tanc1 cDNA ORF clone, Anolis carolinensis(green anole)

Gene
Clones
gRNAs

Summary

Gene Symbol	tanc1
Entrez Gene ID	100561912
Full Name	tetratricopeptide repeat, ankyrin repeat and coiled-coil containing 1
Gene Type	protein-coding
Organism	Anolis carolinensis(green anole)

mRNA and Protein(s)

mRNA	Protein	Name
XM_008119242.2	XP_008117449.1	protein TANC1

Pathways from BioSystems
Gene Ontology

The following tanc1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the tanc1 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
OAn15565	XM_008119242.2 Latest version!	Anolis carolinensis tetratricopeptide repeat, ankyrin repeat and coiled-coil containing 1 (tanc1), 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)

tanc1 ( XM_008119242.2 ) cDNA ORF clone, Anolis carolinensis(green anole) -> XP_008117449.1 Anolis carolinensis tetratricopeptide repeat, ankyrin repeat and coiled-coil containing 1 (tanc1), mRNA.

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CloneID	OAn15565
Clone ID Related Accession (Same CDS sequence)	XM_008119242.2
Accession Version	XM_008119242.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4212bp) 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	2016-05-30
Organism	Anolis carolinensis(green anole)
Product	protein TANC1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003338926.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On May 31, 2016 this sequence version replaced XM_008119242.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Anolis carolinensis Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 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##

