TDRD12 cDNA ORF clone, Lipotes vexillifer(Yangtze River dolphin)

Gene
Clones
gRNAs

Summary

Gene Symbol	TDRD12
Entrez Gene ID	103075432
Full Name	tudor domain containing 12
Gene Type	protein-coding
Organism	Lipotes vexillifer(Yangtze River dolphin)

mRNA and Protein(s)

mRNA	Protein	Name
XM_007471089.1	XP_007471151.1	LOW QUALITY PROTEIN: putative ATP-dependent RNA helicase TDRD12

Pathways from BioSystems
Gene Ontology

The following TDRD12 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the TDRD12 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
OLi37057	XM_007471089.1 Latest version!	Lipotes vexillifer tudor domain containing 12 (TDRD12), 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)

TDRD12 ( XM_007471089.1 ) cDNA ORF clone, Lipotes vexillifer(Yangtze River dolphin) -> XP_007471151.1 Lipotes vexillifer tudor domain containing 12 (TDRD12), mRNA.

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CloneID	OLi37057
Clone ID Related Accession (Same CDS sequence)	XM_007471089.1
Accession Version	XM_007471089.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4251bp) 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	2014-03-31
Organism	Lipotes vexillifer(Yangtze River dolphin)
Product	LOW QUALITY PROTEIN: putative ATP-dependent RNA helicase TDRD12
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006798798.1) 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 :: Lipotes vexillifer 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##

