DENND1A cDNA ORF clone, Macaca fascicularis(crab-eating macaque)

Gene
Clones
gRNAs

Summary

Gene Symbol	DENND1A
Entrez Gene ID	102139809
Full Name	DENN domain containing 1A
Gene Type	protein-coding
Organism	Macaca fascicularis(crab-eating macaque)

mRNA and Protein(s)

mRNA	Protein	Name
XM_015436464.1	XP_015291950.1	DENN domain-containing protein 1A

Pathways from BioSystems
Gene Ontology

The following DENND1A gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the DENND1A 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
OMa71269	XM_015436464.1 Latest version!	Macaca fascicularis DENN/MADD domain containing 1A (DENND1A), 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)

DENND1A ( XM_015436464.1 ) cDNA ORF clone, Macaca fascicularis(crab-eating macaque) -> XP_015291950.1 Macaca fascicularis DENN/MADD domain containing 1A (DENND1A), mRNA.

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CloneID	OMa71269
Clone ID Related Accession (Same CDS sequence)	XM_015436464.1
Accession Version	XM_015436464.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4245bp) 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	2016-01-24
Organism	Macaca fascicularis(crab-eating macaque)
Product	DENN domain-containing protein 1A
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005092990.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Macaca fascicularis Annotation Release 101 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 :: 33% of CDS bases ##RefSeq-Attributes-END##

