UACA cDNA ORF clone, Phascolarctos cinereus(koala)

Gene
Clones
gRNAs

Summary

Gene Symbol	UACA
Entrez Gene ID	110205478
Full Name	uveal autoantigen with coiled-coil domains and ankyrin repeats
Gene Type	protein-coding
Organism	Phascolarctos cinereus(koala)

mRNA and Protein(s)

mRNA	Protein	Name
XM_020982095.1	XP_020837754.1	LOW QUALITY PROTEIN: uveal autoantigen with coiled-coil domains and ankyrin repeats

Pathways from BioSystems
Gene Ontology

The following UACA gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the UACA 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
OPh247650	XM_020982095.1 Latest version!	Phascolarctos cinereus uveal autoantigen with coiled-coil domains and ankyrin repeats (UACA), 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)

UACA ( XM_020982095.1 ) cDNA ORF clone, Phascolarctos cinereus(koala) -> XP_020837754.1 Phascolarctos cinereus uveal autoantigen with coiled-coil domains and ankyrin repeats (UACA), mRNA.

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CloneID	OPh247650
Clone ID Related Accession (Same CDS sequence)	XM_020982095.1
Accession Version	XM_020982095.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4311bp) 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	2017-05-09
Organism	Phascolarctos cinereus(koala)
Product	LOW QUALITY PROTEIN: uveal autoantigen with coiled-coil domains and ankyrin repeats
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_018343952.1) 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 :: Phascolarctos cinereus Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## frameshifts :: corrected 1 indel ##RefSeq-Attributes-END##

