PLEKHG1 cDNA ORF clone, Aquila chrysaetos canadensis

Gene
Clones
gRNAs

Summary

Gene Symbol	PLEKHG1
Entrez Gene ID	105409103
Full Name	pleckstrin homology and RhoGEF domain containing G1
Gene Type	protein-coding
Organism	Aquila chrysaetos canadensis

mRNA and Protein(s)

mRNA	Protein	Name
XM_011589894.1	XP_011588196.1	pleckstrin homology domain-containing family G member 1

Pathways from BioSystems
Gene Ontology

The following PLEKHG1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the PLEKHG1 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
OAq25717	XM_011589894.1 Latest version!	Aquila chrysaetos canadensis pleckstrin homology domain containing, family G (with RhoGef domain) member 1 (PLEKHG1), 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)
1 Clone	30% OFF
2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
30% OFF

*Business Day

** 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)

PLEKHG1 ( XM_011589894.1 ) cDNA ORF clone, Aquila chrysaetos canadensis -> XP_011588196.1 Aquila chrysaetos canadensis pleckstrin homology domain containing, family G (with RhoGef domain) member 1 (PLEKHG1), mRNA.

Price & Availability↑

CloneID	OAq25717
Clone ID Related Accession (Same CDS sequence)	XM_011589894.1
Accession Version	XM_011589894.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4761bp) 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	2015-03-12
Organism	Aquila chrysaetos canadensis
Product	pleckstrin homology domain-containing family G member 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_011950946.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Aquila chrysaetos canadensis Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCCAGATA AAACACTAGG TGGTACAGAA CCTGTCCCCA GGAGTGAAGA TGACTTCCAC 
TTACCTCTTG ATGTTCTACC AGCTGTGACA GAGGCCCTTG ACTCCAAGAC CAAAGGGGAA 
GATTTGCACG AGGAGGGCAG ACCCTTCCGC TACTGTGAGA AAAAAACCAT GGACCTGTCG 
GACAGTGACC GTCCCGTCAG CTTTAGCTCC ACTTCCTCCT CTGCTTCCTC CAGGGACAGC 
CACTGCTCCT TTGGAAGCAG AATGACCTTG GTTTCAAACA GCCACTTGGG CTTGTTCAAT 
CAGGATAAAG AAACGGGTGC CATCAAGCTA GAGCTGGTCC CAGCCAGGCG ATTTTCCAGC 
AACAAGCCAC GCAAAAACTC CCCTGCAGAG CAAGAGGATC CTGAGGAAAG CCTTGAAAAA 
AGGCTAAGCA CGCCAAGGAA AGCAGAACCA AAAGGAGCGA GCAAAAACTG TGCAATGTCC 
CTGGTCACAG AGCCCACCAG TCCCAAGCTC CTCTATGTAG ATAGAGTTGT CCAAGAGATT 
CTGGAGACAG AGAGGATGTA TGTGCAGGAT CTAAAAAGCA TCGTGAAGGA TTACCTTGAC 
