acin1 cDNA ORF clone, Pundamilia nyererei

Gene
Clones
gRNAs

Summary

Gene Symbol	acin1
Entrez Gene ID	102192814
Full Name	apoptotic chromatin condensation inducer 1
Gene Type	protein-coding
Organism	Pundamilia nyererei

mRNA and Protein(s)

mRNA	Protein	Name
XM_005740215.2	XP_005740272.2	apoptotic chromatin condensation inducer in the nucleus

Pathways from BioSystems
Gene Ontology

The following acin1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the acin1 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
OPu70168	XM_005740215.2 Latest version!	Pundamilia nyererei apoptotic chromatin condensation inducer 1 (acin1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$881.30 $1259.00

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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)

acin1 ( XM_005740215.2 ) cDNA ORF clone, Pundamilia nyererei -> XP_005740272.2 Pundamilia nyererei apoptotic chromatin condensation inducer 1 (acin1), mRNA.

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CloneID	OPu70168
Clone ID Related Accession (Same CDS sequence)	XM_005740215.2
Accession Version	XM_005740215.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4962bp) 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	2015-08-30
Organism	Pundamilia nyererei
Product	apoptotic chromatin condensation inducer in the nucleus
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005187499.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Aug 31, 2015 this sequence version replaced XM_005740215.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Pundamilia nyererei Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 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##

