LOC108155342 cDNA ORF clone, Drosophila miranda

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC108155342
Entrez Gene ID	108155342
Full Name	bromodomain adjacent to zinc finger domain protein 1A
Gene Type	protein-coding
Organism	Drosophila miranda

mRNA and Protein(s)

mRNA	Protein	Name
XM_017286097.1	XP_017141586.1	bromodomain adjacent to zinc finger domain protein 1A

Pathways from BioSystems
Gene Ontology

The following LOC108155342 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC108155342 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
ODr179259	XM_017286097.1 Latest version!	Drosophila miranda bromodomain adjacent to zinc finger domain protein 1A (LOC108155342), 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)

LOC108155342 ( XM_017286097.1 ) cDNA ORF clone, Drosophila miranda -> XP_017141586.1 Drosophila miranda bromodomain adjacent to zinc finger domain protein 1A (LOC108155342), mRNA.

Price & Availability↑

CloneID	ODr179259
Clone ID Related Accession (Same CDS sequence)	XM_017286097.1
Accession Version	XM_017286097.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4527bp) 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	2016-06-15
Organism	Drosophila miranda
Product	bromodomain adjacent to zinc finger domain protein 1A
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030304.1) 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 :: Drosophila miranda Annotation Release 101 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##

ATGCCGATTT GCAAGCGAGA AGGCTTCGAT CTGAATCAAA TGGAGGACAA GAGTGATACA 
TTCCACGATA ACGACTGGGT CTTCTGCTGC TACATCACCA ATCGCATTTT CCGCGACTAC 
GAAAACTACT TCCGACACGT GATGGCCATC AACTCGACGG TGTGGCAGTG CGAGGCCACC 
GGCCGCGAGA ACCTCACCTA CGAGGAGGCC CTGAAGAGCG AGCGCGCCGC CCGCAAGAAG 
ATGGAACAGT TCAAACAGAG CCTGCGAGCG CCCGTCCTCC TGGTGGTGGA GCATGCCCGC 
CAGTCGGCGA TGAAGACCCT CAACCTGATG GTGGCCAAAT TCCTGCGCAA ACGCTACTTC 
ATTAACGAGG AGGTGACCGT GGTCACCAAG AAGAACATCT TCTATGTGGT GGTGGCAATA 
ACGCCCGGCA AGGCCAAGCC CGTGCCCAGC ACCGAGATAT ACGAGGACAC GGATGCCCTG 
CAGTACCGGC TGAAGGCGGT CAAGGGCGAT GCCAGCACAG AGATCTCTGT GCCCTTCGAT 
CATATACGAC GCAAGCGATT GGAGTTCAAC ATGGAGAACC TTGGGATGTT CATCAAGAAC 
