ktn1 cDNA ORF clone, Haplochromis burtoni(Burton's mouthbrooder)

Gene
Clones
gRNAs

Summary

Gene Symbol	ktn1
Entrez Gene ID	102312676
Full Name	kinectin 1
Gene Type	protein-coding
Organism	Haplochromis burtoni(Burton's mouthbrooder)

mRNA and Protein(s)

mRNA	Protein	Name
XM_005916993.2	XP_005917055.1	kinectin

Pathways from BioSystems
Gene Ontology

The following ktn1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ktn1 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
OHa04190	XM_005916993.2 Latest version!	Haplochromis burtoni kinectin 1 (kinesin receptor) (ktn1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$881.30 $1259.00

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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)

ktn1 ( XM_005916993.2 ) cDNA ORF clone, Haplochromis burtoni(Burton's mouthbrooder) -> XP_005917055.1 Haplochromis burtoni kinectin 1 (kinesin receptor) (ktn1), mRNA.

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CloneID	OHa04190
Clone ID Related Accession (Same CDS sequence)	XM_005916993.2
Accession Version	XM_005916993.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4986bp) 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	2015-09-28
Organism	Haplochromis burtoni(Burton's mouthbrooder)
Product	kinectin
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005179416.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 29, 2015 this sequence version replaced XM_005916993.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Haplochromis burtoni Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

