ATP10A cDNA ORF clone, Nestor notabilis(Kea)

Gene
Clones
gRNAs

Summary

Gene Symbol	ATP10A
Entrez Gene ID	104407061
Full Name	ATPase phospholipid transporting 10A (putative)
Gene Type	protein-coding
Organism	Nestor notabilis(Kea)

mRNA and Protein(s)

mRNA	Protein	Name
XM_010016238.1	XP_010014540.1	probable phospholipid-transporting ATPase VA

Pathways from BioSystems
Gene Ontology

The following ATP10A gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ATP10A 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
ONe115091	XM_010016238.1 Latest version!	Nestor notabilis ATPase, class V, type 10A (ATP10A), 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)

ATP10A ( XM_010016238.1 ) cDNA ORF clone, Nestor notabilis(Kea) -> XP_010014540.1 Nestor notabilis ATPase, class V, type 10A (ATP10A), mRNA.

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CloneID	ONe115091
Clone ID Related Accession (Same CDS sequence)	XM_010016238.1
Accession Version	XM_010016238.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4188bp) 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	2014-10-30
Organism	Nestor notabilis(Kea)
Product	probable phospholipid-transporting ATPase VA
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_009932186.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Nestor notabilis 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## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

ATGCCTCAGA GCACAGAGGG AGGGAAAAGA GAGTGTGCGA AGCTGCTTAA CCTGCTTAGC 
CAGGTCTATA CTAGAAACGA GAAGAAATAT ATAAGCAGAT ATTGGAAAGA AGTGAAAGTT 
GGAGACTTTG TGCAGCTTCG CTGTAATGAA ATTATACCTG CTGACATATT GCTGCTCTCC 
TCAAGTGATC CTGATGGACT GTGCCACATA GAAACAGCTA ACCTGGATGG TGAAACTAAT 
TTAAAACAAA GACAGGTGGT GAGGAGGTTC TTAGAGCTGG ACTCAGAATT TGACCCCTTG 
AAGTTCACCA GTGTCATTGA ATGTGAGAAG CCAAACAATG ACTTAAGTAG GTTTCGAGGT 
TACATTGTAC ATAGGAGTGG AAAAAAGGAT GGACTATTCA AAGAAAACCT TTTGTTACGT 
GGATGTACCA TTAGAAATAC AGAAGAGGTT GCAGGAATAG TAATCTATGC AGGGCATGAG 
ACCAAAGCTT TGTTAAACAA TAATGGACCC CGTTACAAAC GCAGTAAGCT TGAAAGACAG 