ATGAAGAGCC TCAAGTCTCG CCTCAAGAGG CAAGAGGGGC CCGCCCCAGC CCCTGCCAGC 
GGGGCAGCCT GCTCGCAAGC AACAGATTGG AACAAATATG ATGACCGACT AATGAAAGCA 
GCTGAAAGGG GAGATGTAGA AAAAGTGTCC TCTGTCCTTG CTAAAAAGGG AATCAATCCT 
GGTAAACTAG ATGTGGAAGG CAGATCTGTA TTCCATGTTG TTGCATCAAA GGGAAATTTG 
GAGTGTTTGA ATGCCATTCT TGTACATGGA GTTGACATTA CTGCGAGTGA TGCTGCAGGG 
AGAAATGCCC TTCACCTTGC TGCAAAATAT GGACATGCTT TGTGCTTACA AAAGCTTTTA 
CAGTATAACT GCCCCACTGA ACATTCAGAC CTGCAAGGTA GAACTGCACT TCATGATGCA 
GCTATGGCAG ATTGTACTTC TAGCATACAG CTACTTTGTG ACCATGGAGC CTCAGTAAAT 
GCCAGAGATG TGGATGGGCG GACACCACTG ATACTGGCCA CTCAGATGTG TAGACCAGCA 
ATATGTCAAC TTCTTATTGA TAGAGGTGCA GATGTTAATG CCAGAGACAA ACAAAACAGG 
ACTGCCCTTA TGTTAGGTTG TGAGTATGGC TGTAAGGATG CTGTAGAAGT TTTAATTAAA 
AATGGTGCAG ATGTCAGCTT GTTGGATGCC CTTGGTCATG ATAGTTCTTA CTATGCAAGA 
ATTGGTGATA ATCTGGATAT TCTAACTTTA ATGAAGACTG CAGTTGAAAA TGCAAATAAA 
GGAAGAGAAC CTTCAAAGAA AGGACCATCT TTCCAGCAGG TATCTCATGT TCCATCGAAG 
TGGAATCTGT TGCCTATGCA AGATGAAGTA AATATAAAAT CATATCAGAG GGAGCAGAAA 
AATGTTCAGG TAGTGCTCCA GGAAGCAGGC ACACTCAAAG AAATGGATCT AGAGGCTGAA 
AATGAAGATT TGAAAGAAAA GTTGAGAAAC ATTCAACAAG AACAAAGAAT ATTATTAGAT 
AAAGTCAATG GGTTGCAACT ACAGCTAAAT GAGGAAGTAA TGGTTGCTGA TGACCTTGAA 
AATGAGAAAG AAAAACTGAG ATCCCTTTTA ACAGCCAAGG AAAAACAGCA TGAAGAAAGC 
TTAAGGACTA TTGAAGCTCT GAAAAATAGA TTTAAATATT ATGAGAGTGA CTATGGGGGA 
ACCTTCAATA ATCGAAAAGA AGATATGCTT CATAAGCAGA ATCAAATTTT TGTTACAGAA 
TCACAGTATA CATCTTCAGG TATTCCAGTG CCAGCCCACA TACAAACAAG GTCCATGCTA 
AGACCATTGG AACTGTCCTT ATCCAGTCAA ACTGCCATTT CTGAAAATGA GATTTTAAAG 
AAAGAGTTAG ATGCCATGAG AGCCTTTTGT GATTCAGCTA AACAAGAGAA GATTAAGCTC 
CAAAATGAAC TGGCCCATAA AGTGGCAGAA TGCAAGGCTT TGGCATTAGA ATGTGAAAGA 
GTCAAGGAGG ATTCTGATGA ACAGATAAAG CAATTGGAAG ATGCTTTAAA AGATGTGCAA 
AAGAGAATGT ACGATTCAGA AGGTAAAGTA AAGCAAATGC AGACTCATTT TCTTGCTCTG 
AAGGAGCACT TGACGAATGA AGCAGCTTCA GGAAGTAACA GATTAACCGA AGAACTAAGG 
GAGCAGTTGA AAGAAATGAA AGCAAAATAT GAGGGGGCTT CTGCTGAAGT AGGGAAGCTG 
AAGAACCAAA TCAAACAAAA TGAAATGTTA GTAGAGGAAT TTAAAAAGGG TGAAGGGAGA 
CTAGTAGAAG AAAATAAGCG ATTGCAGAAA GAATTTAGCA TGTCTGAAAT AGAGCGAGAG 
AAGAGAGGAA GAAAAGCCTT GGAGATGGAA GGCCAGCTAA AAGAATTAGC AACAAAGTTG 
GCCCTCTCCA TCCCCCCAGA AAAATTTGAA AACATGAAGA GCTTATTATC AAATGAAGTG 
AATGAGAAAG CAAAAAAGTT TGTAGAGATG GAAAGAGAAT ATGAAAAATC ACAGGCTGAA 
TTTAGACAGT TAAAGAGAGA ACTTGAGAAT TATAAAGCTA AACTCTCTCA ACATGTAAGG 
CCAGAAGAAC ATGAACAACT TAAGGACAAA TTTGAACAAA AGTCAGGTGA ATTTGGAAAG 