AATGTCACCC GCGTCGACGG TATCCTTCGC CCGAAGCCCG AGGCCTACAA ACAGTACGTG 
ACGGATGCGG GCATCAGCTT TGCGAGCATC TTCATTGGCA AAATGCCCCG CTACTCGCCG 
TCGAAGATAA GGCGACCCGA GGCCAAAGAG ACATCCTCCA AGAAGCAGTC CACCCTGAAC 
AAGTACATTG TGTCGGACGT GTCCGAGGAG TCGGTCGCCA AGGCCAAGGA GAAGGCCAAG 
CTGCTGGCCG AGGAAATGGA GCGTGCGCGC CTGGAGAAGG CGGCCAAGCT GGCCGTCCTG 
GAGCGCGAGA AGGCCGAGAA GAAGGCCCAG CTGATGGAGC GCGTGGAGTC CGAGTGCAAC 
AGTCTGCTGA CAAAGACGGA CGACCTTGAG CGCTGCGATC AGCGGGTGCT GCCACGCTAC 
AAGCCGATTG TGACGCTGCT GCCGGAGAAG CTACTGGGCG ATGCCTTCAT GATGCGCGAG 
TTCATGCACA CATATGCGGG GCTGCTGTCG GGGGTGGAGG TGTTCCGACA GAATCTCAGC 
TTCTATGAGA TGACGCGAGC TCTAAGTGCC CGCGAGGTGG CTGGCCCACT ATCGGACATA 
ATCCTGGTGC TGCTGGGCAC CGTCTTCGAT CTGCAGAAGG AGGAGGAGGA TGACTGCGCG 
GTCAGCTACA TGCTCGGACG CTACACGGCG CCCAGTGAGC CGTACATCAG CATGAGCCAA 
GCCTCTCGCA GCCACTACTA CTCCAAGCGA CACTTCTCCT TCAAGATCAA CGAACTGCCG 
CTGGATGCTC TGACGCTGAG CGAGGTGCTG CGCCTGCATC TGCTCAGCTC CGGGGCCATT 
GTCAACGAGA AGGCCGAGAA GTGGCGGATC ATGTACCGCA ATGGCTACGC CTCGCGCGAA 
GATCCCGGCC TGGAGTTGCG CCTCCAGCAT CCGCACATCC TGCGCAGCCT CAAGAACTCG 
CCGGTATATC AGCTGAGCTT CAGCGACATC ATGCGCGTTA TACGCTGCCT CATGTCCCAG 
ATCCTCACGT ACTCCGGGAC CATCAATCTG ATCGAGGAGC GTATGGAGCA GACGTACAAG 
GCCAAGGTGG AGCTGCGAAC CCTCATCCAG CTGGAGAATC GACGCCTGGC CGCCCTCGAG 
ATGAGCAAAC GCAAGCTGAC GCACGAGCAT CATCTGGCGT GCAGCGCGGA GGAGTTGAAG 
AACGATCCCG CCAAGATGCA GTCGCTGCTC GAGAAGCTAA ACAAGGGCAT AGCGGAGCTG 
CACGCCAAGT CCGACACTCA GCATCGCAAG CACGAGGCGC AGGTCCTCGC CCTGCACTCG 
CAGCTGTTCA ATTTCCTGGT ATTCCTCGGG ATGGATCGCT GCTATCGAAA GTACTATGTG 
CTGGAGTCCA TGCCTGGCAT ATTTGTGGAG CATTCGCCCG ACAATCTGGA CACCTGTCTG 
GATCAGCCGC CCCTGAACAA GCCCCAGTCG GAGATAAGCA ACCAGGCACA GCTGCCGAAG 
AACCGCAGGG AGTTGCGCAT CTATCTGCTG AAGCTGTACG GCGAGGAAAA GTCGCGCAAA 
CGGGCCAAGC AGTCGCTGGA GAACAAAGAG AACCAGGAGC ACCGCATCAA TGGCGACGCA 
GAGCCCATGG AGGTGGCGGA GGTGGAGCCC CTCGAGGATC CCACCCAGCA CGAGCTGATG 
ATGTGCAGCG GGGACCGACG CAACTGCATT GTCCACGATC ACGAACAGCG CCAACGCTGG 
TCGTACATCT ACAAGGCCGA GGACATCGAC GAGCTCCTCA AGAGTCTCAA TCCTCTGGGG 
CATCGTGAGT CTGGTCTCCT CGAGGAGATC AGTGGCCTGC GCACGCTCAT CAAGCAGCAT 
GTGAGCACCT GTCCCGCGGA GATGCTCACG CTGGAGAGCG ACCAGCAGCG CAATAAATTC 
CTCAGCGCCA TGCACTCGGA GACGCGGAAG TACTGTGAGG CCAACTTTGG ACTGCCTGAG 
