LOC111159667 cDNA ORF clone, Enhydra lutris kenyoni

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC111159667
Entrez Gene ID	111159667
Full Name	lysine demethylase 5A
Gene Type	protein-coding
Organism	Enhydra lutris kenyoni

mRNA and Protein(s)

mRNA	Protein	Name
XM_022522216.1	XP_022377924.1	lysine-specific demethylase 5A

Pathways from BioSystems
Gene Ontology

The following LOC111159667 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC111159667 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
OEn50064	XM_022522216.1 Latest version!	Enhydra lutris kenyoni lysine demethylase 5A (LOC111159667), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$1021.30 $1459.00

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Next-day Shipping ORF Clones ( in default vector with tag)
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All Other ORF Clones
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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)

LOC111159667 ( XM_022522216.1 ) cDNA ORF clone, Enhydra lutris kenyoni -> XP_022377924.1 Enhydra lutris kenyoni lysine demethylase 5A (LOC111159667), mRNA.

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CloneID	OEn50064
Clone ID Related Accession (Same CDS sequence)	XM_022522216.1
Accession Version	XM_022522216.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5073bp) 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	2017-09-19
Organism	Enhydra lutris kenyoni
Product	lysine-specific demethylase 5A
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_019154153.1) 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 :: Enhydra lutris kenyoni Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCAGGCG TGGGGTCGGG GGGCTACGCG GCGGAGTTTG TGCCACCTCC CGAGTGCCCA 
GTCTTTGAGC CCAGCTGGGA GGAATTCACG GATCCGCTCA GCTTTATCGG CCGCATCCGG 
CCTCTGGCGG AAAAAACCGG CATCTGCAAA ATCCGACCGC CCAAGGATTG GCAACCTCCA 
TTTGCATGTG AAGTAAAAAG TTTTCGTTTC ACTCCCAGAG TCCAGCGCCT GAATGAACTT 
GAGGCAATGA CCAGAGTGAG ACTGGACTTC TTGGATCAAT TAGCAAAATT TTGGGAACTC 
CAAGGATCTA CTTTGAAGAT TCCAGTGGTG GAGAGAAAAA TCCTGGATCT GTATGCTTTG 
AGCAAGATCG TTGCCAGCAA AGGAGGTTTT GAAATGGTTA CAAAAGAGAA GAAATGGTCT 
AAAGTGGGTA GTCGCTTGGG ATATCTGCCA GGAAAAGGAA CTGGGTCTCT TTTGAAGTCA 
CATTATGAAA GAATTCTCTA CCCATATGAA CTTTTCCAGT CTGGTGTCAG CCTTATGGGT 
ATACAGATGC CTAATTTAGA TCTTAAGGAA AAAGTAGAGC CTGAGGTTCT TGGCACTGAT 
GTCCAAACTT CCCCAGAGCC AGGCACAAGA ATGAACATTC TGCCGAAGAG AACAAGGCGT 
