RAPGEF2 cDNA ORF clone, Buceros rhinoceros silvestris

Gene
Clones
gRNAs

Summary

Gene Symbol	RAPGEF2
Entrez Gene ID	104493266
Full Name	Rap guanine nucleotide exchange factor 2
Gene Type	protein-coding
Organism	Buceros rhinoceros silvestris

mRNA and Protein(s)

mRNA	Protein	Name
XM_010135920.1	XP_010134222.1	rap guanine nucleotide exchange factor 2

Pathways from BioSystems
Gene Ontology

The following RAPGEF2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the RAPGEF2 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
OBu34093	XM_010135920.1 Latest version!	Buceros rhinoceros silvestris Rap guanine nucleotide exchange factor (GEF) 2 (RAPGEF2), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$797.30 $1139.00

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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)

RAPGEF2 ( XM_010135920.1 ) cDNA ORF clone, Buceros rhinoceros silvestris -> XP_010134222.1 Buceros rhinoceros silvestris Rap guanine nucleotide exchange factor (GEF) 2 (RAPGEF2), mRNA.

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CloneID	OBu34093
Clone ID Related Accession (Same CDS sequence)	XM_010135920.1
Accession Version	XM_010135920.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4260bp) 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	2014-11-05
Organism	Buceros rhinoceros silvestris
Product	rap guanine nucleotide exchange factor 2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_010389986.1) 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 :: Buceros rhinoceros silvestris Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGATCTCA GTGGATTACC AGAGACAGCA GTGGATTCTG AGGATGATGA TGATGAAGAA 
GACATTGAAA GGGCATCGGA TCCTTTGATG AGTAGGGATA TCGTTAGAGA CTGCTTGGAG 
AAAGACCCAA TAGACAGGAC AGATGATGAC ATTGAACAAC TACTGGAATT CATGCATCAA 
TTGCCTGCTT TTGCCAACAT GACAATGTCA GTGAGGAGAG AGCTCTGTGC TGTAATGGTG 
TTTGCAGTTG TGGAGAGAGC AGGAACTATT GTACTAAATG ATGGGGAAGA GCTGGATTCC 
TGGTCTGTCA TTTTGAATGG CTCTGTGGAG GTGACATACC CTGATGGAAG GACGGAGATA 
CTCTGCATGG GGAACAGTTT TGGTGTTTCT CCTACCATGG AAAAAGAATA TATGAAAGGA 
GTGATGAGAA CCAAAGTGGA TGACTGCCAG TTTGTTTGTA TAGCCCAGCA AGATTATTGT 