ATGGCGGTGG ATATCTACGA CTCTCAGTAC CTGCTCATCC TGGCCCCTTC ACTGGTCATC 
GCCCTCATGT TCCTCTTCTT CTGGCTCTTC ATGAAAGAAA CCTCCTACGA TGAGGTGCTT 
GCTAAGCAGA AGCGTGACCT CAAGTTGCCA CCAAGCAAGC CAGACCCCCG TAAAAAGAAT 
GAAAAGAAGA AGAGCAAGAA GAAGGAGAGC TCCAGTGGGG GAAACGGCGG AGGAACCGGA 
GGTGGGGGGG AGTCAGAGGA GGATTTGCGG GATTTCGATG TGGCTGAAGG TGCCAACAGC 
TCCACTGTGG AGGTAGAGGA GGAACCTGTG TCAGCTGCTA CCCCTGATCC TGCTCTACCT 
ACACCCACTC CCTATGTGCC TGTTTCGGTG TCACCAGAGG CTCCTACTGG TCTGAGAGAG 
AGAAAGAAGA AGGAGAAGAA GGCTGCCAAA GCTGCTGCTG CCGCCGCTAC TGCTGCCGCC 
GCCACCACAG TTTCCCCCTC TGAGGAGCCA GAAGTGAACG GCTCCAAGCC AGTCAGCTGC 
AAGACAGAGG CACCATTGGC TGCAAGCAAA CAGTCCAGCA CACCCTCACC GAAACGTGAG 
GTTCAGGTCC AGATCCAAGC TGTTCAGGCT CCCGTTCAAG CTCAGACACC TCCCCAGATT 
TCTGGGAAAA AGAAGGAAAA GAAGAAACAA AAAGTGGAGT CTGCAGATGA GCAGCATACA 
GAGGTTAAAG TGGAGCAGGC CCCAGCTACT GTCAAGAAAG AAGCTCCCAT TGTGGCTGAA 
ACCAAAGTTT TAGATGGTGC AACTCAAAGC GTGACCAGTG GCAAAAAGAA GAATTCTGCC 
AAGAAGCAGA AAACTGATCA TGTTGATGAA GCCCATATTT TGCCAGACTC AGCAGCTTCT 
GCTAACCACC AGACAGCCCA TAACGATGAC GCACCATCCA AAGGGTCTGG CAAGAAGCAG 
AAAAACGAGA CTGATAAGGA GAACACAGAG GTGAAACTGA AGGAGCTGCT CTCCGGTCTG 
TCCAGCCTGG CTCTGTCAGA TGCAGAGGCC GTCAGTGTGA TGGCTCTACT GCGAGAGAAG 
AGCCCTAATG CCGTGGACGC CTGGCACAAG TCCTCAACTA GGCCTGACCC GACTGCCCAG 
GAAAGGGAAA AGCTTCTGAC AACTCTGCAG GAGGAGGCCT CCATTGCCAA AGACAAAGTG 
AAACAGCTCA GTCAGGAGCT GCAAGTTGAG AAGCAGAAGA CAAACAGGGT GGAATCAATG 
ATGAGGGAGC AACGCGCAGC GATGGAGAAA GAACTGGGCA GTATGCAGGT CAAAGCACAG 
GGCACCTACC AAGAGCTCCA GACAATGCAA ATAAAGTTTC AGCAGGTGAG GGAGCAGCTG 
GAAGGCCAGA TCAGTCGATT GCAGCAAGAG AACAGCATCC TGAGGGACGC AGTCAGCTCC 
GCCACCAACC AGATGGAGAG CAAGAATTCG GCCGAACTAA ACAAGTTGCG TTCCGAGTAT 
GCCGGCCTGA TGAAAGAGCT ATCAGACAGC AACAGCAAGC TGCAGCAGGA GGAGCACCAG 
AGGAAGTCAC TGGAGGTCAG CTACAAGCAG AACGTGTCCC AGCTGGAGGC ACAGCTGCAG 
GATGCTAAGC GCCGCTGGGA GGAGCTGCAA AACTTTATCC ACAGTGTCAA TGCCGAAAGA 
GAGAAAATTC AGACCTCCAA ACAAGAGCTC CACAATCAGC TGCTGGCAGT TGAGGCTGAG 
ATGAGCAACA AGAACAAGGA GATCCAGACT CTACACAGCA GCCTGACTGA AGCTGTGGTC 
TCCAAGGACC GGCTGGAACA GAAAGTGAGG GAGCTGATGG AAATGTCCAA GCACAGTATG 
CAGGACGACT CGCTCCAGGC CCGAGTTCAG GAACTTATGA ATGAGAACAA AAGTCTTCAG 
GTCCAGATCT CTACGCAGGC CACTCATGTC TCCCACATTG AGGAGCTGCA AAAGCTTTTG 
GCTGAAAAAG AGCTGCAGCG AAAAAGTCTG GAGGATTCTC TAAATGCTGA GAGGAGCAGT 
GGGGCTAGTA GAGAAACTAA CATGCAGGCC TTGCACAATG AGAACATGTC ACTGAAGGCA 
GAGATTCAGA ATCTGCAGGC ACAGATTTCT GATCAGACTG CATCCCAGCT GGCTTTGGAC 
CAGTTCCAGA AGAGTGTCCG GGAGAAGGAG GAAAACATGA AAACTGTAGA GGGCCTGTTG 
GAGAAAGGGT TGATTGAGGT GGCCAACAAA GAGGAGGAGC TTAAGACTGC AAGGAAAGAG 
AATGAGTCAC TTCAACAAGA AATTGAGGAC CTTAAGAAAA AGATGGATAA ACAGGTGTCT 
TCAGAGCTGA TGGTGGAAGA ACTCCAGATA AAATGCTTAA TTTATCTTCA TACTTTGCTT 
CAGGAGCTGC AAGTTGAGAA GCAGAAGACA AACAGGGTGG AATCAATGAT GAGGGAGCAA 
CGCGCAGCGA TGGAGAAAGA ACTGGGCAGT ATGCAGGTCA AAGCACAGGG CACCTACCAA 
