LOC107501559 cDNA ORF clone, Rousettus aegyptiacus(Egyptian rousette)

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC107501559
Entrez Gene ID	107501559
Full Name	ankyrin repeat domain-containing protein 26-like
Gene Type	protein-coding
Organism	Rousettus aegyptiacus(Egyptian rousette)

mRNA and Protein(s)

mRNA	Protein	Name
XM_016127820.1	XP_015983306.1	LOW QUALITY PROTEIN: ankyrin repeat domain-containing protein 26-like

Pathways from BioSystems
Gene Ontology

The following LOC107501559 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC107501559 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
ORo33800	XM_016127820.1 Latest version!	Rousettus aegyptiacus ankyrin repeat domain-containing protein 26-like (LOC107501559), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$1021.30 $1459.00

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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)

LOC107501559 ( XM_016127820.1 ) cDNA ORF clone, Rousettus aegyptiacus(Egyptian rousette) -> XP_015983306.1 Rousettus aegyptiacus ankyrin repeat domain-containing protein 26-like (LOC107501559), mRNA.

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CloneID	ORo33800
Clone ID Related Accession (Same CDS sequence)	XM_016127820.1
Accession Version	XM_016127820.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5079bp) 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	2016-03-28
Organism	Rousettus aegyptiacus(Egyptian rousette)
Product	LOW QUALITY PROTEIN: ankyrin repeat domain-containing protein 26-like
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_015495103.1) and transcript sequence (GECF01015790.1) 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 :: Rousettus aegyptiacus 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## frameshifts :: corrected 1 indel assembly gap :: added 2099 transcript bases to patch genome assembly gap ##RefSeq-Attributes-END##

