greb1.L cDNA ORF clone, Xenopus laevis(African clawed frog)

Gene
Clones
gRNAs

Summary

Gene Symbol	greb1.L
Entrez Gene ID	100381105
Full Name	growth regulation by estrogen in breast cancer 1 L homeolog
Synonyms	greb1
General protein information	Preferred Names growth regulation by estrogen in breast cancer 1 L homeolog Names LOW QUALITY PROTEIN: protein GREB1
Gene Type	protein-coding
Organism	Xenopus laevis(African clawed frog)

mRNA and Protein(s)

mRNA	Protein	Name
XM_018264016.1	XP_018119505.1	LOW QUALITY PROTEIN: protein GREB1

Pathways from BioSystems
Gene Ontology

The following greb1.L gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the greb1.L 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
OAf33068	XM_018264016.1 Latest version!	Xenopus laevis growth regulation by estrogen in breast cancer 1 L homeolog (greb1.L), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$1021.30 $1459.00

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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)

greb1.L ( XM_018264016.1 ) cDNA ORF clone, Xenopus laevis(African clawed frog) -> XP_018119505.1 Xenopus laevis growth regulation by estrogen in breast cancer 1 L homeolog (greb1.L), mRNA.

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CloneID	OAf33068
Clone ID Related Accession (Same CDS sequence)	XM_018264016.1
Accession Version	XM_018264016.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5721bp) 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	2016-09-19
Organism	Xenopus laevis(African clawed frog)
Product	LOW QUALITY PROTEIN: protein GREB1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030732.1) 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 :: Xenopus laevis Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## internal stop codons :: corrected 2 genomic stop codon ##RefSeq-Attributes-END##