GAGCTCCAGA CAATGCAAAT AAAGTTTCAG CAGGTGAGGG AGCAGCTGGA AGGCCAGATC 
AGTCGATTGC AGCAAGAGAA CAGCATCCTG AGGGACGCAG TCAGCTCCGC CACCAACCAG 
ATGGAGAGCA AGAATTCGGC CGAACTAAAC AAGTTGCGTT CCGAGTATGC CGGCCTGATG 
AAAGAGCTAT CAGACAGCAA CAGCAAGCTG CAGCAGGAGG AGCACCAGAG GAAGTCACTG 
GAGGTCAGCT ACAAGCAGAA CGTGTCCCAG CTGGAGGCAC AGCTGCAGGA TGCTAAGCGC 
CGCTGGGAGG AGCTGCAAAA CTTTATCCAC AGTGTCAATG CCGAAAGAGA GAAAATTCAG 
ACCTCCAAAC AAGAGCTCCA CAATCAGCTG CTGGCAGTTG AGGCTGAGAT GAGCAACAAG 
AACAAGGAGA TCCAGACTCT ACACAGCAGC CTGACTGAAG CTGTGGTCTC CAAGGACCGG 
CTGGAACAGA AAGTGAGGGA GCTGATGGAA ATGTCCAAGC ACAGTATGCA GGACGACTCG 
CTCCAGGCCC GAGTTCAGGA ACTTATGAAT GAGAACAAAA GTCTTCAGGT CCAGATCTCT 
ACGCAGGCCA CTCATGTCTC CCACATTGAG GAGCTGCAAA AGCTTTTGGC TGAAAAAGAG 
CTGCAGCGAA AAAGTCTGGA GGATTCTCTA AATGCTGAGA GGAGCAGTGG GGCTAGTAGA 
GAAACTAACA TGCAGGCCTT GCACAATGAG AACATGTCAC TGAAGGCAGA GATTCAGAAT 
CTGCAGGCAC AGATTTCTGA TCAGACTGCA TCCCAGCTGG CTTTGGACCA GTTCCAGAAG 
AGTGTCCGGG AGAAGGAGGA AAACATGAAA ACTGTAGAGG GCCTGTTGGA GAAAGGGTTG 
ATTGAGGTGG CCAACAAAGA GGAGGAGCTT AAGACTGCAA GGAAAGAGAA TGAGTCACTT 
CAACAAGAAA TTGAGGACCT TAAGAAAAAG ATGGATAAAC AGGTGTCTTC AGAGCTGATG 
GTGGAAGAAC TCCAGAGCAA GATCCAAGAA AAGGAAACAA AGCTGAAAAT GGTGGAGGAA 
AGTCTACAGG CAGCACAAGA CAGCAGCTCG GCCAGAGAGA AGACAGTTGA GGCTCTGGAG 
CAGCAGTTGG CTGCCTTGCA GGCAGAGATG GAGCAGCTGA GACAGAAGGA GACAGCAGAA 
GCGCTGACCA GCTCTGCTAC TCAGCTCCAA GAACTCCAGG CTCAGCTGCT GGGAAAGGAC 
CAGAAGATCC AGACACTACA GAGTGAGCTG GAGGCAAGGA CGAAGGAGCT AAGCGAGAAG 
ATTCAGCAGC AGTCCCACAC GGTAGTGCCA AGCCCTGAGC TCCTTACAGC GTTGTCAGAG 
AAGGAGAAAC AGGTCTCCAT TCTGCAGGCT GAGCTGGCTG AGCTGAGGAA CACCGTAAAC 
CTTCAAAGGA AGAAGAATGA TGAGCTTCGG GAGAAAAACT GGAGTGCAAT GGAAGCTCTG 
TCAGCCACCG AGTCCATGCT TCAAGGGAAA CTCAGCAAAG CTGTCAAGGA GAACCAGACA 
GCGCTGGCTG TATGTCAGGC TGAGTGCCGA GATGTTCTGC ACAGACTTCT GCCACATGTG 
CCTCTGCCTT CTGAACAGAA CCATCAAGAA TGGCTCCAAA GATTTGAAAG GGCAGCAGGT 
GAAAACTCCG CTCCACAATC CAGCCCTGGA TCAGGAGACT CGGAGGAACT GGCTGAGAAA 
CTGAAAGAAG CTGAGGAAAC TCAAAGGGTT CTACAGAAAG ACTGTGAGAC GTACAAGAAA 
GTTTTGGCAG AGACAGAGGG CATCCTGCAG CGCCTCCAGA ACAGTGTGGA GCAGGAGGAG 
TCTCGCTGGA GGGTGAAGCT GGAGCTATCG CAAGCAGAAC AAAGAGAGAT GAGCCAGAAA 
GTCGCAGCTT TGGAGCAAGA GGTTGAGAGA CTAACTGATG AAGCAGAGTT GGAAAATCTG 
AGAAGAGAAA AACAGCACTT GGAGTCTGAG TTGGAGAGGG CGGAGCGCGA GAGTGCCACT 
TATGTGACAG AAGTCAGAGA GCTCAAAGAT CTGTTGACTG AATTGCAGAC CAGACTTGAT 
GGCTCATATA CAGAGGCTAT CAGACAGAAT GAGGAGCTGA CTTTGCTGAA AACCCAGCTC 
ACTGAGACGC TGTCGAAGCT GGAGGCAGAA GAAAACGAGA GGCAAAAAGT GGCCGGTGAC 
CTGTATAAGG CCCAACAGTC TGTTGATCTG ATCCAAGGGG AGCTCTCAAA AGTGACAGAC 
AATGCTGATG ACTTGATCGA GAACAGCAGT CTGTCATCAC AAAGAGAGGA GATTGACAGA 
AACGAGAAAA TGACTGCGGG ATTGGGTCAG ACAGTCACCG AACTGCAGCA GCTGCTACAA 
ACTGTCAGCC GGCAACTCAC TAAGAGACAG GAGGGGGAGG CTGGTAAAGA TCTGCCCAAG 
GTATAG

