ATTGAGGGCT CCTGCAGCAA GATCCAGTGC 
AAAAAGGGCA ACTTTCTACA CCTTGTGCTT CAAAAGAAGA TCCCACTCCA TACCTGGTCT 
TCACTTTTGA AGAGAAGGAA AGACGGATCC AAAGAGCTGG CCAAAGGGGC CACGTGCTGG 
GAGAACGGGA AGGAGAAGGC TGCTTCTGCA GAGTTGGCCC CAGAAGAGCC AAGGGCTGAA 
GGCACAGAGC TGCCGAGGTC CCGGCGAGAA CCTTCCAACC CCAAGCGTGC TCCAGGAAGA 
AGCGAGGCCC TGGGAGGGAA AAGCCCAGCC AGCCCAGGGA GGCAGAGTGG CCCCAGCGCC 
AAGCGGGCAG TATACCTCAA AGTGGCTCCC ACTGAAGAGG AGCCAAATGC CAGGGTCACT 
GGGAGTGTGG AGCCCAGCAG AGGGCACAGC GGAAGGGCAG GCACCCGCCG CAATGGCAGA 
TCCAGCCAGA CTGATGTGCC GACAGCGCTC ACGGACCTCG CACCGCCACT GGAGAAGGCT 
GTGGTTTTGG CCAAGGAGAC TGTTCCCATG GAGATGCCAC CTCTCGCAGC TACCACGGAG 
GTGTTCCCCC ACCGTGTTGC CACCTGTGTA GAGAAGAGGG TCCTGCAGCC AGGCAGCCCT 
GCTGAGGCCT TGCGTGGACG GGACTGCACA CCTGTCCTGG GAGAGAGCTC TAAGACTGTC 
ACAGCAGCCA CCCCTCCCCT GGGCAGAGAT GGTGAGAAAA GGGACTGGTC CAAGGATGAC 
GTGGCTCTGG AAGCAGCGGC TGATGAGCCA GAGCCTTTCG TGAGCCTGAC CTTTGTCAAG 
AATGACTCGT ACGAGAAGGG CAATGACCTG GTGGTAGTGC ATGTCTACGT GAAAGAGATC 
CACAAGGAGA CATCCAAGGT GTTGTTCCGG GAGCAAGACT TCACGCTGGT GTTCCAGACG 
AGTGACATGA ACTTCCTTCG CCTCCACCCT GGCTGTGGGC CCCACACAGT GTTCCGGTGG 
CAGGTGAAGC TCAGGAACCT TATTGAGCCG GACCAGTGTA CGTACAACTT CACGGTGTCT 
CGCATTGACG TCTGCCTGAA GAAACGCCAG AGCCAGCGCT GGGGTGGGCT GGAGGCTCCA 
GCCACACGAG GTGCAGTGGG TGGTGCAAAG GTTGCCATGC CTACAGGCCC TACCCCTCTG 
GACAAGAATC CCCCGGGCAG TAACCAGCAC CCACTGTCCA GCAAGGAGGA GGCTCGAGCC 
AGTGACAAAG AGAAACCACG CATGGAAGAT GGGGGCCTGG ATGGTGTGGC AGCCCGTACA 
GCTCCAGAGC ATGTGGCAGT GAAGCAGGAG CCGCACATCC CCTCACCGAA ACCCACGTGC 
ATGGTGCCAC CGATGACACA CAGCCCGGTG AGCACTGAGA GTGTGGAGGA CGATGAGGAT 
GAGGACGAGA AGAAGAAGGT GTGCCTGCCT GGCTTCACGG GGCTGGTGAA CCTGGGCAAC 
ACCTGCTTCA TGAACAGCGT CATCCAGTCC CTGTCCAACA CCCGGGAGCT GCGCGACTAC 
TTCCATGATC GGTCCTTTGA GTCAGAAATC AACTACAACA ACCCTCTGGG GACAGGGGGA 
CGCCTGGCCA TCGGCTTTGC CATGCTGCTG CGAGCACTGT GGAAGGGCAC ACACCATGCC 
TTCCAGCCCT CTAAACTGAA GGCAATCGTG GCCAGCAAGG CCAGCCAGTT CACTGGCTAT 
GCCCAGCATG ACGCTCAGGA GTTCATGGCC TTCCTGCTGG ATGGCCTGCA TGAGGACCTC 
AACCGCATCC AGAACAAGCC CTACACAGAG ACTGTTGACT CAGATGGGAG GCCCGATGAG 
GTAGTAGCTG AGGAGGCCTG GCAGCGACAC AAGATGAGGA ATGACTCTTT CATTGTGGAC 
CTCTTCCAGG GCCAGTACAA ATCCAAGCTG GTGTGCCCGG TGTGTTCCAA GGTGTCCATC 
ACCTTCGACC CCTTCCTGTA CCTCCCCGTG CCCCTCCCAC AGAAGCAGAA GGTGCTGACT 