ATGCTCCAGG TCCTGGTGCT GAAGATCGAA GATCCAGGTT GCTTCTGGGT TATTATAAAA 
GGATGTAGTC CCTTTTTAGA TCATGAAGTT GACTATCAAA AACTAAATAG TGCCATGAAT 
GACTTCTATA ATAGCACGTG TCAAGATATA GAAATAAAAC CAGTAATGTT GGAAGAAGGG 
CAGGTTTGTG TGGTTTATTG TCAGGAACTG AAGTGCTGGT GCAGGGCTGT TATTAAGTCA 
ATAGTGTCTT CAGCAGACCA TTACCTCACA GAGTGTTTCC TTGTGGATTT TGCCAAGTAC 
GTTCCAGTGA AATCCAAAAA CATCCGAGTT GCAGTAGAAA CTTTTATGCA GCTTCCCTAC 
AGAGCAAAAA AATTCAGACT GTACTGCACA AAACCTGTCA CATTGCACAT TGACTTCTGT 
GAAGACAGCA CTGAGATTGT ACCTGCCAAG AAGTGGGACA GTGCAGCTAT TCGGTACTTT 
CAGAACATCC TAAAAGCAGC TACCCAGGTG GAAGCCAAAT TGTGTGCTGT GGAAGAAGAT 
ACTTTTGAGG TTTACCTTTA TGTAACTACA AAAAATGAAA AGGTTTGTGT GAACGATGAT 
CTGGTTGCAA AGAACTTCGC TTGTTATGTA TCACCCACGG AGAATAAAAA CCTTGATTCT 
TTAGAGAAAC CAAGATTGAA TATAAAGTCA GCATCCTTTT CCAGTAAACT GAATCCAGCA 
CTTACTCTTT GGCCAATGTT TTTGCAAGGA AAAGATTCTC AAAGGATGGA AAAGTCAAGT 
GGTTTAACTT TTCTGGCAAA GTCTCTCCAG CATCCGTGGC CCAAGGGTGT CGGTGACCTC 
GGGCCAACCG CTAGGATCCT GGATACAGCT ATAAAGTGTA ATACGGATTC ATTGAGAGAT 
TCACCCAAAA AAAAATCAGA AAAGAAACAA CAGTGCATCT CCTTAAAAGA TGTAAATAAG 
CGTGTTGAGT CTTCAGTGTA TTGGCCAATG AAAAGAGGCA TAACCGTGTA TGCCGATCCA 
GATATACCAG CAGCAAGTGC TTTATGTCGG AGGTCAAATG AGAAACTGCT TAGATTGGCT 
GAGAAGAAAG AATACAGTGA GAAGAACAGC TGTGTGAAAT TATTGCAGTT TCTAAATCCT 
GATCATTTGA GAGCCGGTGG AATCTCTGAT CTGCAGCAGT TGCAGAAGCT GAAGTCAGGC 
TCCCGGCTGC CCTTGGTCGT TCTGCGGACC AGGGTGGAGC CCTGCTTGTC CATCAACAAG 
GCGCCACTCT CGGCAGACCT GAAAAAGGCT CTTCAAAGAA ATAAGTTTCC GGGCCCCAGC 
CACACTGAAT CTTACTCTTG GCCTCCCATA GCACGTGGCT GTGACGTGGT GGTCATTTCT 
CATTGTGGAA ATGACCCTTT GTTGTACCTT CCACCACTGC TTACGATTTT GCAAACAGGG 
GGCTGCTACA AGTCATTACC AAGTAGAAAT GGACCTCTGG CAGTCATCGT GTGCCCTGGG 
TGGAAAAAGG CCCAATTAGT TTTTGAATTA TTGGGAGACT GTAGCATGTC CTCCAGGCCT 
GTTGTTCATC CTGTGGTATT AACAATCGGA CTCCACAAAG ATGAAGCCAA AAATATGAAG 
CTTCCAAGGG GGTGCAATGT AATTGTTACA ACACCACATA GCCTCCTGAG ACTTCTCAAA 
TATCAAAGCT TGTTATTTCT TAGACTCTGT CATCTGATTT TGGATGAGGT GGAAGTATTA 
TTCTCTGAAG CTAATGAACA AATATATCCT ATATTAGATA ACTTAAAAAA AATTATTGAA 
GTTGAAGAAA GGGAATCTGC CCCACATCAG ATTGTTGCAG TTGGAGTTCA TTGGAACAGA 
CATATAGAGC AGTTAATCAA AGAGTTCATG AATGACCCCT ACATTGTGAT CACAGCCATG 
GAGGAGGCTG CCCTCTATGG CAGCGTCCAA CAGGTAGTAC ATCTTTGCCT GGAATGTGAA 
AAGACCTCCA CTTTACTCCA AACTCTTGAT TTCGTTCCAA GTCAGGCACA GAAGACCTTG 
ATCTTCACCG GTTCTGTAGC TGAAACAGAA ATAGTGTGTA AGGTAGTAGA AAGCAGTTCC 
