LPHN2 cDNA ORF clone, Eurypyga helias(sunbittern)

Gene
Clones
gRNAs

Summary

Gene Symbol	LPHN2
Entrez Gene ID	104515976
Full Name	adhesion G protein-coupled receptor L2
Gene Type	protein-coding
Organism	Eurypyga helias(sunbittern)

mRNA and Protein(s)

mRNA	Protein	Name
XM_010160154.1	XP_010158456.1	latrophilin-2

Pathways from BioSystems
Gene Ontology

The following LPHN2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LPHN2 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
OEu95629	XM_010160154.1 Latest version!	Eurypyga helias latrophilin 2 (LPHN2), 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)

LPHN2 ( XM_010160154.1 ) cDNA ORF clone, Eurypyga helias(sunbittern) -> XP_010158456.1 Eurypyga helias latrophilin 2 (LPHN2), mRNA.

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CloneID	OEu95629
Clone ID Related Accession (Same CDS sequence)	XM_010160154.1
Accession Version	XM_010160154.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4206bp) 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	2014-11-05
Organism	Eurypyga helias(sunbittern)
Product	latrophilin-2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_010228831.1) 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 :: Eurypyga helias Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 2% of CDS bases ##RefSeq-Attributes-END##

ATGAGGAGGG AAGCCCTGCT GAGTGCAGGA GATACAGACA CCATTGCTGC CAGCTGGAGG 
AATGAGCCTT ATGTCGACAG CATTAAATGT GACAGGAGCG GTTTCAGCCG AGCAGCACTA 
CCTTTTGGTT TGGTTAGGAG GGAGCTCTCC TGCGAAGGCT ACTCCATTGA CCTCCGGTGT 
CCAGGAAGTG ATGTTATTAT GATAGAAAGT GCTAACTATG GACGGACAGA TGACAAGATT 
TGTGATGCTG ACCCTTTCCA GATGGAGAAT ACAGAATGCT TCCTTCCAGA CGCCTACAAA 
ATTATGACAC AAAGGTGCAA CAACCGAACA CAGTGTATAG TAGTCACTGG GTCAGATGTG 
TTTCCTGATC CTTGTCCTGG AACATACAAA TATCTAGAAG TTCAGTATGA ATGTGTTCCT 
TACATTTTTG TTTGCCCGGG GACGTTGAAA GCAATTGTGG ACTCGCCGTA TTTATATGAA 
GCTGAACAAA AAGCAGGTGC TTGGTGCAAA GATCCTCTCC AGGCTGCAGA TAAAATATAC 
TTCATGCCGT GGACTCCATA TCGCACCGAT ACTTTGATAG AATATGCTTC TCTGGAGGAC 