GTCAAGTCTC AGTCAGAATC TGGAGAAGTG AACAGAAACA CGGAACTGAA GAAACTTCGA 
ATTTTTGGGG CTGGGCCTAA GGTCGTGGGC CTGGCAGTGG GAGCAAAAGA TAAAGAAGAT 
GAGGTCTCCC GAAGACGAAA AGTTACCAAC AGGTCAGACG CATTTAACAT GCAAATGAGA 
CAACGGAAAG GAACTCTCTC TGTTAACTTT GTTGATCTCT ATGTTTGTAT GTTTTGTGGT 
CGGGGAAATA ATGAAGATAA ATTGCTTTTG TGTGATGGAT GTGATGACAG CTATCATACA 
TTTTGTTTAA TTCCCCCACT ACCTGATGTG CCCAAAGGAG ATTGGAGGTG TCCTAAGTGT 
GTTGCCGAGG AATGTAATAA ACCTCGAGAG GCCTTTGGAT TTGAACAAGC TGTACGAGAG 
TATACACTTC AGAGCTTTGG AGAGATGGCA GATAATTTTA AGTCTGATTA TTTCAATATG 
CCAGTTCATA TGGTTCCTAC AGAACTAGTA GAAAAGGAAT TCTGGCGGCT GGTGAGCAGC 
ATTGAAGAAG ATGTTATTGT AGAGTATGGA GCAGATATCT CCTCAAAAGA CTTTGGAAGT 
GGATTTCCTG TAAAGGACGG TCGGAGAAAG ATGCTGCCAG AAGAAGAGGA ATATGCGCTT 
TCTGGTTGGA ATTTGAATAA TATGCCTGTC CTAGAGCAGT CTGTTCTTGC ACATATTAAT 
GTAGACATCT CTGGTATGAA GGTGCCATGG CTCTATGTAG GAATGTGTTT CTCTTCTTTC 
TGCTGGCACA TTGAAGATCA CTGGAGTTAC TCAATCAACT ACTTACACTG GGGGGAGCCA 
AAGACATGGT ATGGTGTGCC ATCTCATGCT GCCGAACAGC TGGAGGAGGT GATGAGGGAG 
CTGGCTCCTG AGTTGTTTGA GTCCCAGCCT GATCTCCTGC ATCAGTTAGT CACCATCATG 
AACCCCAATG TACTGATGGA GCATGGTGTG CCTGTGTACA GGACCAATCA GTGTGCTGGA 
GAGTTTGTTG TGACGTTTCC TCGTGCCTAT CATTCTGGAT TTAACCAGGG CTACAACTTT 
GCTGAAGCTG TGAACTTCTG TACTGCTGAC TGGTTGCCCA TTGGACGTCA GTGTGTCAAT 
CACTACCGAC GGCTAAGGCG TCACTGTGTC TTTTCCCATG AAGAACTCAT TTTCAAGATG 
GCAGCAGATC CAGAATGCTT AGATGTGGGG CTGGCTGCCA TGGTGTGCAA AGAATTGACT 
CTCATGACTG AAGAAGAGAC AAGATTAAGA GAGTCTGTTG TACAAATGGG TGTCCTGATG 
TCAGAAGAAG AAGTGTTTGA ACTTGTTCCT GATGATGAGC GACAGTGTTC AGCGTGCAGA 
ACCACGTGTT TTCTCTCTGC TCTCACATGC TCCTGTAATC CTGAACGCCT CGTGTGTCTC 
TACCATCCAG CTGATCTGTG CCCCTGCCCC ATGCAGAAGA AATGTCTTAG ATACCGCTAC 
CCATTAGAGG ACCTCCCTTC TCTGCTGTAT GGTGTGAAGG TCAGGGCACA GTCCTATGAC 
ACTTGGGTCA GCCGTGTTAC AGAAGCATTA TCTGCCAACT TCAACCACAA GAAAGATTTG 
ATTGAATTAC GAGTAATGCT GGAAGATGCT GAGGATAGGA AATACCCAGA GAATGATCTC 
TTCAGAAAAC TCAGAGATGC TGTGAAGGAA GCTGAGACTT GCGCTTCTGT GGCTCAGCTG 
CTTCTGAGCA AAAAGCAGAA GCATAGGCAG AGCCCAGATA GTGGGAGAAC TCGGACCAAA 
CTGACAGTGG AAGAATTGAA GGCCTTTGTC CAACAACTTT TTAGTCTTCC ATGTGTCATC 
AGCCAAGCTC GACAAGTAAA GAATCTCCTG GATGATGTGG AAGAGTTTCA TGAACGTGCT 
CAAGAGGCCA TGATGGATGA AACCCCGGAT TCTTCCAAAC TTCAGATGTT GATAGACATG 
GGCTCTAGTC TCTATGTGGA GCTACCTGAA TTAGCCCGAC TAAAGCAAGA ACTACAGCAG 
GCTCGATGGT TGGATGAAGT AAGACTGACC CTGTCAGATC CACAACAGGT CACTTTGGAT 
GTCATGAAGA AACTGATAGA CTCTGGGGTG GGGTTGGCCC CCCACCATGC CGTGGAGAAG 
GCAATGGCTG AACTACAGGA GCTCCTTACA GTCTCTGAGC GATGGGAAGA AAAGGCTAAG 