TGTATCACTG ACCAGACTAA GCTCTCCCTG GGGACAGAAG AGCGATCAGC CCTGTTTGGA 
AACATACGGG ATATCTACCG TTTCAACAGT GAACTTTTGC AAGATTTGGA AAACTGTGAA 
AATGATCCTG TGGCTATAGC AGACTGTTTT GTTTCCAAGA GTGAAGATTT CCACATATAT 
ACGCAGTACT GCACCAACTA CCCAAGGTCG GTGGCTGTGT TGACAGAGTG CATGAGGAAC 
AAGGCCCTGG CCAAGTTCTT CAGAGAGCGG CAAGAAGCAC TGCAGCATTC TCTGCCCCTA 
GGCTCCTATC TCTTGAAACC TGTCCAGCGC ATCCTCAAGT ACCACCTGCT TTTGCATGAA 
ATAGAAAACC ACCTTGACAA GGACACCGAG GGCTATGATG TGGTGCTGGA TGCCATAGAT 
ACAATGCAGA GAGTGGCATG GCATATAAAT GACATGAAGA GGAAACATGA ACATGCCATC 
AGGCTCCAAG AAATACAGAG TTTGCTCACT AACTGGAAAG GGCCAGACCT CACAAGTTAC 
GGGGAGCTGG TGTTAGAAGG AACATTTCGC ATTCAGCGAG CCAAAAATGA ACGCACATTG 
TTCCTCTTTG ATAAGCTGCT GCTAATTACA AAAAAGAGAG ATGAAACATT TGTGTACAAA 
GCTCACATAC TGTGTGGGAA CTTGATGCTT GTTGAAGTAA TACCAAAGGA ACCCCTTAGC 
TTTAGCGTCT TCCACTACAA AAATCCCAAG ATGCAACATA CTGTCCAGGC AAAGTCACAG 
CAAGACAAGC GCCTTTGGAT TCTTCACTTG AAGAGGTTAA TTCTAGAAAA TCATCCTGCT 
AAAATTCCTG CCAAGGCCAA GCAGGCAATT CTAGAAATGG ATGCCATACA TCACCCAGGC 
TTCCACTATA GCCCTGAGGG AGAAATGAAA TCATCGTACC AGCCTAAAGA AGGCACTGCT 
CCTCACAGAG TGAGAAGGAA ATCAGAACCC TCATCTAGAG TTCATAAAGT TTTGAAGTCA 
AATGATATAA GTCCAGATAT GCAGAAGCGG ATCAGTATTG AAGGAGCCCT ATTATCTCAA 
GCCACCAAAC TAGGATCAAA TGAAGCCCTG CTGAATTCTA GGAAAAAGGT TCCATTGGAA 
CCTAGTGGGC TGGAGAGCCA ATTTCAAGAG TCCGTCGAGC CAGCCTACAG CAGTGATCAA 
GATGAAAATC TTCAGACTTC TGCTACTGAA CAGATTGATG CTGATGATGA AGAAGAGTCT 
GAACAGGGAG TCCAGCAAAA CTCACTGCAG AAATCAAAAG GGGGAAGAAA AAGACTTAAT 
AGTCAAGCTG CTGAAAACGT TGAAAAACGG AGAAGTATTA ATCTCAACAA GTGTGAAACG 
CAGAGCTCCA AGGACCCTTC AGATGAAGAG TCAACCCAGT TGAATACCGA TCTTCCGTTT 
TCCTGCGCAG CTAGACAGCC ACAGTCACCT AGACAATTCA GCACACCCCA GAGCGACTCG 
CTAATCATGA ATATCCTGGG GGGAAGTACC TCTGTCAGAA ACATCTGGAC TGACCATCAG 
ATCAGGCAGG CATTGTTTCC CAGCCGGCGC CCACCTTATG AGAATGAAGA CGACGAAGAT 
GATTATCAGA TGTTTGTACC ATCACTGTCT ACATCCAATG CTAGTTCAGC TGTGGGTGGC 
CAAAGGAGGG GTTCTTCTGG GCGTCCATGT AGCTGGCACT TGGGGGTAGT GCATCAAAAC 
GAGACTTCCA GCCCCACTCG TCACAAAATT GTTAGGCGGG CCAGTAGTGC TGGTGAAAGT 
AACACGTCTC CAGCCAGTGT AAGGTATAAA ATAGGGGAGC GCGGTTCTCG AAGGGAAGTG 
AAGAGAGCAG AAGTAAGTGG TATGAATGCA TATCCCGAAT CTTCAGAGGA GCTGACCATT 
GATGATATTG AACATGTTTA TGATAATATA AGCTATGAAG ACTTAAAGCT GATGGGTCTA 
ACAAGAAGGG AGGAGACAGA CCGTGGTCCT CAGAGATCTG CTAGAGACTC TCTCTATGAG 
