RALGAPB cDNA ORF clone, Acanthisitta chloris(rifleman)

Gene
Clones
gRNAs

Summary

Gene Symbol	RALGAPB
Entrez Gene ID	103803580
Full Name	Ral GTPase activating protein non-catalytic beta subunit
Gene Type	protein-coding
Organism	Acanthisitta chloris(rifleman)

mRNA and Protein(s)

mRNA	Protein	Name
XM_009076146.1	XP_009074394.1	ral GTPase-activating protein subunit beta

Pathways from BioSystems
Gene Ontology

The following RALGAPB gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the RALGAPB 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
OAc119538	XM_009076146.1 Latest version!	Acanthisitta chloris Ral GTPase activating protein, beta subunit (non-catalytic) (RALGAPB), 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)

RALGAPB ( XM_009076146.1 ) cDNA ORF clone, Acanthisitta chloris(rifleman) -> XP_009074394.1 Acanthisitta chloris Ral GTPase activating protein, beta subunit (non-catalytic) (RALGAPB), mRNA.

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CloneID	OAc119538
Clone ID Related Accession (Same CDS sequence)	XM_009076146.1
Accession Version	XM_009076146.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4446bp) 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	2014-09-04
Organism	Acanthisitta chloris(rifleman)
Product	ral GTPase-activating protein subunit beta
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008676464.1) 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 :: Acanthisitta chloris 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## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