ATGGGAAATT CGTATGCAGG GCAACTGAAG ACGACGAGAT TTGAAGAAGT TCTGCACAAT 
TCCATTGAGG CTTCTCTGAG ATCCAATACC CTAGTCCCCA GACCCGTGTT TTCCCAGCTA 
TATTTGGAAG CTGAACAACA GTTCTCATCT CTGGAAGGTG GTCGAGCAGA CAATGACGAT 
GAAGAAGATG ATGAGGATGA TGGTTCTGGC TCCAGCAGCC CACCCCTTTC TTACCAGAGT 
AAACCGCCCC CAGAAGGCTG TTGTACCACT GATGGATTTT GTCAGGCCGG GAAGGATCTA 
AGACTTTCCT CGTTATCTGC CGACTGCTTT GATGTGCCAC CTGGATTTTT ACTGGTTGGA 
GTCAAGTCTC CCAGTCTACC TGATCACATA TTAGTGTGTG CAGTGGACAA GAGGTTTTTG 
CCAGATGATA ATGGATGCAA TGCACTACTA GGATTTTCTG GCAACTGTGT CGGCTGTGGA 
GAAAAAGGCT TCCGATATTT CACAGAGTTT TCCAATCATA TCAACCTGAA GCTCACCACC 
CAGCCGAAAA AGCAGAAACA CTTGAAATAT TACCTCATCA GGAATGCACA GGGGACCCTG 
ACAAAGGGAG CGCTAATATC TTGGAAAAAC ACGGAGGTGA GAAGTCGGAA CCTTTCCGCT 
AACGTGTGCT CAAGCACTGT CCCTGCTATG CAGGATGGAC CTGGATCCAT GAATAAGTCA 
AGTGACACAA GCACCGCACC CAATCCGTAT ATGAACAGTG CGGGTGTCCT AACTGGAGAT 
AGTGGTTACT TGCACTCACA AGTCAGCTCC TCATACCCCA ATATGAACGG GTACCTGTGC 
CCCCAGCAGT CCGCAAAGGT CAATCCCTCA GCACCAGCAA GAGCCTCTGT TTTAGGAAAT 
TTGACGAATT CTGGCCCTCC CAAAAAACGC CACAAAGGAT GGTCTCCAGA GTCGCCAACG 
TCAACAGATG CCAGCGTTGC ACAGAGCAAT GTTATTAACT CAAGTAACTG TGGAAAAGGT 
GATGCCATGC CTCAGCTGTG TGCTACACAA TCCACCCCAG GAGGCCTTCT GTCTTCATCC 
ATGTCGGTGA GAGCAGAGTC CGTGGCTGTA CCCGAGAACC TGCTGAAAAC CTGCATGATT 
AAGCCCGTCA TTTTCAAGGG TCACGGGAGC TTCCCCTACC TGTGTGGCAA TGTGAACGAC 
GTGATTGTGA GTCCTCTCCT GCACAACTGC TACACAAACT CCCAGTCTAT GCCCAAGGCC 
TACGAACAGT ACGGACCCGC CACAATTCAG CCCATCTCAG AGGAAATGCA GCTCCTGCTA 
ACAGTTTATT ATCTGGTCCA ACTGGCTCCA GACCAGGTTC CCTTGATAGA GGACCTAGAG 
CAGATATTCA TGCGTTCATG GAGGGAAACG CACCTAGCTG AAATCCGCCA ATATCAACAG 
ACTGTTTCGC AGGTTTTCCC TCACCTTCCC AGCCCCATAA CTCCTGTGAC TGCCGCACAA 
CTTCCCTGGC TCGCCAGCCT CGCTGCCAGC TCCTGTAACG AGAGTGTGAA GATCATTGAG 
TGCAGCTATT CCTTAGCAGA AGGGCTTTGT GAGATGTTCA AGCTGCTGGT TGAAGGGAAA 
CTGACCAAGA CCAACTATGT GGTAATCATC TGCACTTCCA GAAGCAATGG CATAGATTCC 
TGCATTGTCA TAACAGGAAA ATACCAGGCC CGGATTTTGG TGGAAAGCAT GTTCTCTCCA 
TCCGATTACC TAAAAGAGGT GACCTATGAA CTAGCCAGCG GGAAGGTGGA GAATTTAGCA 
GTTTTTTTCC GTGCTCTGTG CCCAGGTAAG GACAATGATT TGATCTGGGA ACCCTACTAG 
AGTTCCCAAA TCGAATTGTC ATAATTCTTC CACGTGTGCT CCATTGTATT TGGCAGCTTT 
