EFCAB5 cDNA ORF clone, Struthio camelus australis

Gene
Clones
gRNAs

Summary

Gene Symbol	EFCAB5
Entrez Gene ID	104142811
Full Name	EF-hand calcium binding domain 5
Gene Type	protein-coding
Organism	Struthio camelus australis

mRNA and Protein(s)

mRNA	Protein	Name
XM_009672991.1	XP_009671286.1	EF-hand calcium-binding domain-containing protein 5

Pathways from BioSystems
Gene Ontology

The following EFCAB5 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the EFCAB5 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
OSt71914	XM_009672991.1 Latest version!	Struthio camelus australis EF-hand calcium binding domain 5 (EFCAB5), 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)

EFCAB5 ( XM_009672991.1 ) cDNA ORF clone, Struthio camelus australis -> XP_009671286.1 Struthio camelus australis EF-hand calcium binding domain 5 (EFCAB5), mRNA.

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CloneID	OSt71914
Clone ID Related Accession (Same CDS sequence)	XM_009672991.1
Accession Version	XM_009672991.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4260bp) 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	2014-10-14
Organism	Struthio camelus australis
Product	EF-hand calcium-binding domain-containing protein 5
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_009271012.1) 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 :: Struthio camelus australis 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##

ATGGCTGCTC AGCCAGAAGC AGCAGCCCAA ATTCCAGGTC TAAAACTCCC CAAACGTGGA 
GATAAGAATA TGACTGTCAC AGAAATGAAG ACAAATCAAA GGAGTGATGA GCTGCTGTGT 
CTTAGCAATT ATGCTCCATG GAAAGAGTAT TTTTATGAAA AGGTACAACA GAGAACTCTG 
AGTCTGCAGG AGACAAAGGT GAAGATGATT CATGCACAAA AGGCAAAAGA AGAAGAGGTA 
AAAAAGAGAG AGCCCTGCGA CTGGCTGTCC AAGGAGTGGT TCAGTAAAGA GAAATACTCA 
CTGGATACTC GCACCTATTT GCTTGACAGA CTCCTACCTA CATTAATCCC AGGGGTGGAA 
AAGCTGTTAA TGGAAGTGGA AAGAAGGAAG ATGCTTGCAA CAGACAAATA CCCAATCAAA 
TTTGACCCCA TTAATTTTCT TGGAGAATAT CTGATGAGGC ATAACCCCCA GTCCGATTTT 
TTTACAAAAC CAGGCCCATA CGTGAGAGGA ATGAAGATGG TCACAGAGGA GCTAAAAACT 
