LOC111161174 cDNA ORF clone, Enhydra lutris kenyoni

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC111161174
Entrez Gene ID	111161174
Full Name	period circadian regulator 1
Gene Type	protein-coding
Organism	Enhydra lutris kenyoni

mRNA and Protein(s)

mRNA	Protein	Name
XM_022524719.1	XP_022380427.1	period circadian protein homolog 1

Pathways from BioSystems
Gene Ontology

The following LOC111161174 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC111161174 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
OEn52104	XM_022524719.1 Latest version!	Enhydra lutris kenyoni period circadian clock 1 (LOC111161174), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00

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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)

LOC111161174 ( XM_022524719.1 ) cDNA ORF clone, Enhydra lutris kenyoni -> XP_022380427.1 Enhydra lutris kenyoni period circadian clock 1 (LOC111161174), mRNA.

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CloneID	OEn52104
Clone ID Related Accession (Same CDS sequence)	XM_022524719.1
Accession Version	XM_022524719.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3864bp) 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	period circadian protein homolog 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_019154166.1) 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##

ATGAGTGGCC CCCTAGAAGG GGCTGGTGGG GGAGGGGACC CCGGGCCGGG GGAATCCTTT 
TGCCCGGGAG GGGCCCCATC CCCTGGGCCT CCGCAGCGCC GGTCTTGCCC TGGTCCCGGC 
CTGCCTGATG ACACAGACGC CAACAGTAAT GGCTCCAGCG GTAACGAATC CAATGGGCCT 
GAGTCCCGGG GGGCATCTCA GCGGAGCTCA CACAGCTCCT CGTCGGGCAA CGGCAAGGAC 
TCAGCCCTGC TGGAGACCAC TGAGAGCAGC AAGAGCACGA ACTCTCAGAG TCCGTCCCCG 
CCCAGCAGTT CCATTGCCTA CAGCCTCCTG AGTGCCAGCT CCGAGCAGGA CAACCCGTCT 
ACCAGTGGCT GCAGCAGTGA ACAGTCAGCC CGGGCGAGGA CCCAGAAGGA ACTCATGACG 
GCTCTGCGGG AGCTCAAGCT TCGGCTTCCC CCCGAGCGCA GGGGCAAGGG CCGCTCTGGG 