ATGAATGCCG ATGTCCTTTG GTGTGTCCTC ATACTTCTCA TCATGTGTCT GTTTTCTGCC 
ATTGGTCATG GCTTATGGGT ATGGCAATAT GGTGAAAAGA AGAAACCAAT TTTTGACGTT 
CCAGGGCCTG ATGGCAAATA CTTGTCTCCT GTTTTAGCTT CAGTATATTT ATTTCTGACA 
GTGATCATAG TTTTCCAGGT TATGATTCCA ATTTCTTTGT ATGTATCCAT TGAAATAGTT 
AAAATCTGCC AAGTATACTT CATTCATCAA GATAAAGATT TATATGATGA AGAAACAGAT 
TCTCAGCTGC AGTGCCGAGC TTTAAATATC ACAGAAGACT TAGGTCAGGT GCAGTTTATC 
TTTTCAGACA AGACTGGGAC ACTTACTGAA AACAAGATGG TTTTCCGAAG GTGCACTGTT 
TCTGGAATAG AGTATTCCCA TGATGATAAT GCCAAACGCT TAGCGATGTA CCAAGAACCT 
GATTCTGAGG AAGATGAGGC AGCCCCAAAA GGAGGAACTC TATCCCAGCG TGATAGTATC 
TGCAGCCATC AGAGCATTAA AGTAATACAC AGAAGTCAGA GCACCAAAAC CCACCGGCGC 
ACAGGTAGCA GAGCTGAAGC AAAAAGAGCA AGCATACTCT CAAAGCATAC TGCGTTCAGT 
AGCCCAATGG AGAAGGACAT TACACCTGAC CCAAGATTGT TAGAAAAGGT GAATGAATGT 
GCAAAGCATC TGGAGATCAT GAGAGGCCAT GAACAGCCAT TATCCCAACT AAGTCCAGAA 
TTGTGTGACA TTTTTGACTT TTTCATCGCT TTGACTATAT GTAATACAGT CGTGGTTACT 
GCACCAAATC AGCCCCGGCA GAAGGTTAGA GATCGATTTG AACTAAAATC TCCAGTAAAA 
ACTATAGAAG ACTTCATACG AAGATTCACT CCAAGTCGCT TGACCTCTGG ATCTAACAGC 
AGCAGTTCAT CTAGTCTAGC TACAAGCAAA TCAATGCACA GATTTGGCTT AAGCCTGCTT 
TCATCTACAT CTACGGATAC CACTTTATTA AAACTGGAAG AGAAGCTGGC GTACTCTGCG 
CAGATGAATA ACAATGGCTA CAGCTCCCAG CAAGGCAGGA CAGCTGTGGG GGGTGGACCT 
GAGGAAGGAG AACTCCGTTA TGAAGCAGAG AGTCCAGATG AAGCTGCTCT CGTCTATGCA 
GCAAGGGCAT ATAACTGTTC TCTGGTTGGG AGGCTGTCCG ACCAGGTATC AGTGGAGCTA 
CCTCACCTGG GAACATTAAG CTTTGAAGTA TTACATACAT TGGGCTTTGA TTCCGTCAGA 
AAGAGGATGT CAGTAGTGGT TAGACATCCT CTCACAGATG AAATAAATGT TTACACTAAA 
GGAGCAGATT CAGTTGTTAT GGATCTTCTT CTACCCTGCT CTTCAGATGA CCCTCGAGGC 
AAACATCAAA AAAAAATCCA AACCAAAACC CAGAATTACC TTAATCTGTA TGCTGTAGAT 
GGGCTGCGGA CCCTCTGTAT TGCAAAAAGA GTTCTTACCA AGGAAGAGTA TGCCTGTTGG 
TTAAAAAGTC ATTTAGAAGC AGAATCCTCT ATTGAAAATC GTGAAGAACG TCTGTTTCAG 
TCAGCACTGC GGATAGAGAA GAATCTGCAT CTGCTAGGTG CAACTGGCAT TGAAGACCGT 
TTACAGGATG GTGTTCCAGA AACCATTGCA AACTTGCGCA AAGCTGGGTT GCAGATTTGG 
GTTCTTACTG GAGACAAGCA AGAAACAGCT GTTAATATTG CATATGCCTG CAAGCTACTA 
