LOC106139747 cDNA ORF clone, Amyelois transitella

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC106139747
Entrez Gene ID	106139747
Full Name	cilia- and flagella-associated protein 61-like
Gene Type	protein-coding
Organism	Amyelois transitella

mRNA and Protein(s)

mRNA	Protein	Name
XM_013341243.1	XP_013196697.1	cilia- and flagella-associated protein 61-like

Pathways from BioSystems
Gene Ontology

The following LOC106139747 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC106139747 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
OAm69344	XM_013341243.1 Latest version!	Amyelois transitella cilia- and flagella-associated protein 61-like (LOC106139747), 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)

LOC106139747 ( XM_013341243.1 ) cDNA ORF clone, Amyelois transitella -> XP_013196697.1 Amyelois transitella cilia- and flagella-associated protein 61-like (LOC106139747), mRNA.

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CloneID	OAm69344
Clone ID Related Accession (Same CDS sequence)	XM_013341243.1
Accession Version	XM_013341243.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4194bp) 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	2015-08-05
Organism	Amyelois transitella
Product	cilia- and flagella-associated protein 61-like
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_013535918.1) 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 :: Amyelois transitella Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 13% of CDS bases ##RefSeq-Attributes-END##

ATGTCTATAT TCTTCGATTT CGACGTAGGG CCGACTGGTA GAAGATTTCG AAGGGCGGTG 
GAAGAAGACA AATATGATAT TGAGAAGTTT TGTGATCGGA CGCTAACGGA ACCACTTTTT 
GGAGATGCTA ACATTGGCGC TTTGATTGAA CTATCCACAC TAGCCATCTG CATGATCAAC 
GCGGATAAGG AAGTAGCTGG GTTCATGGCG TTCAACGACC ATCCCGTCCA GGTGGCCATA 
GAGGCGTCTG ATTGGGAAAT GTGGGTTAGG AACATGTTCC ATCGTTTCTA CCTATCCCGG 
AATACCTTCT TCATCCACTT CATGTGCTGT GCGGATGGAG TCATAGATTA CTTCGTGCAT 
GAAGCCCTGA CCTCCGTCTT CGTCAATGAC GCTTATCTGA AGAATATTTT GCTACTTGTG 
ACCAAGGGCT GTCCGAAAGA GTCCTACGCC AAATACAACG TGTTCAGAAA CAACATCACG 