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

RefSeq	XP_005917055.1
CDS	249..5234
Translation	MAVDIYDSQYLLILAPSLVIALMFLFFWLFMKETSYDEVLAKQKRDLKLPPSKPDPRKKNEKKKSKKKESSSGGNGGGTGGGGESEEDLRDFDVAEGANSSTVEVEEEPVSAATPDPALPTPTPYVPVSVSPEAPTGLRERKKKEKKAAKAAAAAATAAAATTVSPSEEPEVNGSKPVSCKTEAPLAASKQSSTPSPKREVQVQIQAVQAPVQAQTPPQISGKKKEKKKQKVESADEQHTEVKVEQAPATVKKEAPIVAETKVLDGATQSVTSGKKKNSAKKQKTDHVDEAHILPDSAASANHQTAHNDDAPSKGSGKKQKNETDKENTEVKLKELLSGLSSLALSDAEAVSVMALLREKSPNAVDAWHKSSTRPDPTAQEREKLLTTLQEEASIAKDKVKQLSQELQVEKQKTNRVESMMREQRAAMEKELGSMQVKAQGTYQELQTMQIKFQQVREQLEGQISRLQQENSILRDAVSSATNQMESKNSAELNKLRSEYAGLMKELSDSNSKLQQEEHQRKSLEVSYKQNVSQLEAQLQDAKRRWEELQNFIHSVNAEREKIQTSKQELHNQLLAVEAEMSNKNKEIQTLHSSLTEAVVSKDRLEQKVRELMEMSKHSMQDDSLQARVQELMNENKSLQVQISTQATHVSHIEELQKLLAEKELQRKSLEDSLNAERSSGASRETNMQALHNENMSLKAEIQNLQAQISDQTASQLALDQFQKSVREKEENMKTVEGLLEKGLIEVANKEEELKTARKENESLQQEIEDLKKKMDKQVSSELMVEELQIKCLIYLHTLLQELQVEKQKTNRVESMMREQRAAMEKELGSMQVKAQGTYQELQTMQIKFQQVREQLEGQISRLQQENSILRDAVSSATNQMESKNSAELNKLRSEYAGLMKELSDSNSKLQQEEHQRKSLEVSYKQNVSQLEAQLQDAKRRWEELQNFIHSVNAEREKIQTSKQELHNQLLAVEAEMSNKNKEIQTLHSSLTEAVVSKDRLEQKVRELMEMSKHSMQDDSLQARVQELMNENKSLQVQISTQATHVSHIEELQKLLAEKELQRKSLEDSLNAERSSGASRETNMQALHNENMSLKAEIQNLQAQISDQTASQLALDQFQKSVREKEENMKTVEGLLEKGLIEVANKEEELKTARKENESLQQEIEDLKKKMDKQVSSELMVEELQSKIQEKETKLKMVEESLQAAQDSSSAREKTVEALEQQLAALQAEMEQLRQKETAEALTSSATQLQELQAQLLGKDQKIQTLQSELEARTKELSEKIQQQSHTVVPSPELLTALSEKEKQVSILQAELAELRNTVNLQRKKNDELREKNWSAMEALSATESMLQGKLSKAVKENQTALAVCQAECRDVLHRLLPHVPLPSEQNHQEWLQRFERAAGENSAPQSSPGSGDSEELAEKLKEAEETQRVLQKDCETYKKVLAETEGILQRLQNSVEQEESRWRVKLELSQAEQREMSQKVAALEQEVERLTDEAELENLRREKQHLESELERAERESATYVTEVRELKDLLTELQTRLDGSYTEAIRQNEELTLLKTQLTETLSKLEAEENERQKVAGDLYKAQQSVDLIQGELSKVTDNADDLIENSSLSSQREEIDRNEKMTAGLGQTVTELQQLLQTVSRQLTKRQEGEAGKDLPKV

Target ORF information:

RefSeq Version	XM_005916993.2
Organism	Haplochromis burtoni(Burton's mouthbrooder)
Definition	Haplochromis burtoni kinectin 1 (kinesin receptor) (ktn1), mRNA.

