tdrd9 cDNA ORF clone, Seriola lalandi dorsalis

Gene
Clones
gRNAs

Summary

Gene Symbol	tdrd9
Entrez Gene ID	111648875
Full Name	tudor domain containing 9
Gene Type	protein-coding
Organism	Seriola lalandi dorsalis

mRNA and Protein(s)

mRNA	Protein	Name
XM_023398617.1	XP_023254385.1	ATP-dependent RNA helicase TDRD9

Pathways from BioSystems
Gene Ontology

The following tdrd9 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the tdrd9 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
OSe179157	XM_023398617.1 Latest version!	Seriola lalandi dorsalis tudor domain containing 9 (tdrd9), 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)

tdrd9 ( XM_023398617.1 ) cDNA ORF clone, Seriola lalandi dorsalis -> XP_023254385.1 Seriola lalandi dorsalis tudor domain containing 9 (tdrd9), mRNA.

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CloneID	OSe179157
Clone ID Related Accession (Same CDS sequence)	XM_023398617.1
Accession Version	XM_023398617.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4011bp) 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	2017-12-25
Organism	Seriola lalandi dorsalis
Product	ATP-dependent RNA helicase TDRD9
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_019520219.1) 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 Name :: Seriola lalandi dorsalis Annotation Release 100 Annotation Version :: 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 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##

