ULK1 cDNA ORF clone, Pteropus alecto(black flying fox)

Gene
Clones
gRNAs

Summary

Gene Symbol	ULK1
Entrez Gene ID	102893241
Full Name	unc-51 like autophagy activating kinase 1
Gene Type	protein-coding
Organism	Pteropus alecto(black flying fox)

mRNA and Protein(s)

mRNA	Protein	Name
XM_015587884.1	XP_015443370.1	serine/threonine-protein kinase ULK1
XM_025045492.1	XP_024901260.1	serine/threonine-protein kinase ULK1

Pathways from BioSystems
Gene Ontology

The following ULK1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ULK1 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
OPt12240	XM_015587884.1 Latest version!	Pteropus alecto unc-51 like autophagy activating kinase 1 (ULK1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$713.30 $1019.00

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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)

ULK1 ( XM_015587884.1 ) cDNA ORF clone, Pteropus alecto(black flying fox) -> XP_015443370.1 Pteropus alecto unc-51 like autophagy activating kinase 1 (ULK1), mRNA.

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CloneID	OPt12240
Clone ID Related Accession (Same CDS sequence)	XM_015587884.1
Accession Version	XM_015587884.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3867bp) 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	2016-02-09
Organism	Pteropus alecto(black flying fox)
Product	serine/threonine-protein kinase ULK1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006434829.1) 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 :: Pteropus alecto Annotation Release 101 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 :: 19% of CDS bases ##RefSeq-Attributes-END##

