jarid2 cDNA ORF clone, Seriola dumerili(greater amberjack)

Gene
Clones
gRNAs

Summary

Gene Symbol	jarid2
Entrez Gene ID	111223113
Full Name	jumonji and AT-rich interaction domain containing 2
Gene Type	protein-coding
Organism	Seriola dumerili(greater amberjack)

mRNA and Protein(s)

mRNA	Protein	Name
XM_022747141.1	XP_022602862.1	protein Jumonji

Pathways from BioSystems
Gene Ontology

The following jarid2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the jarid2 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
OSe216904	XM_022747141.1 Latest version!	Seriola dumerili jumonji and AT-rich interaction domain containing 2 (jarid2), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$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)

jarid2 ( XM_022747141.1 ) cDNA ORF clone, Seriola dumerili(greater amberjack) -> XP_022602862.1 Seriola dumerili jumonji and AT-rich interaction domain containing 2 (jarid2), mRNA.

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CloneID	OSe216904
Clone ID Related Accession (Same CDS sequence)	XM_022747141.1
Accession Version	XM_022747141.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4335bp) 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	2017-10-03
Organism	Seriola dumerili(greater amberjack)
Product	protein Jumonji
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_019174365.1) 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 Version :: Seriola dumerili 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## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

ATGCCGTCCT TCGAGCATTG TTATGCTAAT GTGATGCCCT ATGATGACAG TGATGGGATC 
CCGTGGTCGG AGGAGCGGGT GATGCGGAAG GTGCTTTACC TCTCTCTAAA GGAGTTTAGG 
AGCGCACAGA AACGGCAGCT GGATGGCGAT GGAACCACAA ACTCCAATGG TTCCCTAGCC 
AATGGGCAGC TGAATGGCTC GGGATCAAAG GGCAGCCACA AAGAAGATGG GTCCTTGCGC 
TCTCAGGGTC TGGATGGGAG CAGCGAGTAC TGTGAGGACA GTCCTGCAAA GAAGAGGCCT 
CGGCTCCAGG CTCAGAGGAA GTTCGCCCAG TCGCAGCCCA ACTCTCCCAG CACTACGCCC 
GTGAAAGTGG CCGACCCAGG CAGCCTCAAC ACCGGCCTGG CCACTGTGCC CTCCTCATCC 
CTCTCGCTGC TCTCCTCTTC ATCGCTGTCC TCTTCCATCC AGGACCTGTC CAGGCGCAAG 
CCCAAGACGG AGGACTTCCT CACCTTCCTC TGCCTCAGAG GTTCATCGGC CCTGCCCAGC 