AAGATCACTG AGTTAACTTT TAAGAATCAG ACATTACAGA AAGAACTTGA GAAGGTTTGT 
GCAGATAATA AGCTACTAAG CCAACAGTTG CAGAACTTAA CAATTGAGAT GAAAACTCAT 
TATATTCCTT TAAAATTGAA TGAAGAAATG AAAAAATCAC ATGCTTTGAC AGTTGATGAT 
TTGAACAAAA AAGTAATGGA TGTGACACAG AAGTGTAAAG AAAGAGAAAT GGAAACTGAG 
AAGCTGATGG TGGAAAAAAC CAATTTAAGT AAGAATGTCA GTCGTCTTGA AGCTACATAT 
ATCCCTCTAG AAAAGCATGA AAAAGAGATA ATGGCTCTAA AATCCAATAT CACTGAACTC 
AAAAAAGAAC TTTTAGAACT TAATAAAAAA TGTGGTGATG GAAAAGAAAA GTTGCATGTA 
ATCACATCTG AGAATGCAAA ATTGAAAAAG GCTATAACTG AGCAGTATGT GCCTGTTACA 
ACCCATGAAG AAATTAAAGC AGCATTAAGT AGTACATTGG ATAAAACTAA CAGAGAATTG 
ACAGATGTGA AAAGAAAACT TGAAGGTATA AAACAAGAAT TTATCCAAAT AAAAGATGAG 
AATGGAACAT TAAAAAAAAA ATTAGCAGAT TCTAAGAACC AAATGAAAGC TGAGTTTATC 
AGCATAAAAG AGCATGAAGA TAAAATGAAT GCTGTTAACA AAAGTCTAAA AGAAACACGG 
GAAAATAATG CTGAAGTACT TGCAAAATAT AATAAGGGTC AAGAAGAGAT TTTAGCATTG 
CTTGTTGAGA TTGAAGCCCA GAAGAAGGAA CTTGATACAA TACAAGAATG CATTAAGCTA 
AAGTATGCGC CAATTGTTAG TTTTGAAGAG CGAGAGAAAA CCTTTAAAGC CACTGTGAAG 
GAACTCAAAG ATCAATTGCA GGCACAGACA CAAAGATGCA GTGTAGGGGA AGAGGAGGCT 
TGGAAATGTC AGCAAGAAAA TGAAAAGTTA AAGAATGAAA TCCTCATGAT CCAGAAAGAT 
TTAAAGAATA AGGATATTCT CATCAAGAAT TCCCGTGAAT TGGAAAAAAC ATTAAACCAA 
AAAACAGAAG AGCTTAACAG ACGGCTAAAG GATTTGTCTG AGAAGTACAC AGAGGTAAAA 
AGTGAGAAAG AGAAACTTCT GGAAGAAAAT GCCAAACAGA CCTCTGAAGT ACTTGCAGTA 
AAAGCAATTT TGCAGAAACA ACATGTTCCC TTGGGGCAGG TTGAAGAGCT GAAAAACTCG 
CTTAATGGCA CAATTGAGGC TCTGAAAGAA GAGCTTAAGG ACAAGCAGAG GCACCATGAG 
GAAGCTCAGC GGGAAGTGGC TGAATGGCAA CAGATGTTAG AGAATCAAAA GCACTCTTCT 
ATGTCCCTGG TGGAACATGT GCAGATAAAG GAAGCGTTAG AGAAAGAAGT TGGGTGCATG 
AAAGCTAGAC TGAGTGAAAA AGAAGAAGAA AGTCAAGACA AAACAGAAAA GATCTCAAAA 
CTTCAGGATG AGATTCAGAA TTTGAAGCAA GCATTTAAGA AATTAGAATC TAGAGAGGTT 
ATTGATTTAT CAGAATATAA CAGAGTGAAG AATGCCTTAG AAGCACAAAT TACCAATATA 
ACAGAAAATA TGACCACCTT GAATAAAATG TATGAGGAAG TTTGTGAAGA GGCTGCCCGT 
GCCAAAAAGG CAGAACTATC TGCAAGGGAT GAAAAGGAAT TGATACAGTT GAGGAGCTTG 
AGCATTGAAC AAGAAATTAA GGACCAGAAA GAGAGATGTG ACAAATCCTT AACAACAATT 
ACTGATTTAC AAAGAAGAAT GCAGGAGTCT GCCAAACAAA TAGAATCAAA AGACAATAAG 
ATAACAGAAC TGCTTAATGA TGTGGAACGA CTAAAACAGG CCCTTAATGG TCTCTCACAG 
CTTACCCACA CAAGTGGGAA TTCTACAAAG AAAGAGAACC AACAGGTAGA AACACTTCAG 
CACCAGGTGA AATCTCTGCA ACAGCAGTTG GCTGATGCCG ACAGACAGCA CCAAGAAGTA 
ATTGCAATAT ATAGGACGCA TCTTCTTAGT GCTGCACAGG GTCACATGGA TGAAGATGTT 
CAAGCTGCCT TACTACAGAT CATCCGCATG AGGCAGGGGC TTGTTTGCTA G

