gpr179 cDNA ORF clone, Callorhinchus milii(elephant shark)

Gene
Clones
gRNAs

Summary

Gene Symbol	gpr179
Entrez Gene ID	103185747
Full Name	G protein-coupled receptor 179
Gene Type	protein-coding
Organism	Callorhinchus milii(elephant shark)

mRNA and Protein(s)

mRNA	Protein	Name
XM_007904406.1	XP_007902597.1	probable G-protein coupled receptor 179

Pathways from BioSystems
Gene Ontology

The following gpr179 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the gpr179 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
OCa384115	XM_007904406.1 Latest version!	Callorhinchus milii G protein-coupled receptor 179 (gpr179), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$797.30 $1139.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone	30% OFF
2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
30% OFF

*Business Day

** 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)

gpr179 ( XM_007904406.1 ) cDNA ORF clone, Callorhinchus milii(elephant shark) -> XP_007902597.1 Callorhinchus milii G protein-coupled receptor 179 (gpr179), mRNA.

Price & Availability↑

CloneID	OCa384115
Clone ID Related Accession (Same CDS sequence)	XM_007904406.1
Accession Version	XM_007904406.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4467bp) 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	2014-05-08
Organism	Callorhinchus milii(elephant shark)
Product	probable G-protein coupled receptor 179
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006890175.1) 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 :: Callorhinchus milii Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 34% of CDS bases ##RefSeq-Attributes-END##

