LOC102796766 cDNA ORF clone, Neolamprologus brichardi

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC102796766
Entrez Gene ID	102796766
Full Name	calmodulin-regulated spectrin-associated protein 2-like
Gene Type	protein-coding
Organism	Neolamprologus brichardi

mRNA and Protein(s)

mRNA	Protein	Name
XM_006792081.1	XP_006792144.1	calmodulin-regulated spectrin-associated protein 2-like

Pathways from BioSystems
Gene Ontology

The following LOC102796766 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC102796766 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
ONe73597	XM_006792081.1 Latest version!	Neolamprologus brichardi calmodulin-regulated spectrin-associated protein 2-like (LOC102796766), 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)

LOC102796766 ( XM_006792081.1 ) cDNA ORF clone, Neolamprologus brichardi -> XP_006792144.1 Neolamprologus brichardi calmodulin-regulated spectrin-associated protein 2-like (LOC102796766), mRNA.

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CloneID	ONe73597
Clone ID Related Accession (Same CDS sequence)	XM_006792081.1
Accession Version	XM_006792081.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4194bp) 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	2014-02-09
Organism	Neolamprologus brichardi
Product	calmodulin-regulated spectrin-associated protein 2-like
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006272023.1) 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 :: Neolamprologus brichardi Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 5.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGGTGAAG TTCAGGACGT CAGGGATGTT AAGAAGACGT TCGTTGCTCC TGCAATAAAG 
TCTTTTGAGC ACTATGACTT CTCCCGAGCC AAAATGTGTT GCAGCCTCAC ATGGTTGGTG 
GCCAAAGCAT ACGGGACAGA CAGCATCCCA GCAGACTTGA AGGACCCTTT CTACACAGAC 
CAGTATGAGC AGGAGCACCT GAAGCCTCCT GTGGCCAGCC TCCTGCTATC TGCAGACCTC 
TACTGCAGGG CTGGCAGCCT TATCCTAAAG AGTGACGCTG CCAAGCCGCT GCTGGGTCAC 
GATGCTGTCA TCCAGGCGCT AGCTCAACGC GGTCTGTACG TCACCGACCA GGAGAGACTG 
GTGACTGAGA GAGACCTGCG AAAGAGGCCT CTGCAAATGA GCGCCCATCT GGCAATGATT 