CGCATCCTCA ATCAAGTGGA AAAGAACATG CAGAAGGTAG AAGAGGAAGG GGAGATTGTG 
ATGGTGAAGG AACACAGGGA GCTTGATCGC ACTGGAACAA GAAAAGGTCA CATTGTCATC 
AAGGGAACAG CTGAAAGGTT AACAATGCAT TTGGTGGAAG AGCACTCTGT GGTAGACCCA 
ACATTTATAG AAGACTTCCT GTTGACGTAT CGGACCTTTC TTTCCAGCCC AATGGAAGTG 
GGCAAGAAGT TGTTGGAGTG GTTCAATGAC CCCAGCCTCA GGGATAAGGT TACACGGGTA 
GTATTGTTGT GGGTGAACAA TCACTTCAAT GATTTTGAAG GAGATCCTGC TATGACTCGT 
TTTCTGGAAG AATTTGAGAA CAATTTGGAG AGGGAGAAAA TGGGTGGACA TTTGAGGCTG 
TTAAATATTG CTTGTGCTGC TAAAGCTAAA CGAAGATTGA TAACCTTAAC AAAGCCATCT 
CGAGAAGCCC CTTTGCCTTT TAGCTTGCTG GGAGGGTCAG AAAAGGGGTT TGGAATCTTT 
GTCGACAGTG TAGATTTTGG TAGCAAAGCT ACAGAAGCAG GCTTGAAACG TGGAGACCAG 
ATACTGGAAG TGAATGGTCA AAACTTTGAA AACATTCAGT TGTCAAAAGC CATGGAAATC 
CTTAGAAATA ACACTCATCT GTCTATCACT GTGAAAACCA ATTTATTTGT TTTTAAAGAA 
CTCTTAACGC GGTTGTCAGA GGAAAAAAGA AATGGTGCTC CCCACCTGCC TAAAATTGGT 
GATATTAAAA AGGCAAGTCG TTATTCCATC CCAGACCTTG CTGTTGATGT GGAGCAAGTA 
ATAGGATTAG AAAAAGTAAA TAAGAAAAGT AAAGCAAATA CAGTTGGGGG AAGAAATAAA 
TTAAAGAAGA TACTTGACAA GACTCGAATC AGTATTCTGC CTCAGAAACC ATACAATGAC 
ATTGGAATTG GCCAGTCTCA GGATGACAGC ATTGTGGGAC TGAGGCAGAC GAAGCACATT 
CCTCCTGCTT TACCTGTCAG TGGAACCCTG TCATCCAGTA ATCCTGACCT ACTGCAGTCT 
CATCACCGCA TCTTAGATTT CAATACTACT CCAGACTTAC CAGATCAAGT TCTAAGGGTT 
TTCAAGGCAG ATCAGCAAAG TCGCTACATC ATGATCAGCA AGGACACAAC AGCAAAAGAA 
GTGGTCATCC AAGCTATTAG GGAGTTTGCT CTCACTGCAA CCCCCGATGC ATATTCACTC 
TGCGAAGTGT CTGTCACCCC AGAAGGTGTA ATCAAGCAAA GGAGGCTTCC TGATCAGTTA 
TCCAAGCTTG CTGACAGGAT ACAGCTGAGT GGCAGGTATT ACCTGAAGAA CAACATGGAG 
ACAGAAACTC TCTGTTCGGA TGAAGATGCT CAAGAGTTAT TAAGGGAAAG TCAGATTTCC 
CTACTGCAGC TCAGTACTGT TGAGGTGGCT ACCCAACTCT CCATGAGAAA CTTTGAGCTA 
TTCCGGAATA TAGAACCCAC GGAATACATA GATGACTTGT TTAAACTCAA ATCAAAATCG 
GGTTGCACTA ATCTAAAAAA GTTTGAAGAG GTGATAAATC AAGAAACATT TTGGGTGGCT 
TCTGAGATTC TAAGAGAAAC CAACCAACTG AAAAGGATGA AGATCATTAA GCATTTCATT 
AAGATAGCAC TACACTGCAG AGAATGCAAG AACTTCAACT CGATGTTTGC CATCATTAGT 
GGCCTAAATT TGGCACCAGT TGCAAGGCTC CGAACTACTT GGGAGAAGCT TCCGAGCAAG 
TATGAAAAAC TGTTTCAAGA TCTACAGGAC TTGTTTGATC CATCTAGGAA TATGGCAAAG 
