LOC107386538 cDNA ORF clone, Nothobranchius furzeri(turquoise killifish)

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC107386538
Entrez Gene ID	107386538
Full Name	rho GTPase-activating protein 35-like
Gene Type	protein-coding
Organism	Nothobranchius furzeri(turquoise killifish)

mRNA and Protein(s)

mRNA	Protein	Name
XM_015960998.1	XP_015816484.1	rho GTPase-activating protein 35-like isoform X1
XM_015960999.1	XP_015816485.1	rho GTPase-activating protein 35-like isoform X2

Pathways from BioSystems
Gene Ontology

The following LOC107386538 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC107386538 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
ONo18023	XM_015960998.1 Latest version!	Nothobranchius furzeri rho GTPase-activating protein 35-like (LOC107386538), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$881.30 $1259.00
ONo18024	XM_015960999.1 Latest version!	Nothobranchius furzeri rho GTPase-activating protein 35-like (LOC107386538), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$881.30 $1259.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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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)

LOC107386538 ( XM_015960998.1 ) cDNA ORF clone, Nothobranchius furzeri(turquoise killifish) -> XP_015816484.1 Nothobranchius furzeri rho GTPase-activating protein 35-like (LOC107386538), transcript variant X1, mRNA.

Price & Availability↑

CloneID	ONo18023
Clone ID Related Accession (Same CDS sequence)	XM_015960998.1
Accession Version	XM_015960998.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4608bp) 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	2016-03-17
Organism	Nothobranchius furzeri(turquoise killifish)
Product	rho GTPase-activating protein 35-like isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_015443565.1) 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 :: Nothobranchius furzeri 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##