Target ORF information:

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

XM_005916993.2

ORF Insert Sequence:

ATGGCGGTGG ATATCTACGA CTCTCAGTAC CTGCTCATCC TGGCCCCTTC ACTGGTCATC 
GCCCTCATGT TCCTCTTCTT CTGGCTCTTC ATGAAAGAAA CCTCCTACGA TGAGGTGCTT 
GCTAAGCAGA AGCGTGACCT CAAGTTGCCA CCAAGCAAGC CAGACCCCCG TAAAAAGAAT 
GAAAAGAAGA AGAGCAAGAA GAAGGAGAGC TCCAGTGGGG GAAACGGCGG AGGAACCGGA 
GGTGGGGGGG AGTCAGAGGA GGATTTGCGG GATTTCGATG TGGCTGAAGG TGCCAACAGC 
TCCACTGTGG AGGTAGAGGA GGAACCTGTG TCAGCTGCTA CCCCTGATCC TGCTCTACCT 
ACACCCACTC CCTATGTGCC TGTTTCGGTG TCACCAGAGG CTCCTACTGG TCTGAGAGAG 
AGAAAGAAGA AGGAGAAGAA GGCTGCCAAA GCTGCTGCTG CCGCCGCTAC TGCTGCCGCC 
GCCACCACAG TTTCCCCCTC TGAGGAGCCA GAAGTGAACG GCTCCAAGCC AGTCAGCTGC 
AAGACAGAGG CACCATTGGC TGCAAGCAAA CAGTCCAGCA CACCCTCACC GAAACGTGAG 
GTTCAGGTCC AGATCCAAGC TGTTCAGGCT CCCGTTCAAG CTCAGACACC TCCCCAGATT 
TCTGGGAAAA AGAAGGAAAA GAAGAAACAA AAAGTGGAGT CTGCAGATGA GCAGCATACA 
GAGGTTAAAG TGGAGCAGGC CCCAGCTACT GTCAAGAAAG AAGCTCCCAT TGTGGCTGAA 
ACCAAAGTTT TAGATGGTGC AACTCAAAGC GTGACCAGTG GCAAAAAGAA GAATTCTGCC 
AAGAAGCAGA AAACTGATCA TGTTGATGAA GCCCATATTT TGCCAGACTC AGCAGCTTCT 
GCTAACCACC AGACAGCCCA TAACGATGAC GCACCATCCA AAGGGTCTGG CAAGAAGCAG 
AAAAACGAGA CTGATAAGGA GAACACAGAG GTGAAACTGA AGGAGCTGCT CTCCGGTCTG 
TCCAGCCTGG CTCTGTCAGA TGCAGAGGCC GTCAGTGTGA TGGCTCTACT GCGAGAGAAG 
AGCCCTAATG CCGTGGACGC CTGGCACAAG TCCTCAACTA GGCCTGACCC GACTGCCCAG 
GAAAGGGAAA AGCTTCTGAC AACTCTGCAG GAGGAGGCCT CCATTGCCAA AGACAAAGTG 
AAACAGCTCA GTCAGGAGCT GCAAGTTGAG AAGCAGAAGA CAAACAGGGT GGAATCAATG 
ATGAGGGAGC AACGCGCAGC GATGGAGAAA GAACTGGGCA GTATGCAGGT CAAAGCACAG 
GGCACCTACC AAGAGCTCCA GACAATGCAA ATAAAGTTTC AGCAGGTGAG GGAGCAGCTG 
GAAGGCCAGA TCAGTCGATT GCAGCAAGAG AACAGCATCC TGAGGGACGC AGTCAGCTCC 
GCCACCAACC AGATGGAGAG CAAGAATTCG GCCGAACTAA ACAAGTTGCG TTCCGAGTAT 
GCCGGCCTGA TGAAAGAGCT ATCAGACAGC AACAGCAAGC TGCAGCAGGA GGAGCACCAG 
AGGAAGTCAC TGGAGGTCAG CTACAAGCAG AACGTGTCCC AGCTGGAGGC ACAGCTGCAG 