ATGCGTGAGG AGCACCGACG TGCCGCGTGC CGCAGGAAGA CCACGTGTTC TCCGCGGGGT 
GGAGGGAAGG CGACCGGACC TTACGGGCAA GAAGGGATTC GGTTACGAGC GGCTCATGTG 
GACTACGCTG GCGCCGGCGC CTACGACTTC CGGCACTCCA AGGGCGTGGG AACCTGGATG 
CCCAGAAACA GTGGACGGTG CTGGCTGAAG GCAAGAGGCC CCGCCGTTGC AGTGACGGTG 
AGGGGCTCCC TCGAAGGCGG TCAGAAGGCC TTCCGAGGGC ATGAGTTTGG AGCGGAAACC 
GGCGTGTCCG TGCAAAGGCC CTGTGGCTGG GACGGCTGGA GCTCGGCGGG GTGCCAGGCC 
GTGGGGAGAA GCCGGGGCTG CCTGGAGGAG CTCAGCCGAT ACCGGAGGTG GCAACACCAC 
CCAGGGGCGC AGGGGTGCCC CAGGCTCCAG GCTCTGGTGG CTCGGGCCGG GGGCGGCGAG 
CAGATGGAAC TGGGGGCGGC GGTGCGAAGC AGATCGTGGT GGGGAGAAGA CGAGAGTGTC 
ATGGCCGTCG GGAGACGCAC CTGGCACCTG GCTGCCACTC GAGACAGCCG GGCTGGAGGG 
AGAACAGGCC CCCACCCCAG GCCACCAGCC ATTGGATCAG CGGCTTCCAG CTGCGGGAGA 
ATGGATCTCT TTAGTGGGAT CTACAGCGGG GGCCTGCGCG TCCTGCTCTT CCGCTTCGCC 
CAGAGTTCTG AGTTTGTCCA CGTGGGCCTG GAGACCGTGG GCAAGTTCGA GTTCTCGCGC 
AAGGACCTGA TCGGGCACGG CGCCTTCGCC GTGGTCTTCA AGGGGCGCCA CCGGGAGAAG 
CACGACCTGG AGGTCGCGGT CAAGTGCATT AACAAGAAGA ACCTCGCCAA GTCCCAGACG 
CTGCTGGGGA AGGAAATCAA GATCCTCAAG GAACTGAAAC ATGAGAACAT CGTGGCTCTG 
TACGACTTCC AGGAGATGGC AAATTCCGTC TACCTGGTCA TGGAGTACTG TAACGGCGGG 
GACCTGGCTG ACTACCTGCA CACCATGCGG ACGCTGAGCG AGGACACCAT CCGGCTCTTC 
CTGCAGCAGA TCGCGGGCGC CATGCGGCTA CTGCACAGCA AGGGCATCAT CCACCGCGAC 
CTCAAGCCCC AGAACATCCT GCTGTCCAAC CCCAGCGGGC GCCGCACCAA CCCCAACAAC 
ATCCGCGTCA AGATCGCCGA CTTCGGCTTT GCCCGGTACC TCCAGAGCAA CATGATGGCG 
GCCACGCTCT GCGGCTCCCC CATGTATATG GCCCCTGAAG TGATCATGTC GCAGCACTAT 
GACGGGAAGG CCGACCTGTG GAGCATCGGC ACCATCGTGT ACCAGTGCCT GACGGGGAAG 
GCTCCCTTCC AGGCCAGCAG CCCCCAGGAC CTCCGCCTCT TCTACGAGAA GAACAAGACC 
CTGGTGCCCA CCATCCCCCG GGAGACATCC GCTGCGCTGC GACAGCTGCT CCTGGCCCTG 
CTGCAGCGCA ACCACAGCGA CCGCATGGAC TTCGATGAGT TTTTCCAACA CCCCTTCCTC 
GATGCCAGCG GCTCCGTGAA GAAGTCCCCG CCCGTGCCCG TGCCCTCACG CCCCAGCTCG 
GGCTCCGGCA GCAGCTCCAG CAGCAGCCCC ACCTCGCACC TGGCCTCGCC ACCGTCGCTG 
GGCGAGATGC AGCAGCAGCT GCAGAAGACG CTGACCTCCC CGGCCGAAGC CGCCGGCTTC 
CTGCAGGGCT CCCGCGACTC AGGTGGCAGC AGCAAGGACT CGTCCTGTGA CACCGACGAC 
TTCGTCATGG TCCCAGCCCA GTTTCCAGGG GACCTGGTGG CCGAAGCAGC CGGTGGCAAG 
CCCCCGCCGG ACAGCCTGAT GTGCAGTGGG AGCTCGCTAG TGGCCTCGGC TGGCCTGGAG 