ACGCTGGCCA CACTCCAGTA CGCTCTGGCC TGTGTGAAGC AGGTGCAGGC CAACCAGGAG 
TACTACCAGC AGTGGAGCCT GGAGGAGGGC GAGCCCTGCG CCATGGACAT GTCCACCTAC 
ACGCTGGAGG AGCTGGAGCA CATCACGTCC GAGTACACGC TGCGCAATCA GGACACCTTC 
TCCGTGGCGG TCTCCTTCCT GACAGGCCGC ATCGTCTACA TCTCGGAGCA GGCGGGTGTC 
TTGCTGCGCT GTAAACGGGA TGTGTTCCGG GGGGCCCACT TCTCAGAGCT GCTGGCGCCC 
CAGGATGTGG GCGTTTTCTA TGGCTCCACG GCCCCATCTC GCCTGCCCAC CTGGGGTGCT 
GGGACCTCGG CAGGTTCAGG TGCCAAAGAC TTCACCCAAG AGAAGTCTGT CTTCTGCCGC 
ATCAGAGGAG GTCCTGACCG GGACTCAGGG CCTCGGTACC AGCCATTCCG CCTCACGCCC 
TATGTGACCA AGATCCGGGT GTCCGAAGGG GCCGCAGCAC AGCCATGCTG CCTGCTCATT 
GCAGAACGCA TCCACTCGGG TTACGAAGCT CCCCGGATCC CCCCAGACAA GAGGATCTTC 
ACCACTCGGC ACACCCCCAG CTGCCTCTTC CAGGACGTGG ACGAAAGGGC CGCCCCGCTG 
CTGGGCTACC TCCCCCAGGA CCTCCTGGGG GCCCCAGTGC TCCTGTTCTT GCATCCTGAG 
GACCGACCCC TCATGCTGGC CATCCACAAG AAGATCCTGC AGTTGGCCGG CCAGCCCTTT 
GACCACTCCC CAATCCGCTT CTGCGCCCGG AATGGAGAGT ATGTCACCAT GGACACCAGC 
TGGGCTGGCT TCGTGCACCC CTGGAGCCGC AAGGTGGCCT TTGTCTTGGG CCGCCACAAA 
GTACGCACGG CACCCCTGAA CGAGGACGTG TTCACGCCGC CGGCCCCCAG CCCGGCTCTG 
TCTCTGGACT CCGACATCCA GGAGCTCTCG GAGCAGATCC ACCGGCTGTT GTTACAGCCC 
GTGCACAGCC CCAGTCCCAC GGGGCTCTGT GGAGTGGGCC CTGTCGCTTC TCCGGGCCCT 
CTCCTCAGCC CTGGCTCCTC CAGTGACAGC AACGGGGGTG ACGCCGAGGG ACCTGGGCCT 
CCTGTGCCAG TGACGTTCCA GCAGATCTGT AAGGACGTGC ACCTGGTGAA GCACCAGGGA 
CAGCAGCTTT TCATCGAGTC CCGCGCTCGG CCTCCGGCCC GGCCCCGCCT CCCTGCTACA 
GGCACATTCA AGGCCAAGAC CCTTTCCTGC CAATCGCCAG ACCCGGAGCT GGAAATGGTC 
CCTGCTCCCC TCCAGGCCCC ACTCGCCTTG ACCCCTGAGG AGGCTGAGAG GAAAGATGCG 
TCCACTTGTT CCTACCAGCA GATCAACTGC CTGGACAGCA TCCTCCGGTA CCTGGAGAGC 
TGCAACATCC CCAGCACGAC CAAGCGGAAG TGCGCCTCCT CGTCGTCCTG TACCGCCTCC 
TCAGCCTCCG ACGATGACAA GCAGAGGACG GGCCCGGTCT CTTTGGGGGC CAAGAAAGAT 
CCAGCCCCGG CAGTGCTGTC CGGGGAGGGG GCCGGCCCAC AGAAGGAGCC CGTGGTAGGA 
GGCGCCCTGA GCCCGCTCGC CCTGGCCAAT AAGGCGGAGA GCGTGGTGTC TGTCACCAGC 