GATGCTAAGC GCCGCTGGGA GGAGCTGCAA AACTTTATCC ACAGTGTCAA TGCCGAAAGA 
GAGAAAATTC AGACCTCCAA ACAAGAGCTC CACAATCAGC TGCTGGCAGT TGAGGCTGAG 
ATGAGCAACA AGAACAAGGA GATCCAGACT CTACACAGCA GCCTGACTGA AGCTGTGGTC 
TCCAAGGACC GGCTGGAACA GAAAGTGAGG GAGCTGATGG AAATGTCCAA GCACAGTATG 
CAGGACGACT CGCTCCAGGC CCGAGTTCAG GAACTTATGA ATGAGAACAA AAGTCTTCAG 
GTCCAGATCT CTACGCAGGC CACTCATGTC TCCCACATTG AGGAGCTGCA AAAGCTTTTG 
GCTGAAAAAG AGCTGCAGCG AAAAAGTCTG GAGGATTCTC TAAATGCTGA GAGGAGCAGT 
GGGGCTAGTA GAGAAACTAA CATGCAGGCC TTGCACAATG AGAACATGTC ACTGAAGGCA 
GAGATTCAGA ATCTGCAGGC ACAGATTTCT GATCAGACTG CATCCCAGCT GGCTTTGGAC 
CAGTTCCAGA AGAGTGTCCG GGAGAAGGAG GAAAACATGA AAACTGTAGA GGGCCTGTTG 
GAGAAAGGGT TGATTGAGGT GGCCAACAAA GAGGAGGAGC TTAAGACTGC AAGGAAAGAG 
AATGAGTCAC TTCAACAAGA AATTGAGGAC CTTAAGAAAA AGATGGATAA ACAGGTGTCT 
TCAGAGCTGA TGGTGGAAGA ACTCCAGATA AAATGCTTAA TTTATCTTCA TACTTTGCTT 
CAGGAGCTGC AAGTTGAGAA GCAGAAGACA AACAGGGTGG AATCAATGAT GAGGGAGCAA 
CGCGCAGCGA TGGAGAAAGA ACTGGGCAGT ATGCAGGTCA AAGCACAGGG CACCTACCAA 
GAGCTCCAGA CAATGCAAAT AAAGTTTCAG CAGGTGAGGG AGCAGCTGGA AGGCCAGATC 
AGTCGATTGC AGCAAGAGAA CAGCATCCTG AGGGACGCAG TCAGCTCCGC CACCAACCAG 
ATGGAGAGCA AGAATTCGGC CGAACTAAAC AAGTTGCGTT CCGAGTATGC CGGCCTGATG 
AAAGAGCTAT CAGACAGCAA CAGCAAGCTG CAGCAGGAGG AGCACCAGAG GAAGTCACTG 
GAGGTCAGCT ACAAGCAGAA CGTGTCCCAG CTGGAGGCAC AGCTGCAGGA TGCTAAGCGC 
CGCTGGGAGG AGCTGCAAAA CTTTATCCAC AGTGTCAATG CCGAAAGAGA GAAAATTCAG 
ACCTCCAAAC AAGAGCTCCA CAATCAGCTG CTGGCAGTTG AGGCTGAGAT GAGCAACAAG 
AACAAGGAGA TCCAGACTCT ACACAGCAGC CTGACTGAAG CTGTGGTCTC CAAGGACCGG 
CTGGAACAGA AAGTGAGGGA GCTGATGGAA ATGTCCAAGC ACAGTATGCA GGACGACTCG 
CTCCAGGCCC GAGTTCAGGA ACTTATGAAT GAGAACAAAA GTCTTCAGGT CCAGATCTCT 
ACGCAGGCCA CTCATGTCTC CCACATTGAG GAGCTGCAAA AGCTTTTGGC TGAAAAAGAG 
CTGCAGCGAA AAAGTCTGGA GGATTCTCTA AATGCTGAGA GGAGCAGTGG GGCTAGTAGA 
GAAACTAACA TGCAGGCCTT GCACAATGAG AACATGTCAC TGAAGGCAGA GATTCAGAAT 