GCTGAAAACA AAAGCAGCTT AGATTCACCC TCCAGAAAGA GGACAGCAAA TCAAAACAGG 
GCATCCATTT GTGCTAGTAG GGATGAGATA CTACTCAGTA GAGAAGCAGC TACTTCAAGT 
ATGGATGAGC TCAGGATCGT TGAAGACAAC ATCTATGACA CCATAGTGCT TCCAGAAACA 
CCACTATTGG ATTTTAAATG TGACCCCTTA AAATGCTCTA AAAGGAGGAG TTTTCTAGGC 
CTGGAAAAGG ACTTTGCATA TTGCGATAAT CTACGGCAGT TTGTTTCTGA AGAGAGTCTC 
CAGTTCAGCG AAGATGAAAG TCCTTACCAT CGTGTTCCCA TTGACAATGA CTATTTGAGC 
TTAGTAGATA GCTCTTCCAA CTCAGATTCA CTGTCCCATA AGTCTGCAGC AGATAAACTC 
TCGGAGGAAG TAGACGAGAT TTGGAATGAC CTGGAGAATT ACATCAAGAA GAATGAGGAA 
AAGACAAGAG ACCGTCTCCT TGCAGCCTTT CCTGTTTGTA AAGATGATAT GCAGGAAAGG 
CTGCATGCTG GTAGTACACC TGAACTGAGT AAAGATGTAG AGTACTCTTT GTCTACTCTC 
TCTCTACCAG AAACTCCTAT TTTGCCTAAA ACTGTGAAGC CCAGGGCTGC CACTGTAAGT 
GAGGCTAATC TCAGGCTTGA AGACACTACA CCATGCAAGG AGAACTCTTT TATGAGTCTG 
AACAGATCTT CCTTCTCCAG TGAGATGCCT TTTGTAGATA GCCCATATGA ATCTGCCAAT 
AGTGTTCTGT CCTATGCGCA TGCAGAGGGC ATGGAAAATG ACTTGGCTGC TGTGGATAAA 
ACAAAGAACA GAGTTTTTAT GATGGCAAGG CAGTACAGTC AAAAAATTAA GAAGGCTAAC 
CAGCTTTTGA AAGTTAAAAG TCCAGAGCAG GAACAGCCAG CTGGCAGACA ACAAAAACTG 
AAACACAAAG ATCTTGCGGC TATTCTGGAG GAGAAGAAAC AAGGGGGTCC TGCAATTGGT 
GCCAGAATAG CTGAATATTC CCAGCTTTAT GACCAAATCG TCTTTAGAGA AAGTTCACCT 
AAGGTCCAAA AGGAAGCCTG GGCCACTCCT CAGGAGCCAT CAGCCGGGAG GTTTTCCACA 
CCCGTGGCTG CATCTCCTCC TCGTTCCCAG GCTGCCACTG AATGCTCAAG AGCAGAAGAT 
TGGCTTTTGC ATTCTACGTA CAGTAACGGC GAGCTGGCCG ACTTCTCTCC ATGGCCTGAA 
TCCCAAGATC CGAAGTCCAA GAGCTCGTAT ACAGAAGCTG GTACAAAAAG CAATTCAAGG 
CAGTTGCCAT CAGCTGGCTC GGTGCCTTCC CTTCAGATTT CTAACCGTTT GCATGTTCCA 
GCGCAGAGGT GGAGCGCCAT TATCAGCCAA CCGAACAAAG AAAATTTACA TCAAGATCAC 
GTCTATAACT CTCTTGGGAG AAGAGTAAGC AATGTAAAAC CACAGGCATA CAGCAGGTCG 
CAGTCGTCTT CCTCAATTGT GGTCAACAGG TCTGGAGAAT CAATCGTATA TCCTAATGAA 
ACGGACAAGA AGAAGCTCCA TTCGAATAGG AACTTCCGAT TCAACAGCCA TCAAACGCCA 
GGTATTGCTT CAGGATGTAC AGGGCCTGAT ATGAGAAAGC AGATCCCTGA AAACTGTTCA 
GATATGATTC TGCAGGATTC TCAAAAGGTC CTGAGAGTGA ACAGGGCCTC CCCTCTGACG 
GCACAGATGG CCACTCAGAA CTATTTTTCG AATTTCAAAG ATACTGAAGA AGGAGAAGGG 
GATGACGATG ACTATGTCGA AATAAAGTCT GAAGATGAGG GATCTGACCT GGAGACTTCT 
CAGAACCAAA CAAGGAAATC GGATCCTAAA CTGCGTAACG AGGACGCTGC TCCTCCTGAA 
ACGCTCTGCG GCAAAACTGT CTCTTGTACT CCTGCAAAGT CCACCAGCAG CAAACACGCG 
CTTACCCCGT ATCTGACTGC ATATAGTGAT TCGGATAAAC TGAACGACTA CCTGTGGAGA 
GTACCATCTC CTAATCAGCA GAATATTGTC CAGTCCTTAA GGGAAAAGTT TCAGTGTCTC 
AGTTCAAGTA GCTTTGCTTG A