CAGTGTAGCT TCAGCTCCAC CATCGTCCAT GTGGGAGACA AGAAGCCCCC GGAGTCGGAC 
ATCATCATGA TGGAGGACCT GCCTGGCCTG GCTCCAGGCC CAGCTCCCAG CCCAGCCCCC 
AGCCCCACGG TAGCCCCCGA CCCCGCCCCA GACGCCTACC GCCCGGTGGG CCTGACCAAG 
GCCGTGCTGT CCCTGCACAC ACAGAAGGAG GAGCAGGCCT TCCTCAGCCG CTTCCGAGAC 
CTCAGCCGAC TGCGGACGCT CGATGGCTCC TCCCCGGCCC CCCTGGCCCC TGGCGAGCGA 
GGCTGCCACC ACGGCCCCGC ACCCCACGGT CGCCGACACC ACTGCCGCTC CAAAGCCAAG 
CGCTCCCGCC ACCACCAGAC CCCCCGGGCT GATGCCCCCT GTTACGGCTC CCACCCGCCG 
CCTGTGTCAC CCTCGGCCCC CTGGCCCCCC CCACCAGCCA CTGCTCCCTT CCCAGCCATG 
GTCCAGTCCT ACCCTCTCCC AGTGTTCTCC ACTCGAGGAG GCCCCCAGCC TCTCCCCTCT 
GCCCCCACAG CTGGGCCCCC TGCAGCTTTC CCTGCCCCGC TGGTGACGCC CATGGTAGCC 
TTGGTGCTCC CTAACTACCT GTTCCCCACC CCATCTAGCT ATCCCTATGG GGTAGCCCAG 
ACCCCCACCG AAGGGCCTCC CACCCCCGCC TCCCACTCCC CTTCTCCGTC CCTGCCCCCA 
CCGCCCCCCA GCCCTCCTCG AGGGCCGGAC TCTCCGATAT TCAACTCCCG CTGCAGCTCC 
CCACTCCAGC TGAATCTGCT ACAGCTTGAG GAGCCCCCGC GTGTTGAAGG GGGCGCTGTT 
GCAGGGGGCC CTGGGAATAG TGCTGGGCCC CCACCCTCCG GCGAGGAGGC CACTGAGCCA 
GAGGCCAGAC TGGCGGAGGT GACCGAGTCC AACCAGGACG CGCTGTCGGG CTCCAGTGAC 
CTGCTGGAGC TGCTGCTGCA GGACTCCCGC TCCGGCACGG GCTCCGCCGC CTCCGGCTCC 
CTGGGCTCTG GCCTGGGCTC TGGCTCGGGC TCGGGCTCCC ACGAGGGAGG CAGCACCTCA 
GCCAGCATCA CACGCAGTAG TCAGAGCAGC CACACGAGCA AGTACTTCGG CAGCATCGAC 
TCTTCTGAGG CCGAAGCCGG GGCTGCCCAG GCCAGGGCTG AGCCTGGGGA CCAGGTCATT 
AAGTACGTGC TCCAGGATCC CATCTGGCTG CTCATGGCCA ACGCTGACCA GCACGTCATG 
ATGACCTACC AGGTGCCGTC CAGGGACGTG GCCTCTGTGC TGAAGAAGGA CCGGGAGCGG 
CTCCGGGCCA TGCAGAAGCA GCAGCCTCGG TTCTCAGAGG ACCAGCGCAG GGAACTGGGT 
GCCGTGCACT CCTGGGTCCG GAAGGGTCAG CTGCCTCGGG CCCTCGATGT GATGGCCTGT 
GTGGATTGTG GCAGTAGCAC CCAAGACCCT CAACACTCCG ATGACCCCCT CTTCTCAGAA 
CTGGATGGAC TGGGACTGGA GCCTATGGAG GAGGGCGGAG GCGAGGGTGG GGGTGGGGGT 
GGGGAGGGCG AGGGCGGAGA AGAGAACCAG GCTAGACCTG GGGCCAGGGT CTGCAGCTCT 
CAGGACCTGG CCATGGAGGA GGAGGAACAA GGTGGGAGCT CATCCAGTCC AGCCTTACCT 
GCCACAGAAA ATGGCACCAG CTAG

