AHNAK2 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene
Clones
gRNAs

Summary

Gene Symbol	AHNAK2
Entrez Gene ID	109491180
Full Name	AHNAK nucleoprotein 2
Gene Type	protein-coding
Organism	Ailuropoda melanoleuca(giant panda)

mRNA and Protein(s)

mRNA	Protein	Name
XM_019809538.1	XP_019665097.1	protein AHNAK2

Pathways from BioSystems
Gene Ontology

The following AHNAK2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the AHNAK2 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
OAc99319	XM_019809538.1 Latest version!	Ailuropoda melanoleuca AHNAK nucleoprotein 2 (AHNAK2), 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)

AHNAK2 ( XM_019809538.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019665097.1 Ailuropoda melanoleuca AHNAK nucleoprotein 2 (AHNAK2), mRNA.

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CloneID	OAc99319
Clone ID Related Accession (Same CDS sequence)	XM_019809538.1
Accession Version	XM_019809538.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4074bp) 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	2016-12-27
Organism	Ailuropoda melanoleuca(giant panda)
Product	protein AHNAK2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218887.1) 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 :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCCCAGCC TCAAGATGCC CAAGGTGGAC ATCAAGGCCC CCCACGTGGA CATCAAGGGG 
CCCGAACTGG ACCTGAAGGG CGCCAAAGGG GAGGTGAGCG CCCCCGACCT GAAGGTGTCC 
CTGCCCAGCG TGGAGGTGGA CACCCAGGTG CCCTGTGCCA AACTGGAGGC TGAGCTGTCC 
CTGGAAGACA AGGAGGTGGC CGCCAGAGAG AGCAAGTTCA AGATGCCCAA GTTCAAGATG 
CCATCATTTG GCACGTCGGC GCCGAGCAAC TCCTTGGAGG CCTCGGTGGA CGCATCCCTG 
CCCAAGGTAC AGGCTGAGGT GTCCGTGCCC TCCATACCGG CCGAGGCCAA GACCAGTGGC 
GTGACCATTG AGCTGCCAAC TGCCGACCTA GAGGTCAAGA CGGCCGCGGT GGGCCTGAAG 
CTCCCTGAAG GCCAAGTGCC CGAGGCGGAG CTCCAGGAGC CCTCAGCCAG CGCCGGACTG 
AAAGGGCAGC TGCCCAAGGC GCAGATGCCC AGCCTCAAGA TGCCCAAGGT GGAGTTCAAG 
