CFAP43 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene
Clones
gRNAs

Summary

Gene Symbol	CFAP43
Entrez Gene ID	100480304
Full Name	cilia and flagella associated protein 43
Gene Type	protein-coding
Organism	Ailuropoda melanoleuca(giant panda)

mRNA and Protein(s)

mRNA	Protein	Name
XM_019809560.1	XP_019665119.1	cilia- and flagella-associated protein 43

Pathways from BioSystems
Gene Ontology

The following CFAP43 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CFAP43 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
OAc30160	XM_019809560.1 Latest version!	Ailuropoda melanoleuca cilia and flagella associated protein 43 (CFAP43), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	25	$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)

CFAP43 ( XM_019809560.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019665119.1 Ailuropoda melanoleuca cilia and flagella associated protein 43 (CFAP43), mRNA.

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CloneID	OAc30160
Clone ID Related Accession (Same CDS sequence)	XM_019809560.1
Accession Version	XM_019809560.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5004bp) 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	cilia- and flagella-associated protein 43
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217321.1) 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##

ATGGCGCAAG GCCGGGAGCG CGAGGAGAAC GTCTATGGCA CAGCCGGCGC ATCCCTGTCC 
GTGAGATGGG TCCAAGGATT CCCTAAGCAG AACGTTCATT TTATCAACAA CAGCACCATC 
TGCTATCCGT GTGGGAATTT TGTAATATTT ATTAATATTG AAACCAAGAA AAAGACTGTA 
CTCCAGTGTA TGAATGGAAT TGTCGGTGTC GTGGCAACTA ATATTCCTTA TGAAGTTGTG 
GCTTTTTCTG ACCGGAGGCT AAGACCACTC ATCTACATAT ACAACTTTCC TGGATTGACC 
CGAAGGAACA AATTAAAAGG CAACATTCTT CTGGACTACA CTTTACTTTC ATTCAGTTAC 
TGTGGCACCT ACCTGGCTAG TTACTCCTCT CTCCCAGAAT TTGAACTAGC CCTTTGGAAC 
TGGGAATTAG GTGTCATTTT GTGCAAGAAG TCACAACCTG GTATGGATGT AAGCCAGATG 
ACTTTTAACC CTATGAACTG GCACCAGCTG TGCTTATCAA GTCCAAGTGC GGTGACTGTG 
TGGACCATTG AGAGAAGTAA TCAGGAGCAT CATCTCAAAG CAGAGTCAGT AAAACTACCT 
GTGGAAGATG GGTCATTTTT TAATGAAACA GATGTCATTT TCCCCACCTC ATTGCCCAAG 
GATCTTATCT ATGGACCTGT GCTCCCAGTG TCAGCCATTG CTGGGCTAGT AGGAGAAGAG 
GCAGAAACTT TCAGGCCTAA AGATGATCTC TTTCCTTCGC TTCACCCATC TATGCATTGC 
TGGACTCCAA CAAGTGACCT CTATGTTGGC TGTGAAGAGG GTCATCTTTT AATGGTTAAT 