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

RefSeq	XP_020837754.1
CDS	148..4458
Translation	MKSLKSRLKRQEGPAPAPASGAACSQATDWNKYDDRLMKAAERGDVEKVSSVLAKKGINPGKLDVEGRSVFHVVASKGNLECLNAILVHGVDITASDAAGRNALHLAAKYGHALCLQKLLQYNCPTEHSDLQGRTALHDAAMADCTSSIQLLCDHGASVNARDVDGRTPLILATQMCRPAICQLLIDRGADVNARDKQNRTALMLGCEYGCKDAVEVLIKNGADVSLLDALGHDSSYYARIGDNLDILTLMKTAVENANKGREPSKKGPSFQQVSHVPSKWNLLPMQDEVNIKSYQREQKNVQVVLQEAGTLKEMDLEAENEDLKEKLRNIQQEQRILLDKVNGLQLQLNEEVMVADDLENEKEKLRSLLTAKEKQHEESLRTIEALKNRFKYYESDYGGTFNNRKEDMLHKQNQIFVTESQYTSSGIPVPAHIQTRSMLRPLELSLSSQTAISENEILKKELDAMRAFCDSAKQEKIKLQNELAHKVAECKALALECERVKEDSDEQIKQLEDALKDVQKRMYDSEGKVKQMQTHFLALKEHLTNEAASGSNRLTEELREQLKEMKAKYEGASAEVGKLKNQIKQNEMLVEEFKKGEGRLVEENKRLQKEFSMSEIEREKRGRKALEMEGQLKELATKLALSIPPEKFENMKSLLSNEVNEKAKKFVEMEREYEKSQAEFRQLKRELENYKAKLSQHVRPEEHEQLKDKFEQKSGEFGKKITELTFKNQTLQKELEKVCADNKLLSQQLQNLTIEMKTHYIPLKLNEEMKKSHALTVDDLNKKVMDVTQKCKEREMETEKLMVEKTNLSKNVSRLEATYIPLEKHEKEIMALKSNITELKKELLELNKKCGDGKEKLHVITSENAKLKKAITEQYVPVTTHEEIKAALSSTLDKTNRELTDVKRKLEGIKQEFIQIKDENGTLKKKLADSKNQMKAEFISIKEHEDKMNAVNKSLKETRENNAEVLAKYNKGQEEILALLVEIEAQKKELDTIQECIKLKYAPIVSFEEREKTFKATVKELKDQLQAQTQRCSVGEEEAWKCQQENEKLKNEILMIQKDLKNKDILIKNSRELEKTLNQKTEELNRRLKDLSEKYTEVKSEKEKLLEENAKQTSEVLAVKAILQKQHVPLGQVEELKNSLNGTIEALKEELKDKQRHHEEAQREVAEWQQMLENQKHSSMSLVEHVQIKEALEKEVGCMKARLSEKEEESQDKTEKISKLQDEIQNLKQAFKKLESREVIDLSEYNRVKNALEAQITNITENMTTLNKMYEEVCEEAARAKKAELSARDEKELIQLRSLSIEQEIKDQKERCDKSLTTITDLQRRMQESAKQIESKDNKITELLNDVERLKQALNGLSQLTHTSGNSTKKENQQVETLQHQVKSLQQQLADADRQHQEVIAIYRTHLLSAAQGHMDEDVQAALLQIIRMRQGLVC

Target ORF information:

RefSeq Version	XM_020982095.1
Organism	Phascolarctos cinereus(koala)
Definition	Phascolarctos cinereus uveal autoantigen with coiled-coil domains and ankyrin repeats (UACA), mRNA.

Target ORF information:

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

XM_020982095.1

ORF Insert Sequence:

ATGAAGAGCC TCAAGTCTCG CCTCAAGAGG CAAGAGGGGC CCGCCCCAGC CCCTGCCAGC 
GGGGCAGCCT GCTCGCAAGC AACAGATTGG AACAAATATG ATGACCGACT AATGAAAGCA 
GCTGAAAGGG GAGATGTAGA AAAAGTGTCC TCTGTCCTTG CTAAAAAGGG AATCAATCCT 
GGTAAACTAG ATGTGGAAGG CAGATCTGTA TTCCATGTTG TTGCATCAAA GGGAAATTTG 
GAGTGTTTGA ATGCCATTCT TGTACATGGA GTTGACATTA CTGCGAGTGA TGCTGCAGGG 
AGAAATGCCC TTCACCTTGC TGCAAAATAT GGACATGCTT TGTGCTTACA AAAGCTTTTA 
CAGTATAACT GCCCCACTGA ACATTCAGAC CTGCAAGGTA GAACTGCACT TCATGATGCA 
GCTATGGCAG ATTGTACTTC TAGCATACAG CTACTTTGTG ACCATGGAGC CTCAGTAAAT 
GCCAGAGATG TGGATGGGCG GACACCACTG ATACTGGCCA CTCAGATGTG TAGACCAGCA 
ATATGTCAAC TTCTTATTGA TAGAGGTGCA GATGTTAATG CCAGAGACAA ACAAAACAGG 
ACTGCCCTTA TGTTAGGTTG TGAGTATGGC TGTAAGGATG CTGTAGAAGT TTTAATTAAA 
AATGGTGCAG ATGTCAGCTT GTTGGATGCC CTTGGTCATG ATAGTTCTTA CTATGCAAGA 
ATTGGTGATA ATCTGGATAT TCTAACTTTA ATGAAGACTG CAGTTGAAAA TGCAAATAAA 
GGAAGAGAAC CTTCAAAGAA AGGACCATCT TTCCAGCAGG TATCTCATGT TCCATCGAAG 
TGGAATCTGT TGCCTATGCA AGATGAAGTA AATATAAAAT CATATCAGAG GGAGCAGAAA 
AATGTTCAGG TAGTGCTCCA GGAAGCAGGC ACACTCAAAG AAATGGATCT AGAGGCTGAA 
AATGAAGATT TGAAAGAAAA GTTGAGAAAC ATTCAACAAG AACAAAGAAT ATTATTAGAT 
AAAGTCAATG GGTTGCAACT ACAGCTAAAT GAGGAAGTAA TGGTTGCTGA TGACCTTGAA 
AATGAGAAAG AAAAACTGAG ATCCCTTTTA ACAGCCAAGG AAAAACAGCA TGAAGAAAGC 
TTAAGGACTA TTGAAGCTCT GAAAAATAGA TTTAAATATT ATGAGAGTGA CTATGGGGGA 
ACCTTCAATA ATCGAAAAGA AGATATGCTT CATAAGCAGA ATCAAATTTT TGTTACAGAA 
TCACAGTATA CATCTTCAGG TATTCCAGTG CCAGCCCACA TACAAACAAG GTCCATGCTA 
AGACCATTGG AACTGTCCTT ATCCAGTCAA ACTGCCATTT CTGAAAATGA GATTTTAAAG 
AAAGAGTTAG ATGCCATGAG AGCCTTTTGT GATTCAGCTA AACAAGAGAA GATTAAGCTC 
CAAAATGAAC TGGCCCATAA AGTGGCAGAA TGCAAGGCTT TGGCATTAGA ATGTGAAAGA 
GTCAAGGAGG ATTCTGATGA ACAGATAAAG CAATTGGAAG ATGCTTTAAA AGATGTGCAA 
AAGAGAATGT ACGATTCAGA AGGTAAAGTA AAGCAAATGC AGACTCATTT TCTTGCTCTG 
AAGGAGCACT TGACGAATGA AGCAGCTTCA GGAAGTAACA GATTAACCGA AGAACTAAGG 
GAGCAGTTGA AAGAAATGAA AGCAAAATAT GAGGGGGCTT CTGCTGAAGT AGGGAAGCTG 
AAGAACCAAA TCAAACAAAA TGAAATGTTA GTAGAGGAAT TTAAAAAGGG TGAAGGGAGA 
CTAGTAGAAG AAAATAAGCG ATTGCAGAAA GAATTTAGCA TGTCTGAAAT AGAGCGAGAG 
AAGAGAGGAA GAAAAGCCTT GGAGATGGAA GGCCAGCTAA AAGAATTAGC AACAAAGTTG 
GCCCTCTCCA TCCCCCCAGA AAAATTTGAA AACATGAAGA GCTTATTATC AAATGAAGTG 
AATGAGAAAG CAAAAAAGTT TGTAGAGATG GAAAGAGAAT ATGAAAAATC ACAGGCTGAA 
TTTAGACAGT TAAAGAGAGA ACTTGAGAAT TATAAAGCTA AACTCTCTCA ACATGTAAGG 
CCAGAAGAAC ATGAACAACT TAAGGACAAA TTTGAACAAA AGTCAGGTGA ATTTGGAAAG 
