Atp10a cDNA ORF clone, Marmota marmota marmota(Alpine marmot)

Gene
Clones
gRNAs

Summary

Gene Symbol	Atp10a
Entrez Gene ID	107137550
Full Name	ATPase phospholipid transporting 10A (putative)
Gene Type	protein-coding
Organism	Marmota marmota marmota(Alpine marmot)

mRNA and Protein(s)

mRNA	Protein	Name
XM_015480037.1	XP_015335523.1	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
OMa88554	XM_015480037.1 Latest version!	Marmota marmota marmota 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_015480037.1 ) cDNA ORF clone, Marmota marmota marmota(Alpine marmot) -> XP_015335523.1 Marmota marmota marmota ATPase, class V, type 10A (Atp10a), mRNA.

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CloneID	OMa88554
Clone ID Related Accession (Same CDS sequence)	XM_015480037.1
Accession Version	XM_015480037.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4164bp) 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	2016-01-27
Organism	Marmota marmota marmota(Alpine marmot)
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_015351217.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Marmota marmota marmota Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 3% of CDS bases ##RefSeq-Attributes-END##

ATGGCTCCCC AGCCACTGAG CCACACAGCC CACAGATCTC TTCCAAGAAG CAGTAGTGTA 
GTGGTAGAGA TGTGGCCCAG GTGGCTGGAG CATGGGCAGT GCCCACTGGC CCTGGATTCT 
TTTTTTATCA GGGAAGAAAA GAAGTATGTG AACCGATTCT GGAAAGAAAT CCGTGTGGGA 
GACTTCGTGC ATCTTCGCTG CAATGAGATC ATTCCTGCAG ACATTCTGCT GCTCTCCTCC 
AGTGACCCCG ATGGGCTGTG TCACATCGAG ACTGCCAACC TGGATGGAGA GACCAACCTG 
AAGCGACGGC AAGTGGTCCG TGGCTTCTCA GAGCTTGTCT CCGAATTCAA TCCTTTGACG 
TTCACCAGTG TAATCGAGTG TGAGAAGCCA AACAATGACC TGACTAGGTT TCGTGGTTGC 
ATCATACACG ATAATGGGAA GAAGGCTGGA CTGTATAAGG AAAACCTGCT GCTGCGAGGG 
TGTACCATCA GGAATACAGA AGCAGTGGTT GGCATCGTCA TCTATGCAGG ACACGAAACC 
AAGGCTCTGC TGAACAACAG CGGGCCCCGA TACAAGCGCA GCCAACTTGA GAGGCAGATG 
AACTGCGACG TGCTCTGGTG TGTCCTTCTC CTCGTTTGTA TGTCTCTGTT TTCAGCGGTC 