ATGATGGCGA AAAAGCAAGA TGCACGATCA CCCATATACA ACCTTGTTGT GGTGGGTTTG 
TCAGGAACAG AAAAAGAGAA GGGGCAATGT GGGGTTGGAA AATCCTGTTT GTGTAATAGA 
TATGTGCGAC CAAGTGCTGA TGATTTCTAC CTGGATCACA CATCGGTGTT AAGCACCAGT 
GACTTTGGGG GGCGAGTGGT TAACAATGAT CACTTTCTGT TTTGGGGAGA GGTGTCTCGG 
GTCCTGGAGG AGGGGCCTGA ATGCAGGTTG CATGTTGTGG AGCAAACTGA ATTTATTGAT 
GACCAGACAT TTCAGCCACA CCGTAGCACT GCTATGCAGC CCTATATCAA ACGAGCAGCT 
GGAACCAAGT TGGCCTCAGC AGAGAAGCTG ATGTACTTCT GCACAGATCA ACTGGGTCTG 
GAACAAGATT TCGAGCAAAA GCAAATGCCA GAGGGCAAGC TGCAGGTTGA TGGCTTCCTG 
CTTTGTGTTG ACGTGAGCCG GGGCATGAAT CGCAACTTTG ATGATCAGCT GAAATTTGTC 
TCAAACCTAT ATGGACAGCT TAGTAAAACC AAGAAGCCCA TTGTTTTGGT GCTCACCAAA 
TGTGATGAAG GAGTTGAACG CTACATCAAA GATGCGCATA CCTTTGCCAT AACAAAGAAA 
AACCTACCAG TAGTTGAGAC TTCTGCACGC TCAAATATAA ATGTGGATCT TGCCTTCCTC 
ACATTGGTTC AGCTTATCGA TAGGAGCAGG GGCAAGCCCA AAATCATTCC TTATTTTGAA 
GCCCTAAAGC TCCAAAGTCA GCAAATAGCC TCTGCCAAGG ATCGCTATGA ATGGCTGATC 
AACCGCATTG TAAAGAATCA CAATGAAACC TGGTTAAACG CCAGCCGAAG AATGAACACC 
TCACCAGAGT ACAAGGAATA TGTCTTCTTG GAAGGAACTG CTAAATGCAA AAAGCTTTTT 
CAACAGCATG TTTATCGTCT GAAACAGGAG CATATTGAGA GGCGTCGCAA AATATATTTA 
AGCACTCTTC CATTAGCACT CAGTTCTTTG GTGCCAGACC TTGATGAGAT TGATCAGTTG 
AGCTGGTCTG GAGTGCAGAA GGTGCTAGAG TCCAAGCAAC ACTTTACCCA CTGGTTTGTT 
GTTTTGGAGG ATTCACCATG GGAAGACACA TCCCACATTG ATAACATGGA AGATGAACGG 
ATCCCCTCAG ACCTTCTGGA GACTGGTGAA GCAGAAGACA TATTTAATGC TCACCTGGAA 
CATCTGCGTA ATGAGTGTAG GCGTGCAGAA ATACGACAGG AGTTTAAGCA AAAGTTAGCT 
TCCTCCCCCT TTGTCACACC TGGTAAACCT TGGGAGGAAG CCCGAAGCTT CATCATGAAC 
GAAGAGTTCT ACCAGTGGCT TGAGGAGCCT GAGTACTTGG ACCTGTACAA CCGGCATCAG 
AAGGAGATTA TTGATCGTGC TAAAGAAGAC TTTCAGGAGC TTTTGCTTGA GTACTCGGAG 
CTTTTTTATG AACTTGAAGT GGATGCCAAG CCAAGCAAAG AGAAAATGGG AGCAATTCAA 
GAGGTTCTGG GGGAGGAACC AAGGTTTAAA ACCTTACAAA AGCTTCCTGC AGAAAGAGAT 
GCTCTTGTGT TGAAGCATAT CCACTTTGTT TATCACCCCA CAAAAGAGAC CTGTCCTAGT 
AGTCCTCACT GTGGAGACTC TAAAATTGAA CAAATCCTTG CTTCACGTTT TCCCATGTGT 
TACCCCTTCT TTGATGTGAA AGCTCATTTT GGGGACACTA AAGCTGACAG AATTAACCTT 
GTCATACTAG GGAAGGATGG ACTTGCCAGA GAATTTGCCA ATGAGATTAG AACTCTCTGC 
ACAAACGATG ACTGGTATGT GTTAGATGGG AAGATGTATG AGTTGACACT GCGGCCCATT 
GAGGGAAATG TACGTCTTCC AGTAAATTCC TTCCACACCC CCACCTTCAC CCCCCATGGA 
TGTCTATGTC TGTATAATTC AAAAGAGTCC CTTACCTATG TGGTGGAAAG CCTTGAGCGA 
CTTAGAGAAT CGACCCTTGG TCGAAGGGAT AGCCAGCTGG CACAGCTGCC TACATTTCTT 
CTTTTAGTCA CTAAAAGAGG TGTAGGGTCA TATGTTGACA TAGGTGGAGA CACTGCCTTA 
AACCTAATAA CACAGGGACA GCAGGTTGCA AGGAGACTAC AGTGTAGCTT TTTAGACCCT 
GCCTCTCCTG GTGTTGGCTA TGGACATAAT GTAAATGAGA CTCAAATTAA CCAGGTGCTG 
AGGGGTCTGC TTGATGTTAG GAGGAGCACA TCTTTTAGTA GCAGCTCTCC ACCCCTCTTC 
TCTGAGCCTC CAGGTCTCAG AGACTCTCCC CATCAGCCAG TCCAGGAGGC AGACCTTCGC 
ATTGTCATGT GCTTAATGTG TGGAGATTCC TATGACATTG AGCAGCTCCT GTCTCCATTC 
CTCATGCATC AGTACTGCAG GCCTATGTCT AATAGTGGTA CCTCTGTGCT GTTGGAGCAG 
ACAGTTGGTG GACACAAGCT GGCTATAGAG CTCTCTCTAC TCTCATATCA TGCCTCATTC 
ACTTTGCGAA AGAGCAGGTT AGTTCATGGC TACATTGCTG TTTATTCAGT CACCCGAAAA 
GCCTCTCTGG AGACTCTGTG CGCATTCTTG TGTGAGGTTC AGGACATCAT CCCCATTCAG 
CTGTTGGCAG TAAGAGATAG CCAGGTTGAG CTCATTGACA GTGAATTTGC CTGTGAACAA 
CAGATTCAAG GAGAGGAGCT AGCTCATGAG ATTGAGGGCC GTTTCAATAG TGTGGTTTGT 
GGATCTGGAG GAGTGGTGGG GGGTCTGCAT AGGATAGAAA TGTTCCATTC ATTTCTGATG 
GAGGTGGTAG AGAAACGCAA CATTGTGGAG GCCACACACA TGTACGATAA TGTTGCAGAA 
GCATGCACCA ATGAAAATGT GTATTCCCCA CGGTGCATAT CTCCCAGTCC CGTCACCATG 
TTTGTGGATT CAGAAGATGA TGTAGAGCCA TCTCCACCAT ACTATGATGG AACACTCTCT 
TCACACAGTG GGAGTTTCAA TGTGCCTGAT CTGGATTCCA GTGATATCTC TGTCATATCT 
GATATCAGGG ACTTTGAGAA CAAGCTCAAT AACAAAATAT CCCCCCAAGT GAGAGGTAAG 
CCAGGTTTTG ACTTCCGGAA GGTGAGTCGT AACCCATACA TCGATACACT AGGTCATCGT 
CGTTCCCTGC CCTCTGCTGT TACTTGGGTT CCTGGTGGGG ATGTGAGTTA TGACCCCTCA 
GACTATGCTG AACCCATTGA TGCAGTTTCG AAGCCTCGCC CTAGCAATGA AGAGATCATT 
TACTCAGTTC CACATGACAG CACACAAGGC AAAATCATCA CTATACGTAA CTCCAACAGG 
ATGCATTCAA ATGGAAATGG TTCAGACAGT GAAGCAGACA GTAGCTCTCT GGAGCGAAGA 
AGGAAATTCT CAGCAGTCGG GGTAAAGCCT CGTCTGTATC GCGATCGCTC CAAGCGGCTT 
GGCAAGTTCA GTACTTTCCG CACAAGCTTC ATCGGCAGTG ATGATGAAAT GGGAGCCCTT 
TCAAAGTCTA AAGAAGATGA CTTTGGGACT TTGAAAGGTG ACAGTCTTGG TAACGAGGAG 
AGTGAGGACC CAAAGAAGAG GAACATTCTC AAGAGTCTCA GACGAACAGC CAAGACCTCC 
AATCCACTTT TCCGACAGAA AACAAGAACA AAACCCCGCC CAAGTATTCC TAAACCCATG 
GAGAGCAGTT ACTTTGGAGT TCCCCTGGTG AGTGTGGTTT CCCCAGACAG ACCGATTCCA 
CTCTTCATTG AGAAGTGTGT ACGCTTCATT GAAACCACAG GCCTGAACAC CGAAGGTTTG 
TACCGTGTGA GTGGCAACAA GTCAGAGATG GAAAGCATGC AAAAGCAGTT CGAACAGGAC 
CACGGATTAG ACCTGGTGGA GAAAGACTTT TCTATAAACA CTGTGGCAGG AGCTCTCAAA 
AGCTTCTTCT CAGAACTGCC TGAGCCTCTG GTGCCTTGTG CTCTGCAGGT GGACCTATTG 
GACGCGTTCA AGATCAACGA CAGAGAACAG AGGCTTTATA CCATGAAGGA TGTCCTAAGG 
AAGTTCCCCA AGGAGAATTA TGATGCCTTT AAATACGTAG TGAGCCACTT ACACAAGGTG 
AGCCAGTTTA ACAGGGTGAA CCTAATGACC AGTGAAAACT TGTCCATCTG TTTCTGGCCC 
ACCCTCATGA GGCCAGACTT CTCCACGATG GACGCCCTGA CTGCCACACG CACCTACCAG 
ACAATCATCG AGAGCTTCAT CCACCAGTGT GCATTTTTCT TCTACAACCA GCCTCTGCTT 
GACTCCCCCA CGGGCCTCGG GGGCCTCCCT GCCTCACCCA CCACCACCCT CAGCGGGAGC 
TCTGCCTACT CTTGTTACCG CTCCTCCCCC CCCCACACTG CCGCTCACTT TAGCCCTCTG 
CAGCAGTCCC CACCCACCAC CCCACAGTCA CCCCTGAAGT CCCTGCTTCC TCCCCTCCAC 
CAGCACCCCC ACTCCCACCA TTCTCCTGCT GAACAAGAGA CACTGTGA