TACAAATTTA ACGCTAAATG CATTACTGAC GACAATCTAG GAATCTTTAT GTTCGCGGCG 
CAGAGTCAAG ACTTTTGCCC CCAACTTAAA CTGCGAAGGG CTGTTGAGGA AGACAATGAC 
GAAATAGTGG AAATTCTAGA CAAGAAATGC AGAAAATTGA AAGAGCTTTA TGGCGACTAT 
TATATTGCTG AGTTGGTTGG CCATCACCCA GATACTAAAA GACGAATCAT AGTTGCCGAG 
CAAAAAGACA GATCTGTAGC GGGTGTGATG TGCCTCAACT CTGAAATTAA CTATGAGAAA 
CTACAGAAGA ATTATGACCT CAAACCTTTT TATGGTCTGA CGAAGACCAC GCCACTAGAA 
CGAGAGAATA TGAAAAGAAG TAACAAACTG CTTAGCACAT TTGGAGAACC AGTCATGTGC 
GGAAAATGGA GCCCATTTAG TCGCATGGTC AAATTGAAAA CTGTTCCACA AGACATAAGA 
CAAAAGAAAA AAGAAGTTAA ACCTAAAAGT AGTCGTGTTA ACTTCGTTCG AGCGATGAAC 
CGTGCTAGCG TAGACGATCG AAAGTCCTCA GACGCCAGTT CCAAATTCGC CATAGCGTCG 
ACTATATCCG TTCAGTCCCA AATGACAGCC GCGTCTATAA TGGCCATGTT GGACGAAGAG 
CCACTCGACT ATGAAATCGT CAATATCGAT GAAGGATTAC TTGTAATTCC TGAAGAATTT 
CCGTTAGATG AAGTGAATGA GTCTGAAGTA AAAAACACGT CACTGGCTGA GACATCTTCA 
AAAAATGAGA AAAGTCCCGA AAATAAAACT GAAGCGATAT CAAAGAAACA ATTTCAAAAT 
CGAGAAAAGA AAAAAGGTAT ATTAGCCAAA GGTGGGGTGA CCGTCAAGCG AGCTCCTTTT 
CCAGTCTTGT ATTACGGACA ACCCAACGCT TTTATGATAG AGTTGTTTGG ACTCAGAGAC 
GGCCTTATTT ATAGGCATGC TTTTGACTTA TTGGAAGCCG CCTTCGAAGT GATGAAGGAT 
TACGACTATT GTATCATCGA GATACCTTTA GAAGAGCCGG CATTTTCTTT GTTGCAACAT 
TTTTGTTACG TGCCGACAAG GGGTGATGTT TGTACTGATA CAGCTTTGTA TGTGGCACAT 
AGAAATGCAA TTTTTGGAAA AATCCGAGTA CGCGAGGCGG AAATGGCGGA CATGCCACAG 
ATATCTCAAG TGATGCACGA CGTGGAGGGC AAAGACACGA TCTGGACCGT TGAGAACACG 
CTGATGAAAG GCAAGGAGAA CCGCGTGTTC GTCATGATGT GCGGCCACAG GGTCGTGGGC 
TTTGGGATCG TTGAGCCTCC AGAACAAATC GACTTCATCC GAACGAAGTT CCTTCTAGAG 
ACTTACCACA TTCACAAGTA CCACACCAAC AAAGAAGTGG AATGTGGCTT CGCAACTCTG 
AAGACTGCGA TGGTGTACCG CGTGTTTGAG CAGCATTACA GGTTCTTTGC CAGGGATATG 
ATGAGGCTGT CTGGAAGTAA CACCCTGCTT TGGTTGACTG GGTATAGGAA CAAATGGATG 
GCATACAAGG CAAACATCTT GGCATCACTC ATGATACCGC TAATGCCAAG GAAAAATGAG 
ATTGATTACT TAGAAACAAC AGAACTGAAG AGGATTGCTG CGTTGAGCAA GAATATAATT 
GGTTTCACGA CGTGGTTTCT AAGCAAAAAG TATTGTAGCA TTCCTATGCT AAACGTGAAC 
GCAAGAATAG TCGTGGTAGG CGCCTCTAGA ACTGCACTGG CTTTTATAGA TAAATTGTTG 
TTCAGTGAAT CCTGCGCATA CTTGTCATTC AACAATGTGT ATCTAATATC CCCGTCGGCC 