TATCGTAACG TCCTTAACAG CCAAAACCTA CAGCCTCCCA TTATCCCCCT GTTTCCTGTT 
ATCAAAAAAG ACCTTACCTT CCTTCATGAA GGAAATGATT CAAAAGTGGA GGGCTTGGTC 
AATTTTGAGA AGCTGAGAAT GATTGCAAAG GAGATACGCC ATGTTGGTCG CATGGCATCT 
GTGAACATGG ATCCTGCTTT AATGTTTAGA ACGAGGAAGA AGAAATGGAG GAGTTTGGGA 
TCTCTCAGCC AGGGCAGTAC GAATGCAGCC GTGCTGGATG TCGCGCAAAC GGGGGGTCAT 
AAAAAGCGGG TCCGTCGCAG CTCCTTTCTT AATGCTAAAA AATTGTATGA AGATGCTCAG 
ATGGCACGGA AAGTAAAGCA GTATCTCTCA AACTTGGATC TGGAAATGGA TGAAGAGAGC 
CTTCAGACAC TGTCTCTGCA GTGTGAGCCA GCCACCAACA CACTGCCAAA GAACACAGGA 
GACAAGCGAT CAGGAAAATC TGAGACATCA CCAGTGGCTC CCCGGGCGGG CATCCAGCAG 
AAAGTGCAAC AGCAGCAGCA ACATAAAGTA AACCAAGCAT TGCAGGTCCC CGCTGTATCT 
CTTTATCCCT CTCGCAAGAA AGTGCCAGTC AAAGACCTCC CACCATTTGG CATTAACTCA 
CCCCAAGCTT TAAAGAAAAT TCTTTCATTA TCTGAAGAAG GAAGTTTGGA TCGCCACAAG 
AAACTGTCTG AAGACACAGT CTCGAGTGCA TCGTCACAGC TGTCTTCTCC ACCGACTTCA 
CCACAGAGCT CTCCAAGGAA AGGCTATTCT TTGGCTCCTA GCGGCACAGT GGATAACTTT 
TCAGATTCTG GTCACAGCGA AATTTCTTCC AGATCTAGTA TTGTCAGCAA TTCCTCTTTT 
GACTCTATGC CGGTCTCCCT GCATGATGAG AGGAGACAGA GGCATTCTGT CAGCATCGTG 
GAGACAAATC TTGGTGTGGG AAGGATTGAT AGAAGAATCA TGATTGAACC AGATCAATAC 
AGCTTAGGCT CATATGCACC ACTGTCAGAG ACCAGAGGCC TGTATGCTGG AGCAATTGTG 
CTTTCTTCTC CTAGTACAGA AGAACTGTCA CAGGATCAGG GGGACAGAGC TTCACTCGAT 
GCAGCTGACA GTGGCCGTGG TAGCTGGACT TCTTGTTCGA GTGGTTCTCA TGACAACATA 
CAAACAATAC AGCACCAGAG AAGCTGGGAG ACTCTGCCTT TTGGACATGC TCATTTCGAT 
AGTTCAGGTG ATGGGGCAGG ACTGTGGTCC TCGGGCAGTC ACATGGACCA GCTGATGTTC 
CCCGATCATG GCACAAAGTA TGGCAGGCAA AGTCAAGGTA GAGAGGGCCT TGATCAAGCA 
CAGTCCAGAG CAAGCTGGGC ATCCTCAACA GGATACTGGG GAGAGGACTC GGAAGGTGAT 
ACAGGTACCA TAAAGCGGAG GGGAGGGAAG GATGTTTCGA CTGAAGCTGA AACCAGTAGC 
ATAACATCTG TACCAGCAGA GGAGTCAAAG CCAGCTCCCG TGCCCCCTCA CATAGCAGTA 
TCATCAAGTA GTACAAAGGG GCTTATTGCA CGAAAGGAGG GTCGATACCG GGAACCACCT 
CCAACTCCTC CTGGTTACGT AGGGATACCT ATTGCTGAGT TTGCAGAAGG TGGTTCGCAT 
CCAACCAGAA AGCCTCCAGA TTACAACATA GCACTTCAGA GGTCTAGAAT GGTGGCACGG 
ACATGTGAGA CTCACGGGAC GTCAACTCCG CAGCAGCAGT CGCATGGCCA TTCGACTAGC 
AGGCCTGTGA GCAAACCTCA GTGGCATAAA CCAAATGAGT CAGATCCACG TCTTACTCAC 
TATCCCTCTC AAGGGTTTTC CACAGAGGAA GATGAAGATG AACAAGTCTC TGCTGTCTAA