ATGGCGGACC TTGAAGACGT TACGCTGGAC GGGAGACCGC TCCAGTCCCT TCGAGTAGCG 
GACTTAAAGG CCGCTCTCGA GGAGAGGGGG CTGTCGAAGA GCGGCCAGAA GAATACTCTC 
ATCAAAAGAC TCAAGGGGGC TCTCATGCTG GAGAACTTGC AGAGGACCTC CACAGCTCAT 
ATTGGACTAC AGCCAAACTC TCAGATTGGT GAGGAAATGA GCCAGAACAG CTTTATAAAG 
CAGTATCTGG CTAAGCAACA GGAGCTACTG AGGCAGCGTC TGGAGAGAGA GGCTCGTGAA 
GCATATGATA CAAATGAGCA AGAGGAGCAC GCAGAAGTCA ACAATAGTAC ACCGTGTCCT 
CCTCCAGCCC AGGATGTCAC ACCAGCATTA CCTGAGCAGC ACAAGCCAGC TGGCACCTCT 
GGTGAAGAGG GATTGTTGGG TGCGGTAAAT GAGGGCCAAG CAAACAGAAA CCAGGAGGCT 
GACATGTCCA GTCCACCTGC TTCTGGTTCT GTGCCGATGC GTGTTCCTGC CGCTGAGCAA 
AGGCCAGAGA GAGGCTCTGC ATCCAGTGAA GTCCAAGGTG ACAGCGACGA TGACGACAGC 
GAGGACGGTG ACGAGGACGG TGACGATGAC GACTGGGACA GCAGCGCTCG AAGGAGAAAC 
TTCAGAGAGC CAGCCAGGGG ACCCACAACA AGGGAGAGGT CTGCAGCGTC CCGTCAACCG 
CAGCAGCAAC ACATCCCTTC TCTTTTGTCA CCTCAACTCC GCCAGCCAAC ACCGCCTCCT 
TCCCCTCCAC CAGAATTATC ATTCCCTTTG CCTGACACCC CTAAACAGAG TCCACCTAGT 
CCAGATGTTC CCCAAGCCAG GCGTTCCCCC AGTTCTTCCA GCTCTGGTTC CTCCAGCGGT 
GGTAGCCGTA GTAGCAGCCC TGAGCCACAA AGGAGTGGAC ATGCTGAACG CAGGCCTGGC 
CCACTAACCC TTCTGGCACG TAAAATGGAG TCAGAAGGTG CTTTCTCCGG AGGAGGATGG 
CATGGCACTG ATGGTGAAGC TGATAGGCAA GAAAGCAATT CATCCTCAGC TACATCATTT 
CCTGGCAGAG GACCACCAGA GAGCCTGGTA TCTGCCACCA CTCACACCTC TAACACTGCA 
GAGCATGTAC CATTTCCAAT AATGCCAGGC ACCAATCAGG GTGTTACAGG AGCACATTCA 
GCCCATATTC ACGTACCTGT GAGTACACTT GAGCCCACTG TGCCTGATGA GAGGGTCAGA 
GAGATGGAGT CTGACCTAGA AAGACAAGAG AAGCTGAGAA AACGTCGGCA AGAACGTACC 
GCGGCGGAAG AGCGGGAGAG AGCCCTAGCA CTGGAGCGAG AAAGAGAGCA AGCTTTGGAG 
AGAGAGAGGT TTGAGCAACA GCAGGCCTTA GAAAAGGAAG AGAGAGAGAA GGCTTTGCAG 
AAGGAGAAGG AACTTGCTCT AGAAAAAGAG AGACAGGAGA GGGAGCAAGC TTTGGCTAAA 
GAGAGGGAAG AGCAAATGAG GGCCTTGGAG CTTGAAAGGC AGGCTGAGCT TCAAAGACTT 
AAACTTCTGG AGCAAGAACG GCTGCAGAGA GAAAGGGAGG AGAGGGAAAA GCGCGAGAGA 
GAAGAAATGG AGAGAGCAGC TTTGGAGCGT GAGCGAGAAA GGCTAGAAAG AGAAAGAGCT 
CTGGAGGCTG AGAGGCAGGA AAAGGAGAGG ATTGAGAGAG AAGAGGCTCT GGAACGGGAA 
AGGTTAGAGA AGGAAAAGGC TTTGGAGCAG GAGAGGATAG AACGTGAAAA AGCCTTAGAG 
CAAGAGAGGA TCGAGAGAGA AAAGGCTCTA GAGCTAGAAA GGTTGGAGAG GGAGAAGGCC 
TTGGAGTTGG AGAGAAGAGA AAGAGAAAAA GCTTTAGAGC TAGAAAGGCT GGAGAGGGAG 
AAGGCCTTGG AGTTGGAGAG AAGAGAAAGA GAAAAAGCTT TAGAGCTAGA AAGGCTGGAG 
AGGGAGAAGG CCTTGGAGTT AGAGCGAAGA GAAAGAGAAC GACTCGAAAG AGAGAAAGCT 
GTAGAGCGAG AGAGGATAGA GAGGGAAAAG GCCTTGGAAC GAGAGAGGGT GGAAAAAGAG 
AGGGCAGAGA GACGGGCGGC TCTTGAACAG GAGAGAATTG AGAAAGAGAG AAAGGAAAAG 
CTAGAGAGAG AGAGAGCCCT ACAGCAAGAA GAACTAGAAA GGGCAAGAAA AGAGATGGAG 
AGAGCTCTGG AGCAAGAAAG GGAAAAAGCT CTTGAACATG AAAGGCTGGA GAATGAGAAA 
GCAGTGCAGA AAGAAAAGGA GGAGCGGGAG AGGAAGCTGG AGCTGGAGAA AGATAAAACT 
GGGGTGGCTG AAAAGGAGAG TGAGAGTCAC CTTTCTCCAT CCAAATGTGG CCTTGAGGCT 
GGTCTCACAC CCCTGCCAAC TCCTCACCCC CTCTCCACAG GACCCGCTAT AAACTCGTCA 