ATATTTTGCT TGAAAATGCA TAAAGAAATG ATTTTTAATT TAAAAAGTGT TTCAGAACAA 
TGGAAGAAGT TAAGTTCTGG TTCCCACATT GTATTAGCCT TAACAGATGA TTGCACACCA 
CTCTTGGCCA TCACCGATGC CACGTGTGTG ATTCACTTCA GCTTTCCTTC CTCGCCGAAA 
ATTTTTGGTG GGCGCCTGTA TTGCATGTCT GATCATTTTC AGAGTTTAAC TGAACAGGGT 
TCTCCTGCAG AACAGGGAGA TAAAAAAACC AAATCTGTAT TGCTGCTGAC GGAGAGAAAT 
GCCTGCCATG CAGTTGGTGT CCTGCGCTAC TTGGAGCGAG CAGATACCAA GATTCCTTCA 
GAGCTCTACG AGTTTACTGC AGGGGTCCTG GAAGCCAAAG AAGATAAAAA AGCCAGAAGG 
CCTCTTTGTC CGTATCTTAA GGCTTTTGGT TTTTGCAAAG ACAAAAGGAT CTGTCCTGAT 
CGACACCATG TTAATCCAGA AGTAGACATG CCAAGGAAGT TATCCAACCA AACTCTACCA 
GTGTTTGGAT ACATAAAAAT AATACCCTTT TATATTTTGA ATGCAACAAA TTACTTTGGT 
CGTATAGTTG ATAAACATGT GGATCTTTAT GCAACTCTTA CTGCTGAAAT GAAAGAGTAT 
TTTGAAGATT CCAGTAATAA AACAACCGTT GAAAAGGTGG AGAAATTTGG ATTATATGGA 
TTAGCAGAAA AAGTAGTTTT TCACAGGGTT CAGGTGTTGG AGATGAGCCA GAAGGAGGAC 
ACGTGGGCCC TGGATAATGT CCTTGTGAAG TTCATAGATG AAGGCAGGAC CGAACTCATC 
ACAAGAGACC AGTTGCTTCA CCTCCCAGAA AGTTTCCACA CTCTGCCCCC GCAAGCCGTG 
GAGTTTATCG TTTGTAGAGT GAAACCTGCA GACAATGAAA TTGAATGGAA TCCAAAGGTT 
ACTAGGTACA TTCATCATAA AATTAATGGG AAACTGCATG ACGCAAAAGT GATGTTGGCT 
TTAGGAAATA CAGTTTGGAT TGATCCAATG GTGCACATTA CAAAACTTTC AAACTTGAAA 
ACTTCTGTCA TTGATTATAA TGTTCGAGCT GAAATTTTGT CAATGGGAAT GGGCATTGAT 
AACTCAGAAC ATGTAGGACA ACTGAAAAAA TTATACAAAG GAGCTAAAAT GCCAACTTTT 
GAAGAAAGCG TAAGCCAGAC CCTGATGCCT TCTTCCACAG AAGACGATGC TCGTCTGCAG 
AGCACACAGC AAGAGGACAA GGGCTCAGGG AGAGGTGCCG ACTCCCAGAC AAACTCAGAA 
AACCCAACAC ATGAAACTTT ACCTGAAAAC GCTGGAGATG CTTCCACTAA CAAAACTACA 
GGGCCTCTGA AAAGCTTCCA CCCACAAATA AAATGGTTCC AAAAAGAGGA TGTGGTCATA 
TTGAAGATAA GAATAAGGAA CGTAAAAGAT TAGAAATGTA AATACTTCAG AGATAGAGTT 
GTTTTCAGTG CCTGGGTGGG AGAGAAATTT TACTTGGCTG ATTTGGAGCT GCAGGCCAAC 
ATAATAAAAG ATGATTGCAA ATGCACAGTG AAAAATGATG AACCAATAGT CACTCTTTCG 
AAAGAGAAAA AGGAGTCTTG GTGTGGCTTA CTCAGAGGGT GAAATCCTAA CGTGGCTTTT 
GACTTTGATC ACTGGGAGGA ATGTGACAAG GATGAGGATA GCCACTTCTC CAGGGTAAGG 
GGGGGCGCCC ATCCCTTGGA GAGTCGATCA AGTGTAACTA AGTGCTACCT TGTGGCACTG 
GGATTAGTAA CGGTGAGAAG TTCTGAATTG ATTGAAAAAT GGGCCGATGA CGAGACTCTG 
GAAGGAAGCC AGAAGCAGAG ACACAGCGAG TGCTGGGCTG TCCTGCCCAT CGCCTCTGGT 
GTGAAGCCCA CCTCAGCACT CAGGTTGAGT GATGCCCGCC GTGGCATTCG GTGTCCTTTC 
GATACTGATA GCTACCCAGG AATAAGACGT TCAGCTCCTT GTGGGGCCTC AGGGGCCCGG 
AGCGCTGCTG GGCGGGGTCA GGCCGCTGCC CTCTGGTGGG AGGACGCGGC ATCCAGCCTG 
GACAGCTGCC AGGAGCGCAT CCTTGCTGCC GCCTTGACTC CCGTGGGTTG A