GGTGAAACCT TGAAGGTGAC TCTACTTACT AAGATAGAAG ACACAGTACC AAAGGAGGGA 
AGAAATATTA TCAGTCCAGT CACCATGGTA TATCAGAAGG GAGGCGTGCT GATTTCTGGA 
ATTGATGGCT TTGTGTATTC TTTTACTATT AAAGATGCAA CTTACAAAGT AGAGGATTTT 
CTTGAGATTG AAGGGCCTGT GGAACATATG GTATTTTCTC CAAATTACCA CATGTTGCTG 
ATTAAAACAG ACAAGGGATC TGTTTATATT TATACTCTTG GTGAGAAGCC AACTTTTGAT 
AAAGTCCTAG AGGCTTGTGA TGGGAAATTT CAGGCAATTG ACTTTATCCC ACCCGGAAAT 
GAATACTGCA TGACACTCAC ACATTCAGGG GAAGTTTGTG TTTGGTATAT AGAAGATGGT 
ACTTGTGCCA GCAGGATTTA TCTGAATACC CCAGCAACAG TTCTGGCTTG CTCTCCTTCC 
TCCCTCTCTG CGGCTGTGGG CACCATGGGT GGCTCCGTCC ACTTCCTCGA TGTCAGGGAT 
GCTGAGGCCC CTCAAGCAAT TCACAAGGCC TTCCCCTCCG AATGGTCTGT GCAGCACCTC 
CTTTATGACC AGCGAGGGAT ATATCTATTA GTTGGAACAT CAGAAGGCTG TGTCTTTATT 
ATCAATGCCA ATCCATCAAG CTTGTTTCAG ATCCTTGGAT TCGTAGAGAT GGGCAAAGGC 
ATTTTACAAA TATCCACAGT GTCTCTTTTG GAAACAGACA TAGTAGAAGT GATGGTGCTT 
TTCCCACTTC CAGAAACAGA AAGAAGCAGA TTGGAAATAT TTACTCTGCC TAAAATACTA 
CCACAAGTTT CTGCGAGCTT TATTGATGAA AGAGGGAGGC TGAAAGATGC ACTCATTCAC 
AGGTTCCGGT ATGAGATAGA ACACAGCCTG TCCTCTGCTG TGCTGGATTT TCAAAGTCAC 
CAAATATATG GCTTCTGTAA CCAAGTGCCA TACATCTGCA CCTACCTTCT TCCTGAACAA 
GAACACAGTG GTATTTGCGT GCTTAAGCCA CACCAAAAAG TGCAAAGCAA ACACTATGGG 
CCTGGAATGC TCTCTCTGTC TCCACATGGG TTGTGGCTCA TAACAATAGC TAAAGGTGGA 
ATTCTGTGCA TCCGAGATGT TCGTACTTTG GAAACGTTTG TTCGAAGTCG GAGTCATTCT 
CACCAGGGAT GTGGGATTCA ATCAGTGAAA ATTTCAATGG ATGGACAAAA CATTCTGGTG 
AATGGGAGAG ATGATGGCAC CCTTGTTTAC CTAAGATGGA GGCGGCTTGG AGGAAACCTA 
GCCAGTGACA TTATCCATTA TTGCCAGAAA CTTTTAATTT CTCTGAGCAA CACCATGGAT 
AAGGAGAATG ATTATTTAAG TATACAACAA GGAGAGTCCT TGAATTTGGA ATCAAAATCT 
GAACACACAA TAAATGAGAA TATGAAGCCA AGCACTGATT CATCACAAGA GGAATTAGTC 
CAAGTTGATA ATATAAAGGA AATTCCCTGG ATACAACAAA AAAGCCAAGA GGCCATCAAA 
AATGAGGTGA AACTGTTTTC CAAGAAAAGG AAAGAGATAA AAACAGGAAT CAAAGCACTT 
GCTAAAACTG TTCTGACTAT GATGGAAGAA AATGAAGCAG TAGATAATAT TGCAAAATTA 
GACCAAAAGG AATTTGGCCT AGATCTTGAA GAACTGGAAA GGCTTCATGA TGAAAATAAG 
GAAGAAGTGA AAAAGATAAG AAAGGACACA GAGATGCAAA ACCTCGCCAA AGCCTATTTG 
GCTGAACTTA TTAAAGAAGA ATGCTGGAAT TCGATGGCTG TGAAAGGTCG AGCTCTTAAG 
TGCTTTCACA TGCCCTACGT GGTTGAGAAC TTTCCAATGA AAGAACGCAC GGAAGAAGAG 
TTGAAAGAAT TAAAGAGAGT TTTGCAGCAA AAGAAGATTG AAACAGAATG TCTTAAACTA 
CGGAAAGAAA TTGTAGAGGT TCCACCTACA ATTACCTTGG CTAAAAAGCA CCATGAAGAG 
GAGGATGAAG AAGAAGAAGA AGTGGCAGTC AAAAATCCCA ACTTGCCCAA TTACCTGCTT 