GCAGAGGCAG GAGACCGGGA GCAAATCCAT GCTCCAGAAC CCCAGAGCGA AGGCCAAGCA 
GCAGAGTGTA GTGCAACCAT TTCAACAACA TCTCTTTCAC CACACTCGTC ATTTAAAAAA 
TTCCGGTTCG TAATGGACCG AGCACAACCC TCATCCACGT CTATGGTTAT TAAGCGGCCC 
CGTACATTTT CTGATAGCCC ACAGCCTCGC ACCTCACCTG TCACTTCTCC CACCACTGTT 
GGGAAAGGAC AGTCTGAAGG ACATAGGCCC TCAGTTAAAC AGGAAGATTC AGAGCTACGG 
ACAAATCAGC AGGTTGCTGC TGCACCACCG GGATCTGTGA GGATCCAGTC TGAGGAGGAC 
ACTGCTGTTA TTACTGAAAT GGGTCCCAAA GAAGAAAGAG CCACAAGGCT AGTGTTGGAG 
GATAAAGAAC AGGCAGCTTC AGGAAAGACT GAACAGGCTG CCAAGGAGTC CATCAAAAAA 
GTAAAAGAAG CTGATGAAAG CAAGGGTTTG TCAAGCTCAG TGAGTGGAGC GGAGCAGAGA 
GGAAGAGATT CAAAGAAGGA AAGGATACGA ACAAGACAAA GATCATCATC CGATTCCTCT 
TCCTCAGAAT CGGACTCTGG GTCCTCATCT TCTCAATCAT CCGGTTCATC CTTGTCCTCT 
CAAGAGAAAA AGAACTCCAC CTCCAGAGTT ACAAAGAGAG AGACGTCTGC AGAGAAGGCT 
AACACAACTG CAGATGGAGA CAGTCACAAC GTGGCACAGT TTTCCAAAGC ACCGACTGGA 
GAAGAAAAAC ATGGGAAGAG AACAGACAGT GAGGACGAGG AGGAAAAGGA CAAACAAAGG 
CAGATGAAGG AGACTACCAT GGCAGATCCA GAGAAATTTC AAGAAACCAG TGAGGAGAAA 
TCAAAGGCCT TCTCAGCTCG TAAGATCTCT CTTAGCAGCA GTAAATCATC CCCGGGCACC 
AGCAGTGCAG AGGGTGAACA GGAGTCTGGG ACAGTGGCTG GTCGCAAGAG GAGGTGGGGC 
TCCAGCACAG CTGTTACTGC TAAGAAACCT TCCATCAGCA TCACCACTGA CTCACTCAAG 
TCTCTGATCC CAGACATCAG GCCATGTCTA GGACAGGAAG CAGTAGTTGA CTTGCATCCA 
GAGGAAGCTG TCCTCTCTGG GGCTGATGAT GAAGACAGGG AGCGCTCTGA TCAGGACCTT 
CAGATTAGAC GCACAGTTAC ACAGGTGGTG CATTCAGAAA GCCAGGAGAA TGGGCAAAGA 
GAAGCAAAGA GGAGCAGGCA AGAGGAGGCA GAGGAAGATG ATCTACAGGT AGACCAAGAA 
AGGACAAAGG CTCATGAAGA GCAGATGGAT ACCTCTATTC CTGTAGCTGT TGAAACTCAT 
TCACCAACAC ATACCAGCCA TGATGTAGAA ATCAACACTG TGACCCCCAG CGACACCCTC 
ATTCGTCGCT CCATCAGCCA GCAGAAAACA AGTGTTTCCA TCACAATTGA TGACCCTGTT 
CGCACGGCCA AGCAGCCCTC ACCACCTCGC GGAAAAGTCT CCACTATTGT TCACATCTGC 
AACCTGGTGA GGCCATTCAC TCTGGGACAG CTTAAGGAAC TGCTCAGCAG AACTGGCAGT 
CTGGTGGAGG AGGGCTTCTG GATTGACAAA ATCAAGTCCC ACTGCTATGT CACTTATTCA 
AGTGTAGAGG AGGCAGTCGC CACACGAGCA GCTCTTCATG GCGTGAAATG GCCACAGAGC 
AACCCAAAAG TTCTCACTGT TGACTTCTGC CAGCAGGATG AATTGGACTT CCACAAAGGT 
TTGGGTGCAG GTGACAAACC TGGAGCAGAG GAACATGGTC CTGGCTCCGG CCGTGGTCGA 
ACATCGGGCC TGCCCTCTCT CCTTCCTGAG CGAGATCAGT GGGCTGAACG GGAACGCGAA 
ATGGAACGCA GGGAGCGAGC TCGAGCAGAG CGGGAGTGGG ATCGCGACAA GGTTAGAGAG 
TTTGGAAAAC ACGGAGAAGA GAAGGAGGGA GGTCCTCGAA GGTCGCGATC AAGAGAGAGG 
CGACGCAAGG AGAGGGGAAA GAGCAAGGAG AAGAAAGAGA AAATAGCCGA GGATCCCCCT 
GCAAAGCTGC TTGATGACTT GTTCCGCAAG ACTAAAGCTG CTCCTTGCAT ATACTGGCTT 
CCACTTACAG ATGAACAGTT TGCCCAGCGG GAAGCTGCCA GAGCAGAACG GGCAAAAGAA 
CGTGAGAAAC GGCGAAAGGA GCAAGAAGAG GAGGAGAAAA AAAGGGAAGA GGAGCGCAAG 
GAGAGGGTGA AAACTGGAGG AGGCACAACA GAACGCAGTG AGGGTGAGAA AGACAAGGAC 
AGAGAGAGAG ACAGAGGTCG AGATAGAGAC AGGGAGAGGG AGAGAGAGAG GGAAAGGGAG 
AACGACAAAC GCAGGGATGG CTACCGTAGG CCCGGGGGCA GCGGGGCGGG CGGAGGCCGA 
CGCTCACGCA GCCGCAGCGA ACCACGAGAA AGGCGGCGCT AA