ATGAAGAAAG TGTTCACCGC AGAACAGATT TCGGGCTGGT TCACCTCGGG GACCACGTTT 
GCAAACATTA AACTTACAGA AGAGGCTGTT GAAAGAAAGG TCGATGAACC AACGTCGAAA 
GAGATCAGAC CAGAAGAGGT TCCTGAAGAG GGCAGCCTGA AGACTGTGAA CCCTGACAGA 
GAGGGGTTAA AAAAAACAGA AACTACAGTG AGGAGTACTG CTCCTCCTGC ACTCGCGAGC 
TACGAGTACC CCAGCTTGCC GATAACTAAA AACAGACAGG AGCTGATTTC CCTCATAGAA 
AACAACTCTG TAGTGATTAT TCGAGGAGCC ACAGGCAGTG GCAAGACCAC CCAGCTGCCT 
CAGTATATTC TGGACCACTA CAACGAGAAA AATGCCTCGT GCAACATTGT GGTCACCCAG 
CCTCGCAAAA TTGGGGCCAC CAGTATTGCT CGATGGGTTG CCGCACAGAG AAAGTGTACT 
CTGGGTAGTC TGGTGGGATG TCAGGTTGGA CTGGAGAAGA TGGCTACTGA GCACACCCGG 
CTAATCTACA TGACGACAGG AGTGCTGCTG CAAAAACTGG TTTCAGCCAA GTGCCTCACA 
GAGTACTCCC ACATCTTCGT AGATGAGGTT CATGAGCGTA CTGAGGAGAT GGACTTTCTT 
TTACTGGTTT TGAGAAAACT CCTTCATTCC AACTCTCGTT ATGTCAAGAT CATCCTCATG 
TCGGCCACCA TCAACTGCAG AGAGTTTGCT GAGTACTTTG GCACCCCAAT TCGTGGCAAG 
ATGAACCCAG CCTACGTGTT TGAAGTGGAG GGGGCACCCT ATGCCATTGA AGAGTTTTAT 
CTAGATGAGA TCCAAAACAT GTTTCCATAC AGGGTTGAGT TGCTTCATAT TGATGACCCT 
CATATCTCAG TAGAGATGTA CAATCTGGCC ATCAGTCTCA TCCAGAGCTT TGACGAGATG 
GAGGGCAAAG ATTCCAGAAA AGCTGAGAAA GAAGGTGGCA TGACTCTGTC AGAGAGAGGC 
AGTGTGCTGG TTTTCCTTCC TGGTATACAT GAGATAAGCT ACATGCAGGA GGCCTTGGCC 
AAGCTGGTCC ACAAAAGATT GCAGGTTTAT CCTCTCCACT CCACCGTGAC GCTGGAGGAG 
CAGAACGGTG TGTTTCTGTT CCCTGTCCCT GGATACAGAA AGGTCATCCT TTCCACCAAC 
ATCGCAGAGA GTTCGGTGAC TGTTCCGGAC GTTAAATATG TGATCGATTT TTGCTTGGCC 
CGTCACATGG TCTGTGACCA AGATACCAAT TTTCAGTCTC TACGTCTCAC CTGGGCATCC 
AAAACCAACT GCAACCAGCG CAGAGGTAGG GCAGGACGAG TGTCGAAGGG CTACTGTTAC 
CGTCTTGTCT CCAAAGATTT CTGGAGGAAT GAAATCCCAG ATTACATGAT CCCTGAGATG 
CTGCTTGCCC CCTTGGCCAC CATCATGCTG AAGGTGAAGC TGCTAGACAT GGGAGATCCC 
CGCTCCCTCC TCTCAACAGC CCTCTCACCC CCCAACCTTG GTGACATAGT GAGAACGGTA 
CTCCAACTCA AAGAGATGGG TGCACTGTCT GTGAAAGGTG ATGGCAAAGG TCAAAATGAG 
GATGGCGAGC TGACGTTCCT GGGTCGAGTG CTGGCCCACC TGCCTGTGGA CCTGTGCCTG 
GGGAAGATGA TTGTCCTGGG CCATGTCTTT GGCTGCCTAG ACGAGTGCCT CATCATAGCT 
GCCTCACACT CTCTGAAGAG TTTCTTTGCC ATACCATCCA TGCAGCAGCT TGCTGGCCAC 
AGGAGCAAGT TGGCCTTTGC CCGTGGCACA CCAAGTGATT CCATAGCTTT TGTCAATGCC 
TTCAAGGCAT GGCACTCATC CAAAAAGAGA GGACATCTGA GACACCCAAA GGACGAGCTG 
GACTGGGGAA GAGAGAACTT CATTCAGATC AAGAGGATCA GGGAGGTTGC AGAGCTGTAT 