GGACATGGAT TGTGGGTACA GCGGTATCAA GATAAGAAAG CATTATTTGA TGTCCCTGAG 
TCTGACGGCA GTTCTTTATC CCCAGTCACA GCAGCAGTTT ACTCATTTTT GACAATGATA 
ATAGTTCTGC AGGTTTTGAT CCCTATTTCC TTATATGTTT CCATTGAAAT TGTTAAAGTT 
TGCCAAGTGT ACTTCATTAA CCAGGATATA GAGTTGTACG ATGAAGAGAC AGATTCTCAG 
CTGCAGTGTC GGGCTCTGAA CATCACGGAA GACTTAGGGC AGATACAGTA TATCTTCTCA 
GACAAAACTG GCACTTTAAC TGAGAATAAA ATGGTTTTCC GAAGATGCAC AGTGTCTGGC 
ATAGAATATT CTCATGATGC AAATGCCCAG CGTCTGGCCA GATACCAGGA GGCAGACTCA 
GAAGAGGAGG AGGTGCCCAG GGGGTGCTCA TCCCAGCGTG GCAGTATTGG GAGCCACCAG 
AGTGTCCGGA TCCTACACAG GAGTCAGAGT ACAAAGTCCT ACTGGCGCAC AGGCAGCCGG 
GCTGAGGCCA AGAGGGCTAG CATGCTGTCC AAGCACACAG CTTTCAGCAG CCCCATGGAG 
AAAGATATTA CACCTGATCC AAAGCTGTTA GAGAAGGTGA GCGAGTGTGA CAGGTACCTG 
GCCATATCAA GGCACCAGGA GCACCCTCTG GCCCAACTTT CTCCAGAGCT GTCTGACGTC 
TTTGATTTCT TCATTGCGCT TACCATCTGC AATACAGTAG TGGTCACATC CCCGGATCAG 
CCACGACAGA AGGTGAGGGT AAGGTTTGAG CTGAAGTCTC CAGTGAAGAC AATAGAAGAT 
TTCCTCCGGA GGTTCACGCC CAGCCGCCTG ACCTCTGGCT GCAGCAGCAT CGGGAGCCTG 
GCTACCACCA AGTCCAGCCA CAAATCAGGG TGCAGCTTCA TGTCCGCTCT GTCCAATGAC 
AGCATGCTTT TGAGGCTGGA GGAGAGGCTG GGCCAGCCCG CACCAGCCAT TGCCAGCAAT 
GGCTACAGCA CCCCTGCAGA CAGCTGGGAA CCCAACTGCC CCCAGGAGCC TCAGCCAAAG 
CAGGAGCTGA GGTTTGAGGC CGAGAGCCCA GACGAGGCAG CACTGGTGTA TGCAGCCAAG 
GCCTACAACT GTGCACTGGT GGATCGGCTA CATGACCAGG TGTCAGTGGA GCTGCCCCAC 
CTAGGAAGGC TCACTTTTGA ACTCCTGCAC ACGCTTGGCT TTGACTCCAT TCGCAAGAGG 
ATGTCTGTGG TGATCCGGCA CCCACTCACC GATGAGATCA ATGTCTACAC CAAGGGGGCT 
GACTCAGTAG TCATGGATCT CCTGCTGCCC TGCTCCTCAG ATGACGCCAG AGGAAAGCAT 
CAAAACAAGA TCCGAAGCAA AACACAGAAT TACCTCAACC TGTATGCAAT GGAAGGCCTG 
CGTACCTTGT GCATCGCCAA GAGGGTTCTG AGCAAAGAAG AGTATGCCTG TTGGTTGCAA 
AGCCACTTAG AAGCAGAATC ATCTGTGGAC AACCGAGAGG AGCTCCTTTT CCAATCTGCC 
ATTCGCCTTG AGACGAATCT GCATCTATTG GGTGCCACAG GAATCGAAGA CCGCCTACAG 
GATGGAGTCC CTGAAACTAT CACTAAATTG CGTCAAGCAG GCCTACAAAT TTGGGTTCTC 
ACTGGTGACA AACAAGAAAC AGCCATTAAC ATTGCATATG CCTGCAAACT TCTGGACCAT 