GAGGTGCCAG ATACAGCATC AAACAGGCTG GCCAGGATGA AGTTTGAGGC AAAGAGCAAA 
CGTAAGCAAA GGGAGCAGGT GGAGAATATA AAGTCTCAAG TGAAAGAGAA GAGAAAGAAG 
GCTCTGGCAA TTCAGTTCAA AGAATGGACA GTGGATGTCA GCGGGAGAAT ACCGATTGCA 
CTGGTTCAGA GTGCCCTGAG GTCATTTCTG GATGTCACTG CTTCAACTCC CTTAGGTGCA 
GGAAAAGCAG CCTATGACAG GAAGCTGGAA ATCGTAGACA CATTGGAAAA AAAAGTAAAC 
ATAGATGAAT TCACAGAGTA CATCCATTCC ACCATTGAAA ACTTTCCAAG TGACATGTTC 
CAAGACCTCC TGAAGCATCT CTGTCAGTGT GCTGATGACT TCCGAGAAAC AATAAGACAT 
GATATGTGGA GGCAAATGTT TACTGATCTC TTCCTAGACT GTGATTATGG AAAGGTTGGT 
CTCTTAAATA GGCAAATAGT ACTTGCCCTA CTGGAAGAGT TCTATGACAG AAGCCCTGTG 
ATTGCCAAGA GGGGACTCTG TAACCCAAGA CAATGGCCAA TAGTTGAGCT GCAAGAGATT 
GAGCTTGCAG ATCTATGGGG AGGTCTTGAC GACCAGGAAG TTTGTGAGGA ATTCAGTGAA 
AAGTCTGCGC TATCTCAAAC AGAAATTTCT GAGGAACAGA CTTTGGCATA CAAACCTGTA 
GGTGATGGCA CATATGGAAT GAGTGCTACT GTCAGAGATG ATCCTTTTGA ACAAATGGAC 
ATAAGTGAAG CTGGGACTAG AGAGATTTCT AAGGAAGAAA ACCAACCAGC AGCTGTGCTT 
CTGAAAACAG AACCAAGGGA TGCTGAGGTA AGAGAGGAAA GTGAGGATCC TGCGTCAATG 
ATGGAAAGCA CTGATTTTGA ACCTAGTGAT TTGGATGGAG ATACAATCCT TAGTGAGAAA 
TCTACTTTCT GTGGAAACAC CAGAACTGAG AAGCAATTTG AATCTGCAAG CGCAGACAGC 
CAGGAGGAAT CCTTCCCAAG ATCAGCCTTT ACTGGAGACT ATGTCACTAG AGATGGACAA 
CCTGGATCTG AAAAGCAGAT GGAGGAGGGC GAATTCAGCC TGGGTAGAGA GTCAGTTCCA 
GAAACAAATA TGGGAGAAGA CTATATGATC TTGGATAGAG AACCTGGCAC AGAAGGGCAA 
GTTAGGCAGG AGGAGGACGA TTGGATTGCA GAGCCAACCA AAACAATTCC AAGACCAATA 
CCTGAAGCTA CAGGCATGAC CTCAGAAGAA GGAGCTGTGA TTGAGAAAGA AACTTCTGCA 
AGAAAAGAGA GTTTTTTTAA GCAGCATGAC AACCAATTTG GAAGACGGGC AAGCTCAGAG 
GCAAGACAGC AGGCTGAGGA CCTTTTGCAA GACCAGGATA AAGGTCCAGC ACTCTCAGAC 
GGACAGGAAT GTCAAGCCAA AATTAGCCAG GAGTTTGAAA AAGCAGAACA ACTGATAGAT 
GGGATGCCAT GGTCAGGGGA CCTTCTGACC TCTGACCTAA GTTTCAGGTA TAGCAGCTAT 
GGAGAGAGAA TTCCAGAGGA CTGGAACAGT GAGAACTCTA GATTTCCAGA CTTGCGTCCA 
ATCATGGCAG AGATTCAGAG CCGTGGTACT TCTCATGCTA TGAGTGCTTT TGATGAAAGT 
TGCCTCAACC TGCCGCAGTT TGTCCAGCTC ATGGAGACAT TTGTTGGTAA AGGCACTTCT 
CTGTCTACCG TGAAGAGGCT TATTGCATTT ATCAAAGAAG AATACAAACA GACAGAAGAG 
GAAAAGATGG AACAACTGAA GAAGGTTCGC CTCATCTCTC TCTTGGCCCG ACGGAAACTG 