GACACTCTGA TGATGGCATA CACAGTGGAG GCTGTGAGCG TGGAGAAGGT GATGGCCTGC 
ATTTGTCAAT ATCCATCCTG CTACCCTGAG GTGGAAACAC CTTATGACAC TGAGGATGCA 
GTGACCACCT GGATCAACAA GGTAAATGAA TATCTGAAAG AGATTGTGGC GCAGGAGCAA 
AGGAAGAAGG AAACGCAGGG CAGCGAGCCT GCTGGGAGTC CTCGGTCTCC AACCAAGTGG 
TACATGAAGC TTGTGCCTGC TCGCTACAGG AAGGAGCAGG CCTCGACCCA GCCAGTTCCT 
TGGATCCCCC CAGTGGACAA CCTGCTAAAA GACAGCACAG ATGGCTCGGC CCTGGGTGCA 
CTGCTGCACT TTTACTGTCC TCAGCTGCTG CCACTGGATG ATGTTTGCCT GAAGGAGAAT 
ATGAGTCTGG CTGATCGACT GTACAACCTG CAGCTAATAC AAGACTTCTG CAAAGACAAC 
CTGAACAGCT GCTGCCACTT CAGCCTGGAA GACATGCTCT ACGCCTCCTC CACCGTCAAG 
AATAACTACC TGGTGTTCAT GGCAGAGCTG TTTTGGTGGT TTGAGGTGGT CAAACCGTCA 
TTTGTGAAAC CAAGAAAGCT CGATACCGAA GGCACAGAGC CCTCATCCTT CTTGAAGAAT 
TTCCCTGTAA TCCCCATCTC CAAGGCAACT AAGAAGAGTT TTATGGAAAG GCCCCCAAGC 
CCTGAAAGAC CCAGTTTACC CCTGCGGCCC CAGCCCCGAA ACTCAGGAGA CATCAAGAGG 
TCAACCTCGA TGTCCTTTGT TGATGGCAAT CTCGGTACCT GGCCAAAAGA GAAGAGATCT 
GGGCCTTACG GTGTGTCCTT TGACATCCCC TTTGATAAAG AGGAGTCTGC GCCTGCCACT 
GTTCCCTCCA CACGTGGCAT GGTCAGGTCT GTCAGCACGG ATGATGGTTC TGGTTTCAAG 
GTCCTTCACA TGCCCCGTGG AATGAAGCGC AACCTGTCCT TCCAGCCAGT GAATGGTCAG 
AGTGTCGGCA TTGAAGAGGA AGGCTGCCCA GACAGCCTTC CTGGCATGGA GCCGAGCAAG 
CAAGGGTACT CCAACGGACA CAGAGGAGTT ACAGAAACAA CTCCGTCCAT GGAGGAAGCC 
CTCCAGATTA TCCAAAGCCC ACCCAGGCCA CCAGTGGAGG GCATCAACAA TGGTTTCTTT 
CTGCATAGTC AGGAACATGG TGCCGGCATT GGTGCTTTAG ATCCAGTGTC AGAGGTGGAC 
TCCAAAGGAC CTTTGAGCAC CACGGACACC ACAGAAGTGG ACACTGGCAT CCATATCCAA 
ACAGAGGACA TGCTGGATGA AGATTCCTCT CTGAGAGACT GCTCTGTGAA CATGGAGCTG 
GACATGGACA CGCCGAGCCC CTGCACGAGC AGTCAAAGCA AATCCCCTTC AGCAGTAAAG 
ATGACTAGCT TTGCTGAGCA GAAGATGAAG AAGCTTAATC CATCAGCACC AGACTCAGGA 
AGGGGCAGCT GCAGCTCGCT GAAGACCACT CCGGAGGGCT CTGAATTCGG GCTCCCATTA 
TCTGTCTCAT GGGCCCCGAC CCCTGAGCAC AGCCCGGTCC GCCAACAAAC CACACCGCCC 
CCTATTTCAC AGCCGTCACC CACACCTGTC CAGCTTCCAC CCAATGACCC CGCTCAGGTC 
ATGGCTACAG AGATGGTGCA GCTGCGGATG AGGCTCGAGG AGAAACGGAA AGCTATCGAG 
GCGCAGAAGA AGAAAGTGGA GGCAGCTTTC ACAAGGCATC GGCAAAAGAT GGGCCACTCA 
GCATTCCTAA ACGTGGTAAA GAGAAAAGGT GACGGCGCAA GTGGAGAAGA GGGAGGAAAA 
ACCGAGGGAG AAGGAAAGTC AGCAAGTACA AGTCCTACCT TTAAATTTGG GAGGAACAAG 