ATGATCTTAG AAGACTTTTC TTCGTTTTTG AAGAAGAGCA GTGTTGAAAT GTTAAAAGCC 
GTTTTGAAGA AAAGCAGGGA TGGTGGAAAG GCAAGCAAGA AGGAATCTGG TGATTCATGT 
TCAGAAAGTG CTCTACAGAT AATTACCGTG TCGGGCCACA GTCCAGACTT TCCTGGTGGT 
GTACAACCTG TTCCTGAAGA TGTCTACAGA ATGAATTTGG CCAAAGGAGT TTCCATGTCT 
TTGCCATCAT CACCTTTACT GCCTCGCCAT GCCTATTTGA TGCAGTCAAG AGCAAGCAAA 
AAATCTCCAG GTCCCATCAG GAAGCCCAAG TATGTGGAAA GTCCTCGGAT ACCAGGAGAT 
GCAGTTGGTG CTGCAATGAG GAAAGCGTTG GAACCGTCCG AACTCAACCA GAATGAAGCA 
AAATCAGAGA AAGAATCAGG TTGTTCGCCA GCTGCTCAGG AACTGATGAC AAGACTGGGA 
TTTTTACTAG GAGAAGGAAT TCCCACCTCT GCCCATATTG CTGCAGAAGA AAAGCATGAA 
ATGATGTGCA CAGTTGCTAG TCAAGGAGTC AGTCCCTGCT CTACTCTAAC AAGCAGCACA 
ACGTCGCCTA GCACTGACAG CCCCTGCTCA ACTCTGAATA GCTGCGCCGG CAAAACAGCA 
GCCAACAAAA GTAGTCCCTG TGGGACCATT AGCAGCCCAA GCTCCACATT GGAAAGCAAG 
GACAGTGGAA TTATAGCAAC AGTAACAAGT TCATCTGAGA ACGATGACCG TAGTGGATCC 
AGTTTGGAAT GGAGTAAAGA TGGAAGTCTC AGAACTGCAA CGCATCAGGG AATCATTTAT 
GAACGAAGGG CAGATAATTG TTCACCAGTT GCAGAAGAGG AGACTGTTGG ATCTTCAGAA 
AGTTTACCAA AAGGAGAAGC ATCTTCAGGA GATGGTCCTG TGACTTACAC TCAAAACTCT 
GGCTCATTGG TAATGCCTCG ACCTAACTCT GTTGCAGCAA CGAGTTCCAC CAAGCTGGAA 
GACCTGAGCT ATTTGGATGG CCAGAGAAAC ACCCCATTGC GGACCTCAAT TCGTTTACCT 
TGGCACAATA CTGCTGGAGG GAGAGTTCAA CAAGAAATGA AAGCACGTTT TGTCCCTTAT 
AAGCCTCAAG ACATTTTGCT AAAGCCACTA TTGTTCGAAG TGCCAAGCAT AACAACGGAC 
TCTGTGTTTG TCGGAAGAGA CTGGCTGTTT CAAGCCATAG AGGAAAAGTT GAAGAATACA 
GAGCAGGCAG AAACCAGGGG AGCCGTTGTC GTTGGAAATG TGGGATTTGG GAAGACTGCA 
ATTATTTCCA AGCTTGTGGC ACTTAGCTGC CATGGAAGTC GCATGAGACA AATTGCTTCC 
ACCAGCTCCA ACTCTCCTCC CAAAACCAAT GACCCCTGTC AAGAGATCCC ACTCAGCCAG 
CTGCCCACTT CTGTTGTTCC CTCAGCTGGT ATCAGTACCA TCAAATCCTT GAACTGCCCT 
CCTGCTCAGG AACATCAGAA CCAAATGGAA GAATCAGTTA GACGTCTTGC TTCAAAGGTT 
GTTGCCTATC ACTACTGCCA AGCAGACAAC ACTTATACAT GCCTTGTCCC AGAATTTGTA 
CATAGTATTG CCGCTCTCCT CTGCCGTTCC CATCAGTTAG CAGCATATAG AGAACTTTTG 
ATACGGGAAC CACACCTACA AAGCATGCTT AGCCTGAGGT CCTGTGTTCA GGATCCTGTG 
GCAGCATTCA GAAGAGGAGT ATTGGAACCG TTGGCGAATC TTAGAAAAGA ACAGAAAATT 
GCAGAAGAAG AATACATCAT TTTGATAGAT GGCTTAAATG AAGCTGAATT TCACAAGCCT 
GATTATGGGG ATACTGTTTC TTCATTCATC ACAAATATTA TTTCCAAATT TCCTCCCTGG 
CTAAAACTGA TTGTGACTGT AAGAACAAAT TTCCAGGAAA TAACCAGCTC CCACCCTTTC 
TTTACCATCT CCCTTGATGA GTTCCATGAC AACAAAGACA TACAAGCTGA CTTAAATGCA 
TACATTCAGT ACAGGATCAA TGCCAGCCAG GATATTATAA ACAACATCTC CCTCAATGGG 