GGCAGTCTGA GTACTGATTT TGGCGTACAA GCCTCTTTGT TGTCAAGCCA ATTGGAGCTT 
CATTCCAGAG AGGAGAAAAT CAACCAAATT GTATTACTGA AAGATGTCAT TTACAAGGTA 
AAAACTGCTT TCAACAATGA GTTTGATGCT GTGTATAAAC AAAAAGAGTT TGAAGTTGCA 
CGTGTAAAGG AAAGAAATGT AAGAATTCAA GAAATTATTT TAGATCTGGA CTTGGAAGAA 
GTGGTCTGGC AACCAGAATT TGATGATTGC GAGAAGCCAG AGAGAACCCT CGTTGTGGAA 
AACAAAGAGA TTACAGCTCA GAAGCTTCTT AATCCATGGC TGAAAGCCAA AGCAGAATTG 
ACCGTGTCCC GGGAAATGGA GCGATGGCTT CAGACACGGG GCCCCGACAC AAGGCGCCGA 
GCCCTGATGG ACATGATGGG AGGAGTTCTG GAAGTCAAGA AGGAAGATAT TTTGAGAATG 
GTGATTCCTC AGCCTGCTTT CATGGCAAAA CCTGATGCTG TATGGTCTGA AGAGGAGAGG 
AAACAATTCA AAGACTATGA GAAGAAAGTC AAAGAGTTAA ATGAAGAAAG AGATAAGTAT 
AGAAAGTCAT TAGAAGCAGA AATGAAGAAA CTTCAAAACT CCATTCAAGA AAGCACACAG 
AATTTTGATG AACATTTGAA AAGGCTCTTT GAAAGGAGAG TGAAGGCAGA GATGGTTGTC 
AACCAAGAGG AATTGAAAAT AAATAATCTT GTATTTTCTT TACTGTTGGA TGAAGAAATA 
AGCTCCAGAG AAGCATTCCT GAACAACTAC CTTACAAGGA AGCAGGAGGA GAAAAACCAG 
ACTTCAGAGG CCATCCAGAA AGTCAGAGAA GACCTTGATG TGTACAAGGA ACACTATGAC 
AACTTATTGG CAGAAGACAA AGTTCTGGAT CGCAGCTTTA AAAAAGAATT TTCTGAAATT 
CCCAGTCATC AGGTGGATAT ACTCTACAAA CTTTTTAAAC GCCGACCAAG GATTCACAAA 
CAGAAAATGC ACTCAGATGC TGCCAGTATT GTGCCTTTTG GAGAGCGACC AGAATCTGGG 
AAATTGCATA AGGATACCTT TGTCCAGTTA ATGAAAGCCA TGGATGACTT GGACAATATT 
AATAACATGC CAGAAGGCTT GGACCCCTCG GTCTGGGATC ATTTCTGCAT GACCAGACGA 
GCGAAAGTGG AAAATGAACA GAAAGTAAAG CAGAAAGCGG CTGGCTTAAT GGAAATGATG 
GCTTTCCTCC GGAGGAGAAC AGAAGATGAT GAGAAGTTGC AGCAGGAAAT TGAAAAAGTG 
TTCCATGAAC TCATGGTATT GCAGGAAGAG AAAGTGAGAT TCCAGTTGAA TTTGACAATC 
CAACTTCTCC TTAAACAAGG ACAAGTGGAA CTGGAAAATT TTCAGTTATT GCTGGAGTAT 
CCTGATGCAA TTCTCATCAA CAAGAGCATA ATTGAAGACT TGAATTCTGT GATTCGGACT 
CAAGGACAAA AGAAAGTTGC TAGCATGATG GAAAGTAAAG AGGTCCACAA AGGAATATTT 
CAGATTGAGT GGGAACATAA GAAAATGGAG ATGGAAATGG AAGATCTAAA TCAGAAGGCT 
TGGGATATTC AGATGCTGTT TTTTTCAAGA GATCGTCAAA ACTACCTAAA TGAACCAAAC 
TATGAGACTC TGATTGCCAT TCAGATTGGA ATAATGGAGC AAACCATTGC TGTTTTAGAG 
AAGACCCACA AAAAGAATGT GGAAAACTGC AGAAAGCTAC TAAAAAAACT GGGAAGGTAC 
AGCAATCAAA AAGATGTAGC AAATTATACT CTAAGCTGCA ATTTACGAGA AGAGTTGGTG 
GCTGTCTCAG AGAGAAAAGA CATCTGTAAT GCAATGGGGT CTAAACTGAC TTGTGAAAAG 
ATTGCCAAAG AACGATATGA AAACATGATG CAACAACAAA AGTTAACAAA TATTGCAAAA 
CAACAAGCTG AACAGATTTC AGTACTGCAG GCTGAAGTTG AACGATTAAG GATGAGAACA 
TTTCCTGCTC TTGGTCAAAT ATAA