AGCCACGGCC GGACACCGTC TCCGTCCCCA CCCTGTAGCA GCTCCCCCAG CCCCTCTGGG 
CGGGCCGGCC CGTTCTCCAG CAGCAGGTGC GGTGCGTCCG TGCCCATCCC AGTGCCCACG 
CAGGTGCGGA ACTACCAGCG CATCGAGCAG AACCTGCAGT CGCCCACCCT GTACCAGACC 
CCACGGTCCT CCGCCATCCG CAGGTCAGAC AGCACCAGCC CCCTGGGCTT CGCACGGGCC 
AGTCCGTCGC CCCCGTCCCA TGCCGAGCCT GGAGCCACGC TGGCCCGGAA ACTGTCCCTG 
GGTGGAGGCC GGCCCTACAC ACCGTTTCCA CAAGTTGGAA CTATCCCCGA GCGGCTTGGC 
TGGAGCGGGG TGCCCTCCCC CCAAGGCGCT GAGATGCGGG CTGGCAGGTC CCCTCGTCCA 
GGCTCCTCTG TGCCTGAGCA CTCTCCCCAC ACCACGGGGC TGGGCTGCCG CCTGCACAGT 
GCCCCCAACC TGTCTGACCT GCACGTCATC CGCCCCAAGC TGCCCAAGCC TCCGACAGAC 
CCACTGGGGG CTGCGTTCAG CCACCCGCAG GCCAGCCCCC CACCGCCGCC CCACGGGCTG 
CAGTCTTGCC GGCCCCTGCG TGGTTCGCCC AAGCTGCCCG ACTTTCTGCA GCGGAACCCC 
CTCCCCCCGA TCCTGGGCTC CCCCACCAAG GCCACGCCTG CGTTTGACTT TCCCAAGACC 
CCCAGCTCCC AGAGCTTGCT GAGCCTCCTG GCCCGGCAGG GCGTGGTCAT GACACCCCCT 
CGGAACCGGA CGTTGCCTGA CCTCTCAGAG GCAGGTCCTT TCCCGGGCCT GGGCCCTGGC 
CTGCGCCCCA CAGAGGACAC CAAGGGCCCC TTTGGCAGGT CCCTCAGCAC CGGCCGCCTC 
ACCGACCTGC TCCTTAAGGC CGCCTTTGGG ACACAGGCCC CTGATTCAAG CAGCATGGAC 
AGCCTGCATG AGAAGCCCAT GGAAGTCGGG AACCTGCAGC CAGGAGCCCG GGCTGGGGGC 
GCCAGCAGCC CCGCCCCTGT GGTGTTCACC GTGGGCTCGC CCCCCAGCGG GGCCACGCCA 
CCCCAGGGGC CCCGCACCAG GATGTTCTCA GTGGGCTCCT CCAGCTCACT CAGCTCGGCC 
GGCTCTGCCT CCGCCCGCCA CCTGGTGCCT GGGGCGGGCA GCGAGGCCGC CCCCGAGGTC 
CTGGCCCCTG GGCACTGCTG CAGCTTTGCG GACCCCGTCA CCGCCAACCT GGAGGGGGCT 
GTGACCTTCG AGGCCCCTGA CCTCCCGGAG GAGACTCTCA TGGAGCAAGA GCACACGGAG 
ATCCTGCACG GCTTGCGCTT CACACTCGCC TTCGTCCAGC ACGTCCTGGA GATCGCAGCC 
CTGAAGGGCA GCGCCAGCGA GGCGGCCGGG GGCCCGGAGT ACCCGCTGCA GGAGAGCGTG 
GTGGCGGACC AGATCAGCCT GCTGAGCCGC GAGTGGGGCT TCGCAGAGCA GCTGGTGCTT 
TACCTGAAGG TGGCCGAGCT GCTGTCCTCA GGCCTGCAGA CCGCCATTGA CCAGATCCGG 
GCCGGCAAGC TCTGCCTGTC GTCCACTGTG AAGCAGGTGG TGCGGAAGCT GAACGAGCTG 
TACAAGGCCA GCGTGCTGTC CTGCCAAGGC CTGAGCCTGC GGCTGCAGCG CTTCCTCCTG 
GACAAGCAGC GGCTCCTGGA CCGCATCCAG AGTGTCACTG CGGAGAAGCT CATCTTCAGC 
CACGCCGTGC ACACGGTGCA GTCGGCCGCC CTGGACGAGA TGTTCCACCG GCGGGAGGAC 
TGCGTCCAGC GCTACCACAA GGCCCTGCTG CTCATGGAGG GGCTGCAGCG GCTGCTGGCG 
GACCAGGCCG ACGTGGAGAA CGTTGCCAAG TGCAAACTGT GCATCGAGCG GAGACTCTCA 
GCCCTGCTGA CCGGCTCCTG CGCCTGA