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

RefSeq	XP_015816484.1
CDS	1056..5663
Translation	MMAKKQDARSPIYNLVVVGLSGTEKEKGQCGVGKSCLCNRYVRPSADDFYLDHTSVLSTSDFGGRVVNNDHFLFWGEVSRVLEEGPECRLHVVEQTEFIDDQTFQPHRSTAMQPYIKRAAGTKLASAEKLMYFCTDQLGLEQDFEQKQMPEGKLQVDGFLLCVDVSRGMNRNFDDQLKFVSNLYGQLSKTKKPIVLVLTKCDEGVERYIKDAHTFAITKKNLPVVETSARSNINVDLAFLTLVQLIDRSRGKPKIIPYFEALKLQSQQIASAKDRYEWLINRIVKNHNETWLNASRRMNTSPEYKEYVFLEGTAKCKKLFQQHVYRLKQEHIERRRKIYLSTLPLALSSLVPDLDEIDQLSWSGVQKVLESKQHFTHWFVVLEDSPWEDTSHIDNMEDERIPSDLLETGEAEDIFNAHLEHLRNECRRAEIRQEFKQKLASSPFVTPGKPWEEARSFIMNEEFYQWLEEPEYLDLYNRHQKEIIDRAKEDFQELLLEYSELFYELEVDAKPSKEKMGAIQEVLGEEPRFKTLQKLPAERDALVLKHIHFVYHPTKETCPSSPHCGDSKIEQILASRFPMCYPFFDVKAHFGDTKADRINLVILGKDGLAREFANEIRTLCTNDDWYVLDGKMYELTLRPIEGNVRLPVNSFHTPTFTPHGCLCLYNSKESLTYVVESLERLRESTLGRRDSQLAQLPTFLLLVTKRGVGSYVDIGGDTALNLITQGQQVARRLQCSFLDPASPGVGYGHNVNETQINQVLRGLLDVRRSTSFSSSSPPLFSEPPGLRDSPHQPVQEADLRIVMCLMCGDSYDIEQLLSPFLMHQYCRPMSNSGTSVLLEQTVGGHKLAIELSLLSYHASFTLRKSRLVHGYIAVYSVTRKASLETLCAFLCEVQDIIPIQLLAVRDSQVELIDSEFACEQQIQGEELAHEIEGRFNSVVCGSGGVVGGLHRIEMFHSFLMEVVEKRNIVEATHMYDNVAEACTNENVYSPRCISPSPVTMFVDSEDDVEPSPPYYDGTLSSHSGSFNVPDLDSSDISVISDIRDFENKLNNKISPQVRGKPGFDFRKVSRNPYIDTLGHRRSLPSAVTWVPGGDVSYDPSDYAEPIDAVSKPRPSNEEIIYSVPHDSTQGKIITIRNSNRMHSNGNGSDSEADSSSLERRRKFSAVGVKPRLYRDRSKRLGKFSTFRTSFIGSDDEMGALSKSKEDDFGTLKGDSLGNEESEDPKKRNILKSLRRTAKTSNPLFRQKTRTKPRPSIPKPMESSYFGVPLVSVVSPDRPIPLFIEKCVRFIETTGLNTEGLYRVSGNKSEMESMQKQFEQDHGLDLVEKDFSINTVAGALKSFFSELPEPLVPCALQVDLLDAFKINDREQRLYTMKDVLRKFPKENYDAFKYVVSHLHKVSQFNRVNLMTSENLSICFWPTLMRPDFSTMDALTATRTYQTIIESFIHQCAFFFYNQPLLDSPTGLGGLPASPTTTLSGSSAYSCYRSSPPHTAAHFSPLQQSPPTTPQSPLKSLLPPLHQHPHSHHSPAEQETL

Target ORF information:

RefSeq Version	XM_015960998.1
Organism	Nothobranchius furzeri(turquoise killifish)
Definition	Nothobranchius furzeri rho GTPase-activating protein 35-like (LOC107386538), transcript variant X1, mRNA.

Target ORF information:

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

XM_015960998.1

ORF Insert Sequence:

ATGATGGCGA AAAAGCAAGA TGCACGATCA CCCATATACA ACCTTGTTGT GGTGGGTTTG 
TCAGGAACAG AAAAAGAGAA GGGGCAATGT GGGGTTGGAA AATCCTGTTT GTGTAATAGA 
TATGTGCGAC CAAGTGCTGA TGATTTCTAC CTGGATCACA CATCGGTGTT AAGCACCAGT 
GACTTTGGGG GGCGAGTGGT TAACAATGAT CACTTTCTGT TTTGGGGAGA GGTGTCTCGG 
GTCCTGGAGG AGGGGCCTGA ATGCAGGTTG CATGTTGTGG AGCAAACTGA ATTTATTGAT 
GACCAGACAT TTCAGCCACA CCGTAGCACT GCTATGCAGC CCTATATCAA ACGAGCAGCT 
GGAACCAAGT TGGCCTCAGC AGAGAAGCTG ATGTACTTCT GCACAGATCA ACTGGGTCTG 
GAACAAGATT TCGAGCAAAA GCAAATGCCA GAGGGCAAGC TGCAGGTTGA TGGCTTCCTG 
CTTTGTGTTG ACGTGAGCCG GGGCATGAAT CGCAACTTTG ATGATCAGCT GAAATTTGTC 
TCAAACCTAT ATGGACAGCT TAGTAAAACC AAGAAGCCCA TTGTTTTGGT GCTCACCAAA 
TGTGATGAAG GAGTTGAACG CTACATCAAA GATGCGCATA CCTTTGCCAT AACAAAGAAA 
AACCTACCAG TAGTTGAGAC TTCTGCACGC TCAAATATAA ATGTGGATCT TGCCTTCCTC 
ACATTGGTTC AGCTTATCGA TAGGAGCAGG GGCAAGCCCA AAATCATTCC TTATTTTGAA 
GCCCTAAAGC TCCAAAGTCA GCAAATAGCC TCTGCCAAGG ATCGCTATGA ATGGCTGATC 
AACCGCATTG TAAAGAATCA CAATGAAACC TGGTTAAACG CCAGCCGAAG AATGAACACC 
TCACCAGAGT ACAAGGAATA TGTCTTCTTG GAAGGAACTG CTAAATGCAA AAAGCTTTTT 
CAACAGCATG TTTATCGTCT GAAACAGGAG CATATTGAGA GGCGTCGCAA AATATATTTA 
AGCACTCTTC CATTAGCACT CAGTTCTTTG GTGCCAGACC TTGATGAGAT TGATCAGTTG 
AGCTGGTCTG GAGTGCAGAA GGTGCTAGAG TCCAAGCAAC ACTTTACCCA CTGGTTTGTT 
GTTTTGGAGG ATTCACCATG GGAAGACACA TCCCACATTG ATAACATGGA AGATGAACGG 
ATCCCCTCAG ACCTTCTGGA GACTGGTGAA GCAGAAGACA TATTTAATGC TCACCTGGAA 
CATCTGCGTA ATGAGTGTAG GCGTGCAGAA ATACGACAGG AGTTTAAGCA AAAGTTAGCT 
TCCTCCCCCT TTGTCACACC TGGTAAACCT TGGGAGGAAG CCCGAAGCTT CATCATGAAC 
GAAGAGTTCT ACCAGTGGCT TGAGGAGCCT GAGTACTTGG ACCTGTACAA CCGGCATCAG 
AAGGAGATTA TTGATCGTGC TAAAGAAGAC TTTCAGGAGC TTTTGCTTGA GTACTCGGAG 
CTTTTTTATG AACTTGAAGT GGATGCCAAG CCAAGCAAAG AGAAAATGGG AGCAATTCAA 
GAGGTTCTGG GGGAGGAACC AAGGTTTAAA ACCTTACAAA AGCTTCCTGC AGAAAGAGAT 
GCTCTTGTGT TGAAGCATAT CCACTTTGTT TATCACCCCA CAAAAGAGAC CTGTCCTAGT 
AGTCCTCACT GTGGAGACTC TAAAATTGAA CAAATCCTTG CTTCACGTTT TCCCATGTGT 
TACCCCTTCT TTGATGTGAA AGCTCATTTT GGGGACACTA AAGCTGACAG AATTAACCTT 
GTCATACTAG GGAAGGATGG ACTTGCCAGA GAATTTGCCA ATGAGATTAG AACTCTCTGC 
ACAAACGATG ACTGGTATGT GTTAGATGGG AAGATGTATG AGTTGACACT GCGGCCCATT 
GAGGGAAATG TACGTCTTCC AGTAAATTCC TTCCACACCC CCACCTTCAC CCCCCATGGA 
TGTCTATGTC TGTATAATTC AAAAGAGTCC CTTACCTATG TGGTGGAAAG CCTTGAGCGA 
CTTAGAGAAT CGACCCTTGG TCGAAGGGAT AGCCAGCTGG CACAGCTGCC TACATTTCTT 
CTTTTAGTCA CTAAAAGAGG TGTAGGGTCA TATGTTGACA TAGGTGGAGA CACTGCCTTA 
AACCTAATAA CACAGGGACA GCAGGTTGCA AGGAGACTAC AGTGTAGCTT TTTAGACCCT 
GCCTCTCCTG GTGTTGGCTA TGGACATAAT GTAAATGAGA CTCAAATTAA CCAGGTGCTG 
AGGGGTCTGC TTGATGTTAG GAGGAGCACA TCTTTTAGTA GCAGCTCTCC ACCCCTCTTC 
TCTGAGCCTC CAGGTCTCAG AGACTCTCCC CATCAGCCAG TCCAGGAGGC AGACCTTCGC 
ATTGTCATGT GCTTAATGTG TGGAGATTCC TATGACATTG AGCAGCTCCT GTCTCCATTC 
CTCATGCATC AGTACTGCAG GCCTATGTCT AATAGTGGTA CCTCTGTGCT GTTGGAGCAG 
ACAGTTGGTG GACACAAGCT GGCTATAGAG CTCTCTCTAC TCTCATATCA TGCCTCATTC 
ACTTTGCGAA AGAGCAGGTT AGTTCATGGC TACATTGCTG TTTATTCAGT CACCCGAAAA 
GCCTCTCTGG AGACTCTGTG CGCATTCTTG TGTGAGGTTC AGGACATCAT CCCCATTCAG 
CTGTTGGCAG TAAGAGATAG CCAGGTTGAG CTCATTGACA GTGAATTTGC CTGTGAACAA 
CAGATTCAAG GAGAGGAGCT AGCTCATGAG ATTGAGGGCC GTTTCAATAG TGTGGTTTGT 
GGATCTGGAG GAGTGGTGGG GGGTCTGCAT AGGATAGAAA TGTTCCATTC ATTTCTGATG 
GAGGTGGTAG AGAAACGCAA CATTGTGGAG GCCACACACA TGTACGATAA TGTTGCAGAA 
GCATGCACCA ATGAAAATGT GTATTCCCCA CGGTGCATAT CTCCCAGTCC CGTCACCATG 
TTTGTGGATT CAGAAGATGA TGTAGAGCCA TCTCCACCAT ACTATGATGG AACACTCTCT 
TCACACAGTG GGAGTTTCAA TGTGCCTGAT CTGGATTCCA GTGATATCTC TGTCATATCT 
GATATCAGGG ACTTTGAGAA CAAGCTCAAT AACAAAATAT CCCCCCAAGT GAGAGGTAAG 
CCAGGTTTTG ACTTCCGGAA GGTGAGTCGT AACCCATACA TCGATACACT AGGTCATCGT 
CGTTCCCTGC CCTCTGCTGT TACTTGGGTT CCTGGTGGGG ATGTGAGTTA TGACCCCTCA 
GACTATGCTG AACCCATTGA TGCAGTTTCG AAGCCTCGCC CTAGCAATGA AGAGATCATT 
TACTCAGTTC CACATGACAG CACACAAGGC AAAATCATCA CTATACGTAA CTCCAACAGG 
ATGCATTCAA ATGGAAATGG TTCAGACAGT GAAGCAGACA GTAGCTCTCT GGAGCGAAGA 
AGGAAATTCT CAGCAGTCGG GGTAAAGCCT CGTCTGTATC GCGATCGCTC CAAGCGGCTT 
GGCAAGTTCA GTACTTTCCG CACAAGCTTC ATCGGCAGTG ATGATGAAAT GGGAGCCCTT 
TCAAAGTCTA AAGAAGATGA CTTTGGGACT TTGAAAGGTG ACAGTCTTGG TAACGAGGAG 
AGTGAGGACC CAAAGAAGAG GAACATTCTC AAGAGTCTCA GACGAACAGC CAAGACCTCC 
AATCCACTTT TCCGACAGAA AACAAGAACA AAACCCCGCC CAAGTATTCC TAAACCCATG 
GAGAGCAGTT ACTTTGGAGT TCCCCTGGTG AGTGTGGTTT CCCCAGACAG ACCGATTCCA 
CTCTTCATTG AGAAGTGTGT ACGCTTCATT GAAACCACAG GCCTGAACAC CGAAGGTTTG 
TACCGTGTGA GTGGCAACAA GTCAGAGATG GAAAGCATGC AAAAGCAGTT CGAACAGGAC 
CACGGATTAG ACCTGGTGGA GAAAGACTTT TCTATAAACA CTGTGGCAGG AGCTCTCAAA 
AGCTTCTTCT CAGAACTGCC TGAGCCTCTG GTGCCTTGTG CTCTGCAGGT GGACCTATTG 
GACGCGTTCA AGATCAACGA CAGAGAACAG AGGCTTTATA CCATGAAGGA TGTCCTAAGG 
AAGTTCCCCA AGGAGAATTA TGATGCCTTT AAATACGTAG TGAGCCACTT ACACAAGGTG 
AGCCAGTTTA ACAGGGTGAA CCTAATGACC AGTGAAAACT TGTCCATCTG TTTCTGGCCC 
ACCCTCATGA GGCCAGACTT CTCCACGATG GACGCCCTGA CTGCCACACG CACCTACCAG 
ACAATCATCG AGAGCTTCAT CCACCAGTGT GCATTTTTCT TCTACAACCA GCCTCTGCTT 
GACTCCCCCA CGGGCCTCGG GGGCCTCCCT GCCTCACCCA CCACCACCCT CAGCGGGAGC 
TCTGCCTACT CTTGTTACCG CTCCTCCCCC CCCCACACTG CCGCTCACTT TAGCCCTCTG 
CAGCAGTCCC CACCCACCAC CCCACAGTCA CCCCTGAAGT CCCTGCTTCC TCCCCTCCAC 
CAGCACCCCC ACTCCCACCA TTCTCCTGCT GAACAAGAGA CACTGTGA

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

LOC107386538 ( XM_015960999.1 ) cDNA ORF clone, Nothobranchius furzeri(turquoise killifish) -> XP_015816485.1 Nothobranchius furzeri rho GTPase-activating protein 35-like (LOC107386538), transcript variant X2, mRNA.