ATGGCTCTGA CTGTGTTGCC TGTCATTCTG TATGTCCAAG CTGGGGTGAT GTGTGGCTTC 
TGGGGCTTTG AGAAGCATCG GGTGGGAGCC AACCCTGTGC TGGTCAGGGA GACCAAAGGG 
TCGGGGATAT CGCTCCTGGT CACCTCGACG GAAGGCAACC TGGAGAAACC TGACCAGGAG 
ACGTCGGAGG CTGCCTCGGC GTTCCTCTAC ACTGGAGATC CTTCCAAACT GACCCAGGTC 
AACTGCACCA GGCGGGTCGA GATCAGAGGC ATGAGGGTCA AGACCGCCGA TGTGCTTCAT 
CCTTACCTCC ACGGAGCCAA GCACACCCTC ATCCATGCCA CCAACTTCCT CAATTTGATA 
TTTCAGACCG ATGATATTCG GGAGTCCAGT GTGAAGGACG ACATAGAGTG GTACCACGCC 
TTAGTGAGGA GCATCATCGA AGGAGATCCC CAGATCTACA GGACAATGTT AACTTTTGAT 
TCTCCGCCCA TTTCTTCCAA GCCTCAGTTG GTCCTTCAGG CCACCAGGTA CCAGAATGAG 
ATCTTCCTGC AGGACCTCTC CTCCACCTCG GACTACCTTG AGAACCAGAC CTCGGAGAGC 
GAGTGGTTCA ATGGGTTAAA GTACCAAAGG ACGCCTTATC TGAACAAGAG AATCCTCAAC 
AACGACCTCA AAACCCTGGA CACTCCCAAG TGGAACCAAG GGGACAGCTA CCTGATGGAT 
GAGAAGCACA TTAAGTGGTC CATGCCCTTC ATGGAGTGCG AGAACTATAA GTTCTTCCCC 
GGTTGGATGG TCACCATGTC TTCGTCCTTT TATGGCCTGA AACCGGACCT GAGTCCCGAG 
TTTAAGGGGG TGATTCGCAT TGACATCAAC CTACAGAGCG TGGACATTAA CCAGTGCTCC 
CCTGGAGATA GCTGGTTTGC AGACTCCCAC CAGTGCGACT TAAACAGCAC AGAGTGTGTG 
CCTCTCCAAG GTCAAGGCTT TCAACTCGGA GCATATCAAT GTGTCTGTCA GAAAGGATTC 
TACAACCCCA ATGTCATCTC AACCAATGGC TTCAGCAGTA AGTATCTCTG CAGCGGAATC 
CGGCGCCAAG CCGTGGAGGA GGCGCGGGAG CTGTTCGAGT GCCGGGCGTG CGGGCTGGGC 
TGCAGCCGGT GCACCAGCGA CGCTCCCTGT CTGGTCCAGG AGGACGAGTA CCTGAGGGTA 
TCCATCCTGA CCTGCCAGGC TTTCTGCATG CTTCTCGTGT TCCTCAGCAT GTTGGTCGCT 
TATCACTACA GAAGGAACAA GAGAATTCGA GCATCTGGAC TGATTCTTCT GGAGACAATC 
CTCGGCGGAT CAATCCTCTT GTATTTTCCG GTGTTTATCC TTTACTTCAC CCCGAGCGTG 
TTCCGATGTA TTCTCCTGCG TTGGGTCAGG ATGTTGGGCT TTGCTGTGAT TTACGGAACT 
ATAACACTGA AGATGTACAG GGTGCTGAAG GTGTTCCTGT CCCGGACCGC CCAGAGGGTG 
CCCTACATGA CGTGCTGCCG AGTGCTGAAG ATGCTGGGTG TGATCATCCT GACCGTCTGC 
TGGTTCTTGA TCGCCTGGAC AGTGGCCGTC TGGGAGAACA TGGAGAGGAG AATCCCATTG 
ATCGTCCAGT CCCAAACTCC TGACGGACAG TCGTTTAACA CGTGTCAGCT CGACCGATGG 
GATTACATGA TGGCTGTCGC GGAGTTGCTT CTCCTGTGCT GGGCCAGCTA TCTCTGCTAC 
GCCGTACGCA CCGTGCCATC TGCGTTCCAC GAGCCCCGCT TCATGGGTCT CGCGATCCAC 
AATGAAATCG TCATGTCCGC TGCCTTCCAC AGCGTCAGAT TCACCACAGT GACAAGTCTT 
CACCCTGATT GGATGCTGTT GCTCTTCTTT GTGCACACTC ACTTGACCGT GACGATGACC 
CTGGCTTTAC TCTTCATCCC TAAGTTCCTC CATGTGGGAA TGCCGCTGAG AGAGGAGATA 
GCGGCCGAGG TGTACGAGGA CGAGTTGGAC ATGCGCCGTT CAGGCTCCTA TCTCAACAGC 
AGCATCACAT CCGCCTGGAG TGACCACAGC CTGGACCCAG ATGACATCAG GGACGAACTG 
AAGAAACTTT ACGGGCAGCT AGAGGTGCAC AAAACCAAGA AGATGACAGC GAATAACCCA 
CACCTCCAGA AGAAGAGGAG CTCCAGGAGG ACTCTGGGTC GATCCATCAT GAAGCGAATA 