GATCATGATG AAGAAATCAT CACTTTGAAT GCTGAATCAC CAGAGACATG TGCTGTCTTG 
CTGGAGCAGT GTCTGCAATG CGTAGAGTCT AAATTTTCAA ACAACACTAT AGACGAAGCT 
ACTGGAAACA TGACTGTTGG GTTCACCCCT CTCTATCCAC CCTCTTCCTC TGTGCTTTCC 
AGCTTGGGCC TAGTGATCGA TGGAAGGACT CTAGCTTATG CCTTGGAACC TACACTAGAA 
GATAAATTTC TCGCACTAGC CAAGCGATGC CGTTCAGTAC TGTGTTGTCG CTCTACCCCA 
CTCCAAAAGA GCATGGTAGT GAAACTAGTC AGAGACAAAC TCAAAGCAAT GACCTTGGCA 
ATAGGTGATG GTGCTAATGA TGTCAGCATG ATACAAGTGG CAGATGTTGG TGTGGGAATC 
TCTGGTCAAG AAGGCATGCA GGCGGTGATG GCGAGTGACT TTGCAGTCCC AAGGTTCCGG 
CATTTGGAGA AGCTCTTGCT TGTTCATGGC CACTGGTGTT ATTCCCGACT CGCCAACATG 
GTGCTGTATT TCTTCTACAA AAACGCAATG TTTGTGGCCC TTCTCTTCTG GTACCAGTTC 
TACTGCGGGT TCTCTGGCTC ATCAATGGTT GATCAGTGGT ATCTCATCTT CTTTAATTTA 
CTCTTCTCTT CTCTTCCACA ACTGATTACT GGTGTGCTGG ATAAGGATGT GCCAGCTGAA 
GTGTTAATTG CTGTGCCTCA GCTTTATAAA AGCGGCCAGA ATATGGAGGA GTACCAACCA 
CACATGTTTT GGATGAATAT GATTGATGCT ATATATCAAA GCCTGGTTTG CTTCTTCATC 
CCCTATTTTA CTTACTATGA TTCGGAGGTG GATATCTTCT CCTGGGGAAC TCCCATCACT 
ACAGTAGCTC TTCTCACCAT CATATTACAT TTGGCTATTG AAACCAAAAC TTGGACTTTT 
CTCCACTGGT CATCTTGCAT CTTCAGTATC CTTTTATTTT TCTTTGTGGC TCTGGTTTAC 
AATGCTTCCT GCCCAGTATG CCATCCTCCA TCCAATCCCT ACTGGACTAT GGAAAGGCTG 
ATGGGAGACC CTATGTTCTA TTTCACTTGC ATTATATCAC CAGTTGTTGC ATTACTGCCC 
AGATTTCTGT ACAGAACCCT TCAGGGAACA CTCTTCCCAA CCCAGCTTCA GCTTGGACGC 
CAGTTGAGTA AACTATCCCC AGAGATTCGC ACCCAGCTTC TGACCAAGTT GAATGTAAAC 
GAAACAATAT GTCAGACACA ACCCTTCACA GTTGGCTTCT CACCAAGCCT TGGCTCAAAC 
ACTAGTGATT GTTATAAGGC TTACAACCAA AGCACACCTT TGCCAGCATC TCTTCAAACA 
AGTGAGTCAC TCTTCCAGGA GTACCCAAAG GCAGAACATA CAACAGATCA GACTGTGGCT 
GCCTCTCCCC AGGGTTCTGT GTTGTATGGG GAAAAGAAAT TCCCCTCATC AGTGGGTAAT 
CCAGAAAGGT CCATGGGATT TCATGAAGTT AGACACAGCA CTTCAGAGAC AGAGTCATTG 
CCTGTGGGAG CAACGTTCCC ATGGAACTCA GCAGTCGACC AAGCAGACTT CAGTTTGTTG 
AAGTGGATCA CATCAACTCC GCTGTTCAGT CGCATTGGGA CTGTTTTACA GGTGTCATCG 
AGCAGTTTAC AAAATGAAAC ACAGGACAGT ATGTGTGTGC TTGGCTCTTC TTTGCATGTG 
GACTTGAAAG GCTTAAAAGA ACAGAGCTCA AATAACTTGC AGGACAAAAC GAAAGGGTCC 
CCATCTGATC ACTGTAAAAG TGACAATTCT GAGACCACCT TTTTATGA