ATGTACTCAG AGTGGAGATC CTTGCATCTC GTCATTCAAA ATGATCAGGG GAATACCAGT 
GTACTTCACA GCTATCCTGA AAACGTGGGG AGGGAAGTGG CGAACGCAGT GGTGCGTCCT 
CTTGGACAGG CTTTAATTGC ATCATCTGTT GGAAATGAGA GTTTGCTAAA AACAGACAAA 
GAAGTAAAAT GGACTATGGA GGTGGTTTGT TACGGTCTGA CCCTCCCTCT GGACGGCGAT 
ACTGTGAAAT ACTGTGTGGA TGTGTATACA GACTGGATTA TGGCCCTTGT GTTACCTAAG 
GACTCCATTC CTTTACCTGT TATTAAGGAA CCAAACCTTT ATGTTCAAAG CATTCTCAAA 
CATCTCCAAA ATCTCTTTGT ACCGAGGCCA GACCCAGGAT CCAGCCAGAT CAGGCTGTGC 
TTGCAGGTTT TGAAAGCTGT CCAGAAACTG GCTCATGAAT CCACAATTAT GGCAAGAGAA 
ACCTGGGAGG TTTTGTTATT ATTTCTTCTT CAGATCAATG ACACTCTTCT GGCAGCTCCA 
ACTGTGCAAG GTGGCATTGC TGAGAACCTG GCTGAGAAGT TAATTGGGGT GCTGTTTGAG 
GTGTGGTTAC TCGCTTGCAC GCGGTGCTTC CCGACACCCC CATACTGGAA AACTGCCAAA 
GAGATGGTGG CCAACTGGAG ACATCACCCT GCAGTGGTTG AGCAGTGGAG CAAGGTCATC 
TGTGCCCTTA CATCCAGATT GCTGCGCTTT ACCTACGGCC CTTCCTTCCC TCCGTTTAAG 
ATTCCTGATG AAGATGCTGG TCTGATTCCT CTGGAAATGG ATAATGAGTG CGTTGCACAA 
ACTTGGTTTC GCTTTTTACA TATGCTGAGT AATCCTGTGG ATTTGAGTAA CCCAGCCATT 
ATTAGCTCTA CCCCCAAATT TCAGGAGCAG TTTCTGAATG TGAGTGGGAT GACTCAAGAG 
CTGAATCAGT ACCCCTGCCT TAAACATCTG CCTCAAATAT TCTTTCGTGC CATGCGTGGG 
ATCAGCTGTT TAGTGGATGC ATTCCTAGGC ATCTCCCGGC CCCGGGCAGA CAGTGCCCCC 
CCCACGCCCG TGAACAGGCT GAGCATGCCC CAGAACACAG CTACCAACAC CACTCCCCCC 
CACAACCGCC GGCATCGGGC AGTGACTGTC AACAAAGCAA CCATGAAAAC CAGCACTGTA 
ACTACTGCAC ATACTTCAAA AGTGCAGCAC CAACCCTCCT CTACTTCTCC ACTCTCTAGC 
CCAAACCAGA CAAGCTCTGA GCCACGGCCA CTACCAGCTC CTCGCAGGCC AAAGGTTAAC 
AGCATCTTGA ACCTCTTTGG ATCGTGGTTA TTTGATGCCG CGTTTGTTCA CTGTAAACTT 
CACAATGGAA TAAACAGAGA CAGCAGCATG ACTGCTATAG CCACCCAAGC TAGTATGGAG 
TTCCGCCGGA AAGGATCCCA AATGTCCACA GACACTATGG CTTCCAACCC CATGTTTGAC 
GCCAGTGAAT TCCCAGACAA CTATGAAGCA GGAAGGGCAG AGGCATGCGG GACACTGTGT 
AGGATATTTT GTAGCAAGAA GACTGGGGAG GAAATATTAC CAGCTTACCT ATCTCGATTT 
TACATGCTTT TAATTCAGGG TTTGCAGATA GCAGATTTCG TTTGCCACCC CGTCCTTGCC 
AGTGTCATTC TGAACTCCCC TCCTCTGTTC TGCTGTGACC TCAAAGGCAT TGATGTCGTG 
GTTCCCTACT TCATTTCAGC TCTTGAAACT ATTTTACCTG ACAGAGAACT CTCAAAGTTT 
AAAATCTATG TAAACCCCAC AGAACTAAGA AGAGCTTCCA TTAACATCTT ACTGTCTCTG 
CTGCCTCTCC CTCATCATTT TGGAACCATA AAGTCTGAGG TTGTCCTGGA AGGGAAATTC 
AGCAATGATG ACAGCTCAAC ATATGACAAG CCTGTGACAT TCCTGTCCTT GAAGCTGAGG 
CTTGTGAATA TACTCATAGG AGCTTTGCAG ACGGAAACAG ATCCCAACAA CACTCAGATG 
ATATTAGGTG CAATGTTAAA TATTGTTCAG GATTCAGCAC TGTTGGAAGC CATTGGCTGT 
CAGATGGAAA CAAATGGTGG TGAGAACAAC CTCTTCAAGA GCCACAGCCG CACCAACAGT 
GGCATCAGCA CTGCCAGTGG AGGCAGCACA GAGCCCACGA CCCCCGACAG CGAGCGGCCA 