AATGAAAAGG GGACCACCAT TTTCTTTACT GCAGGTTATA ATATTGAATG GCACCATGTC 
CGCCCGTCCC AGTTGGCCGT GGCACAAAAG CTCTTATCGC ATGTCTGCTC CATAGCCGAC 
TCCAGCACTC AGAACCTTGA TTTGGGATCA TTCGAGAAAG TGGATTTTCT TATCTGTGTT 
CCTCCATCGG AGATAACTTA CCAGCAAACA CTCTCTCATC TCTGGAGTTC AGGAGTGTTA 
CTGGAGCTTG GTGTAGAGAA GGCCCTGCTC ACAAAGCAGC TGCTGGAACA GTACATCATG 
AAACTGGATT CCGACGCACC CAATAAATTC AAGACGTTCC TTCACAGAGC CTTGCAGAAC 
CCTCACACCT TGTTTGTTCT TGTTCATGAT CACGCACACT GGGATCTCAC CAGTTCCCTT 
TATAGCCCTT ACGCTCAGAG TGAGTCCAAT ATGGGGCTTG TGGATCGACT GTTGAACTGC 
AGAGAAGTGA GAGACGCGCC CAATATATTG GTCCTTCACG TGACTTCCTT TCCCTATGCT 
CTGCAAACAC AGAACACACG GATCAGCCCA TACAACGAGA TCCACTGGCC CTCTTTACAC 
AGTCATGGGA TGGAGTTGTA TCACGAGAGC AGGAAATACT TTGGCCTGTC CGAGTTTATT 
GAATCGACTG TTTCCGGTCA CAGCCTTCCT CTCCTCCGCC ATGACAGCTC GTTTGAAGCC 
ATCGTGGTGG CACTAGGAAA GAGATTTCCC AAGCTCCACA GTGCCGTTAT CAGGACGTTT 
CTTCTAATCC AGCATTACTC TGCTGCTATG ATGTCCGTCT GTGGATTATC ACAAATGAAG 
AATTACACGT CGGTGGAAAC ACTGGAGATT GTTCAGAACC TCCTGAGCTC TCCTCAGCAG 
TGCTCCAGTG CTCATGGCCT CATGGTCCTC TTAAGGATCC CGTGTATCCC GCTGGCCACA 
CTTGCCTACG AACGCCTGTG TCATGTTAGA GAGCGCCTTG GGCTGCAGCA TCGATTTGAA 
ATTCTAATGG CAACGTCTAA CTCAACCATA AGTGTTAGCA AGCACTTTGT GGACCAGCTG 
AAGGCCTGGC AGAAGAACGA AGATGCAAAC TGGCAACCGC ACACGTATCT GGAACTGGAA 
GGTCTGCCCT GTATCCTGAT TTCTACTGGA ATTGATCCCC TAGGAGAATC TTTGCCAAGG 
TCATTAAGAT ACTGTGATCT CCGGTTAGTA CACTTCTGCA CGTGGGAAAG AACCAAGATG 
GAGCAAGAGC TGGGATTAGC CTCATCTTTC GTTAGCACGG CCACATATGC TGACAAAAGG 
TTGGGCAGGG ACATCTTTGA GAGTGACCCA GAGAAGCTCA GCAGCACAGA CAATGAAGAT 
GAAGAAATAG TGACAGATGG TTCTAACTCT GGAACAAGGA CCACCTGTAA AATACAAAGC 
TCTCACTCGC ACGACTCCAC TTCATCTGCA TGTTCCAAAG CTTCAGAAGA TGCATTAAGA 
CCACCATTGC AGGCGAGTGC TGCTAATGTG GAGAAGATGA AACAAACAAC GGATAAAGGC 
ACCGGGAATC CCATCGCTTG TGAACAACCA GACTCTAACA GTTCTGATCC AACTGCAAAG 
AACACTCCAA GCTCAACATC TGCACCATCC TCCTGTTTCC CCAATGGGAT CGACCTGCAG 
ACATCACAAT GTTCTATGTC CAAGGCATAT AAACAGCCGC CGATAGTTTT CCTCCCCAAA 
CTGGTGTATG ATATTATTAC TTCTACTGAC AGCAGTGGGC TTTCTAAATC TTCATCTTTC 
CTGCCACATT GTGAAGTCTC ATGGGCCAGC TCTTTCCGCC CCCTTCTGAG TAAGATGATG 
ACTAGTACAG AGCAGTCTTT GTATTACCGA CAATGGACGG TGCCCAAACA GAGTCACATG 