TTCCAAAACG GACGCCAGCA GACGACTTAT AAACTCCCAA ATCGAGTGGA TGGTACTGGA 
TTTGTGGTGT ACGATGGCGC TGTCTTTTTT AACAAGGAAA GAACTAGGAA CATAGTAAAA 
TTCGACTTGA GGACTAGAAT TAAGAGTGGA GAGGCCATAA TCAATTATGC TAATTACCAT 
GACACCTCTC CATACCGATG GGGAGGAAAG ACTGATATTG ACTTGGCAGT TGATGAAAAT 
GGCTTATGGG TAATTTATGC TACGGAGCAA AATAACGGGA TGATAGTAAT TAGCCAGCTG 
AACCCCTACA CCCTGCGTTT CGAAGCCACC TGGGAAACGA CGTACGACAA ACGGGCAGCA 
TCTAATGCTT TCATGATATG TGGTGTCCTG TACGTAGTGC GGTCGGTGTA TCAGGACAAT 
GAGAGCGAGA CCGGCAAGAA CACCATCGAT TACATCTACA ACACCAGGTT AAGTAGAGGC 
GAGCACGTGG ACATTCCTTT CCCCAACCAG TACCAGTACA TTGCCGCAGT GGATTACAAC 
CCCAGAGACA ACCAGCTGTA TGTATGGAAT AACAACTTCA TTCTGCGATA TACTTTGGAG 
TTTGGCCCAC CTGATCCTGC CCAAGAGAGA TTCTGTGAAC CGACTGAGGC CAGGGGGATT 
AGCTGGCCTC AGACACAAAG AGGAATGATG GTTGAACGCC CTTGCCCCAA AGGAACACGA 
GGAACTGCCT CGTATCTCTG CGTGGTCTTA ACGGGAACAT GGAACACCAA AGGCCCTGAT 
CTTAGCAACT GCACCTCACA CTGGGTAAAT CAGCTGGCTC AGAAGATCAG AAGTGGAGAA 
AATGCTGCTA GTCTGGCCAA TGAACTGGCT AAACACACCA AAGGACCTGT CTTTGCTGGC 
GATGTTAGTT CATCAGTGAG GCTGATGGAG CAGCTCGTGG ACATTTTGGA CGCTCAGCTG 
CAGGAACTAC GGCCCAGTGA AAAAGACTCT GCTGGAAGGA GTTATAACAA GCTCCAAAAA 
CGAGAGAAGA CATGCAGGGC TTACCTTAAG GCAATTGTGG ATACAGTGGA CAACCTGCTC 
AGGCCTGAAG CTCTGGAGTC CTGGAAGGAC ATGAACTCAT CAGAACAAGC CCATGCAGCC 
ACAATGCTAC TTGATACGTT AGAAGAAGGG GCTTTTGTCT TGGCTGATAA TCTCTTAGAA 
CCAACTAGAG TCTCAATGCC CACAGAAAAT ATCGTTTTGG ATGTTGCAGT GCTCATTACT 
GAGGGCCAGG TGCAGGACTT GAAATTTCCT CAGGGCAGTA AAGGAGGCAA CTCGATTCAG 
CTCTCTGCAA GCACTGTGAA ACAGAACAGC ATTAATGGAT TAGCAAAACT GGTTTTCATA 
ATCTACAAAA GTTTGGGGCG TTTTCTCAGT ACTGAAAATG CAACCATAAA GCTGGGCAGC 
GACTTTGCTG GGCGGAACAG CACGATCGCT GTCAACTCCC ACGTCATTGC AGCCTCTATC 
AACAAGGAGT CCAGCCGGGT GTACCTGACT GATCCTGTGC ATTTTACACT GGAACACATC 
GATCCTGACA ATTATTTCAA TGCAAATTGT TCCTTCTGGA ACTACTCAGA GAGGACTATG 
ATGGGATACT GGTCAACTCA AGGCTGCAAA CTGGTTGACA CAAATAAAAC TCATACAACA 
TGTGCTTGTA GTCACCTAAC CAACTTTGCA ATCCTTATGG CTCATCGGGA AATTGTGTAC 
AAAGATGGAA TGCACGAATT GCTCCTCACT GTCATCACCT GGGTGGGAAT TGTCATCTCT 