AACATGGCCT ACTTCGGAAG CTCCCAGGAG GAGGAGGACC TGGAGGAGGA GGACGAGGAG 
GAGGAGGAGG AGGTGAGGAA CGGCGGTGGT ATCCACTCTC ACGGCGGGGG AAGCAGCAGC 
CAAGCCTCGG CCTCCTCCTC CTGCCATTCG ACACCTCGCA AGGGCAAGCT CCCCGCCAGG 
CAGCCGCTCA ATGGGCATGT GTTCAACAGT CACGGCAAAG CAGGGACCAG GGAGAGTCCG 
AGGCCCAAGG CGGGAACCCA CGGCAGGGAT GCGCCTGCCC CGCCACTGCC ACCTCCTCCA 
CCTCCACCGC CGCCCCTCCT GAGGGAGCGC AGTGAGCGGG CGGAGGCACG GGAGCACGTG 
AGGGAGCAGC AGGCCATGGC CAGCGGTCGA GGCTCAGCCA ACGGGCTGCC ACCGAGGAGA 
GCTGCTGAGG AGCTACGCAA GCAGGTCTCT AAAGTGAACG GGCTGACGCG GGCGGGCTCG 
GCACAAGCTG TCGGTGGTGC CAAAAAGAGC CGCGACTTCC GACTGCCGTC CAAAACTGTG 
AAGAAGTACA CAGCCACCGT GTCCAAGGGC CACGTCACTT ACACCAAAGC CAAACAGAAA 
GAACTGGGCA AGAAAACCAA ACTCAGCAGC AGCAACAAAC ACAACAGCGC CGCCTCGGCA 
CCATCGTCAG CGAACAATCA CAATCAGCAC AGCCAGCCAG CAGCCAGCAA TGGGCTGGCC 
AACTCAGGAA AAGCAGCGGC ACCAGCCCAC CACAGCAATG CAAAAACCCG CAAACAGGTG 
CTACTATCCA ATGGGCTGCA CAATGTGGCT GCCGGTGCCC GCCTCAACGG GAGGCTAAAT 
GGGCAGCGGC ACAACACCCT GGCCAAGGAG GATGGGCAGA GACAGTGCCA GCAGGGCCAG 
GGGGAGTGTC CAGGTCGAGA GGGACTGCGT AACTCCAAGC GGCGTCTGGA GGTAGTGCTC 
AACTCAGTGG GGACAGGGGT TGTTGAGCAG AAAGCCAAAA CCACTGGCAC TGAGGCAAAG 
AAGGCCAAGC TTCAGCCGAC TCCTCTGGAG ACACGCAGCA GCAGCAAGAA GGTGGCCAAT 
CAAGAGAAAG CTGCCACGCA AATCACCACC CCTACCACTC CAGTTTCTAA TGGACACGAA 
TCAGAAACAC CTTTGTCTCC TAAACAAACT CCACCTGTTA CCCCACCTCC TACTCCCCCT 
CCTCAGCAAA CCCCAACTCC TTCTACACCA GCAGCCAATA CGGAGCCGGT GAACCAGCGA 
CCCAAGCGGG CATCGGCCGG CAAGCTGATG TTGATACGAC AAGCACAGCA GCAGCAGAGC 
AGGTCTCATG GTCGGAACTC CTCCTCTTCC TCCCCCTCAT CAGGCCAGAA TCACCCACAG 
AACCCCAGTC GTGCCAGCAC TACCTCAGAC CCCCAACAAA CCTCTGTGTC CTCCTCCTCC 
ACCACCTCCT CCCTGCTTAC TTCCACCAAC AGCCCGGGAC AGCTCAAACC AGCAGCACTG 
CGGCCCGCTG AGCGTGACAA GGAGTGGGAG CGTGAGAAAG AGATGACGCG CCAGAAGGAA 
CGTGAACAGG AGAAGGAGTG GGAGCGCCAG CGGAGCAGGC CAGAGGGCTG GGCAGCGCTG 
GGTGAAGTCC CTGTCTTCCG GCCAGCGCCG CGGGAGTTCC AGGACCCCCT GGTGTACTTG 
GACGCGGTGA GGGAACAGGC CGAGGCGGCT GGCATGTGCC GTGTGGTCCC ACCTCCAGAC 
TGGCGGCCAG AGTGCAAGCT GAGCGAGGAG ATGCGTTTTG TTACACAGGT GCAGAGGGTC 
CACATGCTGG GCCGGCGCTG GGGCCCCAAC GTGCAGCGGC TGGCCTGCAT CCGCAAGCAC 