GCACAGGCCC TCCTGAGGGA TTATGATACA GCTGCTGGAC TGCTGATACG CAGCATCCAC 
CTGGTAACCC AAAGGCTCAA CTCCCAGTGG AGGCAGGACA TGAGTATCTC TCTGGCTGCC 
CTGGAGCTGC TCTCTGGACT GGCAAAGGTG AGAGCGATCA GCTCCGTGTG CAGCTACATC 
GTGTACCAGT GCAGCCGCCC GGCCCCACTG CACTCCCGGG ACCTGCACTC CATGATCGTG 
GCAGCCTTCC AGTGCCTCTG TGTGTGGCTT ACGGAGCACC CTGACATGCT GGATGAGAAG 
GATTGCTTAA AGGAGGTGTT AGAGATTGTG GAGCTTGGCA TTTCCGGAAG TAAATCCAAA 
AACAGCGAGC AGGAGGTCAA GTACAAAGGG GATAAGGAGC CAAACCCTGC GTCCATGAGA 
GTGAAGGATG CTGCTGAAGC TACACTAACG TGCATTATGC AGTTGCTCGG GGCATTTCCT 
TCCCCCAGTG GCCCTGCTTC TCCCTGCAGT TTGGTGAATG AAACCACCTT GATCAAGTAC 
TCCCGTTTGC CCACCATAAA CAAGCACAGC TTCCGCTACT TCGTCTTGGA TAACAGTGTC 
ATCCTGGCCA TGCTGGAGCA GCCCCTAGGC AATGAGCAGA GTAAGTTTTT CCCCTCTGTC 
ACGGTTCTGA TCCGTGGGAC ATCTGGAAGA TTTGCATGGG CCCAGCAACT CTGTCTCTTG 
CCAAGAGGAG CTAAAGCAAA TCAAAAGACA TTCGTACCAG AACCTCGACC AGCTCCTAAA 
AACGATGTTG GCTTGAAGTA CAGTGTGAAA CATCGCCCTT TCCCTGAAGA AGTGGACAAG 
ATCCCATTTG TGAAAGCTGA CTTGAGCATT CCTGATTTAC ATGAAATTGT GAATGAGGAA 
CTGGAAGAGC GCCATGAGAA GCTGAGGAAT GGCATGGCCC AGCAGATTGT CTTTGAGACT 
TCCATAGATC AGAGAAGTGA AGAGGAGTGG CGGAAGAAGA GCTTTCCTGA TCCCGTCACG 
GAGTGCAAGC CGCCGCCGCC AGCGCAGGAG TTCCAGACAG CACGTCTGTT CCTCTCTCAC 
TTCGGGTTCC TCTCGCTAGA GGCATTGAAG GAACCTGCTA ACAGTCGTCT ACCTCCTCAC 
CTGATTGCAC TTGACTCTGC TCTTCCTGGG TTTTTTGATG ACCTTGGCTA CTTGGATTTA 
CTACCTTGTC GTCCTTTTGA TACTGTTTTC ATTTTCTACA TGAAGGCAGG CCAGAAAACA 
AGCCAGGAGA TCCTGAAGAA CATGGAGTCT TCCAGAATTG TTCAGCCCCA CTTTTTGGAG 
TTCTTGTTGT CTCTTGGCTG GTCTGTTGAC GTGGGGAAGC ACCCTGGGTG GACTGGCCAC 
GTCTCGACAA GCTGGTCAAT CAACAGCTGC AGTGATGAAG AGGGGCCTGA GCAAGATGAG 
CTAGTTATCT CAGAAGATGT TGGGGCAAGT ATCTTCAATG GGCAGAAGAA GGTGCTGTAC 
TACGCAGATG CCCTGACAGA AATCGCCTTC GTCGTCCCAT CGCCAGTGGA GTCCCTGACT 
GATTCACTGG AAAGCAGTGT CTCTGACCAA GAAAGTGACT CCAACATGGA TCTGCTGCCA 
GGGATATTGA AGCAACAGCC TCTGACACTT GAACTCTTCC CCAATCATAC AGACAATCTT 
AATCCCTCCC AACGGCTGAG TCCTACTTCC AGATCCAAGA GGATGCCTCA GGGCCGGACC 
ATTCCACCGA TGGGACCTGA AACCAAAGTG TATGTGGTCT GGGTGGAACG TTACGATGAT 
ATAGAAAACT TCCCCCTCCC TGATCTGGTG TCTGAGACTA GCACTGGTGT GGAAACAACA 
GCCAATAGTA GCACTTCCCT GAGATCTACG ATTCCTGAGA AGGAAGTTCC TGTGATCTTT 
ATCCATCCTT TAAACACTGG CTTATTCAGG ATAAAACTGC AAGGAGCAAC TGGGAAATTC 
AACATGGTTA TCCCACTGGT GGATGGAATG ATAGTCAGTA GGAGAGCTCT GGGTTTTCTA 
GTGAGGCAGA CAGTCATAAA CATTTGTCGG AGGAAGAGGC TGGAAAGTGA CTCGTACAAC 
CCTCCCCACG TGCGCCGGAA ACAGAAGATC GCAGACATCG TCAATAAGTA CCGGAACAGG 
CAGCTGGAGC CCGAGTTTTA TACCTCGCTT TTCCAGGAGG TTGGGCTCAA GAACTGCAAC 
CCCTAG