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

RefSeq	XP_022380427.1
CDS	195..4058
Translation	MSGPLEGAGGGGDPGPGESFCPGGAPSPGPPQRRSCPGPGLPDDTDANSNGSSGNESNGPESRGASQRSSHSSSSGNGKDSALLETTESSKSTNSQSPSPPSSSIAYSLLSASSEQDNPSTSGCSSEQSARARTQKELMTALRELKLRLPPERRGKGRSGTLATLQYALACVKQVQANQEYYQQWSLEEGEPCAMDMSTYTLEELEHITSEYTLRNQDTFSVAVSFLTGRIVYISEQAGVLLRCKRDVFRGAHFSELLAPQDVGVFYGSTAPSRLPTWGAGTSAGSGAKDFTQEKSVFCRIRGGPDRDSGPRYQPFRLTPYVTKIRVSEGAAAQPCCLLIAERIHSGYEAPRIPPDKRIFTTRHTPSCLFQDVDERAAPLLGYLPQDLLGAPVLLFLHPEDRPLMLAIHKKILQLAGQPFDHSPIRFCARNGEYVTMDTSWAGFVHPWSRKVAFVLGRHKVRTAPLNEDVFTPPAPSPALSLDSDIQELSEQIHRLLLQPVHSPSPTGLCGVGPVASPGPLLSPGSSSDSNGGDAEGPGPPVPVTFQQICKDVHLVKHQGQQLFIESRARPPARPRLPATGTFKAKTLSCQSPDPELEMVPAPLQAPLALTPEEAERKDASTCSYQQINCLDSILRYLESCNIPSTTKRKCASSSSCTASSASDDDKQRTGPVSLGAKKDPAPAVLSGEGAGPQKEPVVGGALSPLALANKAESVVSVTSQCSFSSTIVHVGDKKPPESDIIMMEDLPGLAPGPAPSPAPSPTVAPDPAPDAYRPVGLTKAVLSLHTQKEEQAFLSRFRDLSRLRTLDGSSPAPLAPGERGCHHGPAPHGRRHHCRSKAKRSRHHQTPRADAPCYGSHPPPVSPSAPWPPPPATAPFPAMVQSYPLPVFSTRGGPQPLPSAPTAGPPAAFPAPLVTPMVALVLPNYLFPTPSSYPYGVAQTPTEGPPTPASHSPSPSLPPPPPSPPRGPDSPIFNSRCSSPLQLNLLQLEEPPRVEGGAVAGGPGNSAGPPPSGEEATEPEARLAEVTESNQDALSGSSDLLELLLQDSRSGTGSAASGSLGSGLGSGSGSGSHEGGSTSASITRSSQSSHTSKYFGSIDSSEAEAGAAQARAEPGDQVIKYVLQDPIWLLMANADQHVMMTYQVPSRDVASVLKKDRERLRAMQKQQPRFSEDQRRELGAVHSWVRKGQLPRALDVMACVDCGSSTQDPQHSDDPLFSELDGLGLEPMEEGGGEGGGGGGEGEGGEENQARPGARVCSSQDLAMEEEEQGGSSSSPALPATENGTS

Target ORF information:

RefSeq Version	XM_022524719.1
Organism	Enhydra lutris kenyoni
Definition	Enhydra lutris kenyoni period circadian clock 1 (LOC111161174), mRNA.

Target ORF information:

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

XM_022524719.1

ORF Insert Sequence:

ATGAGTGGCC CCCTAGAAGG GGCTGGTGGG GGAGGGGACC CCGGGCCGGG GGAATCCTTT 
TGCCCGGGAG GGGCCCCATC CCCTGGGCCT CCGCAGCGCC GGTCTTGCCC TGGTCCCGGC 
CTGCCTGATG ACACAGACGC CAACAGTAAT GGCTCCAGCG GTAACGAATC CAATGGGCCT 
GAGTCCCGGG GGGCATCTCA GCGGAGCTCA CACAGCTCCT CGTCGGGCAA CGGCAAGGAC 
TCAGCCCTGC TGGAGACCAC TGAGAGCAGC AAGAGCACGA ACTCTCAGAG TCCGTCCCCG 
CCCAGCAGTT CCATTGCCTA CAGCCTCCTG AGTGCCAGCT CCGAGCAGGA CAACCCGTCT 
ACCAGTGGCT GCAGCAGTGA ACAGTCAGCC CGGGCGAGGA CCCAGAAGGA ACTCATGACG 
GCTCTGCGGG AGCTCAAGCT TCGGCTTCCC CCCGAGCGCA GGGGCAAGGG CCGCTCTGGG 
ACGCTGGCCA CACTCCAGTA CGCTCTGGCC TGTGTGAAGC AGGTGCAGGC CAACCAGGAG 
TACTACCAGC AGTGGAGCCT GGAGGAGGGC GAGCCCTGCG CCATGGACAT GTCCACCTAC 
ACGCTGGAGG AGCTGGAGCA CATCACGTCC GAGTACACGC TGCGCAATCA GGACACCTTC 
TCCGTGGCGG TCTCCTTCCT GACAGGCCGC ATCGTCTACA TCTCGGAGCA GGCGGGTGTC 
TTGCTGCGCT GTAAACGGGA TGTGTTCCGG GGGGCCCACT TCTCAGAGCT GCTGGCGCCC 
CAGGATGTGG GCGTTTTCTA TGGCTCCACG GCCCCATCTC GCCTGCCCAC CTGGGGTGCT 
GGGACCTCGG CAGGTTCAGG TGCCAAAGAC TTCACCCAAG AGAAGTCTGT CTTCTGCCGC 
ATCAGAGGAG GTCCTGACCG GGACTCAGGG CCTCGGTACC AGCCATTCCG CCTCACGCCC 
TATGTGACCA AGATCCGGGT GTCCGAAGGG GCCGCAGCAC AGCCATGCTG CCTGCTCATT 
GCAGAACGCA TCCACTCGGG TTACGAAGCT CCCCGGATCC CCCCAGACAA GAGGATCTTC 
ACCACTCGGC ACACCCCCAG CTGCCTCTTC CAGGACGTGG ACGAAAGGGC CGCCCCGCTG 
CTGGGCTACC TCCCCCAGGA CCTCCTGGGG GCCCCAGTGC TCCTGTTCTT GCATCCTGAG 
GACCGACCCC TCATGCTGGC CATCCACAAG AAGATCCTGC AGTTGGCCGG CCAGCCCTTT 
GACCACTCCC CAATCCGCTT CTGCGCCCGG AATGGAGAGT ATGTCACCAT GGACACCAGC 
TGGGCTGGCT TCGTGCACCC CTGGAGCCGC AAGGTGGCCT TTGTCTTGGG CCGCCACAAA 
GTACGCACGG CACCCCTGAA CGAGGACGTG TTCACGCCGC CGGCCCCCAG CCCGGCTCTG 
TCTCTGGACT CCGACATCCA GGAGCTCTCG GAGCAGATCC ACCGGCTGTT GTTACAGCCC 
GTGCACAGCC CCAGTCCCAC GGGGCTCTGT GGAGTGGGCC CTGTCGCTTC TCCGGGCCCT 
CTCCTCAGCC CTGGCTCCTC CAGTGACAGC AACGGGGGTG ACGCCGAGGG ACCTGGGCCT 
CCTGTGCCAG TGACGTTCCA GCAGATCTGT AAGGACGTGC ACCTGGTGAA GCACCAGGGA 
CAGCAGCTTT TCATCGAGTC CCGCGCTCGG CCTCCGGCCC GGCCCCGCCT CCCTGCTACA 
GGCACATTCA AGGCCAAGAC CCTTTCCTGC CAATCGCCAG ACCCGGAGCT GGAAATGGTC 
CCTGCTCCCC TCCAGGCCCC ACTCGCCTTG ACCCCTGAGG AGGCTGAGAG GAAAGATGCG 
TCCACTTGTT CCTACCAGCA GATCAACTGC CTGGACAGCA TCCTCCGGTA CCTGGAGAGC 