CTCAAATCTC AGGGCATTAC CATGGATGAG CCGCCTGTCA TTGGTGGCTG TGAAGTGGAC 
CTGTCACGTT TTTTCCAGCT CATCAATGAC ATGGGCGGCA TGCAGCAGGT GATGGACCTG 
AAGAAGTGGA CCAAGCTGGC TGACCTTCTG CGCATCCCTA AGTCAGCGCA GGACCGGCTG 
GCCAAGCTGC AGGAGGCTTA CCTCCAGTAC ATCCTCTCCT ATGACTCGCT TAGCGCCGAG 
GAGCGCCTCC GACTGCAGGC CGAGGTGCTG CAGGAGAAAA AGAACCTGGA GTTGCGCCGG 
GGCCCTCTGG AGGGTCTCTT GGACTCCTCA ACACCTAGTG CTCTGGTCCT GCCACGCTAT 
GAGCCCAAGA ATGGGTTAGT AGGTGGGATA GTGGGAGGGG GAACAGGGCA CCAGCGCACC 
AATGGAGTGT ATCACCATCT GAAGGAGCTG GAGGCTCAGG TCAAAGCGGG CCGGCGCCGG 
CTCTTCGCTC AGGAAAAACA AGGCAAAGAG GACAGGCAGC ATGGAGAAGA GCAGGAGGAG 
GAGGAGGACA GGGGCGTTCT CAGCGACCAG CACAAATGTA TTTACAAGGG GAAATCGGTG 
TCTTTGACGA ACTTCTTCAG GATAGCCCGG AACACCATGA CCATGTGCTT TAACAAGGAA 
CCAGGGGCTG CTGAGGTTGA GCAAGAGTAC TGGAGGATTG TGGAACAGAG AGACAGCCAC 
GTGGCAGTGC ATTGTGGGAA GGTGGACACC AGTACACATG GCAGTGGTTT CCCCACAGGA 
AAGTCAGAGC CATTTTCAAA ACATGGATGG AACCTCACTG TCCTCCCCAA TAACTCTGGA 
TCCATTCTGA GGCATCTGGG TGCTGTGCCC GGGGTGACCA TTCCCTGGCT AAACATTGGC 
ATGGTCTTTT CTACCTCATG CTGGTCTCGA GACCAAAATC GCCTTCCATA TATTGATTAC 
TTACACACTG GTGCTGATTG CATTTGGTAT TCTGTCCCTG CTGAGGAGAA GGCTAAGCTG 
GACAAGGTGG TCCATACACT GCTTCAGGCC AATGGCACCC CAGGACTAGA AATGTTGGAG 
AAAAACATCA TGATCTCTCC AGAGGTGCTG TGCCGTGAAG GTATCAAGGT TTACCGTACG 
GTCCAGCGGA GCGGCCAGTT CGTGGTCTGC TTCCCCGGTG CCTTTGTCTC TAAAGTGTGC 
TGTGGCTACA GCGTGTCTGA GACGGTGCAC TTTGCCACAC CGCACTGGAT GAACCTGGGT 
TACCAGGCTT CAAAGGACCT GAAATGTCGT CGTATAGCCA AACCCTTCTC CATGGAGAAG 
CTACTGTACC AGATCGCCAC AGCTGAGTCA AAGAGGGACA ACGGCCTTCT CCTCACCACC 
ATCTCCGCCC TACTCAAAGA CCTCAGGAAC ATAGAGATGG GCCAACGGCA GGAACTTTAC 
AAGGCAGGTT TGCTCTCCTC TGCTCGCTAT GGCACGCATG ATGGCGGCCT AGGGCCCGGC 
GAGGGACGCA AGAAGCCCCG CGGGAAATGG CTAGCACTGG AGTCCTCAGA GAGACGCTGC 
CAGATCTGTC AGCATCTCTG CTACCTGTCC ATGGTGGTTC AGGAGACTGA CAACGTGGTT 
TTCTGTCTGG AGTGTGCCCT GCGCTATGTG GAGAAGCACA AGTCCTGCAG AGGCCTTAAG 
ATGATGTACC GATACGATGA GGAGCAAATC AACAGTTTGG TGAACCAGGT GTGTGGCCGG 
GCCATGTTAA AGAACAGCAG TGGCGGCGGT GGTGGGGGAG TGGTCGTCAG CGGAGGAGGG 
GGGGAGCCCT GCCTGGGCTT AAGCCCTGCC AAAGCATCAC CGGCCAAGCG AGGCCCCCGG 
AAGCGCGATA CTGTGGAGGT GTCCCTGCCA CGCCTGTCCT CCAGCCACAT GCCTAAGGCA 
GCGGCTGTAT CCTGA

