Arhgef18 cDNA ORF clone, Marmota marmota marmota(Alpine marmot)

Gene
Clones
gRNAs

Summary

Gene Symbol	Arhgef18
Entrez Gene ID	107157474
Full Name	Rho/Rac guanine nucleotide exchange factor 18
Gene Type	protein-coding
Organism	Marmota marmota marmota(Alpine marmot)

mRNA and Protein(s)

mRNA	Protein	Name
XM_015503849.1	XP_015359335.1	rho guanine nucleotide exchange factor 18

Pathways from BioSystems
Gene Ontology

The following Arhgef18 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Arhgef18 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
OMa107506	XM_015503849.1 Latest version!	Marmota marmota marmota Rho/Rac guanine nucleotide exchange factor 18 (Arhgef18), 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)

Arhgef18 ( XM_015503849.1 ) cDNA ORF clone, Marmota marmota marmota(Alpine marmot) -> XP_015359335.1 Marmota marmota marmota Rho/Rac guanine nucleotide exchange factor 18 (Arhgef18), mRNA.

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CloneID	OMa107506
Clone ID Related Accession (Same CDS sequence)	XM_015503849.1
Accession Version	XM_015503849.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4128bp) 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	2016-01-27
Organism	Marmota marmota marmota(Alpine marmot)
Product	rho guanine nucleotide exchange factor 18
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_015351298.1) 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 :: Marmota marmota marmota Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 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##