GTCTACTATT TTGCAAAGGA GCCACACAAG AAACCCATCA AGTTTCTCGT GAGTATAAGC 
AAGGAGAATT CCAGTGCCAT GGAGGTACTT GATTCAGTGG CCCACAGCGT GCGTGTGAAA 
CCAGAGAACC TGCGTCTGGC AGAGGTGATC AAGAATCGCT TCCACCGCAT GTTTCTGCCG 
TCCAACTCAC TGGACACGGT CTCCCCCACG GACCTGCTGC TTTGCTTCGA GGTGCTATCT 
CCAGAGCTGG CCAAGGAACG GGTGGTGGAG CTGCAGGTCC AGCAGCGTCC ACAGGTGCCC 
AGCGGCCCCG TCGCCAAGTG TGCAGCCTGC CAGAAGAAGC AGCTGCCTGA GGATGAGAAG 
CTCAGGCGCT GCACGAGATG CTATCGAGTT GGTTACTGCA ATGTGGCCTG TCAGAAAACA 
CACTGGCCAG ACCACAAGGC TTTGTGCCGC CCTGAGAACA TCGGTTTCCC CTTCCTCATC 
AGTGTGCCGG AGTCCCGCCT CACCTATGCC CGCCTGGCCC AGCTGCTGGA GGGCTATGCA 
AGGTACTCAG TCAGCGTGTT CCAGCCTCCA TTCCAGCTGG GCCGGATGTC GCCGGAGCAG 
GGGCTGCAGC CTATGCTCTC AGACAAGCTG GAGCCCCTGG CCAAGAGCAG CTGTGCAGCA 
GCCACCTCTG TCCCTGATCT GGATAACGGG GACAAGGTTT CCAGCCTTCT GCAGGAGCCC 
CCACTCTCGC CAGCTGTGCC TGAGCTGCAC CCAGAGCAGG CGGATATAGG CACTGTGCGG 
AGCAAGGTCC TGGCAGCTAG GAGTTCCCTG CTGAGCTTGG ATTCAGGCTT CTCTGAGCAC 
ATGGAGTCGC AGGGCGACAG CTGTTGTGAG AAGGAGCCAT CATATGAGAG AGCCCTCAAG 
CCTGAAGCTG CCATCCCTGG GTACCAACAC ACTCCAGACT CGCTGGGTGC CCGCACCACA 
CAGTTCTACA TCAACAAGAT CGATGCTGCC AACCGAGAGC ACAAGCTGGA AGATAAAGGT 
GACACCCCCC TGGAGTTGAC GGATGACTGC TCCCTTGCCC TGGTGTGGAA GAACAATGAG 
CGCCTCAAGG AATTTGTGTT GGTGGAATCC AAGGAGCTGG AGTGCGTGGA GGACCCAGGC 
TCAGCCAGTG AAGCAGCCCG TGCTGGTCAC TTCACCCTGG AGCAGTGCCT CAATCTCTTC 
ACCAAGCCCG AAGTCCTGGC CCCGGAGGAA GCATGGTACT GCCCCAAGTG CAAGCAGCAC 
CGTGAGGCCT CCAAGCAGCT GATGCTGTGG CGGCTGCCCA ACGTCCTCAT CATCCAGCTC 
AAGCGCTTCT CCTTCCGCAG CTTTATTTGG AGGGACAAGA TCAATGACAT GGTGGACTTC 
CCTGTCCGGA GCCTGGACCT GAGCAAGTTC TGCATTGGCC GGAAGGGTGA GCAGCAGCTG 
CCCATGTATG ACCTGTATGC TGTGATCAAC CACTACGGGG GCATGATTGG CGGGCATTAC 
ACGGCGTATG CCCGTCTGCC CAATGACAAG AACAGCCAGC GCAGCGACGT GGGCTGGCGG 
CTCTTTGATG ACAGCACAGT CACCACTGTG GACGAGAGCC AGGTGGTAAC CAGATACGCA 
TATGTCCTCT TCTACCGCCG GAGGAACTCT CCTGTGGAGA GACCCCTGCC AGGGCACCCC 
CCAGATCACC GGGCTGAGCG CACCCCCTCT GCCGAAGCTG CTGCCAGCCA GGCTTCTCTG 
ATCTGGCAGG AACTGGAGGC TGAAGAACAA GAGCTGCAGC TCGAGGCGCC CCAAAGGCCC 
CCAAGAAACT CCTGGAGGCC CCGTGGCCAG AAGCCAAGTC TGGGCAACCC ACAGCACCCT 
AACGAAGGCT GCGTCAGATA CTTCGTCCTG GCCACCACAG CCGCAATTGT GGCTCTCTTC 
CTGAACATCT TCTACCCGCT CATTTACCAG ACCCGCTGGA GATAA