GACTACTGCA ATATAAACGA AGGCAGAATG GATACCTTCC ACCCCAGAAG GCTGCTACTC 
AGTGGACCAC CTCAGATAGG CAAAACTGGA GCTTATTTGC AGTTCCTCAG CGTTTTGTCC 
AGAATGCTGA TTAGACTGAC TGAAGTGGAT GTATATGATG AAGAGGAAAT CAATATGAGC 
CCCAGAGACA AAACCGACCA ACATTTCCAT CAGATTTTGG ATACGTGGCC TAACGTGGAG 
ACAGTTAAGA AAATGGATTT TGATTATACT CTACATGACC CCAAGTATGA AGATGCCAGT 
GCCATTTGCT CAGCGTTTCA GGATTTCCAC AATGAAGATA AACCCGTCAG AAAGAAAAAT 
GAAGATGTTT TTATGAGGCG CCCCACAACC AGAATGCGGT TATCAAAGTA TGCCTCCTAC 
AACACGTACC ACCATTGTGA GCAGTGCCAC CAATACATGG GATACAACCC AAGGTTCCAG 
ATGTATGAGT CCTCCCTTCA TGCTTTTGCA TTCTCCTATT CTCTGCTGGG AGAAGAAATT 
CAACTGCACT TCATCATCCC CAAGTCCAAA GAACATCACT TTGTCTTTAG CCAGCCAGGG 
GGCCAGCTGG AAAGCATGAG GTTGCCACTG ATTACAGATA AGAATCCAGA TTGTGTGAAG 
AGTCCTATCT TCACTCCAAC CACAGGCCGC CATGAGCACG GGCTCTTTAA TCTCTATCAT 
GCTATGGATG GCAACAGCCA CTTACACATT TTGGTTGTCA AGGAATACGA GATGGCCATC 
TATAAAAAAT ATTGGCCAAA CCACATCATG TTGGTCCTTC CAAGTATCTT CAACAGCGCT 
GGTGTAGGGG CAGCTCATTT CCTAATCAAA GAGCTTTCTT ATCATAACCT GGAGCTGGAG 
CGTAACAGAC AAGGGGAGCT GGGAATCAGG CCACAAGATG TCTGGCCTTT TGTTGTCATT 
GCTGATGACT CGTGTGTCAT GTGGAACACT GTGGATGTCA GTGTAACAGG GGATCAGACG 
AGGGATTATT CATGTTCTGA AAGAAACATA TCTTTGAAGT ACATCCTTCA GCACATGGAG 
GCCTCCCAGA ATATTTCCCA GTATGCTATT CTTGGAATGC GGAAATGGAC AAGTAAGAAC 
AAAGACATGG ATATGAAGGA GCCGTTCTCT CGCTGCCATG TCCATGATTT TGTCCTGCTC 
AATGTGGACC TGACACAGGA TGTACAGTAC AACCAAAACA GATTCACCTG CGATGATGTT 
GATTTCAATC TTCGAGTGAA TAGCGCTGGA CTGTTAATAT GTCGGTTCAA CCACTTCAGT 
GTTATGAAAA AGCAGATTGC AGTTGGTGGC CATAGATCCC TACATATCAA ATCAAAGGTT 
CTAGACTCTT CGGTGTCCGT TTCCCCTGCT CAGTACATCT GCGCCCCAGA CAGCAAACAT 
ACAATTTTAG CTGCACCGGC TCATCTGCTA CTTGAGAAAT TCCTTCAGTT TCACAGCCAC 
AGATTCTTTC CACTCTCACT CAACAATAGC AGCCATCCTG TGCTTGTAGT GGATTGTTAC 
CTTAATCTGG GGCCACAGAT AAGAGTTTGC TATGTGAACT CCCGCCCTCA CTCTACCAAC 
ATTAGCTGCC CTGGAGTGCT GTTCAGTGGG CTCCTCCTGC ACCTCTCTGA CTCATTCGTG 
GTCGCTGGGT TTTTGAAAAG GTTTCAGTTC CTGAAAGGTG CTACACTGTG CGTGACATGT 
CAGGACCGTA ATTCTCTGCG CCAGACTGTT GTTCGGCTGG AACTGGAAGA AGAATGGCAG 
TTCCGACTAC GTGATGAGTT CCAAACCGCC AACGCTAAAG AAGACAAGCC TCTGTTCATC 
CTTACTGGCC GCCATGTTTA A