GACACAAATC TCAATGAGGT GATGCAGCTG CATCTGGTGG ATCGCATCCT GCAGTTCGAG 
AGGGACATCT ACACGGGGGA CTTGGGGCGG TTGAAGGTGA AGGACATGGA GAAGTGGCGC 
AACGATCTTC TGAAGGGCAA CTATGATCCA CAGATCAAGC TGCAGTGGGG TCCCGGTGGC 
AAGCTGGAGG ATCTGGCGGC TGCCGGCTCG GACCACGAAT CGCACGAGGA CTACGAGGAC 
GAGGAGAAGA GCGCCGTGCC CCTGGGCAAG TACGCCACGC AGCCGTATCG GGATCCGGGA 
CAGTATCTGG GCCCCGCATC GAACGCGGAT GAGTCTGTGG AGAGTGCCGA CGAGGAGGGG 
CTAGAGCCGC AGTCGGAGGC GGAGATGGAG TCCTTGCAAG CTAAGGTACG AAACATGGCC 
GGTGCCCTGC TGCAGGTGGA GCAGGCCATT GGCCGGCGGT TCCTGAAACC GCCCTACGGC 
ATGAAGAAGT GGGATCCCAA GCAGGATGCC CTGAAGCAGG AGTGCGAGGC CCGACTGCAT 
CAGTGGGAGG TGTCCCTAAT GGAGAGCACC AGCTATGCGC AGCTCTTTCT GCACTTCAAC 
ATGCTGCACG ACTGCATCCA GTGGATACGA TCGACGAACA AGTCCCTGTG CAAGGTCTGT 
CGGCGTGGCA GCGATCCCGA CAAGATGCTC CTCTGCGACG AGTGCAATGG CGGCACACAC 
ATGTTCTGCA TGAAGCCCAA GATGCGGTCC GTGCCCAAGG GCCATTGGTA TTGCAACGAA 
TGCGTCAAGA ATCTGGGCCT GAAGAACGCC AACGACGAGA AGGAGAAGAA GACGGCGGCC 
CAGAGGAAGC GCAAGTTCAT TGTGGAAGAG GAGGATGAAG ATGATACCGA GGAGGAGGAC 
GAGGAGGAGA CAGAGGAGCA GGAGGAGGAG GAAGAGGATG GCACAGACGG TAAAAGCGAA 
ACGTCTACCC ATTCCTCCAC CAACAAGCTC AATGAGCGCC CCTCTCGTCG TCCCCGAGGG 
CGTCCCAGCA AGAAGAAGCG ACTAGCATCC AAAGAAATTG AAGTAGCTAT CGTTGACCAT 
GATGACGACG GTGATGAGGC GACGGAGGAG AGCGAACCCT TGGGCAGTGA AGTTGGCGAT 
GAGGGTTCCG TGGTAACCAA AACTGGCGAG GATGAGGACG TGGAAGAGAA CGAAAATGAA 
GAAGGCGAAG AATCCGACGA TGACAAAGTG TGCCAGGTGT GCTTCTACGA CGGCAGCGAG 
ATACGCTGTG TCCGCTGCAG CCTCTACTAT CATCTGGATT GTGCCCAATT AAAGCGACAG 
CCGCGAGCGG ATTTCGTCTG CAAGAAGTGC AAGACATCGG AGACGCAACG ACCGAGACGC 
CGAAATAGTC ATGTAAATGG CCACGACGAC GATGATGATG ATCGGGTTGA ACCTCCAGCC 
AAACGCTCGC GCTCCTCTCG CAACTCTCTG CGCATCTCGC TGGACAAATC CGCCCGCCAC 
AGCGGCTCGA ACAACAACAA CAACAATAGC AGCACCAACA ACAATAACCA TCATCGCCGA 
AGCGGTCGTC GAATGAATGA CAATCTGCCG TTGAACAGCG CCGCCTTGTA CGATCTGCTG 
GAGCAGATCA TGAAGCACAA GGCCTCTTGG CCCTTCCTGC GGCCAGTGTT GACATCGGAG 
GTGCCCGACT ACCATCAGAT TATCAAAACG CCGATGGACT TGTCCAAGGT CAAGTCCAAG 
CTGAACATGG GCGCCTATCA GCTGAACGAG GAGGTACTCA GTGACATACA GTTGGTGTTT 
CGTAACTGCG ATCTCTACAA TGTAGAAGGC AATGAGATAT ACGATGCTGG CTGTCAGCTG 
GAGAAGTTCG TAATTGAACG ATGCAGGGAC ATGCAGCTGC CCTTTAGGCC CAGTGACATG 
AATGACGAAG GAGTGGCCAT TTGCTGA