CTTGTTTGCC TGGCCATCTG CATCTTCACA TTCTGTTTTT TCCGTGGCCT GCAAAGTGAT 
CGTAACACTA TTCACAAGAA CCTTTGTATC AACCTATTCA TTGCTGAGTT CATTTTCCTA 
ATAGGCATCG ATAAGACAGA GTACAAGATT GCATGTCCAA TATTTGCAGG TCTCTTACAC 
TTTTTCTTCC TGGCAGCCTT TGCCTGGATG TGTCTAGAAG GAGTGCAGCT TTATCTAATG 
TTAGTAGAAG TATTTGAAAG TGAATATTCT AGGAAGAAGT ACTATTATGT TGCTGGCTAC 
CTCTTCCCTG CTACAGTAGT TGGTGTCTCA GCCGCTATTG ACTATAAGAG CTACGGAACA 
GAGAAAGCTT GCTGGCTCCA TGTAGATAAC TATTTTATCT GGAGTTTCAT TGGACCTGTT 
ACCTTTATCA TTCTGCTGAA TCTTATCTTC CTGGTGATCA CATTGTGCAA AATGGTGAAG 
CACTCAAACA CTTTGAAACC AGACTCTAGC AGGTTGGAAA ACATTAAATC CTGGGTCCTG 
GGTGCATTTG CTCTCCTGTG TCTCCTTGGC CTAACATGGT CATTTGGCCT GCTGTTTATC 
AATGAAGGAA CTGTTGTGAT GACGTATCTC TTCACAGTGT TTAATGCTTT CCAAGGAATG 
TTTATTTTCA TCTTTCATTG TGCCCTTCAA AAGAAAGTAC GTAAGGAATA TGGCAAGTGC 
TTCCGACATT CCTACTGCTG TGGTGGACTG CCAACTGAGA GTCCTCACAG TTCAGTGAAG 
GCATCAACAA CAAGAACTAG TGCTCGCTAT TCATCTGGCA CTCAGAGTCG TATAAGGAGG 
ATGTGGAATG ACACTGTGAG AAAACAATCT GAATCATCTT TTATCTCAGG TGACATCAAC 
AGCACTTCAA CACTTAATCA AGGAATGACT GGCAATTACC TACTAACAAA CCCTCTTCTT 
CGACCACACG GCACTAACAA CCCCTATAAC ACATTGCTCG CTGAAACCGT TGTATGTAAT 
GCCCCTTCAG CTCCTGTGTT TAACTCACCA GGACATTCAC TGAACAATGC CAGGGATACA 
AGTGCCATGG ATACTCTACC GCTAAATGGT AATTTCAACA ACAGCTACTC AATGCGCAAT 
GGAGACTATA ACGACAGCGT GCAAGTTGTA GACTGTGGAC TAAGCCTGAA TGATACTGCT 
TTTGAGAAAA TGATCATTTC AGAATTAGTG CACAACAACC TGCGGGGCAG CAGCAAGAAC 
CACAACCTGG AGCGCACGCT ACCAGCCAAA GCTGTGATCG GCGGGAGCAG TAGCGAAGAT 
GACGCCATCG TGGCAGATGC CTCATCTTTG ATGCACAGTG ACACCCCCGG GCTGGAGCTC 
CACCACAAAG AGCTTGAAGC CCCACTCATT CCTCAGCGGA CTCACTCCCT TCTGTACCAG 
CCCCAGAAGA AAGTGAAGAC CGAGGGAACC GACAGCTATG TCTCGCAGCT GACAGCCGAG 
GCTGACGACC ACCTCCAGTC CCCCAACAGA GACTCTCTTT ACACGAGCAT GCCCAATCTC 
AGAGACTCTC CGTATCCAGA GAGCAGCCCC GACGTTGAAG AAGACCTCTC TCCCTCCAGG 
AGGAGTGAAA ATGAGGACAT TTACTACAAG AGCATGCCAA ACCTAGGAGC TGGCCATCAG 
CTTCAGATGT ACTATCAAAT CAGCAGGGGT AATAGCGACG GCTATATAAT TCCCATTAAC 
AAGGAAGGAT GTATTCCCGA AGGGGATGTT AGAGAAGGAC AAATGCAACT AGTGACAAGC 
CTTTAA