TCAGAATTTC CCGAGTCCAT GAGCAGGCAG CACGGCAAGG ACGAGAGGGA TGGAAGGGGC 
AGCTATCCTG GCTCCTACAA GAAAAAGACC TACGATCCCA CCAGCTTCAG TCTGAAAGTC 
AAGGAGGACT CCATCAAGCA CCGTGTTTTG TCTTTGAGAA AATCTCACAG TACCTACGAC 
CACGTGAGAG ATCACCGCGA TGGCTCGACC AGCAAATCAG ACACCGGGGG CAAGGATCCT 
TCTCTCCTGG ATTCACTGAT GAGGAAGAAA CTGGCCAAGA AGGTCTCTGC CAAATCGGAC 
ACGGATTCGG TGGACTCTTC CCGTTCGGTG TGCAAGTCCG CGAGCGCGCA CAACCTGTCT 
GTGGACATCA GGCCGCTGTG CCCCAAGATG ACCACTCTGC AGAAATCCCG TAGCGTGAGC 
TCGAGCTCAA AAGAAAAGGC GCTGCTCATC AGCAAGTCTT ACCTCAGTGT CGAAAGCGCA 
AGGCGGGTCA GGGACAAGGT TCAAAAGAAT CCGGCGAGCA AGCGAGCGTC CAGGGAGCTG 
CAGTCCTGCA CGCTGCCGGA GACGTCCAAG AAACAAAACG TGTCACCGTC AACCAGGCAG 
CGGCGGGCCA GCGAAGTCCC GCGAGGATCA CCCAGATCGC TCTTGGAAGA TAACTTTGAC 
AACTTCGACA AGGCCGAGGT TTGCCCCTGG GAGTTACAGG ACCTCCCGCC CTCGTCTCCT 
GATAACAGAT CTCAGAAGCA CGTCAGGTAC GCGCCCGTAA AGTGCATCAG CGTGGACAGC 
TCGCACTTAT CCGGAAAACA ACTGCAGGAA ACCAGTAGAA AAAAATTCGG CAAACAGGCA 
GTGAAATACA CAAGTATGAG TCGAGGCAGC GTGGACAACA TTACACCTTG GCCTCCAAAG 
GAGCTATCGC CAGAGCACGA CACGCTTAAA CCATCTACAG ATACACATCA CGGAGCCAAT 
AGATCACCTA AAATGGACAA GTCAATGGAA CGTCCCAGAG CAGGAAGCAT TTGCGATTCA 
GAGCACGAAG AAAGATCAAA TAGGGCCAAT AAGGCAGAAA TATCTTCTGA AAAGACAGAC 
CACATTAGCA TAGACAGCTT CTCACCAGAT AGCAAATGGC AAGGATCCAT CTCACGCTCC 
ATATCAAACG CAAGCCGTAC TCAACCATCA CCTAAAGCAG CAATCATCTG TCCTTGGGAG 
TTTGATGTGG AAATGACGTC AAAGATAGAA ATGAACGTGC ATCTAAAGAA AGTGAGATCT 
GCTTCCATCT GCTCCAGCAC AGTCTCAATT GGGAATTGGT CGTTGGCAAA GGACCGCAAA 
GGATCAGTCC AGTCGTCTCT AGGATTGGGA ATCCCCTTAA CAGGCTTCAG TGCCTCCAGA 
CATGGCAGCG TGAAAGAGGA GGTAAACGAG TGTGAGAAAC TGAAAGAGGA GAAAGAGACG 
TTGAAAGCCA AAGCGGGTCC AGTCAAGAAA CCTAGAATGG CTCATCTCCT CAAATGGATC 
ACAGCAGACA GGACGAGTAA GGCAGATGAA TTAGCACTGC CAACGTACAC AAATAAAACA 
ATGGATATCT GTCCCTGGGA CTCGGTACCA CCACCAAATG GAGAAAGCAA TGAGAGCGGA 
GATAAGATTA AAATAGCAGA AATCTGTCCT TGGGACACCA CATCACCGCC AATGGAAGAA 
AGTAGAGAAA TTGGAGATAA GAGTAAAATA GCAGATATTT GTCCATGGGA CTCAGCACAA 
ACTGGAGAAA GCAAAGAGAA TGGAGATCAA AGTAACACAG CAGATATCTG TCCTTGGGAC 
ACAGGACCAC AATCACTACC AACTGCAGAT AGGAAAGAGG GTGGTGAGAA GAGTAAAACA 
GCTGATATCT GTCCGTGGGA TACACCATCA TCACCGATTG GAGAAAATAG AGAGAATAGA 
GATCAGAGTA AAATAGCAGA CATCTGTTCT TGGGACACAA GTCCACAAAC ACCTGAATGT 
AGAGAGTTTA CAGATGAGAA TAAAACAGTA GATATCTGTC CCTGGGACAC AGGACCATCA 
CCAACAACTA GAGAAAGCAA AGAGAGTGTA GATCAGAGTA AACCAGCTGA GATCTGTCCT 
TGGGACTCAG CATCAGCACC AATTGGAGAA AGTAGAGAGC CTGGAGATCA GGGTAAAATA 
GCAGAGATCT GTCCTTGGGA CACAGGAACA TCACCACTTG GAGAAAGCAA AGAGAGTGGA 
GATAAAGGCC GCTACGAGCG AACCTAA