ATGGACGTGG AGGGCAGCAG TGCACCCATT TTAGAGACAG AAAAACCAAG GGAAGATGGT 
TTTCCAGCGC CGCTCAGTGA GAGCACGGAG GACCTCAGCC TGGATTTGGA AGCCCTTCAG 
GGCAGCGAAT ATCTCCAGGA CCTGGGTCTA GGGGCCGCTT CACACAGCCA GCCTGGGGAG 
GCCATGGGCA GCACCCCCCG TAACAAAGAA GGTGGAAGAG ATTCGCCCTT GTCCAGCTCA 
GCAGGGGCCC AGGTCCTGCC ATGGAGACGG AGACGGAGAC GGAGCTGGGA GAGGTCCCGG 
AGCTGCTCAG GGAGCTGGCA GAGGCTCAGC CTTGATGCTT CAGCCTCGGA TGCGGGACCC 
TGTCTCCCTC GGACACTGGC TAGCCTTACT CTGAATCTGT CAGGAGAGGG GCTGAAAACT 
TGGACCCAGC GGTGTCTGTC TGGGGATGAG ACCCCAGCAG AACACCCAGG CAAGAAATGT 
GGCAGCCCCC AGCCAAGAGT GAGGTCCAGG TCAGTTCCCC TGTCCTGCGA GGAGATCAGC 
TCCCTGGAAC TTGCTCCTGG CTTGGAAGTG CCAGCCCCAT CTGTACAAGG CCTGGACCCG 
CCCGTGCTGG AGTGCCTGGA AAAGGACCAC GTGGAGCCAG ACCAGGTGTT GATTGTTCAG 
CAAGTGCTTC AAGAACTTCG CCAGTACCAT GGGGCCCGGC AGAGGGCTCG CATGTCCTGC 
AGCCCTGGGG ATGCCCAGTC GAACCTCACC TGGTTTGAGT TCCTGTCTGA GAGCGAGGAT 
GGTGCCAGTA AGAATGAGAA GAACGACAAG AGCACCAGGG TGAAGCGTAG TCTGAGCTCC 
CTCCGCAGCC GGGTCACCAG GCAGAAGGAA AAGGGGAAGA GCCCAGCACA TGTAAAGGAC 
AAGACTCAGG AAGCTCGAGA GAGGCGGGAA TGTGTCAACG GACACCAGCT GGTGCGAGGA 
ACCTTCCTGG GTCACTCCAG CTGCCCGCTC TGCAGCAAAC CCTTCCTGAG CTCCGCCTCA 
CTGAAGGAGC ACCCGAGGAG CAGCCTTCTG TCTGATGGCA GCCCGGCCCC ATCCAGGAAT 
GTCGGCATGA CGGTCTCTCA GAAAGGGGGT CCCCAGCCAA TACCAAGCCC GGCCGGACCT 
GGGGCACGAC TCGGACCAGC CACAGGAGAG ATGGATGAAG CTGACTCTGT GGTTCTAAAA 
TTCAAGCAGG CAACTGATGA CTCCCTAGCA CTCACGTCCT CCAATACCGA GTCTGTTTTT 
GTAGAAGATC CCTACATTGC CTCGCTGAGA AGCGAAGTCG AATCGGACAC CCACGAGTTT 
GAGGCCGAGT CCTGGAGCCT GGCTGTAGAC TTGGCCTACG CCAAGAAGCA GAAGAAAGAG 
GTGGTGAAGA GACAGGATGT CCTGTACGAG CTGATGCAGA CAGAGGCACA CCACGTGCGG 
ACCCTCAAGA TCATGCTGAA GGTGTACTCC AAGGCCCTCC AGGAGGAGCT GCAGTTTGGC 
GGCCGGGCCA TCAGCCGCCT TTTCCCCTGC GCAGACGACC TGCTGGAGAT GCACAGCCAC 
TTCCTCGCTC GGCTCAAGGA GCGGCGCCGC GAGGCTCTGG AGGAGGGCAG CGAGCGGAAT 
TACATCATCC AGAAAATCGG GGACCTCTTG GTGCAGCAGT TTTCAGGTGA AAATGGGGAG 
AGAATGAAAG AAAAATACGG TGTGTTTTGC AGCGGCCACA ATGAAGCCGT CAGTCACTAC 
AAGTTACTGC TGCAACAAAA CAAGAAATTT CAAAACTTGA TCAAGAAAGT TGGCAGCTTC 
TCCATCGTGA GGCGGCTTGG TGTGCAGGAG TGCATCCTTC TGGTCACTCA GCGCATCACC 
AAATACCCTG TGCTGGTGGA GCGTATCATC CAGAACACAG AAGCTGGCAC TGAGGACCAT 
GAAGACCTGA CTCAAGCCCT GAACCTCATC AAAGACATCA TCTCCCAAGT GGATGCCAAG 
GTCAGTGAGT GTGAGAAGGG CCAGCGCCTC AGGGAGATCG CAGGGAAGAT GGACCTCAAG 