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

RefSeq	XP_009074394.1
CDS	1..4446
Translation	MYSEWRSLHLVIQNDQGNTSVLHSYPENVGREVANAVVRPLGQALIASSVGNESLLKTDKEVKWTMEVVCYGLTLPLDGDTVKYCVDVYTDWIMALVLPKDSIPLPVIKEPNLYVQSILKHLQNLFVPRPDPGSSQIRLCLQVLKAVQKLAHESTIMARETWEVLLLFLLQINDTLLAAPTVQGGIAENLAEKLIGVLFEVWLLACTRCFPTPPYWKTAKEMVANWRHHPAVVEQWSKVICALTSRLLRFTYGPSFPPFKIPDEDAGLIPLEMDNECVAQTWFRFLHMLSNPVDLSNPAIISSTPKFQEQFLNVSGMTQELNQYPCLKHLPQIFFRAMRGISCLVDAFLGISRPRADSAPPTPVNRLSMPQNTATNTTPPHNRRHRAVTVNKATMKTSTVTTAHTSKVQHQPSSTSPLSSPNQTSSEPRPLPAPRRPKVNSILNLFGSWLFDAAFVHCKLHNGINRDSSMTAIATQASMEFRRKGSQMSTDTMASNPMFDASEFPDNYEAGRAEACGTLCRIFCSKKTGEEILPAYLSRFYMLLIQGLQIADFVCHPVLASVILNSPPLFCCDLKGIDVVVPYFISALETILPDRELSKFKIYVNPTELRRASINILLSLLPLPHHFGTIKSEVVLEGKFSNDDSSTYDKPVTFLSLKLRLVNILIGALQTETDPNNTQMILGAMLNIVQDSALLEAIGCQMETNGGENNLFKSHSRTNSGISTASGGSTEPTTPDSERPAQALLRDYDTAAGLLIRSIHLVTQRLNSQWRQDMSISLAALELLSGLAKVRAISSVCSYIVYQCSRPAPLHSRDLHSMIVAAFQCLCVWLTEHPDMLDEKDCLKEVLEIVELGISGSKSKNSEQEVKYKGDKEPNPASMRVKDAAEATLTCIMQLLGAFPSPSGPASPCSLVNETTLIKYSRLPTINKHSFRYFVLDNSVILAMLEQPLGNEQSKFFPSVTVLIRGTSGRFAWAQQLCLLPRGAKANQKTFVPEPRPAPKNDVGLKYSVKHRPFPEEVDKIPFVKADLSIPDLHEIVNEELEERHEKLRNGMAQQIVFETSIDQRSEEEWRKKSFPDPVTECKPPPPAQEFQTARLFLSHFGFLSLEALKEPANSRLPPHLIALDSALPGFFDDLGYLDLLPCRPFDTVFIFYMKAGQKTSQEILKNMESSRIVQPHFLEFLLSLGWSVDVGKHPGWTGHVSTSWSINSCSDEEGPEQDELVISEDVGASIFNGQKKVLYYADALTEIAFVVPSPVESLTDSLESSVSDQESDSNMDLLPGILKQQPLTLELFPNHTDNLNPSQRLSPTSRSKRMPQGRTIPPMGPETKVYVVWVERYDDIENFPLPDLVSETSTGVETTANSSTSLRSTIPEKEVPVIFIHPLNTGLFRIKLQGATGKFNMVIPLVDGMIVSRRALGFLVRQTVINICRRKRLESDSYNPPHVRRKQKIADIVNKYRNRQLEPEFYTSLFQEVGLKNCNP

Target ORF information:

RefSeq Version	XM_009076146.1
Organism	Acanthisitta chloris(rifleman)
Definition	Acanthisitta chloris Ral GTPase activating protein, beta subunit (non-catalytic) (RALGAPB), mRNA.

Target ORF information:

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

XM_009076146.1

ORF Insert Sequence:

ATGTACTCAG AGTGGAGATC CTTGCATCTC GTCATTCAAA ATGATCAGGG GAATACCAGT 
GTACTTCACA GCTATCCTGA AAACGTGGGG AGGGAAGTGG CGAACGCAGT GGTGCGTCCT 
CTTGGACAGG CTTTAATTGC ATCATCTGTT GGAAATGAGA GTTTGCTAAA AACAGACAAA 
GAAGTAAAAT GGACTATGGA GGTGGTTTGT TACGGTCTGA CCCTCCCTCT GGACGGCGAT 
ACTGTGAAAT ACTGTGTGGA TGTGTATACA GACTGGATTA TGGCCCTTGT GTTACCTAAG 
GACTCCATTC CTTTACCTGT TATTAAGGAA CCAAACCTTT ATGTTCAAAG CATTCTCAAA 
CATCTCCAAA ATCTCTTTGT ACCGAGGCCA GACCCAGGAT CCAGCCAGAT CAGGCTGTGC 
TTGCAGGTTT TGAAAGCTGT CCAGAAACTG GCTCATGAAT CCACAATTAT GGCAAGAGAA 
ACCTGGGAGG TTTTGTTATT ATTTCTTCTT CAGATCAATG ACACTCTTCT GGCAGCTCCA 
ACTGTGCAAG GTGGCATTGC TGAGAACCTG GCTGAGAAGT TAATTGGGGT GCTGTTTGAG 
GTGTGGTTAC TCGCTTGCAC GCGGTGCTTC CCGACACCCC CATACTGGAA AACTGCCAAA 
GAGATGGTGG CCAACTGGAG ACATCACCCT GCAGTGGTTG AGCAGTGGAG CAAGGTCATC 
TGTGCCCTTA CATCCAGATT GCTGCGCTTT ACCTACGGCC CTTCCTTCCC TCCGTTTAAG 
ATTCCTGATG AAGATGCTGG TCTGATTCCT CTGGAAATGG ATAATGAGTG CGTTGCACAA 
ACTTGGTTTC GCTTTTTACA TATGCTGAGT AATCCTGTGG ATTTGAGTAA CCCAGCCATT 
ATTAGCTCTA CCCCCAAATT TCAGGAGCAG TTTCTGAATG TGAGTGGGAT GACTCAAGAG 
CTGAATCAGT ACCCCTGCCT TAAACATCTG CCTCAAATAT TCTTTCGTGC CATGCGTGGG 
ATCAGCTGTT TAGTGGATGC ATTCCTAGGC ATCTCCCGGC CCCGGGCAGA CAGTGCCCCC 
CCCACGCCCG TGAACAGGCT GAGCATGCCC CAGAACACAG CTACCAACAC CACTCCCCCC 
CACAACCGCC GGCATCGGGC AGTGACTGTC AACAAAGCAA CCATGAAAAC CAGCACTGTA 
ACTACTGCAC ATACTTCAAA AGTGCAGCAC CAACCCTCCT CTACTTCTCC ACTCTCTAGC 
CCAAACCAGA CAAGCTCTGA GCCACGGCCA CTACCAGCTC CTCGCAGGCC AAAGGTTAAC 
AGCATCTTGA ACCTCTTTGG ATCGTGGTTA TTTGATGCCG CGTTTGTTCA CTGTAAACTT 
CACAATGGAA TAAACAGAGA CAGCAGCATG ACTGCTATAG CCACCCAAGC TAGTATGGAG 
TTCCGCCGGA AAGGATCCCA AATGTCCACA GACACTATGG CTTCCAACCC CATGTTTGAC 
GCCAGTGAAT TCCCAGACAA CTATGAAGCA GGAAGGGCAG AGGCATGCGG GACACTGTGT 
AGGATATTTT GTAGCAAGAA GACTGGGGAG GAAATATTAC CAGCTTACCT ATCTCGATTT 
TACATGCTTT TAATTCAGGG TTTGCAGATA GCAGATTTCG TTTGCCACCC CGTCCTTGCC 
AGTGTCATTC TGAACTCCCC TCCTCTGTTC TGCTGTGACC TCAAAGGCAT TGATGTCGTG 
GTTCCCTACT TCATTTCAGC TCTTGAAACT ATTTTACCTG ACAGAGAACT CTCAAAGTTT 
AAAATCTATG TAAACCCCAC AGAACTAAGA AGAGCTTCCA TTAACATCTT ACTGTCTCTG 
CTGCCTCTCC CTCATCATTT TGGAACCATA AAGTCTGAGG TTGTCCTGGA AGGGAAATTC 
AGCAATGATG ACAGCTCAAC ATATGACAAG CCTGTGACAT TCCTGTCCTT GAAGCTGAGG 
CTTGTGAATA TACTCATAGG AGCTTTGCAG ACGGAAACAG ATCCCAACAA CACTCAGATG 
ATATTAGGTG CAATGTTAAA TATTGTTCAG GATTCAGCAC TGTTGGAAGC CATTGGCTGT 
CAGATGGAAA CAAATGGTGG TGAGAACAAC CTCTTCAAGA GCCACAGCCG CACCAACAGT 
GGCATCAGCA CTGCCAGTGG AGGCAGCACA GAGCCCACGA CCCCCGACAG CGAGCGGCCA 