Price & Availability↑

CloneID	ONo18024
Clone ID Related Accession (Same CDS sequence)	XM_015960999.1
Accession Version	XM_015960999.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4584bp) 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	2016-03-17
Organism	Nothobranchius furzeri(turquoise killifish)
Product	rho GTPase-activating protein 35-like isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_015443565.1) 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 :: Nothobranchius furzeri 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##

ATGATGGCGA AAAAGCAAGA TGCACGATCA CCCATATACA ACCTTGTTGT GGTGGGTTTG 
TCAGGAACAG AAAAAGAGAA GGGGCAATGT GGGGTTGGAA AATCCTGTTT GTGTAATAGA 
TATGTGCGAC CAAGTGCTGA TGATTTCTAC CTGGATCACA CATCGGTGTT AAGCACCAGT 
GACTTTGGGG GGCGAGTGGT TAACAATGAT CACTTTCTGT TTTGGGGAGA GGTGTCTCGG 
GTCCTGGAGG AGGGGCCTGA ATGCAGGTTG CATGTTGTGG AGCAAACTGA ATTTATTGAT 
GACCAGACAT TTCAGCCACA CCGTAGCACT GCTATGCAGC CCTATATCAA ACGAGCAGCT 
GGAACCAAGT TGGCCTCAGC AGAGAAGCTG ATGTACTTCT GCACAGATCA ACTGGGTCTG 
GAACAAGATT TCGAGCAAAA GCAAATGCCA GAGGGCAAGC TGCAGGTTGA TGGCTTCCTG 
CTTTGTGTTG ACGTGAGCCG GGGCATGAAT CGCAACTTTG ATGATCAGCT GAAATTTGTC 
TCAAACCTAT ATGGACAGCT TAGTAAAACC AAGAAGCCCA TTGTTTTGGT GCTCACCAAA 
TGTGATGAAG GAGTTGAACG CTACATCAAA GATGCGCATA CCTTTGCCAT AACAAAGAAA 
AACCTACCAG TAGTTGAGAC TTCTGCACGC TCAAATATAA ATGTGGATCT TGCCTTCCTC 
ACATTGGTTC AGCTTATCGA TAGGAGCAGG GGCAAGCCCA AAATCATTCC TTATTTTGAA 
GCCCTAAAGC TCCAAAGTCA GCAAATAGCC TCTGCCAAGG ATCGCTATGA ATGGCTGATC 
AACCGCATTG TAAAGAATCA CAATGAAACC TGGTTAAACG CCAGCCGAAG AATGAACACC 
TCACCAGAGT ACAAGGAATA TGTCTTCTTG GAAGGAACTG CTAAATGCAA AAAGCTTTTT 
CAACAGCATG TTTATCGTCT GAAACAGGAG CATATTGAGA GGCGTCGCAA AATATATTTA 
AGCACTCTTC CATTAGCACT CAGTTCTTTG GTGCCAGACC TTGATGAGAT TGATCAGTTG 
AGCTGGTCTG GAGTGCAGAA GGTGCTAGAG TCCAAGCAAC ACTTTACCCA CTGGTTTGTT 
GTTTTGGAGG ATTCACCATG GGAAGACACA TCCCACATTG ATAACATGGA AGATGAACGG 
ATCCCCTCAG ACCTTCTGGA GACTGGTGAA GCAGAAGACA TATTTAATGC TCACCTGGAA 
CATCTGCGTA ATGAGTGTAG GCGTGCAGAA ATACGACAGG AGTTTAAGCA AAAGTTAGCT 
TCCTCCCCCT TTGTCACACC TGGTAAACCT TGGGAGGAAG CCCGAAGCTT CATCATGAAC 
GAAGAGTTCT ACCAGTGGCT TGAGGAGCCT GAGTACTTGG ACCTGTACAA CCGGCATCAG 
AAGGAGATTA TTGATCGTGC TAAAGAAGAC TTTCAGGAGC TTTTGCTTGA GTACTCGGAG 
CTTTTTTATG AACTTGAAGT GGATGCCAAG CCAAGCAAAG AGAAAATGGG AGCAATTCAA 
GAGGTTCTGG GGGAGGAACC AAGGTTTAAA ACCTTACAAA AGCTTCCTGC AGAAAGAGAT 
GCTCTTGTGT TGAAGCATAT CCACTTTGTT TATCACCCCA CAAAAGAGAC CTGTCCTAGT 
AGTCCTCACT GTGGAGACTC TAAAATTGAA CAAATCCTTG CTTCACGTTT TCCCATGTGT 
TACCCCTTCT TTGATGTGAA AGCTCATTTT GGGGACACTA AAGCTGACAG AATTAACCTT 
GTCATACTAG GGAAGGATGG ACTTGCCAGA GAATTTGCCA ATGAGATTAG AACTCTCTGC 
ACAAACGATG ACTGGTATGT GTTAGATGGG AAGATGTATG AGTTGACACT GCGGCCCATT 
GAGGGAAATG TACGTCTTCC AGTAAATTCC TTCCACACCC CCACCTTCAC CCCCCATGGA 
TGTCTATGTC TGTATAATTC AAAAGAGTCC CTTACCTATG TGGTGGAAAG CCTTGAGCGA 