ATACCCCACA TGCCGAAAAG GTGTAGTTCT ACAGATCACA TGTTTAATAA ATACAGCACC 
AGCTCAGATA AATATATAAG AAGTGTGCCT TACACTTATT ATGTGAATAC CGTCCGTGGC 
ACTCTTGTGG GAATTGACAA GCAACACAAA TTTGTAACTG TATCTAACGG TGGCAGGATA 
TACTATGACT ATCTCTGTCT TATGTTCGGA AAGCAGTACC AGCCGCCTGA TTATTTCGAA 
AAGGTTTTGG AAAACGAACG CCGACAAATT CATGGTGAAC CTTGCAAATA CAAACGCTTA 
GACGTCCCGA ACTTAACCGA AGAGGTTCGG ATGACTTCGG AATACCTACC GGAGAATGTG 
TTTGTGGTGA ACTCTTACGT GGAATCTTCT AGAGCCATCA ACTATGTCTT TAGGTTCACT 
TTGGCCAATG ATAATTATAC GAACTACGAT TACAAAATTA TAGTATACGG AGCGACTATA 
CACGCATATT GCTGTCTAAC TGCGCTTATA GAAATCAATG TTCCTACTGA AAATATTATA 
TTTGTGGAGC CCTTCCCGCC AGAAGACGAA CGGGAGACCA GGGTATCAAT ATTCTGTAAC 
CAATATGTAG ACCAAACAAT TCAAGAGGTA CTTACCAATC TTAACATCAC AGTATACCGT 
TCATACTATT TCTTGGACTG GACTGTGGAT GGAAACAACT TGGTCAGTCA TGTGCAGTTC 
CTCTCGCATT TCAAGAGGAT CAGCCTCCAA TGTTCTGCGT TCTTCTATTA TGGAAAGAAG 
GGCATCAATC CTCAAGCGTT TGTAGCTATC AACAAAAGTG GTATTGCGTA CAATGATGGG 
ATTCTAATCG ACCACGAGTT TCGTACTAAG AACCCTAGCG TGTACGCCGC CGGCCCGGCC 
ACCAGGTACT ATGGGAAGTA CTTCGCTGAT GACAGACAAC ACAAGTATTA TGATTCTTAC 
GAGATCGGTG CTAAGCTTGG CGAAATAATA AGAAACAAAC TTGATCCATT ATTCAAGCCA 
AAAGAGCATA AGAAGAGTTG TGCAAAATCT GATTATGATT GTAGCGGTTC AAGTTCAAAG 
AGTTCTAGTG AATCCACAGA AATACCATTG GAAGAAGATA CATCCATTGG AGACATACCC 
TCGCTGAAGA AGCCTGTGGT GACCTGCTGC ATGCTCCCTG GCGGTCTGCA GTTCCTGGAC 
GTGCGGTCTC CGGGCAAAAA GTGCCCGCAC TATTACGTAC ATTCTCTGCA TTACAACGGA 
TACGTATTAG AGACATACAA GAAAGGCTAC TTCAAACTCC ACCTGGATAT GAACTTGGTG 
GTCGACGGCG TAACCTGTCT CAGTCCTGTT ACATACTCGT TGGAGAACTT TAAGAATCTA 
TATGGAAAAC CTACCAATGT CTTGAACAAT GTTTATGTGA AATTTGTTAC GAAACGAATT 
GACGACTTTT ACGATTATTT CCGTCAGCCG TGGGCGCAGT TCCTATACAT AGACCATGTT 
GATGAGCTGT TCGCGATGGT GAAAGAACTT AATCCAAAAA AAACAAAAGA CGCCGATCCA 
AATGACAATC TGAACATCAT AGGAGAACCA AAGGAGCCAA TATTGCCACG TCCTCAGATC 
GCATCAGCAA AAAGTCGTAT ATTCGACAAA ATCCGACCAG ACTATCAGCA CTCAGCCAAC 
ATCGACGCCA TTATAGATTA CGTATTCGAA TGGATAGATC AACACGATAT CTTGCTGCCC 
ATGTATTTGC ATCCGTCGAG ACGACAGCTT TTCATGGGGG ACATTTATTC CCATCCGGCG 
TTCTATAAGA AGAGGACTAG TGTAACAAAG TTGATGGAAA TGATATTGTA CTGA