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

RefSeq	XP_019665119.1
CDS	88..5091
Translation	MAQGREREENVYGTAGASLSVRWVQGFPKQNVHFINNSTICYPCGNFVIFINIETKKKTVLQCMNGIVGVVATNIPYEVVAFSDRRLRPLIYIYNFPGLTRRNKLKGNILLDYTLLSFSYCGTYLASYSSLPEFELALWNWELGVILCKKSQPGMDVSQMTFNPMNWHQLCLSSPSAVTVWTIERSNQEHHLKAESVKLPVEDGSFFNETDVIFPTSLPKDLIYGPVLPVSAIAGLVGEEAETFRPKDDLFPSLHPSMHCWTPTSDLYVGCEEGHLLMVNGETLKVTLLTKIEDTVPKEGRNIISPVTMVYQKGGVLISGIDGFVYSFTIKDATYKVEDFLEIEGPVEHMVFSPNYHMLLIKTDKGSVYIYTLGEKPTFDKVLEACDGKFQAIDFIPPGNEYCMTLTHSGEVCVWYIEDGTCASRIYLNTPATVLACSPSSLSAAVGTMGGSVHFLDVRDAEAPQAIHKAFPSEWSVQHLLYDQRGIYLLVGTSEGCVFIINANPSSLFQILGFVEMGKGILQISTVSLLETDIVEVMVLFPLPETERSRLEIFTLPKILPQVSASFIDERGRLKDALIHRFRYEIEHSLSSAVLDFQSHQIYGFCNQVPYICTYLLPEQEHSGICVLKPHQKVQSKHYGPGMLSLSPHGLWLITIAKGGILCIRDVRTLETFVRSRSHSHQGCGIQSVKISMDGQNILVNGRDDGTLVYLRWRRLGGNLASDIIHYCQKLLISLSNTMDKENDYLSIQQGESLNLESKSEHTINENMKPSTDSSQEELVQVDNIKEIPWIQQKSQEAIKNEVKLFSKKRKEIKTGIKALAKTVLTMMEENEAVDNIAKLDQKEFGLDLEELERLHDENKEEVKKIRKDTEMQNLAKAYLAELIKEECWNSMAVKGRALKCFHMPYVVENFPMKERTEEELKELKRVLQQKKIETECLKLRKEIVEVPPTITLAKKHHEEEDEEEEEVAVKNPNLPNYLLGSLSTDFGVQASLLSSQLELHSREEKINQIVLLKDVIYKVKTAFNNEFDAVYKQKEFEVARVKERNVRIQEIILDLDLEEVVWQPEFDDCEKPERTLVVENKEITAQKLLNPWLKAKAELTVSREMERWLQTRGPDTRRRALMDMMGGVLEVKKEDILRMVIPQPAFMAKPDAVWSEEERKQFKDYEKKVKELNEERDKYRKSLEAEMKKLQNSIQESTQNFDEHLKRLFERRVKAEMVVNQEELKINNLVFSLLLDEEISSREAFLNNYLTRKQEEKNQTSEAIQKVREDLDVYKEHYDNLLAEDKVLDRSFKKEFSEIPSHQVDILYKLFKRRPRIHKQKMHSDAASIVPFGERPESGKLHKDTFVQLMKAMDDLDNINNMPEGLDPSVWDHFCMTRRAKVENEQKVKQKAAGLMEMMAFLRRRTEDDEKLQQEIEKVFHELMVLQEEKVRFQLNLTIQLLLKQGQVELENFQLLLEYPDAILINKSIIEDLNSVIRTQGQKKVASMMESKEVHKGIFQIEWEHKKMEMEMEDLNQKAWDIQMLFFSRDRQNYLNEPNYETLIAIQIGIMEQTIAVLEKTHKKNVENCRKLLKKLGRYSNQKDVANYTLSCNLREELVAVSERKDICNAMGSKLTCEKIAKERYENMMQQQKLTNIAKQQAEQISVLQAEVERLRMRTFPALGQI

Target ORF information:

RefSeq Version	XM_019809560.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca cilia and flagella associated protein 43 (CFAP43), mRNA.