CTTAGAGAAT CGACCCTTGG TCGAAGGGAT AGCCAGCTGG CACAGCTGCC TACATTTCTT 
CTTTTAGTCA CTAAAAGAGG TGTAGGGTCA TATGTTGACA TAGGTGGAGA CACTGCCTTA 
AACCTAATAA CACAGGGACA GCAGGTTGCA AGGAGACTAC AGTGTAGCTT TTTAGACCCT 
GCCTCTCCTG GTGTTGGCTA TGGACATAAT GTAAATGAGA CTCAAATTAA CCAGGTGCTG 
AGGGGTCTGC TTGATGTTAG GAGGAGCACA TCTTTTAGTA GCAGCTCTCC ACCCCTCTTC 
TCTGAGCCTC CAGGTCTCAG AGACTCTCCC CATCAGCCAG TCCAGGAGGC AGACCTTCGC 
ATTGTCATGT GCTTAATGTG TGGAGATTCC TATGACATTG AGCAGCTCCT GTCTCCATTC 
CTCATGCATC AGTACTGCAG GCCTATGTCT AATAGTGGTA CCTCTGTGCT GTTGGAGCAG 
ACAGTTGGTG GACACAAGCT GGCTATAGAG CTCTCTCTAC TCTCATATCA TGCCTCATTC 
ACTTTGCGAA AGAGCAGGTT AGTTCATGGC TACATTGCTG TTTATTCAGT CACCCGAAAA 
GCCTCTCTGG AGACTCTGTG CGCATTCTTG TGTGAGGTTC AGGACATCAT CCCCATTCAG 
CTGTTGGCAG TAAGAGATAG CCAGGTTGAG CTCATTGACA GTGAATTTGC CTGTGAACAA 
CAGATTCAAG GAGAGGAGCT AGCTCATGAG ATTGAGGGCC GTTTCAATAG TGTGGTTTGT 
GGATCTGGAG GAGTGGTGGG GGGTCTGCAT AGGATAGAAA TGTTCCATTC ATTTCTGATG 
GAGGTGGTAG AGAAACGCAA CATTGTGGAG GCCACACACA TGTACGATAA TGTTGCAGAA 
GCATGCACCA ATGAAAATGT GTATTCCCCA CGGTGCATAT CTCCCAGTCC CGTCACCATG 
TTTGTGGATT CAGAAGATGA TGTAGAGCCA TCTCCACCAT ACTATGATGG AACACTCTCT 
TCACACAGTG GGAGTTTCAA TGTGCCTGAT CTGGATTCCA GTGATATCTC TGTCATATCT 
GATATCAGGG ACTTTGAGAA CAAGCTCAAT AACAAAATAT CCCCCCAAGT GAGAGGTAAG 
CCAGGTTTTG ACTTCCGGAA GGTGAGTCGT AACCCATACA TCGATACACT AGGTCATCGT 
CGTTCCCTGC CCTCTGCTGT TACTTGGGTT CCTGGTGGGG ATGTGAGTTA TGACCCCTCA 
GACTATGCTG AACCCATTGA TGCAGTTTCG AAGCCTCGCC CTAGCAATGA AGAGATCATT 
TACTCAGTTC CACATGACAG CACACAAGGC AAAATCATCA CTATACGTAA CTCCAACAGG 
ATGCATTCAA ATGGAAATGG TTCAGACAGT GAAGCAGACA GTAGCTCTCT GGAGCGAAGA 
AGGAAATTCT CAGCAGTCGG GGTAAAGCCT CGTCTGTATC GCGATCGCTC CAAGCGGCTT 
GGCAAGTTCA GTACTTTCCG CACAAGCTTC ATCGGCAGTG ATGATGAAAT GGGAGCCCTT 
TCAAAGTCTA AAGAAGATGA CTTTGGGACT TTGAAAGGTG ACAGTCTTGG TAACGAGGAG 
AGTGAGGACC CAAAGAAGAG GAACATTCTC AAGAGTCTCA GACGAACAGC CAAGAAAACA 
AGAACAAAAC CCCGCCCAAG TATTCCTAAA CCCATGGAGA GCAGTTACTT TGGAGTTCCC 
CTGGTGAGTG TGGTTTCCCC AGACAGACCG ATTCCACTCT TCATTGAGAA GTGTGTACGC 
TTCATTGAAA CCACAGGCCT GAACACCGAA GGTTTGTACC GTGTGAGTGG CAACAAGTCA 
GAGATGGAAA GCATGCAAAA GCAGTTCGAA CAGGACCACG GATTAGACCT GGTGGAGAAA 
GACTTTTCTA TAAACACTGT GGCAGGAGCT CTCAAAAGCT TCTTCTCAGA ACTGCCTGAG 
CCTCTGGTGC CTTGTGCTCT GCAGGTGGAC CTATTGGACG CGTTCAAGAT CAACGACAGA 
GAACAGAGGC TTTATACCAT GAAGGATGTC CTAAGGAAGT TCCCCAAGGA GAATTATGAT 
GCCTTTAAAT ACGTAGTGAG CCACTTACAC AAGGTGAGCC AGTTTAACAG GGTGAACCTA 
ATGACCAGTG AAAACTTGTC CATCTGTTTC TGGCCCACCC TCATGAGGCC AGACTTCTCC 
ACGATGGACG CCCTGACTGC CACACGCACC TACCAGACAA TCATCGAGAG CTTCATCCAC 
CAGTGTGCAT TTTTCTTCTA CAACCAGCCT CTGCTTGACT CCCCCACGGG CCTCGGGGGC 
CTCCCTGCCT CACCCACCAC CACCCTCAGC GGGAGCTCTG CCTACTCTTG TTACCGCTCC 
TCCCCCCCCC ACACTGCCGC TCACTTTAGC CCTCTGCAGC AGTCCCCACC CACCACCCCA 
CAGTCACCCC TGAAGTCCCT GCTTCCTCCC CTCCACCAGC ACCCCCACTC CCACCATTCT 
CCTGCTGAAC AAGAGACACT GTGA