GTCTGCCTAC AGGCAAGACC AAGGCACAGT GTGGCAAGTT TAGAAAGCAT AGTTAATGAA 
GCCAAAAACA TTCCAGCCTT TCTACCCAAT GTATTGTCCC TGAAAGAAGC ATTACAAAAA 
GCTCGAGAAT GGACAGCTAA AGTGGAAGCT ATTCAGAGTG GCAGCAACTA TGCTTACTTA 
GAGCAGCTGG AGAGCTTATC TGCTAAAGGG CGACCTATCC CTGTGCGTCT GGACGCGTTA 
CCCCAGGTAG AATCACAAGT GGCAGCTGCT CGGGCATGGA GAGAACGGAC TGGGAGGACC 
TTCCTTAAGA AGAATTCTAG CCATACCTTG TTGCAGGTGC TGAGTCCCCG GACTGACATT 
GGTATATATG GGAGTGGTAA AAACAGGAGG AAAAAAGTAA AAGAACTAAT AGAAAAAGAA 
AAAGAAAAGG ATCTGGACCT TGAGCCTCTG AGTGATCTGG AGGAAGGATT GGAGGAAACC 
AGAGATACAG CTATGGTGGT GGCAGTTTTC AAAGAACGGG AACAAAAAGA GATTGAAGCT 
ATGCATTCCC TCAGAGCAGC CAACCTAGCC AAGATGACAA TGGTGGACCG TATAGAAGAA 
GTAAAATTTT GCATTTGCCG CAAGACAGCC AGTGGGTTTA TGCTACAGTG TGAGCTCTGC 
AAAGACTGGT TCCATAACAG CTGTGTTCCC CTTCCTAAAT CAGGTTCCCA GAAAAAAGGG 
TCTAGCTGGC AGGCTAAAGA AGTAAAATTC CTTTGCCCTC TTTGTATGCG GTCTCGAAGG 
CCGAGGTTAG AGACTATTCT TTCACTCCTG GTATCTCTTC AGAAGTTGCC TGTACGTTTG 
CCTGAAGGAG AGGCCCTGCA GTGTTTGACA GAACGAGCTA TGAGTTGGCA AGATAGAGCA 
CGGCAGGCCC TAGCCACAGA TGAACTGTCC TCTGCCCTAG CCAAACTGTC TGTGTTGAGC 
CAGCGCATGG TGGAGCAGGC AGCTCGAGAA AAGACTGAAA AGATCATCAG TGCAGAACTC 
CAAAAAGCAG CTGCTAATCC AGACTTACAG GGACACTTAC CTAGTTTCCA GCAGTCTGCT 
TTTAACCGGG TGGTGAGCAG TGTATCTTCT TCCCCTCGAC AAACAATGGA CTATGATGAT 
GAAGAAACGG ATTCTGATGA AGATATCCGG GAGACATATG GCTATGACAT GAAGGACACA 
GCCAGCGTGA AGTCCTCCAG TAGTCTGGAG CCCAATCTTT TTTGTGATGA AGAAATTCCC 
ATCAAGTCTG AAGAGGTGGT CACTCACATG TGGACAGCAC CTTCATTCTG TGCGGAACAT 
GCTTATTCTT CAGCTTCTAA GAGTTGTTCT CAAGGTTCTA GCACCCCAAG GAAACAACCT 
CGGAAGAGCC CTTTGGTGCC CCGAAGTTTG GAACCTCCAG TATTAGAGTT GTCACCTGGA 
GCTAAAGCCC AGCTAGAAGA ACTTATGATG GTTGGAGATC TCCTAGAAGT ATCTCTGGAT 
GAGACTCAAC ACATTTGGCG GATTTTGCAG GCCACACACC CACCCTCTGA AGACAGATTC 
CTGCATATCA TGGAGGATGA CAGCATGGAA GAGAAACCAT TAAAAATAAA AGGAAAAGAC 
TCTTCAGAGA AGAAACGGAA ACGGAAGTTA GAAAAAGTAG AACAACTTTT TGGAGAAGGA 
AAACAGAAGT CCAAGGAGTT AAAGAAAATG GATAAACCTA AAAAGAAGAA ATTAAAACTA 
AGTGCAGAAA AATCAAAGGA GCTGAATAAA CTGGCCAAGA AATTGGCAAA GGAAGAAGAG 
AGAAAGAAAA AGAAGGAGAA GGCTGCTGCA GCCAAAGTTG ACCTTGTGAA AGAAACTACT 
GAGAAGAAGA GAGAGAAAAA GGTGCTGGAC ATCCCCTCAA AGTACGACTG GTCTGGAGCG 
GAGGAGTCCG ATGACGAAAA TGCCGTGTGT GCCGCACAGA ACTGCCAGCG GCCCTGCAAG 
GACAAGGTAG ACTGGGTACA ATGTGATGGT GGCTGTGATG AGTGGTTTCA TCAAGTTTGT 
GTGGGTGTAT CTCCAGAAAT GGCTGAAAAT GAAGATTACA TCTGTATAAA CTGTGCAAAG 
AAGCAAGGGC CAGATAGCCC AGGTCAAGCA CCACCTCCTT CCTACATAAT GAGCTACAAA 
CTACCAATGG AGGATCTTAA GGAGACCAGT TAG