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

RefSeq	XP_010014540.1
CDS	1..4188
Translation	MPQSTEGGKRECAKLLNLLSQVYTRNEKKYISRYWKEVKVGDFVQLRCNEIIPADILLLSSSDPDGLCHIETANLDGETNLKQRQVVRRFLELDSEFDPLKFTSVIECEKPNNDLSRFRGYIVHRSGKKDGLFKENLLLRGCTIRNTEEVAGIVIYAGHETKALLNNNGPRYKRSKLERQMNADVLWCVLILLIMCLFSAIGHGLWVWQYGEKKKPIFDVPGPDGKYLSPVLASVYLFLTVIIVFQVMIPISLYVSIEIVKICQVYFIHQDKDLYDEETDSQLQCRALNITEDLGQVQFIFSDKTGTLTENKMVFRRCTVSGIEYSHDDNAKRLAMYQEPDSEEDEAAPKGGTLSQRDSICSHQSIKVIHRSQSTKTHRRTGSRAEAKRASILSKHTAFSSPMEKDITPDPRLLEKVNECAKHLEIMRGHEQPLSQLSPELCDIFDFFIALTICNTVVVTAPNQPRQKVRDRFELKSPVKTIEDFIRRFTPSRLTSGSNSSSSSSLATSKSMHRFGLSLLSSTSTDTTLLKLEEKLAYSAQMNNNGYSSQQGRTAVGGGPEEGELRYEAESPDEAALVYAARAYNCSLVGRLSDQVSVELPHLGTLSFEVLHTLGFDSVRKRMSVVVRHPLTDEINVYTKGADSVVMDLLLPCSSDDPRGKHQKKIQTKTQNYLNLYAVDGLRTLCIAKRVLTKEEYACWLKSHLEAESSIENREERLFQSALRIEKNLHLLGATGIEDRLQDGVPETIANLRKAGLQIWVLTGDKQETAVNIAYACKLLDHDEEIITLNAESPETCAVLLEQCLQCVESKFSNNTIDEATGNMTVGFTPLYPPSSSVLSSLGLVIDGRTLAYALEPTLEDKFLALAKRCRSVLCCRSTPLQKSMVVKLVRDKLKAMTLAIGDGANDVSMIQVADVGVGISGQEGMQAVMASDFAVPRFRHLEKLLLVHGHWCYSRLANMVLYFFYKNAMFVALLFWYQFYCGFSGSSMVDQWYLIFFNLLFSSLPQLITGVLDKDVPAEVLIAVPQLYKSGQNMEEYQPHMFWMNMIDAIYQSLVCFFIPYFTYYDSEVDIFSWGTPITTVALLTIILHLAIETKTWTFLHWSSCIFSILLFFFVALVYNASCPVCHPPSNPYWTMERLMGDPMFYFTCIISPVVALLPRFLYRTLQGTLFPTQLQLGRQLSKLSPEIRTQLLTKLNVNETICQTQPFTVGFSPSLGSNTSDCYKAYNQSTPLPASLQTSESLFQEYPKAEHTTDQTVAASPQGSVLYGEKKFPSSVGNPERSMGFHEVRHSTSETESLPVGATFPWNSAVDQADFSLLKWITSTPLFSRIGTVLQVSSSSLQNETQDSMCVLGSSLHVDLKGLKEQSSNNLQDKTKGSPSDHCKSDNSETTFL

Target ORF information:

RefSeq Version	XM_010016238.1
Organism	Nestor notabilis(Kea)
Definition	Nestor notabilis ATPase, class V, type 10A (ATP10A), mRNA.

Target ORF information:

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

XM_010016238.1

ORF Insert Sequence:

ATGCCTCAGA GCACAGAGGG AGGGAAAAGA GAGTGTGCGA AGCTGCTTAA CCTGCTTAGC 
CAGGTCTATA CTAGAAACGA GAAGAAATAT ATAAGCAGAT ATTGGAAAGA AGTGAAAGTT 
GGAGACTTTG TGCAGCTTCG CTGTAATGAA ATTATACCTG CTGACATATT GCTGCTCTCC 
TCAAGTGATC CTGATGGACT GTGCCACATA GAAACAGCTA ACCTGGATGG TGAAACTAAT 
TTAAAACAAA GACAGGTGGT GAGGAGGTTC TTAGAGCTGG ACTCAGAATT TGACCCCTTG 
AAGTTCACCA GTGTCATTGA ATGTGAGAAG CCAAACAATG ACTTAAGTAG GTTTCGAGGT 
TACATTGTAC ATAGGAGTGG AAAAAAGGAT GGACTATTCA AAGAAAACCT TTTGTTACGT 
GGATGTACCA TTAGAAATAC AGAAGAGGTT GCAGGAATAG TAATCTATGC AGGGCATGAG 
ACCAAAGCTT TGTTAAACAA TAATGGACCC CGTTACAAAC GCAGTAAGCT TGAAAGACAG 
ATGAATGCCG ATGTCCTTTG GTGTGTCCTC ATACTTCTCA TCATGTGTCT GTTTTCTGCC 
ATTGGTCATG GCTTATGGGT ATGGCAATAT GGTGAAAAGA AGAAACCAAT TTTTGACGTT 
CCAGGGCCTG ATGGCAAATA CTTGTCTCCT GTTTTAGCTT CAGTATATTT ATTTCTGACA 
GTGATCATAG TTTTCCAGGT TATGATTCCA ATTTCTTTGT ATGTATCCAT TGAAATAGTT 
AAAATCTGCC AAGTATACTT CATTCATCAA GATAAAGATT TATATGATGA AGAAACAGAT 
TCTCAGCTGC AGTGCCGAGC TTTAAATATC ACAGAAGACT TAGGTCAGGT GCAGTTTATC 
TTTTCAGACA AGACTGGGAC ACTTACTGAA AACAAGATGG TTTTCCGAAG GTGCACTGTT 
TCTGGAATAG AGTATTCCCA TGATGATAAT GCCAAACGCT TAGCGATGTA CCAAGAACCT 
GATTCTGAGG AAGATGAGGC AGCCCCAAAA GGAGGAACTC TATCCCAGCG TGATAGTATC 
TGCAGCCATC AGAGCATTAA AGTAATACAC AGAAGTCAGA GCACCAAAAC CCACCGGCGC 
ACAGGTAGCA GAGCTGAAGC AAAAAGAGCA AGCATACTCT CAAAGCATAC TGCGTTCAGT 
AGCCCAATGG AGAAGGACAT TACACCTGAC CCAAGATTGT TAGAAAAGGT GAATGAATGT 
GCAAAGCATC TGGAGATCAT GAGAGGCCAT GAACAGCCAT TATCCCAACT AAGTCCAGAA 
TTGTGTGACA TTTTTGACTT TTTCATCGCT TTGACTATAT GTAATACAGT CGTGGTTACT 
GCACCAAATC AGCCCCGGCA GAAGGTTAGA GATCGATTTG AACTAAAATC TCCAGTAAAA 
ACTATAGAAG ACTTCATACG AAGATTCACT CCAAGTCGCT TGACCTCTGG ATCTAACAGC 
AGCAGTTCAT CTAGTCTAGC TACAAGCAAA TCAATGCACA GATTTGGCTT AAGCCTGCTT 
TCATCTACAT CTACGGATAC CACTTTATTA AAACTGGAAG AGAAGCTGGC GTACTCTGCG 
CAGATGAATA ACAATGGCTA CAGCTCCCAG CAAGGCAGGA CAGCTGTGGG GGGTGGACCT 
GAGGAAGGAG AACTCCGTTA TGAAGCAGAG AGTCCAGATG AAGCTGCTCT CGTCTATGCA 
GCAAGGGCAT ATAACTGTTC TCTGGTTGGG AGGCTGTCCG ACCAGGTATC AGTGGAGCTA 
CCTCACCTGG GAACATTAAG CTTTGAAGTA TTACATACAT TGGGCTTTGA TTCCGTCAGA 
AAGAGGATGT CAGTAGTGGT TAGACATCCT CTCACAGATG AAATAAATGT TTACACTAAA 
GGAGCAGATT CAGTTGTTAT GGATCTTCTT CTACCCTGCT CTTCAGATGA CCCTCGAGGC 
AAACATCAAA AAAAAATCCA AACCAAAACC CAGAATTACC TTAATCTGTA TGCTGTAGAT 
GGGCTGCGGA CCCTCTGTAT TGCAAAAAGA GTTCTTACCA AGGAAGAGTA TGCCTGTTGG 