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

RefSeq	XP_015443370.1
CDS	1..3867
Translation	MREEHRRAACRRKTTCSPRGGGKATGPYGQEGIRLRAAHVDYAGAGAYDFRHSKGVGTWMPRNSGRCWLKARGPAVAVTVRGSLEGGQKAFRGHEFGAETGVSVQRPCGWDGWSSAGCQAVGRSRGCLEELSRYRRWQHHPGAQGCPRLQALVARAGGGEQMELGAAVRSRSWWGEDESVMAVGRRTWHLAATRDSRAGGRTGPHPRPPAIGSAASSCGRMDLFSGIYSGGLRVLLFRFAQSSEFVHVGLETVGKFEFSRKDLIGHGAFAVVFKGRHREKHDLEVAVKCINKKNLAKSQTLLGKEIKILKELKHENIVALYDFQEMANSVYLVMEYCNGGDLADYLHTMRTLSEDTIRLFLQQIAGAMRLLHSKGIIHRDLKPQNILLSNPSGRRTNPNNIRVKIADFGFARYLQSNMMAATLCGSPMYMAPEVIMSQHYDGKADLWSIGTIVYQCLTGKAPFQASSPQDLRLFYEKNKTLVPTIPRETSAALRQLLLALLQRNHSDRMDFDEFFQHPFLDASGSVKKSPPVPVPSRPSSGSGSSSSSSPTSHLASPPSLGEMQQQLQKTLTSPAEAAGFLQGSRDSGGSSKDSSCDTDDFVMVPAQFPGDLVAEAAGGKPPPDSLMCSGSSLVASAGLESHGRTPSPSPPCSSSPSPSGRAGPFSSSRCGASVPIPVPTQVRNYQRIEQNLQSPTLYQTPRSSAIRRSDSTSPLGFARASPSPPSHAEPGATLARKLSLGGGRPYTPFPQVGTIPERLGWSGVPSPQGAEMRAGRSPRPGSSVPEHSPHTTGLGCRLHSAPNLSDLHVIRPKLPKPPTDPLGAAFSHPQASPPPPPHGLQSCRPLRGSPKLPDFLQRNPLPPILGSPTKATPAFDFPKTPSSQSLLSLLARQGVVMTPPRNRTLPDLSEAGPFPGLGPGLRPTEDTKGPFGRSLSTGRLTDLLLKAAFGTQAPDSSSMDSLHEKPMEVGNLQPGARAGGASSPAPVVFTVGSPPSGATPPQGPRTRMFSVGSSSSLSSAGSASARHLVPGAGSEAAPEVLAPGHCCSFADPVTANLEGAVTFEAPDLPEETLMEQEHTEILHGLRFTLAFVQHVLEIAALKGSASEAAGGPEYPLQESVVADQISLLSREWGFAEQLVLYLKVAELLSSGLQTAIDQIRAGKLCLSSTVKQVVRKLNELYKASVLSCQGLSLRLQRFLLDKQRLLDRIQSVTAEKLIFSHAVHTVQSAALDEMFHRREDCVQRYHKALLLMEGLQRLLADQADVENVAKCKLCIERRLSALLTGSCA

Target ORF information:

RefSeq Version	XM_015587884.1
Organism	Pteropus alecto(black flying fox)
Definition	Pteropus alecto unc-51 like autophagy activating kinase 1 (ULK1), mRNA.

Target ORF information:

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

XM_015587884.1

ORF Insert Sequence:

ATGCGTGAGG AGCACCGACG TGCCGCGTGC CGCAGGAAGA CCACGTGTTC TCCGCGGGGT 
GGAGGGAAGG CGACCGGACC TTACGGGCAA GAAGGGATTC GGTTACGAGC GGCTCATGTG 
GACTACGCTG GCGCCGGCGC CTACGACTTC CGGCACTCCA AGGGCGTGGG AACCTGGATG 
CCCAGAAACA GTGGACGGTG CTGGCTGAAG GCAAGAGGCC CCGCCGTTGC AGTGACGGTG 
AGGGGCTCCC TCGAAGGCGG TCAGAAGGCC TTCCGAGGGC ATGAGTTTGG AGCGGAAACC 
GGCGTGTCCG TGCAAAGGCC CTGTGGCTGG GACGGCTGGA GCTCGGCGGG GTGCCAGGCC 
GTGGGGAGAA GCCGGGGCTG CCTGGAGGAG CTCAGCCGAT ACCGGAGGTG GCAACACCAC 
CCAGGGGCGC AGGGGTGCCC CAGGCTCCAG GCTCTGGTGG CTCGGGCCGG GGGCGGCGAG 
CAGATGGAAC TGGGGGCGGC GGTGCGAAGC AGATCGTGGT GGGGAGAAGA CGAGAGTGTC 
ATGGCCGTCG GGAGACGCAC CTGGCACCTG GCTGCCACTC GAGACAGCCG GGCTGGAGGG 
AGAACAGGCC CCCACCCCAG GCCACCAGCC ATTGGATCAG CGGCTTCCAG CTGCGGGAGA 
ATGGATCTCT TTAGTGGGAT CTACAGCGGG GGCCTGCGCG TCCTGCTCTT CCGCTTCGCC 
CAGAGTTCTG AGTTTGTCCA CGTGGGCCTG GAGACCGTGG GCAAGTTCGA GTTCTCGCGC 
AAGGACCTGA TCGGGCACGG CGCCTTCGCC GTGGTCTTCA AGGGGCGCCA CCGGGAGAAG 
CACGACCTGG AGGTCGCGGT CAAGTGCATT AACAAGAAGA ACCTCGCCAA GTCCCAGACG 
CTGCTGGGGA AGGAAATCAA GATCCTCAAG GAACTGAAAC ATGAGAACAT CGTGGCTCTG 
TACGACTTCC AGGAGATGGC AAATTCCGTC TACCTGGTCA TGGAGTACTG TAACGGCGGG 
GACCTGGCTG ACTACCTGCA CACCATGCGG ACGCTGAGCG AGGACACCAT CCGGCTCTTC 
CTGCAGCAGA TCGCGGGCGC CATGCGGCTA CTGCACAGCA AGGGCATCAT CCACCGCGAC 
CTCAAGCCCC AGAACATCCT GCTGTCCAAC CCCAGCGGGC GCCGCACCAA CCCCAACAAC 
ATCCGCGTCA AGATCGCCGA CTTCGGCTTT GCCCGGTACC TCCAGAGCAA CATGATGGCG 
GCCACGCTCT GCGGCTCCCC CATGTATATG GCCCCTGAAG TGATCATGTC GCAGCACTAT 
GACGGGAAGG CCGACCTGTG GAGCATCGGC ACCATCGTGT ACCAGTGCCT GACGGGGAAG 
GCTCCCTTCC AGGCCAGCAG CCCCCAGGAC CTCCGCCTCT TCTACGAGAA GAACAAGACC 
CTGGTGCCCA CCATCCCCCG GGAGACATCC GCTGCGCTGC GACAGCTGCT CCTGGCCCTG 
CTGCAGCGCA ACCACAGCGA CCGCATGGAC TTCGATGAGT TTTTCCAACA CCCCTTCCTC 
GATGCCAGCG GCTCCGTGAA GAAGTCCCCG CCCGTGCCCG TGCCCTCACG CCCCAGCTCG 
GGCTCCGGCA GCAGCTCCAG CAGCAGCCCC ACCTCGCACC TGGCCTCGCC ACCGTCGCTG 
GGCGAGATGC AGCAGCAGCT GCAGAAGACG CTGACCTCCC CGGCCGAAGC CGCCGGCTTC 
CTGCAGGGCT CCCGCGACTC AGGTGGCAGC AGCAAGGACT CGTCCTGTGA CACCGACGAC 
TTCGTCATGG TCCCAGCCCA GTTTCCAGGG GACCTGGTGG CCGAAGCAGC CGGTGGCAAG 
CCCCCGCCGG ACAGCCTGAT GTGCAGTGGG AGCTCGCTAG TGGCCTCGGC TGGCCTGGAG 