CTTTTGGAGG CACTTTTTGA AAAGTGGGAC AACAACGGAT CTGGGTTTCT GGACCTGAAA 
GAGGTAGATG CTGTTCTAAG CACATTCAAA GAAGGAATGG AAAAAAAGGC CTTGAGGAAT 
GCAAAGAAAC ACCTTTGCTC ACGCTACCCA CAGCCTAGCA GAATGGAGAA GCTGTCCCCG 
CAGACATTCC AGGCTTATCT TGAATTAGTG GTTTCTGAGT TAACTGAGAA CGCGGATGAA 
GTCATTGATA ACATAGTGGA GTTTCTGACC ACAAGTGTGG AACAAAGTCA TATGGAGGGT 
CTGCGACGCT TGGCCAGGAG AAAATGGCTG CACAGTATCC AGCAAGCAGC TGAGACCAGT 
GGAGCAAAAA TGGAACCAGT TTACAAAGCA GTGTTTAAGA CCCTCTCCCA GGATGCAGAA 
GCCCATGGGG ATAACAAGAA GATCAGTGCA TATATTGCCC TTTTGGAAGA GAACCAGGTC 
TCACCAGAGC GAGGACAGAT TCTCCTACAC TGTGTGGCAT GTACTGCAGA TGATGCCCCA 
TATGTCCTAA ACCAGATACT TTACAGAGAC ATGGAAGGAG TAAGCTTTGC AGCTGTTGAA 
GAGGGGAAAC CAATCCATGT TCCAAAAGTT CAGCTCCATG GAAACATCCA CTTCTGGAAC 
TATGACCGCC CAGTTGAGGA GAGAAGAGGT TCATTCCTGG TACTGCCATT GCAAGATGCT 
CACTGGAGAG TCTTTGGAAT CCTAGCACTT GATACACTTC GGGACAAGTG TGAGAAAACC 
ATCTTTCTGG CCCATGAGAT CAGTTTCTAT CAGGGAGTTT CTCATGCATT CAGCAAAGCC 
TACCACCATG TCTGCACACT GGAAAATGTT CTGCAAGTGA CGCTCACTGC TCTGGACTGG 
TTGTATCCAA GAGCACCCAA CATCTCCACT GTTATTGTAT ATATGATGGA GCCTGGCCAA 
GATAAGACGT GTGACTATGC TCTGCGGAAG ATGATTACTA CAGATCATAC AGGGCAAAGA 
GAACTTCATA CCTCTCCTGT TCTTCTCCTC AGAAAAGAGA ACCTTTTAAG AGATTACCTG 
TTTAAATGCA CAGACAGTTC ACAGGTCATT GGCACATACG TCTGTGGAGA ATACCACTTT 
GCAATACCTC TCCGTGATCT ATCAGGAAAA GCTCTTGGGG TATTAGATCT CAGTATTGGG 
CATCACCAGC AATTACCACC CCATGAACAC AAAGACCTGC AGAAAATGCT GAAGATGGTC 
CAAGCTGCCT GCTCTGAGAT ATTGAAGATG TCTTCAGGGG AAACAGAACC AATCTATGTA 
CTGGAGGCAG AACACGCGGC AAGTTTGAGG CATGCAGGGA TTCTTTTCCA CCGGTTCATG 
CTGCAGGACC TGCGTGAGTG TGTCCAGAAA CTTGAAGCTG AGGACTTTGC TGAAATAAAG 
AGCTATGTAG AACCTCCAGC TCTGGTACAT AACATAGTAA CGGCTGTGCT GTTGCTCCTC 
TATCCAAAGT GGAAAGGCTC TGAGAAGACT GAGAACTGGA GTCAGTGTAT ACTGAAACTT 
GATGACAATT TGATTCAGAA GATTTACTGC TTTGATCCAA CTGCTGCATC TGTGCAAGTT 
CAAGCAGAGG GGCTGCTGGA CTGTATCACC GGTATACCTA GAGCAGATGT GTGGAAGCAC 
GGCTCAGTCC TGGTTGAGTA CTTGTATGAC TGGGTAGGCA CCTGCTTGTC ACTAATAGAG 
CTCACAGAGA GCCTTCGTGA AACCAAAGCT CCATCTTCAG ACACTTTGAT ACCAAATTCT 
AGAGCGACTC CAGTTAAATC ATTCATTTTT TCATCTACCT CTAGTGATTC TGATAGTTAA