GAGGACCTAA AGAAGCGTGT GTCCCAGTTC AACATGCATG TGCAGGACAA CGAACCATCA 
GACTACACCA GCACACACAA GCAGAAGTTC ATTCTTCAGG TGGTCATTGC TGGTGCCTAC 
TACCCCAACT ACTTCCTACA GGGGGAAATA GATGAAGACC TGGCCTCCAG AGAATTAAGT 
GGCTATAACC CCAGAACAAC AGTGATGATG AGGAACCTCC CTCCGTACAG TTTCCTTTAC 
TACAAGCAGC TGCAGTCTCT GTTCCGCCTG TGTGGACAGG TCAAAAGCAT TTCCTTTGAG 
AGCTCCAGAG CGTACGTTGA GTTTTACAGG ACATCTCAGG ACTCAGGGGT GCTGCCCGAG 
GTGTCCCTTG CCCTTCTCCT GGCCCAGCTG AGTCGTTCCA TGGAGCTGTC GGTTTACTCC 
AATGAACAAA TTGAAAAATC TGCCGGGAAC AGAAACATAA CTCACATGAA ATATGCACGA 
GTGAATGTCG ACTTCCAGAA CCAGTCTGTC TGCCCAGTGG GAGTGGTGAG CAGCACTATT 
GACCCAGATA AGCTACCCCT CAACCGCTTG TTTGTGGTCA ACATCACAGA GGTGGTGGAG 
GTGGGGAATT TCTGGGGGTT CCAGGCAGAT GAAGCCAGCC TGGAGAAGCA GCGCCATCTG 
ACAGCTGATA TTAACAAACG CACACTGCAT CCTGTAACTG TGTCACTCTA CCCCAACCTG 
CTGTGTCTGG CACCGTACTC TGAGATTAAT GAGCAGAGCC TGTACTACCG TGCCAAGATC 
CTGCACATGC GTGGCAATAC AGTGGAGGTG TTTTTCTTGG ACTTCGGCAA CACGGGGGTT 
GTTGCCTCCA GCAGCCTCAG AGAGCTCCCC TCAGACCTCC TGTCTCACCC TTTCCAGGCT 
CAGGAGTTCC AAGTTACTGG AATGCGTCCT TCAGCCCAGT CCATCATCAT GGGGAACCAG 
TGGAGCAGCC GAGCCCGCGA CTGTTTCATC ACGCTTGTGA AGGGCAAGTC AGTCATTGTG 
TCGCTGTACT CCATCCTACA CAATTGCATG CGTGTTCATG TGCTGATCAA CACGGAGACA 
ACAAACGCCA GCGTGGTGGA CATGTTGGTG GAGGAAGGAC ATGCTGTGAA GGCCGAAGAG 
AGCTTTGATT CCAAGCAAAA CCATGAGGCT CTGATGTCCC TGTACAAGGA CATGGAAACA 
GGTGCCTTTG TCCCCAATGC TGCCAGCAGC TCCTGGAAGG ATCGAAAGAA AGAGGAGAAG 
GACCTCATTG ATAACCTTCT CTCTCACTTT TCTAAGAGCA ACAAGTCCTT TTCAAAGACA 
AAGGTTCATC TGCATGGACC AAACAGTCCT CACAAAATAA ACTTCCACAG CTTGAGCCAC 
AAGACCTACT ACAAGACAGT GTGTGTAGAG AGGTGCAGCA TCAACTCTCT GGCCCTGAAT 
GAAACCCCTC ACTACAAACA CCAGAGGATG CTGGTGGCCG GGTCTGTGTC AGTCAACTCC 
ACAGGTACAC GCATTCTCCT GAAAGATACC TCCATCATGC CAGACGTCTC CGGACTGCCT 
GCACTCCTTA CCATGCTCTT CACCCCCATC ATGGAGTTGC GCACTAATGA AGATAGGACC 
TGCTACACCG GTGCCCTCTG TGGACTGGGT TGGAACAGTC AAACGCAAGC GGGTGTCCTA 
CCTGAGCACG ACATTGAACT CGCCTTTGAC GTCAAGTTTG ATGTTGAGGA CATCACTGAG 
ATAAATGCTT TACGGGTGGC TATAAACCGT CTGGCGTGTG ACGGACCCTG TGGCACTCTG 
CATCTGGGGC CTGACAGGAT TAGCCACCTG CAGGAGGACT GTCGGGAACG CCTCACGAGA 
CTGTTCATCA AGTCACCTCC AAGGGAAGCG GTCACTCCAG TTTACTATGA GAAGATGGAG 
AAATGGAACC AGGTGGATCC CTCTCTGAAG ATGGACATCG TGGAGCCTGG TGGTGGAAAG 
ACAAGAGGTG TTCTCTTCCA TCTACACCCT GTTACTCTCC TCAACACATA A

