ube2o cDNA ORF clone, Amphiprion ocellaris(clown anemonefish)

Gene
Clones
gRNAs

Summary

Gene Symbol	ube2o
Entrez Gene ID	111564225
Full Name	ubiquitin conjugating enzyme E2 O
Gene Type	protein-coding
Organism	Amphiprion ocellaris(clown anemonefish)

mRNA and Protein(s)

mRNA	Protein	Name
XM_023263682.1	XP_023119450.1	(E3-independent) E2 ubiquitin-conjugating enzyme

Pathways from BioSystems
Gene Ontology

The following ube2o gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ube2o 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
OAm103110	XM_023263682.1 Latest version!	Amphiprion ocellaris ubiquitin conjugating enzyme E2 O (ube2o), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$797.30 $1139.00

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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)

ube2o ( XM_023263682.1 ) cDNA ORF clone, Amphiprion ocellaris(clown anemonefish) -> XP_023119450.1 Amphiprion ocellaris ubiquitin conjugating enzyme E2 O (ube2o), mRNA.

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CloneID	OAm103110
Clone ID Related Accession (Same CDS sequence)	XM_023263682.1
Accession Version	XM_023263682.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4179bp) 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	2017-12-12
Organism	Amphiprion ocellaris(clown anemonefish)
Product	(E3-independent) E2 ubiquitin-conjugating enzyme
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_019376149.1) 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 Name :: Amphiprion ocellaris Annotation Release 100 Annotation Version :: 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCGGAGC CCGTAGCATC GGATGCGGCG GCCACAACGG ACGCAGCAGC CACGGCAGCA 
TCACCGACAC CGGGCCTCTC TCCCGCAGCT AGCCCGGGCT CGGAGCCTCC ATCCATGGCT 
CTCTCTCCCA CGGCGGACGG CTCCCAGCGG CTGCTCTTCT CCCACGACCT GGTCTCCGGA 
CGGTATCGCG GCTCAGTCCG GTTTGGCCTC GTACGGATGA TCCACGGCGA GGAGGATTTC 
AACTCGGACT CGGACCTCGA CGATGGCGGA GGGAGAGGCG GTGGAGAAGG AGGTGGTGGC 
GGAGGAGGAG GAGGAGGAGG TGGAGGTGGA GGACGAGTCC CATGTGGTTC GGACACTGAG 
AGTGCCGTGG ACACTCCGAG TCGGCCTCTC GGTAGGGGAT TTGTCCGCGT CCAGTGGTAC 