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

RefSeq	XP_011588196.1
CDS	155..4915
Translation	MPDKTLGGTEPVPRSEDDFHLPLDVLPAVTEALDSKTKGEDLHEEGRPFRYCEKKTMDLSDSDRPVSFSSTSSSASSRDSHCSFGSRMTLVSNSHLGLFNQDKETGAIKLELVPARRFSSNKPRKNSPAEQEDPEESLEKRLSTPRKAEPKGASKNCAMSLVTEPTSPKLLYVDRVVQEILETERMYVQDLKSIVKDYLDCITDQTKLSLGTEERSALFGNIRDIYRFNSELLQDLENCENDPVAIADCFVSKSEDFHIYTQYCTNYPRSVAVLTECMRNKALAKFFRERQEALQHSLPLGSYLLKPVQRILKYHLLLHEIENHLDKDTEGYDVVLDAIDTMQRVAWHINDMKRKHEHAIRLQEIQSLLTNWKGPDLTSYGELVLEGTFRIQRAKNERTLFLFDKLLLITKKRDETFVYKAHILCGNLMLVEVIPKEPLSFSVFHYKNPKMQHTVQAKSQQDKRLWILHLKRLILENHPAKIPAKAKQAILEMDAIHHPGFHYSPEGEMKSSYQPKEGTAPHRVRRKSEPSSRVHKVLKSNDISPDMQKRISIEGALLSQATKLGSNEALLNSRKKVPLEPSGLESQFQESVEPAYSSDQDENLQTSATEQIDADDEEESEQGVQQNSLQKSKGGRKRLNSQAAENVEKRRSINLNKCETQSSKDPSDEESTQLNTDLPFSCAARQPQSPRQFSTPQSDSLIMNILGGSTSVRNIWTDHQIRQALFPSRRPPYENEDDEDDYQMFVPSLSTSNASSAVGGQRRGSSGRPCSWHLGVVHQNETSSPTRHKIVRRASSAGESNTSPASVRYKIGERGSRREVKRAEVSGMNAYPESSEELTIDDIEHVYDNISYEDLKLMGLTRREETDRGPQRSARDSLYEAENKSSLDSPSRKRTANQNRASICASRDEILLSREAATSSMDELRIVEDNIYDTIVLPETPLLDFKCDPLKCSKRRSFLGLEKDFAYCDNLRQFVSEESLQFSEDESPYHRVPIDNDYLSLVDSSSNSDSLSHKSAADKLSEEVDEIWNDLENYIKKNEEKTRDRLLAAFPVCKDDMQERLHAGSTPELSKDVEYSLSTLSLPETPILPKTVKPRAATVSEANLRLEDTTPCKENSFMSLNRSSFSSEMPFVDSPYESANSVLSYAHAEGMENDLAAVDKTKNRVFMMARQYSQKIKKANQLLKVKSPEQEQPAGRQQKLKHKDLAAILEEKKQGGPAIGARIAEYSQLYDQIVFRESSPKVQKEAWATPQEPSAGRFSTPVAASPPRSQAATECSRAEDWLLHSTYSNGELADFSPWPESQDPKSKSSYTEAGTKSNSRQLPSAGSVPSLQISNRLHVPAQRWSAIISQPNKENLHQDHVYNSLGRRVSNVKPQAYSRSQSSSSIVVNRSGESIVYPNETDKKKLHSNRNFRFNSHQTPGIASGCTGPDMRKQIPENCSDMILQDSQKVLRVNRASPLTAQMATQNYFSNFKDTEEGEGDDDDYVEIKSEDEGSDLETSQNQTRKSDPKLRNEDAAPPETLCGKTVSCTPAKSTSSKHALTPYLTAYSDSDKLNDYLWRVPSPNQQNIVQSLREKFQCLSSSSFA