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

RefSeq	XP_015816485.1
CDS	1021..5604
Translation	MMAKKQDARSPIYNLVVVGLSGTEKEKGQCGVGKSCLCNRYVRPSADDFYLDHTSVLSTSDFGGRVVNNDHFLFWGEVSRVLEEGPECRLHVVEQTEFIDDQTFQPHRSTAMQPYIKRAAGTKLASAEKLMYFCTDQLGLEQDFEQKQMPEGKLQVDGFLLCVDVSRGMNRNFDDQLKFVSNLYGQLSKTKKPIVLVLTKCDEGVERYIKDAHTFAITKKNLPVVETSARSNINVDLAFLTLVQLIDRSRGKPKIIPYFEALKLQSQQIASAKDRYEWLINRIVKNHNETWLNASRRMNTSPEYKEYVFLEGTAKCKKLFQQHVYRLKQEHIERRRKIYLSTLPLALSSLVPDLDEIDQLSWSGVQKVLESKQHFTHWFVVLEDSPWEDTSHIDNMEDERIPSDLLETGEAEDIFNAHLEHLRNECRRAEIRQEFKQKLASSPFVTPGKPWEEARSFIMNEEFYQWLEEPEYLDLYNRHQKEIIDRAKEDFQELLLEYSELFYELEVDAKPSKEKMGAIQEVLGEEPRFKTLQKLPAERDALVLKHIHFVYHPTKETCPSSPHCGDSKIEQILASRFPMCYPFFDVKAHFGDTKADRINLVILGKDGLAREFANEIRTLCTNDDWYVLDGKMYELTLRPIEGNVRLPVNSFHTPTFTPHGCLCLYNSKESLTYVVESLERLRESTLGRRDSQLAQLPTFLLLVTKRGVGSYVDIGGDTALNLITQGQQVARRLQCSFLDPASPGVGYGHNVNETQINQVLRGLLDVRRSTSFSSSSPPLFSEPPGLRDSPHQPVQEADLRIVMCLMCGDSYDIEQLLSPFLMHQYCRPMSNSGTSVLLEQTVGGHKLAIELSLLSYHASFTLRKSRLVHGYIAVYSVTRKASLETLCAFLCEVQDIIPIQLLAVRDSQVELIDSEFACEQQIQGEELAHEIEGRFNSVVCGSGGVVGGLHRIEMFHSFLMEVVEKRNIVEATHMYDNVAEACTNENVYSPRCISPSPVTMFVDSEDDVEPSPPYYDGTLSSHSGSFNVPDLDSSDISVISDIRDFENKLNNKISPQVRGKPGFDFRKVSRNPYIDTLGHRRSLPSAVTWVPGGDVSYDPSDYAEPIDAVSKPRPSNEEIIYSVPHDSTQGKIITIRNSNRMHSNGNGSDSEADSSSLERRRKFSAVGVKPRLYRDRSKRLGKFSTFRTSFIGSDDEMGALSKSKEDDFGTLKGDSLGNEESEDPKKRNILKSLRRTAKKTRTKPRPSIPKPMESSYFGVPLVSVVSPDRPIPLFIEKCVRFIETTGLNTEGLYRVSGNKSEMESMQKQFEQDHGLDLVEKDFSINTVAGALKSFFSELPEPLVPCALQVDLLDAFKINDREQRLYTMKDVLRKFPKENYDAFKYVVSHLHKVSQFNRVNLMTSENLSICFWPTLMRPDFSTMDALTATRTYQTIIESFIHQCAFFFYNQPLLDSPTGLGGLPASPTTTLSGSSAYSCYRSSPPHTAAHFSPLQQSPPTTPQSPLKSLLPPLHQHPHSHHSPAEQETL

Target ORF information:

RefSeq Version	XM_015960999.1
Organism	Nothobranchius furzeri(turquoise killifish)
Definition	Nothobranchius furzeri rho GTPase-activating protein 35-like (LOC107386538), transcript variant X2, mRNA.

Target ORF information:

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

XM_015960999.1

ORF Insert Sequence:

ATGATGGCGA AAAAGCAAGA TGCACGATCA CCCATATACA ACCTTGTTGT GGTGGGTTTG 
TCAGGAACAG AAAAAGAGAA GGGGCAATGT GGGGTTGGAA AATCCTGTTT GTGTAATAGA 
TATGTGCGAC CAAGTGCTGA TGATTTCTAC CTGGATCACA CATCGGTGTT AAGCACCAGT 
GACTTTGGGG GGCGAGTGGT TAACAATGAT CACTTTCTGT TTTGGGGAGA GGTGTCTCGG 
GTCCTGGAGG AGGGGCCTGA ATGCAGGTTG CATGTTGTGG AGCAAACTGA ATTTATTGAT 
GACCAGACAT TTCAGCCACA CCGTAGCACT GCTATGCAGC CCTATATCAA ACGAGCAGCT 
GGAACCAAGT TGGCCTCAGC AGAGAAGCTG ATGTACTTCT GCACAGATCA ACTGGGTCTG 
GAACAAGATT TCGAGCAAAA GCAAATGCCA GAGGGCAAGC TGCAGGTTGA TGGCTTCCTG 
CTTTGTGTTG ACGTGAGCCG GGGCATGAAT CGCAACTTTG ATGATCAGCT GAAATTTGTC 
TCAAACCTAT ATGGACAGCT TAGTAAAACC AAGAAGCCCA TTGTTTTGGT GCTCACCAAA 
TGTGATGAAG GAGTTGAACG CTACATCAAA GATGCGCATA CCTTTGCCAT AACAAAGAAA 
AACCTACCAG TAGTTGAGAC TTCTGCACGC TCAAATATAA ATGTGGATCT TGCCTTCCTC 
ACATTGGTTC AGCTTATCGA TAGGAGCAGG GGCAAGCCCA AAATCATTCC TTATTTTGAA 
GCCCTAAAGC TCCAAAGTCA GCAAATAGCC TCTGCCAAGG ATCGCTATGA ATGGCTGATC 
AACCGCATTG TAAAGAATCA CAATGAAACC TGGTTAAACG CCAGCCGAAG AATGAACACC 
TCACCAGAGT ACAAGGAATA TGTCTTCTTG GAAGGAACTG CTAAATGCAA AAAGCTTTTT 
CAACAGCATG TTTATCGTCT GAAACAGGAG CATATTGAGA GGCGTCGCAA AATATATTTA 
AGCACTCTTC CATTAGCACT CAGTTCTTTG GTGCCAGACC TTGATGAGAT TGATCAGTTG 
AGCTGGTCTG GAGTGCAGAA GGTGCTAGAG TCCAAGCAAC ACTTTACCCA CTGGTTTGTT 
GTTTTGGAGG ATTCACCATG GGAAGACACA TCCCACATTG ATAACATGGA AGATGAACGG 
ATCCCCTCAG ACCTTCTGGA GACTGGTGAA GCAGAAGACA TATTTAATGC TCACCTGGAA 
CATCTGCGTA ATGAGTGTAG GCGTGCAGAA ATACGACAGG AGTTTAAGCA AAAGTTAGCT 
TCCTCCCCCT TTGTCACACC TGGTAAACCT TGGGAGGAAG CCCGAAGCTT CATCATGAAC 
GAAGAGTTCT ACCAGTGGCT TGAGGAGCCT GAGTACTTGG ACCTGTACAA CCGGCATCAG 
AAGGAGATTA TTGATCGTGC TAAAGAAGAC TTTCAGGAGC TTTTGCTTGA GTACTCGGAG 
CTTTTTTATG AACTTGAAGT GGATGCCAAG CCAAGCAAAG AGAAAATGGG AGCAATTCAA 
GAGGTTCTGG GGGAGGAACC AAGGTTTAAA ACCTTACAAA AGCTTCCTGC AGAAAGAGAT 
GCTCTTGTGT TGAAGCATAT CCACTTTGTT TATCACCCCA CAAAAGAGAC CTGTCCTAGT 
AGTCCTCACT GTGGAGACTC TAAAATTGAA CAAATCCTTG CTTCACGTTT TCCCATGTGT 
TACCCCTTCT TTGATGTGAA AGCTCATTTT GGGGACACTA AAGCTGACAG AATTAACCTT 
GTCATACTAG GGAAGGATGG ACTTGCCAGA GAATTTGCCA ATGAGATTAG AACTCTCTGC 
ACAAACGATG ACTGGTATGT GTTAGATGGG AAGATGTATG AGTTGACACT GCGGCCCATT 
GAGGGAAATG TACGTCTTCC AGTAAATTCC TTCCACACCC CCACCTTCAC CCCCCATGGA 
TGTCTATGTC TGTATAATTC AAAAGAGTCC CTTACCTATG TGGTGGAAAG CCTTGAGCGA 
CTTAGAGAAT CGACCCTTGG TCGAAGGGAT AGCCAGCTGG CACAGCTGCC TACATTTCTT 
CTTTTAGTCA CTAAAAGAGG TGTAGGGTCA TATGTTGACA TAGGTGGAGA CACTGCCTTA 
AACCTAATAA CACAGGGACA GCAGGTTGCA AGGAGACTAC AGTGTAGCTT TTTAGACCCT 
GCCTCTCCTG GTGTTGGCTA TGGACATAAT GTAAATGAGA CTCAAATTAA CCAGGTGCTG 
AGGGGTCTGC TTGATGTTAG GAGGAGCACA TCTTTTAGTA GCAGCTCTCC ACCCCTCTTC 
TCTGAGCCTC CAGGTCTCAG AGACTCTCCC CATCAGCCAG TCCAGGAGGC AGACCTTCGC 
ATTGTCATGT GCTTAATGTG TGGAGATTCC TATGACATTG AGCAGCTCCT GTCTCCATTC 
CTCATGCATC AGTACTGCAG GCCTATGTCT AATAGTGGTA CCTCTGTGCT GTTGGAGCAG 
ACAGTTGGTG GACACAAGCT GGCTATAGAG CTCTCTCTAC TCTCATATCA TGCCTCATTC 
ACTTTGCGAA AGAGCAGGTT AGTTCATGGC TACATTGCTG TTTATTCAGT CACCCGAAAA 
GCCTCTCTGG AGACTCTGTG CGCATTCTTG TGTGAGGTTC AGGACATCAT CCCCATTCAG 
CTGTTGGCAG TAAGAGATAG CCAGGTTGAG CTCATTGACA GTGAATTTGC CTGTGAACAA 
CAGATTCAAG GAGAGGAGCT AGCTCATGAG ATTGAGGGCC GTTTCAATAG TGTGGTTTGT 
GGATCTGGAG GAGTGGTGGG GGGTCTGCAT AGGATAGAAA TGTTCCATTC ATTTCTGATG 
GAGGTGGTAG AGAAACGCAA CATTGTGGAG GCCACACACA TGTACGATAA TGTTGCAGAA 
GCATGCACCA ATGAAAATGT GTATTCCCCA CGGTGCATAT CTCCCAGTCC CGTCACCATG 
TTTGTGGATT CAGAAGATGA TGTAGAGCCA TCTCCACCAT ACTATGATGG AACACTCTCT 
TCACACAGTG GGAGTTTCAA TGTGCCTGAT CTGGATTCCA GTGATATCTC TGTCATATCT 
GATATCAGGG ACTTTGAGAA CAAGCTCAAT AACAAAATAT CCCCCCAAGT GAGAGGTAAG 
CCAGGTTTTG ACTTCCGGAA GGTGAGTCGT AACCCATACA TCGATACACT AGGTCATCGT 
CGTTCCCTGC CCTCTGCTGT TACTTGGGTT CCTGGTGGGG ATGTGAGTTA TGACCCCTCA 
GACTATGCTG AACCCATTGA TGCAGTTTCG AAGCCTCGCC CTAGCAATGA AGAGATCATT 
TACTCAGTTC CACATGACAG CACACAAGGC AAAATCATCA CTATACGTAA CTCCAACAGG 
ATGCATTCAA ATGGAAATGG TTCAGACAGT GAAGCAGACA GTAGCTCTCT GGAGCGAAGA 
AGGAAATTCT CAGCAGTCGG GGTAAAGCCT CGTCTGTATC GCGATCGCTC CAAGCGGCTT 
GGCAAGTTCA GTACTTTCCG CACAAGCTTC ATCGGCAGTG ATGATGAAAT GGGAGCCCTT 
TCAAAGTCTA AAGAAGATGA CTTTGGGACT TTGAAAGGTG ACAGTCTTGG TAACGAGGAG 
AGTGAGGACC CAAAGAAGAG GAACATTCTC AAGAGTCTCA GACGAACAGC CAAGAAAACA 
AGAACAAAAC CCCGCCCAAG TATTCCTAAA CCCATGGAGA GCAGTTACTT TGGAGTTCCC 
CTGGTGAGTG TGGTTTCCCC AGACAGACCG ATTCCACTCT TCATTGAGAA GTGTGTACGC 
TTCATTGAAA CCACAGGCCT GAACACCGAA GGTTTGTACC GTGTGAGTGG CAACAAGTCA 
GAGATGGAAA GCATGCAAAA GCAGTTCGAA CAGGACCACG GATTAGACCT GGTGGAGAAA 
GACTTTTCTA TAAACACTGT GGCAGGAGCT CTCAAAAGCT TCTTCTCAGA ACTGCCTGAG 
CCTCTGGTGC CTTGTGCTCT GCAGGTGGAC CTATTGGACG CGTTCAAGAT CAACGACAGA 
GAACAGAGGC TTTATACCAT GAAGGATGTC CTAAGGAAGT TCCCCAAGGA GAATTATGAT 
GCCTTTAAAT ACGTAGTGAG CCACTTACAC AAGGTGAGCC AGTTTAACAG GGTGAACCTA 
ATGACCAGTG AAAACTTGTC CATCTGTTTC TGGCCCACCC TCATGAGGCC AGACTTCTCC 
ACGATGGACG CCCTGACTGC CACACGCACC TACCAGACAA TCATCGAGAG CTTCATCCAC 
CAGTGTGCAT TTTTCTTCTA CAACCAGCCT CTGCTTGACT CCCCCACGGG CCTCGGGGGC 
CTCCCTGCCT CACCCACCAC CACCCTCAGC GGGAGCTCTG CCTACTCTTG TTACCGCTCC 
TCCCCCCCCC ACACTGCCGC TCACTTTAGC CCTCTGCAGC AGTCCCCACC CACCACCCCA 
CAGTCACCCC TGAAGTCCCT GCTTCCTCCC CTCCACCAGC ACCCCCACTC CCACCATTCT 
CCTGCTGAAC AAGAGACACT GTGA