AGCCACGGCC GGACACCGTC TCCGTCCCCA CCCTGTAGCA GCTCCCCCAG CCCCTCTGGG 
CGGGCCGGCC CGTTCTCCAG CAGCAGGTGC GGTGCGTCCG TGCCCATCCC AGTGCCCACG 
CAGGTGCGGA ACTACCAGCG CATCGAGCAG AACCTGCAGT CGCCCACCCT GTACCAGACC 
CCACGGTCCT CCGCCATCCG CAGGTCAGAC AGCACCAGCC CCCTGGGCTT CGCACGGGCC 
AGTCCGTCGC CCCCGTCCCA TGCCGAGCCT GGAGCCACGC TGGCCCGGAA ACTGTCCCTG 
GGTGGAGGCC GGCCCTACAC ACCGTTTCCA CAAGTTGGAA CTATCCCCGA GCGGCTTGGC 
TGGAGCGGGG TGCCCTCCCC CCAAGGCGCT GAGATGCGGG CTGGCAGGTC CCCTCGTCCA 
GGCTCCTCTG TGCCTGAGCA CTCTCCCCAC ACCACGGGGC TGGGCTGCCG CCTGCACAGT 
GCCCCCAACC TGTCTGACCT GCACGTCATC CGCCCCAAGC TGCCCAAGCC TCCGACAGAC 
CCACTGGGGG CTGCGTTCAG CCACCCGCAG GCCAGCCCCC CACCGCCGCC CCACGGGCTG 
CAGTCTTGCC GGCCCCTGCG TGGTTCGCCC AAGCTGCCCG ACTTTCTGCA GCGGAACCCC 
CTCCCCCCGA TCCTGGGCTC CCCCACCAAG GCCACGCCTG CGTTTGACTT TCCCAAGACC 
CCCAGCTCCC AGAGCTTGCT GAGCCTCCTG GCCCGGCAGG GCGTGGTCAT GACACCCCCT 
CGGAACCGGA CGTTGCCTGA CCTCTCAGAG GCAGGTCCTT TCCCGGGCCT GGGCCCTGGC 
CTGCGCCCCA CAGAGGACAC CAAGGGCCCC TTTGGCAGGT CCCTCAGCAC CGGCCGCCTC 
ACCGACCTGC TCCTTAAGGC CGCCTTTGGG ACACAGGCCC CTGATTCAAG CAGCATGGAC 
AGCCTGCATG AGAAGCCCAT GGAAGTCGGG AACCTGCAGC CAGGAGCCCG GGCTGGGGGC 
GCCAGCAGCC CCGCCCCTGT GGTGTTCACC GTGGGCTCGC CCCCCAGCGG GGCCACGCCA 
CCCCAGGGGC CCCGCACCAG GATGTTCTCA GTGGGCTCCT CCAGCTCACT CAGCTCGGCC 
GGCTCTGCCT CCGCCCGCCA CCTGGTGCCT GGGGCGGGCA GCGAGGCCGC CCCCGAGGTC 
CTGGCCCCTG GGCACTGCTG CAGCTTTGCG GACCCCGTCA CCGCCAACCT GGAGGGGGCT 
GTGACCTTCG AGGCCCCTGA CCTCCCGGAG GAGACTCTCA TGGAGCAAGA GCACACGGAG 
ATCCTGCACG GCTTGCGCTT CACACTCGCC TTCGTCCAGC ACGTCCTGGA GATCGCAGCC 
CTGAAGGGCA GCGCCAGCGA GGCGGCCGGG GGCCCGGAGT ACCCGCTGCA GGAGAGCGTG 
GTGGCGGACC AGATCAGCCT GCTGAGCCGC GAGTGGGGCT TCGCAGAGCA GCTGGTGCTT 
TACCTGAAGG TGGCCGAGCT GCTGTCCTCA GGCCTGCAGA CCGCCATTGA CCAGATCCGG 
GCCGGCAAGC TCTGCCTGTC GTCCACTGTG AAGCAGGTGG TGCGGAAGCT GAACGAGCTG 
TACAAGGCCA GCGTGCTGTC CTGCCAAGGC CTGAGCCTGC GGCTGCAGCG CTTCCTCCTG 
GACAAGCAGC GGCTCCTGGA CCGCATCCAG AGTGTCACTG CGGAGAAGCT CATCTTCAGC 
CACGCCGTGC ACACGGTGCA GTCGGCCGCC CTGGACGAGA TGTTCCACCG GCGGGAGGAC 
TGCGTCCAGC GCTACCACAA GGCCCTGCTG CTCATGGAGG GGCTGCAGCG GCTGCTGGCG 
GACCAGGCCG ACGTGGAGAA CGTTGCCAAG TGCAAACTGT GCATCGAGCG GAGACTCTCA 
GCCCTGCTGA CCGGCTCCTG CGCCTGA