ATGAAGAAGA TATTTGGCTT TGGGAGTCGG AAGGGCGAGT CGCCCTTGGG CTCCTTAACC 
AGCCGCCAGA GGACTGGCGT GGGCGTCAGG CCTGAGACTG GTAATAGAGT CACGTTGGGG 
CCCGGGTACC ACATCCGAGA CAAAGATCTT GGGAAGATCC ACAAAGCTGC CAGCGTGGGC 
AACGTCCGAA AAGTGCAGCG GATTTTATTG CTCCGTTTAA ATGGCCTGAA TGATAGAGAC 
AGGATGAACA GGACTGCTCT ACATTTGGCC TGTGCCAGCG GCCATCCAGA AGTGGTAACT 
CTCCTGGCAG ACCGAAAATG TCAGCTTAAC CTCTGTGACA ACGAAAATAG GACAGCTCTG 
ATTAAGGCCG TACAATGCCA GGAGGAGGAA TGTGCAACTA TTCTGCTCGA ACGTGGTGCC 
GATCCAAACA TAATGGACAT CGATGGCAAC ACGGCTTTGC ACTATGCTGT CGCTGCTCAG 
AATATGGACA TGGCAGCGAA GCTGCTTTTA TACAAGGCCG ATACTGAAGC AAGGAACAAG 
GATGACCTCA CACCACTTTT ACTTGCTATA AGTGAAAACA AACAGCAAAT GGTGGAGTTT 
TTAGTGAAGA GAAATGAAAA TGTACGTGCT GTCGATAAGA TGAAAAGCAA CTGCAAACTA 
CCTTCTGATT ATAAAGAAGA GTGGAGATGT AAAAGGTCTT CCCAGAATAG CAATCTAGAT 
CTACAGGAAT CACCAAAGCA AGAATTGCAG AAAACAAATT TTAGGACAGA GGATGAAAGT 
TCTGAAGAAG ACTCTGTAAG CAGTCTTTTC AGCAAACCTG GCATTGATGA TTCATGGCCT 
ACATCAGAAG ATGAGGACTT CGATTTTGAT TCCAGGAATG TCATGAAACC AAGCTTAGCA 
AAGCTAATGA CTGCTGTTCC GCAATCCCAG AAAAACACGG AAGCAAAATA TGCGATTGTG 
AGACCAGAAA ATAGGACCTT ATATGAGGAT AATAAATCTC ATAGCGACAA AGATGATGTG 
GTTGAAATGC TTCCCAAACC ATCCACTACA GTCCAGGATT GTTCTCATCA TGATTTCTTA 
CCACCAGATC CTCTTCTAAA ACCTTCTCTC ATGTCTTTGG CAGTCGTTGG TCTTACAAAG 
AAAGAAGCAA TGAAGCCAGC AATTGCAAAA AAGGAATATG GTATCAATAT TACTGAAAGT 
ACTCCACAAG AGCAAACAAA TAATGACAAT TGTAATGTTG ATGGACCACA CAAAAATAAT 
ACAAGTGATA AAATGTCAGC ATTAGGATTA GGAGAAGAGG AAGATGTAGA ATCACCTTGG 
GATTCTGAGA GTTTTTCTGC AAGTTTTCCA CAGAAGTATG TTGATCATTT ATCTGGAGCT 
GCAGATCAAA GAGGAAAAAA TATACTGAAT GGACAAATAG AAGATATGTT TTATATACCT 
TCTTGCATAA GTGGATCAAG AAACTTTAAG ATGGCCAAAC TACAGGATAC AAGAAATGTA 
GGCATACCAG TAGCCCACAT TGATTCTCTT GAAAAATATC CTCATTCGAA GACTACCGTT 
GAAGTGGAAG AGCCTGTTCC TAAGAAAGCA ATAGAAATAA AGGAAATACA AACATCCAGA 
TCAGGAAATT GTAGCCTCCG TGACCTGGGT GAATCACAGC TATCAGAAAA CAGAGAGAGC 
GAAGAAGATA TGTCAGCAGA ACTAGACTTA GAAATAACAA CAGAGGAAGA GCAAGAAAGG 
CTTGATGGAA GTGAAAATAA CTACCATTGG CTTGAAGAAG AAAGGAAAAA GCACAAAAGT 
AGTGACATGG AAGGAACAGA AAACATATAT AATGCTGCCA CTGAGGACAA TGATGGATTA 
AGTCAACAAA GAAAGAGTGG AGAAACTGAT AACCAACAAT TTCCTGTTAT GGAGGATGAA 
GATTCTGACA GGTCTGCAAA GAAAACATCT AAAGACATTA ACAAGGTCCA AGAGCAAATT 
CATCCTGTGG CTGACCTAGA TGATTTAACT CAGTCTTCTG AAACAGTTTC AGAGCATTGT 
GAGTTACCTT ACTCCAATTA TCAGAAATCC ATGTTGCTAC TTGAACAACT TGGCACGGAT 
TGTAAAGATT CTGTTAGCTT ATTGAAAATC CAGGATGCAG TTATGTCATA TGAAAGATTA 
ATAGAACTTA AAAAAAATCA CTGTGAACTA CTTACAGGAA AAATTAAAAA AATGGAAAAT 
AAGGTGATTG GACTACAAAA GGAGCTATCA GAAACAAAAG AAATGAAATC ACAGTTAGAA 
CATCAAAGAG TGGAATGGGA ACAAGAACTC TGCAATTTGA GATTTACCTT ACAACAAGAA 
AAAGAGAGGA GAGAAAATAC CGATATGTTA TATAAAAAAA TTAGGGATCA GTTAATGAAA 
AAAGAAGAGC ACTATCATAA AGAAGTTGAA ATGAAACAAC AACTCGAAAT CACCCTTAGA 
ACATTAGACA TGGAATTGAA GACTGTAAGA AACAATTTCA ATCAGGTTGT AGAAGAGCTA 