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

RefSeq	XP_010134222.1
CDS	151..4410
Translation	MDLSGLPETAVDSEDDDDEEDIERASDPLMSRDIVRDCLEKDPIDRTDDDIEQLLEFMHQLPAFANMTMSVRRELCAVMVFAVVERAGTIVLNDGEELDSWSVILNGSVEVTYPDGRTEILCMGNSFGVSPTMEKEYMKGVMRTKVDDCQFVCIAQQDYCRILNQVEKNMQKVEEEGEIVMVKEHRELDRTGTRKGHIVIKGTAERLTMHLVEEHSVVDPTFIEDFLLTYRTFLSSPMEVGKKLLEWFNDPSLRDKVTRVVLLWVNNHFNDFEGDPAMTRFLEEFENNLEREKMGGHLRLLNIACAAKAKRRLITLTKPSREAPLPFSLLGGSEKGFGIFVDSVDFGSKATEAGLKRGDQILEVNGQNFENIQLSKAMEILRNNTHLSITVKTNLFVFKELLTRLSEEKRNGAPHLPKIGDIKKASRYSIPDLAVDVEQVIGLEKVNKKSKANTVGGRNKLKKILDKTRISILPQKPYNDIGIGQSQDDSIVGLRQTKHIPPALPVSGTLSSSNPDLLQSHHRILDFNTTPDLPDQVLRVFKADQQSRYIMISKDTTAKEVVIQAIREFALTATPDAYSLCEVSVTPEGVIKQRRLPDQLSKLADRIQLSGRYYLKNNMETETLCSDEDAQELLRESQISLLQLSTVEVATQLSMRNFELFRNIEPTEYIDDLFKLKSKSGCTNLKKFEEVINQETFWVASEILRETNQLKRMKIIKHFIKIALHCRECKNFNSMFAIISGLNLAPVARLRTTWEKLPSKYEKLFQDLQDLFDPSRNMAKYRNVLNSQNLQPPIIPLFPVIKKDLTFLHEGNDSKVEGLVNFEKLRMIAKEIRHVGRMASVNMDPALMFRTRKKKWRSLGSLSQGSTNAAVLDVAQTGGHKKRVRRSSFLNAKKLYEDAQMARKVKQYLSNLDLEMDEESLQTLSLQCEPATNTLPKNTGDKRSGKSETSPVAPRAGIQQKVQQQQQHKVNQALQVPAVSLYPSRKKVPVKDLPPFGINSPQALKKILSLSEEGSLDRHKKLSEDTVSSASSQLSSPPTSPQSSPRKGYSLAPSGTVDNFSDSGHSEISSRSSIVSNSSFDSMPVSLHDERRQRHSVSIVETNLGVGRIDRRIMIEPDQYSLGSYAPLSETRGLYAGAIVLSSPSTEELSQDQGDRASLDAADSGRGSWTSCSSGSHDNIQTIQHQRSWETLPFGHAHFDSSGDGAGLWSSGSHMDQLMFPDHGTKYGRQSQGREGLDQAQSRASWASSTGYWGEDSEGDTGTIKRRGGKDVSTEAETSSITSVPAEESKPAPVPPHIAVSSSSTKGLIARKEGRYREPPPTPPGYVGIPIAEFAEGGSHPTRKPPDYNIALQRSRMVARTCETHGTSTPQQQSHGHSTSRPVSKPQWHKPNESDPRLTHYPSQGFSTEEDEDEQVSAV

Target ORF information:

RefSeq Version	XM_010135920.1
Organism	Buceros rhinoceros silvestris
Definition	Buceros rhinoceros silvestris Rap guanine nucleotide exchange factor (GEF) 2 (RAPGEF2), mRNA.

Target ORF information:

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

XM_010135920.1

ORF Insert Sequence:

ATGGATCTCA GTGGATTACC AGAGACAGCA GTGGATTCTG AGGATGATGA TGATGAAGAA 
GACATTGAAA GGGCATCGGA TCCTTTGATG AGTAGGGATA TCGTTAGAGA CTGCTTGGAG 
AAAGACCCAA TAGACAGGAC AGATGATGAC ATTGAACAAC TACTGGAATT CATGCATCAA 
TTGCCTGCTT TTGCCAACAT GACAATGTCA GTGAGGAGAG AGCTCTGTGC TGTAATGGTG 
TTTGCAGTTG TGGAGAGAGC AGGAACTATT GTACTAAATG ATGGGGAAGA GCTGGATTCC 
TGGTCTGTCA TTTTGAATGG CTCTGTGGAG GTGACATACC CTGATGGAAG GACGGAGATA 
CTCTGCATGG GGAACAGTTT TGGTGTTTCT CCTACCATGG AAAAAGAATA TATGAAAGGA 
GTGATGAGAA CCAAAGTGGA TGACTGCCAG TTTGTTTGTA TAGCCCAGCA AGATTATTGT 
CGCATCCTCA ATCAAGTGGA AAAGAACATG CAGAAGGTAG AAGAGGAAGG GGAGATTGTG 
ATGGTGAAGG AACACAGGGA GCTTGATCGC ACTGGAACAA GAAAAGGTCA CATTGTCATC 
AAGGGAACAG CTGAAAGGTT AACAATGCAT TTGGTGGAAG AGCACTCTGT GGTAGACCCA 
ACATTTATAG AAGACTTCCT GTTGACGTAT CGGACCTTTC TTTCCAGCCC AATGGAAGTG 
GGCAAGAAGT TGTTGGAGTG GTTCAATGAC CCCAGCCTCA GGGATAAGGT TACACGGGTA 
GTATTGTTGT GGGTGAACAA TCACTTCAAT GATTTTGAAG GAGATCCTGC TATGACTCGT 
TTTCTGGAAG AATTTGAGAA CAATTTGGAG AGGGAGAAAA TGGGTGGACA TTTGAGGCTG 
TTAAATATTG CTTGTGCTGC TAAAGCTAAA CGAAGATTGA TAACCTTAAC AAAGCCATCT 
CGAGAAGCCC CTTTGCCTTT TAGCTTGCTG GGAGGGTCAG AAAAGGGGTT TGGAATCTTT 
GTCGACAGTG TAGATTTTGG TAGCAAAGCT ACAGAAGCAG GCTTGAAACG TGGAGACCAG 
ATACTGGAAG TGAATGGTCA AAACTTTGAA AACATTCAGT TGTCAAAAGC CATGGAAATC 
CTTAGAAATA ACACTCATCT GTCTATCACT GTGAAAACCA ATTTATTTGT TTTTAAAGAA 
CTCTTAACGC GGTTGTCAGA GGAAAAAAGA AATGGTGCTC CCCACCTGCC TAAAATTGGT 
GATATTAAAA AGGCAAGTCG TTATTCCATC CCAGACCTTG CTGTTGATGT GGAGCAAGTA 
ATAGGATTAG AAAAAGTAAA TAAGAAAAGT AAAGCAAATA CAGTTGGGGG AAGAAATAAA 
TTAAAGAAGA TACTTGACAA GACTCGAATC AGTATTCTGC CTCAGAAACC ATACAATGAC 
ATTGGAATTG GCCAGTCTCA GGATGACAGC ATTGTGGGAC TGAGGCAGAC GAAGCACATT 
CCTCCTGCTT TACCTGTCAG TGGAACCCTG TCATCCAGTA ATCCTGACCT ACTGCAGTCT 
CATCACCGCA TCTTAGATTT CAATACTACT CCAGACTTAC CAGATCAAGT TCTAAGGGTT 
TTCAAGGCAG ATCAGCAAAG TCGCTACATC ATGATCAGCA AGGACACAAC AGCAAAAGAA 
GTGGTCATCC AAGCTATTAG GGAGTTTGCT CTCACTGCAA CCCCCGATGC ATATTCACTC 
TGCGAAGTGT CTGTCACCCC AGAAGGTGTA ATCAAGCAAA GGAGGCTTCC TGATCAGTTA 
TCCAAGCTTG CTGACAGGAT ACAGCTGAGT GGCAGGTATT ACCTGAAGAA CAACATGGAG 
ACAGAAACTC TCTGTTCGGA TGAAGATGCT CAAGAGTTAT TAAGGGAAAG TCAGATTTCC 
CTACTGCAGC TCAGTACTGT TGAGGTGGCT ACCCAACTCT CCATGAGAAA CTTTGAGCTA 
TTCCGGAATA TAGAACCCAC GGAATACATA GATGACTTGT TTAAACTCAA ATCAAAATCG 
GGTTGCACTA ATCTAAAAAA GTTTGAAGAG GTGATAAATC AAGAAACATT TTGGGTGGCT 