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

RefSeq	XP_022377924.1
CDS	483..5555
Translation	MAGVGSGGYAAEFVPPPECPVFEPSWEEFTDPLSFIGRIRPLAEKTGICKIRPPKDWQPPFACEVKSFRFTPRVQRLNELEAMTRVRLDFLDQLAKFWELQGSTLKIPVVERKILDLYALSKIVASKGGFEMVTKEKKWSKVGSRLGYLPGKGTGSLLKSHYERILYPYELFQSGVSLMGIQMPNLDLKEKVEPEVLGTDVQTSPEPGTRMNILPKRTRRVKSQSESGEVNRNTELKKLRIFGAGPKVVGLAVGAKDKEDEVSRRRKVTNRSDAFNMQMRQRKGTLSVNFVDLYVCMFCGRGNNEDKLLLCDGCDDSYHTFCLIPPLPDVPKGDWRCPKCVAEECNKPREAFGFEQAVREYTLQSFGEMADNFKSDYFNMPVHMVPTELVEKEFWRLVSSIEEDVIVEYGADISSKDFGSGFPVKDGRRKMLPEEEEYALSGWNLNNMPVLEQSVLAHINVDISGMKVPWLYVGMCFSSFCWHIEDHWSYSINYLHWGEPKTWYGVPSHAAEQLEEVMRELAPELFESQPDLLHQLVTIMNPNVLMEHGVPVYRTNQCAGEFVVTFPRAYHSGFNQGYNFAEAVNFCTADWLPIGRQCVNHYRRLRRHCVFSHEELIFKMAADPECLDVGLAAMVCKELTLMTEEETRLRESVVQMGVLMSEEEVFELVPDDERQCSACRTTCFLSALTCSCNPERLVCLYHPADLCPCPMQKKCLRYRYPLEDLPSLLYGVKVRAQSYDTWVSRVTEALSANFNHKKDLIELRVMLEDAEDRKYPENDLFRKLRDAVKEAETCASVAQLLLSKKQKHRQSPDSGRTRTKLTVEELKAFVQQLFSLPCVISQARQVKNLLDDVEEFHERAQEAMMDETPDSSKLQMLIDMGSSLYVELPELARLKQELQQARWLDEVRLTLSDPQQVTLDVMKKLIDSGVGLAPHHAVEKAMAELQELLTVSERWEEKAKVCLQARPRHSVASLESIVNEAKNIPAFLPNVLSLKEALQKAREWTAKVEAIQSGSNYAYLEQLESLSAKGRPIPVRLDALPQVESQVAAARAWRERTGRTFLKKNSSHTLLQVLSPRTDIGIYGSGKNRRKKVKELIEKEKEKDLDLEPLSDLEEGLEETRDTAMVVAVFKEREQKEIEAMHSLRAANLAKMTMVDRIEEVKFCICRKTASGFMLQCELCKDWFHNSCVPLPKSGSQKKGSSWQAKEVKFLCPLCMRSRRPRLETILSLLVSLQKLPVRLPEGEALQCLTERAMSWQDRARQALATDELSSALAKLSVLSQRMVEQAAREKTEKIISAELQKAAANPDLQGHLPSFQQSAFNRVVSSVSSSPRQTMDYDDEETDSDEDIRETYGYDMKDTASVKSSSSLEPNLFCDEEIPIKSEEVVTHMWTAPSFCAEHAYSSASKSCSQGSSTPRKQPRKSPLVPRSLEPPVLELSPGAKAQLEELMMVGDLLEVSLDETQHIWRILQATHPPSEDRFLHIMEDDSMEEKPLKIKGKDSSEKKRKRKLEKVEQLFGEGKQKSKELKKMDKPKKKKLKLSAEKSKELNKLAKKLAKEEERKKKKEKAAAAKVDLVKETTEKKREKKVLDIPSKYDWSGAEESDDENAVCAAQNCQRPCKDKVDWVQCDGGCDEWFHQVCVGVSPEMAENEDYICINCAKKQGPDSPGQAPPPSYIMSYKLPMEDLKETS

Target ORF information:

RefSeq Version	XM_022522216.1
Organism	Enhydra lutris kenyoni
Definition	Enhydra lutris kenyoni lysine demethylase 5A (LOC111159667), mRNA.