AATGACACCC AGAGGCAACT TTCTCAGGAA CAGAACGCCA GAATATCACA AGATGCAATC 
CTGACCAATC ACCTTTGCAA ACAAAAGGAG ATAGAAATCA ATCTTAAGAA AATGAATTCT 
GAGGTTTCTG ATAGTCATGA AAAAGAGAAA GATCTGTTGC ATGAAAACTA CATGTTGCAG 
GATGAAATTG CCAAGCTGAG ATTGGAAATA GACACAGTAA AAAATCAGAA GCAGGAAATG 
GAAAAAAAAT ATTTGGAGGA TATTACAATT GTAAAAGAAA AGAATGACCA ACTTCAGAAG 
ACCGTAAAAC TGAATGAGGA AACACTAACC AAAACAGTAT TTCAATATAC TGGACAGCTT 
AACGTTCTGA CAGCTGAGAA TACAATGCTA AACTCTAAAC TGGAGAATGA AAAACAAAAC 
AAAGACAGAC TGGAAACAGA AGTCGAATCC TACCGTTCTA GACTGGCTAC TGCTGTACAT 
GATCATGAGC AAGGTCAGAC GTCCAAAAGA GACCTAGAAC TTGCTTTTCA GAGAGCAAGA 
GATGAATGGT TTCGTTTACG GGACAAAATG GATTTTGATA TGTCTAACCT GAAAGATAAT 
AATGAGATTC TTTCTCAACA ACTGTCTAAA GCTGAAAGTA AATTGAACAG CTTGGAAATT 
GAGCTGCATC ACACGAGAGA TGCTCTCAGA GAAAGGACTT TGGTTTTAGA ACGTGTCCAA 
ACAGACCTAA GCCAAATACA GAGTCAGAAG AAGGAAATCG AACATATGTA TCAAAATGAA 
CAAGGTAAGG TGAATAAATA CATTGGAAAG CAGGAATCCT TAGAGGAGAG ATTTTCTCAT 
CTACAAAGTG AAAATGTGTT GCTTCGACAG CAACTGGATG ATGCTCGCAA CAAAACTGAC 
AGTAATGAAA AGACAGTAAT TCATATCCAA GATCAGTTTC AGGATATCGT AAAAACACTT 
CAAGCCGAAA GTGAAAAACA AGGTCGTATG CTGGAAGAAA GAAATAAGGA ATTAATCAAT 
GAATGTAATC ATTTAAAAGA AAGGATGTAT CAGTATGAAA ATGAGAAAGC AGAAAGAGAA 
GTGGTTGTGA GGCAACTTCA ACAAGAACTG GCTGACACCC TAAAAAAACA ATCTATGTCA 
GAGGCTTCCC TTGAGGTTAC AGCACGTTAT CGTATGAATT TAGAAGATGA GACACAGGAC 
TTAAAGAAGA AATTAAACCA AGTTAGAAGT CAATTGCAAG AAGCAAGCGA TCAATATGCA 
GAGGCTGTAA GATGTGCTGA GAAGACGAAG GATCACATGC AAAAGCTTGA AACTGAAAAT 
GCCAAGTTAA AAATTACAAT CAAAAAGCAA GCAAGCAAAA TGGAACAGCT TCAAAAAAAC 
CTGTTAGGTA CAAGTTCGTC TGAGGATGAA AAGGAACAAC TAAAGAACTA TATCGAGTTA 
AAACATTCTC TGGAATATAG TTTGGATCAA GAAAAGAAGA AAAATGGTGA ATTAGAAAAA 
GAAATTACTG GATTTAAGAA ACTCTTAAAA CTTACCAGAA GAAAGTTAGA CGAGTATGAA 
AATGGAGAGC TTTCTTTCCG TGGAGATTTA AAACCCAATC ATGTTGGAAT GGATATTCAG 
ATTAATATGT TACAAGAGAA GATTGATGAT CTTACAGCAA AACTGGAAAC TTCATCTTTA 
AAATGTCTAC GTCTGGATGA AGAAAATCAA TTTCTTCGAC AGGAGTTAAT ATCTATGAAA 
GGAATACAAA AGAAATGTGA AATACAAGAG AATGAAAAAA AGTTGAAACA AGAATTAGTA 
AATCTCAAAA GTCACATAGA AATGAATATG GTAGACTACA GTGAGGTAGA ACAGTATAAA 
CGGGAGATTG AAGAAAGAGC AAGACAGGAA ATAGTTGAAA AATTAAAAGA AGTCAATCTA 
TTTTTACAGG CACAAGCAGC ATCTCAAGAA AACTTAGATC AATTACGAGA GAATAATAAT 
GCTTCAGTAA GAAGTCAAAT GGAATGCAGA ATTAAAGATC TGGAATCTGA ACTCTCCAAA 
ATGAAAACTT CTCAAGAAGA GTCTAATAAA GTAGAACTGG AAAAATATAA GCAACTCTAT 
CTAGAAGAAT TAAAAATTAG AAAGTCATTG GCAAATAAAC TAAACAAGAC TAATGAAAGG 
CTGGCAGAAA TGAGCACCAA ACTTCTCGTG AAGAAACAAC AGAACAAATC TCTACTCAGC 
AGTCTTATTA CGAGGCCAGT CCTGGAGCCA CAGGGTGTTG GAAGTCTTAA TCATGGTCTC 
ATAAGCCATG GCAACTTTGT TCCAAGAGAA AACTTGGTGA CTCCTGTCTC AACCCCACGG 
ACTTCAAATA ATAGCTTGGA GACTTACTTG AGCAAGGTGC AGCATGAGTT GGAAAAGAAT 
ATAACTAGAG AACTAAAAGA AGCTGCTGCT GAATTTGAAT CTGAATCTTA TAGACCTTCT 
CCTCTACGTT TTACTGATGA GTCAAGTCTG TATCAAGATC TAGTTTTGAA AACGTCACAA 
GAATACGTAC AGATTTTGAA GAAAAATTAT ATGATCTAA