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

RefSeq	XP_018119505.1
CDS	212..5932
Translation	MGNSYAGQLKTTRFEEVLHNSIEASLRSNTLVPRPVFSQLYLEAEQQFSSLEGGRADNDDEEDDEDDGSGSSSPPLSYQSKPPPEGCCTTDGFCQAGKDLRLSSLSADCFDVPPGFLLVGVKSPSLPDHILVCAVDKRFLPDDNGCNALLGFSGNCVGCGEKGFRYFTEFSNHINLKLTTQPKKQKHLKYYLIRNAQGTLTKGALISWKNTEVRSRNLSANVCSSTVPAMQDGPGSMNKSSDTSTAPNPYMNSAGVLTGDSGYLHSQVSSSYPNMNGYLCPQQSAKVNPSAPARASVLGNLTNSGPPKKRHKGWSPESPTSTDASVAQSNVINSSNCGKGDAMPQLCATQSTPGGLLSSSMSVRAESVAVPENLLKTCMIKPVIFKGHGSFPYLCGNVNDVIVSPLLHNCYTNSQSMPKAYEQYGPATIQPISEEMQLLLTVYYLVQLAPDQVPLIEDLEQIFMRSWRETHLAEIRQYQQTVSQVFPHLPSPITPVTAAQLPWLASLAASSCNESVKIIECSYSLAEGLCEMFKLLVEGKLTKTNYVVIICTSRSNGIDSCIVITGKYQARILVESMFSPSDYLKEVTYELASGKVENLAVFFRALCPGKDNDLIWEPYSSQIELSFFHVCSIVFGSFNEKGTTIFFTAGYNIEWHHVRPSQLAVAQKLLSHVCSIADSSTQNLDLGSFEKVDFLICVPPSEITYQQTLSHLWSSGVLLELGVEKALLTKQLLEQYIMKLDSDAPNKFKTFLHRALQNPHTLFVLVHDHAHWDLTSSLYSPYAQSESNMGLVDRLLNCREVRDAPNILVLHVTSFPYALQTQNTRISPYNEIHWPSLHSHGMELYHESRKYFGLSEFIESTVSGHSLPLLRHDSSFEAIVVALGKRFPKLHSAVIRTFLLIQHYSAAMMSVCGLSQMKNYTSVETLEIVQNLLSSPQQCSSAHGLMVLLRIPCIPLATLAYERLCHVRERLGLQHRFEILMATSNSTISVSKHFVDQLKAWQKNEDANWQPHTYLELEGLPCILISTGIDPLGESLPRSLRYCDLRLVHFCTWERTKMEQELGLASSFVSTATYADKRLGRDIFESDPEKLSSTDNEDEEIVTDGSNSGTRTTCKIQSSHSHDSTSSACSKASEDALRPPLQASAANVEKMKQTTDKGTGNPIACEQPDSNSSDPTAKNTPSSTSAPSSCFPNGIDLQTSQCSMSKAYKQPPIVFLPKLVYDIITSTDSSGLSKSSSFLPHCEVSWASSFRPLLSKMMTSTEQSLYYRQWTVPKQSHMDYCNINEGRMDTFHPRRLLLSGPPQIGKTGAYLQFLSVLSRMLIRLTEVDVYDEEEINMSPRDKTDQHFHQILDTWPNVETVKKMDFDYTLHDPKYEDASAICSAFQDFHNEDKPVRKKNEDVFMRRPTTRMRLSKYASYNTYHHCEQCHQYMGYNPRFQMYESSLHAFAFSYSLLGEEIQLHFIIPKSKEHHFVFSQPGGQLESMRLPLITDKNPDCVKSPIFTPTTGRHEHGLFNLYHAMDGNSHLHILVVKEYEMAIYKKYWPNHIMLVLPSIFNSAGVGAAHFLIKELSYHNLELERNRQGELGIRPQDVWPFVVIADDSCVMWNTVDVSVTGDQTRDYSCSERNISLKYILQHMEASQNISQYAILGMRKWTSKNKDMDMKEPFSRCHVHDFVLLNVDLTQDVQYNQNRFTCDDVDFNLRVNSAGLLICRFNHFSVMKKQIAVGGHRSLHIKSKVLDSSVSVSPAQYICAPDSKHTILAAPAHLLLEKFLQFHSHRFFPLSLNNSSHPVLVVDCYLNLGPQIRVCYVNSRPHSTNISCPGVLFSGLLLHLSDSFVVAGFLKRFQFLKGATLCVTCQDRNSLRQTVVRLELEEEWQFRLRDEFQTANAKEDKPLFILTGRHV

Target ORF information:

RefSeq Version	XM_018264016.1
Organism	Xenopus laevis(African clawed frog)
Definition	Xenopus laevis growth regulation by estrogen in breast cancer 1 L homeolog (greb1.L), mRNA.

Target ORF information:

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

XM_018264016.1

ORF Insert Sequence:

ATGGGAAATT CGTATGCAGG GCAACTGAAG ACGACGAGAT TTGAAGAAGT TCTGCACAAT 
TCCATTGAGG CTTCTCTGAG ATCCAATACC CTAGTCCCCA GACCCGTGTT TTCCCAGCTA 
TATTTGGAAG CTGAACAACA GTTCTCATCT CTGGAAGGTG GTCGAGCAGA CAATGACGAT 
GAAGAAGATG ATGAGGATGA TGGTTCTGGC TCCAGCAGCC CACCCCTTTC TTACCAGAGT 
AAACCGCCCC CAGAAGGCTG TTGTACCACT GATGGATTTT GTCAGGCCGG GAAGGATCTA 
AGACTTTCCT CGTTATCTGC CGACTGCTTT GATGTGCCAC CTGGATTTTT ACTGGTTGGA 
GTCAAGTCTC CCAGTCTACC TGATCACATA TTAGTGTGTG CAGTGGACAA GAGGTTTTTG 
CCAGATGATA ATGGATGCAA TGCACTACTA GGATTTTCTG GCAACTGTGT CGGCTGTGGA 
GAAAAAGGCT TCCGATATTT CACAGAGTTT TCCAATCATA TCAACCTGAA GCTCACCACC 
CAGCCGAAAA AGCAGAAACA CTTGAAATAT TACCTCATCA GGAATGCACA GGGGACCCTG 
ACAAAGGGAG CGCTAATATC TTGGAAAAAC ACGGAGGTGA GAAGTCGGAA CCTTTCCGCT 
AACGTGTGCT CAAGCACTGT CCCTGCTATG CAGGATGGAC CTGGATCCAT GAATAAGTCA 
AGTGACACAA GCACCGCACC CAATCCGTAT ATGAACAGTG CGGGTGTCCT AACTGGAGAT 
AGTGGTTACT TGCACTCACA AGTCAGCTCC TCATACCCCA ATATGAACGG GTACCTGTGC 
CCCCAGCAGT CCGCAAAGGT CAATCCCTCA GCACCAGCAA GAGCCTCTGT TTTAGGAAAT 
TTGACGAATT CTGGCCCTCC CAAAAAACGC CACAAAGGAT GGTCTCCAGA GTCGCCAACG 
TCAACAGATG CCAGCGTTGC ACAGAGCAAT GTTATTAACT CAAGTAACTG TGGAAAAGGT 
GATGCCATGC CTCAGCTGTG TGCTACACAA TCCACCCCAG GAGGCCTTCT GTCTTCATCC 
ATGTCGGTGA GAGCAGAGTC CGTGGCTGTA CCCGAGAACC TGCTGAAAAC CTGCATGATT 
AAGCCCGTCA TTTTCAAGGG TCACGGGAGC TTCCCCTACC TGTGTGGCAA TGTGAACGAC 
GTGATTGTGA GTCCTCTCCT GCACAACTGC TACACAAACT CCCAGTCTAT GCCCAAGGCC 
TACGAACAGT ACGGACCCGC CACAATTCAG CCCATCTCAG AGGAAATGCA GCTCCTGCTA 
ACAGTTTATT ATCTGGTCCA ACTGGCTCCA GACCAGGTTC CCTTGATAGA GGACCTAGAG 
CAGATATTCA TGCGTTCATG GAGGGAAACG CACCTAGCTG AAATCCGCCA ATATCAACAG 
ACTGTTTCGC AGGTTTTCCC TCACCTTCCC AGCCCCATAA CTCCTGTGAC TGCCGCACAA 
CTTCCCTGGC TCGCCAGCCT CGCTGCCAGC TCCTGTAACG AGAGTGTGAA GATCATTGAG 
TGCAGCTATT CCTTAGCAGA AGGGCTTTGT GAGATGTTCA AGCTGCTGGT TGAAGGGAAA 
CTGACCAAGA CCAACTATGT GGTAATCATC TGCACTTCCA GAAGCAATGG CATAGATTCC 
TGCATTGTCA TAACAGGAAA ATACCAGGCC CGGATTTTGG TGGAAAGCAT GTTCTCTCCA 
TCCGATTACC TAAAAGAGGT GACCTATGAA CTAGCCAGCG GGAAGGTGGA GAATTTAGCA 
GTTTTTTTCC GTGCTCTGTG CCCAGGTAAG GACAATGATT TGATCTGGGA ACCCTACTAG 
AGTTCCCAAA TCGAATTGTC ATAATTCTTC CACGTGTGCT CCATTGTATT TGGCAGCTTT 