GCAGACACAC CTGACGGGGC AGAGCAAAGC AGCACGGCTT CCTGTTGGCA AAAATCTCCC 
GGTGCAGGTG AGGAAGGCGG ACAAAGCCAC GCTCAGCTGA CAGAAGTGGA TCTCACAGAG 
TATACACGTT CAATTGAGAA ACTCAACCAC TCTTTGGCCT TCCTCCAAAC TGAGATGCAG 
CGATTGGCTC AGCAGCAAGA AGTAATCATG GCCATGAGGG AGCAAAAACA GCAGCAGGCG 
TGGGTCATCC CTCCTCCACA TACAAACCCC TCGCCGCAGA AGCACGGTCG AGCCGGAGCC 
GTCACTCGAT CCTCGGGACC CTCTTCTCCG GCTGACTCCC CTCGTTCCAC CCATCGCTCT 
CCAACCAGCA TCAAACGGAA ATCGGCGTCC TTCCACTCAC GTAATCCTCG CACCGCTCGA 
CCCAGCGAGC TCAAGCTGGC CCCATACAGT CGCGTCCTAA CCGCGCCGCA GTCTGTCGAT 
AGCATCCCAA GGCTACGGCG ATTTTCTCCC TGCCAGCCCC TGGCGAGTTC CTTCGTTTAC 
ATGGGGGAGA AACCAGCAAC CGCCAATTTG GAGACGGTCG CTCCAGTTGC AGATAAAAAC 
AAGGAAACAC ATTCCCTCCT TTCCCCAGAG CGAGAGCTTG TGGGTATAGC CAGCTCCCCC 
TGTAGCTCCC CAAAACTGCA GAACAAAAAA GAGGAAAGTG AAGTAGGTAC TAATGCCCAA 
ACCCAGGAAA CAGAAGCTCC CCACCAATCC AAGACCACTG ACATGGAAAC AGATTACCAG 
AAAGCTCAGA AGTCCGATGT AAAGCTCAAA CCTACTTTAG AGTCAACATT CCCTGAAGTT 
CTAGCCCACC CTGTGGTAGA GACCTTCACG GTGATGCCAA CAGAGATCCC TTTCCAGTCA 
GAATTGTCTG GCCAAGCCAA AAGCAGTTTG ATTGAGGTTC CTCTGTCAGT GGTGAAACCG 
CTAGAGGATC CAACTCTGGA TGAAAGCGAG GATGGAAAAG CAGAGGAGAA CATGGCGCAG 
AAGAGGGCTG CACTGCTGGA GAAAAGGATG CGAAGGGAAA AGGAGACCCA GCAGAAGAAG 
ATGCAGCTGG AAGCTGAGCT GGAGCAGAAG AAAGAGGAAG CTCGACTGAA AGCCGAAGAG 
GAGCGTGTCA GGAAGGAGGA GGACAAGGCC AGGAAGGAGT TCATCAAGCA GGAGTACCTC 
AGGAGGAAGC AGCTGAAGCT GATGGAGGAC ATGGACACCG TCATTAAACC TCGACCCGCG 
GCAGGGGCCA AACAGAGGCG AGGGCGACCG AAGTCTATCC ATCGCGACAG CATGGACTCA 
CCCAAAACCC CCGTGAGGGC TGCCACAGTC TCCAGCTTGT CCCTTGCTTC GCTCAACCTG 
GGAGACAACG ACAGCGTTCA CTCTGAGAAG AGAGCAGCAA GACTAACTGG ACCGAGGCTG 
TACAAGGAGC CCAGCGCCAA ATCTAACAAG CACATCATCC AAAATGCTCT GGCACACTGC 
TGCCTTGCAG GGAAGGTCAA TGAGGGGCAA AAGAACAAGA TTTTGGAGGA AATGGAGAAA 
TCAGAAGCCA ACAACTTCTT GGTTTTGTTC AGAGATGCCG GATGCCAATT TCGCGCTCTC 
TACACTTATT GCCCCGAGAC CGAAGAAATC AACAAGCTGA CGGGCATCGG CCCCAAGAGC 
ATCACACGCA AGATGATCGA TGGCCTCTAC AAGTACAACT CAGACAAGAA GCAGTTCAGT 
CAGATACCAG CTAAGACCAT GTCAGCCAGC GTGGACGCAG TGACAATCCA CAACCACCTC 
TGGCAAACCA AGAAGCCAGC CACCCCTAAA AAAGTAGTGC CTGCCCAGTC CTAA