CCTGAAGGAG GAAAGCAGGA CATCAGGGAG ACAAAGCTGA AGCTTGAAGA TCGATCTATT 
GTCATCAGAG ACATCGTGCG ACGGAATAAC TCTAATGACA ACCAGTGTGG TATTGTGACT 
AACATCGACA TCGAGTGTGC CGTGAAGTTA GTGGGAACAA ATTGTGTACT GTATCCAGTC 
AACAGCAAAG ACTTGCAGCA CATCTGGTCT TTTATGTATG GCGACTACAT TGCCTACGAC 
TTCTGGCTGG GGAAAGTGTA TGACCTGACC AATCACATCA TCCTCAAGCT TTCAAACGGA 
GCCAGGTGCT CCATGAGTGT GGAAGACGGT GCCAAGCTTT ACGACGTCTG TCCGCATGTC 
AGTGATTCGG GTCTCTTCTT CGATGAGGCG TACGGCTTTT ATCCAGGCCA GGTCCTCATT 
GGTCCAGCCA AAGTCTTCTC TAATGTACAG TGGCTGTCAG GGGTCAAACC TGTCCTCAGC 
AGGAAATGCA AGTTCAGGGT GGTGGTGGAA GAGGTGAAGG TGGTGGAGCT GAAAGTGACG 
TGGATCACAA AGAGCTACTC CCCCAAAGGC TCTGACAGCG TTTATCCACC TCCCTCCACC 
ATCACGCAGG AAAATCTCTG CAGGGTGAGA CGCCTGGGCT ATTATGACCA CACCCAGAGA 
CAGCTGGGAG AGAGAGCCCT CTATGTCTTC CCTGCTAAAG GTGATGCCAC ACGGATGACC 
TGTGAAGGAC ATGAGGGTGC CCCTGTTCTG CCCGAAGATC CTGTTGTTAG GAAGTTGAAA 
AGGCTGTTCA AGAAGGAGTC TGGGAAGAAG ACGGAGAACG CTGACTTGCA AGGCGAGCAC 
AAATCCGAGC AGACGGACTC GTCTCATCCA AACAACAACG GCCCTGTTCC CAACCAGAAC 
CCTCCGGACT CCCAGAACAC CAACGACTCC TCGGTAGAAC ACGGAGAGCA GGACGCCGAC 
GACGAGGCTG CAGAAGACAC TGACGATACC AGCTCTCTGA CGTCGTCGGC GAGCTCCACG 
GCGTCCTCTC AGAGCGGCGG TCTGGGAACA AATCGCAAGA AGAGCATCCC GCTGTCCATC 
CGCAACCTGA AGAGGAAGCA CAAGAAGAAG AGGACCAAGT TCTCGCGGGA GTTTAAGCCT 
GGAGACCGGG TGGCAGTGGA AGTCGTATCC ACAAAGACAA CGGCTGATGT GATGTGGAAG 
GACGGTCGGG TGGAGAAGGG GATCCGATCA AATGACCTCA TCCCCATTCA GCACCTCGAT 
AGCCACGAGT TTTGCCCCGG GGACTTCGTG GTAGACAAAC GACCCCAAGC CCTGCAGGAC 
CCAGGAGTGT ACGGTGTGAT CCAGTCTGGC GATCACAGGG GCAGAACATG TGTTGTAAAG 
TGGATCAAAC TCAACTCCAC CAGTGATGAT GTGGAGGTTA TCGGTGTGGA GGAGGATGTC 
AGCGTGTACG ACATCGCTGA TCATCCAGAT TTTCATTTCC GCACTACCGA TATCGTCATT 
AGAATATGGA ACTCAGAGAA CGGACAAAAC GACTGTGAAA ATGAGACGTC AGTGGGTCAG 
GTGTTTAGGG TGGATGTGAG CAGCAAAGTG GAGGTAGTGT GGGCAGACAA CTCCATGACC 
ATCGTCCTGC CTCAGTACCT CTACAACGTG GAGTCTGAGA TCGAGGAGAC GGACTACGAC 
TCGGTGGAGG AAACGAGCAG CGTTCTGTCC ACAGAGGAGT GGGAGGACGA GAGCGACAGC 
TGGGAGACAG ACAACGGCCT GACCACGGAG GACGACAGCC ACATCAACAA TGCAGATATC 
ATTGACACAG CGACTCCGAC CCCCACACCC ACTGGGTCCA CAGTGTTCAT CATCCCCCCA 