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

RefSeq	XP_023254385.1
CDS	151..4161
Translation	MKKVFTAEQISGWFTSGTTFANIKLTEEAVERKVDEPTSKEIRPEEVPEEGSLKTVNPDREGLKKTETTVRSTAPPALASYEYPSLPITKNRQELISLIENNSVVIIRGATGSGKTTQLPQYILDHYNEKNASCNIVVTQPRKIGATSIARWVAAQRKCTLGSLVGCQVGLEKMATEHTRLIYMTTGVLLQKLVSAKCLTEYSHIFVDEVHERTEEMDFLLLVLRKLLHSNSRYVKIILMSATINCREFAEYFGTPIRGKMNPAYVFEVEGAPYAIEEFYLDEIQNMFPYRVELLHIDDPHISVEMYNLAISLIQSFDEMEGKDSRKAEKEGGMTLSERGSVLVFLPGIHEISYMQEALAKLVHKRLQVYPLHSTVTLEEQNGVFLFPVPGYRKVILSTNIAESSVTVPDVKYVIDFCLARHMVCDQDTNFQSLRLTWASKTNCNQRRGRAGRVSKGYCYRLVSKDFWRNEIPDYMIPEMLLAPLATIMLKVKLLDMGDPRSLLSTALSPPNLGDIVRTVLQLKEMGALSVKGDGKGQNEDGELTFLGRVLAHLPVDLCLGKMIVLGHVFGCLDECLIIAASHSLKSFFAIPSMQQLAGHRSKLAFARGTPSDSIAFVNAFKAWHSSKKRGHLRHPKDELDWGRENFIQIKRIREVAELYEDLKKRVSQFNMHVQDNEPSDYTSTHKQKFILQVVIAGAYYPNYFLQGEIDEDLASRELSGYNPRTTVMMRNLPPYSFLYYKQLQSLFRLCGQVKSISFESSRAYVEFYRTSQDSGVLPEVSLALLLAQLSRSMELSVYSNEQIEKSAGNRNITHMKYARVNVDFQNQSVCPVGVVSSTIDPDKLPLNRLFVVNITEVVEVGNFWGFQADEASLEKQRHLTADINKRTLHPVTVSLYPNLLCLAPYSEINEQSLYYRAKILHMRGNTVEVFFLDFGNTGVVASSSLRELPSDLLSHPFQAQEFQVTGMRPSAQSIIMGNQWSSRARDCFITLVKGKSVIVSLYSILHNCMRVHVLINTETTNASVVDMLVEEGHAVKAEESFDSKQNHEALMSLYKDMETGAFVPNAASSSWKDRKKEEKDLIDNLLSHFSKSNKSFSKTKVHLHGPNSPHKINFHSLSHKTYYKTVCVERCSINSLALNETPHYKHQRMLVAGSVSVNSTGTRILLKDTSIMPDVSGLPALLTMLFTPIMELRTNEDRTCYTGALCGLGWNSQTQAGVLPEHDIELAFDVKFDVEDITEINALRVAINRLACDGPCGTLHLGPDRISHLQEDCRERLTRLFIKSPPREAVTPVYYEKMEKWNQVDPSLKMDIVEPGGGKTRGVLFHLHPVTLLNT

Target ORF information:

RefSeq Version	XM_023398617.1
Organism	Seriola lalandi dorsalis
Definition	Seriola lalandi dorsalis tudor domain containing 9 (tdrd9), mRNA.

Target ORF information:

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

XM_023398617.1

ORF Insert Sequence:

ATGAAGAAAG TGTTCACCGC AGAACAGATT TCGGGCTGGT TCACCTCGGG GACCACGTTT 
GCAAACATTA AACTTACAGA AGAGGCTGTT GAAAGAAAGG TCGATGAACC AACGTCGAAA 
GAGATCAGAC CAGAAGAGGT TCCTGAAGAG GGCAGCCTGA AGACTGTGAA CCCTGACAGA 
GAGGGGTTAA AAAAAACAGA AACTACAGTG AGGAGTACTG CTCCTCCTGC ACTCGCGAGC 
TACGAGTACC CCAGCTTGCC GATAACTAAA AACAGACAGG AGCTGATTTC CCTCATAGAA 
AACAACTCTG TAGTGATTAT TCGAGGAGCC ACAGGCAGTG GCAAGACCAC CCAGCTGCCT 
CAGTATATTC TGGACCACTA CAACGAGAAA AATGCCTCGT GCAACATTGT GGTCACCCAG 
CCTCGCAAAA TTGGGGCCAC CAGTATTGCT CGATGGGTTG CCGCACAGAG AAAGTGTACT 
CTGGGTAGTC TGGTGGGATG TCAGGTTGGA CTGGAGAAGA TGGCTACTGA GCACACCCGG 
CTAATCTACA TGACGACAGG AGTGCTGCTG CAAAAACTGG TTTCAGCCAA GTGCCTCACA 
GAGTACTCCC ACATCTTCGT AGATGAGGTT CATGAGCGTA CTGAGGAGAT GGACTTTCTT 
TTACTGGTTT TGAGAAAACT CCTTCATTCC AACTCTCGTT ATGTCAAGAT CATCCTCATG 
TCGGCCACCA TCAACTGCAG AGAGTTTGCT GAGTACTTTG GCACCCCAAT TCGTGGCAAG 
ATGAACCCAG CCTACGTGTT TGAAGTGGAG GGGGCACCCT ATGCCATTGA AGAGTTTTAT 
CTAGATGAGA TCCAAAACAT GTTTCCATAC AGGGTTGAGT TGCTTCATAT TGATGACCCT 
CATATCTCAG TAGAGATGTA CAATCTGGCC ATCAGTCTCA TCCAGAGCTT TGACGAGATG 
GAGGGCAAAG ATTCCAGAAA AGCTGAGAAA GAAGGTGGCA TGACTCTGTC AGAGAGAGGC 
AGTGTGCTGG TTTTCCTTCC TGGTATACAT GAGATAAGCT ACATGCAGGA GGCCTTGGCC 
AAGCTGGTCC ACAAAAGATT GCAGGTTTAT CCTCTCCACT CCACCGTGAC GCTGGAGGAG 
CAGAACGGTG TGTTTCTGTT CCCTGTCCCT GGATACAGAA AGGTCATCCT TTCCACCAAC 
ATCGCAGAGA GTTCGGTGAC TGTTCCGGAC GTTAAATATG TGATCGATTT TTGCTTGGCC 
CGTCACATGG TCTGTGACCA AGATACCAAT TTTCAGTCTC TACGTCTCAC CTGGGCATCC 
AAAACCAACT GCAACCAGCG CAGAGGTAGG GCAGGACGAG TGTCGAAGGG CTACTGTTAC 
CGTCTTGTCT CCAAAGATTT CTGGAGGAAT GAAATCCCAG ATTACATGAT CCCTGAGATG 
CTGCTTGCCC CCTTGGCCAC CATCATGCTG AAGGTGAAGC TGCTAGACAT GGGAGATCCC 
CGCTCCCTCC TCTCAACAGC CCTCTCACCC CCCAACCTTG GTGACATAGT GAGAACGGTA 
CTCCAACTCA AAGAGATGGG TGCACTGTCT GTGAAAGGTG ATGGCAAAGG TCAAAATGAG 
GATGGCGAGC TGACGTTCCT GGGTCGAGTG CTGGCCCACC TGCCTGTGGA CCTGTGCCTG 
GGGAAGATGA TTGTCCTGGG CCATGTCTTT GGCTGCCTAG ACGAGTGCCT CATCATAGCT 
GCCTCACACT CTCTGAAGAG TTTCTTTGCC ATACCATCCA TGCAGCAGCT TGCTGGCCAC 
AGGAGCAAGT TGGCCTTTGC CCGTGGCACA CCAAGTGATT CCATAGCTTT TGTCAATGCC 
TTCAAGGCAT GGCACTCATC CAAAAAGAGA GGACATCTGA GACACCCAAA GGACGAGCTG 
GACTGGGGAA GAGAGAACTT CATTCAGATC AAGAGGATCA GGGAGGTTGC AGAGCTGTAT 