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

RefSeq	XP_006792144.1
CDS	478..4671
Translation	MGEVQDVRDVKKTFVAPAIKSFEHYDFSRAKMCCSLTWLVAKAYGTDSIPADLKDPFYTDQYEQEHLKPPVASLLLSADLYCRAGSLILKSDAAKPLLGHDAVIQALAQRGLYVTDQERLVTERDLRKRPLQMSAHLAMIDTLMMAYTVEAVSVEKVMACICQYPSCYPEVETPYDTEDAVTTWINKVNEYLKEIVAQEQRKKETQGSEPAGSPRSPTKWYMKLVPARYRKEQASTQPVPWIPPVDNLLKDSTDGSALGALLHFYCPQLLPLDDVCLKENMSLADRLYNLQLIQDFCKDNLNSCCHFSLEDMLYASSTVKNNYLVFMAELFWWFEVVKPSFVKPRKLDTEGTEPSSFLKNFPVIPISKATKKSFMERPPSPERPSLPLRPQPRNSGDIKRSTSMSFVDGNLGTWPKEKRSGPYGVSFDIPFDKEESAPATVPSTRGMVRSVSTDDGSGFKVLHMPRGMKRNLSFQPVNGQSVGIEEEGCPDSLPGMEPSKQGYSNGHRGVTETTPSMEEALQIIQSPPRPPVEGINNGFFLHSQEHGAGIGALDPVSEVDSKGPLSTTDTTEVDTGIHIQTEDMLDEDSSLRDCSVNMELDMDTPSPCTSSQSKSPSAVKMTSFAEQKMKKLNPSAPDSGRGSCSSLKTTPEGSEFGLPLSVSWAPTPEHSPVRQQTTPPPISQPSPTPVQLPPNDPAQVMATEMVQLRMRLEEKRKAIEAQKKKVEAAFTRHRQKMGHSAFLNVVKRKGDGASGEEGGKTEGEGKSASTSPTFKFGRNKADTPDGAEQSSTASCWQKSPGAGEEGGQSHAQLTEVDLTEYTRSIEKLNHSLAFLQTEMQRLAQQQEVIMAMREQKQQQAWVIPPPHTNPSPQKHGRAGAVTRSSGPSSPADSPRSTHRSPTSIKRKSASFHSRNPRTARPSELKLAPYSRVLTAPQSVDSIPRLRRFSPCQPLASSFVYMGEKPATANLETVAPVADKNKETHSLLSPERELVGIASSPCSSPKLQNKKEESEVGTNAQTQETEAPHQSKTTDMETDYQKAQKSDVKLKPTLESTFPEVLAHPVVETFTVMPTEIPFQSELSGQAKSSLIEVPLSVVKPLEDPTLDESEDGKAEENMAQKRAALLEKRMRREKETQQKKMQLEAELEQKKEEARLKAEEERVRKEEDKARKEFIKQEYLRRKQLKLMEDMDTVIKPRPAAGAKQRRGRPKSIHRDSMDSPKTPVRAATVSSLSLASLNLGDNDSVHSEKRAARLTGPRLYKEPSAKSNKHIIQNALAHCCLAGKVNEGQKNKILEEMEKSEANNFLVLFRDAGCQFRALYTYCPETEEINKLTGIGPKSITRKMIDGLYKYNSDKKQFSQIPAKTMSASVDAVTIHNHLWQTKKPATPKKVVPAQS

Target ORF information:

RefSeq Version	XM_006792081.1
Organism	Neolamprologus brichardi
Definition	Neolamprologus brichardi calmodulin-regulated spectrin-associated protein 2-like (LOC102796766), mRNA.

Target ORF information:

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

XM_006792081.1

ORF Insert Sequence:

ATGGGTGAAG TTCAGGACGT CAGGGATGTT AAGAAGACGT TCGTTGCTCC TGCAATAAAG 
TCTTTTGAGC ACTATGACTT CTCCCGAGCC AAAATGTGTT GCAGCCTCAC ATGGTTGGTG 
GCCAAAGCAT ACGGGACAGA CAGCATCCCA GCAGACTTGA AGGACCCTTT CTACACAGAC 
CAGTATGAGC AGGAGCACCT GAAGCCTCCT GTGGCCAGCC TCCTGCTATC TGCAGACCTC 
TACTGCAGGG CTGGCAGCCT TATCCTAAAG AGTGACGCTG CCAAGCCGCT GCTGGGTCAC 
GATGCTGTCA TCCAGGCGCT AGCTCAACGC GGTCTGTACG TCACCGACCA GGAGAGACTG 
GTGACTGAGA GAGACCTGCG AAAGAGGCCT CTGCAAATGA GCGCCCATCT GGCAATGATT 
GACACTCTGA TGATGGCATA CACAGTGGAG GCTGTGAGCG TGGAGAAGGT GATGGCCTGC 
ATTTGTCAAT ATCCATCCTG CTACCCTGAG GTGGAAACAC CTTATGACAC TGAGGATGCA 
GTGACCACCT GGATCAACAA GGTAAATGAA TATCTGAAAG AGATTGTGGC GCAGGAGCAA 
AGGAAGAAGG AAACGCAGGG CAGCGAGCCT GCTGGGAGTC CTCGGTCTCC AACCAAGTGG 
TACATGAAGC TTGTGCCTGC TCGCTACAGG AAGGAGCAGG CCTCGACCCA GCCAGTTCCT 
TGGATCCCCC CAGTGGACAA CCTGCTAAAA GACAGCACAG ATGGCTCGGC CCTGGGTGCA 
CTGCTGCACT TTTACTGTCC TCAGCTGCTG CCACTGGATG ATGTTTGCCT GAAGGAGAAT 
ATGAGTCTGG CTGATCGACT GTACAACCTG CAGCTAATAC AAGACTTCTG CAAAGACAAC 
CTGAACAGCT GCTGCCACTT CAGCCTGGAA GACATGCTCT ACGCCTCCTC CACCGTCAAG 
AATAACTACC TGGTGTTCAT GGCAGAGCTG TTTTGGTGGT TTGAGGTGGT CAAACCGTCA 
TTTGTGAAAC CAAGAAAGCT CGATACCGAA GGCACAGAGC CCTCATCCTT CTTGAAGAAT 
TTCCCTGTAA TCCCCATCTC CAAGGCAACT AAGAAGAGTT TTATGGAAAG GCCCCCAAGC 
CCTGAAAGAC CCAGTTTACC CCTGCGGCCC CAGCCCCGAA ACTCAGGAGA CATCAAGAGG 
TCAACCTCGA TGTCCTTTGT TGATGGCAAT CTCGGTACCT GGCCAAAAGA GAAGAGATCT 
GGGCCTTACG GTGTGTCCTT TGACATCCCC TTTGATAAAG AGGAGTCTGC GCCTGCCACT 
GTTCCCTCCA CACGTGGCAT GGTCAGGTCT GTCAGCACGG ATGATGGTTC TGGTTTCAAG 
GTCCTTCACA TGCCCCGTGG AATGAAGCGC AACCTGTCCT TCCAGCCAGT GAATGGTCAG 
AGTGTCGGCA TTGAAGAGGA AGGCTGCCCA GACAGCCTTC CTGGCATGGA GCCGAGCAAG 
CAAGGGTACT CCAACGGACA CAGAGGAGTT ACAGAAACAA CTCCGTCCAT GGAGGAAGCC 
CTCCAGATTA TCCAAAGCCC ACCCAGGCCA CCAGTGGAGG GCATCAACAA TGGTTTCTTT 
CTGCATAGTC AGGAACATGG TGCCGGCATT GGTGCTTTAG ATCCAGTGTC AGAGGTGGAC 
TCCAAAGGAC CTTTGAGCAC CACGGACACC ACAGAAGTGG ACACTGGCAT CCATATCCAA 
ACAGAGGACA TGCTGGATGA AGATTCCTCT CTGAGAGACT GCTCTGTGAA CATGGAGCTG 
GACATGGACA CGCCGAGCCC CTGCACGAGC AGTCAAAGCA AATCCCCTTC AGCAGTAAAG 
ATGACTAGCT TTGCTGAGCA GAAGATGAAG AAGCTTAATC CATCAGCACC AGACTCAGGA 
AGGGGCAGCT GCAGCTCGCT GAAGACCACT CCGGAGGGCT CTGAATTCGG GCTCCCATTA 
TCTGTCTCAT GGGCCCCGAC CCCTGAGCAC AGCCCGGTCC GCCAACAAAC CACACCGCCC 
CCTATTTCAC AGCCGTCACC CACACCTGTC CAGCTTCCAC CCAATGACCC CGCTCAGGTC 