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

RefSeq	XP_005740272.2
CDS	67..5028
Translation	MADLEDVTLDGRPLQSLRVADLKAALEERGLSKSGQKNTLIKRLKGALMLENLQRTSTAHIGLQPNSQIGEEMSQNSFIKQYLAKQQELLRQRLEREAREAYDTNEQEEHAEVNNSTPCPPPAQDVTPALPEQHKPAGTSGEEGLLGAVNEGQANRNQEADMSSPPASGSVPMRVPAAEQRPERGSASSEVQGDSDDDDSEDGDEDGDDDDWDSSARRRNFREPARGPTTRERSAASRQPQQQHIPSLLSPQLRQPTPPPSPPPELSFPLPDTPKQSPPSPDVPQARRSPSSSSSGSSSGGSRSSSPEPQRSGHAERRPGPLTLLARKMESEGAFSGGGWHGTDGEADRQESNSSSATSFPGRGPPESLVSATTHTSNTAEHVPFPIMPGTNQGVTGAHSAHIHVPVSTLEPTVPDERVREMESDLERQEKLRKRRQERTAAEERERALALEREREQALERERFEQQQALEKEEREKALQKEKELALEKERQEREQALAKEREEQMRALELERQAELQRLKLLEQERLQREREEREKREREEMERAALERERERLERERALEAERQEKERIEREEALERERLEKEKALEQERIEREKALEQERIEREKALELERLEREKALELERREREKALELERLEREKALELERREREKALELERLEREKALELERRERERLEREKAVERERIEREKALERERVEKERAERRAALEQERIEKERKEKLERERALQQEELERARKEMERALEQEREKALEHERLENEKAVQKEKEERERKLELEKDKTGVAEKESESHLSPSKCGLEAGLTPLPTPHPLSTGPAINSSAEAGDREQIHAPEPQSEGQAAECSATISTTSLSPHSSFKKFRFVMDRAQPSSTSMVIKRPRTFSDSPQPRTSPVTSPTTVGKGQSEGHRPSVKQEDSELRTNQQVAAAPPGSVRIQSEEDTAVITEMGPKEERATRLVLEDKEQAASGKTEQAAKESIKKVKEADESKGLSSSVSGAEQRGRDSKKERIRTRQRSSSDSSSSESDSGSSSSQSSGSSLSSQEKKNSTSRVTKRETSAEKANTTADGDSHNVAQFSKAPTGEEKHGKRTDSEDEEEKDKQRQMKETTMADPEKFQETSEEKSKAFSARKISLSSSKSSPGTSSAEGEQESGTVAGRKRRWGSSTAVTAKKPSISITTDSLKSLIPDIRPCLGQEAVVDLHPEEAVLSGADDEDRERSDQDLQIRRTVTQVVHSESQENGQREAKRSRQEEAEEDDLQVDQERTKAHEEQMDTSIPVAVETHSPTHTSHDVEINTVTPSDTLIRRSISQQKTSVSITIDDPVRTAKQPSPPRGKVSTIVHICNLVRPFTLGQLKELLSRTGSLVEEGFWIDKIKSHCYVTYSSVEEAVATRAALHGVKWPQSNPKVLTVDFCQQDELDFHKGLGAGDKPGAEEHGPGSGRGRTSGLPSLLPERDQWAEREREMERRERARAEREWDRDKVREFGKHGEEKEGGPRRSRSRERRRKERGKSKEKKEKIAEDPPAKLLDDLFRKTKAAPCIYWLPLTDEQFAQREAARAERAKEREKRRKEQEEEEKKREEERKERVKTGGGTTERSEGEKDKDRERDRGRDRDRERERERERENDKRRDGYRRPGGSGAGGGRRSRSRSEPRERRR

Target ORF information:

RefSeq Version	XM_005740215.2
Organism	Pundamilia nyererei
Definition	Pundamilia nyererei apoptotic chromatin condensation inducer 1 (acin1), mRNA.