TCTGAGATTC TAAGAGAAAC CAACCAACTG AAAAGGATGA AGATCATTAA GCATTTCATT 
AAGATAGCAC TACACTGCAG AGAATGCAAG AACTTCAACT CGATGTTTGC CATCATTAGT 
GGCCTAAATT TGGCACCAGT TGCAAGGCTC CGAACTACTT GGGAGAAGCT TCCGAGCAAG 
TATGAAAAAC TGTTTCAAGA TCTACAGGAC TTGTTTGATC CATCTAGGAA TATGGCAAAG 
TATCGTAACG TCCTTAACAG CCAAAACCTA CAGCCTCCCA TTATCCCCCT GTTTCCTGTT 
ATCAAAAAAG ACCTTACCTT CCTTCATGAA GGAAATGATT CAAAAGTGGA GGGCTTGGTC 
AATTTTGAGA AGCTGAGAAT GATTGCAAAG GAGATACGCC ATGTTGGTCG CATGGCATCT 
GTGAACATGG ATCCTGCTTT AATGTTTAGA ACGAGGAAGA AGAAATGGAG GAGTTTGGGA 
TCTCTCAGCC AGGGCAGTAC GAATGCAGCC GTGCTGGATG TCGCGCAAAC GGGGGGTCAT 
AAAAAGCGGG TCCGTCGCAG CTCCTTTCTT AATGCTAAAA AATTGTATGA AGATGCTCAG 
ATGGCACGGA AAGTAAAGCA GTATCTCTCA AACTTGGATC TGGAAATGGA TGAAGAGAGC 
CTTCAGACAC TGTCTCTGCA GTGTGAGCCA GCCACCAACA CACTGCCAAA GAACACAGGA 
GACAAGCGAT CAGGAAAATC TGAGACATCA CCAGTGGCTC CCCGGGCGGG CATCCAGCAG 
AAAGTGCAAC AGCAGCAGCA ACATAAAGTA AACCAAGCAT TGCAGGTCCC CGCTGTATCT 
CTTTATCCCT CTCGCAAGAA AGTGCCAGTC AAAGACCTCC CACCATTTGG CATTAACTCA 
CCCCAAGCTT TAAAGAAAAT TCTTTCATTA TCTGAAGAAG GAAGTTTGGA TCGCCACAAG 
AAACTGTCTG AAGACACAGT CTCGAGTGCA TCGTCACAGC TGTCTTCTCC ACCGACTTCA 
CCACAGAGCT CTCCAAGGAA AGGCTATTCT TTGGCTCCTA GCGGCACAGT GGATAACTTT 
TCAGATTCTG GTCACAGCGA AATTTCTTCC AGATCTAGTA TTGTCAGCAA TTCCTCTTTT 
GACTCTATGC CGGTCTCCCT GCATGATGAG AGGAGACAGA GGCATTCTGT CAGCATCGTG 
GAGACAAATC TTGGTGTGGG AAGGATTGAT AGAAGAATCA TGATTGAACC AGATCAATAC 
AGCTTAGGCT CATATGCACC ACTGTCAGAG ACCAGAGGCC TGTATGCTGG AGCAATTGTG 
CTTTCTTCTC CTAGTACAGA AGAACTGTCA CAGGATCAGG GGGACAGAGC TTCACTCGAT 
GCAGCTGACA GTGGCCGTGG TAGCTGGACT TCTTGTTCGA GTGGTTCTCA TGACAACATA 
CAAACAATAC AGCACCAGAG AAGCTGGGAG ACTCTGCCTT TTGGACATGC TCATTTCGAT 
AGTTCAGGTG ATGGGGCAGG ACTGTGGTCC TCGGGCAGTC ACATGGACCA GCTGATGTTC 
CCCGATCATG GCACAAAGTA TGGCAGGCAA AGTCAAGGTA GAGAGGGCCT TGATCAAGCA 
CAGTCCAGAG CAAGCTGGGC ATCCTCAACA GGATACTGGG GAGAGGACTC GGAAGGTGAT 
ACAGGTACCA TAAAGCGGAG GGGAGGGAAG GATGTTTCGA CTGAAGCTGA AACCAGTAGC 
ATAACATCTG TACCAGCAGA GGAGTCAAAG CCAGCTCCCG TGCCCCCTCA CATAGCAGTA 
TCATCAAGTA GTACAAAGGG GCTTATTGCA CGAAAGGAGG GTCGATACCG GGAACCACCT 
CCAACTCCTC CTGGTTACGT AGGGATACCT ATTGCTGAGT TTGCAGAAGG TGGTTCGCAT 
CCAACCAGAA AGCCTCCAGA TTACAACATA GCACTTCAGA GGTCTAGAAT GGTGGCACGG 
ACATGTGAGA CTCACGGGAC GTCAACTCCG CAGCAGCAGT CGCATGGCCA TTCGACTAGC 
AGGCCTGTGA GCAAACCTCA GTGGCATAAA CCAAATGAGT CAGATCCACG TCTTACTCAC 
TATCCCTCTC AAGGGTTTTC CACAGAGGAA GATGAAGATG AACAAGTCTC TGCTGTCTAA