ATGTTCTATA CCAAGCTGCC TCAATCCTCA TCAGTAATCA TGATCTGTTT CTTTTGTAGG 
CAGAATCCAG AGACCACATT TGAAGTATAT GTTGAAGTTG CCTATCCCAG GACAGGTGGC 
ACTCTTTCAG ATCCTGAGGT GCAGAGGCAA TTCCCGGAGG ACTACAGTGA CCAGGAAGTT 
CTACAGACTT TGACCAAGTT TTGTTTCCCC TTCTATATGG ACAGCCTCAC AGTTAGTCAA 
GTTGGCCAGA ACTTCACGTT CGTGCTCACT GACATTGACA GCAAACAGAG ATTCGGGTTC 
TGCCGCTTAT CTTCAGGAGC GAAGAGCTGC TTCTGTATCT TAAGCTATCT CCCCTGGTTC 
GAGGTATTTT ATAAGCTGCT TAACATCCTA GCAGATTATA CGACAAAAAG ACAGGAAAAT 
CAGTGGAATG AGCTTCTTGA AACTCTGCAC AAACTTCCCA TCCCTGACCC AGGAGTGTCT 
GTTCATCTCA GCGTGCATTC TTATTTTACT GTGCCTGATA CCAGAGAACT TCCCAGCATC 
CCTGAGAATA GAAATCTGAC AGAATATTTT GTGGCTGTGG ATGTCAACAA CATGTTGCAT 
CTGTACGCCA GTATGCTGTA CGAACGCCGG ATACTCATCA TTTGCAGCAA ACTCAGCACT 
CTGACTGCCT GCATCCACGG GTCTGCGGCG ATGCTCTACC CCATGTACTG GCAGCACGTG 
TACATCCCCG TGCTGCCGCC ACATCTGCTG GACTACTGCT GGTACTTTGA ACGGGGAATC 
TCCAATGAGT CCCCCTCTGT AGTGGCAGCA TCCAGCACTC TCCAGCTACC TGACTGGTTG 
GAAGACTCTC TCCCTCCAGT TCCCAGTGCT TCAGGCATTG CACAAGACAA GTACACAGAC 
ACCAGACACC AACCTCCAAA ATCCAAGAGG TCCGTCTTTC TGCAGTCTGT GGATGCACAG 
CAAATGGCAG TCCTGAATGC ACCGCTGACC CACACAGTCT TCCAAGTGGG TCCGATTCAC 
AGGACATTTG CGCAGTTCTG CAGATTTGCA GATTTGAAGA GGTATTTATT CTCATTTCTG 
CCTTCCACGT CCAGCAGAAG TTCCAATTTG CGGACGGCAG CTTTGCCACA TGGGCCATTT 
GAATGTCCAC CCAAGGTGGG AAGAGCTGCA TGTGTTAATG AAAACTCATC CTCTCGGAGC 
TATTACCAGC TCTCAGAATT CCTGGATTTA CTGAAACTAA ATGAGATCCC TGATCCAAGC 
CAAATTCCTC TGGGGACTAG AGATTCTTCA CCACACTGGG TGGAACAGCA CAGGGCAGGG 
ACTCCCTGTG GCGTACACTC CGTGGATGTC TTCTGGATGA AGGAGTGGCT GACACCTAAG 
AGAACTGGCA CTGGAGCAGG CATTTCTGGT GTGATGGCCC TGCTGTCTGG GCACCGTCAG 
TTGGCATCAT GGCAGTTCCC ACCCCTCCGA GTTTTCATTC GGACCCACTG CGCCGTCCAC 
CCTCTTTCAC CCTCTCGTGG AGTGGGGGCT GCCATTTCTA CTTGCAGGAC GCAGGTGGAC 
GAGCTGGTGG GAGTGGCTTG GCACCTCGCC TTGGGCCTGT GGCAGAAAGA ACCTTCACAG 
CGGCTTGTTT ACTCCCAGGA GCTGTGTGTC TCTGAAGGGC TGGCCCAGGT GAAGTGTCCA 
CTTATCATGT TTTCTGACCT ACTGCCCTGG GAAGATTTGC CTTTTCCTCC TTGGACTCCT 
GTGGACCCAT TGCCCCCGAC CCCACCCCAC TCTGGGCACA GACATCTGGT CCAGGGGATA 
TCACCTCCCG TGAGTACACA ACAGGCCCAA CATGTTTGTG TTTCCCCAAA GGCCAAGCAG 
TGTCAGAGAC ATACTGAGAC CACAAGGCTC CTGTGGCTGG AAGCAGGGTT CAACTCATTT 
CGTGCTTCTT TAACCAACAT CCCTGAGCTT CTAATTAGGG GCTGGGCTCT ACTTGGGGCC 
TATAGAGATG AGTTCAGCCT CTGGCCCCTT GAGCTCCTGG TGAGAGGGGT TACCAGTGAA 
GACTATCCCA GCGCCCAGGA GTGCACGCGG CACTGGGAGC AACAAGCAGG GATGAGTGAC 