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

RefSeq	XP_015983306.1
CDS	169..5247
Translation	MKKIFGFGSRKGESPLGSLTSRQRTGVGVRPETGNRVTLGPGYHIRDKDLGKIHKAASVGNVRKVQRILLLRLNGLNDRDRMNRTALHLACASGHPEVVTLLADRKCQLNLCDNENRTALIKAVQCQEEECATILLERGADPNIMDIDGNTALHYAVAAQNMDMAAKLLLYKADTEARNKDDLTPLLLAISENKQQMVEFLVKRNENVRAVDKMKSNCKLPSDYKEEWRCKRSSQNSNLDLQESPKQELQKTNFRTEDESSEEDSVSSLFSKPGIDDSWPTSEDEDFDFDSRNVMKPSLAKLMTAVPQSQKNTEAKYAIVRPENRTLYEDNKSHSDKDDVVEMLPKPSTTVQDCSHHDFLPPDPLLKPSLMSLAVVGLTKKEAMKPAIAKKEYGINITESTPQEQTNNDNCNVDGPHKNNTSDKMSALGLGEEEDVESPWDSESFSASFPQKYVDHLSGAADQRGKNILNGQIEDMFYIPSCISGSRNFKMAKLQDTRNVGIPVAHIDSLEKYPHSKTTVEVEEPVPKKAIEIKEIQTSRSGNCSLRDLGESQLSENRESEEDMSAELDLEITTEEEQERLDGSENNYHWLEEERKKHKSSDMEGTENIYNAATEDNDGLSQQRKSGETDNQQFPVMEDEDSDRSAKKTSKDINKVQEQIHPVADLDDLTQSSETVSEHCELPYSNYQKSMLLLEQLGTDCKDSVSLLKIQDAVMSYERLIELKKNHCELLTGKIKKMENKVIGLQKELSETKEMKSQLEHQRVEWEQELCNLRFTLQQEKERRENTDMLYKKIRDQLMKKEEHYHKEVEMKQQLEITLRTLDMELKTVRNNFNQVVEELNDTQRQLSQEQNARISQDAILTNHLCKQKEIEINLKKMNSEVSDSHEKEKDLLHENYMLQDEIAKLRLEIDTVKNQKQEMEKKYLEDITIVKEKNDQLQKTVKLNEETLTKTVFQYTGQLNVLTAENTMLNSKLENEKQNKDRLETEVESYRSRLATAVHDHEQGQTSKRDLELAFQRARDEWFRLRDKMDFDMSNLKDNNEILSQQLSKAESKLNSLEIELHHTRDALRERTLVLERVQTDLSQIQSQKKEIEHMYQNEQGKVNKYIGKQESLEERFSHLQSENVLLRQQLDDARNKTDSNEKTVIHIQDQFQDIVKTLQAESEKQGRMLEERNKELINECNHLKERMYQYENEKAEREVVVRQLQQELADTLKKQSMSEASLEVTARYRMNLEDETQDLKKKLNQVRSQLQEASDQYAEAVRCAEKTKDHMQKLETENAKLKITIKKQASKMEQLQKNLLGTSSSEDEKEQLKNYIELKHSLEYSLDQEKKKNGELEKEITGFKKLLKLTRRKLDEYENGELSFRGDLKPNHVGMDIQINMLQEKIDDLTAKLETSSLKCLRLDEENQFLRQELISMKGIQKKCEIQENEKKLKQELVNLKSHIEMNMVDYSEVEQYKREIEERARQEIVEKLKEVNLFLQAQAASQENLDQLRENNNASVRSQMECRIKDLESELSKMKTSQEESNKVELEKYKQLYLEELKIRKSLANKLNKTNERLAEMSTKLLVKKQQNKSLLSSLITRPVLEPQGVGSLNHGLISHGNFVPRENLVTPVSTPRTSNNSLETYLSKVQHELEKNITRELKEAAAEFESESYRPSPLRFTDESSLYQDLVLKTSQEYVQILKKNYMI