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

RefSeq	XP_010158456.1
CDS	1..4206
Translation	MRREALLSAGDTDTIAASWRNEPYVDSIKCDRSGFSRAALPFGLVRRELSCEGYSIDLRCPGSDVIMIESANYGRTDDKICDADPFQMENTECFLPDAYKIMTQRCNNRTQCIVVTGSDVFPDPCPGTYKYLEVQYECVPYIFVCPGTLKAIVDSPYLYEAEQKAGAWCKDPLQAADKIYFMPWTPYRTDTLIEYASLEDFQNGRQQTTYKLPNRVDGTGFVVYDGAVFFNKERTRNIVKFDLRTRIKSGEAIINYANYHDTSPYRWGGKTDIDLAVDENGLWVIYATEQNNGMIVISQLNPYTLRFEATWETTYDKRAASNAFMICGVLYVVRSVYQDNESETGKNTIDYIYNTRLSRGEHVDIPFPNQYQYIAAVDYNPRDNQLYVWNNNFILRYTLEFGPPDPAQERFCEPTEARGISWPQTQRGMMVERPCPKGTRGTASYLCVVLTGTWNTKGPDLSNCTSHWVNQLAQKIRSGENAASLANELAKHTKGPVFAGDVSSSVRLMEQLVDILDAQLQELRPSEKDSAGRSYNKLQKREKTCRAYLKAIVDTVDNLLRPEALESWKDMNSSEQAHAATMLLDTLEEGAFVLADNLLEPTRVSMPTENIVLDVAVLITEGQVQDLKFPQGSKGGNSIQLSASTVKQNSINGLAKLVFIIYKSLGRFLSTENATIKLGSDFAGRNSTIAVNSHVIAASINKESSRVYLTDPVHFTLEHIDPDNYFNANCSFWNYSERTMMGYWSTQGCKLVDTNKTHTTCACSHLTNFAILMAHREIVYKDGMHELLLTVITWVGIVISLVCLAICIFTFCFFRGLQSDRNTIHKNLCINLFIAEFIFLIGIDKTEYKIACPIFAGLLHFFFLAAFAWMCLEGVQLYLMLVEVFESEYSRKKYYYVAGYLFPATVVGVSAAIDYKSYGTEKACWLHVDNYFIWSFIGPVTFIILLNLIFLVITLCKMVKHSNTLKPDSSRLENIKSWVLGAFALLCLLGLTWSFGLLFINEGTVVMTYLFTVFNAFQGMFIFIFHCALQKKVRKEYGKCFRHSYCCGGLPTESPHSSVKASTTRTSARYSSGTQSRIRRMWNDTVRKQSESSFISGDINSTSTLNQGMTGNYLLTNPLLRPHGTNNPYNTLLAETVVCNAPSAPVFNSPGHSLNNARDTSAMDTLPLNGNFNNSYSMRNGDYNDSVQVVDCGLSLNDTAFEKMIISELVHNNLRGSSKNHNLERTLPAKAVIGGSSSEDDAIVADASSLMHSDTPGLELHHKELEAPLIPQRTHSLLYQPQKKVKTEGTDSYVSQLTAEADDHLQSPNRDSLYTSMPNLRDSPYPESSPDVEEDLSPSRRSENEDIYYKSMPNLGAGHQLQMYYQISRGNSDGYIIPINKEGCIPEGDVREGQMQLVTSL

Target ORF information:

RefSeq Version	XM_010160154.1
Organism	Eurypyga helias(sunbittern)
Definition	Eurypyga helias latrophilin 2 (LPHN2), mRNA.

Target ORF information:

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

XM_010160154.1

ORF Insert Sequence:

ATGAGGAGGG AAGCCCTGCT GAGTGCAGGA GATACAGACA CCATTGCTGC CAGCTGGAGG 
AATGAGCCTT ATGTCGACAG CATTAAATGT GACAGGAGCG GTTTCAGCCG AGCAGCACTA 
CCTTTTGGTT TGGTTAGGAG GGAGCTCTCC TGCGAAGGCT ACTCCATTGA CCTCCGGTGT 
CCAGGAAGTG ATGTTATTAT GATAGAAAGT GCTAACTATG GACGGACAGA TGACAAGATT 
TGTGATGCTG ACCCTTTCCA GATGGAGAAT ACAGAATGCT TCCTTCCAGA CGCCTACAAA 
ATTATGACAC AAAGGTGCAA CAACCGAACA CAGTGTATAG TAGTCACTGG GTCAGATGTG 
TTTCCTGATC CTTGTCCTGG AACATACAAA TATCTAGAAG TTCAGTATGA ATGTGTTCCT 
TACATTTTTG TTTGCCCGGG GACGTTGAAA GCAATTGTGG ACTCGCCGTA TTTATATGAA 
GCTGAACAAA AAGCAGGTGC TTGGTGCAAA GATCCTCTCC AGGCTGCAGA TAAAATATAC 
TTCATGCCGT GGACTCCATA TCGCACCGAT ACTTTGATAG AATATGCTTC TCTGGAGGAC 
TTCCAAAACG GACGCCAGCA GACGACTTAT AAACTCCCAA ATCGAGTGGA TGGTACTGGA 
TTTGTGGTGT ACGATGGCGC TGTCTTTTTT AACAAGGAAA GAACTAGGAA CATAGTAAAA 
TTCGACTTGA GGACTAGAAT TAAGAGTGGA GAGGCCATAA TCAATTATGC TAATTACCAT 
GACACCTCTC CATACCGATG GGGAGGAAAG ACTGATATTG ACTTGGCAGT TGATGAAAAT 
GGCTTATGGG TAATTTATGC TACGGAGCAA AATAACGGGA TGATAGTAAT TAGCCAGCTG 
AACCCCTACA CCCTGCGTTT CGAAGCCACC TGGGAAACGA CGTACGACAA ACGGGCAGCA 
TCTAATGCTT TCATGATATG TGGTGTCCTG TACGTAGTGC GGTCGGTGTA TCAGGACAAT 
GAGAGCGAGA CCGGCAAGAA CACCATCGAT TACATCTACA ACACCAGGTT AAGTAGAGGC 
GAGCACGTGG ACATTCCTTT CCCCAACCAG TACCAGTACA TTGCCGCAGT GGATTACAAC 
CCCAGAGACA ACCAGCTGTA TGTATGGAAT AACAACTTCA TTCTGCGATA TACTTTGGAG 
TTTGGCCCAC CTGATCCTGC CCAAGAGAGA TTCTGTGAAC CGACTGAGGC CAGGGGGATT 
AGCTGGCCTC AGACACAAAG AGGAATGATG GTTGAACGCC CTTGCCCCAA AGGAACACGA 
GGAACTGCCT CGTATCTCTG CGTGGTCTTA ACGGGAACAT GGAACACCAA AGGCCCTGAT 
CTTAGCAACT GCACCTCACA CTGGGTAAAT CAGCTGGCTC AGAAGATCAG AAGTGGAGAA 
AATGCTGCTA GTCTGGCCAA TGAACTGGCT AAACACACCA AAGGACCTGT CTTTGCTGGC 
GATGTTAGTT CATCAGTGAG GCTGATGGAG CAGCTCGTGG ACATTTTGGA CGCTCAGCTG 
CAGGAACTAC GGCCCAGTGA AAAAGACTCT GCTGGAAGGA GTTATAACAA GCTCCAAAAA 
CGAGAGAAGA CATGCAGGGC TTACCTTAAG GCAATTGTGG ATACAGTGGA CAACCTGCTC 
AGGCCTGAAG CTCTGGAGTC CTGGAAGGAC ATGAACTCAT CAGAACAAGC CCATGCAGCC 
ACAATGCTAC TTGATACGTT AGAAGAAGGG GCTTTTGTCT TGGCTGATAA TCTCTTAGAA 
CCAACTAGAG TCTCAATGCC CACAGAAAAT ATCGTTTTGG ATGTTGCAGT GCTCATTACT 
GAGGGCCAGG TGCAGGACTT GAAATTTCCT CAGGGCAGTA AAGGAGGCAA CTCGATTCAG 
CTCTCTGCAA GCACTGTGAA ACAGAACAGC ATTAATGGAT TAGCAAAACT GGTTTTCATA 
ATCTACAAAA GTTTGGGGCG TTTTCTCAGT ACTGAAAATG CAACCATAAA GCTGGGCAGC 
GACTTTGCTG GGCGGAACAG CACGATCGCT GTCAACTCCC ACGTCATTGC AGCCTCTATC 