Target ORF information:

RefSeq Version	XM_011589894.1
Organism	Aquila chrysaetos canadensis
Definition	Aquila chrysaetos canadensis pleckstrin homology domain containing, family G (with RhoGef domain) member 1 (PLEKHG1), mRNA.

Target ORF information:

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

XM_011589894.1

ORF Insert Sequence:

ATGCCAGATA AAACACTAGG TGGTACAGAA CCTGTCCCCA GGAGTGAAGA TGACTTCCAC 
TTACCTCTTG ATGTTCTACC AGCTGTGACA GAGGCCCTTG ACTCCAAGAC CAAAGGGGAA 
GATTTGCACG AGGAGGGCAG ACCCTTCCGC TACTGTGAGA AAAAAACCAT GGACCTGTCG 
GACAGTGACC GTCCCGTCAG CTTTAGCTCC ACTTCCTCCT CTGCTTCCTC CAGGGACAGC 
CACTGCTCCT TTGGAAGCAG AATGACCTTG GTTTCAAACA GCCACTTGGG CTTGTTCAAT 
CAGGATAAAG AAACGGGTGC CATCAAGCTA GAGCTGGTCC CAGCCAGGCG ATTTTCCAGC 
AACAAGCCAC GCAAAAACTC CCCTGCAGAG CAAGAGGATC CTGAGGAAAG CCTTGAAAAA 
AGGCTAAGCA CGCCAAGGAA AGCAGAACCA AAAGGAGCGA GCAAAAACTG TGCAATGTCC 
CTGGTCACAG AGCCCACCAG TCCCAAGCTC CTCTATGTAG ATAGAGTTGT CCAAGAGATT 
CTGGAGACAG AGAGGATGTA TGTGCAGGAT CTAAAAAGCA TCGTGAAGGA TTACCTTGAC 
TGTATCACTG ACCAGACTAA GCTCTCCCTG GGGACAGAAG AGCGATCAGC CCTGTTTGGA 
AACATACGGG ATATCTACCG TTTCAACAGT GAACTTTTGC AAGATTTGGA AAACTGTGAA 
AATGATCCTG TGGCTATAGC AGACTGTTTT GTTTCCAAGA GTGAAGATTT CCACATATAT 
ACGCAGTACT GCACCAACTA CCCAAGGTCG GTGGCTGTGT TGACAGAGTG CATGAGGAAC 
AAGGCCCTGG CCAAGTTCTT CAGAGAGCGG CAAGAAGCAC TGCAGCATTC TCTGCCCCTA 
GGCTCCTATC TCTTGAAACC TGTCCAGCGC ATCCTCAAGT ACCACCTGCT TTTGCATGAA 
ATAGAAAACC ACCTTGACAA GGACACCGAG GGCTATGATG TGGTGCTGGA TGCCATAGAT 
ACAATGCAGA GAGTGGCATG GCATATAAAT GACATGAAGA GGAAACATGA ACATGCCATC 
AGGCTCCAAG AAATACAGAG TTTGCTCACT AACTGGAAAG GGCCAGACCT CACAAGTTAC 
GGGGAGCTGG TGTTAGAAGG AACATTTCGC ATTCAGCGAG CCAAAAATGA ACGCACATTG 
TTCCTCTTTG ATAAGCTGCT GCTAATTACA AAAAAGAGAG ATGAAACATT TGTGTACAAA 
GCTCACATAC TGTGTGGGAA CTTGATGCTT GTTGAAGTAA TACCAAAGGA ACCCCTTAGC 
TTTAGCGTCT TCCACTACAA AAATCCCAAG ATGCAACATA CTGTCCAGGC AAAGTCACAG 