Target ORF information:

RefSeq Version	XM_016127820.1
Organism	Rousettus aegyptiacus(Egyptian rousette)
Definition	Rousettus aegyptiacus ankyrin repeat domain-containing protein 26-like (LOC107501559), mRNA.

Target ORF information:

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

XM_016127820.1

ORF Insert Sequence:

ATGAAGAAGA TATTTGGCTT TGGGAGTCGG AAGGGCGAGT CGCCCTTGGG CTCCTTAACC 
AGCCGCCAGA GGACTGGCGT GGGCGTCAGG CCTGAGACTG GTAATAGAGT CACGTTGGGG 
CCCGGGTACC ACATCCGAGA CAAAGATCTT GGGAAGATCC ACAAAGCTGC CAGCGTGGGC 
AACGTCCGAA AAGTGCAGCG GATTTTATTG CTCCGTTTAA ATGGCCTGAA TGATAGAGAC 
AGGATGAACA GGACTGCTCT ACATTTGGCC TGTGCCAGCG GCCATCCAGA AGTGGTAACT 
CTCCTGGCAG ACCGAAAATG TCAGCTTAAC CTCTGTGACA ACGAAAATAG GACAGCTCTG 
ATTAAGGCCG TACAATGCCA GGAGGAGGAA TGTGCAACTA TTCTGCTCGA ACGTGGTGCC 
GATCCAAACA TAATGGACAT CGATGGCAAC ACGGCTTTGC ACTATGCTGT CGCTGCTCAG 
AATATGGACA TGGCAGCGAA GCTGCTTTTA TACAAGGCCG ATACTGAAGC AAGGAACAAG 
GATGACCTCA CACCACTTTT ACTTGCTATA AGTGAAAACA AACAGCAAAT GGTGGAGTTT 
TTAGTGAAGA GAAATGAAAA TGTACGTGCT GTCGATAAGA TGAAAAGCAA CTGCAAACTA 
CCTTCTGATT ATAAAGAAGA GTGGAGATGT AAAAGGTCTT CCCAGAATAG CAATCTAGAT 
CTACAGGAAT CACCAAAGCA AGAATTGCAG AAAACAAATT TTAGGACAGA GGATGAAAGT 
TCTGAAGAAG ACTCTGTAAG CAGTCTTTTC AGCAAACCTG GCATTGATGA TTCATGGCCT 
ACATCAGAAG ATGAGGACTT CGATTTTGAT TCCAGGAATG TCATGAAACC AAGCTTAGCA 
AAGCTAATGA CTGCTGTTCC GCAATCCCAG AAAAACACGG AAGCAAAATA TGCGATTGTG 
AGACCAGAAA ATAGGACCTT ATATGAGGAT AATAAATCTC ATAGCGACAA AGATGATGTG 
GTTGAAATGC TTCCCAAACC ATCCACTACA GTCCAGGATT GTTCTCATCA TGATTTCTTA 
CCACCAGATC CTCTTCTAAA ACCTTCTCTC ATGTCTTTGG CAGTCGTTGG TCTTACAAAG 
AAAGAAGCAA TGAAGCCAGC AATTGCAAAA AAGGAATATG GTATCAATAT TACTGAAAGT 
ACTCCACAAG AGCAAACAAA TAATGACAAT TGTAATGTTG ATGGACCACA CAAAAATAAT 
ACAAGTGATA AAATGTCAGC ATTAGGATTA GGAGAAGAGG AAGATGTAGA ATCACCTTGG 
GATTCTGAGA GTTTTTCTGC AAGTTTTCCA CAGAAGTATG TTGATCATTT ATCTGGAGCT 
GCAGATCAAA GAGGAAAAAA TATACTGAAT GGACAAATAG AAGATATGTT TTATATACCT 
TCTTGCATAA GTGGATCAAG AAACTTTAAG ATGGCCAAAC TACAGGATAC AAGAAATGTA 