Target ORF information:

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

XM_022522216.1

ORF Insert Sequence:

ATGGCAGGCG TGGGGTCGGG GGGCTACGCG GCGGAGTTTG TGCCACCTCC CGAGTGCCCA 
GTCTTTGAGC CCAGCTGGGA GGAATTCACG GATCCGCTCA GCTTTATCGG CCGCATCCGG 
CCTCTGGCGG AAAAAACCGG CATCTGCAAA ATCCGACCGC CCAAGGATTG GCAACCTCCA 
TTTGCATGTG AAGTAAAAAG TTTTCGTTTC ACTCCCAGAG TCCAGCGCCT GAATGAACTT 
GAGGCAATGA CCAGAGTGAG ACTGGACTTC TTGGATCAAT TAGCAAAATT TTGGGAACTC 
CAAGGATCTA CTTTGAAGAT TCCAGTGGTG GAGAGAAAAA TCCTGGATCT GTATGCTTTG 
AGCAAGATCG TTGCCAGCAA AGGAGGTTTT GAAATGGTTA CAAAAGAGAA GAAATGGTCT 
AAAGTGGGTA GTCGCTTGGG ATATCTGCCA GGAAAAGGAA CTGGGTCTCT TTTGAAGTCA 
CATTATGAAA GAATTCTCTA CCCATATGAA CTTTTCCAGT CTGGTGTCAG CCTTATGGGT 
ATACAGATGC CTAATTTAGA TCTTAAGGAA AAAGTAGAGC CTGAGGTTCT TGGCACTGAT 
GTCCAAACTT CCCCAGAGCC AGGCACAAGA ATGAACATTC TGCCGAAGAG AACAAGGCGT 
GTCAAGTCTC AGTCAGAATC TGGAGAAGTG AACAGAAACA CGGAACTGAA GAAACTTCGA 
ATTTTTGGGG CTGGGCCTAA GGTCGTGGGC CTGGCAGTGG GAGCAAAAGA TAAAGAAGAT 
GAGGTCTCCC GAAGACGAAA AGTTACCAAC AGGTCAGACG CATTTAACAT GCAAATGAGA 
CAACGGAAAG GAACTCTCTC TGTTAACTTT GTTGATCTCT ATGTTTGTAT GTTTTGTGGT 
CGGGGAAATA ATGAAGATAA ATTGCTTTTG TGTGATGGAT GTGATGACAG CTATCATACA 
TTTTGTTTAA TTCCCCCACT ACCTGATGTG CCCAAAGGAG ATTGGAGGTG TCCTAAGTGT 
GTTGCCGAGG AATGTAATAA ACCTCGAGAG GCCTTTGGAT TTGAACAAGC TGTACGAGAG 
TATACACTTC AGAGCTTTGG AGAGATGGCA GATAATTTTA AGTCTGATTA TTTCAATATG 
CCAGTTCATA TGGTTCCTAC AGAACTAGTA GAAAAGGAAT TCTGGCGGCT GGTGAGCAGC 
ATTGAAGAAG ATGTTATTGT AGAGTATGGA GCAGATATCT CCTCAAAAGA CTTTGGAAGT 
GGATTTCCTG TAAAGGACGG TCGGAGAAAG ATGCTGCCAG AAGAAGAGGA ATATGCGCTT 
TCTGGTTGGA ATTTGAATAA TATGCCTGTC CTAGAGCAGT CTGTTCTTGC ACATATTAAT 
GTAGACATCT CTGGTATGAA GGTGCCATGG CTCTATGTAG GAATGTGTTT CTCTTCTTTC 
TGCTGGCACA TTGAAGATCA CTGGAGTTAC TCAATCAACT ACTTACACTG GGGGGAGCCA 
AAGACATGGT ATGGTGTGCC ATCTCATGCT GCCGAACAGC TGGAGGAGGT GATGAGGGAG 
CTGGCTCCTG AGTTGTTTGA GTCCCAGCCT GATCTCCTGC ATCAGTTAGT CACCATCATG 