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

RefSeq	XP_022602862.1
CDS	1..4335
Translation	MPSFEHCYANVMPYDDSDGIPWSEERVMRKVLYLSLKEFRSAQKRQLDGDGTTNSNGSLANGQLNGSGSKGSHKEDGSLRSQGLDGSSEYCEDSPAKKRPRLQAQRKFAQSQPNSPSTTPVKVADPGSLNTGLATVPSSSLSLLSSSSLSSSIQDLSRRKPKTEDFLTFLCLRGSSALPSNMAYFGSSQEEEDLEEEDEEEEEEVRNGGGIHSHGGGSSSQASASSSCHSTPRKGKLPARQPLNGHVFNSHGKAGTRESPRPKAGTHGRDAPAPPLPPPPPPPPPLLRERSERAEAREHVREQQAMASGRGSANGLPPRRAAEELRKQVSKVNGLTRAGSAQAVGGAKKSRDFRLPSKTVKKYTATVSKGHVTYTKAKQKELGKKTKLSSSNKHNSAASAPSSANNHNQHSQPAASNGLANSGKAAAPAHHSNAKTRKQVLLSNGLHNVAAGARLNGRLNGQRHNTLAKEDGQRQCQQGQGECPGREGLRNSKRRLEVVLNSVGTGVVEQKAKTTGTEAKKAKLQPTPLETRSSSKKVANQEKAATQITTPTTPVSNGHESETPLSPKQTPPVTPPPTPPPQQTPTPSTPAANTEPVNQRPKRASAGKLMLIRQAQQQQSRSHGRNSSSSSPSSGQNHPQNPSRASTTSDPQQTSVSSSSTTSSLLTSTNSPGQLKPAALRPAERDKEWEREKEMTRQKEREQEKEWERQRSRPEGWAALGEVPVFRPAPREFQDPLVYLDAVREQAEAAGMCRVVPPPDWRPECKLSEEMRFVTQVQRVHMLGRRWGPNVQRLACIRKHLKSQGITMDEPPVIGGCEVDLSRFFQLINDMGGMQQVMDLKKWTKLADLLRIPKSAQDRLAKLQEAYLQYILSYDSLSAEERLRLQAEVLQEKKNLELRRGPLEGLLDSSTPSALVLPRYEPKNGLVGGIVGGGTGHQRTNGVYHHLKELEAQVKAGRRRLFAQEKQGKEDRQHGEEQEEEEDRGVLSDQHKCIYKGKSVSLTNFFRIARNTMTMCFNKEPGAAEVEQEYWRIVEQRDSHVAVHCGKVDTSTHGSGFPTGKSEPFSKHGWNLTVLPNNSGSILRHLGAVPGVTIPWLNIGMVFSTSCWSRDQNRLPYIDYLHTGADCIWYSVPAEEKAKLDKVVHTLLQANGTPGLEMLEKNIMISPEVLCREGIKVYRTVQRSGQFVVCFPGAFVSKVCCGYSVSETVHFATPHWMNLGYQASKDLKCRRIAKPFSMEKLLYQIATAESKRDNGLLLTTISALLKDLRNIEMGQRQELYKAGLLSSARYGTHDGGLGPGEGRKKPRGKWLALESSERRCQICQHLCYLSMVVQETDNVVFCLECALRYVEKHKSCRGLKMMYRYDEEQINSLVNQVCGRAMLKNSSGGGGGGVVVSGGGGEPCLGLSPAKASPAKRGPRKRDTVEVSLPRLSSSHMPKAAAVS

Target ORF information:

RefSeq Version	XM_022747141.1
Organism	Seriola dumerili(greater amberjack)
Definition	Seriola dumerili jumonji and AT-rich interaction domain containing 2 (jarid2), mRNA.

Target ORF information:

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

XM_022747141.1

ORF Insert Sequence:

ATGCCGTCCT TCGAGCATTG TTATGCTAAT GTGATGCCCT ATGATGACAG TGATGGGATC 
CCGTGGTCGG AGGAGCGGGT GATGCGGAAG GTGCTTTACC TCTCTCTAAA GGAGTTTAGG 
AGCGCACAGA AACGGCAGCT GGATGGCGAT GGAACCACAA ACTCCAATGG TTCCCTAGCC 
AATGGGCAGC TGAATGGCTC GGGATCAAAG GGCAGCCACA AAGAAGATGG GTCCTTGCGC 
TCTCAGGGTC TGGATGGGAG CAGCGAGTAC TGTGAGGACA GTCCTGCAAA GAAGAGGCCT 
CGGCTCCAGG CTCAGAGGAA GTTCGCCCAG TCGCAGCCCA ACTCTCCCAG CACTACGCCC 
GTGAAAGTGG CCGACCCAGG CAGCCTCAAC ACCGGCCTGG CCACTGTGCC CTCCTCATCC 
CTCTCGCTGC TCTCCTCTTC ATCGCTGTCC TCTTCCATCC AGGACCTGTC CAGGCGCAAG 
CCCAAGACGG AGGACTTCCT CACCTTCCTC TGCCTCAGAG GTTCATCGGC CCTGCCCAGC 
AACATGGCCT ACTTCGGAAG CTCCCAGGAG GAGGAGGACC TGGAGGAGGA GGACGAGGAG 
GAGGAGGAGG AGGTGAGGAA CGGCGGTGGT ATCCACTCTC ACGGCGGGGG AAGCAGCAGC 
CAAGCCTCGG CCTCCTCCTC CTGCCATTCG ACACCTCGCA AGGGCAAGCT CCCCGCCAGG 
CAGCCGCTCA ATGGGCATGT GTTCAACAGT CACGGCAAAG CAGGGACCAG GGAGAGTCCG 
AGGCCCAAGG CGGGAACCCA CGGCAGGGAT GCGCCTGCCC CGCCACTGCC ACCTCCTCCA 
CCTCCACCGC CGCCCCTCCT GAGGGAGCGC AGTGAGCGGG CGGAGGCACG GGAGCACGTG 
AGGGAGCAGC AGGCCATGGC CAGCGGTCGA GGCTCAGCCA ACGGGCTGCC ACCGAGGAGA 
GCTGCTGAGG AGCTACGCAA GCAGGTCTCT AAAGTGAACG GGCTGACGCG GGCGGGCTCG 
GCACAAGCTG TCGGTGGTGC CAAAAAGAGC CGCGACTTCC GACTGCCGTC CAAAACTGTG 
AAGAAGTACA CAGCCACCGT GTCCAAGGGC CACGTCACTT ACACCAAAGC CAAACAGAAA 
GAACTGGGCA AGAAAACCAA ACTCAGCAGC AGCAACAAAC ACAACAGCGC CGCCTCGGCA 
CCATCGTCAG CGAACAATCA CAATCAGCAC AGCCAGCCAG CAGCCAGCAA TGGGCTGGCC 
AACTCAGGAA AAGCAGCGGC ACCAGCCCAC CACAGCAATG CAAAAACCCG CAAACAGGTG 
CTACTATCCA ATGGGCTGCA CAATGTGGCT GCCGGTGCCC GCCTCAACGG GAGGCTAAAT 
GGGCAGCGGC ACAACACCCT GGCCAAGGAG GATGGGCAGA GACAGTGCCA GCAGGGCCAG 
GGGGAGTGTC CAGGTCGAGA GGGACTGCGT AACTCCAAGC GGCGTCTGGA GGTAGTGCTC 
AACTCAGTGG GGACAGGGGT TGTTGAGCAG AAAGCCAAAA CCACTGGCAC TGAGGCAAAG 
AAGGCCAAGC TTCAGCCGAC TCCTCTGGAG ACACGCAGCA GCAGCAAGAA GGTGGCCAAT 
CAAGAGAAAG CTGCCACGCA AATCACCACC CCTACCACTC CAGTTTCTAA TGGACACGAA 
TCAGAAACAC CTTTGTCTCC TAAACAAACT CCACCTGTTA CCCCACCTCC TACTCCCCCT 
CCTCAGCAAA CCCCAACTCC TTCTACACCA GCAGCCAATA CGGAGCCGGT GAACCAGCGA 
CCCAAGCGGG CATCGGCCGG CAAGCTGATG TTGATACGAC AAGCACAGCA GCAGCAGAGC 
AGGTCTCATG GTCGGAACTC CTCCTCTTCC TCCCCCTCAT CAGGCCAGAA TCACCCACAG 
AACCCCAGTC GTGCCAGCAC TACCTCAGAC CCCCAACAAA CCTCTGTGTC CTCCTCCTCC 
ACCACCTCCT CCCTGCTTAC TTCCACCAAC AGCCCGGGAC AGCTCAAACC AGCAGCACTG 
CGGCCCGCTG AGCGTGACAA GGAGTGGGAG CGTGAGAAAG AGATGACGCG CCAGAAGGAA 
CGTGAACAGG AGAAGGAGTG GGAGCGCCAG CGGAGCAGGC CAGAGGGCTG GGCAGCGCTG 