TCCTCCAGCA AACTCAAGAA TGGACTCACC TTCCGCAAGG AGGACATGCT ACAGCGGCAG 
CTGCATCTGG AGGGCACGCT GTGCTGGAAG ACCACTTCAG GGCGCTTGAA AGATGTCCTT 
GCTGTCCTCT TGACCGACGT GCTTCTACTG CTGCAAGAAA AGGACCAAAA ATATGTCTTT 
GCCTCTGTGG ACTCGAAGCC ACCTGTCATC TCTCTGCAAA AGCTCATCGT GAGGGAAGTG 
GCCAACGAAG AGAAGGCCAT GTTTCTGATC AGTGCCTCCC TGCAAGGACC TGAGATGTAT 
GAGATCTACA CCAGCTCCAA AGAGGACAGG AACTCCTGGA TGACCCACAT CCGCCAAGCC 
GTGGAGAGCT GTCCCGATGA GGAAGAGGGA CCCTTCAGTG AGGTCGAGGA GGAGCGGAAG 
GTCGCTGAGG CCCGCGCCAT GAGACTCCGG GACTTTCAAG AACGACTGAG CCAGAAAGAC 
CAACTGATCG CCCAGAGCCT CCTGGAGAAG CAGCAGATCT ACCTGGAGAT GGCAGAGATG 
AGCGGACTTG AGGACACAGC CCAGTCGCGT GGACTCTTCC GCGGAGGCGA TGCCTCGGAG 
ACCCTGCAGG GGGAGCAGAT CCTCAGATCG GCCATGAATG AGATCGAGGG TATCCAGAAC 
CTGATCTGCA GGCACCTGGG CTGCAGCAGT GGCCTAGCGG AAGAGGGAGG TGGCTCCACA 
GGCCTGCCTC GGAGGGCTGA GACCTTCGGA GGCTATGACA GCATGGGCAG CCCTAGCAAG 
AATGGCAGTT TTAAGAAGAA AGTCTGCAGC TGGCGAGGGC CTGCCAGCAG CCCAGACTCG 
AAGCTTGGAA ACGGAGATGT CCCTGGGGGC TGCGAGGAGT CACCGCAGGC GGTGGAGATG 
CCAGGTTCAG AGACTAGCCC CCGGCTGCCC ACTTTCCTGG AGTCAGAGCT TGTCCAGCGG 
ATCCAGACCT TGTCACAGCT GCTCCTCAGC CTCCAGGCGG TCATCGCCCA GCAGGACAGC 
TACGTGGAGA TGCAGCGGGC AGCCATCCAG GAGCGGGAGA AGCAGTTTCG ACTGCAGTCG 
ACGCGCGGGA ACCTGCTGCT GGAGCAGGAG CGGCAGCGCA ACTTTGAGAA GCAGCGAGAG 
GAGCGTGCGG ACGTGGAGAA GCTACAGACT CAGCTGCGGC AGGAGCAGCA GCGCTGGGAG 
CGAGAATGCG CGCGCCAACG GCAGGAGTTG GAGCGCGCAG GCGCACGGTT GCAGGCGCGG 
GAAGGCGAAG CGCAGCAGCT GCGTGATCAG CTGGACCAGG AACGTGCAGA GCTGGAGCGA 
CAGCGCCGGG CCTACCAGCA AGACCTAGAG CGGCTGCGCG AGGGCATGCG CGCGGTAGAG 
CGGGAGCGCG AGCGCCTGGA GCAGCAGCGG AGGCTCAAGA AGCAGAACAC AGTGCCAGGG 
GCACTGCCGC CCGGGGCGCT GGTGGAGGCC CAGCCGCCAA GCCACCCTCC TAGTTTCAAT 
GGGGAGGGGC AAGAGGGACC CCTGGCCTTG GCTAAAACAC CTGGGACCCG GGCGAACCTG 
CTGCTATCCG ATGCTGGGCC CGAGTATGTG GAGCGCCCTG AGGTGGCCCG CCGGGACAGT 
GCCCCAGCTG AGAGCCGGCC AACCAAGAGT GACGTGCCCA TCCAGCTGCT GAGCACCACC 
AACCAGATTC AGAGGCAGGC GGCAGTGCAG CAGCAGATCC CCACCAAGCT GGCCGCCTCC 
ACCAAGGGCA GCAAGGACAA GGGCAGCAAA AGCAGGGGCT CCCAGCGCTC GGAGAGCTCA 
GCTTCATTCG ACCTCAAGCA GCAGCTGCTT CTCAACAAGT TGATGGGCAA GGACGAGACT 
GCCTCTCGGA ATCGCCGGTC ACTGAGCCCC ATCCTGCTCA GCAGCCACAG CTCCACGCCT 
GCCACAGACT CCTACGTCCC AGCCCCGAGT CCAGCCCCAA CCGACATCCC TCCTGAGGCC 
TTCTTCATCA AGGCTGGGGG CACATCCTTC CCACCTGTGC CCCCGGCTCC CTCCCCACTA 
CAGGCCACCA GGGAGGAAGC CAGCAAGGAA GACGTCATCT TCTTCTGA