GATGAAGAAG TCATCACCCT AAACGCCGAA TCCCAGGAAG CCTGTGCAGC CCTGCTGGAT 
CAGTGTCTGC ACCACGTGCA GTCCCGGGGT TCCCACAGGC CCCCTGAGAA GACCGAAAGC 
TCTGTGAATG TGGGATTCTC CCCTCTGTAC CTGGCCTCCG CCACACCCAC TGTCTCTGGC 
CCCAGCCCAA GCCTTGTGAT TGATGGAAGA AGTTTGGCCT ATGCCCTTGA GAAAAACCTG 
GAGGACAAAT TTCTTTTCCT CGCCAAGCAG TGCCGCTCAG TTCTCTGCTG TCGGTCAACC 
CCTCTGCAGA AAAGTATGGT GGTAAAGCTG GTCAGAAGCA AGCTGAAGGC CATGACCCTG 
GCAATAGGTG ATGGAGCCAA TGATGTCAGC ATGATCCAGG TGGCAGACGT GGGTGTGGGC 
ATATCAGGCC AGGAGGGCAT GCAGGCAGTG ATGGCCAGTG ACTTTGCAGT GCCAAGATTC 
CGATATTTGG AGAGACTCTT AATTGTCCAT GGACATTGGT GCTACTCCCG GCTGGCCAAC 
ATGGTGCTAT ATTTCTTCTA CAAAAACACA ATGTTCGTGG GCCTCCTGTT TTGGTTCCAG 
TTTTACTGTG GTTTCTCTGC ATCAGCAATG ATTGACCAAT GGTATCTAAT CTTCTTTAAT 
CTACTATTCT CGTCACTTCC CCAGCTTGTG ACTGGGGTGC TGGACAAGGA TGTACCAGCC 
CATGTGCTGC TTTTGAAGCC ACAGCTCTAC AAGAGTGGCC AGAATATGGA GGAATATCGG 
CCACGTGCCT TCTGGTTAAA CATGGTTGAT GCTGCCTTCC AGAGCTTGGT TTGTTTTTTC 
ATTCCTTACC TGGCCTACTA TGACTCAGAT GTGGACATGT TTACTTGGGG AACTCCCATC 
ACAGCAATCG CACTGTTCAC TTTCCTGCTG CACCTGGGTA TTGAAACCAG AACCTGGACC 
TGGCTCAACT GGACAGCTTG TGTCTTTAGT ATCTTTTTAT TTTTCACCGT GGCTTTGATT 
TACAATGCTT CTTGTGCAAC ATGTTATCCT CCATCTAACC CTTATTGGAC CATGCACACA 
TTACTGGGAG ACCCCGTGTT CTACTTGATT TGCCTCATAG CACCTATCAC TGCATTGCTG 
CCCAGATTGT TTTTCAAAGC CCTCCAGGGG AGCCTCTTCC CAACCCAACT TCAGCTGGCA 
CGCCAGTCAG CCAAGAAATT TCTCAAGAAA CCCAAAACTC CCAAAGAAAT CTTAGTTCAG 
AAACATTTCC CTGGAGACCC AAAAACAGAG CTCTCGGAAG GGATGACCAT GAGTCCCTCT 
GAAACCCTCT CCAAGGACTG TGCCTCAGAA GCTTCTCAGA ACACACAGCA GCCATCCTGC 
TCCCTAAAGA CCAGCAGGGA GCTCAGCACA GTGGACATAA GTATGCCATT GAGAGAGGAC 
ACCATGCAGG AAGGACTGGA TGCTCAGGCC CCAGGATCCT CCAGGCCAGA GGAGGCTGTT 
TTAGAAGCAT GTCCTGAGGA CTCCAAGAGG AAACCCACCA GTACAAGCCA GGAACCCCCT 
CTATCGTCCC TCTTCAACCT GCCCAGTTTC GGTTCACTCA ACTGGATCTC CTCCCTCTCA 
ATGGTCAGTG GGCTGGGAAG TGTCTTCCAG TTCTCCAGAA GTAGTTTACA CATGAACAAG 
CAGGATGGAG AGTTCCTGCC CAGCCCCCCA CAGCCAGATC AGGACTTACA TGGCTTACAG 
GGACAGGCCA CAGACTACTT CTAG