CAAGACAAGC GCCTTTGGAT TCTTCACTTG AAGAGGTTAA TTCTAGAAAA TCATCCTGCT 
AAAATTCCTG CCAAGGCCAA GCAGGCAATT CTAGAAATGG ATGCCATACA TCACCCAGGC 
TTCCACTATA GCCCTGAGGG AGAAATGAAA TCATCGTACC AGCCTAAAGA AGGCACTGCT 
CCTCACAGAG TGAGAAGGAA ATCAGAACCC TCATCTAGAG TTCATAAAGT TTTGAAGTCA 
AATGATATAA GTCCAGATAT GCAGAAGCGG ATCAGTATTG AAGGAGCCCT ATTATCTCAA 
GCCACCAAAC TAGGATCAAA TGAAGCCCTG CTGAATTCTA GGAAAAAGGT TCCATTGGAA 
CCTAGTGGGC TGGAGAGCCA ATTTCAAGAG TCCGTCGAGC CAGCCTACAG CAGTGATCAA 
GATGAAAATC TTCAGACTTC TGCTACTGAA CAGATTGATG CTGATGATGA AGAAGAGTCT 
GAACAGGGAG TCCAGCAAAA CTCACTGCAG AAATCAAAAG GGGGAAGAAA AAGACTTAAT 
AGTCAAGCTG CTGAAAACGT TGAAAAACGG AGAAGTATTA ATCTCAACAA GTGTGAAACG 
CAGAGCTCCA AGGACCCTTC AGATGAAGAG TCAACCCAGT TGAATACCGA TCTTCCGTTT 
TCCTGCGCAG CTAGACAGCC ACAGTCACCT AGACAATTCA GCACACCCCA GAGCGACTCG 
CTAATCATGA ATATCCTGGG GGGAAGTACC TCTGTCAGAA ACATCTGGAC TGACCATCAG 
ATCAGGCAGG CATTGTTTCC CAGCCGGCGC CCACCTTATG AGAATGAAGA CGACGAAGAT 
GATTATCAGA TGTTTGTACC ATCACTGTCT ACATCCAATG CTAGTTCAGC TGTGGGTGGC 
CAAAGGAGGG GTTCTTCTGG GCGTCCATGT AGCTGGCACT TGGGGGTAGT GCATCAAAAC 
GAGACTTCCA GCCCCACTCG TCACAAAATT GTTAGGCGGG CCAGTAGTGC TGGTGAAAGT 
AACACGTCTC CAGCCAGTGT AAGGTATAAA ATAGGGGAGC GCGGTTCTCG AAGGGAAGTG 
AAGAGAGCAG AAGTAAGTGG TATGAATGCA TATCCCGAAT CTTCAGAGGA GCTGACCATT 
GATGATATTG AACATGTTTA TGATAATATA AGCTATGAAG ACTTAAAGCT GATGGGTCTA 
ACAAGAAGGG AGGAGACAGA CCGTGGTCCT CAGAGATCTG CTAGAGACTC TCTCTATGAG 
GCTGAAAACA AAAGCAGCTT AGATTCACCC TCCAGAAAGA GGACAGCAAA TCAAAACAGG 
GCATCCATTT GTGCTAGTAG GGATGAGATA CTACTCAGTA GAGAAGCAGC TACTTCAAGT 
ATGGATGAGC TCAGGATCGT TGAAGACAAC ATCTATGACA CCATAGTGCT TCCAGAAACA 
CCACTATTGG ATTTTAAATG TGACCCCTTA AAATGCTCTA AAAGGAGGAG TTTTCTAGGC 
CTGGAAAAGG ACTTTGCATA TTGCGATAAT CTACGGCAGT TTGTTTCTGA AGAGAGTCTC 
CAGTTCAGCG AAGATGAAAG TCCTTACCAT CGTGTTCCCA TTGACAATGA CTATTTGAGC 
TTAGTAGATA GCTCTTCCAA CTCAGATTCA CTGTCCCATA AGTCTGCAGC AGATAAACTC 