CTGCAGGCAC AGATTTCTGA TCAGACTGCA TCCCAGCTGG CTTTGGACCA GTTCCAGAAG 
AGTGTCCGGG AGAAGGAGGA AAACATGAAA ACTGTAGAGG GCCTGTTGGA GAAAGGGTTG 
ATTGAGGTGG CCAACAAAGA GGAGGAGCTT AAGACTGCAA GGAAAGAGAA TGAGTCACTT 
CAACAAGAAA TTGAGGACCT TAAGAAAAAG ATGGATAAAC AGGTGTCTTC AGAGCTGATG 
GTGGAAGAAC TCCAGAGCAA GATCCAAGAA AAGGAAACAA AGCTGAAAAT GGTGGAGGAA 
AGTCTACAGG CAGCACAAGA CAGCAGCTCG GCCAGAGAGA AGACAGTTGA GGCTCTGGAG 
CAGCAGTTGG CTGCCTTGCA GGCAGAGATG GAGCAGCTGA GACAGAAGGA GACAGCAGAA 
GCGCTGACCA GCTCTGCTAC TCAGCTCCAA GAACTCCAGG CTCAGCTGCT GGGAAAGGAC 
CAGAAGATCC AGACACTACA GAGTGAGCTG GAGGCAAGGA CGAAGGAGCT AAGCGAGAAG 
ATTCAGCAGC AGTCCCACAC GGTAGTGCCA AGCCCTGAGC TCCTTACAGC GTTGTCAGAG 
AAGGAGAAAC AGGTCTCCAT TCTGCAGGCT GAGCTGGCTG AGCTGAGGAA CACCGTAAAC 
CTTCAAAGGA AGAAGAATGA TGAGCTTCGG GAGAAAAACT GGAGTGCAAT GGAAGCTCTG 
TCAGCCACCG AGTCCATGCT TCAAGGGAAA CTCAGCAAAG CTGTCAAGGA GAACCAGACA 
GCGCTGGCTG TATGTCAGGC TGAGTGCCGA GATGTTCTGC ACAGACTTCT GCCACATGTG 
CCTCTGCCTT CTGAACAGAA CCATCAAGAA TGGCTCCAAA GATTTGAAAG GGCAGCAGGT 
GAAAACTCCG CTCCACAATC CAGCCCTGGA TCAGGAGACT CGGAGGAACT GGCTGAGAAA 
CTGAAAGAAG CTGAGGAAAC TCAAAGGGTT CTACAGAAAG ACTGTGAGAC GTACAAGAAA 
GTTTTGGCAG AGACAGAGGG CATCCTGCAG CGCCTCCAGA ACAGTGTGGA GCAGGAGGAG 
TCTCGCTGGA GGGTGAAGCT GGAGCTATCG CAAGCAGAAC AAAGAGAGAT GAGCCAGAAA 
GTCGCAGCTT TGGAGCAAGA GGTTGAGAGA CTAACTGATG AAGCAGAGTT GGAAAATCTG 
AGAAGAGAAA AACAGCACTT GGAGTCTGAG TTGGAGAGGG CGGAGCGCGA GAGTGCCACT 
TATGTGACAG AAGTCAGAGA GCTCAAAGAT CTGTTGACTG AATTGCAGAC CAGACTTGAT 
GGCTCATATA CAGAGGCTAT CAGACAGAAT GAGGAGCTGA CTTTGCTGAA AACCCAGCTC 
ACTGAGACGC TGTCGAAGCT GGAGGCAGAA GAAAACGAGA GGCAAAAAGT GGCCGGTGAC 
CTGTATAAGG CCCAACAGTC TGTTGATCTG ATCCAAGGGG AGCTCTCAAA AGTGACAGAC 
AATGCTGATG ACTTGATCGA GAACAGCAGT CTGTCATCAC AAAGAGAGGA GATTGACAGA 
AACGAGAAAA TGACTGCGGG ATTGGGTCAG ACAGTCACCG AACTGCAGCA GCTGCTACAA 
ACTGTCAGCC GGCAACTCAC TAAGAGACAG GAGGGGGAGG CTGGTAAAGA TCTGCCCAAG 
GTATAG