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

RefSeq	XP_009671286.1
CDS	2995..7254
Translation	MAAQPEAAAQIPGLKLPKRGDKNMTVTEMKTNQRSDELLCLSNYAPWKEYFYEKVQQRTLSLQETKVKMIHAQKAKEEEVKKREPCDWLSKEWFSKEKYSLDTRTYLLDRLLPTLIPGVEKLLMEVERRKMLATDKYPIKFDPINFLGEYLMRHNPQSDFFTKPGPYVRGMKMVTEELKTEVPDTASNRLARMKFEAKSKRKQREQVENIKSQVKEKRKKALAIQFKEWTVDVSGRIPIALVQSALRSFLDVTASTPLGAGKAAYDRKLEIVDTLEKKVNIDEFTEYIHSTIENFPSDMFQDLLKHLCQCADDFRETIRHDMWRQMFTDLFLDCDYGKVGLLNRQIVLALLEEFYDRSPVIAKRGLCNPRQWPIVELQEIELADLWGGLDDQEVCEEFSEKSALSQTEISEEQTLAYKPVGDGTYGMSATVRDDPFEQMDISEAGTREISKEENQPAAVLLKTEPRDAEVREESEDPASMMESTDFEPSDLDGDTILSEKSTFCGNTRTEKQFESASADSQEESFPRSAFTGDYVTRDGQPGSEKQMEEGEFSLGRESVPETNMGEDYMILDREPGTEGQVRQEEDDWIAEPTKTIPRPIPEATGMTSEEGAVIEKETSARKESFFKQHDNQFGRRASSEARQQAEDLLQDQDKGPALSDGQECQAKISQEFEKAEQLIDGMPWSGDLLTSDLSFRYSSYGERIPEDWNSENSRFPDLRPIMAEIQSRGTSHAMSAFDESCLNLPQFVQLMETFVGKGTSLSTVKRLIAFIKEEYKQTEEEKMEQLKKVRLISLLARRKLLLEALFEKWDNNGSGFLDLKEVDAVLSTFKEGMEKKALRNAKKHLCSRYPQPSRMEKLSPQTFQAYLELVVSELTENADEVIDNIVEFLTTSVEQSHMEGLRRLARRKWLHSIQQAAETSGAKMEPVYKAVFKTLSQDAEAHGDNKKISAYIALLEENQVSPERGQILLHCVACTADDAPYVLNQILYRDMEGVSFAAVEEGKPIHVPKVQLHGNIHFWNYDRPVEERRGSFLVLPLQDAHWRVFGILALDTLRDKCEKTIFLAHEISFYQGVSHAFSKAYHHVCTLENVLQVTLTALDWLYPRAPNISTVIVYMMEPGQDKTCDYALRKMITTDHTGQRELHTSPVLLLRKENLLRDYLFKCTDSSQVIGTYVCGEYHFAIPLRDLSGKALGVLDLSIGHHQQLPPHEHKDLQKMLKMVQAACSEILKMSSGETEPIYVLEAEHAASLRHAGILFHRFMLQDLRECVQKLEAEDFAEIKSYVEPPALVHNIVTAVLLLLYPKWKGSEKTENWSQCILKLDDNLIQKIYCFDPTAASVQVQAEGLLDCITGIPRADVWKHGSVLVEYLYDWVGTCLSLIELTESLRETKAPSSDTLIPNSRATPVKSFIFSSTSSDSDS

Target ORF information:

RefSeq Version	XM_009672991.1
Organism	Struthio camelus australis
Definition	Struthio camelus australis EF-hand calcium binding domain 5 (EFCAB5), mRNA.

Target ORF information:

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

XM_009672991.1

ORF Insert Sequence:

ATGGCTGCTC AGCCAGAAGC AGCAGCCCAA ATTCCAGGTC TAAAACTCCC CAAACGTGGA 
GATAAGAATA TGACTGTCAC AGAAATGAAG ACAAATCAAA GGAGTGATGA GCTGCTGTGT 
CTTAGCAATT ATGCTCCATG GAAAGAGTAT TTTTATGAAA AGGTACAACA GAGAACTCTG 
AGTCTGCAGG AGACAAAGGT GAAGATGATT CATGCACAAA AGGCAAAAGA AGAAGAGGTA 
AAAAAGAGAG AGCCCTGCGA CTGGCTGTCC AAGGAGTGGT TCAGTAAAGA GAAATACTCA 
CTGGATACTC GCACCTATTT GCTTGACAGA CTCCTACCTA CATTAATCCC AGGGGTGGAA 
AAGCTGTTAA TGGAAGTGGA AAGAAGGAAG ATGCTTGCAA CAGACAAATA CCCAATCAAA 
TTTGACCCCA TTAATTTTCT TGGAGAATAT CTGATGAGGC ATAACCCCCA GTCCGATTTT 
TTTACAAAAC CAGGCCCATA CGTGAGAGGA ATGAAGATGG TCACAGAGGA GCTAAAAACT 
GAGGTGCCAG ATACAGCATC AAACAGGCTG GCCAGGATGA AGTTTGAGGC AAAGAGCAAA 
CGTAAGCAAA GGGAGCAGGT GGAGAATATA AAGTCTCAAG TGAAAGAGAA GAGAAAGAAG 
GCTCTGGCAA TTCAGTTCAA AGAATGGACA GTGGATGTCA GCGGGAGAAT ACCGATTGCA 
CTGGTTCAGA GTGCCCTGAG GTCATTTCTG GATGTCACTG CTTCAACTCC CTTAGGTGCA 
GGAAAAGCAG CCTATGACAG GAAGCTGGAA ATCGTAGACA CATTGGAAAA AAAAGTAAAC 
ATAGATGAAT TCACAGAGTA CATCCATTCC ACCATTGAAA ACTTTCCAAG TGACATGTTC 
CAAGACCTCC TGAAGCATCT CTGTCAGTGT GCTGATGACT TCCGAGAAAC AATAAGACAT 
GATATGTGGA GGCAAATGTT TACTGATCTC TTCCTAGACT GTGATTATGG AAAGGTTGGT 
CTCTTAAATA GGCAAATAGT ACTTGCCCTA CTGGAAGAGT TCTATGACAG AAGCCCTGTG 
ATTGCCAAGA GGGGACTCTG TAACCCAAGA CAATGGCCAA TAGTTGAGCT GCAAGAGATT 
GAGCTTGCAG ATCTATGGGG AGGTCTTGAC GACCAGGAAG TTTGTGAGGA ATTCAGTGAA 
AAGTCTGCGC TATCTCAAAC AGAAATTTCT GAGGAACAGA CTTTGGCATA CAAACCTGTA 
GGTGATGGCA CATATGGAAT GAGTGCTACT GTCAGAGATG ATCCTTTTGA ACAAATGGAC 
ATAAGTGAAG CTGGGACTAG AGAGATTTCT AAGGAAGAAA ACCAACCAGC AGCTGTGCTT 
CTGAAAACAG AACCAAGGGA TGCTGAGGTA AGAGAGGAAA GTGAGGATCC TGCGTCAATG 
ATGGAAAGCA CTGATTTTGA ACCTAGTGAT TTGGATGGAG ATACAATCCT TAGTGAGAAA 
TCTACTTTCT GTGGAAACAC CAGAACTGAG AAGCAATTTG AATCTGCAAG CGCAGACAGC 
CAGGAGGAAT CCTTCCCAAG ATCAGCCTTT ACTGGAGACT ATGTCACTAG AGATGGACAA 
CCTGGATCTG AAAAGCAGAT GGAGGAGGGC GAATTCAGCC TGGGTAGAGA GTCAGTTCCA 
GAAACAAATA TGGGAGAAGA CTATATGATC TTGGATAGAG AACCTGGCAC AGAAGGGCAA 
GTTAGGCAGG AGGAGGACGA TTGGATTGCA GAGCCAACCA AAACAATTCC AAGACCAATA 
CCTGAAGCTA CAGGCATGAC CTCAGAAGAA GGAGCTGTGA TTGAGAAAGA AACTTCTGCA 
AGAAAAGAGA GTTTTTTTAA GCAGCATGAC AACCAATTTG GAAGACGGGC AAGCTCAGAG 
GCAAGACAGC AGGCTGAGGA CCTTTTGCAA GACCAGGATA AAGGTCCAGC ACTCTCAGAC 
GGACAGGAAT GTCAAGCCAA AATTAGCCAG GAGTTTGAAA AAGCAGAACA ACTGATAGAT 
GGGATGCCAT GGTCAGGGGA CCTTCTGACC TCTGACCTAA GTTTCAGGTA TAGCAGCTAT 