TGCAACATCC CCAGCACGAC CAAGCGGAAG TGCGCCTCCT CGTCGTCCTG TACCGCCTCC 
TCAGCCTCCG ACGATGACAA GCAGAGGACG GGCCCGGTCT CTTTGGGGGC CAAGAAAGAT 
CCAGCCCCGG CAGTGCTGTC CGGGGAGGGG GCCGGCCCAC AGAAGGAGCC CGTGGTAGGA 
GGCGCCCTGA GCCCGCTCGC CCTGGCCAAT AAGGCGGAGA GCGTGGTGTC TGTCACCAGC 
CAGTGTAGCT TCAGCTCCAC CATCGTCCAT GTGGGAGACA AGAAGCCCCC GGAGTCGGAC 
ATCATCATGA TGGAGGACCT GCCTGGCCTG GCTCCAGGCC CAGCTCCCAG CCCAGCCCCC 
AGCCCCACGG TAGCCCCCGA CCCCGCCCCA GACGCCTACC GCCCGGTGGG CCTGACCAAG 
GCCGTGCTGT CCCTGCACAC ACAGAAGGAG GAGCAGGCCT TCCTCAGCCG CTTCCGAGAC 
CTCAGCCGAC TGCGGACGCT CGATGGCTCC TCCCCGGCCC CCCTGGCCCC TGGCGAGCGA 
GGCTGCCACC ACGGCCCCGC ACCCCACGGT CGCCGACACC ACTGCCGCTC CAAAGCCAAG 
CGCTCCCGCC ACCACCAGAC CCCCCGGGCT GATGCCCCCT GTTACGGCTC CCACCCGCCG 
CCTGTGTCAC CCTCGGCCCC CTGGCCCCCC CCACCAGCCA CTGCTCCCTT CCCAGCCATG 
GTCCAGTCCT ACCCTCTCCC AGTGTTCTCC ACTCGAGGAG GCCCCCAGCC TCTCCCCTCT 
GCCCCCACAG CTGGGCCCCC TGCAGCTTTC CCTGCCCCGC TGGTGACGCC CATGGTAGCC 
TTGGTGCTCC CTAACTACCT GTTCCCCACC CCATCTAGCT ATCCCTATGG GGTAGCCCAG 
ACCCCCACCG AAGGGCCTCC CACCCCCGCC TCCCACTCCC CTTCTCCGTC CCTGCCCCCA 
CCGCCCCCCA GCCCTCCTCG AGGGCCGGAC TCTCCGATAT TCAACTCCCG CTGCAGCTCC 
CCACTCCAGC TGAATCTGCT ACAGCTTGAG GAGCCCCCGC GTGTTGAAGG GGGCGCTGTT 
GCAGGGGGCC CTGGGAATAG TGCTGGGCCC CCACCCTCCG GCGAGGAGGC CACTGAGCCA 
GAGGCCAGAC TGGCGGAGGT GACCGAGTCC AACCAGGACG CGCTGTCGGG CTCCAGTGAC 
CTGCTGGAGC TGCTGCTGCA GGACTCCCGC TCCGGCACGG GCTCCGCCGC CTCCGGCTCC 
CTGGGCTCTG GCCTGGGCTC TGGCTCGGGC TCGGGCTCCC ACGAGGGAGG CAGCACCTCA 
GCCAGCATCA CACGCAGTAG TCAGAGCAGC CACACGAGCA AGTACTTCGG CAGCATCGAC 
TCTTCTGAGG CCGAAGCCGG GGCTGCCCAG GCCAGGGCTG AGCCTGGGGA CCAGGTCATT 
AAGTACGTGC TCCAGGATCC CATCTGGCTG CTCATGGCCA ACGCTGACCA GCACGTCATG 
ATGACCTACC AGGTGCCGTC CAGGGACGTG GCCTCTGTGC TGAAGAAGGA CCGGGAGCGG 
CTCCGGGCCA TGCAGAAGCA GCAGCCTCGG TTCTCAGAGG ACCAGCGCAG GGAACTGGGT 
GCCGTGCACT CCTGGGTCCG GAAGGGTCAG CTGCCTCGGG CCCTCGATGT GATGGCCTGT 
GTGGATTGTG GCAGTAGCAC CCAAGACCCT CAACACTCCG ATGACCCCCT CTTCTCAGAA 
CTGGATGGAC TGGGACTGGA GCCTATGGAG GAGGGCGGAG GCGAGGGTGG GGGTGGGGGT 
GGGGAGGGCG AGGGCGGAGA AGAGAACCAG GCTAGACCTG GGGCCAGGGT CTGCAGCTCT 
CAGGACCTGG CCATGGAGGA GGAGGAACAA GGTGGGAGCT CATCCAGTCC AGCCTTACCT 
GCCACAGAAA ATGGCACCAG CTAG