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

RefSeq	XP_007902597.1
CDS	1..4467
Translation	MALTVLPVILYVQAGVMCGFWGFEKHRVGANPVLVRETKGSGISLLVTSTEGNLEKPDQETSEAASAFLYTGDPSKLTQVNCTRRVEIRGMRVKTADVLHPYLHGAKHTLIHATNFLNLIFQTDDIRESSVKDDIEWYHALVRSIIEGDPQIYRTMLTFDSPPISSKPQLVLQATRYQNEIFLQDLSSTSDYLENQTSESEWFNGLKYQRTPYLNKRILNNDLKTLDTPKWNQGDSYLMDEKHIKWSMPFMECENYKFFPGWMVTMSSSFYGLKPDLSPEFKGVIRIDINLQSVDINQCSPGDSWFADSHQCDLNSTECVPLQGQGFQLGAYQCVCQKGFYNPNVISTNGFSSKYLCSGIRRQAVEEARELFECRACGLGCSRCTSDAPCLVQEDEYLRVSILTCQAFCMLLVFLSMLVAYHYRRNKRIRASGLILLETILGGSILLYFPVFILYFTPSVFRCILLRWVRMLGFAVIYGTITLKMYRVLKVFLSRTAQRVPYMTCCRVLKMLGVIILTVCWFLIAWTVAVWENMERRIPLIVQSQTPDGQSFNTCQLDRWDYMMAVAELLLLCWASYLCYAVRTVPSAFHEPRFMGLAIHNEIVMSAAFHSVRFTTVTSLHPDWMLLLFFVHTHLTVTMTLALLFIPKFLHVGMPLREEIAAEVYEDELDMRRSGSYLNSSITSAWSDHSLDPDDIRDELKKLYGQLEVHKTKKMTANNPHLQKKRSSRRTLGRSIMKRISEFPESMSRQHGKDERDGRGSYPGSYKKKTYDPTSFSLKVKEDSIKHRVLSLRKSHSTYDHVRDHRDGSTSKSDTGGKDPSLLDSLMRKKLAKKVSAKSDTDSVDSSRSVCKSASAHNLSVDIRPLCPKMTTLQKSRSVSSSSKEKALLISKSYLSVESARRVRDKVQKNPASKRASRELQSCTLPETSKKQNVSPSTRQRRASEVPRGSPRSLLEDNFDNFDKAEVCPWELQDLPPSSPDNRSQKHVRYAPVKCISVDSSHLSGKQLQETSRKKFGKQAVKYTSMSRGSVDNITPWPPKELSPEHDTLKPSTDTHHGANRSPKMDKSMERPRAGSICDSEHEERSNRANKAEISSEKTDHISIDSFSPDSKWQGSISRSISNASRTQPSPKAAIICPWEFDVEMTSKIEMNVHLKKVRSASICSSTVSIGNWSLAKDRKGSVQSSLGLGIPLTGFSASRHGSVKEEVNECEKLKEEKETLKAKAGPVKKPRMAHLLKWITADRTSKADELALPTYTNKTMDICPWDSVPPPNGESNESGDKIKIAEICPWDTTSPPMEESREIGDKSKIADICPWDSAQTGESKENGDQSNTADICPWDTGPQSLPTADRKEGGEKSKTADICPWDTPSSPIGENRENRDQSKIADICSWDTSPQTPECREFTDENKTVDICPWDTGPSPTTRESKESVDQSKPAEICPWDSASAPIGESREPGDQGKIAEICPWDTGTSPLGESKESGDKGRYERT

Target ORF information:

RefSeq Version	XM_007904406.1
Organism	Callorhinchus milii(elephant shark)
Definition	Callorhinchus milii G protein-coupled receptor 179 (gpr179), mRNA.

Target ORF information:

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

XM_007904406.1

ORF Insert Sequence:

ATGGCTCTGA CTGTGTTGCC TGTCATTCTG TATGTCCAAG CTGGGGTGAT GTGTGGCTTC 
TGGGGCTTTG AGAAGCATCG GGTGGGAGCC AACCCTGTGC TGGTCAGGGA GACCAAAGGG 
TCGGGGATAT CGCTCCTGGT CACCTCGACG GAAGGCAACC TGGAGAAACC TGACCAGGAG 
ACGTCGGAGG CTGCCTCGGC GTTCCTCTAC ACTGGAGATC CTTCCAAACT GACCCAGGTC 
AACTGCACCA GGCGGGTCGA GATCAGAGGC ATGAGGGTCA AGACCGCCGA TGTGCTTCAT 
CCTTACCTCC ACGGAGCCAA GCACACCCTC ATCCATGCCA CCAACTTCCT CAATTTGATA 
TTTCAGACCG ATGATATTCG GGAGTCCAGT GTGAAGGACG ACATAGAGTG GTACCACGCC 
TTAGTGAGGA GCATCATCGA AGGAGATCCC CAGATCTACA GGACAATGTT AACTTTTGAT 
TCTCCGCCCA TTTCTTCCAA GCCTCAGTTG GTCCTTCAGG CCACCAGGTA CCAGAATGAG 
ATCTTCCTGC AGGACCTCTC CTCCACCTCG GACTACCTTG AGAACCAGAC CTCGGAGAGC 
GAGTGGTTCA ATGGGTTAAA GTACCAAAGG ACGCCTTATC TGAACAAGAG AATCCTCAAC 
AACGACCTCA AAACCCTGGA CACTCCCAAG TGGAACCAAG GGGACAGCTA CCTGATGGAT 
GAGAAGCACA TTAAGTGGTC CATGCCCTTC ATGGAGTGCG AGAACTATAA GTTCTTCCCC 
GGTTGGATGG TCACCATGTC TTCGTCCTTT TATGGCCTGA AACCGGACCT GAGTCCCGAG 
TTTAAGGGGG TGATTCGCAT TGACATCAAC CTACAGAGCG TGGACATTAA CCAGTGCTCC 
CCTGGAGATA GCTGGTTTGC AGACTCCCAC CAGTGCGACT TAAACAGCAC AGAGTGTGTG 
CCTCTCCAAG GTCAAGGCTT TCAACTCGGA GCATATCAAT GTGTCTGTCA GAAAGGATTC 
TACAACCCCA ATGTCATCTC AACCAATGGC TTCAGCAGTA AGTATCTCTG CAGCGGAATC 
CGGCGCCAAG CCGTGGAGGA GGCGCGGGAG CTGTTCGAGT GCCGGGCGTG CGGGCTGGGC 
TGCAGCCGGT GCACCAGCGA CGCTCCCTGT CTGGTCCAGG AGGACGAGTA CCTGAGGGTA 
TCCATCCTGA CCTGCCAGGC TTTCTGCATG CTTCTCGTGT TCCTCAGCAT GTTGGTCGCT 
TATCACTACA GAAGGAACAA GAGAATTCGA GCATCTGGAC TGATTCTTCT GGAGACAATC 
CTCGGCGGAT CAATCCTCTT GTATTTTCCG GTGTTTATCC TTTACTTCAC CCCGAGCGTG 
TTCCGATGTA TTCTCCTGCG TTGGGTCAGG ATGTTGGGCT TTGCTGTGAT TTACGGAACT 
ATAACACTGA AGATGTACAG GGTGCTGAAG GTGTTCCTGT CCCGGACCGC CCAGAGGGTG 
CCCTACATGA CGTGCTGCCG AGTGCTGAAG ATGCTGGGTG TGATCATCCT GACCGTCTGC 
TGGTTCTTGA TCGCCTGGAC AGTGGCCGTC TGGGAGAACA TGGAGAGGAG AATCCCATTG 
ATCGTCCAGT CCCAAACTCC TGACGGACAG TCGTTTAACA CGTGTCAGCT CGACCGATGG 
GATTACATGA TGGCTGTCGC GGAGTTGCTT CTCCTGTGCT GGGCCAGCTA TCTCTGCTAC 
GCCGTACGCA CCGTGCCATC TGCGTTCCAC GAGCCCCGCT TCATGGGTCT CGCGATCCAC 
AATGAAATCG TCATGTCCGC TGCCTTCCAC AGCGTCAGAT TCACCACAGT GACAAGTCTT 
CACCCTGATT GGATGCTGTT GCTCTTCTTT GTGCACACTC ACTTGACCGT GACGATGACC 
CTGGCTTTAC TCTTCATCCC TAAGTTCCTC CATGTGGGAA TGCCGCTGAG AGAGGAGATA 
GCGGCCGAGG TGTACGAGGA CGAGTTGGAC ATGCGCCGTT CAGGCTCCTA TCTCAACAGC 
AGCATCACAT CCGCCTGGAG TGACCACAGC CTGGACCCAG ATGACATCAG GGACGAACTG 
AAGAAACTTT ACGGGCAGCT AGAGGTGCAC AAAACCAAGA AGATGACAGC GAATAACCCA 
CACCTCCAGA AGAAGAGGAG CTCCAGGAGG ACTCTGGGTC GATCCATCAT GAAGCGAATA 