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

RefSeq	XP_017141586.1
CDS	444..4970
Translation	MPICKREGFDLNQMEDKSDTFHDNDWVFCCYITNRIFRDYENYFRHVMAINSTVWQCEATGRENLTYEEALKSERAARKKMEQFKQSLRAPVLLVVEHARQSAMKTLNLMVAKFLRKRYFINEEVTVVTKKNIFYVVVAITPGKAKPVPSTEIYEDTDALQYRLKAVKGDASTEISVPFDHIRRKRLEFNMENLGMFIKNNVTRVDGILRPKPEAYKQYVTDAGISFASIFIGKMPRYSPSKIRRPEAKETSSKKQSTLNKYIVSDVSEESVAKAKEKAKLLAEEMERARLEKAAKLAVLEREKAEKKAQLMERVESECNSLLTKTDDLERCDQRVLPRYKPIVTLLPEKLLGDAFMMREFMHTYAGLLSGVEVFRQNLSFYEMTRALSAREVAGPLSDIILVLLGTVFDLQKEEEDDCAVSYMLGRYTAPSEPYISMSQASRSHYYSKRHFSFKINELPLDALTLSEVLRLHLLSSGAIVNEKAEKWRIMYRNGYASREDPGLELRLQHPHILRSLKNSPVYQLSFSDIMRVIRCLMSQILTYSGTINLIEERMEQTYKAKVELRTLIQLENRRLAALEMSKRKLTHEHHLACSAEELKNDPAKMQSLLEKLNKGIAELHAKSDTQHRKHEAQVLALHSQLFNFLVFLGMDRCYRKYYVLESMPGIFVEHSPDNLDTCLDQPPLNKPQSEISNQAQLPKNRRELRIYLLKLYGEEKSRKRAKQSLENKENQEHRINGDAEPMEVAEVEPLEDPTQHELMMCSGDRRNCIVHDHEQRQRWSYIYKAEDIDELLKSLNPLGHRESGLLEEISGLRTLIKQHVSTCPAEMLTLESDQQRNKFLSAMHSETRKYCEANFGLPEDTNLNEVMQLHLVDRILQFERDIYTGDLGRLKVKDMEKWRNDLLKGNYDPQIKLQWGPGGKLEDLAAAGSDHESHEDYEDEEKSAVPLGKYATQPYRDPGQYLGPASNADESVESADEEGLEPQSEAEMESLQAKVRNMAGALLQVEQAIGRRFLKPPYGMKKWDPKQDALKQECEARLHQWEVSLMESTSYAQLFLHFNMLHDCIQWIRSTNKSLCKVCRRGSDPDKMLLCDECNGGTHMFCMKPKMRSVPKGHWYCNECVKNLGLKNANDEKEKKTAAQRKRKFIVEEEDEDDTEEEDEEETEEQEEEEEDGTDGKSETSTHSSTNKLNERPSRRPRGRPSKKKRLASKEIEVAIVDHDDDGDEATEESEPLGSEVGDEGSVVTKTGEDEDVEENENEEGEESDDDKVCQVCFYDGSEIRCVRCSLYYHLDCAQLKRQPRADFVCKKCKTSETQRPRRRNSHVNGHDDDDDDRVEPPAKRSRSSRNSLRISLDKSARHSGSNNNNNNSSTNNNNHHRRSGRRMNDNLPLNSAALYDLLEQIMKHKASWPFLRPVLTSEVPDYHQIIKTPMDLSKVKSKLNMGAYQLNEEVLSDIQLVFRNCDLYNVEGNEIYDAGCQLEKFVIERCRDMQLPFRPSDMNDEGVAIC

Target ORF information:

RefSeq Version	XM_017286097.1
Organism	Drosophila miranda
Definition	Drosophila miranda bromodomain adjacent to zinc finger domain protein 1A (LOC108155342), mRNA.

Target ORF information:

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

XM_017286097.1

ORF Insert Sequence:

ATGCCGATTT GCAAGCGAGA AGGCTTCGAT CTGAATCAAA TGGAGGACAA GAGTGATACA 
TTCCACGATA ACGACTGGGT CTTCTGCTGC TACATCACCA ATCGCATTTT CCGCGACTAC 
GAAAACTACT TCCGACACGT GATGGCCATC AACTCGACGG TGTGGCAGTG CGAGGCCACC 
GGCCGCGAGA ACCTCACCTA CGAGGAGGCC CTGAAGAGCG AGCGCGCCGC CCGCAAGAAG 
ATGGAACAGT TCAAACAGAG CCTGCGAGCG CCCGTCCTCC TGGTGGTGGA GCATGCCCGC 
CAGTCGGCGA TGAAGACCCT CAACCTGATG GTGGCCAAAT TCCTGCGCAA ACGCTACTTC 
ATTAACGAGG AGGTGACCGT GGTCACCAAG AAGAACATCT TCTATGTGGT GGTGGCAATA 
ACGCCCGGCA AGGCCAAGCC CGTGCCCAGC ACCGAGATAT ACGAGGACAC GGATGCCCTG 
CAGTACCGGC TGAAGGCGGT CAAGGGCGAT GCCAGCACAG AGATCTCTGT GCCCTTCGAT 
CATATACGAC GCAAGCGATT GGAGTTCAAC ATGGAGAACC TTGGGATGTT CATCAAGAAC 
AATGTCACCC GCGTCGACGG TATCCTTCGC CCGAAGCCCG AGGCCTACAA ACAGTACGTG 
ACGGATGCGG GCATCAGCTT TGCGAGCATC TTCATTGGCA AAATGCCCCG CTACTCGCCG 
TCGAAGATAA GGCGACCCGA GGCCAAAGAG ACATCCTCCA AGAAGCAGTC CACCCTGAAC 
AAGTACATTG TGTCGGACGT GTCCGAGGAG TCGGTCGCCA AGGCCAAGGA GAAGGCCAAG 
CTGCTGGCCG AGGAAATGGA GCGTGCGCGC CTGGAGAAGG CGGCCAAGCT GGCCGTCCTG 
GAGCGCGAGA AGGCCGAGAA GAAGGCCCAG CTGATGGAGC GCGTGGAGTC CGAGTGCAAC 
AGTCTGCTGA CAAAGACGGA CGACCTTGAG CGCTGCGATC AGCGGGTGCT GCCACGCTAC 
AAGCCGATTG TGACGCTGCT GCCGGAGAAG CTACTGGGCG ATGCCTTCAT GATGCGCGAG 
TTCATGCACA CATATGCGGG GCTGCTGTCG GGGGTGGAGG TGTTCCGACA GAATCTCAGC 
TTCTATGAGA TGACGCGAGC TCTAAGTGCC CGCGAGGTGG CTGGCCCACT ATCGGACATA 
ATCCTGGTGC TGCTGGGCAC CGTCTTCGAT CTGCAGAAGG AGGAGGAGGA TGACTGCGCG 
GTCAGCTACA TGCTCGGACG CTACACGGCG CCCAGTGAGC CGTACATCAG CATGAGCCAA 
GCCTCTCGCA GCCACTACTA CTCCAAGCGA CACTTCTCCT TCAAGATCAA CGAACTGCCG 
CTGGATGCTC TGACGCTGAG CGAGGTGCTG CGCCTGCATC TGCTCAGCTC CGGGGCCATT 
GTCAACGAGA AGGCCGAGAA GTGGCGGATC ATGTACCGCA ATGGCTACGC CTCGCGCGAA 
GATCCCGGCC TGGAGTTGCG CCTCCAGCAT CCGCACATCC TGCGCAGCCT CAAGAACTCG 
CCGGTATATC AGCTGAGCTT CAGCGACATC ATGCGCGTTA TACGCTGCCT CATGTCCCAG 
ATCCTCACGT ACTCCGGGAC CATCAATCTG ATCGAGGAGC GTATGGAGCA GACGTACAAG 
GCCAAGGTGG AGCTGCGAAC CCTCATCCAG CTGGAGAATC GACGCCTGGC CGCCCTCGAG 
ATGAGCAAAC GCAAGCTGAC GCACGAGCAT CATCTGGCGT GCAGCGCGGA GGAGTTGAAG 
AACGATCCCG CCAAGATGCA GTCGCTGCTC GAGAAGCTAA ACAAGGGCAT AGCGGAGCTG 
CACGCCAAGT CCGACACTCA GCATCGCAAG CACGAGGCGC AGGTCCTCGC CCTGCACTCG 
CAGCTGTTCA ATTTCCTGGT ATTCCTCGGG ATGGATCGCT GCTATCGAAA GTACTATGTG 
CTGGAGTCCA TGCCTGGCAT ATTTGTGGAG CATTCGCCCG ACAATCTGGA CACCTGTCTG 
GATCAGCCGC CCCTGAACAA GCCCCAGTCG GAGATAAGCA ACCAGGCACA GCTGCCGAAG 
AACCGCAGGG AGTTGCGCAT CTATCTGCTG AAGCTGTACG GCGAGGAAAA GTCGCGCAAA 
CGGGCCAAGC AGTCGCTGGA GAACAAAGAG AACCAGGAGC ACCGCATCAA TGGCGACGCA 
GAGCCCATGG AGGTGGCGGA GGTGGAGCCC CTCGAGGATC CCACCCAGCA CGAGCTGATG 