GGGCCCCAGG TGGACATCAA GGGGTCCGAT CTGGTTACGT CCCTGCCCAG CGTGGAGGTC 
GACGCCCACG TCCAAGGCTC CCCGCTGGTT GGTGACTCGT GTGAGGAGGT TAAAGAATTT 
TCCAAAGGGA GGATATTCAA AATTTCTAAA ATTAGCGTCT CTTCCTCTGG TCCTTCTGCT 
AGCCATCCTT CTGAGCTGTC CCCTCCGCCT GGTGGAGGTG ATAATGATAT TGATCTTACT 
TCACCCCCAG GCTCCAGACA TCTAATCGTC CCTGGCAGTG AACAGCATGC CCTCCGTATG 
GCCGGTGATG TGGCTTTGTC AACTGGAAAA GGTGGAGAAA AAAGCAAAAG CAAGAAATCC 
CATTTTAAAT TGCCCAAAGT CTTCTCTCCA CCGGGGAAAT CAGCTAAAGG CTTCTTATCT 
TCTGCAGAGG AACCCGACAT CTCCTCACCT GCGAGGGCCT CCACCTCACC GTTAGAGTCA 
GGGCTTGGGC GACCCCAGGG GCCGCCTGTG GCTTCCGTGG AGCCTTCCAT GCATGTGTCC 
AGGCTGGGCT GGCTCAGTGG TCCCCATGTG GAATCCTCCA GCCTCAGTCC CTGCGATGGT 
GTCACACTTA CAAAATACCA AGTGACTGTC TCCAGAGGCC CCGTCCCCCC CGAGCTTCCT 
TGCGGAACCC CGTCTGGGCC CCGGGTCGAT GCTCAGCTTC CCAGCACAGC AGGTGCAGAC 
GACCTGCCCT CCAGTGAGAG CATTCCTCTG TCCCAGCCTG ATGGTCACAC AGGCCCCATG 
GACACTCTAT TTCCCGAATC TTATGGCCGC GTGACTTTTC CTAAATTTCA TCGACCAAAG 
TTCCAGCTGT CACTCCCCAA ATCAGCTGCT GGAGTGATGG AGCCTGGAGC TGCCGAGTGT 
GCGCTCCCCA CGTCTCCTCC GCTCGCTGCG CAGGGACCAG ACCCCTCCGC GGAGGAAGCC 
GCGGTGTTCC CAGTGCTAGA TGGTCAGCTG CCACCTGCAC GTGTCTCTGT GTCCAAGGTG 
GCGGAGGCAC AGGCATGTAC CGCGGGGACG TCAGCAGGGC CTCCCGCAGA AGCCCCAGGT 
GAAGGTGTGG GCCACAAGGG GAAGGGCAGT CCAGTCAAAG CACCGAGGCT CAAGCTTCCG 
TCTTTCAGGT GGTCCCCGAG GAAGGGGGCA GAGTCCAAAG CAGATCCTGG ACACAGCCAG 
GTTGTCGATG CAGGTGCTCT GGGCCCTCCT GGGGGTCACG TTCCACCAGC AGAAGCTGGT 
GGAGATGTGT CTCTTGAGAA CGATGGAGAG GCAGGAGCGG TCACATCGCC AGCCCTCGCC 
CTGCTGAAGG TCACACCTCC CGGAATGACA GCTTCCACAG GAGGGGCCTG CCTGCCACGG 
GGAGACCCAG GCCTGGCCCT CTCTGGCTCT ACAGACATGG CCAGCGGTAA GGGCAGTGTT 
GGGGGTGCTG GCGCAGCAGC GGGCCCCCCA GAAGGAGCGG ATGTGAACCT CTGCCTCCCA 
GAGGCCCCCA TTCCCAGCTC GGGCTTTGTC AAACCTGACC TCAGTCCCGG GGATGTCGTG 
GTGGATGTGA GCCTGTCTGC AGGTGACCTT CCTCTTTCCA AACAAGGCCT GTCTCTCGGA 
GACGGCACCC AAGAGCACGG GCTAGGGGAT GGCTCAACAA GCCAGCTTTG TGGGGAGGTG 
ACGGCGCCCC CGGCAGAGGA CCCCCTCCAG CCATCCCCGA CGGTAGGGAG CCCAGGGCAG 
GATGCACCCG CGGGAGCAGC GCCGGCGGGC TCCAGGGAGA GCTGGTTTCG GATGCCCTCA 