TGCCACACAG AGGCCTGCGT GTGTCAGGAG GACAGTCCAA GGAGGAATAG AACTGGCAAA 
AGCAAAGAAG AAGTGTCTTC CCTCTGCACT TCCCAGGAGG AGCCGATCAC TTTCTGTGAG 
GAAGCTTTCG TGTCCCACTA CCGCTCCGGA GCCATGAGGC AGTTCCTGCA GAACGCCACA 
CAGCTGCAGC TCTTCAAGCA GTTTATTGAT GGTCGATTAG ATCTTCTCAA TTCCGGCGAA 
GGTTTCAGTG ATGTTTTTGA AGAGGAAATC AACATGGGCG AGTACGCTGG CAGTGACAAA 
CTGTACCATC AGTGGCTCTC CACCGTCCGG AAAGGAAGTG GAGCAATTCT GAATACTGTA 
AAGACCAAAG CAAACCCGGC CATGAAGACT GTCTACAAGT TCGCAAAAGA TCATGCAAAA 
ATGGGAATAA AAGAGGTGAA AAACCGCTTG AAGCAAAAGG ACATTGCTGA GAACGGCTGC 
GCCCCCACCC CGGAAGAGCA GCTGCCAAAG ACTGCACCGT CCCCCCTGGT GGAAGCCAAG 
GACCCCAAGC TCCGAGAAGA CCGGCGGCCA ATCACAGTCC ACTTTGGACA GGTGCGCCCA 
CCTCGTCCTC ATGTTGTTAA GAGACCAAAG AGCAACATCA CAGTGGAAGG CCGGAGGACG 
TCTGTGCCGA GCCCTGAGCA GCCACAGCCA TATCGGACAC TCAAGGAGTC AGACAGTGCG 
GAAGGCGACG AGGCAGAGAG TCCAGAGCAG CAAGTGCGGA AACCCACAGG CCCCGTCCCA 
GCTCCCACTG ACCGGGCTGC CAGCATCGAC CTTCTGGAAG ACGTCTTCAA CAACCTGGAC 
ATGGAGGCCG CATTGCAGCC CCTGGGCCAG GCCAAGAGCT TGGAGGACCT TCGTGCCCCC 
AAAGACCTGA GGGAGCAGCC AGGGACCTTT GACTATCAGA GGCTGGACCT GGGCGGGAGT 
GAGAGGAGCC GCGGGGTGAC AGTGGCCTTG AAGCTTACCC ACCCATACAA CAAGCTCTGG 
AGCCTGGGCC AGGACGACAT GGCCATCCCC AGCAAGCCCC CAGCTGCCTC CCCTGACAAG 
CCCTCGGCCT TGCTCGGGAA CTCCCTGGCC CTGCCTCGAA GGCCCCAGAA CCGGGACAGC 
ATCCTGAACC CCAGTGACAA GGAGGAGGTG CCCACCCCTA CTCTGGGCAG CATCACCATC 
CCCCGGCCCC AAGGCAGGAA GACCCCAGAG CTGGGCATCG TGCCTCCACC ACCCATTCCC 
CGCCCGGCCA AGCTCCAGGC TGCCGGCACC GCACTTGGTG ACTTCTCAGA GCGGCTGCAG 
GTGGATCGGG ACAGGCGAGC TGCTCTGAGT CCAGGGCTCC TCCCTGGTGG TGTCCCCCAA 
GGCCCCACTG AACTGCTCCA GCCACTCAGC CCCAGCCCCG GGACTGCAGG CACGAGCAGT 
GATGCCCTGC TCGCCCTCCT GGACCCGCTC AGCACAGCCT GGTCAGGCAG CACCCTCCCG 
CCACGCCATG CCGCCCCGAA TGTAGCCACC CCATTCACCC CCCAATTCAG CTTCCCCCCT 
GCAGGGACAC CTGCCCCATT CCCACAGCCA CCACTCAACC CCTTTGTCCC ATCCATGCCA 
GCAGCCCCAC CAACACTGTC CCTGGTCTCC ACACCAGCGG GGCCTTTTGG GGTCCCTCCA 
GCTTCCCTGG GGCCGGCTTT TGCATCCGGC CTCCTGCTGT CCAGCGCTGG CTTCTGTGCC 
CCTCACAGGT CTCAGCCCAA CCTCTCTGCC CTCTCCATGC CCAACCTCTT TGGCCAGATG 
CCCATGGGCA CCCACACGAG CCCCCTACAG CCGCTGGGTC CCCCAGCAGT TGCCCCATCG 
AGGATCCGAA CGTTGCCCCT GGCCCGCTCA AGTGCCAGGG CTGCTGAGGC CAAGCAGGGG 
CTGGCCCTGA GGCCTGGAGA CCCCCCACTT CTGCCTCCCA GGCCCCCCCA GGGCCTGGAG 
CCAACACTGC AGCCCTCTGC TCCTCAACAG GCCAGAGACC CCTTTGAGGA TTTGTTACAG 
AAAACCAAGC AAGACGTGAG CCCAAGTCCG GTCCTGGCCC CGGCCCCGGC CCCGGCCCCA 
GACTCGGTGG AGCAGCTCAG GAAGCAGTGG GAGACCTTCG AGTGA