TCAGAATTTC CCGAGTCCAT GAGCAGGCAG CACGGCAAGG ACGAGAGGGA TGGAAGGGGC 
AGCTATCCTG GCTCCTACAA GAAAAAGACC TACGATCCCA CCAGCTTCAG TCTGAAAGTC 
AAGGAGGACT CCATCAAGCA CCGTGTTTTG TCTTTGAGAA AATCTCACAG TACCTACGAC 
CACGTGAGAG ATCACCGCGA TGGCTCGACC AGCAAATCAG ACACCGGGGG CAAGGATCCT 
TCTCTCCTGG ATTCACTGAT GAGGAAGAAA CTGGCCAAGA AGGTCTCTGC CAAATCGGAC 
ACGGATTCGG TGGACTCTTC CCGTTCGGTG TGCAAGTCCG CGAGCGCGCA CAACCTGTCT 
GTGGACATCA GGCCGCTGTG CCCCAAGATG ACCACTCTGC AGAAATCCCG TAGCGTGAGC 
TCGAGCTCAA AAGAAAAGGC GCTGCTCATC AGCAAGTCTT ACCTCAGTGT CGAAAGCGCA 
AGGCGGGTCA GGGACAAGGT TCAAAAGAAT CCGGCGAGCA AGCGAGCGTC CAGGGAGCTG 
CAGTCCTGCA CGCTGCCGGA GACGTCCAAG AAACAAAACG TGTCACCGTC AACCAGGCAG 
CGGCGGGCCA GCGAAGTCCC GCGAGGATCA CCCAGATCGC TCTTGGAAGA TAACTTTGAC 
AACTTCGACA AGGCCGAGGT TTGCCCCTGG GAGTTACAGG ACCTCCCGCC CTCGTCTCCT 
GATAACAGAT CTCAGAAGCA CGTCAGGTAC GCGCCCGTAA AGTGCATCAG CGTGGACAGC 
TCGCACTTAT CCGGAAAACA ACTGCAGGAA ACCAGTAGAA AAAAATTCGG CAAACAGGCA 
GTGAAATACA CAAGTATGAG TCGAGGCAGC GTGGACAACA TTACACCTTG GCCTCCAAAG 
GAGCTATCGC CAGAGCACGA CACGCTTAAA CCATCTACAG ATACACATCA CGGAGCCAAT 
AGATCACCTA AAATGGACAA GTCAATGGAA CGTCCCAGAG CAGGAAGCAT TTGCGATTCA 
GAGCACGAAG AAAGATCAAA TAGGGCCAAT AAGGCAGAAA TATCTTCTGA AAAGACAGAC 
CACATTAGCA TAGACAGCTT CTCACCAGAT AGCAAATGGC AAGGATCCAT CTCACGCTCC 
ATATCAAACG CAAGCCGTAC TCAACCATCA CCTAAAGCAG CAATCATCTG TCCTTGGGAG 
TTTGATGTGG AAATGACGTC AAAGATAGAA ATGAACGTGC ATCTAAAGAA AGTGAGATCT 
GCTTCCATCT GCTCCAGCAC AGTCTCAATT GGGAATTGGT CGTTGGCAAA GGACCGCAAA 
GGATCAGTCC AGTCGTCTCT AGGATTGGGA ATCCCCTTAA CAGGCTTCAG TGCCTCCAGA 
CATGGCAGCG TGAAAGAGGA GGTAAACGAG TGTGAGAAAC TGAAAGAGGA GAAAGAGACG 
TTGAAAGCCA AAGCGGGTCC AGTCAAGAAA CCTAGAATGG CTCATCTCCT CAAATGGATC 
ACAGCAGACA GGACGAGTAA GGCAGATGAA TTAGCACTGC CAACGTACAC AAATAAAACA 
ATGGATATCT GTCCCTGGGA CTCGGTACCA CCACCAAATG GAGAAAGCAA TGAGAGCGGA 
GATAAGATTA AAATAGCAGA AATCTGTCCT TGGGACACCA CATCACCGCC AATGGAAGAA 
AGTAGAGAAA TTGGAGATAA GAGTAAAATA GCAGATATTT GTCCATGGGA CTCAGCACAA 
ACTGGAGAAA GCAAAGAGAA TGGAGATCAA AGTAACACAG CAGATATCTG TCCTTGGGAC 
ACAGGACCAC AATCACTACC AACTGCAGAT AGGAAAGAGG GTGGTGAGAA GAGTAAAACA 
GCTGATATCT GTCCGTGGGA TACACCATCA TCACCGATTG GAGAAAATAG AGAGAATAGA 
GATCAGAGTA AAATAGCAGA CATCTGTTCT TGGGACACAA GTCCACAAAC ACCTGAATGT 
AGAGAGTTTA CAGATGAGAA TAAAACAGTA GATATCTGTC CCTGGGACAC AGGACCATCA 
CCAACAACTA GAGAAAGCAA AGAGAGTGTA GATCAGAGTA AACCAGCTGA GATCTGTCCT 
TGGGACTCAG CATCAGCACC AATTGGAGAA AGTAGAGAGC CTGGAGATCA GGGTAAAATA 
GCAGAGATCT GTCCTTGGGA CACAGGAACA TCACCACTTG GAGAAAGCAA AGAGAGTGGA 
GATAAAGGCC GCTACGAGCG AACCTAA