GAGGACCTAA AGAAGCGTGT GTCCCAGTTC AACATGCATG TGCAGGACAA CGAACCATCA 
GACTACACCA GCACACACAA GCAGAAGTTC ATTCTTCAGG TGGTCATTGC TGGTGCCTAC 
TACCCCAACT ACTTCCTACA GGGGGAAATA GATGAAGACC TGGCCTCCAG AGAATTAAGT 
GGCTATAACC CCAGAACAAC AGTGATGATG AGGAACCTCC CTCCGTACAG TTTCCTTTAC 
TACAAGCAGC TGCAGTCTCT GTTCCGCCTG TGTGGACAGG TCAAAAGCAT TTCCTTTGAG 
AGCTCCAGAG CGTACGTTGA GTTTTACAGG ACATCTCAGG ACTCAGGGGT GCTGCCCGAG 
GTGTCCCTTG CCCTTCTCCT GGCCCAGCTG AGTCGTTCCA TGGAGCTGTC GGTTTACTCC 
AATGAACAAA TTGAAAAATC TGCCGGGAAC AGAAACATAA CTCACATGAA ATATGCACGA 
GTGAATGTCG ACTTCCAGAA CCAGTCTGTC TGCCCAGTGG GAGTGGTGAG CAGCACTATT 
GACCCAGATA AGCTACCCCT CAACCGCTTG TTTGTGGTCA ACATCACAGA GGTGGTGGAG 
GTGGGGAATT TCTGGGGGTT CCAGGCAGAT GAAGCCAGCC TGGAGAAGCA GCGCCATCTG 
ACAGCTGATA TTAACAAACG CACACTGCAT CCTGTAACTG TGTCACTCTA CCCCAACCTG 
CTGTGTCTGG CACCGTACTC TGAGATTAAT GAGCAGAGCC TGTACTACCG TGCCAAGATC 
CTGCACATGC GTGGCAATAC AGTGGAGGTG TTTTTCTTGG ACTTCGGCAA CACGGGGGTT 
GTTGCCTCCA GCAGCCTCAG AGAGCTCCCC TCAGACCTCC TGTCTCACCC TTTCCAGGCT 
CAGGAGTTCC AAGTTACTGG AATGCGTCCT TCAGCCCAGT CCATCATCAT GGGGAACCAG 
TGGAGCAGCC GAGCCCGCGA CTGTTTCATC ACGCTTGTGA AGGGCAAGTC AGTCATTGTG 
TCGCTGTACT CCATCCTACA CAATTGCATG CGTGTTCATG TGCTGATCAA CACGGAGACA 
ACAAACGCCA GCGTGGTGGA CATGTTGGTG GAGGAAGGAC ATGCTGTGAA GGCCGAAGAG 
AGCTTTGATT CCAAGCAAAA CCATGAGGCT CTGATGTCCC TGTACAAGGA CATGGAAACA 
GGTGCCTTTG TCCCCAATGC TGCCAGCAGC TCCTGGAAGG ATCGAAAGAA AGAGGAGAAG 
GACCTCATTG ATAACCTTCT CTCTCACTTT TCTAAGAGCA ACAAGTCCTT TTCAAAGACA 
AAGGTTCATC TGCATGGACC AAACAGTCCT CACAAAATAA ACTTCCACAG CTTGAGCCAC 
AAGACCTACT ACAAGACAGT GTGTGTAGAG AGGTGCAGCA TCAACTCTCT GGCCCTGAAT 
GAAACCCCTC ACTACAAACA CCAGAGGATG CTGGTGGCCG GGTCTGTGTC AGTCAACTCC 
ACAGGTACAC GCATTCTCCT GAAAGATACC TCCATCATGC CAGACGTCTC CGGACTGCCT 
GCACTCCTTA CCATGCTCTT CACCCCCATC ATGGAGTTGC GCACTAATGA AGATAGGACC 
TGCTACACCG GTGCCCTCTG TGGACTGGGT TGGAACAGTC AAACGCAAGC GGGTGTCCTA 
CCTGAGCACG ACATTGAACT CGCCTTTGAC GTCAAGTTTG ATGTTGAGGA CATCACTGAG 
ATAAATGCTT TACGGGTGGC TATAAACCGT CTGGCGTGTG ACGGACCCTG TGGCACTCTG 
CATCTGGGGC CTGACAGGAT TAGCCACCTG CAGGAGGACT GTCGGGAACG CCTCACGAGA 
CTGTTCATCA AGTCACCTCC AAGGGAAGCG GTCACTCCAG TTTACTATGA GAAGATGGAG 
AAATGGAACC AGGTGGATCC CTCTCTGAAG ATGGACATCG TGGAGCCTGG TGGTGGAAAG 
ACAAGAGGTG TTCTCTTCCA TCTACACCCT GTTACTCTCC TCAACACATA A