AACCCCAATG TACTGATGGA GCATGGTGTG CCTGTGTACA GGACCAATCA GTGTGCTGGA 
GAGTTTGTTG TGACGTTTCC TCGTGCCTAT CATTCTGGAT TTAACCAGGG CTACAACTTT 
GCTGAAGCTG TGAACTTCTG TACTGCTGAC TGGTTGCCCA TTGGACGTCA GTGTGTCAAT 
CACTACCGAC GGCTAAGGCG TCACTGTGTC TTTTCCCATG AAGAACTCAT TTTCAAGATG 
GCAGCAGATC CAGAATGCTT AGATGTGGGG CTGGCTGCCA TGGTGTGCAA AGAATTGACT 
CTCATGACTG AAGAAGAGAC AAGATTAAGA GAGTCTGTTG TACAAATGGG TGTCCTGATG 
TCAGAAGAAG AAGTGTTTGA ACTTGTTCCT GATGATGAGC GACAGTGTTC AGCGTGCAGA 
ACCACGTGTT TTCTCTCTGC TCTCACATGC TCCTGTAATC CTGAACGCCT CGTGTGTCTC 
TACCATCCAG CTGATCTGTG CCCCTGCCCC ATGCAGAAGA AATGTCTTAG ATACCGCTAC 
CCATTAGAGG ACCTCCCTTC TCTGCTGTAT GGTGTGAAGG TCAGGGCACA GTCCTATGAC 
ACTTGGGTCA GCCGTGTTAC AGAAGCATTA TCTGCCAACT TCAACCACAA GAAAGATTTG 
ATTGAATTAC GAGTAATGCT GGAAGATGCT GAGGATAGGA AATACCCAGA GAATGATCTC 
TTCAGAAAAC TCAGAGATGC TGTGAAGGAA GCTGAGACTT GCGCTTCTGT GGCTCAGCTG 
CTTCTGAGCA AAAAGCAGAA GCATAGGCAG AGCCCAGATA GTGGGAGAAC TCGGACCAAA 
CTGACAGTGG AAGAATTGAA GGCCTTTGTC CAACAACTTT TTAGTCTTCC ATGTGTCATC 
AGCCAAGCTC GACAAGTAAA GAATCTCCTG GATGATGTGG AAGAGTTTCA TGAACGTGCT 
CAAGAGGCCA TGATGGATGA AACCCCGGAT TCTTCCAAAC TTCAGATGTT GATAGACATG 
GGCTCTAGTC TCTATGTGGA GCTACCTGAA TTAGCCCGAC TAAAGCAAGA ACTACAGCAG 
GCTCGATGGT TGGATGAAGT AAGACTGACC CTGTCAGATC CACAACAGGT CACTTTGGAT 
GTCATGAAGA AACTGATAGA CTCTGGGGTG GGGTTGGCCC CCCACCATGC CGTGGAGAAG 
GCAATGGCTG AACTACAGGA GCTCCTTACA GTCTCTGAGC GATGGGAAGA AAAGGCTAAG 
GTCTGCCTAC AGGCAAGACC AAGGCACAGT GTGGCAAGTT TAGAAAGCAT AGTTAATGAA 
GCCAAAAACA TTCCAGCCTT TCTACCCAAT GTATTGTCCC TGAAAGAAGC ATTACAAAAA 
GCTCGAGAAT GGACAGCTAA AGTGGAAGCT ATTCAGAGTG GCAGCAACTA TGCTTACTTA 
GAGCAGCTGG AGAGCTTATC TGCTAAAGGG CGACCTATCC CTGTGCGTCT GGACGCGTTA 
CCCCAGGTAG AATCACAAGT GGCAGCTGCT CGGGCATGGA GAGAACGGAC TGGGAGGACC 
TTCCTTAAGA AGAATTCTAG CCATACCTTG TTGCAGGTGC TGAGTCCCCG GACTGACATT 
GGTATATATG GGAGTGGTAA AAACAGGAGG AAAAAAGTAA AAGAACTAAT AGAAAAAGAA 
AAAGAAAAGG ATCTGGACCT TGAGCCTCTG AGTGATCTGG AGGAAGGATT GGAGGAAACC 