Target ORF information:

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

XM_005740215.2

ORF Insert Sequence:

ATGGCGGACC TTGAAGACGT TACGCTGGAC GGGAGACCGC TCCAGTCCCT TCGAGTAGCG 
GACTTAAAGG CCGCTCTCGA GGAGAGGGGG CTGTCGAAGA GCGGCCAGAA GAATACTCTC 
ATCAAAAGAC TCAAGGGGGC TCTCATGCTG GAGAACTTGC AGAGGACCTC CACAGCTCAT 
ATTGGACTAC AGCCAAACTC TCAGATTGGT GAGGAAATGA GCCAGAACAG CTTTATAAAG 
CAGTATCTGG CTAAGCAACA GGAGCTACTG AGGCAGCGTC TGGAGAGAGA GGCTCGTGAA 
GCATATGATA CAAATGAGCA AGAGGAGCAC GCAGAAGTCA ACAATAGTAC ACCGTGTCCT 
CCTCCAGCCC AGGATGTCAC ACCAGCATTA CCTGAGCAGC ACAAGCCAGC TGGCACCTCT 
GGTGAAGAGG GATTGTTGGG TGCGGTAAAT GAGGGCCAAG CAAACAGAAA CCAGGAGGCT 
GACATGTCCA GTCCACCTGC TTCTGGTTCT GTGCCGATGC GTGTTCCTGC CGCTGAGCAA 
AGGCCAGAGA GAGGCTCTGC ATCCAGTGAA GTCCAAGGTG ACAGCGACGA TGACGACAGC 
GAGGACGGTG ACGAGGACGG TGACGATGAC GACTGGGACA GCAGCGCTCG AAGGAGAAAC 
TTCAGAGAGC CAGCCAGGGG ACCCACAACA AGGGAGAGGT CTGCAGCGTC CCGTCAACCG 
CAGCAGCAAC ACATCCCTTC TCTTTTGTCA CCTCAACTCC GCCAGCCAAC ACCGCCTCCT 
TCCCCTCCAC CAGAATTATC ATTCCCTTTG CCTGACACCC CTAAACAGAG TCCACCTAGT 
CCAGATGTTC CCCAAGCCAG GCGTTCCCCC AGTTCTTCCA GCTCTGGTTC CTCCAGCGGT 
GGTAGCCGTA GTAGCAGCCC TGAGCCACAA AGGAGTGGAC ATGCTGAACG CAGGCCTGGC 
CCACTAACCC TTCTGGCACG TAAAATGGAG TCAGAAGGTG CTTTCTCCGG AGGAGGATGG 
CATGGCACTG ATGGTGAAGC TGATAGGCAA GAAAGCAATT CATCCTCAGC TACATCATTT 
CCTGGCAGAG GACCACCAGA GAGCCTGGTA TCTGCCACCA CTCACACCTC TAACACTGCA 
GAGCATGTAC CATTTCCAAT AATGCCAGGC ACCAATCAGG GTGTTACAGG AGCACATTCA 
GCCCATATTC ACGTACCTGT GAGTACACTT GAGCCCACTG TGCCTGATGA GAGGGTCAGA 
GAGATGGAGT CTGACCTAGA AAGACAAGAG AAGCTGAGAA AACGTCGGCA AGAACGTACC 
GCGGCGGAAG AGCGGGAGAG AGCCCTAGCA CTGGAGCGAG AAAGAGAGCA AGCTTTGGAG 
AGAGAGAGGT TTGAGCAACA GCAGGCCTTA GAAAAGGAAG AGAGAGAGAA GGCTTTGCAG 
AAGGAGAAGG AACTTGCTCT AGAAAAAGAG AGACAGGAGA GGGAGCAAGC TTTGGCTAAA 
GAGAGGGAAG AGCAAATGAG GGCCTTGGAG CTTGAAAGGC AGGCTGAGCT TCAAAGACTT 