AATGAAAAGG GGACCACCAT TTTCTTTACT GCAGGTTATA ATATTGAATG GCACCATGTC 
CGCCCGTCCC AGTTGGCCGT GGCACAAAAG CTCTTATCGC ATGTCTGCTC CATAGCCGAC 
TCCAGCACTC AGAACCTTGA TTTGGGATCA TTCGAGAAAG TGGATTTTCT TATCTGTGTT 
CCTCCATCGG AGATAACTTA CCAGCAAACA CTCTCTCATC TCTGGAGTTC AGGAGTGTTA 
CTGGAGCTTG GTGTAGAGAA GGCCCTGCTC ACAAAGCAGC TGCTGGAACA GTACATCATG 
AAACTGGATT CCGACGCACC CAATAAATTC AAGACGTTCC TTCACAGAGC CTTGCAGAAC 
CCTCACACCT TGTTTGTTCT TGTTCATGAT CACGCACACT GGGATCTCAC CAGTTCCCTT 
TATAGCCCTT ACGCTCAGAG TGAGTCCAAT ATGGGGCTTG TGGATCGACT GTTGAACTGC 
AGAGAAGTGA GAGACGCGCC CAATATATTG GTCCTTCACG TGACTTCCTT TCCCTATGCT 
CTGCAAACAC AGAACACACG GATCAGCCCA TACAACGAGA TCCACTGGCC CTCTTTACAC 
AGTCATGGGA TGGAGTTGTA TCACGAGAGC AGGAAATACT TTGGCCTGTC CGAGTTTATT 
GAATCGACTG TTTCCGGTCA CAGCCTTCCT CTCCTCCGCC ATGACAGCTC GTTTGAAGCC 
ATCGTGGTGG CACTAGGAAA GAGATTTCCC AAGCTCCACA GTGCCGTTAT CAGGACGTTT 
CTTCTAATCC AGCATTACTC TGCTGCTATG ATGTCCGTCT GTGGATTATC ACAAATGAAG 
AATTACACGT CGGTGGAAAC ACTGGAGATT GTTCAGAACC TCCTGAGCTC TCCTCAGCAG 
TGCTCCAGTG CTCATGGCCT CATGGTCCTC TTAAGGATCC CGTGTATCCC GCTGGCCACA 
CTTGCCTACG AACGCCTGTG TCATGTTAGA GAGCGCCTTG GGCTGCAGCA TCGATTTGAA 
ATTCTAATGG CAACGTCTAA CTCAACCATA AGTGTTAGCA AGCACTTTGT GGACCAGCTG 
AAGGCCTGGC AGAAGAACGA AGATGCAAAC TGGCAACCGC ACACGTATCT GGAACTGGAA 
GGTCTGCCCT GTATCCTGAT TTCTACTGGA ATTGATCCCC TAGGAGAATC TTTGCCAAGG 
TCATTAAGAT ACTGTGATCT CCGGTTAGTA CACTTCTGCA CGTGGGAAAG AACCAAGATG 
GAGCAAGAGC TGGGATTAGC CTCATCTTTC GTTAGCACGG CCACATATGC TGACAAAAGG 
TTGGGCAGGG ACATCTTTGA GAGTGACCCA GAGAAGCTCA GCAGCACAGA CAATGAAGAT 
GAAGAAATAG TGACAGATGG TTCTAACTCT GGAACAAGGA CCACCTGTAA AATACAAAGC 
TCTCACTCGC ACGACTCCAC TTCATCTGCA TGTTCCAAAG CTTCAGAAGA TGCATTAAGA 
CCACCATTGC AGGCGAGTGC TGCTAATGTG GAGAAGATGA AACAAACAAC GGATAAAGGC 
ACCGGGAATC CCATCGCTTG TGAACAACCA GACTCTAACA GTTCTGATCC AACTGCAAAG 
AACACTCCAA GCTCAACATC TGCACCATCC TCCTGTTTCC CCAATGGGAT CGACCTGCAG 
ACATCACAAT GTTCTATGTC CAAGGCATAT AAACAGCCGC CGATAGTTTT CCTCCCCAAA 
CTGGTGTATG ATATTATTAC TTCTACTGAC AGCAGTGGGC TTTCTAAATC TTCATCTTTC 
CTGCCACATT GTGAAGTCTC ATGGGCCAGC TCTTTCCGCC CCCTTCTGAG TAAGATGATG 
ACTAGTACAG AGCAGTCTTT GTATTACCGA CAATGGACGG TGCCCAAACA GAGTCACATG 