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

RefSeq	XP_015291950.1
CDS	210..4454
Translation	MFYTKLPQSSSVIMICFFCRQNPETTFEVYVEVAYPRTGGTLSDPEVQRQFPEDYSDQEVLQTLTKFCFPFYMDSLTVSQVGQNFTFVLTDIDSKQRFGFCRLSSGAKSCFCILSYLPWFEVFYKLLNILADYTTKRQENQWNELLETLHKLPIPDPGVSVHLSVHSYFTVPDTRELPSIPENRNLTEYFVAVDVNNMLHLYASMLYERRILIICSKLSTLTACIHGSAAMLYPMYWQHVYIPVLPPHLLDYCWYFERGISNESPSVVAASSTLQLPDWLEDSLPPVPSASGIAQDKYTDTRHQPPKSKRSVFLQSVDAQQMAVLNAPLTHTVFQVGPIHRTFAQFCRFADLKRYLFSFLPSTSSRSSNLRTAALPHGPFECPPKVGRAACVNENSSSRSYYQLSEFLDLLKLNEIPDPSQIPLGTRDSSPHWVEQHRAGTPCGVHSVDVFWMKEWLTPKRTGTGAGISGVMALLSGHRQLASWQFPPLRVFIRTHCAVHPLSPSRGVGAAISTCRTQVDELVGVAWHLALGLWQKEPSQRLVYSQELCVSEGLAQVKCPLIMFSDLLPWEDLPFPPWTPVDPLPPTPPHSGHRHLVQGISPPVSTQQAQHVCVSPKAKQCQRHTETTRLLWLEAGFNSFRASLTNIPELLIRGWALLGAYRDEFSLWPLELLVRGVTSEDYPSAQECTRHWEQQAGMSDCHTEACVCQEDSPRRNRTGKSKEEVSSLCTSQEEPITFCEEAFVSHYRSGAMRQFLQNATQLQLFKQFIDGRLDLLNSGEGFSDVFEEEINMGEYAGSDKLYHQWLSTVRKGSGAILNTVKTKANPAMKTVYKFAKDHAKMGIKEVKNRLKQKDIAENGCAPTPEEQLPKTAPSPLVEAKDPKLREDRRPITVHFGQVRPPRPHVVKRPKSNITVEGRRTSVPSPEQPQPYRTLKESDSAEGDEAESPEQQVRKPTGPVPAPTDRAASIDLLEDVFNNLDMEAALQPLGQAKSLEDLRAPKDLREQPGTFDYQRLDLGGSERSRGVTVALKLTHPYNKLWSLGQDDMAIPSKPPAASPDKPSALLGNSLALPRRPQNRDSILNPSDKEEVPTPTLGSITIPRPQGRKTPELGIVPPPPIPRPAKLQAAGTALGDFSERLQVDRDRRAALSPGLLPGGVPQGPTELLQPLSPSPGTAGTSSDALLALLDPLSTAWSGSTLPPRHAAPNVATPFTPQFSFPPAGTPAPFPQPPLNPFVPSMPAAPPTLSLVSTPAGPFGVPPASLGPAFASGLLLSSAGFCAPHRSQPNLSALSMPNLFGQMPMGTHTSPLQPLGPPAVAPSRIRTLPLARSSARAAEAKQGLALRPGDPPLLPPRPPQGLEPTLQPSAPQQARDPFEDLLQKTKQDVSPSPVLAPAPAPAPDSVEQLRKQWETFE

Target ORF information:

RefSeq Version	XM_015436464.1
Organism	Macaca fascicularis(crab-eating macaque)
Definition	Macaca fascicularis DENN/MADD domain containing 1A (DENND1A), mRNA.

Target ORF information:

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

XM_015436464.1

ORF Insert Sequence:

ATGTTCTATA CCAAGCTGCC TCAATCCTCA TCAGTAATCA TGATCTGTTT CTTTTGTAGG 
CAGAATCCAG AGACCACATT TGAAGTATAT GTTGAAGTTG CCTATCCCAG GACAGGTGGC 
ACTCTTTCAG ATCCTGAGGT GCAGAGGCAA TTCCCGGAGG ACTACAGTGA CCAGGAAGTT 
CTACAGACTT TGACCAAGTT TTGTTTCCCC TTCTATATGG ACAGCCTCAC AGTTAGTCAA 
GTTGGCCAGA ACTTCACGTT CGTGCTCACT GACATTGACA GCAAACAGAG ATTCGGGTTC 
TGCCGCTTAT CTTCAGGAGC GAAGAGCTGC TTCTGTATCT TAAGCTATCT CCCCTGGTTC 
GAGGTATTTT ATAAGCTGCT TAACATCCTA GCAGATTATA CGACAAAAAG ACAGGAAAAT 
CAGTGGAATG AGCTTCTTGA AACTCTGCAC AAACTTCCCA TCCCTGACCC AGGAGTGTCT 
GTTCATCTCA GCGTGCATTC TTATTTTACT GTGCCTGATA CCAGAGAACT TCCCAGCATC 
CCTGAGAATA GAAATCTGAC AGAATATTTT GTGGCTGTGG ATGTCAACAA CATGTTGCAT 
CTGTACGCCA GTATGCTGTA CGAACGCCGG ATACTCATCA TTTGCAGCAA ACTCAGCACT 
CTGACTGCCT GCATCCACGG GTCTGCGGCG ATGCTCTACC CCATGTACTG GCAGCACGTG 
TACATCCCCG TGCTGCCGCC ACATCTGCTG GACTACTGCT GGTACTTTGA ACGGGGAATC 
TCCAATGAGT CCCCCTCTGT AGTGGCAGCA TCCAGCACTC TCCAGCTACC TGACTGGTTG 
GAAGACTCTC TCCCTCCAGT TCCCAGTGCT TCAGGCATTG CACAAGACAA GTACACAGAC 
ACCAGACACC AACCTCCAAA ATCCAAGAGG TCCGTCTTTC TGCAGTCTGT GGATGCACAG 
CAAATGGCAG TCCTGAATGC ACCGCTGACC CACACAGTCT TCCAAGTGGG TCCGATTCAC 
AGGACATTTG CGCAGTTCTG CAGATTTGCA GATTTGAAGA GGTATTTATT CTCATTTCTG 
CCTTCCACGT CCAGCAGAAG TTCCAATTTG CGGACGGCAG CTTTGCCACA TGGGCCATTT 
GAATGTCCAC CCAAGGTGGG AAGAGCTGCA TGTGTTAATG AAAACTCATC CTCTCGGAGC 
TATTACCAGC TCTCAGAATT CCTGGATTTA CTGAAACTAA ATGAGATCCC TGATCCAAGC 
CAAATTCCTC TGGGGACTAG AGATTCTTCA CCACACTGGG TGGAACAGCA CAGGGCAGGG 
ACTCCCTGTG GCGTACACTC CGTGGATGTC TTCTGGATGA AGGAGTGGCT GACACCTAAG 
AGAACTGGCA CTGGAGCAGG CATTTCTGGT GTGATGGCCC TGCTGTCTGG GCACCGTCAG 
TTGGCATCAT GGCAGTTCCC ACCCCTCCGA GTTTTCATTC GGACCCACTG CGCCGTCCAC 
CCTCTTTCAC CCTCTCGTGG AGTGGGGGCT GCCATTTCTA CTTGCAGGAC GCAGGTGGAC 
GAGCTGGTGG GAGTGGCTTG GCACCTCGCC TTGGGCCTGT GGCAGAAAGA ACCTTCACAG 
CGGCTTGTTT ACTCCCAGGA GCTGTGTGTC TCTGAAGGGC TGGCCCAGGT GAAGTGTCCA 
CTTATCATGT TTTCTGACCT ACTGCCCTGG GAAGATTTGC CTTTTCCTCC TTGGACTCCT 
GTGGACCCAT TGCCCCCGAC CCCACCCCAC TCTGGGCACA GACATCTGGT CCAGGGGATA 
TCACCTCCCG TGAGTACACA ACAGGCCCAA CATGTTTGTG TTTCCCCAAA GGCCAAGCAG 
TGTCAGAGAC ATACTGAGAC CACAAGGCTC CTGTGGCTGG AAGCAGGGTT CAACTCATTT 
CGTGCTTCTT TAACCAACAT CCCTGAGCTT CTAATTAGGG GCTGGGCTCT ACTTGGGGCC 
TATAGAGATG AGTTCAGCCT CTGGCCCCTT GAGCTCCTGG TGAGAGGGGT TACCAGTGAA 
GACTATCCCA GCGCCCAGGA GTGCACGCGG CACTGGGAGC AACAAGCAGG GATGAGTGAC 