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

RefSeq	XP_013196697.1
CDS	1..4194
Translation	MSIFFDFDVGPTGRRFRRAVEEDKYDIEKFCDRTLTEPLFGDANIGALIELSTLAICMINADKEVAGFMAFNDHPVQVAIEASDWEMWVRNMFHRFYLSRNTFFIHFMCCADGVIDYFVHEALTSVFVNDAYLKNILLLVTKGCPKESYAKYNVFRNNITYKFNAKCITDDNLGIFMFAAQSQDFCPQLKLRRAVEEDNDEIVEILDKKCRKLKELYGDYYIAELVGHHPDTKRRIIVAEQKDRSVAGVMCLNSEINYEKLQKNYDLKPFYGLTKTTPLERENMKRSNKLLSTFGEPVMCGKWSPFSRMVKLKTVPQDIRQKKKEVKPKSSRVNFVRAMNRASVDDRKSSDASSKFAIASTISVQSQMTAASIMAMLDEEPLDYEIVNIDEGLLVIPEEFPLDEVNESEVKNTSLAETSSKNEKSPENKTEAISKKQFQNREKKKGILAKGGVTVKRAPFPVLYYGQPNAFMIELFGLRDGLIYRHAFDLLEAAFEVMKDYDYCIIEIPLEEPAFSLLQHFCYVPTRGDVCTDTALYVAHRNAIFGKIRVREAEMADMPQISQVMHDVEGKDTIWTVENTLMKGKENRVFVMMCGHRVVGFGIVEPPEQIDFIRTKFLLETYHIHKYHTNKEVECGFATLKTAMVYRVFEQHYRFFARDMMRLSGSNTLLWLTGYRNKWMAYKANILASLMIPLMPRKNEIDYLETTELKRIAALSKNIIGFTTWFLSKKYCSIPMLNVNARIVVVGASRTALAFIDKLLFSESCAYLSFNNVYLISPSAIPHMPKRCSSTDHMFNKYSTSSDKYIRSVPYTYYVNTVRGTLVGIDKQHKFVTVSNGGRIYYDYLCLMFGKQYQPPDYFEKVLENERRQIHGEPCKYKRLDVPNLTEEVRMTSEYLPENVFVVNSYVESSRAINYVFRFTLANDNYTNYDYKIIVYGATIHAYCCLTALIEINVPTENIIFVEPFPPEDERETRVSIFCNQYVDQTIQEVLTNLNITVYRSYYFLDWTVDGNNLVSHVQFLSHFKRISLQCSAFFYYGKKGINPQAFVAINKSGIAYNDGILIDHEFRTKNPSVYAAGPATRYYGKYFADDRQHKYYDSYEIGAKLGEIIRNKLDPLFKPKEHKKSCAKSDYDCSGSSSKSSSESTEIPLEEDTSIGDIPSLKKPVVTCCMLPGGLQFLDVRSPGKKCPHYYVHSLHYNGYVLETYKKGYFKLHLDMNLVVDGVTCLSPVTYSLENFKNLYGKPTNVLNNVYVKFVTKRIDDFYDYFRQPWAQFLYIDHVDELFAMVKELNPKKTKDADPNDNLNIIGEPKEPILPRPQIASAKSRIFDKIRPDYQHSANIDAIIDYVFEWIDQHDILLPMYLHPSRRQLFMGDIYSHPAFYKKRTSVTKLMEMILY

Target ORF information:

RefSeq Version	XM_013341243.1
Organism	Amyelois transitella
Definition	Amyelois transitella cilia- and flagella-associated protein 61-like (LOC106139747), mRNA.

Target ORF information:

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

XM_013341243.1

ORF Insert Sequence:

ATGTCTATAT TCTTCGATTT CGACGTAGGG CCGACTGGTA GAAGATTTCG AAGGGCGGTG 
GAAGAAGACA AATATGATAT TGAGAAGTTT TGTGATCGGA CGCTAACGGA ACCACTTTTT 
GGAGATGCTA ACATTGGCGC TTTGATTGAA CTATCCACAC TAGCCATCTG CATGATCAAC 
GCGGATAAGG AAGTAGCTGG GTTCATGGCG TTCAACGACC ATCCCGTCCA GGTGGCCATA 
GAGGCGTCTG ATTGGGAAAT GTGGGTTAGG AACATGTTCC ATCGTTTCTA CCTATCCCGG 
AATACCTTCT TCATCCACTT CATGTGCTGT GCGGATGGAG TCATAGATTA CTTCGTGCAT 
GAAGCCCTGA CCTCCGTCTT CGTCAATGAC GCTTATCTGA AGAATATTTT GCTACTTGTG 
ACCAAGGGCT GTCCGAAAGA GTCCTACGCC AAATACAACG TGTTCAGAAA CAACATCACG 
TACAAATTTA ACGCTAAATG CATTACTGAC GACAATCTAG GAATCTTTAT GTTCGCGGCG 
CAGAGTCAAG ACTTTTGCCC CCAACTTAAA CTGCGAAGGG CTGTTGAGGA AGACAATGAC 
GAAATAGTGG AAATTCTAGA CAAGAAATGC AGAAAATTGA AAGAGCTTTA TGGCGACTAT 
TATATTGCTG AGTTGGTTGG CCATCACCCA GATACTAAAA GACGAATCAT AGTTGCCGAG 
CAAAAAGACA GATCTGTAGC GGGTGTGATG TGCCTCAACT CTGAAATTAA CTATGAGAAA 
CTACAGAAGA ATTATGACCT CAAACCTTTT TATGGTCTGA CGAAGACCAC GCCACTAGAA 
CGAGAGAATA TGAAAAGAAG TAACAAACTG CTTAGCACAT TTGGAGAACC AGTCATGTGC 
GGAAAATGGA GCCCATTTAG TCGCATGGTC AAATTGAAAA CTGTTCCACA AGACATAAGA 
CAAAAGAAAA AAGAAGTTAA ACCTAAAAGT AGTCGTGTTA ACTTCGTTCG AGCGATGAAC 
CGTGCTAGCG TAGACGATCG AAAGTCCTCA GACGCCAGTT CCAAATTCGC CATAGCGTCG 
ACTATATCCG TTCAGTCCCA AATGACAGCC GCGTCTATAA TGGCCATGTT GGACGAAGAG 
CCACTCGACT ATGAAATCGT CAATATCGAT GAAGGATTAC TTGTAATTCC TGAAGAATTT 
CCGTTAGATG AAGTGAATGA GTCTGAAGTA AAAAACACGT CACTGGCTGA GACATCTTCA 
AAAAATGAGA AAAGTCCCGA AAATAAAACT GAAGCGATAT CAAAGAAACA ATTTCAAAAT 
CGAGAAAAGA AAAAAGGTAT ATTAGCCAAA GGTGGGGTGA CCGTCAAGCG AGCTCCTTTT 
CCAGTCTTGT ATTACGGACA ACCCAACGCT TTTATGATAG AGTTGTTTGG ACTCAGAGAC 
GGCCTTATTT ATAGGCATGC TTTTGACTTA TTGGAAGCCG CCTTCGAAGT GATGAAGGAT 
TACGACTATT GTATCATCGA GATACCTTTA GAAGAGCCGG CATTTTCTTT GTTGCAACAT 
TTTTGTTACG TGCCGACAAG GGGTGATGTT TGTACTGATA CAGCTTTGTA TGTGGCACAT 
AGAAATGCAA TTTTTGGAAA AATCCGAGTA CGCGAGGCGG AAATGGCGGA CATGCCACAG 
ATATCTCAAG TGATGCACGA CGTGGAGGGC AAAGACACGA TCTGGACCGT TGAGAACACG 
CTGATGAAAG GCAAGGAGAA CCGCGTGTTC GTCATGATGT GCGGCCACAG GGTCGTGGGC 
TTTGGGATCG TTGAGCCTCC AGAACAAATC GACTTCATCC GAACGAAGTT CCTTCTAGAG 
ACTTACCACA TTCACAAGTA CCACACCAAC AAAGAAGTGG AATGTGGCTT CGCAACTCTG 
AAGACTGCGA TGGTGTACCG CGTGTTTGAG CAGCATTACA GGTTCTTTGC CAGGGATATG 
ATGAGGCTGT CTGGAAGTAA CACCCTGCTT TGGTTGACTG GGTATAGGAA CAAATGGATG 
GCATACAAGG CAAACATCTT GGCATCACTC ATGATACCGC TAATGCCAAG GAAAAATGAG 