GGAGAGAGAA TTCCAGAGGA CTGGAACAGT GAGAACTCTA GATTTCCAGA CTTGCGTCCA 
ATCATGGCAG AGATTCAGAG CCGTGGTACT TCTCATGCTA TGAGTGCTTT TGATGAAAGT 
TGCCTCAACC TGCCGCAGTT TGTCCAGCTC ATGGAGACAT TTGTTGGTAA AGGCACTTCT 
CTGTCTACCG TGAAGAGGCT TATTGCATTT ATCAAAGAAG AATACAAACA GACAGAAGAG 
GAAAAGATGG AACAACTGAA GAAGGTTCGC CTCATCTCTC TCTTGGCCCG ACGGAAACTG 
CTTTTGGAGG CACTTTTTGA AAAGTGGGAC AACAACGGAT CTGGGTTTCT GGACCTGAAA 
GAGGTAGATG CTGTTCTAAG CACATTCAAA GAAGGAATGG AAAAAAAGGC CTTGAGGAAT 
GCAAAGAAAC ACCTTTGCTC ACGCTACCCA CAGCCTAGCA GAATGGAGAA GCTGTCCCCG 
CAGACATTCC AGGCTTATCT TGAATTAGTG GTTTCTGAGT TAACTGAGAA CGCGGATGAA 
GTCATTGATA ACATAGTGGA GTTTCTGACC ACAAGTGTGG AACAAAGTCA TATGGAGGGT 
CTGCGACGCT TGGCCAGGAG AAAATGGCTG CACAGTATCC AGCAAGCAGC TGAGACCAGT 
GGAGCAAAAA TGGAACCAGT TTACAAAGCA GTGTTTAAGA CCCTCTCCCA GGATGCAGAA 
GCCCATGGGG ATAACAAGAA GATCAGTGCA TATATTGCCC TTTTGGAAGA GAACCAGGTC 
TCACCAGAGC GAGGACAGAT TCTCCTACAC TGTGTGGCAT GTACTGCAGA TGATGCCCCA 
TATGTCCTAA ACCAGATACT TTACAGAGAC ATGGAAGGAG TAAGCTTTGC AGCTGTTGAA 
GAGGGGAAAC CAATCCATGT TCCAAAAGTT CAGCTCCATG GAAACATCCA CTTCTGGAAC 
TATGACCGCC CAGTTGAGGA GAGAAGAGGT TCATTCCTGG TACTGCCATT GCAAGATGCT 
CACTGGAGAG TCTTTGGAAT CCTAGCACTT GATACACTTC GGGACAAGTG TGAGAAAACC 
ATCTTTCTGG CCCATGAGAT CAGTTTCTAT CAGGGAGTTT CTCATGCATT CAGCAAAGCC 
TACCACCATG TCTGCACACT GGAAAATGTT CTGCAAGTGA CGCTCACTGC TCTGGACTGG 
TTGTATCCAA GAGCACCCAA CATCTCCACT GTTATTGTAT ATATGATGGA GCCTGGCCAA 
GATAAGACGT GTGACTATGC TCTGCGGAAG ATGATTACTA CAGATCATAC AGGGCAAAGA 
GAACTTCATA CCTCTCCTGT TCTTCTCCTC AGAAAAGAGA ACCTTTTAAG AGATTACCTG 
TTTAAATGCA CAGACAGTTC ACAGGTCATT GGCACATACG TCTGTGGAGA ATACCACTTT 
GCAATACCTC TCCGTGATCT ATCAGGAAAA GCTCTTGGGG TATTAGATCT CAGTATTGGG 
CATCACCAGC AATTACCACC CCATGAACAC AAAGACCTGC AGAAAATGCT GAAGATGGTC 
CAAGCTGCCT GCTCTGAGAT ATTGAAGATG TCTTCAGGGG AAACAGAACC AATCTATGTA 
CTGGAGGCAG AACACGCGGC AAGTTTGAGG CATGCAGGGA TTCTTTTCCA CCGGTTCATG 
CTGCAGGACC TGCGTGAGTG TGTCCAGAAA CTTGAAGCTG AGGACTTTGC TGAAATAAAG 
AGCTATGTAG AACCTCCAGC TCTGGTACAT AACATAGTAA CGGCTGTGCT GTTGCTCCTC 
TATCCAAAGT GGAAAGGCTC TGAGAAGACT GAGAACTGGA GTCAGTGTAT ACTGAAACTT 
GATGACAATT TGATTCAGAA GATTTACTGC TTTGATCCAA CTGCTGCATC TGTGCAAGTT 
CAAGCAGAGG GGCTGCTGGA CTGTATCACC GGTATACCTA GAGCAGATGT GTGGAAGCAC 
GGCTCAGTCC TGGTTGAGTA CTTGTATGAC TGGGTAGGCA CCTGCTTGTC ACTAATAGAG 
CTCACAGAGA GCCTTCGTGA AACCAAAGCT CCATCTTCAG ACACTTTGAT ACCAAATTCT 
AGAGCGACTC CAGTTAAATC ATTCATTTTT TCATCTACCT CTAGTGATTC TGATAGTTAA