TTAAAAAGTC ATTTAGAAGC AGAATCCTCT ATTGAAAATC GTGAAGAACG TCTGTTTCAG 
TCAGCACTGC GGATAGAGAA GAATCTGCAT CTGCTAGGTG CAACTGGCAT TGAAGACCGT 
TTACAGGATG GTGTTCCAGA AACCATTGCA AACTTGCGCA AAGCTGGGTT GCAGATTTGG 
GTTCTTACTG GAGACAAGCA AGAAACAGCT GTTAATATTG CATATGCCTG CAAGCTACTA 
GATCATGATG AAGAAATCAT CACTTTGAAT GCTGAATCAC CAGAGACATG TGCTGTCTTG 
CTGGAGCAGT GTCTGCAATG CGTAGAGTCT AAATTTTCAA ACAACACTAT AGACGAAGCT 
ACTGGAAACA TGACTGTTGG GTTCACCCCT CTCTATCCAC CCTCTTCCTC TGTGCTTTCC 
AGCTTGGGCC TAGTGATCGA TGGAAGGACT CTAGCTTATG CCTTGGAACC TACACTAGAA 
GATAAATTTC TCGCACTAGC CAAGCGATGC CGTTCAGTAC TGTGTTGTCG CTCTACCCCA 
CTCCAAAAGA GCATGGTAGT GAAACTAGTC AGAGACAAAC TCAAAGCAAT GACCTTGGCA 
ATAGGTGATG GTGCTAATGA TGTCAGCATG ATACAAGTGG CAGATGTTGG TGTGGGAATC 
TCTGGTCAAG AAGGCATGCA GGCGGTGATG GCGAGTGACT TTGCAGTCCC AAGGTTCCGG 
CATTTGGAGA AGCTCTTGCT TGTTCATGGC CACTGGTGTT ATTCCCGACT CGCCAACATG 
GTGCTGTATT TCTTCTACAA AAACGCAATG TTTGTGGCCC TTCTCTTCTG GTACCAGTTC 
TACTGCGGGT TCTCTGGCTC ATCAATGGTT GATCAGTGGT ATCTCATCTT CTTTAATTTA 
CTCTTCTCTT CTCTTCCACA ACTGATTACT GGTGTGCTGG ATAAGGATGT GCCAGCTGAA 
GTGTTAATTG CTGTGCCTCA GCTTTATAAA AGCGGCCAGA ATATGGAGGA GTACCAACCA 
CACATGTTTT GGATGAATAT GATTGATGCT ATATATCAAA GCCTGGTTTG CTTCTTCATC 
CCCTATTTTA CTTACTATGA TTCGGAGGTG GATATCTTCT CCTGGGGAAC TCCCATCACT 
ACAGTAGCTC TTCTCACCAT CATATTACAT TTGGCTATTG AAACCAAAAC TTGGACTTTT 
CTCCACTGGT CATCTTGCAT CTTCAGTATC CTTTTATTTT TCTTTGTGGC TCTGGTTTAC 
AATGCTTCCT GCCCAGTATG CCATCCTCCA TCCAATCCCT ACTGGACTAT GGAAAGGCTG 
ATGGGAGACC CTATGTTCTA TTTCACTTGC ATTATATCAC CAGTTGTTGC ATTACTGCCC 
AGATTTCTGT ACAGAACCCT TCAGGGAACA CTCTTCCCAA CCCAGCTTCA GCTTGGACGC 
CAGTTGAGTA AACTATCCCC AGAGATTCGC ACCCAGCTTC TGACCAAGTT GAATGTAAAC 
GAAACAATAT GTCAGACACA ACCCTTCACA GTTGGCTTCT CACCAAGCCT TGGCTCAAAC 
ACTAGTGATT GTTATAAGGC TTACAACCAA AGCACACCTT TGCCAGCATC TCTTCAAACA 
AGTGAGTCAC TCTTCCAGGA GTACCCAAAG GCAGAACATA CAACAGATCA GACTGTGGCT 
GCCTCTCCCC AGGGTTCTGT GTTGTATGGG GAAAAGAAAT TCCCCTCATC AGTGGGTAAT 
CCAGAAAGGT CCATGGGATT TCATGAAGTT AGACACAGCA CTTCAGAGAC AGAGTCATTG 
CCTGTGGGAG CAACGTTCCC ATGGAACTCA GCAGTCGACC AAGCAGACTT CAGTTTGTTG 
AAGTGGATCA CATCAACTCC GCTGTTCAGT CGCATTGGGA CTGTTTTACA GGTGTCATCG 
AGCAGTTTAC AAAATGAAAC ACAGGACAGT ATGTGTGTGC TTGGCTCTTC TTTGCATGTG 
GACTTGAAAG GCTTAAAAGA ACAGAGCTCA AATAACTTGC AGGACAAAAC GAAAGGGTCC 
CCATCTGATC ACTGTAAAAG TGACAATTCT GAGACCACCT TTTTATGA