GGCATACCAG TAGCCCACAT TGATTCTCTT GAAAAATATC CTCATTCGAA GACTACCGTT 
GAAGTGGAAG AGCCTGTTCC TAAGAAAGCA ATAGAAATAA AGGAAATACA AACATCCAGA 
TCAGGAAATT GTAGCCTCCG TGACCTGGGT GAATCACAGC TATCAGAAAA CAGAGAGAGC 
GAAGAAGATA TGTCAGCAGA ACTAGACTTA GAAATAACAA CAGAGGAAGA GCAAGAAAGG 
CTTGATGGAA GTGAAAATAA CTACCATTGG CTTGAAGAAG AAAGGAAAAA GCACAAAAGT 
AGTGACATGG AAGGAACAGA AAACATATAT AATGCTGCCA CTGAGGACAA TGATGGATTA 
AGTCAACAAA GAAAGAGTGG AGAAACTGAT AACCAACAAT TTCCTGTTAT GGAGGATGAA 
GATTCTGACA GGTCTGCAAA GAAAACATCT AAAGACATTA ACAAGGTCCA AGAGCAAATT 
CATCCTGTGG CTGACCTAGA TGATTTAACT CAGTCTTCTG AAACAGTTTC AGAGCATTGT 
GAGTTACCTT ACTCCAATTA TCAGAAATCC ATGTTGCTAC TTGAACAACT TGGCACGGAT 
TGTAAAGATT CTGTTAGCTT ATTGAAAATC CAGGATGCAG TTATGTCATA TGAAAGATTA 
ATAGAACTTA AAAAAAATCA CTGTGAACTA CTTACAGGAA AAATTAAAAA AATGGAAAAT 
AAGGTGATTG GACTACAAAA GGAGCTATCA GAAACAAAAG AAATGAAATC ACAGTTAGAA 
CATCAAAGAG TGGAATGGGA ACAAGAACTC TGCAATTTGA GATTTACCTT ACAACAAGAA 
AAAGAGAGGA GAGAAAATAC CGATATGTTA TATAAAAAAA TTAGGGATCA GTTAATGAAA 
AAAGAAGAGC ACTATCATAA AGAAGTTGAA ATGAAACAAC AACTCGAAAT CACCCTTAGA 
ACATTAGACA TGGAATTGAA GACTGTAAGA AACAATTTCA ATCAGGTTGT AGAAGAGCTA 
AATGACACCC AGAGGCAACT TTCTCAGGAA CAGAACGCCA GAATATCACA AGATGCAATC 
CTGACCAATC ACCTTTGCAA ACAAAAGGAG ATAGAAATCA ATCTTAAGAA AATGAATTCT 
GAGGTTTCTG ATAGTCATGA AAAAGAGAAA GATCTGTTGC ATGAAAACTA CATGTTGCAG 
GATGAAATTG CCAAGCTGAG ATTGGAAATA GACACAGTAA AAAATCAGAA GCAGGAAATG 
GAAAAAAAAT ATTTGGAGGA TATTACAATT GTAAAAGAAA AGAATGACCA ACTTCAGAAG 
ACCGTAAAAC TGAATGAGGA AACACTAACC AAAACAGTAT TTCAATATAC TGGACAGCTT 
AACGTTCTGA CAGCTGAGAA TACAATGCTA AACTCTAAAC TGGAGAATGA AAAACAAAAC 
AAAGACAGAC TGGAAACAGA AGTCGAATCC TACCGTTCTA GACTGGCTAC TGCTGTACAT 
GATCATGAGC AAGGTCAGAC GTCCAAAAGA GACCTAGAAC TTGCTTTTCA GAGAGCAAGA 
GATGAATGGT TTCGTTTACG GGACAAAATG GATTTTGATA TGTCTAACCT GAAAGATAAT 
AATGAGATTC TTTCTCAACA ACTGTCTAAA GCTGAAAGTA AATTGAACAG CTTGGAAATT 
GAGCTGCATC ACACGAGAGA TGCTCTCAGA GAAAGGACTT TGGTTTTAGA ACGTGTCCAA 
ACAGACCTAA GCCAAATACA GAGTCAGAAG AAGGAAATCG AACATATGTA TCAAAATGAA 