TCGGAGGAAG TAGACGAGAT TTGGAATGAC CTGGAGAATT ACATCAAGAA GAATGAGGAA 
AAGACAAGAG ACCGTCTCCT TGCAGCCTTT CCTGTTTGTA AAGATGATAT GCAGGAAAGG 
CTGCATGCTG GTAGTACACC TGAACTGAGT AAAGATGTAG AGTACTCTTT GTCTACTCTC 
TCTCTACCAG AAACTCCTAT TTTGCCTAAA ACTGTGAAGC CCAGGGCTGC CACTGTAAGT 
GAGGCTAATC TCAGGCTTGA AGACACTACA CCATGCAAGG AGAACTCTTT TATGAGTCTG 
AACAGATCTT CCTTCTCCAG TGAGATGCCT TTTGTAGATA GCCCATATGA ATCTGCCAAT 
AGTGTTCTGT CCTATGCGCA TGCAGAGGGC ATGGAAAATG ACTTGGCTGC TGTGGATAAA 
ACAAAGAACA GAGTTTTTAT GATGGCAAGG CAGTACAGTC AAAAAATTAA GAAGGCTAAC 
CAGCTTTTGA AAGTTAAAAG TCCAGAGCAG GAACAGCCAG CTGGCAGACA ACAAAAACTG 
AAACACAAAG ATCTTGCGGC TATTCTGGAG GAGAAGAAAC AAGGGGGTCC TGCAATTGGT 
GCCAGAATAG CTGAATATTC CCAGCTTTAT GACCAAATCG TCTTTAGAGA AAGTTCACCT 
AAGGTCCAAA AGGAAGCCTG GGCCACTCCT CAGGAGCCAT CAGCCGGGAG GTTTTCCACA 
CCCGTGGCTG CATCTCCTCC TCGTTCCCAG GCTGCCACTG AATGCTCAAG AGCAGAAGAT 
TGGCTTTTGC ATTCTACGTA CAGTAACGGC GAGCTGGCCG ACTTCTCTCC ATGGCCTGAA 
TCCCAAGATC CGAAGTCCAA GAGCTCGTAT ACAGAAGCTG GTACAAAAAG CAATTCAAGG 
CAGTTGCCAT CAGCTGGCTC GGTGCCTTCC CTTCAGATTT CTAACCGTTT GCATGTTCCA 
GCGCAGAGGT GGAGCGCCAT TATCAGCCAA CCGAACAAAG AAAATTTACA TCAAGATCAC 
GTCTATAACT CTCTTGGGAG AAGAGTAAGC AATGTAAAAC CACAGGCATA CAGCAGGTCG 
CAGTCGTCTT CCTCAATTGT GGTCAACAGG TCTGGAGAAT CAATCGTATA TCCTAATGAA 
ACGGACAAGA AGAAGCTCCA TTCGAATAGG AACTTCCGAT TCAACAGCCA TCAAACGCCA 
GGTATTGCTT CAGGATGTAC AGGGCCTGAT ATGAGAAAGC AGATCCCTGA AAACTGTTCA 
GATATGATTC TGCAGGATTC TCAAAAGGTC CTGAGAGTGA ACAGGGCCTC CCCTCTGACG 
GCACAGATGG CCACTCAGAA CTATTTTTCG AATTTCAAAG ATACTGAAGA AGGAGAAGGG 
GATGACGATG ACTATGTCGA AATAAAGTCT GAAGATGAGG GATCTGACCT GGAGACTTCT 
CAGAACCAAA CAAGGAAATC GGATCCTAAA CTGCGTAACG AGGACGCTGC TCCTCCTGAA 
ACGCTCTGCG GCAAAACTGT CTCTTGTACT CCTGCAAAGT CCACCAGCAG CAAACACGCG 
CTTACCCCGT ATCTGACTGC ATATAGTGAT TCGGATAAAC TGAACGACTA CCTGTGGAGA 
GTACCATCTC CTAATCAGCA GAATATTGTC CAGTCCTTAA GGGAAAAGTT TCAGTGTCTC 
AGTTCAAGTA GCTTTGCTTG A