Target ORF information:

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

XM_019809560.1

ORF Insert Sequence:

ATGGCGCAAG GCCGGGAGCG CGAGGAGAAC GTCTATGGCA CAGCCGGCGC ATCCCTGTCC 
GTGAGATGGG TCCAAGGATT CCCTAAGCAG AACGTTCATT TTATCAACAA CAGCACCATC 
TGCTATCCGT GTGGGAATTT TGTAATATTT ATTAATATTG AAACCAAGAA AAAGACTGTA 
CTCCAGTGTA TGAATGGAAT TGTCGGTGTC GTGGCAACTA ATATTCCTTA TGAAGTTGTG 
GCTTTTTCTG ACCGGAGGCT AAGACCACTC ATCTACATAT ACAACTTTCC TGGATTGACC 
CGAAGGAACA AATTAAAAGG CAACATTCTT CTGGACTACA CTTTACTTTC ATTCAGTTAC 
TGTGGCACCT ACCTGGCTAG TTACTCCTCT CTCCCAGAAT TTGAACTAGC CCTTTGGAAC 
TGGGAATTAG GTGTCATTTT GTGCAAGAAG TCACAACCTG GTATGGATGT AAGCCAGATG 
ACTTTTAACC CTATGAACTG GCACCAGCTG TGCTTATCAA GTCCAAGTGC GGTGACTGTG 
TGGACCATTG AGAGAAGTAA TCAGGAGCAT CATCTCAAAG CAGAGTCAGT AAAACTACCT 
GTGGAAGATG GGTCATTTTT TAATGAAACA GATGTCATTT TCCCCACCTC ATTGCCCAAG 
GATCTTATCT ATGGACCTGT GCTCCCAGTG TCAGCCATTG CTGGGCTAGT AGGAGAAGAG 
GCAGAAACTT TCAGGCCTAA AGATGATCTC TTTCCTTCGC TTCACCCATC TATGCATTGC 
TGGACTCCAA CAAGTGACCT CTATGTTGGC TGTGAAGAGG GTCATCTTTT AATGGTTAAT 
GGTGAAACCT TGAAGGTGAC TCTACTTACT AAGATAGAAG ACACAGTACC AAAGGAGGGA 
AGAAATATTA TCAGTCCAGT CACCATGGTA TATCAGAAGG GAGGCGTGCT GATTTCTGGA 
ATTGATGGCT TTGTGTATTC TTTTACTATT AAAGATGCAA CTTACAAAGT AGAGGATTTT 
CTTGAGATTG AAGGGCCTGT GGAACATATG GTATTTTCTC CAAATTACCA CATGTTGCTG 
ATTAAAACAG ACAAGGGATC TGTTTATATT TATACTCTTG GTGAGAAGCC AACTTTTGAT 
AAAGTCCTAG AGGCTTGTGA TGGGAAATTT CAGGCAATTG ACTTTATCCC ACCCGGAAAT 
GAATACTGCA TGACACTCAC ACATTCAGGG GAAGTTTGTG TTTGGTATAT AGAAGATGGT 
ACTTGTGCCA GCAGGATTTA TCTGAATACC CCAGCAACAG TTCTGGCTTG CTCTCCTTCC 
TCCCTCTCTG CGGCTGTGGG CACCATGGGT GGCTCCGTCC ACTTCCTCGA TGTCAGGGAT 
GCTGAGGCCC CTCAAGCAAT TCACAAGGCC TTCCCCTCCG AATGGTCTGT GCAGCACCTC 
CTTTATGACC AGCGAGGGAT ATATCTATTA GTTGGAACAT CAGAAGGCTG TGTCTTTATT 
ATCAATGCCA ATCCATCAAG CTTGTTTCAG ATCCTTGGAT TCGTAGAGAT GGGCAAAGGC 
ATTTTACAAA TATCCACAGT GTCTCTTTTG GAAACAGACA TAGTAGAAGT GATGGTGCTT 