AAACTTCTGG AGCAAGAACG GCTGCAGAGA GAAAGGGAGG AGAGGGAAAA GCGCGAGAGA 
GAAGAAATGG AGAGAGCAGC TTTGGAGCGT GAGCGAGAAA GGCTAGAAAG AGAAAGAGCT 
CTGGAGGCTG AGAGGCAGGA AAAGGAGAGG ATTGAGAGAG AAGAGGCTCT GGAACGGGAA 
AGGTTAGAGA AGGAAAAGGC TTTGGAGCAG GAGAGGATAG AACGTGAAAA AGCCTTAGAG 
CAAGAGAGGA TCGAGAGAGA AAAGGCTCTA GAGCTAGAAA GGTTGGAGAG GGAGAAGGCC 
TTGGAGTTGG AGAGAAGAGA AAGAGAAAAA GCTTTAGAGC TAGAAAGGCT GGAGAGGGAG 
AAGGCCTTGG AGTTGGAGAG AAGAGAAAGA GAAAAAGCTT TAGAGCTAGA AAGGCTGGAG 
AGGGAGAAGG CCTTGGAGTT AGAGCGAAGA GAAAGAGAAC GACTCGAAAG AGAGAAAGCT 
GTAGAGCGAG AGAGGATAGA GAGGGAAAAG GCCTTGGAAC GAGAGAGGGT GGAAAAAGAG 
AGGGCAGAGA GACGGGCGGC TCTTGAACAG GAGAGAATTG AGAAAGAGAG AAAGGAAAAG 
CTAGAGAGAG AGAGAGCCCT ACAGCAAGAA GAACTAGAAA GGGCAAGAAA AGAGATGGAG 
AGAGCTCTGG AGCAAGAAAG GGAAAAAGCT CTTGAACATG AAAGGCTGGA GAATGAGAAA 
GCAGTGCAGA AAGAAAAGGA GGAGCGGGAG AGGAAGCTGG AGCTGGAGAA AGATAAAACT 
GGGGTGGCTG AAAAGGAGAG TGAGAGTCAC CTTTCTCCAT CCAAATGTGG CCTTGAGGCT 
GGTCTCACAC CCCTGCCAAC TCCTCACCCC CTCTCCACAG GACCCGCTAT AAACTCGTCA 
GCAGAGGCAG GAGACCGGGA GCAAATCCAT GCTCCAGAAC CCCAGAGCGA AGGCCAAGCA 
GCAGAGTGTA GTGCAACCAT TTCAACAACA TCTCTTTCAC CACACTCGTC ATTTAAAAAA 
TTCCGGTTCG TAATGGACCG AGCACAACCC TCATCCACGT CTATGGTTAT TAAGCGGCCC 
CGTACATTTT CTGATAGCCC ACAGCCTCGC ACCTCACCTG TCACTTCTCC CACCACTGTT 
GGGAAAGGAC AGTCTGAAGG ACATAGGCCC TCAGTTAAAC AGGAAGATTC AGAGCTACGG 
ACAAATCAGC AGGTTGCTGC TGCACCACCG GGATCTGTGA GGATCCAGTC TGAGGAGGAC 
ACTGCTGTTA TTACTGAAAT GGGTCCCAAA GAAGAAAGAG CCACAAGGCT AGTGTTGGAG 
GATAAAGAAC AGGCAGCTTC AGGAAAGACT GAACAGGCTG CCAAGGAGTC CATCAAAAAA 
GTAAAAGAAG CTGATGAAAG CAAGGGTTTG TCAAGCTCAG TGAGTGGAGC GGAGCAGAGA 
GGAAGAGATT CAAAGAAGGA AAGGATACGA ACAAGACAAA GATCATCATC CGATTCCTCT 
TCCTCAGAAT CGGACTCTGG GTCCTCATCT TCTCAATCAT CCGGTTCATC CTTGTCCTCT 
CAAGAGAAAA AGAACTCCAC CTCCAGAGTT ACAAAGAGAG AGACGTCTGC AGAGAAGGCT 
AACACAACTG CAGATGGAGA CAGTCACAAC GTGGCACAGT TTTCCAAAGC ACCGACTGGA 
GAAGAAAAAC ATGGGAAGAG AACAGACAGT GAGGACGAGG AGGAAAAGGA CAAACAAAGG 