CTCCGCCTGC CCAGCTTCAG ACGCCCCCCC AAGGAGCGGG CGGGGTCTGC AGCGCCCGGG 
GCTCAGAGGC CCCCACTGGC CGCCGGTGTG CCAGGGGAAG GAGAGGCACC GGCGGTGGTG 
CAGAGTCCGG AGGCCCGCGC ACCTGCGTCA GAGGGGGACG CTGCTAGGTC CCTGCAGCCC 
CCGGAGGCTG GTGCAGATGC GGCAGGCAGC CCGGCTTCTT CCTACGCGGA TGTTCTTCAG 
AGGAATCTTG ACCTTCACGT CCCTGCTGTG GGGCTATCGG CTTCCGAGGT CAGGGTCCGG 
CCGGGCGCAG GCTCCCTGCC CCTCCAGCTG CACGGGACAC TTGCAGAGCC CTGCACCCCT 
CCCGGAGAAG CAGGCGAGCC CCCTCTTCCC GGACCAGCAG GCCAGGGCCT GGTCAGGGGG 
CCCGAGGGTG CAGAGGAGCC GCCCTCCCAG CCCGAGGGCC CTCTCAGATT GAGGGCTTCC 
AGTACGGATA TGCCATCCCA GGTTTCCGTG GTCAATGTGG GTCAAGTCTG GGAAGACTCT 
GTGCTACGTG TCCAGTTCCC CAAGTTAAAG GTACCAAGGT TCAGCTTCCC GGCCTCTAGC 
TCGGAGGCTG ACGTCTTCGT GCCCAGCGTG AGAGAGCTGT CCTGCCCGCA AAGCAGTCCT 
GACACAGCCC TGCTCGAACG AAGCCCTGGC GGACGGGGCG CCAGCATCCC GAAGGCCGCC 
GCGGCCCTCG GCCTCTTCTC AGAAGCTGCC CCCATTTGTA AGGTCAGGGT GCACATTCAG 
GGCGCAGAGG CAGCGAGCCG CCAGATGGCC GTGCACAGCA CCTTGACAGC CGTGTATACC 
AAGCACTCAG GGCCCGAGGC GTTTCCCACC CAGATCGTGC GGGAGTCAGA GGTCCCCGTG 
TCAGAGACCC AAACACCTTC TTATGGGTTT TCCTTGCTAA AGGGGAGGGT CTCAGAGCCC 
CCCACTTGGG CACAGGTGCA CGTGGTGACT GCAGACTGTG GGCCAGGGGG GCACCTCCGA 
GAGGCTCCGG AACCGGCCGT CCCAGGAGCC GACCCCGTTT CTGGAGACCC CCAGCCTGAC 
ACCGGCGAGC CTTTTGAAAT TATCGGTCCC AGTGTCGACG TGCCGGGGCT GCCAGCGTGT 
TCACCTGAAC TTGGCTCTCA CCCTGGCCAC GGGCGTGCGG ATAGCTGTTC TGACGAGGAG 
CCCCCGGAAA TTCTCGAATT TCCGCCGGAA GAGGGCCAGG AAGCAGGCGA GGACGGAGCT 
CCCAAAGCAA AACCGGAAGG TCAAAGGTCC TCTAGTCTGT TCCGGTTTTG GCTCCCGAGC 
ATCGGGTTTT CTTCCTCGGT CTCCGAGACA GGCGCCGATT CCCAAGCCGA TCCCCAGAGA 
CCGGCTCCTG TGCAGACCCA GCCGGAGGTG CAGCCGCCTC CCTCGCAAGA GAAGGGGGGC 
TGGTTCCGAT TTCCCAAGTT GGGGTTCTCC TCCTCGCCCG CCAAGAAAAC CAAAAGTGCC 
GAAGAGGAGG CGGGTCAGGC CGAGCAAAAC CTCCAAGACG AGGCAGGTAC CTTCTATGAT 
GCGCGAGAAA GCTTCTCCCC TGAAGAGACG GGAGCAGGGG AGGCAGCAGG GGCCGCCGGC 
TCCAGGCAGG GCTCTGGGAG CATGGTGGCC TCCGCGGCAA GAACCGAGCT GATCCTGCTG 
GAGCCGGATG GAGCGGGCAG CCAGCAGTGT GCGCCTGGGC CCGCCACCGA GTGA