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

RefSeq	XP_007471151.1
CDS	1..4251
Translation	MLQVLVLKIEDPGCFWVIIKGCSPFLDHEVDYQKLNSAMNDFYNSTCQDIEIKPVMLEEGQVCVVYCQELKCWCRAVIKSIVSSADHYLTECFLVDFAKYVPVKSKNIRVAVETFMQLPYRAKKFRLYCTKPVTLHIDFCEDSTEIVPAKKWDSAAIRYFQNILKAATQVEAKLCAVEEDTFEVYLYVTTKNEKVCVNDDLVAKNFACYVSPTENKNLDSLEKPRLNIKSASFSSKLNPALTLWPMFLQGKDSQRMEKSSGLTFLAKSLQHPWPKGVGDLGPTARILDTAIKCNTDSLRDSPKKKSEKKQQCISLKDVNKRVESSVYWPMKRGITVYADPDIPAASALCRRSNEKLLRLAEKKEYSEKNSCVKLLQFLNPDHLRAGGISDLQQLQKLKSGSRLPLVVLRTRVEPCLSINKAPLSADLKKALQRNKFPGPSHTESYSWPPIARGCDVVVISHCGNDPLLYLPPLLTILQTGGCYKSLPSRNGPLAVIVCPGWKKAQLVFELLGDCSMSSRPVVHPVVLTIGLHKDEAKNMKLPRGCNVIVTTPHSLLRLLKYQSLLFLRLCHLILDEVEVLFSEANEQIYPILDNLKKIIEVEERESAPHQIVAVGVHWNRHIEQLIKEFMNDPYIVITAMEEAALYGSVQQVVHLCLECEKTSTLLQTLDFVPSQAQKTLIFTGSVAETEIVCKVVESSSIFCLKMHKEMIFNLKSVSEQWKKLSSGSHIVLALTDDCTPLLAITDATCVIHFSFPSSPKIFGGRLYCMSDHFQSLTEQGSPAEQGDKKTKSVLLLTERNACHAVGVLRYLERADTKIPSELYEFTAGVLEAKEDKKARRPLCPYLKAFGFCKDKRICPDRHHVNPEVDMPRKLSNQTLPVFGYIKIIPFYILNATNYFGRIVDKHVDLYATLTAEMKEYFEDSSNKTTVEKVEKFGLYGLAEKVVFHRVQVLEMSQKEDTWALDNVLVKFIDEGRTELITRDQLLHLPESFHTLPPQAVEFIVCRVKPADNEIEWNPKVTRYIHHKINGKLHDAKVMLALGNTVWIDPMVHITKLSNLKTSVIDYNVRAEILSMGMGIDNSEHVGQLKKLYKGAKMPTFEESVSQTLMPSSTEDDARLQSTQQEDKGSGRGADSQTNSENPTHETLPENAGDASTNKTTGPLKSFHPQIKWFQKEDVVILKIRIRNVKDKCKYFRDRVVFSAWVGEKFYLADLELQANIIKDDCKCTVKNDEPIVTLSKEKKESWCGLLRGNPNVAFDFDHWEECDKDEDSHFSRVRGGAHPLESRSSVTKCYLVALGLVTVRSSELIEKWADDETLEGSQKQRHSECWAVLPIASGVKPTSALRLSDARRGIRCPFDTDSYPGIRRSAPCGASGARSAAGRGQAAALWWEDAASSLDSCQERILAAALTPVG

Target ORF information:

RefSeq Version	XM_007471089.1
Organism	Lipotes vexillifer(Yangtze River dolphin)
Definition	Lipotes vexillifer tudor domain containing 12 (TDRD12), mRNA.

Target ORF information:

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

XM_007471089.1

ORF Insert Sequence:

ATGCTCCAGG TCCTGGTGCT GAAGATCGAA GATCCAGGTT GCTTCTGGGT TATTATAAAA 
GGATGTAGTC CCTTTTTAGA TCATGAAGTT GACTATCAAA AACTAAATAG TGCCATGAAT 
GACTTCTATA ATAGCACGTG TCAAGATATA GAAATAAAAC CAGTAATGTT GGAAGAAGGG 
CAGGTTTGTG TGGTTTATTG TCAGGAACTG AAGTGCTGGT GCAGGGCTGT TATTAAGTCA 
ATAGTGTCTT CAGCAGACCA TTACCTCACA GAGTGTTTCC TTGTGGATTT TGCCAAGTAC 
GTTCCAGTGA AATCCAAAAA CATCCGAGTT GCAGTAGAAA CTTTTATGCA GCTTCCCTAC 
AGAGCAAAAA AATTCAGACT GTACTGCACA AAACCTGTCA CATTGCACAT TGACTTCTGT 
GAAGACAGCA CTGAGATTGT ACCTGCCAAG AAGTGGGACA GTGCAGCTAT TCGGTACTTT 
CAGAACATCC TAAAAGCAGC TACCCAGGTG GAAGCCAAAT TGTGTGCTGT GGAAGAAGAT 
ACTTTTGAGG TTTACCTTTA TGTAACTACA AAAAATGAAA AGGTTTGTGT GAACGATGAT 
CTGGTTGCAA AGAACTTCGC TTGTTATGTA TCACCCACGG AGAATAAAAA CCTTGATTCT 
TTAGAGAAAC CAAGATTGAA TATAAAGTCA GCATCCTTTT CCAGTAAACT GAATCCAGCA 
CTTACTCTTT GGCCAATGTT TTTGCAAGGA AAAGATTCTC AAAGGATGGA AAAGTCAAGT 
GGTTTAACTT TTCTGGCAAA GTCTCTCCAG CATCCGTGGC CCAAGGGTGT CGGTGACCTC 
GGGCCAACCG CTAGGATCCT GGATACAGCT ATAAAGTGTA ATACGGATTC ATTGAGAGAT 
TCACCCAAAA AAAAATCAGA AAAGAAACAA CAGTGCATCT CCTTAAAAGA TGTAAATAAG 
CGTGTTGAGT CTTCAGTGTA TTGGCCAATG AAAAGAGGCA TAACCGTGTA TGCCGATCCA 
GATATACCAG CAGCAAGTGC TTTATGTCGG AGGTCAAATG AGAAACTGCT TAGATTGGCT 
GAGAAGAAAG AATACAGTGA GAAGAACAGC TGTGTGAAAT TATTGCAGTT TCTAAATCCT 
GATCATTTGA GAGCCGGTGG AATCTCTGAT CTGCAGCAGT TGCAGAAGCT GAAGTCAGGC 
TCCCGGCTGC CCTTGGTCGT TCTGCGGACC AGGGTGGAGC CCTGCTTGTC CATCAACAAG 
GCGCCACTCT CGGCAGACCT GAAAAAGGCT CTTCAAAGAA ATAAGTTTCC GGGCCCCAGC 
CACACTGAAT CTTACTCTTG GCCTCCCATA GCACGTGGCT GTGACGTGGT GGTCATTTCT 
CATTGTGGAA ATGACCCTTT GTTGTACCTT CCACCACTGC TTACGATTTT GCAAACAGGG 
GGCTGCTACA AGTCATTACC AAGTAGAAAT GGACCTCTGG CAGTCATCGT GTGCCCTGGG 
TGGAAAAAGG CCCAATTAGT TTTTGAATTA TTGGGAGACT GTAGCATGTC CTCCAGGCCT 
GTTGTTCATC CTGTGGTATT AACAATCGGA CTCCACAAAG ATGAAGCCAA AAATATGAAG 
CTTCCAAGGG GGTGCAATGT AATTGTTACA ACACCACATA GCCTCCTGAG ACTTCTCAAA 
TATCAAAGCT TGTTATTTCT TAGACTCTGT CATCTGATTT TGGATGAGGT GGAAGTATTA 
TTCTCTGAAG CTAATGAACA AATATATCCT ATATTAGATA ACTTAAAAAA AATTATTGAA 
GTTGAAGAAA GGGAATCTGC CCCACATCAG ATTGTTGCAG TTGGAGTTCA TTGGAACAGA 
CATATAGAGC AGTTAATCAA AGAGTTCATG AATGACCCCT ACATTGTGAT CACAGCCATG 
GAGGAGGCTG CCCTCTATGG CAGCGTCCAA CAGGTAGTAC ATCTTTGCCT GGAATGTGAA 
AAGACCTCCA CTTTACTCCA AACTCTTGAT TTCGTTCCAA GTCAGGCACA GAAGACCTTG 
ATCTTCACCG GTTCTGTAGC TGAAACAGAA ATAGTGTGTA AGGTAGTAGA AAGCAGTTCC 