GACTACTGCA ATATAAACGA AGGCAGAATG GATACCTTCC ACCCCAGAAG GCTGCTACTC 
AGTGGACCAC CTCAGATAGG CAAAACTGGA GCTTATTTGC AGTTCCTCAG CGTTTTGTCC 
AGAATGCTGA TTAGACTGAC TGAAGTGGAT GTATATGATG AAGAGGAAAT CAATATGAGC 
CCCAGAGACA AAACCGACCA ACATTTCCAT CAGATTTTGG ATACGTGGCC TAACGTGGAG 
ACAGTTAAGA AAATGGATTT TGATTATACT CTACATGACC CCAAGTATGA AGATGCCAGT 
GCCATTTGCT CAGCGTTTCA GGATTTCCAC AATGAAGATA AACCCGTCAG AAAGAAAAAT 
GAAGATGTTT TTATGAGGCG CCCCACAACC AGAATGCGGT TATCAAAGTA TGCCTCCTAC 
AACACGTACC ACCATTGTGA GCAGTGCCAC CAATACATGG GATACAACCC AAGGTTCCAG 
ATGTATGAGT CCTCCCTTCA TGCTTTTGCA TTCTCCTATT CTCTGCTGGG AGAAGAAATT 
CAACTGCACT TCATCATCCC CAAGTCCAAA GAACATCACT TTGTCTTTAG CCAGCCAGGG 
GGCCAGCTGG AAAGCATGAG GTTGCCACTG ATTACAGATA AGAATCCAGA TTGTGTGAAG 
AGTCCTATCT TCACTCCAAC CACAGGCCGC CATGAGCACG GGCTCTTTAA TCTCTATCAT 
GCTATGGATG GCAACAGCCA CTTACACATT TTGGTTGTCA AGGAATACGA GATGGCCATC 
TATAAAAAAT ATTGGCCAAA CCACATCATG TTGGTCCTTC CAAGTATCTT CAACAGCGCT 
GGTGTAGGGG CAGCTCATTT CCTAATCAAA GAGCTTTCTT ATCATAACCT GGAGCTGGAG 
CGTAACAGAC AAGGGGAGCT GGGAATCAGG CCACAAGATG TCTGGCCTTT TGTTGTCATT 
GCTGATGACT CGTGTGTCAT GTGGAACACT GTGGATGTCA GTGTAACAGG GGATCAGACG 
AGGGATTATT CATGTTCTGA AAGAAACATA TCTTTGAAGT ACATCCTTCA GCACATGGAG 
GCCTCCCAGA ATATTTCCCA GTATGCTATT CTTGGAATGC GGAAATGGAC AAGTAAGAAC 
AAAGACATGG ATATGAAGGA GCCGTTCTCT CGCTGCCATG TCCATGATTT TGTCCTGCTC 
AATGTGGACC TGACACAGGA TGTACAGTAC AACCAAAACA GATTCACCTG CGATGATGTT 
GATTTCAATC TTCGAGTGAA TAGCGCTGGA CTGTTAATAT GTCGGTTCAA CCACTTCAGT 
GTTATGAAAA AGCAGATTGC AGTTGGTGGC CATAGATCCC TACATATCAA ATCAAAGGTT 
CTAGACTCTT CGGTGTCCGT TTCCCCTGCT CAGTACATCT GCGCCCCAGA CAGCAAACAT 
ACAATTTTAG CTGCACCGGC TCATCTGCTA CTTGAGAAAT TCCTTCAGTT TCACAGCCAC 
AGATTCTTTC CACTCTCACT CAACAATAGC AGCCATCCTG TGCTTGTAGT GGATTGTTAC 
CTTAATCTGG GGCCACAGAT AAGAGTTTGC TATGTGAACT CCCGCCCTCA CTCTACCAAC 
ATTAGCTGCC CTGGAGTGCT GTTCAGTGGG CTCCTCCTGC ACCTCTCTGA CTCATTCGTG 
GTCGCTGGGT TTTTGAAAAG GTTTCAGTTC CTGAAAGGTG CTACACTGTG CGTGACATGT 
CAGGACCGTA ATTCTCTGCG CCAGACTGTT GTTCGGCTGG AACTGGAAGA AGAATGGCAG 
TTCCGACTAC GTGATGAGTT CCAAACCGCC AACGCTAAAG AAGACAAGCC TCTGTTCATC 
CTTACTGGCC GCCATGTTTA A