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

RefSeq	XP_019665097.1
CDS	224..4297
Translation	MPSLKMPKVDIKAPHVDIKGPELDLKGAKGEVSAPDLKVSLPSVEVDTQVPCAKLEAELSLEDKEVAARESKFKMPKFKMPSFGTSAPSNSLEASVDASLPKVQAEVSVPSIPAEAKTSGVTIELPTADLEVKTAAVGLKLPEGQVPEAELQEPSASAGLKGQLPKAQMPSLKMPKVEFKGPQVDIKGSDLVTSLPSVEVDAHVQGSPLVGDSCEEVKEFSKGRIFKISKISVSSSGPSASHPSELSPPPGGGDNDIDLTSPPGSRHLIVPGSEQHALRMAGDVALSTGKGGEKSKSKKSHFKLPKVFSPPGKSAKGFLSSAEEPDISSPARASTSPLESGLGRPQGPPVASVEPSMHVSRLGWLSGPHVESSSLSPCDGVTLTKYQVTVSRGPVPPELPCGTPSGPRVDAQLPSTAGADDLPSSESIPLSQPDGHTGPMDTLFPESYGRVTFPKFHRPKFQLSLPKSAAGVMEPGAAECALPTSPPLAAQGPDPSAEEAAVFPVLDGQLPPARVSVSKVAEAQACTAGTSAGPPAEAPGEGVGHKGKGSPVKAPRLKLPSFRWSPRKGAESKADPGHSQVVDAGALGPPGGHVPPAEAGGDVSLENDGEAGAVTSPALALLKVTPPGMTASTGGACLPRGDPGLALSGSTDMASGKGSVGGAGAAAGPPEGADVNLCLPEAPIPSSGFVKPDLSPGDVVVDVSLSAGDLPLSKQGLSLGDGTQEHGLGDGSTSQLCGEVTAPPAEDPLQPSPTVGSPGQDAPAGAAPAGSRESWFRMPSLRLPSFRRPPKERAGSAAPGAQRPPLAAGVPGEGEAPAVVQSPEARAPASEGDAARSLQPPEAGADAAGSPASSYADVLQRNLDLHVPAVGLSASEVRVRPGAGSLPLQLHGTLAEPCTPPGEAGEPPLPGPAGQGLVRGPEGAEEPPSQPEGPLRLRASSTDMPSQVSVVNVGQVWEDSVLRVQFPKLKVPRFSFPASSSEADVFVPSVRELSCPQSSPDTALLERSPGGRGASIPKAAAALGLFSEAAPICKVRVHIQGAEAASRQMAVHSTLTAVYTKHSGPEAFPTQIVRESEVPVSETQTPSYGFSLLKGRVSEPPTWAQVHVVTADCGPGGHLREAPEPAVPGADPVSGDPQPDTGEPFEIIGPSVDVPGLPACSPELGSHPGHGRADSCSDEEPPEILEFPPEEGQEAGEDGAPKAKPEGQRSSSLFRFWLPSIGFSSSVSETGADSQADPQRPAPVQTQPEVQPPPSQEKGGWFRFPKLGFSSSPAKKTKSAEEEAGQAEQNLQDEAGTFYDARESFSPEETGAGEAAGAAGSRQGSGSMVASAARTELILLEPDGAGSQQCAPGPATE

Target ORF information:

RefSeq Version	XM_019809538.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca AHNAK nucleoprotein 2 (AHNAK2), mRNA.

Target ORF information:

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

XM_019809538.1

ORF Insert Sequence:

ATGCCCAGCC TCAAGATGCC CAAGGTGGAC ATCAAGGCCC CCCACGTGGA CATCAAGGGG 
CCCGAACTGG ACCTGAAGGG CGCCAAAGGG GAGGTGAGCG CCCCCGACCT GAAGGTGTCC 
CTGCCCAGCG TGGAGGTGGA CACCCAGGTG CCCTGTGCCA AACTGGAGGC TGAGCTGTCC 
CTGGAAGACA AGGAGGTGGC CGCCAGAGAG AGCAAGTTCA AGATGCCCAA GTTCAAGATG 
CCATCATTTG GCACGTCGGC GCCGAGCAAC TCCTTGGAGG CCTCGGTGGA CGCATCCCTG 
CCCAAGGTAC AGGCTGAGGT GTCCGTGCCC TCCATACCGG CCGAGGCCAA GACCAGTGGC 
GTGACCATTG AGCTGCCAAC TGCCGACCTA GAGGTCAAGA CGGCCGCGGT GGGCCTGAAG 
CTCCCTGAAG GCCAAGTGCC CGAGGCGGAG CTCCAGGAGC CCTCAGCCAG CGCCGGACTG 
AAAGGGCAGC TGCCCAAGGC GCAGATGCCC AGCCTCAAGA TGCCCAAGGT GGAGTTCAAG 
GGGCCCCAGG TGGACATCAA GGGGTCCGAT CTGGTTACGT CCCTGCCCAG CGTGGAGGTC 
GACGCCCACG TCCAAGGCTC CCCGCTGGTT GGTGACTCGT GTGAGGAGGT TAAAGAATTT 
TCCAAAGGGA GGATATTCAA AATTTCTAAA ATTAGCGTCT CTTCCTCTGG TCCTTCTGCT 
AGCCATCCTT CTGAGCTGTC CCCTCCGCCT GGTGGAGGTG ATAATGATAT TGATCTTACT 
TCACCCCCAG GCTCCAGACA TCTAATCGTC CCTGGCAGTG AACAGCATGC CCTCCGTATG 
GCCGGTGATG TGGCTTTGTC AACTGGAAAA GGTGGAGAAA AAAGCAAAAG CAAGAAATCC 
CATTTTAAAT TGCCCAAAGT CTTCTCTCCA CCGGGGAAAT CAGCTAAAGG CTTCTTATCT 
TCTGCAGAGG AACCCGACAT CTCCTCACCT GCGAGGGCCT CCACCTCACC GTTAGAGTCA 
GGGCTTGGGC GACCCCAGGG GCCGCCTGTG GCTTCCGTGG AGCCTTCCAT GCATGTGTCC 
AGGCTGGGCT GGCTCAGTGG TCCCCATGTG GAATCCTCCA GCCTCAGTCC CTGCGATGGT 
GTCACACTTA CAAAATACCA AGTGACTGTC TCCAGAGGCC CCGTCCCCCC CGAGCTTCCT 
TGCGGAACCC CGTCTGGGCC CCGGGTCGAT GCTCAGCTTC CCAGCACAGC AGGTGCAGAC 
GACCTGCCCT CCAGTGAGAG CATTCCTCTG TCCCAGCCTG ATGGTCACAC AGGCCCCATG 
GACACTCTAT TTCCCGAATC TTATGGCCGC GTGACTTTTC CTAAATTTCA TCGACCAAAG 
TTCCAGCTGT CACTCCCCAA ATCAGCTGCT GGAGTGATGG AGCCTGGAGC TGCCGAGTGT 
GCGCTCCCCA CGTCTCCTCC GCTCGCTGCG CAGGGACCAG ACCCCTCCGC GGAGGAAGCC 
GCGGTGTTCC CAGTGCTAGA TGGTCAGCTG CCACCTGCAC GTGTCTCTGT GTCCAAGGTG 
GCGGAGGCAC AGGCATGTAC CGCGGGGACG TCAGCAGGGC CTCCCGCAGA AGCCCCAGGT 
GAAGGTGTGG GCCACAAGGG GAAGGGCAGT CCAGTCAAAG CACCGAGGCT CAAGCTTCCG 
TCTTTCAGGT GGTCCCCGAG GAAGGGGGCA GAGTCCAAAG CAGATCCTGG ACACAGCCAG 
GTTGTCGATG CAGGTGCTCT GGGCCCTCCT GGGGGTCACG TTCCACCAGC AGAAGCTGGT 
GGAGATGTGT CTCTTGAGAA CGATGGAGAG GCAGGAGCGG TCACATCGCC AGCCCTCGCC 
CTGCTGAAGG TCACACCTCC CGGAATGACA GCTTCCACAG GAGGGGCCTG CCTGCCACGG 
GGAGACCCAG GCCTGGCCCT CTCTGGCTCT ACAGACATGG CCAGCGGTAA GGGCAGTGTT 
GGGGGTGCTG GCGCAGCAGC GGGCCCCCCA GAAGGAGCGG ATGTGAACCT CTGCCTCCCA 