ATATTTTGCT TGAAAATGCA TAAAGAAATG ATTTTTAATT TAAAAAGTGT TTCAGAACAA 
TGGAAGAAGT TAAGTTCTGG TTCCCACATT GTATTAGCCT TAACAGATGA TTGCACACCA 
CTCTTGGCCA TCACCGATGC CACGTGTGTG ATTCACTTCA GCTTTCCTTC CTCGCCGAAA 
ATTTTTGGTG GGCGCCTGTA TTGCATGTCT GATCATTTTC AGAGTTTAAC TGAACAGGGT 
TCTCCTGCAG AACAGGGAGA TAAAAAAACC AAATCTGTAT TGCTGCTGAC GGAGAGAAAT 
GCCTGCCATG CAGTTGGTGT CCTGCGCTAC TTGGAGCGAG CAGATACCAA GATTCCTTCA 
GAGCTCTACG AGTTTACTGC AGGGGTCCTG GAAGCCAAAG AAGATAAAAA AGCCAGAAGG 
CCTCTTTGTC CGTATCTTAA GGCTTTTGGT TTTTGCAAAG ACAAAAGGAT CTGTCCTGAT 
CGACACCATG TTAATCCAGA AGTAGACATG CCAAGGAAGT TATCCAACCA AACTCTACCA 
GTGTTTGGAT ACATAAAAAT AATACCCTTT TATATTTTGA ATGCAACAAA TTACTTTGGT 
CGTATAGTTG ATAAACATGT GGATCTTTAT GCAACTCTTA CTGCTGAAAT GAAAGAGTAT 
TTTGAAGATT CCAGTAATAA AACAACCGTT GAAAAGGTGG AGAAATTTGG ATTATATGGA 
TTAGCAGAAA AAGTAGTTTT TCACAGGGTT CAGGTGTTGG AGATGAGCCA GAAGGAGGAC 
ACGTGGGCCC TGGATAATGT CCTTGTGAAG TTCATAGATG AAGGCAGGAC CGAACTCATC 
ACAAGAGACC AGTTGCTTCA CCTCCCAGAA AGTTTCCACA CTCTGCCCCC GCAAGCCGTG 
GAGTTTATCG TTTGTAGAGT GAAACCTGCA GACAATGAAA TTGAATGGAA TCCAAAGGTT 
ACTAGGTACA TTCATCATAA AATTAATGGG AAACTGCATG ACGCAAAAGT GATGTTGGCT 
TTAGGAAATA CAGTTTGGAT TGATCCAATG GTGCACATTA CAAAACTTTC AAACTTGAAA 
ACTTCTGTCA TTGATTATAA TGTTCGAGCT GAAATTTTGT CAATGGGAAT GGGCATTGAT 
AACTCAGAAC ATGTAGGACA ACTGAAAAAA TTATACAAAG GAGCTAAAAT GCCAACTTTT 
GAAGAAAGCG TAAGCCAGAC CCTGATGCCT TCTTCCACAG AAGACGATGC TCGTCTGCAG 
AGCACACAGC AAGAGGACAA GGGCTCAGGG AGAGGTGCCG ACTCCCAGAC AAACTCAGAA 
AACCCAACAC ATGAAACTTT ACCTGAAAAC GCTGGAGATG CTTCCACTAA CAAAACTACA 
GGGCCTCTGA AAAGCTTCCA CCCACAAATA AAATGGTTCC AAAAAGAGGA TGTGGTCATA 
TTGAAGATAA GAATAAGGAA CGTAAAAGAT TAGAAATGTA AATACTTCAG AGATAGAGTT 
GTTTTCAGTG CCTGGGTGGG AGAGAAATTT TACTTGGCTG ATTTGGAGCT GCAGGCCAAC 
ATAATAAAAG ATGATTGCAA ATGCACAGTG AAAAATGATG AACCAATAGT CACTCTTTCG 
AAAGAGAAAA AGGAGTCTTG GTGTGGCTTA CTCAGAGGGT GAAATCCTAA CGTGGCTTTT 
GACTTTGATC ACTGGGAGGA ATGTGACAAG GATGAGGATA GCCACTTCTC CAGGGTAAGG 
GGGGGCGCCC ATCCCTTGGA GAGTCGATCA AGTGTAACTA AGTGCTACCT TGTGGCACTG 
GGATTAGTAA CGGTGAGAAG TTCTGAATTG ATTGAAAAAT GGGCCGATGA CGAGACTCTG 
GAAGGAAGCC AGAAGCAGAG ACACAGCGAG TGCTGGGCTG TCCTGCCCAT CGCCTCTGGT 
GTGAAGCCCA CCTCAGCACT CAGGTTGAGT GATGCCCGCC GTGGCATTCG GTGTCCTTTC 
GATACTGATA GCTACCCAGG AATAAGACGT TCAGCTCCTT GTGGGGCCTC AGGGGCCCGG 
AGCGCTGCTG GGCGGGGTCA GGCCGCTGCC CTCTGGTGGG AGGACGCGGC ATCCAGCCTG 
GACAGCTGCC AGGAGCGCAT CCTTGCTGCC GCCTTGACTC CCGTGGGTTG A