TTCCCACTTC CAGAAACAGA AAGAAGCAGA TTGGAAATAT TTACTCTGCC TAAAATACTA 
CCACAAGTTT CTGCGAGCTT TATTGATGAA AGAGGGAGGC TGAAAGATGC ACTCATTCAC 
AGGTTCCGGT ATGAGATAGA ACACAGCCTG TCCTCTGCTG TGCTGGATTT TCAAAGTCAC 
CAAATATATG GCTTCTGTAA CCAAGTGCCA TACATCTGCA CCTACCTTCT TCCTGAACAA 
GAACACAGTG GTATTTGCGT GCTTAAGCCA CACCAAAAAG TGCAAAGCAA ACACTATGGG 
CCTGGAATGC TCTCTCTGTC TCCACATGGG TTGTGGCTCA TAACAATAGC TAAAGGTGGA 
ATTCTGTGCA TCCGAGATGT TCGTACTTTG GAAACGTTTG TTCGAAGTCG GAGTCATTCT 
CACCAGGGAT GTGGGATTCA ATCAGTGAAA ATTTCAATGG ATGGACAAAA CATTCTGGTG 
AATGGGAGAG ATGATGGCAC CCTTGTTTAC CTAAGATGGA GGCGGCTTGG AGGAAACCTA 
GCCAGTGACA TTATCCATTA TTGCCAGAAA CTTTTAATTT CTCTGAGCAA CACCATGGAT 
AAGGAGAATG ATTATTTAAG TATACAACAA GGAGAGTCCT TGAATTTGGA ATCAAAATCT 
GAACACACAA TAAATGAGAA TATGAAGCCA AGCACTGATT CATCACAAGA GGAATTAGTC 
CAAGTTGATA ATATAAAGGA AATTCCCTGG ATACAACAAA AAAGCCAAGA GGCCATCAAA 
AATGAGGTGA AACTGTTTTC CAAGAAAAGG AAAGAGATAA AAACAGGAAT CAAAGCACTT 
GCTAAAACTG TTCTGACTAT GATGGAAGAA AATGAAGCAG TAGATAATAT TGCAAAATTA 
GACCAAAAGG AATTTGGCCT AGATCTTGAA GAACTGGAAA GGCTTCATGA TGAAAATAAG 
GAAGAAGTGA AAAAGATAAG AAAGGACACA GAGATGCAAA ACCTCGCCAA AGCCTATTTG 
GCTGAACTTA TTAAAGAAGA ATGCTGGAAT TCGATGGCTG TGAAAGGTCG AGCTCTTAAG 
TGCTTTCACA TGCCCTACGT GGTTGAGAAC TTTCCAATGA AAGAACGCAC GGAAGAAGAG 
TTGAAAGAAT TAAAGAGAGT TTTGCAGCAA AAGAAGATTG AAACAGAATG TCTTAAACTA 
CGGAAAGAAA TTGTAGAGGT TCCACCTACA ATTACCTTGG CTAAAAAGCA CCATGAAGAG 
GAGGATGAAG AAGAAGAAGA AGTGGCAGTC AAAAATCCCA ACTTGCCCAA TTACCTGCTT 
GGCAGTCTGA GTACTGATTT TGGCGTACAA GCCTCTTTGT TGTCAAGCCA ATTGGAGCTT 
CATTCCAGAG AGGAGAAAAT CAACCAAATT GTATTACTGA AAGATGTCAT TTACAAGGTA 
AAAACTGCTT TCAACAATGA GTTTGATGCT GTGTATAAAC AAAAAGAGTT TGAAGTTGCA 
CGTGTAAAGG AAAGAAATGT AAGAATTCAA GAAATTATTT TAGATCTGGA CTTGGAAGAA 
GTGGTCTGGC AACCAGAATT TGATGATTGC GAGAAGCCAG AGAGAACCCT CGTTGTGGAA 
AACAAAGAGA TTACAGCTCA GAAGCTTCTT AATCCATGGC TGAAAGCCAA AGCAGAATTG 