AACAAGGAGT CCAGCCGGGT GTACCTGACT GATCCTGTGC ATTTTACACT GGAACACATC 
GATCCTGACA ATTATTTCAA TGCAAATTGT TCCTTCTGGA ACTACTCAGA GAGGACTATG 
ATGGGATACT GGTCAACTCA AGGCTGCAAA CTGGTTGACA CAAATAAAAC TCATACAACA 
TGTGCTTGTA GTCACCTAAC CAACTTTGCA ATCCTTATGG CTCATCGGGA AATTGTGTAC 
AAAGATGGAA TGCACGAATT GCTCCTCACT GTCATCACCT GGGTGGGAAT TGTCATCTCT 
CTTGTTTGCC TGGCCATCTG CATCTTCACA TTCTGTTTTT TCCGTGGCCT GCAAAGTGAT 
CGTAACACTA TTCACAAGAA CCTTTGTATC AACCTATTCA TTGCTGAGTT CATTTTCCTA 
ATAGGCATCG ATAAGACAGA GTACAAGATT GCATGTCCAA TATTTGCAGG TCTCTTACAC 
TTTTTCTTCC TGGCAGCCTT TGCCTGGATG TGTCTAGAAG GAGTGCAGCT TTATCTAATG 
TTAGTAGAAG TATTTGAAAG TGAATATTCT AGGAAGAAGT ACTATTATGT TGCTGGCTAC 
CTCTTCCCTG CTACAGTAGT TGGTGTCTCA GCCGCTATTG ACTATAAGAG CTACGGAACA 
GAGAAAGCTT GCTGGCTCCA TGTAGATAAC TATTTTATCT GGAGTTTCAT TGGACCTGTT 
ACCTTTATCA TTCTGCTGAA TCTTATCTTC CTGGTGATCA CATTGTGCAA AATGGTGAAG 
CACTCAAACA CTTTGAAACC AGACTCTAGC AGGTTGGAAA ACATTAAATC CTGGGTCCTG 
GGTGCATTTG CTCTCCTGTG TCTCCTTGGC CTAACATGGT CATTTGGCCT GCTGTTTATC 
AATGAAGGAA CTGTTGTGAT GACGTATCTC TTCACAGTGT TTAATGCTTT CCAAGGAATG 
TTTATTTTCA TCTTTCATTG TGCCCTTCAA AAGAAAGTAC GTAAGGAATA TGGCAAGTGC 
TTCCGACATT CCTACTGCTG TGGTGGACTG CCAACTGAGA GTCCTCACAG TTCAGTGAAG 
GCATCAACAA CAAGAACTAG TGCTCGCTAT TCATCTGGCA CTCAGAGTCG TATAAGGAGG 
ATGTGGAATG ACACTGTGAG AAAACAATCT GAATCATCTT TTATCTCAGG TGACATCAAC 
AGCACTTCAA CACTTAATCA AGGAATGACT GGCAATTACC TACTAACAAA CCCTCTTCTT 
CGACCACACG GCACTAACAA CCCCTATAAC ACATTGCTCG CTGAAACCGT TGTATGTAAT 
GCCCCTTCAG CTCCTGTGTT TAACTCACCA GGACATTCAC TGAACAATGC CAGGGATACA 
AGTGCCATGG ATACTCTACC GCTAAATGGT AATTTCAACA ACAGCTACTC AATGCGCAAT 
GGAGACTATA ACGACAGCGT GCAAGTTGTA GACTGTGGAC TAAGCCTGAA TGATACTGCT 
TTTGAGAAAA TGATCATTTC AGAATTAGTG CACAACAACC TGCGGGGCAG CAGCAAGAAC 
CACAACCTGG AGCGCACGCT ACCAGCCAAA GCTGTGATCG GCGGGAGCAG TAGCGAAGAT 
GACGCCATCG TGGCAGATGC CTCATCTTTG ATGCACAGTG ACACCCCCGG GCTGGAGCTC 
CACCACAAAG AGCTTGAAGC CCCACTCATT CCTCAGCGGA CTCACTCCCT TCTGTACCAG 
CCCCAGAAGA AAGTGAAGAC CGAGGGAACC GACAGCTATG TCTCGCAGCT GACAGCCGAG 
GCTGACGACC ACCTCCAGTC CCCCAACAGA GACTCTCTTT ACACGAGCAT GCCCAATCTC 
AGAGACTCTC CGTATCCAGA GAGCAGCCCC GACGTTGAAG AAGACCTCTC TCCCTCCAGG 
AGGAGTGAAA ATGAGGACAT TTACTACAAG AGCATGCCAA ACCTAGGAGC TGGCCATCAG 
CTTCAGATGT ACTATCAAAT CAGCAGGGGT AATAGCGACG GCTATATAAT TCCCATTAAC 
AAGGAAGGAT GTATTCCCGA AGGGGATGTT AGAGAAGGAC AAATGCAACT AGTGACAAGC 
CTTTAA