GCACAGGCCC TCCTGAGGGA TTATGATACA GCTGCTGGAC TGCTGATACG CAGCATCCAC 
CTGGTAACCC AAAGGCTCAA CTCCCAGTGG AGGCAGGACA TGAGTATCTC TCTGGCTGCC 
CTGGAGCTGC TCTCTGGACT GGCAAAGGTG AGAGCGATCA GCTCCGTGTG CAGCTACATC 
GTGTACCAGT GCAGCCGCCC GGCCCCACTG CACTCCCGGG ACCTGCACTC CATGATCGTG 
GCAGCCTTCC AGTGCCTCTG TGTGTGGCTT ACGGAGCACC CTGACATGCT GGATGAGAAG 
GATTGCTTAA AGGAGGTGTT AGAGATTGTG GAGCTTGGCA TTTCCGGAAG TAAATCCAAA 
AACAGCGAGC AGGAGGTCAA GTACAAAGGG GATAAGGAGC CAAACCCTGC GTCCATGAGA 
GTGAAGGATG CTGCTGAAGC TACACTAACG TGCATTATGC AGTTGCTCGG GGCATTTCCT 
TCCCCCAGTG GCCCTGCTTC TCCCTGCAGT TTGGTGAATG AAACCACCTT GATCAAGTAC 
TCCCGTTTGC CCACCATAAA CAAGCACAGC TTCCGCTACT TCGTCTTGGA TAACAGTGTC 
ATCCTGGCCA TGCTGGAGCA GCCCCTAGGC AATGAGCAGA GTAAGTTTTT CCCCTCTGTC 
ACGGTTCTGA TCCGTGGGAC ATCTGGAAGA TTTGCATGGG CCCAGCAACT CTGTCTCTTG 
CCAAGAGGAG CTAAAGCAAA TCAAAAGACA TTCGTACCAG AACCTCGACC AGCTCCTAAA 
AACGATGTTG GCTTGAAGTA CAGTGTGAAA CATCGCCCTT TCCCTGAAGA AGTGGACAAG 
ATCCCATTTG TGAAAGCTGA CTTGAGCATT CCTGATTTAC ATGAAATTGT GAATGAGGAA 
CTGGAAGAGC GCCATGAGAA GCTGAGGAAT GGCATGGCCC AGCAGATTGT CTTTGAGACT 
TCCATAGATC AGAGAAGTGA AGAGGAGTGG CGGAAGAAGA GCTTTCCTGA TCCCGTCACG 
GAGTGCAAGC CGCCGCCGCC AGCGCAGGAG TTCCAGACAG CACGTCTGTT CCTCTCTCAC 
TTCGGGTTCC TCTCGCTAGA GGCATTGAAG GAACCTGCTA ACAGTCGTCT ACCTCCTCAC 
CTGATTGCAC TTGACTCTGC TCTTCCTGGG TTTTTTGATG ACCTTGGCTA CTTGGATTTA 
CTACCTTGTC GTCCTTTTGA TACTGTTTTC ATTTTCTACA TGAAGGCAGG CCAGAAAACA 
AGCCAGGAGA TCCTGAAGAA CATGGAGTCT TCCAGAATTG TTCAGCCCCA CTTTTTGGAG 
TTCTTGTTGT CTCTTGGCTG GTCTGTTGAC GTGGGGAAGC ACCCTGGGTG GACTGGCCAC 
GTCTCGACAA GCTGGTCAAT CAACAGCTGC AGTGATGAAG AGGGGCCTGA GCAAGATGAG 
CTAGTTATCT CAGAAGATGT TGGGGCAAGT ATCTTCAATG GGCAGAAGAA GGTGCTGTAC 
TACGCAGATG CCCTGACAGA AATCGCCTTC GTCGTCCCAT CGCCAGTGGA GTCCCTGACT 
GATTCACTGG AAAGCAGTGT CTCTGACCAA GAAAGTGACT CCAACATGGA TCTGCTGCCA 
GGGATATTGA AGCAACAGCC TCTGACACTT GAACTCTTCC CCAATCATAC AGACAATCTT 
AATCCCTCCC AACGGCTGAG TCCTACTTCC AGATCCAAGA GGATGCCTCA GGGCCGGACC 
ATTCCACCGA TGGGACCTGA AACCAAAGTG TATGTGGTCT GGGTGGAACG TTACGATGAT 
ATAGAAAACT TCCCCCTCCC TGATCTGGTG TCTGAGACTA GCACTGGTGT GGAAACAACA 
GCCAATAGTA GCACTTCCCT GAGATCTACG ATTCCTGAGA AGGAAGTTCC TGTGATCTTT 
ATCCATCCTT TAAACACTGG CTTATTCAGG ATAAAACTGC AAGGAGCAAC TGGGAAATTC 
AACATGGTTA TCCCACTGGT GGATGGAATG ATAGTCAGTA GGAGAGCTCT GGGTTTTCTA 
GTGAGGCAGA CAGTCATAAA CATTTGTCGG AGGAAGAGGC TGGAAAGTGA CTCGTACAAC 
CCTCCCCACG TGCGCCGGAA ACAGAAGATC GCAGACATCG TCAATAAGTA CCGGAACAGG 
CAGCTGGAGC CCGAGTTTTA TACCTCGCTT TTCCAGGAGG TTGGGCTCAA GAACTGCAAC 
CCCTAG