ATGGCTACAG AGATGGTGCA GCTGCGGATG AGGCTCGAGG AGAAACGGAA AGCTATCGAG 
GCGCAGAAGA AGAAAGTGGA GGCAGCTTTC ACAAGGCATC GGCAAAAGAT GGGCCACTCA 
GCATTCCTAA ACGTGGTAAA GAGAAAAGGT GACGGCGCAA GTGGAGAAGA GGGAGGAAAA 
ACCGAGGGAG AAGGAAAGTC AGCAAGTACA AGTCCTACCT TTAAATTTGG GAGGAACAAG 
GCAGACACAC CTGACGGGGC AGAGCAAAGC AGCACGGCTT CCTGTTGGCA AAAATCTCCC 
GGTGCAGGTG AGGAAGGCGG ACAAAGCCAC GCTCAGCTGA CAGAAGTGGA TCTCACAGAG 
TATACACGTT CAATTGAGAA ACTCAACCAC TCTTTGGCCT TCCTCCAAAC TGAGATGCAG 
CGATTGGCTC AGCAGCAAGA AGTAATCATG GCCATGAGGG AGCAAAAACA GCAGCAGGCG 
TGGGTCATCC CTCCTCCACA TACAAACCCC TCGCCGCAGA AGCACGGTCG AGCCGGAGCC 
GTCACTCGAT CCTCGGGACC CTCTTCTCCG GCTGACTCCC CTCGTTCCAC CCATCGCTCT 
CCAACCAGCA TCAAACGGAA ATCGGCGTCC TTCCACTCAC GTAATCCTCG CACCGCTCGA 
CCCAGCGAGC TCAAGCTGGC CCCATACAGT CGCGTCCTAA CCGCGCCGCA GTCTGTCGAT 
AGCATCCCAA GGCTACGGCG ATTTTCTCCC TGCCAGCCCC TGGCGAGTTC CTTCGTTTAC 
ATGGGGGAGA AACCAGCAAC CGCCAATTTG GAGACGGTCG CTCCAGTTGC AGATAAAAAC 
AAGGAAACAC ATTCCCTCCT TTCCCCAGAG CGAGAGCTTG TGGGTATAGC CAGCTCCCCC 
TGTAGCTCCC CAAAACTGCA GAACAAAAAA GAGGAAAGTG AAGTAGGTAC TAATGCCCAA 
ACCCAGGAAA CAGAAGCTCC CCACCAATCC AAGACCACTG ACATGGAAAC AGATTACCAG 
AAAGCTCAGA AGTCCGATGT AAAGCTCAAA CCTACTTTAG AGTCAACATT CCCTGAAGTT 
CTAGCCCACC CTGTGGTAGA GACCTTCACG GTGATGCCAA CAGAGATCCC TTTCCAGTCA 
GAATTGTCTG GCCAAGCCAA AAGCAGTTTG ATTGAGGTTC CTCTGTCAGT GGTGAAACCG 
CTAGAGGATC CAACTCTGGA TGAAAGCGAG GATGGAAAAG CAGAGGAGAA CATGGCGCAG 
AAGAGGGCTG CACTGCTGGA GAAAAGGATG CGAAGGGAAA AGGAGACCCA GCAGAAGAAG 
ATGCAGCTGG AAGCTGAGCT GGAGCAGAAG AAAGAGGAAG CTCGACTGAA AGCCGAAGAG 
GAGCGTGTCA GGAAGGAGGA GGACAAGGCC AGGAAGGAGT TCATCAAGCA GGAGTACCTC 
AGGAGGAAGC AGCTGAAGCT GATGGAGGAC ATGGACACCG TCATTAAACC TCGACCCGCG 
GCAGGGGCCA AACAGAGGCG AGGGCGACCG AAGTCTATCC ATCGCGACAG CATGGACTCA 
CCCAAAACCC CCGTGAGGGC TGCCACAGTC TCCAGCTTGT CCCTTGCTTC GCTCAACCTG 
GGAGACAACG ACAGCGTTCA CTCTGAGAAG AGAGCAGCAA GACTAACTGG ACCGAGGCTG 
TACAAGGAGC CCAGCGCCAA ATCTAACAAG CACATCATCC AAAATGCTCT GGCACACTGC 
TGCCTTGCAG GGAAGGTCAA TGAGGGGCAA AAGAACAAGA TTTTGGAGGA AATGGAGAAA 
TCAGAAGCCA ACAACTTCTT GGTTTTGTTC AGAGATGCCG GATGCCAATT TCGCGCTCTC 
TACACTTATT GCCCCGAGAC CGAAGAAATC AACAAGCTGA CGGGCATCGG CCCCAAGAGC 
ATCACACGCA AGATGATCGA TGGCCTCTAC AAGTACAACT CAGACAAGAA GCAGTTCAGT 
CAGATACCAG CTAAGACCAT GTCAGCCAGC GTGGACGCAG TGACAATCCA CAACCACCTC 
TGGCAAACCA AGAAGCCAGC CACCCCTAAA AAAGTAGTGC CTGCCCAGTC CTAA