GAGGCCCCCA TTCCCAGCTC GGGCTTTGTC AAACCTGACC TCAGTCCCGG GGATGTCGTG 
GTGGATGTGA GCCTGTCTGC AGGTGACCTT CCTCTTTCCA AACAAGGCCT GTCTCTCGGA 
GACGGCACCC AAGAGCACGG GCTAGGGGAT GGCTCAACAA GCCAGCTTTG TGGGGAGGTG 
ACGGCGCCCC CGGCAGAGGA CCCCCTCCAG CCATCCCCGA CGGTAGGGAG CCCAGGGCAG 
GATGCACCCG CGGGAGCAGC GCCGGCGGGC TCCAGGGAGA GCTGGTTTCG GATGCCCTCA 
CTCCGCCTGC CCAGCTTCAG ACGCCCCCCC AAGGAGCGGG CGGGGTCTGC AGCGCCCGGG 
GCTCAGAGGC CCCCACTGGC CGCCGGTGTG CCAGGGGAAG GAGAGGCACC GGCGGTGGTG 
CAGAGTCCGG AGGCCCGCGC ACCTGCGTCA GAGGGGGACG CTGCTAGGTC CCTGCAGCCC 
CCGGAGGCTG GTGCAGATGC GGCAGGCAGC CCGGCTTCTT CCTACGCGGA TGTTCTTCAG 
AGGAATCTTG ACCTTCACGT CCCTGCTGTG GGGCTATCGG CTTCCGAGGT CAGGGTCCGG 
CCGGGCGCAG GCTCCCTGCC CCTCCAGCTG CACGGGACAC TTGCAGAGCC CTGCACCCCT 
CCCGGAGAAG CAGGCGAGCC CCCTCTTCCC GGACCAGCAG GCCAGGGCCT GGTCAGGGGG 
CCCGAGGGTG CAGAGGAGCC GCCCTCCCAG CCCGAGGGCC CTCTCAGATT GAGGGCTTCC 
AGTACGGATA TGCCATCCCA GGTTTCCGTG GTCAATGTGG GTCAAGTCTG GGAAGACTCT 
GTGCTACGTG TCCAGTTCCC CAAGTTAAAG GTACCAAGGT TCAGCTTCCC GGCCTCTAGC 
TCGGAGGCTG ACGTCTTCGT GCCCAGCGTG AGAGAGCTGT CCTGCCCGCA AAGCAGTCCT 
GACACAGCCC TGCTCGAACG AAGCCCTGGC GGACGGGGCG CCAGCATCCC GAAGGCCGCC 
GCGGCCCTCG GCCTCTTCTC AGAAGCTGCC CCCATTTGTA AGGTCAGGGT GCACATTCAG 
GGCGCAGAGG CAGCGAGCCG CCAGATGGCC GTGCACAGCA CCTTGACAGC CGTGTATACC 
AAGCACTCAG GGCCCGAGGC GTTTCCCACC CAGATCGTGC GGGAGTCAGA GGTCCCCGTG 
TCAGAGACCC AAACACCTTC TTATGGGTTT TCCTTGCTAA AGGGGAGGGT CTCAGAGCCC 
CCCACTTGGG CACAGGTGCA CGTGGTGACT GCAGACTGTG GGCCAGGGGG GCACCTCCGA 
GAGGCTCCGG AACCGGCCGT CCCAGGAGCC GACCCCGTTT CTGGAGACCC CCAGCCTGAC 
ACCGGCGAGC CTTTTGAAAT TATCGGTCCC AGTGTCGACG TGCCGGGGCT GCCAGCGTGT 
TCACCTGAAC TTGGCTCTCA CCCTGGCCAC GGGCGTGCGG ATAGCTGTTC TGACGAGGAG 
CCCCCGGAAA TTCTCGAATT TCCGCCGGAA GAGGGCCAGG AAGCAGGCGA GGACGGAGCT 
CCCAAAGCAA AACCGGAAGG TCAAAGGTCC TCTAGTCTGT TCCGGTTTTG GCTCCCGAGC 
ATCGGGTTTT CTTCCTCGGT CTCCGAGACA GGCGCCGATT CCCAAGCCGA TCCCCAGAGA 
CCGGCTCCTG TGCAGACCCA GCCGGAGGTG CAGCCGCCTC CCTCGCAAGA GAAGGGGGGC 
TGGTTCCGAT TTCCCAAGTT GGGGTTCTCC TCCTCGCCCG CCAAGAAAAC CAAAAGTGCC 
GAAGAGGAGG CGGGTCAGGC CGAGCAAAAC CTCCAAGACG AGGCAGGTAC CTTCTATGAT 
GCGCGAGAAA GCTTCTCCCC TGAAGAGACG GGAGCAGGGG AGGCAGCAGG GGCCGCCGGC 
TCCAGGCAGG GCTCTGGGAG CATGGTGGCC TCCGCGGCAA GAACCGAGCT GATCCTGCTG 
GAGCCGGATG GAGCGGGCAG CCAGCAGTGT GCGCCTGGGC CCGCCACCGA GTGA