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

RefSeq	XP_015335523.1
CDS	1..4164
Translation	MAPQPLSHTAHRSLPRSSSVVVEMWPRWLEHGQCPLALDSFFIREEKKYVNRFWKEIRVGDFVHLRCNEIIPADILLLSSSDPDGLCHIETANLDGETNLKRRQVVRGFSELVSEFNPLTFTSVIECEKPNNDLTRFRGCIIHDNGKKAGLYKENLLLRGCTIRNTEAVVGIVIYAGHETKALLNNSGPRYKRSQLERQMNCDVLWCVLLLVCMSLFSAVGHGLWVQRYQDKKALFDVPESDGSSLSPVTAAVYSFLTMIIVLQVLIPISLYVSIEIVKVCQVYFINQDIELYDEETDSQLQCRALNITEDLGQIQYIFSDKTGTLTENKMVFRRCTVSGIEYSHDANAQRLARYQEADSEEEEVPRGCSSQRGSIGSHQSVRILHRSQSTKSYWRTGSRAEAKRASMLSKHTAFSSPMEKDITPDPKLLEKVSECDRYLAISRHQEHPLAQLSPELSDVFDFFIALTICNTVVVTSPDQPRQKVRVRFELKSPVKTIEDFLRRFTPSRLTSGCSSIGSLATTKSSHKSGCSFMSALSNDSMLLRLEERLGQPAPAIASNGYSTPADSWEPNCPQEPQPKQELRFEAESPDEAALVYAAKAYNCALVDRLHDQVSVELPHLGRLTFELLHTLGFDSIRKRMSVVIRHPLTDEINVYTKGADSVVMDLLLPCSSDDARGKHQNKIRSKTQNYLNLYAMEGLRTLCIAKRVLSKEEYACWLQSHLEAESSVDNREELLFQSAIRLETNLHLLGATGIEDRLQDGVPETITKLRQAGLQIWVLTGDKQETAINIAYACKLLDHDEEVITLNAESQEACAALLDQCLHHVQSRGSHRPPEKTESSVNVGFSPLYLASATPTVSGPSPSLVIDGRSLAYALEKNLEDKFLFLAKQCRSVLCCRSTPLQKSMVVKLVRSKLKAMTLAIGDGANDVSMIQVADVGVGISGQEGMQAVMASDFAVPRFRYLERLLIVHGHWCYSRLANMVLYFFYKNTMFVGLLFWFQFYCGFSASAMIDQWYLIFFNLLFSSLPQLVTGVLDKDVPAHVLLLKPQLYKSGQNMEEYRPRAFWLNMVDAAFQSLVCFFIPYLAYYDSDVDMFTWGTPITAIALFTFLLHLGIETRTWTWLNWTACVFSIFLFFTVALIYNASCATCYPPSNPYWTMHTLLGDPVFYLICLIAPITALLPRLFFKALQGSLFPTQLQLARQSAKKFLKKPKTPKEILVQKHFPGDPKTELSEGMTMSPSETLSKDCASEASQNTQQPSCSLKTSRELSTVDISMPLREDTMQEGLDAQAPGSSRPEEAVLEACPEDSKRKPTSTSQEPPLSSLFNLPSFGSLNWISSLSMVSGLGSVFQFSRSSLHMNKQDGEFLPSPPQPDQDLHGLQGQATDYF

Target ORF information:

RefSeq Version	XM_015480037.1
Organism	Marmota marmota marmota(Alpine marmot)
Definition	Marmota marmota marmota 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_015480037.1

ORF Insert Sequence:

ATGGCTCCCC AGCCACTGAG CCACACAGCC CACAGATCTC TTCCAAGAAG CAGTAGTGTA 
GTGGTAGAGA TGTGGCCCAG GTGGCTGGAG CATGGGCAGT GCCCACTGGC CCTGGATTCT 
TTTTTTATCA GGGAAGAAAA GAAGTATGTG AACCGATTCT GGAAAGAAAT CCGTGTGGGA 
GACTTCGTGC ATCTTCGCTG CAATGAGATC ATTCCTGCAG ACATTCTGCT GCTCTCCTCC 
AGTGACCCCG ATGGGCTGTG TCACATCGAG ACTGCCAACC TGGATGGAGA GACCAACCTG 
AAGCGACGGC AAGTGGTCCG TGGCTTCTCA GAGCTTGTCT CCGAATTCAA TCCTTTGACG 
TTCACCAGTG TAATCGAGTG TGAGAAGCCA AACAATGACC TGACTAGGTT TCGTGGTTGC 
ATCATACACG ATAATGGGAA GAAGGCTGGA CTGTATAAGG AAAACCTGCT GCTGCGAGGG 
TGTACCATCA GGAATACAGA AGCAGTGGTT GGCATCGTCA TCTATGCAGG ACACGAAACC 
AAGGCTCTGC TGAACAACAG CGGGCCCCGA TACAAGCGCA GCCAACTTGA GAGGCAGATG 
AACTGCGACG TGCTCTGGTG TGTCCTTCTC CTCGTTTGTA TGTCTCTGTT TTCAGCGGTC 
GGACATGGAT TGTGGGTACA GCGGTATCAA GATAAGAAAG CATTATTTGA TGTCCCTGAG 
TCTGACGGCA GTTCTTTATC CCCAGTCACA GCAGCAGTTT ACTCATTTTT GACAATGATA 
ATAGTTCTGC AGGTTTTGAT CCCTATTTCC TTATATGTTT CCATTGAAAT TGTTAAAGTT 
TGCCAAGTGT ACTTCATTAA CCAGGATATA GAGTTGTACG ATGAAGAGAC AGATTCTCAG 
CTGCAGTGTC GGGCTCTGAA CATCACGGAA GACTTAGGGC AGATACAGTA TATCTTCTCA 
GACAAAACTG GCACTTTAAC TGAGAATAAA ATGGTTTTCC GAAGATGCAC AGTGTCTGGC 
ATAGAATATT CTCATGATGC AAATGCCCAG CGTCTGGCCA GATACCAGGA GGCAGACTCA 
GAAGAGGAGG AGGTGCCCAG GGGGTGCTCA TCCCAGCGTG GCAGTATTGG GAGCCACCAG 
AGTGTCCGGA TCCTACACAG GAGTCAGAGT ACAAAGTCCT ACTGGCGCAC AGGCAGCCGG 
GCTGAGGCCA AGAGGGCTAG CATGCTGTCC AAGCACACAG CTTTCAGCAG CCCCATGGAG 
AAAGATATTA CACCTGATCC AAAGCTGTTA GAGAAGGTGA GCGAGTGTGA CAGGTACCTG 
GCCATATCAA GGCACCAGGA GCACCCTCTG GCCCAACTTT CTCCAGAGCT GTCTGACGTC 
TTTGATTTCT TCATTGCGCT TACCATCTGC AATACAGTAG TGGTCACATC CCCGGATCAG 
CCACGACAGA AGGTGAGGGT AAGGTTTGAG CTGAAGTCTC CAGTGAAGAC AATAGAAGAT 
TTCCTCCGGA GGTTCACGCC CAGCCGCCTG ACCTCTGGCT GCAGCAGCAT CGGGAGCCTG 
GCTACCACCA AGTCCAGCCA CAAATCAGGG TGCAGCTTCA TGTCCGCTCT GTCCAATGAC 
AGCATGCTTT TGAGGCTGGA GGAGAGGCTG GGCCAGCCCG CACCAGCCAT TGCCAGCAAT 
GGCTACAGCA CCCCTGCAGA CAGCTGGGAA CCCAACTGCC CCCAGGAGCC TCAGCCAAAG 
CAGGAGCTGA GGTTTGAGGC CGAGAGCCCA GACGAGGCAG CACTGGTGTA TGCAGCCAAG 
GCCTACAACT GTGCACTGGT GGATCGGCTA CATGACCAGG TGTCAGTGGA GCTGCCCCAC 
CTAGGAAGGC TCACTTTTGA ACTCCTGCAC ACGCTTGGCT TTGACTCCAT TCGCAAGAGG 
ATGTCTGTGG TGATCCGGCA CCCACTCACC GATGAGATCA ATGTCTACAC CAAGGGGGCT 
GACTCAGTAG TCATGGATCT CCTGCTGCCC TGCTCCTCAG ATGACGCCAG AGGAAAGCAT 
CAAAACAAGA TCCGAAGCAA AACACAGAAT TACCTCAACC TGTATGCAAT GGAAGGCCTG 