CAAGGTAAGG TGAATAAATA CATTGGAAAG CAGGAATCCT TAGAGGAGAG ATTTTCTCAT 
CTACAAAGTG AAAATGTGTT GCTTCGACAG CAACTGGATG ATGCTCGCAA CAAAACTGAC 
AGTAATGAAA AGACAGTAAT TCATATCCAA GATCAGTTTC AGGATATCGT AAAAACACTT 
CAAGCCGAAA GTGAAAAACA AGGTCGTATG CTGGAAGAAA GAAATAAGGA ATTAATCAAT 
GAATGTAATC ATTTAAAAGA AAGGATGTAT CAGTATGAAA ATGAGAAAGC AGAAAGAGAA 
GTGGTTGTGA GGCAACTTCA ACAAGAACTG GCTGACACCC TAAAAAAACA ATCTATGTCA 
GAGGCTTCCC TTGAGGTTAC AGCACGTTAT CGTATGAATT TAGAAGATGA GACACAGGAC 
TTAAAGAAGA AATTAAACCA AGTTAGAAGT CAATTGCAAG AAGCAAGCGA TCAATATGCA 
GAGGCTGTAA GATGTGCTGA GAAGACGAAG GATCACATGC AAAAGCTTGA AACTGAAAAT 
GCCAAGTTAA AAATTACAAT CAAAAAGCAA GCAAGCAAAA TGGAACAGCT TCAAAAAAAC 
CTGTTAGGTA CAAGTTCGTC TGAGGATGAA AAGGAACAAC TAAAGAACTA TATCGAGTTA 
AAACATTCTC TGGAATATAG TTTGGATCAA GAAAAGAAGA AAAATGGTGA ATTAGAAAAA 
GAAATTACTG GATTTAAGAA ACTCTTAAAA CTTACCAGAA GAAAGTTAGA CGAGTATGAA 
AATGGAGAGC TTTCTTTCCG TGGAGATTTA AAACCCAATC ATGTTGGAAT GGATATTCAG 
ATTAATATGT TACAAGAGAA GATTGATGAT CTTACAGCAA AACTGGAAAC TTCATCTTTA 
AAATGTCTAC GTCTGGATGA AGAAAATCAA TTTCTTCGAC AGGAGTTAAT ATCTATGAAA 
GGAATACAAA AGAAATGTGA AATACAAGAG AATGAAAAAA AGTTGAAACA AGAATTAGTA 
AATCTCAAAA GTCACATAGA AATGAATATG GTAGACTACA GTGAGGTAGA ACAGTATAAA 
CGGGAGATTG AAGAAAGAGC AAGACAGGAA ATAGTTGAAA AATTAAAAGA AGTCAATCTA 
TTTTTACAGG CACAAGCAGC ATCTCAAGAA AACTTAGATC AATTACGAGA GAATAATAAT 
GCTTCAGTAA GAAGTCAAAT GGAATGCAGA ATTAAAGATC TGGAATCTGA ACTCTCCAAA 
ATGAAAACTT CTCAAGAAGA GTCTAATAAA GTAGAACTGG AAAAATATAA GCAACTCTAT 
CTAGAAGAAT TAAAAATTAG AAAGTCATTG GCAAATAAAC TAAACAAGAC TAATGAAAGG 
CTGGCAGAAA TGAGCACCAA ACTTCTCGTG AAGAAACAAC AGAACAAATC TCTACTCAGC 
AGTCTTATTA CGAGGCCAGT CCTGGAGCCA CAGGGTGTTG GAAGTCTTAA TCATGGTCTC 
ATAAGCCATG GCAACTTTGT TCCAAGAGAA AACTTGGTGA CTCCTGTCTC AACCCCACGG 
ACTTCAAATA ATAGCTTGGA GACTTACTTG AGCAAGGTGC AGCATGAGTT GGAAAAGAAT 
ATAACTAGAG AACTAAAAGA AGCTGCTGCT GAATTTGAAT CTGAATCTTA TAGACCTTCT 
CCTCTACGTT TTACTGATGA GTCAAGTCTG TATCAAGATC TAGTTTTGAA AACGTCACAA 
GAATACGTAC AGATTTTGAA GAAAAATTAT ATGATCTAA