CAGGAGGGCA GCAAAGCCGG GGTCACCAGT CCCACAAAAG GAGTCCCTGG AGAGGAAGGA 
GAGGCGTCTG TGGCTGTGGC CACTCCTGCT TCTGGAGGAG GAACCACTCC AGGAGGAGCC 
GTTAACGGAG CCGAGAAGCC CAGTAAGGAT GGTGCTTCTC GGGGCTTCAG GGAGTTGAAA 
GAGGCCCTGA AGATCTTGGA GAGCCTGAAG AACATGACTG TGGAGCAGCT GTGGACCGGC 
GGCTCTCCGA CCTCCCCGAC ATCTGCTGAA CCTGCGTCCA CGACTAACGT AGCGAGTTCG 
GTGACGCCAA CGGCCCCCGA AAAACCGACC AAGGAGAAAC GCTTCCTGGA CGACATCAAG 
AAGCTGCAGG AGAATCTGAG GAAGACGCTG GATAACGTGG CCATCGTGGA GGAGGAGAAG 
ATGGAGGCTG TGGTGGAGGC AGTGGGGAGT GGAGGAGCAG GGACAGAGGC AGAGAGAGCT 
GGAGAGGAAA AGCCCCAGCA GGAGCCACTA ACACCAGTAG GTGGACAAGA ATGGCCCAGT 
GACTTTCTCA GTGACACTCC AGTATTGTGC CAACAGAGTG GCGGCAAACC TGGCGTGACC 
TTTACGAGTG CCAAGGGAGA GGTGTTCTCA GTGCTGGAGT GGGCCCCAGA GACTCACTCA 
TTCAACAAGA TGGAGTTTCA GCCAGCGGAG GCAAAGAAGT TCTTCAGCAC AGTGAGGAAG 
GAAATGGCTC TGCTGGCAAC GTCGCTGCCC GACGGCATCA TGGTCAAAAC GTTTGAGGAC 
CGCATGGACC TGTTTTCAGC TCTGATCAAA GGGCCGACTC GTACGCCCTA CGAGGACGGT 
CTGTTCCTGT TTGACATCCA GCTGCCCAAC ATCTATCCAG CTGTGCCGCC TCTGTTCCGC 
TACCTGTCGC AGTGCAGCGG CCGCCTCAAT CCCAACCTGT ACGACAACGG CAAGGTCTGC 
GTCAGCCTGC TGGGCACCTG GATTGGCAAG GGCACTGAGA GATGGACCAG CAAGTCCAGC 
CTGCTGCAAG TCCTCATCTC CATACAAGGC CTTATCCTCG TCAATGAGCC TTACTATAAC 
GAGGCCGGCT TCGACAGTGA CCGAGGCCTT CAGGAGGGAT ACGAGAACAG CCGCTGCTAC 
AATGAGATGG CTCTGATCAA GATGGTTCAG TCGATGACGC AGCTCCTCCA GAATCCTGTT 
GAGGTCTTCA AACAGGAGAT CCAGGAGCAC TTTGCCTGTA ACGGCTGGCG ACTCGTCCAC 
CGTCTGGAGG CGTGGCTGGA GCTGAACGAG GCCTCAGAAA GAGGTCACGC AGCGCACTGC 
AGGGCTCACC ACTCCAAGGA CCGATCCTCC TCTGTGGAGC CTTTGGACGA GCAGCTGCCT 
CTGGGCTCGG GGCCCATGGC GGTGGCCCAC AGCAGCCCCA GTAAGCCTGG GGAGGAGGGG 
GCCGCAGGAG TTAGCAGTAT TATGGAGGAG GAGCTGGAGG ATTCAGGGCT GAGTCCCTCC 
ACCACAGCAG CCTCTCAGCA GGAGCTGAGC CAGAACTCAG ACTGCGACAG CGTGCAGGTC 
AGCACCTCTG TGGGTGGCGA GAACAGAGGT GGTTCTACAG CCGCCGGCTC TGTATTCCGC 
AGTGGGACGT CAGAATCGGG TTCTGCTGCC GTTAACGCAG GAGGGGTAGG CACAGGAAGC 
CAGCCAGTGG TGCGACCAAA GAAAAGGAGA AAGAGCTACC GGAGTTTCCT CCCTGAGGGC 
AGCGGCTACC CGGACATCGG CTTTCCACTC TTCCCGCTTT CGAAGGGGTT TGTGAAGAGC 
GTTCGTGGTG TTCTGCTGCA GTACCGAGCT GCACTGGCTG CCGCTGGCAT CCCCGAGCAC 
ACTGAGGACA ATGTCCCTGC AGACGAGTGT GATGAATAA