AAAGCAGATG CAGCCATTAT TGGGAAAGTC AGCAATCACT TGATCATGAG GAGCATGGGA 
TCGTATCTCT ACTTAAAGCT GACCTTAGAC CTCTTTGAGA AGGGCCACCT GGTCATCAAA 
AGCGCAAGCT ACAAAGTGGT TCCGGTCTCC CTCTCTGAGC TTTATTTGCT TCAGTGCAAC 
ATGAAATTCA TGACAAACTC ATCATTTGAA AGATCCTTGC CGGTGCTGAA TGTGGCTCTG 
GCATCACTTC ACCCAATGAC AGATGACCAG ATTTTCCAAG CTATTAATGC AGGCCAGATA 
TATGGAGAAC AGCAGTGGGA GGAATTCCAG CAGAGGATGG AGTGCCTTTC AGGCTTTCTG 
ATAAAAAGGC GAGACAAAAC ACGAATGTTC TGCCATCCTT CCTTCAGGGA ATGGCTTGTT 
TGGAGAGCAG AAGGTGAAAA CACTGACTTT TTATGTGAGC CAAGGAATGG CCATGCTCTT 
TTGGCATTCA TGTTCTCCAG GCAGGAAGGG AAGCTTAACC GTCAGCAGAC AATGGAACTT 
GGGCATCATA TTCTCAAAGC ACACATTTTC AAGGGACTCA GTAAAAAGAC TGGAATTTCT 
TCCAGCCATC TTCAAGCCCT GTGGATTGGA TATAGTACAG ATAGTTTGTC AGCAGCTCTT 
GCATCTTTAA GAAATCTCTA TACTCCAAAT GTAAAGGTAA GTCGTCTGCT GATCTTAGGT 
GGTGCCAATG TAAACTACAG GACAGAAGTT CTCAACAATG CTCCAATATT ATGCGTTCAA 
TCTCATCTTG GCCATGAAGA AGTGGTCCTT CTCTTGCTGG AATTTGGTGC CTCCATGGAT 
GGTGCATCTG AGAATGGGAT GACCCCACTT TGCTGTGCAG CAGCTGCAGG CCACATGCAA 
ATAGTCTCAC ACCTGTGCAA AAAAGGAGCA AAGATTGACC ACCTGGATAA AAAAGGACAG 
TGTGCTTTGG TTCACAGTGC TCTTAGAGGC CATGCTGATA TTCTTGAATA CCTGTTCAAT 
ATGGATTGGA TATCTTTTCC CCATCAGCAG AGTTCACTGA GCAAGCGGCA TGCGCTGCAG 
CAGGCCCTCA CAGCGTCTTC AAGCATGGGA CACTGCCAGG TTGTTCATTT TCTGATAAGG 
CTTGAAAAGG AGCCTAAAAT TGACATCAAT GAAACAGATA CACTGTGGGG AGAAACAGCA 
TTGACTGCTG CTGCTGGGAG AGGAAAACTG GAAGTATGTG AATTATTACT CGAACACGGG 
GCTCAAGTAA CAAGAACTAA CAGAAGAGGG ATACTTCCAC TTTTCTGTGC TGTTCGTCAG 
GGACATTGGC AGATTGCAAA ACTTCTGTTG GAACATGGGG CTGATATAAA TTTAAGTGAC 
AAACAAGGGA GGACGCCTCT CATGGTGGCT TCTTGTGAAG GACATCTGGG CACGGTTGAA 
TTTCTCATCT CCAAAGGTGC AGACATTTCA TTGCTGGACA AGGAAGGCCT GACAGCTCTG 
AGCTGGGCTT GCCTCAAAGG CCACAAGAGC GTGGTCCAGT ATTTGGTTGA AAAAGACGCA 
ACAATAGACC AGACAGACAA GAATGGAAGG ACACCCTTGG ACTTAGCCGC TTTCTATGGA 
GACTCAGATA TTGTGCAGTA TTTAGTGGAG AAGGGGGCAG TGATTGAACA TGTTGACAAT 
AGTGGGATGC GCCCACTGGA CAGAGCCATT GGATGTCGAA ATACATCAGT TGTTGTCACA 
CTTCTTCGGA AAGGAGCCAA ATTAGGAAAC GCAGCATGGG CCATGGCAAC ATCTAAACCT 
GATATTCTGA TTATCCTCCT GCAGAAGCTA ATTGAAGAAG GAAATATAAT GTACAAAAAA 
GGGAAGATGA AGGAAGCAGC CCAGCGGTAT CAGTATGCTT TACGGAAGTT TCCTCGGGAG 
AGTTTCGGGG AAGAAATGAA GGCTTTTAAT GAGCTCAGAG TTTCCTTATA TCTAAGCCTG 
TCAAGATGCC GCAGAAAAAC AAATGACTTT GGCATGGCAG AGGAGTTTGC TACGAAAGCC 
CTGGATCTCA AACCCACATC CTATGAAGCA TATTATGCTC GAGCAAGAGC CAAGAGGAAC 
AGCAGGTACT GA