AAGATCACTG AGTTAACTTT TAAGAATCAG ACATTACAGA AAGAACTTGA GAAGGTTTGT 
GCAGATAATA AGCTACTAAG CCAACAGTTG CAGAACTTAA CAATTGAGAT GAAAACTCAT 
TATATTCCTT TAAAATTGAA TGAAGAAATG AAAAAATCAC ATGCTTTGAC AGTTGATGAT 
TTGAACAAAA AAGTAATGGA TGTGACACAG AAGTGTAAAG AAAGAGAAAT GGAAACTGAG 
AAGCTGATGG TGGAAAAAAC CAATTTAAGT AAGAATGTCA GTCGTCTTGA AGCTACATAT 
ATCCCTCTAG AAAAGCATGA AAAAGAGATA ATGGCTCTAA AATCCAATAT CACTGAACTC 
AAAAAAGAAC TTTTAGAACT TAATAAAAAA TGTGGTGATG GAAAAGAAAA GTTGCATGTA 
ATCACATCTG AGAATGCAAA ATTGAAAAAG GCTATAACTG AGCAGTATGT GCCTGTTACA 
ACCCATGAAG AAATTAAAGC AGCATTAAGT AGTACATTGG ATAAAACTAA CAGAGAATTG 
ACAGATGTGA AAAGAAAACT TGAAGGTATA AAACAAGAAT TTATCCAAAT AAAAGATGAG 
AATGGAACAT TAAAAAAAAA ATTAGCAGAT TCTAAGAACC AAATGAAAGC TGAGTTTATC 
AGCATAAAAG AGCATGAAGA TAAAATGAAT GCTGTTAACA AAAGTCTAAA AGAAACACGG 
GAAAATAATG CTGAAGTACT TGCAAAATAT AATAAGGGTC AAGAAGAGAT TTTAGCATTG 
CTTGTTGAGA TTGAAGCCCA GAAGAAGGAA CTTGATACAA TACAAGAATG CATTAAGCTA 
AAGTATGCGC CAATTGTTAG TTTTGAAGAG CGAGAGAAAA CCTTTAAAGC CACTGTGAAG 
GAACTCAAAG ATCAATTGCA GGCACAGACA CAAAGATGCA GTGTAGGGGA AGAGGAGGCT 
TGGAAATGTC AGCAAGAAAA TGAAAAGTTA AAGAATGAAA TCCTCATGAT CCAGAAAGAT 
TTAAAGAATA AGGATATTCT CATCAAGAAT TCCCGTGAAT TGGAAAAAAC ATTAAACCAA 
AAAACAGAAG AGCTTAACAG ACGGCTAAAG GATTTGTCTG AGAAGTACAC AGAGGTAAAA 
AGTGAGAAAG AGAAACTTCT GGAAGAAAAT GCCAAACAGA CCTCTGAAGT ACTTGCAGTA 
AAAGCAATTT TGCAGAAACA ACATGTTCCC TTGGGGCAGG TTGAAGAGCT GAAAAACTCG 
CTTAATGGCA CAATTGAGGC TCTGAAAGAA GAGCTTAAGG ACAAGCAGAG GCACCATGAG 
GAAGCTCAGC GGGAAGTGGC TGAATGGCAA CAGATGTTAG AGAATCAAAA GCACTCTTCT 
ATGTCCCTGG TGGAACATGT GCAGATAAAG GAAGCGTTAG AGAAAGAAGT TGGGTGCATG 
AAAGCTAGAC TGAGTGAAAA AGAAGAAGAA AGTCAAGACA AAACAGAAAA GATCTCAAAA 
CTTCAGGATG AGATTCAGAA TTTGAAGCAA GCATTTAAGA AATTAGAATC TAGAGAGGTT 
ATTGATTTAT CAGAATATAA CAGAGTGAAG AATGCCTTAG AAGCACAAAT TACCAATATA 
ACAGAAAATA TGACCACCTT GAATAAAATG TATGAGGAAG TTTGTGAAGA GGCTGCCCGT 
GCCAAAAAGG CAGAACTATC TGCAAGGGAT GAAAAGGAAT TGATACAGTT GAGGAGCTTG 
AGCATTGAAC AAGAAATTAA GGACCAGAAA GAGAGATGTG ACAAATCCTT AACAACAATT 
ACTGATTTAC AAAGAAGAAT GCAGGAGTCT GCCAAACAAA TAGAATCAAA AGACAATAAG 
ATAACAGAAC TGCTTAATGA TGTGGAACGA CTAAAACAGG CCCTTAATGG TCTCTCACAG 
CTTACCCACA CAAGTGGGAA TTCTACAAAG AAAGAGAACC AACAGGTAGA AACACTTCAG 
CACCAGGTGA AATCTCTGCA ACAGCAGTTG GCTGATGCCG ACAGACAGCA CCAAGAAGTA 
ATTGCAATAT ATAGGACGCA TCTTCTTAGT GCTGCACAGG GTCACATGGA TGAAGATGTT 
CAAGCTGCCT TACTACAGAT CATCCGCATG AGGCAGGGGC TTGTTTGCTA G