GGTGAAGTCC CTGTCTTCCG GCCAGCGCCG CGGGAGTTCC AGGACCCCCT GGTGTACTTG 
GACGCGGTGA GGGAACAGGC CGAGGCGGCT GGCATGTGCC GTGTGGTCCC ACCTCCAGAC 
TGGCGGCCAG AGTGCAAGCT GAGCGAGGAG ATGCGTTTTG TTACACAGGT GCAGAGGGTC 
CACATGCTGG GCCGGCGCTG GGGCCCCAAC GTGCAGCGGC TGGCCTGCAT CCGCAAGCAC 
CTCAAATCTC AGGGCATTAC CATGGATGAG CCGCCTGTCA TTGGTGGCTG TGAAGTGGAC 
CTGTCACGTT TTTTCCAGCT CATCAATGAC ATGGGCGGCA TGCAGCAGGT GATGGACCTG 
AAGAAGTGGA CCAAGCTGGC TGACCTTCTG CGCATCCCTA AGTCAGCGCA GGACCGGCTG 
GCCAAGCTGC AGGAGGCTTA CCTCCAGTAC ATCCTCTCCT ATGACTCGCT TAGCGCCGAG 
GAGCGCCTCC GACTGCAGGC CGAGGTGCTG CAGGAGAAAA AGAACCTGGA GTTGCGCCGG 
GGCCCTCTGG AGGGTCTCTT GGACTCCTCA ACACCTAGTG CTCTGGTCCT GCCACGCTAT 
GAGCCCAAGA ATGGGTTAGT AGGTGGGATA GTGGGAGGGG GAACAGGGCA CCAGCGCACC 
AATGGAGTGT ATCACCATCT GAAGGAGCTG GAGGCTCAGG TCAAAGCGGG CCGGCGCCGG 
CTCTTCGCTC AGGAAAAACA AGGCAAAGAG GACAGGCAGC ATGGAGAAGA GCAGGAGGAG 
GAGGAGGACA GGGGCGTTCT CAGCGACCAG CACAAATGTA TTTACAAGGG GAAATCGGTG 
TCTTTGACGA ACTTCTTCAG GATAGCCCGG AACACCATGA CCATGTGCTT TAACAAGGAA 
CCAGGGGCTG CTGAGGTTGA GCAAGAGTAC TGGAGGATTG TGGAACAGAG AGACAGCCAC 
GTGGCAGTGC ATTGTGGGAA GGTGGACACC AGTACACATG GCAGTGGTTT CCCCACAGGA 
AAGTCAGAGC CATTTTCAAA ACATGGATGG AACCTCACTG TCCTCCCCAA TAACTCTGGA 
TCCATTCTGA GGCATCTGGG TGCTGTGCCC GGGGTGACCA TTCCCTGGCT AAACATTGGC 
ATGGTCTTTT CTACCTCATG CTGGTCTCGA GACCAAAATC GCCTTCCATA TATTGATTAC 
TTACACACTG GTGCTGATTG CATTTGGTAT TCTGTCCCTG CTGAGGAGAA GGCTAAGCTG 
GACAAGGTGG TCCATACACT GCTTCAGGCC AATGGCACCC CAGGACTAGA AATGTTGGAG 
AAAAACATCA TGATCTCTCC AGAGGTGCTG TGCCGTGAAG GTATCAAGGT TTACCGTACG 
GTCCAGCGGA GCGGCCAGTT CGTGGTCTGC TTCCCCGGTG CCTTTGTCTC TAAAGTGTGC 
TGTGGCTACA GCGTGTCTGA GACGGTGCAC TTTGCCACAC CGCACTGGAT GAACCTGGGT 
TACCAGGCTT CAAAGGACCT GAAATGTCGT CGTATAGCCA AACCCTTCTC CATGGAGAAG 
CTACTGTACC AGATCGCCAC AGCTGAGTCA AAGAGGGACA ACGGCCTTCT CCTCACCACC 
ATCTCCGCCC TACTCAAAGA CCTCAGGAAC ATAGAGATGG GCCAACGGCA GGAACTTTAC 
AAGGCAGGTT TGCTCTCCTC TGCTCGCTAT GGCACGCATG ATGGCGGCCT AGGGCCCGGC 
GAGGGACGCA AGAAGCCCCG CGGGAAATGG CTAGCACTGG AGTCCTCAGA GAGACGCTGC 
CAGATCTGTC AGCATCTCTG CTACCTGTCC ATGGTGGTTC AGGAGACTGA CAACGTGGTT 
TTCTGTCTGG AGTGTGCCCT GCGCTATGTG GAGAAGCACA AGTCCTGCAG AGGCCTTAAG 
ATGATGTACC GATACGATGA GGAGCAAATC AACAGTTTGG TGAACCAGGT GTGTGGCCGG 
GCCATGTTAA AGAACAGCAG TGGCGGCGGT GGTGGGGGAG TGGTCGTCAG CGGAGGAGGG 
GGGGAGCCCT GCCTGGGCTT AAGCCCTGCC AAAGCATCAC CGGCCAAGCG AGGCCCCCGG 
AAGCGCGATA CTGTGGAGGT GTCCCTGCCA CGCCTGTCCT CCAGCCACAT GCCTAAGGCA 
GCGGCTGTAT CCTGA