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

RefSeq	XP_008117449.1
CDS	16..4227
Translation	MILEDFSSFLKKSSVEMLKAVLKKSRDGGKASKKESGDSCSESALQIITVSGHSPDFPGGVQPVPEDVYRMNLAKGVSMSLPSSPLLPRHAYLMQSRASKKSPGPIRKPKYVESPRIPGDAVGAAMRKALEPSELNQNEAKSEKESGCSPAAQELMTRLGFLLGEGIPTSAHIAAEEKHEMMCTVASQGVSPCSTLTSSTTSPSTDSPCSTLNSCAGKTAANKSSPCGTISSPSSTLESKDSGIIATVTSSSENDDRSGSSLEWSKDGSLRTATHQGIIYERRADNCSPVAEEETVGSSESLPKGEASSGDGPVTYTQNSGSLVMPRPNSVAATSSTKLEDLSYLDGQRNTPLRTSIRLPWHNTAGGRVQQEMKARFVPYKPQDILLKPLLFEVPSITTDSVFVGRDWLFQAIEEKLKNTEQAETRGAVVVGNVGFGKTAIISKLVALSCHGSRMRQIASTSSNSPPKTNDPCQEIPLSQLPTSVVPSAGISTIKSLNCPPAQEHQNQMEESVRRLASKVVAYHYCQADNTYTCLVPEFVHSIAALLCRSHQLAAYRELLIREPHLQSMLSLRSCVQDPVAAFRRGVLEPLANLRKEQKIAEEEYIILIDGLNEAEFHKPDYGDTVSSFITNIISKFPPWLKLIVTVRTNFQEITSSHPFFTISLDEFHDNKDIQADLNAYIQYRINASQDIINNISLNGKADAAIIGKVSNHLIMRSMGSYLYLKLTLDLFEKGHLVIKSASYKVVPVSLSELYLLQCNMKFMTNSSFERSLPVLNVALASLHPMTDDQIFQAINAGQIYGEQQWEEFQQRMECLSGFLIKRRDKTRMFCHPSFREWLVWRAEGENTDFLCEPRNGHALLAFMFSRQEGKLNRQQTMELGHHILKAHIFKGLSKKTGISSSHLQALWIGYSTDSLSAALASLRNLYTPNVKVSRLLILGGANVNYRTEVLNNAPILCVQSHLGHEEVVLLLLEFGASMDGASENGMTPLCCAAAAGHMQIVSHLCKKGAKIDHLDKKGQCALVHSALRGHADILEYLFNMDWISFPHQQSSLSKRHALQQALTASSSMGHCQVVHFLIRLEKEPKIDINETDTLWGETALTAAAGRGKLEVCELLLEHGAQVTRTNRRGILPLFCAVRQGHWQIAKLLLEHGADINLSDKQGRTPLMVASCEGHLGTVEFLISKGADISLLDKEGLTALSWACLKGHKSVVQYLVEKDATIDQTDKNGRTPLDLAAFYGDSDIVQYLVEKGAVIEHVDNSGMRPLDRAIGCRNTSVVVTLLRKGAKLGNAAWAMATSKPDILIILLQKLIEEGNIMYKKGKMKEAAQRYQYALRKFPRESFGEEMKAFNELRVSLYLSLSRCRRKTNDFGMAEEFATKALDLKPTSYEAYYARARAKRNSRY

Target ORF information:

RefSeq Version	XM_008119242.2
Organism	Anolis carolinensis(green anole)
Definition	Anolis carolinensis tetratricopeptide repeat, ankyrin repeat and coiled-coil containing 1 (tanc1), mRNA.

Target ORF information:

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

XM_008119242.2

ORF Insert Sequence:

ATGATCTTAG AAGACTTTTC TTCGTTTTTG AAGAAGAGCA GTGTTGAAAT GTTAAAAGCC 
GTTTTGAAGA AAAGCAGGGA TGGTGGAAAG GCAAGCAAGA AGGAATCTGG TGATTCATGT 
TCAGAAAGTG CTCTACAGAT AATTACCGTG TCGGGCCACA GTCCAGACTT TCCTGGTGGT 
GTACAACCTG TTCCTGAAGA TGTCTACAGA ATGAATTTGG CCAAAGGAGT TTCCATGTCT 
TTGCCATCAT CACCTTTACT GCCTCGCCAT GCCTATTTGA TGCAGTCAAG AGCAAGCAAA 
AAATCTCCAG GTCCCATCAG GAAGCCCAAG TATGTGGAAA GTCCTCGGAT ACCAGGAGAT 
GCAGTTGGTG CTGCAATGAG GAAAGCGTTG GAACCGTCCG AACTCAACCA GAATGAAGCA 
AAATCAGAGA AAGAATCAGG TTGTTCGCCA GCTGCTCAGG AACTGATGAC AAGACTGGGA 
TTTTTACTAG GAGAAGGAAT TCCCACCTCT GCCCATATTG CTGCAGAAGA AAAGCATGAA 
ATGATGTGCA CAGTTGCTAG TCAAGGAGTC AGTCCCTGCT CTACTCTAAC AAGCAGCACA 
ACGTCGCCTA GCACTGACAG CCCCTGCTCA ACTCTGAATA GCTGCGCCGG CAAAACAGCA 
GCCAACAAAA GTAGTCCCTG TGGGACCATT AGCAGCCCAA GCTCCACATT GGAAAGCAAG 
GACAGTGGAA TTATAGCAAC AGTAACAAGT TCATCTGAGA ACGATGACCG TAGTGGATCC 
AGTTTGGAAT GGAGTAAAGA TGGAAGTCTC AGAACTGCAA CGCATCAGGG AATCATTTAT 
GAACGAAGGG CAGATAATTG TTCACCAGTT GCAGAAGAGG AGACTGTTGG ATCTTCAGAA 
AGTTTACCAA AAGGAGAAGC ATCTTCAGGA GATGGTCCTG TGACTTACAC TCAAAACTCT 
GGCTCATTGG TAATGCCTCG ACCTAACTCT GTTGCAGCAA CGAGTTCCAC CAAGCTGGAA 
GACCTGAGCT ATTTGGATGG CCAGAGAAAC ACCCCATTGC GGACCTCAAT TCGTTTACCT 
TGGCACAATA CTGCTGGAGG GAGAGTTCAA CAAGAAATGA AAGCACGTTT TGTCCCTTAT 
AAGCCTCAAG ACATTTTGCT AAAGCCACTA TTGTTCGAAG TGCCAAGCAT AACAACGGAC 
TCTGTGTTTG TCGGAAGAGA CTGGCTGTTT CAAGCCATAG AGGAAAAGTT GAAGAATACA 
GAGCAGGCAG AAACCAGGGG AGCCGTTGTC GTTGGAAATG TGGGATTTGG GAAGACTGCA 
ATTATTTCCA AGCTTGTGGC ACTTAGCTGC CATGGAAGTC GCATGAGACA AATTGCTTCC 
ACCAGCTCCA ACTCTCCTCC CAAAACCAAT GACCCCTGTC AAGAGATCCC ACTCAGCCAG 
CTGCCCACTT CTGTTGTTCC CTCAGCTGGT ATCAGTACCA TCAAATCCTT GAACTGCCCT 
CCTGCTCAGG AACATCAGAA CCAAATGGAA GAATCAGTTA GACGTCTTGC TTCAAAGGTT 
GTTGCCTATC ACTACTGCCA AGCAGACAAC ACTTATACAT GCCTTGTCCC AGAATTTGTA 
CATAGTATTG CCGCTCTCCT CTGCCGTTCC CATCAGTTAG CAGCATATAG AGAACTTTTG 
ATACGGGAAC CACACCTACA AAGCATGCTT AGCCTGAGGT CCTGTGTTCA GGATCCTGTG 
GCAGCATTCA GAAGAGGAGT ATTGGAACCG TTGGCGAATC TTAGAAAAGA ACAGAAAATT 
GCAGAAGAAG AATACATCAT TTTGATAGAT GGCTTAAATG AAGCTGAATT TCACAAGCCT 
GATTATGGGG ATACTGTTTC TTCATTCATC ACAAATATTA TTTCCAAATT TCCTCCCTGG 
CTAAAACTGA TTGTGACTGT AAGAACAAAT TTCCAGGAAA TAACCAGCTC CCACCCTTTC 
TTTACCATCT CCCTTGATGA GTTCCATGAC AACAAAGACA TACAAGCTGA CTTAAATGCA 
TACATTCAGT ACAGGATCAA TGCCAGCCAG GATATTATAA ACAACATCTC CCTCAATGGG 