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

RefSeq	XP_023119450.1
CDS	50..4228
Translation	MAEPVASDAAATTDAAATAASPTPGLSPAASPGSEPPSMALSPTADGSQRLLFSHDLVSGRYRGSVRFGLVRMIHGEEDFNSDSDLDDGGGRGGGEGGGGGGGGGGGGGGGRVPCGSDTESAVDTPSRPLGRGFVRVQWYPEGGKQDIRETKLKLEDRSIVIRDIVRRNNSNDNQCGIVTNIDIECAVKLVGTNCVLYPVNSKDLQHIWSFMYGDYIAYDFWLGKVYDLTNHIILKLSNGARCSMSVEDGAKLYDVCPHVSDSGLFFDEAYGFYPGQVLIGPAKVFSNVQWLSGVKPVLSRKCKFRVVVEEVKVVELKVTWITKSYSPKGSDSVYPPPSTITQENLCRVRRLGYYDHTQRQLGERALYVFPAKGDATRMTCEGHEGAPVLPEDPVVRKLKRLFKKESGKKTENADLQGEHKSEQTDSSHPNNNGPVPNQNPPDSQNTNDSSVEHGEQDADDEAAEDTDDTSSLTSSASSTASSQSGGLGTNRKKSIPLSIRNLKRKHKKKRTKFSREFKPGDRVAVEVVSTKTTADVMWKDGRVEKGIRSNDLIPIQHLDSHEFCPGDFVVDKRPQALQDPGVYGVIQSGDHRGRTCVVKWIKLNSTSDDVEVIGVEEDVSVYDIADHPDFHFRTTDIVIRIWNSENGQNDCENETSVGQVFRVDVSSKVEVVWADNSMTIVLPQYLYNVESEIEETDYDSVEETSSVLSTEEWEDESDSWETDNGLTTEDDSHINNADIIDTATPTPTPTGSTVFIIPPQEGSKAGVTSPTKGVPGEEGEASVAVATPASGGGTTPGGAVNGAEKPSKDGASRGFRELKEALKILESLKNMTVEQLWTGGSPTSPTSAEPASTTNVASSVTPTAPEKPTKEKRFLDDIKKLQENLRKTLDNVAIVEEEKMEAVVEAVGSGGAGTEAERAGEEKPQQEPLTPVGGQEWPSDFLSDTPVLCQQSGGKPGVTFTSAKGEVFSVLEWAPETHSFNKMEFQPAEAKKFFSTVRKEMALLATSLPDGIMVKTFEDRMDLFSALIKGPTRTPYEDGLFLFDIQLPNIYPAVPPLFRYLSQCSGRLNPNLYDNGKVCVSLLGTWIGKGTERWTSKSSLLQVLISIQGLILVNEPYYNEAGFDSDRGLQEGYENSRCYNEMALIKMVQSMTQLLQNPVEVFKQEIQEHFACNGWRLVHRLEAWLELNEASERGHAAHCRAHHSKDRSSSVEPLDEQLPLGSGPMAVAHSSPSKPGEEGAAGVSSIMEEELEDSGLSPSTTAASQQELSQNSDCDSVQVSTSVGGENRGGSTAAGSVFRSGTSESGSAAVNAGGVGTGSQPVVRPKKRRKSYRSFLPEGSGYPDIGFPLFPLSKGFVKSVRGVLLQYRAALAAAGIPEHTEDNVPADECDE

Target ORF information:

RefSeq Version	XM_023263682.1
Organism	Amphiprion ocellaris(clown anemonefish)
Definition	Amphiprion ocellaris ubiquitin conjugating enzyme E2 O (ube2o), mRNA.

Target ORF information:

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

XM_023263682.1

ORF Insert Sequence:

ATGGCGGAGC CCGTAGCATC GGATGCGGCG GCCACAACGG ACGCAGCAGC CACGGCAGCA 
TCACCGACAC CGGGCCTCTC TCCCGCAGCT AGCCCGGGCT CGGAGCCTCC ATCCATGGCT 
CTCTCTCCCA CGGCGGACGG CTCCCAGCGG CTGCTCTTCT CCCACGACCT GGTCTCCGGA 
CGGTATCGCG GCTCAGTCCG GTTTGGCCTC GTACGGATGA TCCACGGCGA GGAGGATTTC 
AACTCGGACT CGGACCTCGA CGATGGCGGA GGGAGAGGCG GTGGAGAAGG AGGTGGTGGC 
GGAGGAGGAG GAGGAGGAGG TGGAGGTGGA GGACGAGTCC CATGTGGTTC GGACACTGAG 
AGTGCCGTGG ACACTCCGAG TCGGCCTCTC GGTAGGGGAT TTGTCCGCGT CCAGTGGTAC 
CCTGAAGGAG GAAAGCAGGA CATCAGGGAG ACAAAGCTGA AGCTTGAAGA TCGATCTATT 
GTCATCAGAG ACATCGTGCG ACGGAATAAC TCTAATGACA ACCAGTGTGG TATTGTGACT 
AACATCGACA TCGAGTGTGC CGTGAAGTTA GTGGGAACAA ATTGTGTACT GTATCCAGTC 
AACAGCAAAG ACTTGCAGCA CATCTGGTCT TTTATGTATG GCGACTACAT TGCCTACGAC 
TTCTGGCTGG GGAAAGTGTA TGACCTGACC AATCACATCA TCCTCAAGCT TTCAAACGGA 
GCCAGGTGCT CCATGAGTGT GGAAGACGGT GCCAAGCTTT ACGACGTCTG TCCGCATGTC 
AGTGATTCGG GTCTCTTCTT CGATGAGGCG TACGGCTTTT ATCCAGGCCA GGTCCTCATT 
GGTCCAGCCA AAGTCTTCTC TAATGTACAG TGGCTGTCAG GGGTCAAACC TGTCCTCAGC 
AGGAAATGCA AGTTCAGGGT GGTGGTGGAA GAGGTGAAGG TGGTGGAGCT GAAAGTGACG 
TGGATCACAA AGAGCTACTC CCCCAAAGGC TCTGACAGCG TTTATCCACC TCCCTCCACC 
ATCACGCAGG AAAATCTCTG CAGGGTGAGA CGCCTGGGCT ATTATGACCA CACCCAGAGA 
CAGCTGGGAG AGAGAGCCCT CTATGTCTTC CCTGCTAAAG GTGATGCCAC ACGGATGACC 
TGTGAAGGAC ATGAGGGTGC CCCTGTTCTG CCCGAAGATC CTGTTGTTAG GAAGTTGAAA 
AGGCTGTTCA AGAAGGAGTC TGGGAAGAAG ACGGAGAACG CTGACTTGCA AGGCGAGCAC 
AAATCCGAGC AGACGGACTC GTCTCATCCA AACAACAACG GCCCTGTTCC CAACCAGAAC 
CCTCCGGACT CCCAGAACAC CAACGACTCC TCGGTAGAAC ACGGAGAGCA GGACGCCGAC 
GACGAGGCTG CAGAAGACAC TGACGATACC AGCTCTCTGA CGTCGTCGGC GAGCTCCACG 
GCGTCCTCTC AGAGCGGCGG TCTGGGAACA AATCGCAAGA AGAGCATCCC GCTGTCCATC 
CGCAACCTGA AGAGGAAGCA CAAGAAGAAG AGGACCAAGT TCTCGCGGGA GTTTAAGCCT 
GGAGACCGGG TGGCAGTGGA AGTCGTATCC ACAAAGACAA CGGCTGATGT GATGTGGAAG 
GACGGTCGGG TGGAGAAGGG GATCCGATCA AATGACCTCA TCCCCATTCA GCACCTCGAT 
AGCCACGAGT TTTGCCCCGG GGACTTCGTG GTAGACAAAC GACCCCAAGC CCTGCAGGAC 
CCAGGAGTGT ACGGTGTGAT CCAGTCTGGC GATCACAGGG GCAGAACATG TGTTGTAAAG 
TGGATCAAAC TCAACTCCAC CAGTGATGAT GTGGAGGTTA TCGGTGTGGA GGAGGATGTC 
AGCGTGTACG ACATCGCTGA TCATCCAGAT TTTCATTTCC GCACTACCGA TATCGTCATT 
AGAATATGGA ACTCAGAGAA CGGACAAAAC GACTGTGAAA ATGAGACGTC AGTGGGTCAG 
GTGTTTAGGG TGGATGTGAG CAGCAAAGTG GAGGTAGTGT GGGCAGACAA CTCCATGACC 
ATCGTCCTGC CTCAGTACCT CTACAACGTG GAGTCTGAGA TCGAGGAGAC GGACTACGAC 