ATTGATTACT TAGAAACAAC AGAACTGAAG AGGATTGCTG CGTTGAGCAA GAATATAATT 
GGTTTCACGA CGTGGTTTCT AAGCAAAAAG TATTGTAGCA TTCCTATGCT AAACGTGAAC 
GCAAGAATAG TCGTGGTAGG CGCCTCTAGA ACTGCACTGG CTTTTATAGA TAAATTGTTG 
TTCAGTGAAT CCTGCGCATA CTTGTCATTC AACAATGTGT ATCTAATATC CCCGTCGGCC 
ATACCCCACA TGCCGAAAAG GTGTAGTTCT ACAGATCACA TGTTTAATAA ATACAGCACC 
AGCTCAGATA AATATATAAG AAGTGTGCCT TACACTTATT ATGTGAATAC CGTCCGTGGC 
ACTCTTGTGG GAATTGACAA GCAACACAAA TTTGTAACTG TATCTAACGG TGGCAGGATA 
TACTATGACT ATCTCTGTCT TATGTTCGGA AAGCAGTACC AGCCGCCTGA TTATTTCGAA 
AAGGTTTTGG AAAACGAACG CCGACAAATT CATGGTGAAC CTTGCAAATA CAAACGCTTA 
GACGTCCCGA ACTTAACCGA AGAGGTTCGG ATGACTTCGG AATACCTACC GGAGAATGTG 
TTTGTGGTGA ACTCTTACGT GGAATCTTCT AGAGCCATCA ACTATGTCTT TAGGTTCACT 
TTGGCCAATG ATAATTATAC GAACTACGAT TACAAAATTA TAGTATACGG AGCGACTATA 
CACGCATATT GCTGTCTAAC TGCGCTTATA GAAATCAATG TTCCTACTGA AAATATTATA 
TTTGTGGAGC CCTTCCCGCC AGAAGACGAA CGGGAGACCA GGGTATCAAT ATTCTGTAAC 
CAATATGTAG ACCAAACAAT TCAAGAGGTA CTTACCAATC TTAACATCAC AGTATACCGT 
TCATACTATT TCTTGGACTG GACTGTGGAT GGAAACAACT TGGTCAGTCA TGTGCAGTTC 
CTCTCGCATT TCAAGAGGAT CAGCCTCCAA TGTTCTGCGT TCTTCTATTA TGGAAAGAAG 
GGCATCAATC CTCAAGCGTT TGTAGCTATC AACAAAAGTG GTATTGCGTA CAATGATGGG 
ATTCTAATCG ACCACGAGTT TCGTACTAAG AACCCTAGCG TGTACGCCGC CGGCCCGGCC 
ACCAGGTACT ATGGGAAGTA CTTCGCTGAT GACAGACAAC ACAAGTATTA TGATTCTTAC 
GAGATCGGTG CTAAGCTTGG CGAAATAATA AGAAACAAAC TTGATCCATT ATTCAAGCCA 
AAAGAGCATA AGAAGAGTTG TGCAAAATCT GATTATGATT GTAGCGGTTC AAGTTCAAAG 
AGTTCTAGTG AATCCACAGA AATACCATTG GAAGAAGATA CATCCATTGG AGACATACCC 
TCGCTGAAGA AGCCTGTGGT GACCTGCTGC ATGCTCCCTG GCGGTCTGCA GTTCCTGGAC 
GTGCGGTCTC CGGGCAAAAA GTGCCCGCAC TATTACGTAC ATTCTCTGCA TTACAACGGA 
TACGTATTAG AGACATACAA GAAAGGCTAC TTCAAACTCC ACCTGGATAT GAACTTGGTG 
GTCGACGGCG TAACCTGTCT CAGTCCTGTT ACATACTCGT TGGAGAACTT TAAGAATCTA 
TATGGAAAAC CTACCAATGT CTTGAACAAT GTTTATGTGA AATTTGTTAC GAAACGAATT 
GACGACTTTT ACGATTATTT CCGTCAGCCG TGGGCGCAGT TCCTATACAT AGACCATGTT 
GATGAGCTGT TCGCGATGGT GAAAGAACTT AATCCAAAAA AAACAAAAGA CGCCGATCCA 
AATGACAATC TGAACATCAT AGGAGAACCA AAGGAGCCAA TATTGCCACG TCCTCAGATC 
GCATCAGCAA AAAGTCGTAT ATTCGACAAA ATCCGACCAG ACTATCAGCA CTCAGCCAAC 
ATCGACGCCA TTATAGATTA CGTATTCGAA TGGATAGATC AACACGATAT CTTGCTGCCC 
ATGTATTTGC ATCCGTCGAG ACGACAGCTT TTCATGGGGG ACATTTATTC CCATCCGGCG 
TTCTATAAGA AGAGGACTAG TGTAACAAAG TTGATGGAAA TGATATTGTA CTGA