AGAGATACAG CTATGGTGGT GGCAGTTTTC AAAGAACGGG AACAAAAAGA GATTGAAGCT 
ATGCATTCCC TCAGAGCAGC CAACCTAGCC AAGATGACAA TGGTGGACCG TATAGAAGAA 
GTAAAATTTT GCATTTGCCG CAAGACAGCC AGTGGGTTTA TGCTACAGTG TGAGCTCTGC 
AAAGACTGGT TCCATAACAG CTGTGTTCCC CTTCCTAAAT CAGGTTCCCA GAAAAAAGGG 
TCTAGCTGGC AGGCTAAAGA AGTAAAATTC CTTTGCCCTC TTTGTATGCG GTCTCGAAGG 
CCGAGGTTAG AGACTATTCT TTCACTCCTG GTATCTCTTC AGAAGTTGCC TGTACGTTTG 
CCTGAAGGAG AGGCCCTGCA GTGTTTGACA GAACGAGCTA TGAGTTGGCA AGATAGAGCA 
CGGCAGGCCC TAGCCACAGA TGAACTGTCC TCTGCCCTAG CCAAACTGTC TGTGTTGAGC 
CAGCGCATGG TGGAGCAGGC AGCTCGAGAA AAGACTGAAA AGATCATCAG TGCAGAACTC 
CAAAAAGCAG CTGCTAATCC AGACTTACAG GGACACTTAC CTAGTTTCCA GCAGTCTGCT 
TTTAACCGGG TGGTGAGCAG TGTATCTTCT TCCCCTCGAC AAACAATGGA CTATGATGAT 
GAAGAAACGG ATTCTGATGA AGATATCCGG GAGACATATG GCTATGACAT GAAGGACACA 
GCCAGCGTGA AGTCCTCCAG TAGTCTGGAG CCCAATCTTT TTTGTGATGA AGAAATTCCC 
ATCAAGTCTG AAGAGGTGGT CACTCACATG TGGACAGCAC CTTCATTCTG TGCGGAACAT 
GCTTATTCTT CAGCTTCTAA GAGTTGTTCT CAAGGTTCTA GCACCCCAAG GAAACAACCT 
CGGAAGAGCC CTTTGGTGCC CCGAAGTTTG GAACCTCCAG TATTAGAGTT GTCACCTGGA 
GCTAAAGCCC AGCTAGAAGA ACTTATGATG GTTGGAGATC TCCTAGAAGT ATCTCTGGAT 
GAGACTCAAC ACATTTGGCG GATTTTGCAG GCCACACACC CACCCTCTGA AGACAGATTC 
CTGCATATCA TGGAGGATGA CAGCATGGAA GAGAAACCAT TAAAAATAAA AGGAAAAGAC 
TCTTCAGAGA AGAAACGGAA ACGGAAGTTA GAAAAAGTAG AACAACTTTT TGGAGAAGGA 
AAACAGAAGT CCAAGGAGTT AAAGAAAATG GATAAACCTA AAAAGAAGAA ATTAAAACTA 
AGTGCAGAAA AATCAAAGGA GCTGAATAAA CTGGCCAAGA AATTGGCAAA GGAAGAAGAG 
AGAAAGAAAA AGAAGGAGAA GGCTGCTGCA GCCAAAGTTG ACCTTGTGAA AGAAACTACT 
GAGAAGAAGA GAGAGAAAAA GGTGCTGGAC ATCCCCTCAA AGTACGACTG GTCTGGAGCG 
GAGGAGTCCG ATGACGAAAA TGCCGTGTGT GCCGCACAGA ACTGCCAGCG GCCCTGCAAG 
GACAAGGTAG ACTGGGTACA ATGTGATGGT GGCTGTGATG AGTGGTTTCA TCAAGTTTGT 
GTGGGTGTAT CTCCAGAAAT GGCTGAAAAT GAAGATTACA TCTGTATAAA CTGTGCAAAG 
AAGCAAGGGC CAGATAGCCC AGGTCAAGCA CCACCTCCTT CCTACATAAT GAGCTACAAA 
CTACCAATGG AGGATCTTAA GGAGACCAGT TAG