CAGATGAAGG AGACTACCAT GGCAGATCCA GAGAAATTTC AAGAAACCAG TGAGGAGAAA 
TCAAAGGCCT TCTCAGCTCG TAAGATCTCT CTTAGCAGCA GTAAATCATC CCCGGGCACC 
AGCAGTGCAG AGGGTGAACA GGAGTCTGGG ACAGTGGCTG GTCGCAAGAG GAGGTGGGGC 
TCCAGCACAG CTGTTACTGC TAAGAAACCT TCCATCAGCA TCACCACTGA CTCACTCAAG 
TCTCTGATCC CAGACATCAG GCCATGTCTA GGACAGGAAG CAGTAGTTGA CTTGCATCCA 
GAGGAAGCTG TCCTCTCTGG GGCTGATGAT GAAGACAGGG AGCGCTCTGA TCAGGACCTT 
CAGATTAGAC GCACAGTTAC ACAGGTGGTG CATTCAGAAA GCCAGGAGAA TGGGCAAAGA 
GAAGCAAAGA GGAGCAGGCA AGAGGAGGCA GAGGAAGATG ATCTACAGGT AGACCAAGAA 
AGGACAAAGG CTCATGAAGA GCAGATGGAT ACCTCTATTC CTGTAGCTGT TGAAACTCAT 
TCACCAACAC ATACCAGCCA TGATGTAGAA ATCAACACTG TGACCCCCAG CGACACCCTC 
ATTCGTCGCT CCATCAGCCA GCAGAAAACA AGTGTTTCCA TCACAATTGA TGACCCTGTT 
CGCACGGCCA AGCAGCCCTC ACCACCTCGC GGAAAAGTCT CCACTATTGT TCACATCTGC 
AACCTGGTGA GGCCATTCAC TCTGGGACAG CTTAAGGAAC TGCTCAGCAG AACTGGCAGT 
CTGGTGGAGG AGGGCTTCTG GATTGACAAA ATCAAGTCCC ACTGCTATGT CACTTATTCA 
AGTGTAGAGG AGGCAGTCGC CACACGAGCA GCTCTTCATG GCGTGAAATG GCCACAGAGC 
AACCCAAAAG TTCTCACTGT TGACTTCTGC CAGCAGGATG AATTGGACTT CCACAAAGGT 
TTGGGTGCAG GTGACAAACC TGGAGCAGAG GAACATGGTC CTGGCTCCGG CCGTGGTCGA 
ACATCGGGCC TGCCCTCTCT CCTTCCTGAG CGAGATCAGT GGGCTGAACG GGAACGCGAA 
ATGGAACGCA GGGAGCGAGC TCGAGCAGAG CGGGAGTGGG ATCGCGACAA GGTTAGAGAG 
TTTGGAAAAC ACGGAGAAGA GAAGGAGGGA GGTCCTCGAA GGTCGCGATC AAGAGAGAGG 
CGACGCAAGG AGAGGGGAAA GAGCAAGGAG AAGAAAGAGA AAATAGCCGA GGATCCCCCT 
GCAAAGCTGC TTGATGACTT GTTCCGCAAG ACTAAAGCTG CTCCTTGCAT ATACTGGCTT 
CCACTTACAG ATGAACAGTT TGCCCAGCGG GAAGCTGCCA GAGCAGAACG GGCAAAAGAA 
CGTGAGAAAC GGCGAAAGGA GCAAGAAGAG GAGGAGAAAA AAAGGGAAGA GGAGCGCAAG 
GAGAGGGTGA AAACTGGAGG AGGCACAACA GAACGCAGTG AGGGTGAGAA AGACAAGGAC 
AGAGAGAGAG ACAGAGGTCG AGATAGAGAC AGGGAGAGGG AGAGAGAGAG GGAAAGGGAG 
AACGACAAAC GCAGGGATGG CTACCGTAGG CCCGGGGGCA GCGGGGCGGG CGGAGGCCGA 
CGCTCACGCA GCCGCAGCGA ACCACGAGAA AGGCGGCGCT AA