TCGGTGGAGG AAACGAGCAG CGTTCTGTCC ACAGAGGAGT GGGAGGACGA GAGCGACAGC 
TGGGAGACAG ACAACGGCCT GACCACGGAG GACGACAGCC ACATCAACAA TGCAGATATC 
ATTGACACAG CGACTCCGAC CCCCACACCC ACTGGGTCCA CAGTGTTCAT CATCCCCCCA 
CAGGAGGGCA GCAAAGCCGG GGTCACCAGT CCCACAAAAG GAGTCCCTGG AGAGGAAGGA 
GAGGCGTCTG TGGCTGTGGC CACTCCTGCT TCTGGAGGAG GAACCACTCC AGGAGGAGCC 
GTTAACGGAG CCGAGAAGCC CAGTAAGGAT GGTGCTTCTC GGGGCTTCAG GGAGTTGAAA 
GAGGCCCTGA AGATCTTGGA GAGCCTGAAG AACATGACTG TGGAGCAGCT GTGGACCGGC 
GGCTCTCCGA CCTCCCCGAC ATCTGCTGAA CCTGCGTCCA CGACTAACGT AGCGAGTTCG 
GTGACGCCAA CGGCCCCCGA AAAACCGACC AAGGAGAAAC GCTTCCTGGA CGACATCAAG 
AAGCTGCAGG AGAATCTGAG GAAGACGCTG GATAACGTGG CCATCGTGGA GGAGGAGAAG 
ATGGAGGCTG TGGTGGAGGC AGTGGGGAGT GGAGGAGCAG GGACAGAGGC AGAGAGAGCT 
GGAGAGGAAA AGCCCCAGCA GGAGCCACTA ACACCAGTAG GTGGACAAGA ATGGCCCAGT 
GACTTTCTCA GTGACACTCC AGTATTGTGC CAACAGAGTG GCGGCAAACC TGGCGTGACC 
TTTACGAGTG CCAAGGGAGA GGTGTTCTCA GTGCTGGAGT GGGCCCCAGA GACTCACTCA 
TTCAACAAGA TGGAGTTTCA GCCAGCGGAG GCAAAGAAGT TCTTCAGCAC AGTGAGGAAG 
GAAATGGCTC TGCTGGCAAC GTCGCTGCCC GACGGCATCA TGGTCAAAAC GTTTGAGGAC 
CGCATGGACC TGTTTTCAGC TCTGATCAAA GGGCCGACTC GTACGCCCTA CGAGGACGGT 
CTGTTCCTGT TTGACATCCA GCTGCCCAAC ATCTATCCAG CTGTGCCGCC TCTGTTCCGC 
TACCTGTCGC AGTGCAGCGG CCGCCTCAAT CCCAACCTGT ACGACAACGG CAAGGTCTGC 
GTCAGCCTGC TGGGCACCTG GATTGGCAAG GGCACTGAGA GATGGACCAG CAAGTCCAGC 
CTGCTGCAAG TCCTCATCTC CATACAAGGC CTTATCCTCG TCAATGAGCC TTACTATAAC 
GAGGCCGGCT TCGACAGTGA CCGAGGCCTT CAGGAGGGAT ACGAGAACAG CCGCTGCTAC 
AATGAGATGG CTCTGATCAA GATGGTTCAG TCGATGACGC AGCTCCTCCA GAATCCTGTT 
GAGGTCTTCA AACAGGAGAT CCAGGAGCAC TTTGCCTGTA ACGGCTGGCG ACTCGTCCAC 
CGTCTGGAGG CGTGGCTGGA GCTGAACGAG GCCTCAGAAA GAGGTCACGC AGCGCACTGC 
AGGGCTCACC ACTCCAAGGA CCGATCCTCC TCTGTGGAGC CTTTGGACGA GCAGCTGCCT 
CTGGGCTCGG GGCCCATGGC GGTGGCCCAC AGCAGCCCCA GTAAGCCTGG GGAGGAGGGG 
GCCGCAGGAG TTAGCAGTAT TATGGAGGAG GAGCTGGAGG ATTCAGGGCT GAGTCCCTCC 
ACCACAGCAG CCTCTCAGCA GGAGCTGAGC CAGAACTCAG ACTGCGACAG CGTGCAGGTC 
AGCACCTCTG TGGGTGGCGA GAACAGAGGT GGTTCTACAG CCGCCGGCTC TGTATTCCGC 
AGTGGGACGT CAGAATCGGG TTCTGCTGCC GTTAACGCAG GAGGGGTAGG CACAGGAAGC 
CAGCCAGTGG TGCGACCAAA GAAAAGGAGA AAGAGCTACC GGAGTTTCCT CCCTGAGGGC 
AGCGGCTACC CGGACATCGG CTTTCCACTC TTCCCGCTTT CGAAGGGGTT TGTGAAGAGC 
GTTCGTGGTG TTCTGCTGCA GTACCGAGCT GCACTGGCTG CCGCTGGCAT CCCCGAGCAC 
ACTGAGGACA ATGTCCCTGC AGACGAGTGT GATGAATAA