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

RefSeq	XP_015359335.1
CDS	1..4128
Translation	MDVEGSSAPILETEKPREDGFPAPLSESTEDLSLDLEALQGSEYLQDLGLGAASHSQPGEAMGSTPRNKEGGRDSPLSSSAGAQVLPWRRRRRRSWERSRSCSGSWQRLSLDASASDAGPCLPRTLASLTLNLSGEGLKTWTQRCLSGDETPAEHPGKKCGSPQPRVRSRSVPLSCEEISSLELAPGLEVPAPSVQGLDPPVLECLEKDHVEPDQVLIVQQVLQELRQYHGARQRARMSCSPGDAQSNLTWFEFLSESEDGASKNEKNDKSTRVKRSLSSLRSRVTRQKEKGKSPAHVKDKTQEARERRECVNGHQLVRGTFLGHSSCPLCSKPFLSSASLKEHPRSSLLSDGSPAPSRNVGMTVSQKGGPQPIPSPAGPGARLGPATGEMDEADSVVLKFKQATDDSLALTSSNTESVFVEDPYIASLRSEVESDTHEFEAESWSLAVDLAYAKKQKKEVVKRQDVLYELMQTEAHHVRTLKIMLKVYSKALQEELQFGGRAISRLFPCADDLLEMHSHFLARLKERRREALEEGSERNYIIQKIGDLLVQQFSGENGERMKEKYGVFCSGHNEAVSHYKLLLQQNKKFQNLIKKVGSFSIVRRLGVQECILLVTQRITKYPVLVERIIQNTEAGTEDHEDLTQALNLIKDIISQVDAKVSECEKGQRLREIAGKMDLKSSSKLKNGLTFRKEDMLQRQLHLEGTLCWKTTSGRLKDVLAVLLTDVLLLLQEKDQKYVFASVDSKPPVISLQKLIVREVANEEKAMFLISASLQGPEMYEIYTSSKEDRNSWMTHIRQAVESCPDEEEGPFSEVEEERKVAEARAMRLRDFQERLSQKDQLIAQSLLEKQQIYLEMAEMSGLEDTAQSRGLFRGGDASETLQGEQILRSAMNEIEGIQNLICRHLGCSSGLAEEGGGSTGLPRRAETFGGYDSMGSPSKNGSFKKKVCSWRGPASSPDSKLGNGDVPGGCEESPQAVEMPGSETSPRLPTFLESELVQRIQTLSQLLLSLQAVIAQQDSYVEMQRAAIQEREKQFRLQSTRGNLLLEQERQRNFEKQREERADVEKLQTQLRQEQQRWERECARQRQELERAGARLQAREGEAQQLRDQLDQERAELERQRRAYQQDLERLREGMRAVERERERLEQQRRLKKQNTVPGALPPGALVEAQPPSHPPSFNGEGQEGPLALAKTPGTRANLLLSDAGPEYVERPEVARRDSAPAESRPTKSDVPIQLLSTTNQIQRQAAVQQQIPTKLAASTKGSKDKGSKSRGSQRSESSASFDLKQQLLLNKLMGKDETASRNRRSLSPILLSSHSSTPATDSYVPAPSPAPTDIPPEAFFIKAGGTSFPPVPPAPSPLQATREEASKEDVIFF

Target ORF information:

RefSeq Version	XM_015503849.1
Organism	Marmota marmota marmota(Alpine marmot)
Definition	Marmota marmota marmota Rho/Rac guanine nucleotide exchange factor 18 (Arhgef18), mRNA.

Target ORF information:

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

XM_015503849.1

ORF Insert Sequence:

ATGGACGTGG AGGGCAGCAG TGCACCCATT TTAGAGACAG AAAAACCAAG GGAAGATGGT 
TTTCCAGCGC CGCTCAGTGA GAGCACGGAG GACCTCAGCC TGGATTTGGA AGCCCTTCAG 
GGCAGCGAAT ATCTCCAGGA CCTGGGTCTA GGGGCCGCTT CACACAGCCA GCCTGGGGAG 
GCCATGGGCA GCACCCCCCG TAACAAAGAA GGTGGAAGAG ATTCGCCCTT GTCCAGCTCA 
GCAGGGGCCC AGGTCCTGCC ATGGAGACGG AGACGGAGAC GGAGCTGGGA GAGGTCCCGG 
AGCTGCTCAG GGAGCTGGCA GAGGCTCAGC CTTGATGCTT CAGCCTCGGA TGCGGGACCC 
TGTCTCCCTC GGACACTGGC TAGCCTTACT CTGAATCTGT CAGGAGAGGG GCTGAAAACT 
TGGACCCAGC GGTGTCTGTC TGGGGATGAG ACCCCAGCAG AACACCCAGG CAAGAAATGT 
GGCAGCCCCC AGCCAAGAGT GAGGTCCAGG TCAGTTCCCC TGTCCTGCGA GGAGATCAGC 
TCCCTGGAAC TTGCTCCTGG CTTGGAAGTG CCAGCCCCAT CTGTACAAGG CCTGGACCCG 
CCCGTGCTGG AGTGCCTGGA AAAGGACCAC GTGGAGCCAG ACCAGGTGTT GATTGTTCAG 
CAAGTGCTTC AAGAACTTCG CCAGTACCAT GGGGCCCGGC AGAGGGCTCG CATGTCCTGC 
AGCCCTGGGG ATGCCCAGTC GAACCTCACC TGGTTTGAGT TCCTGTCTGA GAGCGAGGAT 
GGTGCCAGTA AGAATGAGAA GAACGACAAG AGCACCAGGG TGAAGCGTAG TCTGAGCTCC 
CTCCGCAGCC GGGTCACCAG GCAGAAGGAA AAGGGGAAGA GCCCAGCACA TGTAAAGGAC 
AAGACTCAGG AAGCTCGAGA GAGGCGGGAA TGTGTCAACG GACACCAGCT GGTGCGAGGA 
ACCTTCCTGG GTCACTCCAG CTGCCCGCTC TGCAGCAAAC CCTTCCTGAG CTCCGCCTCA 
CTGAAGGAGC ACCCGAGGAG CAGCCTTCTG TCTGATGGCA GCCCGGCCCC ATCCAGGAAT 
GTCGGCATGA CGGTCTCTCA GAAAGGGGGT CCCCAGCCAA TACCAAGCCC GGCCGGACCT 
GGGGCACGAC TCGGACCAGC CACAGGAGAG ATGGATGAAG CTGACTCTGT GGTTCTAAAA 
TTCAAGCAGG CAACTGATGA CTCCCTAGCA CTCACGTCCT CCAATACCGA GTCTGTTTTT 
GTAGAAGATC CCTACATTGC CTCGCTGAGA AGCGAAGTCG AATCGGACAC CCACGAGTTT 
GAGGCCGAGT CCTGGAGCCT GGCTGTAGAC TTGGCCTACG CCAAGAAGCA GAAGAAAGAG 
GTGGTGAAGA GACAGGATGT CCTGTACGAG CTGATGCAGA CAGAGGCACA CCACGTGCGG 
ACCCTCAAGA TCATGCTGAA GGTGTACTCC AAGGCCCTCC AGGAGGAGCT GCAGTTTGGC 
GGCCGGGCCA TCAGCCGCCT TTTCCCCTGC GCAGACGACC TGCTGGAGAT GCACAGCCAC 
TTCCTCGCTC GGCTCAAGGA GCGGCGCCGC GAGGCTCTGG AGGAGGGCAG CGAGCGGAAT 
TACATCATCC AGAAAATCGG GGACCTCTTG GTGCAGCAGT TTTCAGGTGA AAATGGGGAG 
AGAATGAAAG AAAAATACGG TGTGTTTTGC AGCGGCCACA ATGAAGCCGT CAGTCACTAC 
AAGTTACTGC TGCAACAAAA CAAGAAATTT CAAAACTTGA TCAAGAAAGT TGGCAGCTTC 
TCCATCGTGA GGCGGCTTGG TGTGCAGGAG TGCATCCTTC TGGTCACTCA GCGCATCACC 
AAATACCCTG TGCTGGTGGA GCGTATCATC CAGAACACAG AAGCTGGCAC TGAGGACCAT 
GAAGACCTGA CTCAAGCCCT GAACCTCATC AAAGACATCA TCTCCCAAGT GGATGCCAAG 
GTCAGTGAGT GTGAGAAGGG CCAGCGCCTC AGGGAGATCG CAGGGAAGAT GGACCTCAAG 