ATGTGCAGCG GGGACCGACG CAACTGCATT GTCCACGATC ACGAACAGCG CCAACGCTGG 
TCGTACATCT ACAAGGCCGA GGACATCGAC GAGCTCCTCA AGAGTCTCAA TCCTCTGGGG 
CATCGTGAGT CTGGTCTCCT CGAGGAGATC AGTGGCCTGC GCACGCTCAT CAAGCAGCAT 
GTGAGCACCT GTCCCGCGGA GATGCTCACG CTGGAGAGCG ACCAGCAGCG CAATAAATTC 
CTCAGCGCCA TGCACTCGGA GACGCGGAAG TACTGTGAGG CCAACTTTGG ACTGCCTGAG 
GACACAAATC TCAATGAGGT GATGCAGCTG CATCTGGTGG ATCGCATCCT GCAGTTCGAG 
AGGGACATCT ACACGGGGGA CTTGGGGCGG TTGAAGGTGA AGGACATGGA GAAGTGGCGC 
AACGATCTTC TGAAGGGCAA CTATGATCCA CAGATCAAGC TGCAGTGGGG TCCCGGTGGC 
AAGCTGGAGG ATCTGGCGGC TGCCGGCTCG GACCACGAAT CGCACGAGGA CTACGAGGAC 
GAGGAGAAGA GCGCCGTGCC CCTGGGCAAG TACGCCACGC AGCCGTATCG GGATCCGGGA 
CAGTATCTGG GCCCCGCATC GAACGCGGAT GAGTCTGTGG AGAGTGCCGA CGAGGAGGGG 
CTAGAGCCGC AGTCGGAGGC GGAGATGGAG TCCTTGCAAG CTAAGGTACG AAACATGGCC 
GGTGCCCTGC TGCAGGTGGA GCAGGCCATT GGCCGGCGGT TCCTGAAACC GCCCTACGGC 
ATGAAGAAGT GGGATCCCAA GCAGGATGCC CTGAAGCAGG AGTGCGAGGC CCGACTGCAT 
CAGTGGGAGG TGTCCCTAAT GGAGAGCACC AGCTATGCGC AGCTCTTTCT GCACTTCAAC 
ATGCTGCACG ACTGCATCCA GTGGATACGA TCGACGAACA AGTCCCTGTG CAAGGTCTGT 
CGGCGTGGCA GCGATCCCGA CAAGATGCTC CTCTGCGACG AGTGCAATGG CGGCACACAC 
ATGTTCTGCA TGAAGCCCAA GATGCGGTCC GTGCCCAAGG GCCATTGGTA TTGCAACGAA 
TGCGTCAAGA ATCTGGGCCT GAAGAACGCC AACGACGAGA AGGAGAAGAA GACGGCGGCC 
CAGAGGAAGC GCAAGTTCAT TGTGGAAGAG GAGGATGAAG ATGATACCGA GGAGGAGGAC 
GAGGAGGAGA CAGAGGAGCA GGAGGAGGAG GAAGAGGATG GCACAGACGG TAAAAGCGAA 
ACGTCTACCC ATTCCTCCAC CAACAAGCTC AATGAGCGCC CCTCTCGTCG TCCCCGAGGG 
CGTCCCAGCA AGAAGAAGCG ACTAGCATCC AAAGAAATTG AAGTAGCTAT CGTTGACCAT 
GATGACGACG GTGATGAGGC GACGGAGGAG AGCGAACCCT TGGGCAGTGA AGTTGGCGAT 
GAGGGTTCCG TGGTAACCAA AACTGGCGAG GATGAGGACG TGGAAGAGAA CGAAAATGAA 
GAAGGCGAAG AATCCGACGA TGACAAAGTG TGCCAGGTGT GCTTCTACGA CGGCAGCGAG 
ATACGCTGTG TCCGCTGCAG CCTCTACTAT CATCTGGATT GTGCCCAATT AAAGCGACAG 
CCGCGAGCGG ATTTCGTCTG CAAGAAGTGC AAGACATCGG AGACGCAACG ACCGAGACGC 
CGAAATAGTC ATGTAAATGG CCACGACGAC GATGATGATG ATCGGGTTGA ACCTCCAGCC 
AAACGCTCGC GCTCCTCTCG CAACTCTCTG CGCATCTCGC TGGACAAATC CGCCCGCCAC 
AGCGGCTCGA ACAACAACAA CAACAATAGC AGCACCAACA ACAATAACCA TCATCGCCGA 
AGCGGTCGTC GAATGAATGA CAATCTGCCG TTGAACAGCG CCGCCTTGTA CGATCTGCTG 
GAGCAGATCA TGAAGCACAA GGCCTCTTGG CCCTTCCTGC GGCCAGTGTT GACATCGGAG 
GTGCCCGACT ACCATCAGAT TATCAAAACG CCGATGGACT TGTCCAAGGT CAAGTCCAAG 
CTGAACATGG GCGCCTATCA GCTGAACGAG GAGGTACTCA GTGACATACA GTTGGTGTTT 
CGTAACTGCG ATCTCTACAA TGTAGAAGGC AATGAGATAT ACGATGCTGG CTGTCAGCTG 
GAGAAGTTCG TAATTGAACG ATGCAGGGAC ATGCAGCTGC CCTTTAGGCC CAGTGACATG 
AATGACGAAG GAGTGGCCAT TTGCTGA