AAAGCAGATG CAGCCATTAT TGGGAAAGTC AGCAATCACT TGATCATGAG GAGCATGGGA 
TCGTATCTCT ACTTAAAGCT GACCTTAGAC CTCTTTGAGA AGGGCCACCT GGTCATCAAA 
AGCGCAAGCT ACAAAGTGGT TCCGGTCTCC CTCTCTGAGC TTTATTTGCT TCAGTGCAAC 
ATGAAATTCA TGACAAACTC ATCATTTGAA AGATCCTTGC CGGTGCTGAA TGTGGCTCTG 
GCATCACTTC ACCCAATGAC AGATGACCAG ATTTTCCAAG CTATTAATGC AGGCCAGATA 
TATGGAGAAC AGCAGTGGGA GGAATTCCAG CAGAGGATGG AGTGCCTTTC AGGCTTTCTG 
ATAAAAAGGC GAGACAAAAC ACGAATGTTC TGCCATCCTT CCTTCAGGGA ATGGCTTGTT 
TGGAGAGCAG AAGGTGAAAA CACTGACTTT TTATGTGAGC CAAGGAATGG CCATGCTCTT 
TTGGCATTCA TGTTCTCCAG GCAGGAAGGG AAGCTTAACC GTCAGCAGAC AATGGAACTT 
GGGCATCATA TTCTCAAAGC ACACATTTTC AAGGGACTCA GTAAAAAGAC TGGAATTTCT 
TCCAGCCATC TTCAAGCCCT GTGGATTGGA TATAGTACAG ATAGTTTGTC AGCAGCTCTT 
GCATCTTTAA GAAATCTCTA TACTCCAAAT GTAAAGGTAA GTCGTCTGCT GATCTTAGGT 
GGTGCCAATG TAAACTACAG GACAGAAGTT CTCAACAATG CTCCAATATT ATGCGTTCAA 
TCTCATCTTG GCCATGAAGA AGTGGTCCTT CTCTTGCTGG AATTTGGTGC CTCCATGGAT 
GGTGCATCTG AGAATGGGAT GACCCCACTT TGCTGTGCAG CAGCTGCAGG CCACATGCAA 
ATAGTCTCAC ACCTGTGCAA AAAAGGAGCA AAGATTGACC ACCTGGATAA AAAAGGACAG 
TGTGCTTTGG TTCACAGTGC TCTTAGAGGC CATGCTGATA TTCTTGAATA CCTGTTCAAT 
ATGGATTGGA TATCTTTTCC CCATCAGCAG AGTTCACTGA GCAAGCGGCA TGCGCTGCAG 
CAGGCCCTCA CAGCGTCTTC AAGCATGGGA CACTGCCAGG TTGTTCATTT TCTGATAAGG 
CTTGAAAAGG AGCCTAAAAT TGACATCAAT GAAACAGATA CACTGTGGGG AGAAACAGCA 
TTGACTGCTG CTGCTGGGAG AGGAAAACTG GAAGTATGTG AATTATTACT CGAACACGGG 
GCTCAAGTAA CAAGAACTAA CAGAAGAGGG ATACTTCCAC TTTTCTGTGC TGTTCGTCAG 
GGACATTGGC AGATTGCAAA ACTTCTGTTG GAACATGGGG CTGATATAAA TTTAAGTGAC 
AAACAAGGGA GGACGCCTCT CATGGTGGCT TCTTGTGAAG GACATCTGGG CACGGTTGAA 
TTTCTCATCT CCAAAGGTGC AGACATTTCA TTGCTGGACA AGGAAGGCCT GACAGCTCTG 
AGCTGGGCTT GCCTCAAAGG CCACAAGAGC GTGGTCCAGT ATTTGGTTGA AAAAGACGCA 
ACAATAGACC AGACAGACAA GAATGGAAGG ACACCCTTGG ACTTAGCCGC TTTCTATGGA 
GACTCAGATA TTGTGCAGTA TTTAGTGGAG AAGGGGGCAG TGATTGAACA TGTTGACAAT 
AGTGGGATGC GCCCACTGGA CAGAGCCATT GGATGTCGAA ATACATCAGT TGTTGTCACA 
CTTCTTCGGA AAGGAGCCAA ATTAGGAAAC GCAGCATGGG CCATGGCAAC ATCTAAACCT 
GATATTCTGA TTATCCTCCT GCAGAAGCTA ATTGAAGAAG GAAATATAAT GTACAAAAAA 
GGGAAGATGA AGGAAGCAGC CCAGCGGTAT CAGTATGCTT TACGGAAGTT TCCTCGGGAG 
AGTTTCGGGG AAGAAATGAA GGCTTTTAAT GAGCTCAGAG TTTCCTTATA TCTAAGCCTG 
TCAAGATGCC GCAGAAAAAC AAATGACTTT GGCATGGCAG AGGAGTTTGC TACGAAAGCC 
CTGGATCTCA AACCCACATC CTATGAAGCA TATTATGCTC GAGCAAGAGC CAAGAGGAAC 
AGCAGGTACT GA