TCCTCCAGCA AACTCAAGAA TGGACTCACC TTCCGCAAGG AGGACATGCT ACAGCGGCAG 
CTGCATCTGG AGGGCACGCT GTGCTGGAAG ACCACTTCAG GGCGCTTGAA AGATGTCCTT 
GCTGTCCTCT TGACCGACGT GCTTCTACTG CTGCAAGAAA AGGACCAAAA ATATGTCTTT 
GCCTCTGTGG ACTCGAAGCC ACCTGTCATC TCTCTGCAAA AGCTCATCGT GAGGGAAGTG 
GCCAACGAAG AGAAGGCCAT GTTTCTGATC AGTGCCTCCC TGCAAGGACC TGAGATGTAT 
GAGATCTACA CCAGCTCCAA AGAGGACAGG AACTCCTGGA TGACCCACAT CCGCCAAGCC 
GTGGAGAGCT GTCCCGATGA GGAAGAGGGA CCCTTCAGTG AGGTCGAGGA GGAGCGGAAG 
GTCGCTGAGG CCCGCGCCAT GAGACTCCGG GACTTTCAAG AACGACTGAG CCAGAAAGAC 
CAACTGATCG CCCAGAGCCT CCTGGAGAAG CAGCAGATCT ACCTGGAGAT GGCAGAGATG 
AGCGGACTTG AGGACACAGC CCAGTCGCGT GGACTCTTCC GCGGAGGCGA TGCCTCGGAG 
ACCCTGCAGG GGGAGCAGAT CCTCAGATCG GCCATGAATG AGATCGAGGG TATCCAGAAC 
CTGATCTGCA GGCACCTGGG CTGCAGCAGT GGCCTAGCGG AAGAGGGAGG TGGCTCCACA 
GGCCTGCCTC GGAGGGCTGA GACCTTCGGA GGCTATGACA GCATGGGCAG CCCTAGCAAG 
AATGGCAGTT TTAAGAAGAA AGTCTGCAGC TGGCGAGGGC CTGCCAGCAG CCCAGACTCG 
AAGCTTGGAA ACGGAGATGT CCCTGGGGGC TGCGAGGAGT CACCGCAGGC GGTGGAGATG 
CCAGGTTCAG AGACTAGCCC CCGGCTGCCC ACTTTCCTGG AGTCAGAGCT TGTCCAGCGG 
ATCCAGACCT TGTCACAGCT GCTCCTCAGC CTCCAGGCGG TCATCGCCCA GCAGGACAGC 
TACGTGGAGA TGCAGCGGGC AGCCATCCAG GAGCGGGAGA AGCAGTTTCG ACTGCAGTCG 
ACGCGCGGGA ACCTGCTGCT GGAGCAGGAG CGGCAGCGCA ACTTTGAGAA GCAGCGAGAG 
GAGCGTGCGG ACGTGGAGAA GCTACAGACT CAGCTGCGGC AGGAGCAGCA GCGCTGGGAG 
CGAGAATGCG CGCGCCAACG GCAGGAGTTG GAGCGCGCAG GCGCACGGTT GCAGGCGCGG 
GAAGGCGAAG CGCAGCAGCT GCGTGATCAG CTGGACCAGG AACGTGCAGA GCTGGAGCGA 
CAGCGCCGGG CCTACCAGCA AGACCTAGAG CGGCTGCGCG AGGGCATGCG CGCGGTAGAG 
CGGGAGCGCG AGCGCCTGGA GCAGCAGCGG AGGCTCAAGA AGCAGAACAC AGTGCCAGGG 
GCACTGCCGC CCGGGGCGCT GGTGGAGGCC CAGCCGCCAA GCCACCCTCC TAGTTTCAAT 
GGGGAGGGGC AAGAGGGACC CCTGGCCTTG GCTAAAACAC CTGGGACCCG GGCGAACCTG 
CTGCTATCCG ATGCTGGGCC CGAGTATGTG GAGCGCCCTG AGGTGGCCCG CCGGGACAGT 
GCCCCAGCTG AGAGCCGGCC AACCAAGAGT GACGTGCCCA TCCAGCTGCT GAGCACCACC 
AACCAGATTC AGAGGCAGGC GGCAGTGCAG CAGCAGATCC CCACCAAGCT GGCCGCCTCC 
ACCAAGGGCA GCAAGGACAA GGGCAGCAAA AGCAGGGGCT CCCAGCGCTC GGAGAGCTCA 
GCTTCATTCG ACCTCAAGCA GCAGCTGCTT CTCAACAAGT TGATGGGCAA GGACGAGACT 
GCCTCTCGGA ATCGCCGGTC ACTGAGCCCC ATCCTGCTCA GCAGCCACAG CTCCACGCCT 
GCCACAGACT CCTACGTCCC AGCCCCGAGT CCAGCCCCAA CCGACATCCC TCCTGAGGCC 
TTCTTCATCA AGGCTGGGGG CACATCCTTC CCACCTGTGC CCCCGGCTCC CTCCCCACTA 
CAGGCCACCA GGGAGGAAGC CAGCAAGGAA GACGTCATCT TCTTCTGA