ACCGTGTCCC GGGAAATGGA GCGATGGCTT CAGACACGGG GCCCCGACAC AAGGCGCCGA 
GCCCTGATGG ACATGATGGG AGGAGTTCTG GAAGTCAAGA AGGAAGATAT TTTGAGAATG 
GTGATTCCTC AGCCTGCTTT CATGGCAAAA CCTGATGCTG TATGGTCTGA AGAGGAGAGG 
AAACAATTCA AAGACTATGA GAAGAAAGTC AAAGAGTTAA ATGAAGAAAG AGATAAGTAT 
AGAAAGTCAT TAGAAGCAGA AATGAAGAAA CTTCAAAACT CCATTCAAGA AAGCACACAG 
AATTTTGATG AACATTTGAA AAGGCTCTTT GAAAGGAGAG TGAAGGCAGA GATGGTTGTC 
AACCAAGAGG AATTGAAAAT AAATAATCTT GTATTTTCTT TACTGTTGGA TGAAGAAATA 
AGCTCCAGAG AAGCATTCCT GAACAACTAC CTTACAAGGA AGCAGGAGGA GAAAAACCAG 
ACTTCAGAGG CCATCCAGAA AGTCAGAGAA GACCTTGATG TGTACAAGGA ACACTATGAC 
AACTTATTGG CAGAAGACAA AGTTCTGGAT CGCAGCTTTA AAAAAGAATT TTCTGAAATT 
CCCAGTCATC AGGTGGATAT ACTCTACAAA CTTTTTAAAC GCCGACCAAG GATTCACAAA 
CAGAAAATGC ACTCAGATGC TGCCAGTATT GTGCCTTTTG GAGAGCGACC AGAATCTGGG 
AAATTGCATA AGGATACCTT TGTCCAGTTA ATGAAAGCCA TGGATGACTT GGACAATATT 
AATAACATGC CAGAAGGCTT GGACCCCTCG GTCTGGGATC ATTTCTGCAT GACCAGACGA 
GCGAAAGTGG AAAATGAACA GAAAGTAAAG CAGAAAGCGG CTGGCTTAAT GGAAATGATG 
GCTTTCCTCC GGAGGAGAAC AGAAGATGAT GAGAAGTTGC AGCAGGAAAT TGAAAAAGTG 
TTCCATGAAC TCATGGTATT GCAGGAAGAG AAAGTGAGAT TCCAGTTGAA TTTGACAATC 
CAACTTCTCC TTAAACAAGG ACAAGTGGAA CTGGAAAATT TTCAGTTATT GCTGGAGTAT 
CCTGATGCAA TTCTCATCAA CAAGAGCATA ATTGAAGACT TGAATTCTGT GATTCGGACT 
CAAGGACAAA AGAAAGTTGC TAGCATGATG GAAAGTAAAG AGGTCCACAA AGGAATATTT 
CAGATTGAGT GGGAACATAA GAAAATGGAG ATGGAAATGG AAGATCTAAA TCAGAAGGCT 
TGGGATATTC AGATGCTGTT TTTTTCAAGA GATCGTCAAA ACTACCTAAA TGAACCAAAC 
TATGAGACTC TGATTGCCAT TCAGATTGGA ATAATGGAGC AAACCATTGC TGTTTTAGAG 
AAGACCCACA AAAAGAATGT GGAAAACTGC AGAAAGCTAC TAAAAAAACT GGGAAGGTAC 
AGCAATCAAA AAGATGTAGC AAATTATACT CTAAGCTGCA ATTTACGAGA AGAGTTGGTG 
GCTGTCTCAG AGAGAAAAGA CATCTGTAAT GCAATGGGGT CTAAACTGAC TTGTGAAAAG 
ATTGCCAAAG AACGATATGA AAACATGATG CAACAACAAA AGTTAACAAA TATTGCAAAA 
CAACAAGCTG AACAGATTTC AGTACTGCAG GCTGAAGTTG AACGATTAAG GATGAGAACA 
TTTCCTGCTC TTGGTCAAAT ATAA