CGTACCTTGT GCATCGCCAA GAGGGTTCTG AGCAAAGAAG AGTATGCCTG TTGGTTGCAA 
AGCCACTTAG AAGCAGAATC ATCTGTGGAC AACCGAGAGG AGCTCCTTTT CCAATCTGCC 
ATTCGCCTTG AGACGAATCT GCATCTATTG GGTGCCACAG GAATCGAAGA CCGCCTACAG 
GATGGAGTCC CTGAAACTAT CACTAAATTG CGTCAAGCAG GCCTACAAAT TTGGGTTCTC 
ACTGGTGACA AACAAGAAAC AGCCATTAAC ATTGCATATG CCTGCAAACT TCTGGACCAT 
GATGAAGAAG TCATCACCCT AAACGCCGAA TCCCAGGAAG CCTGTGCAGC CCTGCTGGAT 
CAGTGTCTGC ACCACGTGCA GTCCCGGGGT TCCCACAGGC CCCCTGAGAA GACCGAAAGC 
TCTGTGAATG TGGGATTCTC CCCTCTGTAC CTGGCCTCCG CCACACCCAC TGTCTCTGGC 
CCCAGCCCAA GCCTTGTGAT TGATGGAAGA AGTTTGGCCT ATGCCCTTGA GAAAAACCTG 
GAGGACAAAT TTCTTTTCCT CGCCAAGCAG TGCCGCTCAG TTCTCTGCTG TCGGTCAACC 
CCTCTGCAGA AAAGTATGGT GGTAAAGCTG GTCAGAAGCA AGCTGAAGGC CATGACCCTG 
GCAATAGGTG ATGGAGCCAA TGATGTCAGC ATGATCCAGG TGGCAGACGT GGGTGTGGGC 
ATATCAGGCC AGGAGGGCAT GCAGGCAGTG ATGGCCAGTG ACTTTGCAGT GCCAAGATTC 
CGATATTTGG AGAGACTCTT AATTGTCCAT GGACATTGGT GCTACTCCCG GCTGGCCAAC 
ATGGTGCTAT ATTTCTTCTA CAAAAACACA ATGTTCGTGG GCCTCCTGTT TTGGTTCCAG 
TTTTACTGTG GTTTCTCTGC ATCAGCAATG ATTGACCAAT GGTATCTAAT CTTCTTTAAT 
CTACTATTCT CGTCACTTCC CCAGCTTGTG ACTGGGGTGC TGGACAAGGA TGTACCAGCC 
CATGTGCTGC TTTTGAAGCC ACAGCTCTAC AAGAGTGGCC AGAATATGGA GGAATATCGG 
CCACGTGCCT TCTGGTTAAA CATGGTTGAT GCTGCCTTCC AGAGCTTGGT TTGTTTTTTC 
ATTCCTTACC TGGCCTACTA TGACTCAGAT GTGGACATGT TTACTTGGGG AACTCCCATC 
ACAGCAATCG CACTGTTCAC TTTCCTGCTG CACCTGGGTA TTGAAACCAG AACCTGGACC 
TGGCTCAACT GGACAGCTTG TGTCTTTAGT ATCTTTTTAT TTTTCACCGT GGCTTTGATT 
TACAATGCTT CTTGTGCAAC ATGTTATCCT CCATCTAACC CTTATTGGAC CATGCACACA 
TTACTGGGAG ACCCCGTGTT CTACTTGATT TGCCTCATAG CACCTATCAC TGCATTGCTG 
CCCAGATTGT TTTTCAAAGC CCTCCAGGGG AGCCTCTTCC CAACCCAACT TCAGCTGGCA 
CGCCAGTCAG CCAAGAAATT TCTCAAGAAA CCCAAAACTC CCAAAGAAAT CTTAGTTCAG 
AAACATTTCC CTGGAGACCC AAAAACAGAG CTCTCGGAAG GGATGACCAT GAGTCCCTCT 
GAAACCCTCT CCAAGGACTG TGCCTCAGAA GCTTCTCAGA ACACACAGCA GCCATCCTGC 
TCCCTAAAGA CCAGCAGGGA GCTCAGCACA GTGGACATAA GTATGCCATT GAGAGAGGAC 
ACCATGCAGG AAGGACTGGA TGCTCAGGCC CCAGGATCCT CCAGGCCAGA GGAGGCTGTT 
TTAGAAGCAT GTCCTGAGGA CTCCAAGAGG AAACCCACCA GTACAAGCCA GGAACCCCCT 
CTATCGTCCC TCTTCAACCT GCCCAGTTTC GGTTCACTCA ACTGGATCTC CTCCCTCTCA 
ATGGTCAGTG GGCTGGGAAG TGTCTTCCAG TTCTCCAGAA GTAGTTTACA CATGAACAAG 
CAGGATGGAG AGTTCCTGCC CAGCCCCCCA CAGCCAGATC AGGACTTACA TGGCTTACAG 
GGACAGGCCA CAGACTACTT CTAG