TGCCACACAG AGGCCTGCGT GTGTCAGGAG GACAGTCCAA GGAGGAATAG AACTGGCAAA 
AGCAAAGAAG AAGTGTCTTC CCTCTGCACT TCCCAGGAGG AGCCGATCAC TTTCTGTGAG 
GAAGCTTTCG TGTCCCACTA CCGCTCCGGA GCCATGAGGC AGTTCCTGCA GAACGCCACA 
CAGCTGCAGC TCTTCAAGCA GTTTATTGAT GGTCGATTAG ATCTTCTCAA TTCCGGCGAA 
GGTTTCAGTG ATGTTTTTGA AGAGGAAATC AACATGGGCG AGTACGCTGG CAGTGACAAA 
CTGTACCATC AGTGGCTCTC CACCGTCCGG AAAGGAAGTG GAGCAATTCT GAATACTGTA 
AAGACCAAAG CAAACCCGGC CATGAAGACT GTCTACAAGT TCGCAAAAGA TCATGCAAAA 
ATGGGAATAA AAGAGGTGAA AAACCGCTTG AAGCAAAAGG ACATTGCTGA GAACGGCTGC 
GCCCCCACCC CGGAAGAGCA GCTGCCAAAG ACTGCACCGT CCCCCCTGGT GGAAGCCAAG 
GACCCCAAGC TCCGAGAAGA CCGGCGGCCA ATCACAGTCC ACTTTGGACA GGTGCGCCCA 
CCTCGTCCTC ATGTTGTTAA GAGACCAAAG AGCAACATCA CAGTGGAAGG CCGGAGGACG 
TCTGTGCCGA GCCCTGAGCA GCCACAGCCA TATCGGACAC TCAAGGAGTC AGACAGTGCG 
GAAGGCGACG AGGCAGAGAG TCCAGAGCAG CAAGTGCGGA AACCCACAGG CCCCGTCCCA 
GCTCCCACTG ACCGGGCTGC CAGCATCGAC CTTCTGGAAG ACGTCTTCAA CAACCTGGAC 
ATGGAGGCCG CATTGCAGCC CCTGGGCCAG GCCAAGAGCT TGGAGGACCT TCGTGCCCCC 
AAAGACCTGA GGGAGCAGCC AGGGACCTTT GACTATCAGA GGCTGGACCT GGGCGGGAGT 
GAGAGGAGCC GCGGGGTGAC AGTGGCCTTG AAGCTTACCC ACCCATACAA CAAGCTCTGG 
AGCCTGGGCC AGGACGACAT GGCCATCCCC AGCAAGCCCC CAGCTGCCTC CCCTGACAAG 
CCCTCGGCCT TGCTCGGGAA CTCCCTGGCC CTGCCTCGAA GGCCCCAGAA CCGGGACAGC 
ATCCTGAACC CCAGTGACAA GGAGGAGGTG CCCACCCCTA CTCTGGGCAG CATCACCATC 
CCCCGGCCCC AAGGCAGGAA GACCCCAGAG CTGGGCATCG TGCCTCCACC ACCCATTCCC 
CGCCCGGCCA AGCTCCAGGC TGCCGGCACC GCACTTGGTG ACTTCTCAGA GCGGCTGCAG 
GTGGATCGGG ACAGGCGAGC TGCTCTGAGT CCAGGGCTCC TCCCTGGTGG TGTCCCCCAA 
GGCCCCACTG AACTGCTCCA GCCACTCAGC CCCAGCCCCG GGACTGCAGG CACGAGCAGT 
GATGCCCTGC TCGCCCTCCT GGACCCGCTC AGCACAGCCT GGTCAGGCAG CACCCTCCCG 
CCACGCCATG CCGCCCCGAA TGTAGCCACC CCATTCACCC CCCAATTCAG CTTCCCCCCT 
GCAGGGACAC CTGCCCCATT CCCACAGCCA CCACTCAACC CCTTTGTCCC ATCCATGCCA 
GCAGCCCCAC CAACACTGTC CCTGGTCTCC ACACCAGCGG GGCCTTTTGG GGTCCCTCCA 
GCTTCCCTGG GGCCGGCTTT TGCATCCGGC CTCCTGCTGT CCAGCGCTGG CTTCTGTGCC 
CCTCACAGGT CTCAGCCCAA CCTCTCTGCC CTCTCCATGC CCAACCTCTT TGGCCAGATG 
CCCATGGGCA CCCACACGAG CCCCCTACAG CCGCTGGGTC CCCCAGCAGT TGCCCCATCG 
AGGATCCGAA CGTTGCCCCT GGCCCGCTCA AGTGCCAGGG CTGCTGAGGC CAAGCAGGGG 
CTGGCCCTGA GGCCTGGAGA CCCCCCACTT CTGCCTCCCA GGCCCCCCCA GGGCCTGGAG 
CCAACACTGC AGCCCTCTGC TCCTCAACAG GCCAGAGACC CCTTTGAGGA TTTGTTACAG 
AAAACCAAGC AAGACGTGAG CCCAAGTCCG GTCCTGGCCC CGGCCCCGGC CCCGGCCCCA 
GACTCGGTGG AGCAGCTCAG GAAGCAGTGG GAGACCTTCG AGTGA